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diff --git a/COPYING b/COPYING deleted file mode 100644 index 623b625..0000000 --- a/COPYING +++ /dev/null @@ -1,340 +0,0 @@ - GNU GENERAL PUBLIC LICENSE - Version 2, June 1991 - - Copyright (C) 1989, 1991 Free Software Foundation, Inc. - 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA - Everyone is permitted to copy and distribute verbatim copies - of this license document, but changing it is not allowed. - - Preamble - - The licenses for most software are designed to take away your -freedom to share and change it. By contrast, the GNU General Public -License is intended to guarantee your freedom to share and change free -software--to make sure the software is free for all its users. This -General Public License applies to most of the Free Software -Foundation's software and to any other program whose authors commit to -using it. (Some other Free Software Foundation software is covered by -the GNU Library General Public License instead.) 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For software which is copyrighted by the Free -Software Foundation, write to the Free Software Foundation; we sometimes -make exceptions for this. Our decision will be guided by the two goals -of preserving the free status of all derivatives of our free software and -of promoting the sharing and reuse of software generally. - - NO WARRANTY - - 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY -FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN -OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES -PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED -OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF -MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS -TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE -PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, -REPAIR OR CORRECTION. - - 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING -WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR -REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, -INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING -OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED -TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY -YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER -PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE -POSSIBILITY OF SUCH DAMAGES. - - END OF TERMS AND CONDITIONS - - How to Apply These Terms to Your New Programs - - If you develop a new program, and you want it to be of the greatest -possible use to the public, the best way to achieve this is to make it -free software which everyone can redistribute and change under these terms. - - To do so, attach the following notices to the program. It is safest -to attach them to the start of each source file to most effectively -convey the exclusion of warranty; and each file should have at least -the "copyright" line and a pointer to where the full notice is found. - - <one line to give the program's name and a brief idea of what it does.> - Copyright (C) <year> <name of author> - - This program is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 2 of the License, or - (at your option) any later version. - - This program is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - You should have received a copy of the GNU General Public License - along with this program; if not, write to the Free Software - Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA - - -Also add information on how to contact you by electronic and paper mail. - -If the program is interactive, make it output a short notice like this -when it starts in an interactive mode: - - Gnomovision version 69, Copyright (C) year name of author - Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. - This is free software, and you are welcome to redistribute it - under certain conditions; type `show c' for details. - -The hypothetical commands `show w' and `show c' should show the appropriate -parts of the General Public License. Of course, the commands you use may -be called something other than `show w' and `show c'; they could even be -mouse-clicks or menu items--whatever suits your program. - -You should also get your employer (if you work as a programmer) or your -school, if any, to sign a "copyright disclaimer" for the program, if -necessary. Here is a sample; alter the names: - - Yoyodyne, Inc., hereby disclaims all copyright interest in the program - `Gnomovision' (which makes passes at compilers) written by James Hacker. - - <signature of Ty Coon>, 1 April 1989 - Ty Coon, President of Vice - -This General Public License does not permit incorporating your program into -proprietary programs. If your program is a subroutine library, you may -consider it more useful to permit linking proprietary applications with the -library. If this is what you want to do, use the GNU Library General -Public License instead of this License. diff --git a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbegin.o b/lib/gcc/x86_64-linux-android/4.9.x/32/crtbegin.o Binary files differdeleted file mode 100644 index 80ae3e0..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbegin.o +++ /dev/null diff --git a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginS.o b/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginS.o Binary files differdeleted file mode 100644 index e2bf67d..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginS.o +++ /dev/null diff --git a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginT.o b/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginT.o Binary files differdeleted file mode 100644 index 80ae3e0..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/32/crtbeginT.o +++ /dev/null diff --git a/lib/gcc/x86_64-linux-android/4.9.x/32/crtend.o b/lib/gcc/x86_64-linux-android/4.9.x/32/crtend.o Binary files differdeleted file mode 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a/lib/gcc/x86_64-linux-android/4.9.x/crtprec80.o +++ /dev/null diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-counter.def b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-counter.def deleted file mode 100644 index e847f05..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-counter.def +++ /dev/null @@ -1,60 +0,0 @@ -/* Definitions for the gcov counters in the GNU compiler. - Copyright (C) 2001-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -You should have received a copy of the GNU General Public License -along with GCC; see the file COPYING3. If not see -<http://www.gnu.org/licenses/>. */ - -/* Before including this file, define a macro: - - DEF_GCOV_COUNTER(COUNTER, NAME, FN_TYPE) - - This macro will be expanded to all supported gcov counters, their - names, or the type of handler functions. FN_TYPE will be - expanded to a handler function, like in gcov_merge, it is - expanded to __gcov_merge ## FN_TYPE. */ - -/* Arc transitions. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_ARCS, "arcs", _add) - -/* Histogram of value inside an interval. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_V_INTERVAL, "interval", _add) - -/* Histogram of exact power2 logarithm of a value. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_V_POW2, "pow2", _add) - -/* The most common value of expression. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_V_SINGLE, "single", _single) - -/* The most common difference between consecutive values of expression. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_V_DELTA, "delta", _delta) - -/* The most common indirect address. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_V_INDIR, "indirect_call", _single) - -/* Compute average value passed to the counter. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_AVERAGE, "average", _add) - -/* IOR of the all values passed to counter. */ -DEF_GCOV_COUNTER(GCOV_COUNTER_IOR, "ior", _ior) - -/* Top N value tracking for indirect calls */ -DEF_GCOV_COUNTER(GCOV_COUNTER_ICALL_TOPNV, "indirect_call_topn", _icall_topn) - -/* Time profile collecting first run of a function */ -DEF_GCOV_COUNTER(GCOV_TIME_PROFILER, "time_profiler", _time_profile) - -/* Top N value tracking for indirect calls */ -DEF_GCOV_COUNTER(GCOV_COUNTER_DIRECT_CALL, "direct_call", _dc) diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.c b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.c deleted file mode 100644 index fc5e32e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.c +++ /dev/null @@ -1,1233 +0,0 @@ -/* File format for coverage information - Copyright (C) 1996-2014 Free Software Foundation, Inc. - Contributed by Bob Manson <manson@cygnus.com>. - Completely remangled by Nathan Sidwell <nathan@codesourcery.com>. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* Routines declared in gcov-io.h. This file should be #included by - another source file, after having #included gcov-io.h. */ - -#if !IN_GCOV -static void gcov_write_block (unsigned); -static gcov_unsigned_t *gcov_write_words (unsigned); -#endif -static const gcov_unsigned_t *gcov_read_words (unsigned); -#if !IN_LIBGCOV -static void gcov_allocate (unsigned); -#endif - -/* Optimum number of gcov_unsigned_t's read from or written to disk. */ -#define GCOV_BLOCK_SIZE (1 << 10) - -GCOV_LINKAGE struct gcov_var -{ - _GCOV_FILE *file; - gcov_position_t start; /* Position of first byte of block */ - unsigned offset; /* Read/write position within the block. */ - unsigned length; /* Read limit in the block. */ - unsigned overread; /* Number of words overread. */ - int error; /* < 0 overflow, > 0 disk error. */ - int mode; /* < 0 writing, > 0 reading */ -#if IN_LIBGCOV - /* Holds one block plus 4 bytes, thus all coverage reads & writes - fit within this buffer and we always can transfer GCOV_BLOCK_SIZE - to and from the disk. libgcov never backtracks and only writes 4 - or 8 byte objects. */ - gcov_unsigned_t buffer[GCOV_BLOCK_SIZE + 1]; -#else - int endian; /* Swap endianness. */ - /* Holds a variable length block, as the compiler can write - strings and needs to backtrack. */ - size_t alloc; - gcov_unsigned_t *buffer; -#endif -} gcov_var; - -/* Save the current position in the gcov file. */ -/* We need to expose this function when compiling for gcov-tool. */ -#ifndef IN_GCOV_TOOL -static inline -#endif -gcov_position_t -gcov_position (void) -{ - return gcov_var.start + gcov_var.offset; -} - -/* Return nonzero if the error flag is set. */ -/* We need to expose this function when compiling for gcov-tool. */ -#ifndef IN_GCOV_TOOL -static inline -#endif -int -gcov_is_error (void) -{ - return gcov_var.file ? gcov_var.error : 1; -} - -#if IN_LIBGCOV -/* Move to beginning of file and initialize for writing. */ -GCOV_LINKAGE inline void -gcov_rewrite (void) -{ - gcc_assert (gcov_var.mode > 0); - gcov_var.mode = -1; - gcov_var.start = 0; - gcov_var.offset = 0; - _GCOV_fseek (gcov_var.file, 0L, SEEK_SET); -} -#endif - -static inline gcov_unsigned_t from_file (gcov_unsigned_t value) -{ -#if !IN_LIBGCOV - if (gcov_var.endian) - { - value = (value >> 16) | (value << 16); - value = ((value & 0xff00ff) << 8) | ((value >> 8) & 0xff00ff); - } -#endif - return value; -} - -/* Open a gcov file. NAME is the name of the file to open and MODE - indicates whether a new file should be created, or an existing file - opened. If MODE is >= 0 an existing file will be opened, if - possible, and if MODE is <= 0, a new file will be created. Use - MODE=0 to attempt to reopen an existing file and then fall back on - creating a new one. If MODE < 0, the file will be opened in - read-only mode. Otherwise it will be opened for modification. - Return zero on failure, >0 on opening an existing file and <0 on - creating a new one. */ - -#ifndef __KERNEL__ -GCOV_LINKAGE int -#if IN_LIBGCOV -gcov_open (const char *name) -#else -gcov_open (const char *name, int mode) -#endif -{ -#if IN_LIBGCOV - const int mode = 0; -#endif -#if GCOV_LOCKED - struct flock s_flock; - int fd; - - s_flock.l_whence = SEEK_SET; - s_flock.l_start = 0; - s_flock.l_len = 0; /* Until EOF. */ - s_flock.l_pid = getpid (); -#endif - - gcc_assert (!gcov_var.file); - gcov_var.start = 0; - gcov_var.offset = gcov_var.length = 0; - gcov_var.overread = -1u; - gcov_var.error = 0; -#if !IN_LIBGCOV - gcov_var.endian = 0; -#endif -#if GCOV_LOCKED - if (mode > 0) - { - /* Read-only mode - acquire a read-lock. */ - s_flock.l_type = F_RDLCK; - /* pass mode (ignored) for compatibility */ - fd = open (name, O_RDONLY, S_IRUSR | S_IWUSR); - } - else if (mode < 0) - { - /* Write mode - acquire a write-lock. */ - s_flock.l_type = F_WRLCK; - fd = open (name, O_RDWR | O_CREAT | O_TRUNC, 0666); - } - else /* mode == 0 */ - { - /* Read-Write mode - acquire a write-lock. */ - s_flock.l_type = F_WRLCK; - fd = open (name, O_RDWR | O_CREAT, 0666); - } - if (fd < 0) - return 0; - - while (fcntl (fd, F_SETLKW, &s_flock) && errno == EINTR) - continue; - - gcov_var.file = fdopen (fd, (mode > 0) ? "rb" : "r+b"); - - if (!gcov_var.file) - { - close (fd); - return 0; - } - - if (mode > 0) - gcov_var.mode = 1; - else if (mode == 0) - { - struct stat st; - - if (fstat (fd, &st) < 0) - { - _GCOV_fclose (gcov_var.file); - gcov_var.file = 0; - return 0; - } - if (st.st_size != 0) - gcov_var.mode = 1; - else - gcov_var.mode = mode * 2 + 1; - } - else - gcov_var.mode = mode * 2 + 1; -#else - if (mode >= 0) - gcov_var.file = _GCOV_fopen (name, (mode > 0) ? "rb" : "r+b"); - - if (gcov_var.file) - gcov_var.mode = 1; - else if (mode <= 0) - { - gcov_var.file = _GCOV_fopen (name, "w+b"); - if (gcov_var.file) - gcov_var.mode = mode * 2 + 1; - } - if (!gcov_var.file) - return 0; -#endif - - setbuf (gcov_var.file, (char *)0); - - return 1; -} -#else /* __KERNEL__ */ - -extern _GCOV_FILE *gcov_current_file; - -GCOV_LINKAGE int -gcov_open (const char *name) -{ - gcov_var.start = 0; - gcov_var.offset = gcov_var.length = 0; - gcov_var.overread = -1u; - gcov_var.error = 0; - gcov_var.file = gcov_current_file; - gcov_var.mode = 1; - - return 1; -} -#endif /* __KERNEL__ */ - - -/* Close the current gcov file. Flushes data to disk. Returns nonzero - on failure or error flag set. */ - -GCOV_LINKAGE int -gcov_close (void) -{ - if (gcov_var.file) - { -#if !IN_GCOV - if (gcov_var.offset && gcov_var.mode < 0) - gcov_write_block (gcov_var.offset); -#endif - _GCOV_fclose (gcov_var.file); - gcov_var.file = 0; - gcov_var.length = 0; - } -#if !IN_LIBGCOV - free (gcov_var.buffer); - gcov_var.alloc = 0; - gcov_var.buffer = 0; -#endif - gcov_var.mode = 0; - return gcov_var.error; -} - -#if !IN_LIBGCOV -/* Check if MAGIC is EXPECTED. Use it to determine endianness of the - file. Returns +1 for same endian, -1 for other endian and zero for - not EXPECTED. */ - -GCOV_LINKAGE int -gcov_magic (gcov_unsigned_t magic, gcov_unsigned_t expected) -{ - if (magic == expected) - return 1; - magic = (magic >> 16) | (magic << 16); - magic = ((magic & 0xff00ff) << 8) | ((magic >> 8) & 0xff00ff); - if (magic == expected) - { - gcov_var.endian = 1; - return -1; - } - return 0; -} -#endif - -#if !IN_LIBGCOV -static void -gcov_allocate (unsigned length) -{ - size_t new_size = gcov_var.alloc; - - if (!new_size) - new_size = GCOV_BLOCK_SIZE; - new_size += length; - new_size *= 2; - - gcov_var.alloc = new_size; - gcov_var.buffer = XRESIZEVAR (gcov_unsigned_t, gcov_var.buffer, new_size << 2); -} -#endif - -#if !IN_GCOV -/* Write out the current block, if needs be. */ - -static void -gcov_write_block (unsigned size) -{ - if (_GCOV_fwrite (gcov_var.buffer, size << 2, 1, gcov_var.file) != 1) - gcov_var.error = 1; - gcov_var.start += size; - gcov_var.offset -= size; -} - -/* Allocate space to write BYTES bytes to the gcov file. Return a - pointer to those bytes, or NULL on failure. */ - -static gcov_unsigned_t * -gcov_write_words (unsigned words) -{ - gcov_unsigned_t *result; - - gcc_assert (gcov_var.mode < 0); -#if IN_LIBGCOV - if (gcov_var.offset >= GCOV_BLOCK_SIZE) - { - gcov_write_block (GCOV_BLOCK_SIZE); - if (gcov_var.offset) - { - gcc_assert (gcov_var.offset == 1); - memcpy (gcov_var.buffer, gcov_var.buffer + GCOV_BLOCK_SIZE, 4); - } - } -#else - if (gcov_var.offset + words > gcov_var.alloc) - gcov_allocate (gcov_var.offset + words); -#endif - result = &gcov_var.buffer[gcov_var.offset]; - gcov_var.offset += words; - - return result; -} - -/* Write unsigned VALUE to coverage file. Sets error flag - appropriately. */ - -GCOV_LINKAGE void -gcov_write_unsigned (gcov_unsigned_t value) -{ - gcov_unsigned_t *buffer = gcov_write_words (1); - - buffer[0] = value; -} - -/* Compute the total length in words required to write NUM_STRINGS - in STRING_ARRAY as unsigned. */ - -GCOV_LINKAGE gcov_unsigned_t -gcov_compute_string_array_len (char **string_array, - gcov_unsigned_t num_strings) -{ - gcov_unsigned_t len = 0, i; - for (i = 0; i < num_strings; i++) - { - gcov_unsigned_t string_len - = (strlen (string_array[i]) + sizeof (gcov_unsigned_t)) - / sizeof (gcov_unsigned_t); - len += string_len; - len += 1; /* Each string is lead by a length. */ - } - return len; -} - -/* Write NUM_STRINGS in STRING_ARRAY as unsigned. */ - -GCOV_LINKAGE void -gcov_write_string_array (char **string_array, gcov_unsigned_t num_strings) -{ - gcov_unsigned_t i, j; - for (j = 0; j < num_strings; j++) - { - gcov_unsigned_t *aligned_string; - gcov_unsigned_t string_len = - (strlen (string_array[j]) + sizeof (gcov_unsigned_t)) / - sizeof (gcov_unsigned_t); - aligned_string = (gcov_unsigned_t *) - alloca ((string_len + 1) * sizeof (gcov_unsigned_t)); - memset (aligned_string, 0, (string_len + 1) * sizeof (gcov_unsigned_t)); - aligned_string[0] = string_len; - strcpy ((char*) (aligned_string + 1), string_array[j]); - for (i = 0; i < (string_len + 1); i++) - gcov_write_unsigned (aligned_string[i]); - } -} - -/* Write counter VALUE to coverage file. Sets error flag - appropriately. */ - -#if IN_LIBGCOV -GCOV_LINKAGE void -gcov_write_counter (gcov_type value) -{ - gcov_unsigned_t *buffer = gcov_write_words (2); - - buffer[0] = (gcov_unsigned_t) value; - if (sizeof (value) > sizeof (gcov_unsigned_t)) - buffer[1] = (gcov_unsigned_t) (value >> 32); - else - buffer[1] = 0; -} -#endif /* IN_LIBGCOV */ - -#if !IN_LIBGCOV -/* Write STRING to coverage file. Sets error flag on file - error, overflow flag on overflow */ - -GCOV_LINKAGE void -gcov_write_string (const char *string) -{ - unsigned length = 0; - unsigned alloc = 0; - gcov_unsigned_t *buffer; - - if (string) - { - length = strlen (string); - alloc = (length + 4) >> 2; - } - - buffer = gcov_write_words (1 + alloc); - - buffer[0] = alloc; - buffer[alloc] = 0; - memcpy (&buffer[1], string, length); -} -#endif - -#if !IN_LIBGCOV -/* Write a tag TAG and reserve space for the record length. Return a - value to be used for gcov_write_length. */ - -GCOV_LINKAGE gcov_position_t -gcov_write_tag (gcov_unsigned_t tag) -{ - gcov_position_t result = gcov_var.start + gcov_var.offset; - gcov_unsigned_t *buffer = gcov_write_words (2); - - buffer[0] = tag; - buffer[1] = 0; - - return result; -} - -/* Write a record length using POSITION, which was returned by - gcov_write_tag. The current file position is the end of the - record, and is restored before returning. Returns nonzero on - overflow. */ - -GCOV_LINKAGE void -gcov_write_length (gcov_position_t position) -{ - unsigned offset; - gcov_unsigned_t length; - gcov_unsigned_t *buffer; - - gcc_assert (gcov_var.mode < 0); - gcc_assert (position + 2 <= gcov_var.start + gcov_var.offset); - gcc_assert (position >= gcov_var.start); - offset = position - gcov_var.start; - length = gcov_var.offset - offset - 2; - buffer = (gcov_unsigned_t *) &gcov_var.buffer[offset]; - buffer[1] = length; - if (gcov_var.offset >= GCOV_BLOCK_SIZE) - gcov_write_block (gcov_var.offset); -} - -#else /* IN_LIBGCOV */ - -/* Write a tag TAG and length LENGTH. */ - -GCOV_LINKAGE void -gcov_write_tag_length (gcov_unsigned_t tag, gcov_unsigned_t length) -{ - gcov_unsigned_t *buffer = gcov_write_words (2); - - buffer[0] = tag; - buffer[1] = length; -} - -/* Write a summary structure to the gcov file. Return nonzero on - overflow. */ - -GCOV_LINKAGE void -gcov_write_summary (gcov_unsigned_t tag, const struct gcov_summary *summary) -{ - unsigned ix, h_ix, bv_ix, h_cnt = 0; - const struct gcov_ctr_summary *csum; - unsigned histo_bitvector[GCOV_HISTOGRAM_BITVECTOR_SIZE]; - - /* Count number of non-zero histogram entries, and fill in a bit vector - of non-zero indices. The histogram is only currently computed for arc - counters. */ - for (bv_ix = 0; bv_ix < GCOV_HISTOGRAM_BITVECTOR_SIZE; bv_ix++) - histo_bitvector[bv_ix] = 0; - csum = &summary->ctrs[GCOV_COUNTER_ARCS]; - for (h_ix = 0; h_ix < GCOV_HISTOGRAM_SIZE; h_ix++) - { - if (csum->histogram[h_ix].num_counters > 0) - { - histo_bitvector[h_ix / 32] |= 1 << (h_ix % 32); - h_cnt++; - } - } - gcov_write_tag_length (tag, GCOV_TAG_SUMMARY_LENGTH (h_cnt)); - gcov_write_unsigned (summary->checksum); - for (csum = summary->ctrs, ix = GCOV_COUNTERS_SUMMABLE; ix--; csum++) - { - gcov_write_unsigned (csum->num); - gcov_write_unsigned (csum->runs); - gcov_write_counter (csum->sum_all); - gcov_write_counter (csum->run_max); - gcov_write_counter (csum->sum_max); - if (ix != GCOV_COUNTER_ARCS) - { - for (bv_ix = 0; bv_ix < GCOV_HISTOGRAM_BITVECTOR_SIZE; bv_ix++) - gcov_write_unsigned (0); - continue; - } - for (bv_ix = 0; bv_ix < GCOV_HISTOGRAM_BITVECTOR_SIZE; bv_ix++) - gcov_write_unsigned (histo_bitvector[bv_ix]); - for (h_ix = 0; h_ix < GCOV_HISTOGRAM_SIZE; h_ix++) - { - if (!csum->histogram[h_ix].num_counters) - continue; - gcov_write_unsigned (csum->histogram[h_ix].num_counters); - gcov_write_counter (csum->histogram[h_ix].min_value); - gcov_write_counter (csum->histogram[h_ix].cum_value); - } - } -} -#endif /* IN_LIBGCOV */ - -#endif /*!IN_GCOV */ - -/* Return a pointer to read BYTES bytes from the gcov file. Returns - NULL on failure (read past EOF). */ - -static const gcov_unsigned_t * -gcov_read_words (unsigned words) -{ - const gcov_unsigned_t *result; - unsigned excess = gcov_var.length - gcov_var.offset; - - gcc_assert (gcov_var.mode > 0); - if (excess < words) - { - gcov_var.start += gcov_var.offset; -#if IN_LIBGCOV - if (excess) - { - gcc_assert (excess == 1); - memcpy (gcov_var.buffer, gcov_var.buffer + gcov_var.offset, 4); - } -#else - memmove (gcov_var.buffer, gcov_var.buffer + gcov_var.offset, excess * 4); -#endif - gcov_var.offset = 0; - gcov_var.length = excess; -#if IN_LIBGCOV - gcc_assert (!gcov_var.length || gcov_var.length == 1); - excess = GCOV_BLOCK_SIZE; -#else - if (gcov_var.length + words > gcov_var.alloc) - gcov_allocate (gcov_var.length + words); - excess = gcov_var.alloc - gcov_var.length; -#endif - excess = _GCOV_fread (gcov_var.buffer + gcov_var.length, - 1, excess << 2, gcov_var.file) >> 2; - gcov_var.length += excess; - if (gcov_var.length < words) - { - gcov_var.overread += words - gcov_var.length; - gcov_var.length = 0; - return 0; - } - } - result = &gcov_var.buffer[gcov_var.offset]; - gcov_var.offset += words; - return result; -} - -/* Read unsigned value from a coverage file. Sets error flag on file - error, overflow flag on overflow */ - -GCOV_LINKAGE gcov_unsigned_t -gcov_read_unsigned (void) -{ - gcov_unsigned_t value; - const gcov_unsigned_t *buffer = gcov_read_words (1); - - if (!buffer) - return 0; - value = from_file (buffer[0]); - return value; -} - -/* Read counter value from a coverage file. Sets error flag on file - error, overflow flag on overflow */ - -GCOV_LINKAGE gcov_type -gcov_read_counter (void) -{ - gcov_type value; - const gcov_unsigned_t *buffer = gcov_read_words (2); - - if (!buffer) - return 0; - value = from_file (buffer[0]); - if (sizeof (value) > sizeof (gcov_unsigned_t)) - value |= ((gcov_type) from_file (buffer[1])) << 32; - else if (buffer[1]) - gcov_var.error = -1; - - return value; -} - -/* We need to expose the below function when compiling for gcov-tool. */ - -#if !IN_LIBGCOV || defined (IN_GCOV_TOOL) -/* Read string from coverage file. Returns a pointer to a static - buffer, or NULL on empty string. You must copy the string before - calling another gcov function. */ - -GCOV_LINKAGE const char * -gcov_read_string (void) -{ - unsigned length = gcov_read_unsigned (); - - if (!length) - return 0; - - return (const char *) gcov_read_words (length); -} -#endif - -#ifdef __KERNEL__ -static int -k_popcountll (long long x) -{ - int c = 0; - while (x) - { - c++; - x &= (x-1); - } - return c; -} -#endif - -GCOV_LINKAGE void -gcov_read_summary (struct gcov_summary *summary) -{ - unsigned ix, h_ix, bv_ix, h_cnt = 0; - struct gcov_ctr_summary *csum; - unsigned histo_bitvector[GCOV_HISTOGRAM_BITVECTOR_SIZE]; - unsigned cur_bitvector; - - summary->checksum = gcov_read_unsigned (); - for (csum = summary->ctrs, ix = GCOV_COUNTERS_SUMMABLE; ix--; csum++) - { - csum->num = gcov_read_unsigned (); - csum->runs = gcov_read_unsigned (); - csum->sum_all = gcov_read_counter (); - csum->run_max = gcov_read_counter (); - csum->sum_max = gcov_read_counter (); - memset (csum->histogram, 0, - sizeof (gcov_bucket_type) * GCOV_HISTOGRAM_SIZE); - for (bv_ix = 0; bv_ix < GCOV_HISTOGRAM_BITVECTOR_SIZE; bv_ix++) - { - histo_bitvector[bv_ix] = gcov_read_unsigned (); -#if IN_LIBGCOV - /* When building libgcov we don't include system.h, which includes - hwint.h (where popcount_hwi is declared). However, libgcov.a - is built by the bootstrapped compiler and therefore the builtins - are always available. */ -#ifndef __KERNEL__ - h_cnt += __builtin_popcount (histo_bitvector[bv_ix]); -#else - h_cnt += k_popcountll (histo_bitvector[bv_ix]); -#endif -#else - h_cnt += popcount_hwi (histo_bitvector[bv_ix]); -#endif - } - bv_ix = 0; - h_ix = 0; - cur_bitvector = 0; - while (h_cnt--) - { - /* Find the index corresponding to the next entry we will read in. - First find the next non-zero bitvector and re-initialize - the histogram index accordingly, then right shift and increment - the index until we find a set bit. */ - while (!cur_bitvector) - { - h_ix = bv_ix * 32; - gcc_assert (bv_ix < GCOV_HISTOGRAM_BITVECTOR_SIZE); - cur_bitvector = histo_bitvector[bv_ix++]; - } - while (!(cur_bitvector & 0x1)) - { - h_ix++; - cur_bitvector >>= 1; - } - gcc_assert (h_ix < GCOV_HISTOGRAM_SIZE); - - csum->histogram[h_ix].num_counters = gcov_read_unsigned (); - csum->histogram[h_ix].min_value = gcov_read_counter (); - csum->histogram[h_ix].cum_value = gcov_read_counter (); - /* Shift off the index we are done with and increment to the - corresponding next histogram entry. */ - cur_bitvector >>= 1; - h_ix++; - } - } -} - -/* Read LENGTH words (unsigned type) from a zero profile fixup record with the - number of function flags saved in NUM_FNS. Returns the int flag array, which - should be deallocated by caller, or NULL on error. */ - -GCOV_LINKAGE int * -gcov_read_comdat_zero_fixup (gcov_unsigned_t length, - gcov_unsigned_t *num_fns) -{ -#ifndef __KERNEL__ - unsigned ix, f_ix; - gcov_unsigned_t num = gcov_read_unsigned (); - /* The length consists of 1 word to hold the number of functions, - plus enough 32-bit words to hold 1 bit/function. */ - gcc_assert ((num + 31) / 32 + 1 == length); - int *zero_fixup_flags = (int *) xcalloc (num, sizeof (int)); - for (ix = 0; ix < length - 1; ix++) - { - gcov_unsigned_t bitvector = gcov_read_unsigned (); - f_ix = ix * 32; - while (bitvector) - { - if (bitvector & 0x1) - zero_fixup_flags[f_ix] = 1; - f_ix++; - bitvector >>= 1; - } - } - *num_fns = num; - return zero_fixup_flags; -#else - return NULL; -#endif -} - -/* Read NUM_STRINGS strings (as an unsigned array) in STRING_ARRAY, and return - the number of words read. */ - -GCOV_LINKAGE gcov_unsigned_t -gcov_read_string_array (char **string_array, gcov_unsigned_t num_strings) -{ - gcov_unsigned_t i, j, len = 0; - - for (j = 0; j < num_strings; j++) - { - gcov_unsigned_t string_len = gcov_read_unsigned (); - string_array[j] = - (char *) xmalloc (string_len * sizeof (gcov_unsigned_t)); - for (i = 0; i < string_len; i++) - ((gcov_unsigned_t *) string_array[j])[i] = gcov_read_unsigned (); - len += (string_len + 1); - } - return len; -} - -/* Read LENGTH words (unsigned type) from a build info record with the number - of strings read saved in NUM_STRINGS. Returns the string array, which - should be deallocated by caller, or NULL on error. */ - -GCOV_LINKAGE char ** -gcov_read_build_info (gcov_unsigned_t length, gcov_unsigned_t *num_strings) -{ - gcov_unsigned_t num = gcov_read_unsigned (); - char **build_info_strings = (char **) - xmalloc (sizeof (char *) * num); - gcov_unsigned_t len = gcov_read_string_array (build_info_strings, - num); - if (len != length - 1) - return NULL; - *num_strings = num; - return build_info_strings; -} - -#if (!IN_LIBGCOV && IN_GCOV != 1) || defined (IN_GCOV_TOOL) -/* Read LEN words (unsigned type) and construct MOD_INFO. */ - -GCOV_LINKAGE void -gcov_read_module_info (struct gcov_module_info *mod_info, - gcov_unsigned_t len) -{ - gcov_unsigned_t src_filename_len, filename_len, i, num_strings; - mod_info->ident = gcov_read_unsigned (); - mod_info->is_primary = gcov_read_unsigned (); - mod_info->flags = gcov_read_unsigned (); - mod_info->lang = gcov_read_unsigned (); - mod_info->ggc_memory = gcov_read_unsigned (); - mod_info->num_quote_paths = gcov_read_unsigned (); - mod_info->num_bracket_paths = gcov_read_unsigned (); - mod_info->num_system_paths = gcov_read_unsigned (); - mod_info->num_cpp_defines = gcov_read_unsigned (); - mod_info->num_cpp_includes = gcov_read_unsigned (); - mod_info->num_cl_args = gcov_read_unsigned (); - len -= 11; - - filename_len = gcov_read_unsigned (); - mod_info->da_filename = (char *) xmalloc (filename_len * - sizeof (gcov_unsigned_t)); - for (i = 0; i < filename_len; i++) - ((gcov_unsigned_t *) mod_info->da_filename)[i] = gcov_read_unsigned (); - len -= (filename_len + 1); - - src_filename_len = gcov_read_unsigned (); - mod_info->source_filename = (char *) xmalloc (src_filename_len * - sizeof (gcov_unsigned_t)); - for (i = 0; i < src_filename_len; i++) - ((gcov_unsigned_t *) mod_info->source_filename)[i] = gcov_read_unsigned (); - len -= (src_filename_len + 1); - - num_strings = mod_info->num_quote_paths + mod_info->num_bracket_paths - + mod_info->num_system_paths - + mod_info->num_cpp_defines + mod_info->num_cpp_includes - + mod_info->num_cl_args; - len -= gcov_read_string_array (mod_info->string_array, num_strings); - gcc_assert (!len); -} -#endif - -/* We need to expose the below function when compiling for gcov-tool. */ - -#if !IN_LIBGCOV || defined (IN_GCOV_TOOL) -/* Reset to a known position. BASE should have been obtained from - gcov_position, LENGTH should be a record length. */ - -GCOV_LINKAGE void -gcov_sync (gcov_position_t base, gcov_unsigned_t length) -{ - gcc_assert (gcov_var.mode > 0); - base += length; - if (base - gcov_var.start <= gcov_var.length) - gcov_var.offset = base - gcov_var.start; - else - { - gcov_var.offset = gcov_var.length = 0; - _GCOV_fseek (gcov_var.file, base << 2, SEEK_SET); - gcov_var.start = _GCOV_ftell (gcov_var.file) >> 2; - } -} -#endif - -#if IN_LIBGCOV -/* Move to a given position in a gcov file. */ - -GCOV_LINKAGE void -gcov_seek (gcov_position_t base) -{ - gcc_assert (gcov_var.mode < 0); - if (gcov_var.offset) - gcov_write_block (gcov_var.offset); - _GCOV_fseek (gcov_var.file, base << 2, SEEK_SET); - gcov_var.start = _GCOV_ftell (gcov_var.file) >> 2; -} - -/* Truncate the gcov file at the current position. */ - -GCOV_LINKAGE void -gcov_truncate (void) -{ -#ifdef __KERNEL__ - gcc_assert (0); -#else - long offs; - int filenum; - gcc_assert (gcov_var.mode < 0); - if (gcov_var.offset) - gcov_write_block (gcov_var.offset); - offs = _GCOV_ftell (gcov_var.file); - filenum = fileno (gcov_var.file); - if (offs == -1 || filenum == -1 || _GCOV_ftruncate (filenum, offs)) - gcov_var.error = 1; -#endif /* __KERNEL__ */ -} -#endif - -#if IN_GCOV > 0 -/* Return the modification time of the current gcov file. */ - -GCOV_LINKAGE time_t -gcov_time (void) -{ - struct stat status; - - if (fstat (fileno (gcov_var.file), &status)) - return 0; - else - return status.st_mtime; -} -#endif /* IN_GCOV */ - -#if !IN_GCOV -/* Determine the index into histogram for VALUE. */ - -#if IN_LIBGCOV -static unsigned -#else -GCOV_LINKAGE unsigned -#endif -gcov_histo_index (gcov_type value) -{ - gcov_type_unsigned v = (gcov_type_unsigned)value; - unsigned r = 0; - unsigned prev2bits = 0; - - /* Find index into log2 scale histogram, where each of the log2 - sized buckets is divided into 4 linear sub-buckets for better - focus in the higher buckets. */ - - /* Find the place of the most-significant bit set. */ - if (v > 0) - { -#if IN_LIBGCOV - /* When building libgcov we don't include system.h, which includes - hwint.h (where floor_log2 is declared). However, libgcov.a - is built by the bootstrapped compiler and therefore the builtins - are always available. */ - r = sizeof (long long) * __CHAR_BIT__ - 1 - __builtin_clzll (v); -#else - /* We use floor_log2 from hwint.c, which takes a HOST_WIDE_INT - that is either 32 or 64 bits, and gcov_type_unsigned may be 64 bits. - Need to check for the case where gcov_type_unsigned is 64 bits - and HOST_WIDE_INT is 32 bits and handle it specially. */ -#if HOST_BITS_PER_WIDEST_INT == HOST_BITS_PER_WIDE_INT - r = floor_log2 (v); -#elif HOST_BITS_PER_WIDEST_INT == 2 * HOST_BITS_PER_WIDE_INT - HOST_WIDE_INT hwi_v = v >> HOST_BITS_PER_WIDE_INT; - if (hwi_v) - r = floor_log2 (hwi_v) + HOST_BITS_PER_WIDE_INT; - else - r = floor_log2 ((HOST_WIDE_INT)v); -#else - gcc_unreachable (); -#endif -#endif - } - - /* If at most the 2 least significant bits are set (value is - 0 - 3) then that value is our index into the lowest set of - four buckets. */ - if (r < 2) - return (unsigned)value; - - gcc_assert (r < 64); - - /* Find the two next most significant bits to determine which - of the four linear sub-buckets to select. */ - prev2bits = (v >> (r - 2)) & 0x3; - /* Finally, compose the final bucket index from the log2 index and - the next 2 bits. The minimum r value at this point is 2 since we - returned above if r was 2 or more, so the minimum bucket at this - point is 4. */ - return (r - 1) * 4 + prev2bits; -} - -/* Merge SRC_HISTO into TGT_HISTO. The counters are assumed to be in - the same relative order in both histograms, and are matched up - and merged in reverse order. Each counter is assigned an equal portion of - its entry's original cumulative counter value when computing the - new merged cum_value. */ - -static void gcov_histogram_merge (gcov_bucket_type *tgt_histo, - gcov_bucket_type *src_histo) -{ - int src_i, tgt_i, tmp_i = 0; - unsigned src_num, tgt_num, merge_num; - gcov_type src_cum, tgt_cum, merge_src_cum, merge_tgt_cum, merge_cum; - gcov_type merge_min; - gcov_bucket_type tmp_histo[GCOV_HISTOGRAM_SIZE]; - int src_done = 0; - - memset (tmp_histo, 0, sizeof (gcov_bucket_type) * GCOV_HISTOGRAM_SIZE); - - /* Assume that the counters are in the same relative order in both - histograms. Walk the histograms from largest to smallest entry, - matching up and combining counters in order. */ - src_num = 0; - src_cum = 0; - src_i = GCOV_HISTOGRAM_SIZE - 1; - for (tgt_i = GCOV_HISTOGRAM_SIZE - 1; tgt_i >= 0 && !src_done; tgt_i--) - { - tgt_num = tgt_histo[tgt_i].num_counters; - tgt_cum = tgt_histo[tgt_i].cum_value; - /* Keep going until all of the target histogram's counters at this - position have been matched and merged with counters from the - source histogram. */ - while (tgt_num > 0 && !src_done) - { - /* If this is either the first time through this loop or we just - exhausted the previous non-zero source histogram entry, look - for the next non-zero source histogram entry. */ - if (!src_num) - { - /* Locate the next non-zero entry. */ - while (src_i >= 0 && !src_histo[src_i].num_counters) - src_i--; - /* If source histogram has fewer counters, then just copy over the - remaining target counters and quit. */ - if (src_i < 0) - { - tmp_histo[tgt_i].num_counters += tgt_num; - tmp_histo[tgt_i].cum_value += tgt_cum; - if (!tmp_histo[tgt_i].min_value || - tgt_histo[tgt_i].min_value < tmp_histo[tgt_i].min_value) - tmp_histo[tgt_i].min_value = tgt_histo[tgt_i].min_value; - while (--tgt_i >= 0) - { - tmp_histo[tgt_i].num_counters - += tgt_histo[tgt_i].num_counters; - tmp_histo[tgt_i].cum_value += tgt_histo[tgt_i].cum_value; - if (!tmp_histo[tgt_i].min_value || - tgt_histo[tgt_i].min_value - < tmp_histo[tgt_i].min_value) - tmp_histo[tgt_i].min_value = tgt_histo[tgt_i].min_value; - } - - src_done = 1; - break; - } - - src_num = src_histo[src_i].num_counters; - src_cum = src_histo[src_i].cum_value; - } - - /* The number of counters to merge on this pass is the minimum - of the remaining counters from the current target and source - histogram entries. */ - merge_num = tgt_num; - if (src_num < merge_num) - merge_num = src_num; - - /* The merged min_value is the sum of the min_values from target - and source. */ - merge_min = tgt_histo[tgt_i].min_value + src_histo[src_i].min_value; - - /* Compute the portion of source and target entries' cum_value - that will be apportioned to the counters being merged. - The total remaining cum_value from each entry is divided - equally among the counters from that histogram entry if we - are not merging all of them. */ - merge_src_cum = src_cum; - if (merge_num < src_num) - merge_src_cum = merge_num * src_cum / src_num; - merge_tgt_cum = tgt_cum; - if (merge_num < tgt_num) - merge_tgt_cum = merge_num * tgt_cum / tgt_num; - /* The merged cum_value is the sum of the source and target - components. */ - merge_cum = merge_src_cum + merge_tgt_cum; - - /* Update the remaining number of counters and cum_value left - to be merged from this source and target entry. */ - src_cum -= merge_src_cum; - tgt_cum -= merge_tgt_cum; - src_num -= merge_num; - tgt_num -= merge_num; - - /* The merged counters get placed in the new merged histogram - at the entry for the merged min_value. */ - tmp_i = gcov_histo_index (merge_min); - gcc_assert (tmp_i < GCOV_HISTOGRAM_SIZE); - tmp_histo[tmp_i].num_counters += merge_num; - tmp_histo[tmp_i].cum_value += merge_cum; - if (!tmp_histo[tmp_i].min_value || - merge_min < tmp_histo[tmp_i].min_value) - tmp_histo[tmp_i].min_value = merge_min; - - /* Ensure the search for the next non-zero src_histo entry starts - at the next smallest histogram bucket. */ - if (!src_num) - src_i--; - } - } - - gcc_assert (tgt_i < 0); - - /* In the case where there were more counters in the source histogram, - accumulate the remaining unmerged cumulative counter values. Add - those to the smallest non-zero target histogram entry. Otherwise, - the total cumulative counter values in the histogram will be smaller - than the sum_all stored in the summary, which will complicate - computing the working set information from the histogram later on. */ - if (src_num) - src_i--; - while (src_i >= 0) - { - src_cum += src_histo[src_i].cum_value; - src_i--; - } - /* At this point, tmp_i should be the smallest non-zero entry in the - tmp_histo. */ - gcc_assert (tmp_i >= 0 && tmp_i < GCOV_HISTOGRAM_SIZE - && tmp_histo[tmp_i].num_counters > 0); - tmp_histo[tmp_i].cum_value += src_cum; - - /* Finally, copy the merged histogram into tgt_histo. */ - memcpy (tgt_histo, tmp_histo, - sizeof (gcov_bucket_type) * GCOV_HISTOGRAM_SIZE); -} -#endif /* !IN_GCOV */ - -/* This is used by gcov-dump (IN_GCOV == -1) and in the compiler - (!IN_GCOV && !IN_LIBGCOV). */ -#if IN_GCOV <= 0 && !IN_LIBGCOV -/* Compute the working set information from the counter histogram in - the profile summary. This is an array of information corresponding to a - range of percentages of the total execution count (sum_all), and includes - the number of counters required to cover that working set percentage and - the minimum counter value in that working set. */ - -GCOV_LINKAGE void -compute_working_sets (const struct gcov_ctr_summary *summary, - gcov_working_set_t *gcov_working_sets) -{ - gcov_type working_set_cum_values[NUM_GCOV_WORKING_SETS]; - gcov_type ws_cum_hotness_incr; - gcov_type cum, tmp_cum; - const gcov_bucket_type *histo_bucket; - unsigned ws_ix, c_num, count; - int h_ix; - - /* Compute the amount of sum_all that the cumulative hotness grows - by in each successive working set entry, which depends on the - number of working set entries. */ - ws_cum_hotness_incr = summary->sum_all / NUM_GCOV_WORKING_SETS; - - /* Next fill in an array of the cumulative hotness values corresponding - to each working set summary entry we are going to compute below. - Skip 0% statistics, which can be extrapolated from the - rest of the summary data. */ - cum = ws_cum_hotness_incr; - for (ws_ix = 0; ws_ix < NUM_GCOV_WORKING_SETS; - ws_ix++, cum += ws_cum_hotness_incr) - working_set_cum_values[ws_ix] = cum; - /* The last summary entry is reserved for (roughly) 99.9% of the - working set. Divide by 1024 so it becomes a shift, which gives - almost exactly 99.9%. */ - working_set_cum_values[NUM_GCOV_WORKING_SETS-1] - = summary->sum_all - summary->sum_all/1024; - - /* Next, walk through the histogram in decending order of hotness - and compute the statistics for the working set summary array. - As histogram entries are accumulated, we check to see which - working set entries have had their expected cum_value reached - and fill them in, walking the working set entries in increasing - size of cum_value. */ - ws_ix = 0; /* The current entry into the working set array. */ - cum = 0; /* The current accumulated counter sum. */ - count = 0; /* The current accumulated count of block counters. */ - for (h_ix = GCOV_HISTOGRAM_SIZE - 1; - h_ix >= 0 && ws_ix < NUM_GCOV_WORKING_SETS; h_ix--) - { - histo_bucket = &summary->histogram[h_ix]; - - /* If we haven't reached the required cumulative counter value for - the current working set percentage, simply accumulate this histogram - entry into the running sums and continue to the next histogram - entry. */ - if (cum + histo_bucket->cum_value < working_set_cum_values[ws_ix]) - { - cum += histo_bucket->cum_value; - count += histo_bucket->num_counters; - continue; - } - - /* If adding the current histogram entry's cumulative counter value - causes us to exceed the current working set size, then estimate - how many of this histogram entry's counter values are required to - reach the working set size, and fill in working set entries - as we reach their expected cumulative value. */ - for (c_num = 0, tmp_cum = cum; - c_num < histo_bucket->num_counters && ws_ix < NUM_GCOV_WORKING_SETS; - c_num++) - { - count++; - /* If we haven't reached the last histogram entry counter, add - in the minimum value again. This will underestimate the - cumulative sum so far, because many of the counter values in this - entry may have been larger than the minimum. We could add in the - average value every time, but that would require an expensive - divide operation. */ - if (c_num + 1 < histo_bucket->num_counters) - tmp_cum += histo_bucket->min_value; - /* If we have reached the last histogram entry counter, then add - in the entire cumulative value. */ - else - tmp_cum = cum + histo_bucket->cum_value; - - /* Next walk through successive working set entries and fill in - the statistics for any whose size we have reached by accumulating - this histogram counter. */ - while (ws_ix < NUM_GCOV_WORKING_SETS - && tmp_cum >= working_set_cum_values[ws_ix]) - { - gcov_working_sets[ws_ix].num_counters = count; - gcov_working_sets[ws_ix].min_counter - = histo_bucket->min_value; - ws_ix++; - } - } - /* Finally, update the running cumulative value since we were - using a temporary above. */ - cum += histo_bucket->cum_value; - } - gcc_assert (ws_ix == NUM_GCOV_WORKING_SETS); -} -#endif /* IN_GCOV <= 0 && !IN_LIBGCOV */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.h b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.h deleted file mode 100644 index 895ff98..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-io.h +++ /dev/null @@ -1,531 +0,0 @@ -/* File format for coverage information - Copyright (C) 1996-2014 Free Software Foundation, Inc. - Contributed by Bob Manson <manson@cygnus.com>. - Completely remangled by Nathan Sidwell <nathan@codesourcery.com>. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - - -/* Coverage information is held in two files. A notes file, which is - generated by the compiler, and a data file, which is generated by - the program under test. Both files use a similar structure. We do - not attempt to make these files backwards compatible with previous - versions, as you only need coverage information when developing a - program. We do hold version information, so that mismatches can be - detected, and we use a format that allows tools to skip information - they do not understand or are not interested in. - - Numbers are recorded in the 32 bit unsigned binary form of the - endianness of the machine generating the file. 64 bit numbers are - stored as two 32 bit numbers, the low part first. Strings are - padded with 1 to 4 NUL bytes, to bring the length up to a multiple - of 4. The number of 4 bytes is stored, followed by the padded - string. Zero length and NULL strings are simply stored as a length - of zero (they have no trailing NUL or padding). - - int32: byte3 byte2 byte1 byte0 | byte0 byte1 byte2 byte3 - int64: int32:low int32:high - string: int32:0 | int32:length char* char:0 padding - padding: | char:0 | char:0 char:0 | char:0 char:0 char:0 - item: int32 | int64 | string - - The basic format of the files is - - file : int32:magic int32:version int32:stamp record* - - The magic ident is different for the notes and the data files. The - magic ident is used to determine the endianness of the file, when - reading. The version is the same for both files and is derived - from gcc's version number. The stamp value is used to synchronize - note and data files and to synchronize merging within a data - file. It need not be an absolute time stamp, merely a ticker that - increments fast enough and cycles slow enough to distinguish - different compile/run/compile cycles. - - Although the ident and version are formally 32 bit numbers, they - are derived from 4 character ASCII strings. The version number - consists of the single character major version number, a two - character minor version number (leading zero for versions less than - 10), and a single character indicating the status of the release. - That will be 'e' experimental, 'p' prerelease and 'r' for release. - Because, by good fortune, these are in alphabetical order, string - collating can be used to compare version strings. Be aware that - the 'e' designation will (naturally) be unstable and might be - incompatible with itself. For gcc 3.4 experimental, it would be - '304e' (0x33303465). When the major version reaches 10, the - letters A-Z will be used. Assuming minor increments releases every - 6 months, we have to make a major increment every 50 years. - Assuming major increments releases every 5 years, we're ok for the - next 155 years -- good enough for me. - - A record has a tag, length and variable amount of data. - - record: header data - header: int32:tag int32:length - data: item* - - Records are not nested, but there is a record hierarchy. Tag - numbers reflect this hierarchy. Tags are unique across note and - data files. Some record types have a varying amount of data. The - LENGTH is the number of 4bytes that follow and is usually used to - determine how much data. The tag value is split into 4 8-bit - fields, one for each of four possible levels. The most significant - is allocated first. Unused levels are zero. Active levels are - odd-valued, so that the LSB of the level is one. A sub-level - incorporates the values of its superlevels. This formatting allows - you to determine the tag hierarchy, without understanding the tags - themselves, and is similar to the standard section numbering used - in technical documents. Level values [1..3f] are used for common - tags, values [41..9f] for the notes file and [a1..ff] for the data - file. - - The notes file contains the following records - note: unit function-graph* - unit: header int32:checksum string:source - function-graph: announce_function basic_blocks {arcs | lines}* - announce_function: header int32:ident - int32:lineno_checksum int32:cfg_checksum - string:name string:source int32:lineno - basic_block: header int32:flags* - arcs: header int32:block_no arc* - arc: int32:dest_block int32:flags - lines: header int32:block_no line* - int32:0 string:NULL - line: int32:line_no | int32:0 string:filename - - The BASIC_BLOCK record holds per-bb flags. The number of blocks - can be inferred from its data length. There is one ARCS record per - basic block. The number of arcs from a bb is implicit from the - data length. It enumerates the destination bb and per-arc flags. - There is one LINES record per basic block, it enumerates the source - lines which belong to that basic block. Source file names are - introduced by a line number of 0, following lines are from the new - source file. The initial source file for the function is NULL, but - the current source file should be remembered from one LINES record - to the next. The end of a block is indicated by an empty filename - - this does not reset the current source file. Note there is no - ordering of the ARCS and LINES records: they may be in any order, - interleaved in any manner. The current filename follows the order - the LINES records are stored in the file, *not* the ordering of the - blocks they are for. - - The data file contains the following records. - data: {unit summary:program* build_info zero_fixup function-data*}* - unit: header int32:checksum - function-data: announce_function present counts - announce_function: header int32:ident - int32:lineno_checksum int32:cfg_checksum - present: header int32:present - counts: header int64:count* - summary: int32:checksum {count-summary}GCOV_COUNTERS_SUMMABLE - count-summary: int32:num int32:runs int64:sum - int64:max int64:sum_max histogram - histogram: {int32:bitvector}8 histogram-buckets* - histogram-buckets: int32:num int64:min int64:sum - build_info: string:info* - zero_fixup: int32:num int32:bitvector* - - The ANNOUNCE_FUNCTION record is the same as that in the note file, - but without the source location. The COUNTS gives the - counter values for instrumented features. The about the whole - program. The checksum is used for whole program summaries, and - disambiguates different programs which include the same - instrumented object file. There may be several program summaries, - each with a unique checksum. The object summary's checksum is - zero. Note that the data file might contain information from - several runs concatenated, or the data might be merged. - - BUILD_INFO record contains a list of strings that is used - to include in the data file information about the profile generate - build. For example, it can be used to include source revision - information that is useful in diagnosing profile mis-matches. - - ZERO_FIXUP record contains a count of functions in the gcda file - and an array of bitvectors indexed by the function index's in the - function-data section. Each bit flags whether the function was a - COMDAT that had all-zero profiles that was fixed up by dyn-ipa - using profiles from functions with matching checksums in other modules. - - This file is included by both the compiler, gcov tools and the - runtime support library libgcov. IN_LIBGCOV and IN_GCOV are used to - distinguish which case is which. If IN_LIBGCOV is nonzero, - libgcov is being built. If IN_GCOV is nonzero, the gcov tools are - being built. Otherwise the compiler is being built. IN_GCOV may be - positive or negative. If positive, we are compiling a tool that - requires additional functions (see the code for knowledge of what - those functions are). */ - -#ifndef GCC_GCOV_IO_H -#define GCC_GCOV_IO_H - -#ifndef __KERNEL__ -# define _GCOV_FILE FILE -# define _GCOV_fclose fclose -# define _GCOV_ftell ftell -# define _GCOV_fseek fseek -# define _GCOV_ftruncate ftruncate -# define _GCOV_fread fread -# define _GCOV_fwrite fwrite -# define _GCOV_fread fread -# define _GCOV_fileno fileno -# define _GCOV_fopen fopen -#endif - -#ifndef IN_LIBGCOV -/* About the host */ - -typedef unsigned gcov_unsigned_t; -typedef unsigned gcov_position_t; - -#if LONG_LONG_TYPE_SIZE > 32 -#define GCOV_TYPE_ATOMIC_FETCH_ADD_FN __atomic_fetch_add_8 -#define GCOV_TYPE_ATOMIC_FETCH_ADD BUILT_IN_ATOMIC_FETCH_ADD_8 -#else -#define GCOV_TYPE_ATOMIC_FETCH_ADD_FN __atomic_fetch_add_4 -#define GCOV_TYPE_ATOMIC_FETCH_ADD BUILT_IN_ATOMIC_FETCH_ADD_4 -#endif -#define PROFILE_GEN_EDGE_ATOMIC (flag_profile_gen_atomic == 1 || \ - flag_profile_gen_atomic == 3) -#define PROFILE_GEN_VALUE_ATOMIC (flag_profile_gen_atomic == 2 || \ - flag_profile_gen_atomic == 3) - -/* gcov_type is typedef'd elsewhere for the compiler */ -#if IN_GCOV -#define GCOV_LINKAGE static -typedef HOST_WIDEST_INT gcov_type; -typedef unsigned HOST_WIDEST_INT gcov_type_unsigned; -#if IN_GCOV > 0 -#include <sys/types.h> -#endif - -#define FUNC_ID_WIDTH HOST_BITS_PER_WIDE_INT/2 -#define FUNC_ID_MASK ((1L << FUNC_ID_WIDTH) - 1) -#define EXTRACT_MODULE_ID_FROM_GLOBAL_ID(gid) (unsigned)(((gid) >> FUNC_ID_WIDTH) & FUNC_ID_MASK) -#define EXTRACT_FUNC_ID_FROM_GLOBAL_ID(gid) (unsigned)((gid) & FUNC_ID_MASK) -#define FUNC_GLOBAL_ID(m,f) ((((HOST_WIDE_INT) (m)) << FUNC_ID_WIDTH) | (f) - -#else /*!IN_GCOV */ -#define GCOV_TYPE_SIZE (LONG_LONG_TYPE_SIZE > 32 ? 64 : 32) -#endif - -#if defined (HOST_HAS_F_SETLKW) -#define GCOV_LOCKED 1 -#else -#define GCOV_LOCKED 0 -#endif - -#define ATTRIBUTE_HIDDEN - -#endif /* !IN_LIBGOCV */ - -#ifndef GCOV_LINKAGE -#define GCOV_LINKAGE extern -#endif - -/* File suffixes. */ -#define GCOV_DATA_SUFFIX ".gcda" -#define GCOV_NOTE_SUFFIX ".gcno" - -/* File magic. Must not be palindromes. */ -#define GCOV_DATA_MAGIC ((gcov_unsigned_t)0x67636461) /* "gcda" */ -#define GCOV_NOTE_MAGIC ((gcov_unsigned_t)0x67636e6f) /* "gcno" */ - -/* gcov-iov.h is automatically generated by the makefile from - version.c, it looks like - #define GCOV_VERSION ((gcov_unsigned_t)0x89abcdef) -*/ -#include "gcov-iov.h" - -/* Convert a magic or version number to a 4 character string. */ -#define GCOV_UNSIGNED2STRING(ARRAY,VALUE) \ - ((ARRAY)[0] = (char)((VALUE) >> 24), \ - (ARRAY)[1] = (char)((VALUE) >> 16), \ - (ARRAY)[2] = (char)((VALUE) >> 8), \ - (ARRAY)[3] = (char)((VALUE) >> 0)) - -/* The record tags. Values [1..3f] are for tags which may be in either - file. Values [41..9f] for those in the note file and [a1..ff] for - the data file. The tag value zero is used as an explicit end of - file marker -- it is not required to be present. */ - -#define GCOV_TAG_FUNCTION ((gcov_unsigned_t)0x01000000) -#define GCOV_TAG_FUNCTION_LENGTH (3) -#define GCOV_TAG_BLOCKS ((gcov_unsigned_t)0x01410000) -#define GCOV_TAG_BLOCKS_LENGTH(NUM) (NUM) -#define GCOV_TAG_BLOCKS_NUM(LENGTH) (LENGTH) -#define GCOV_TAG_ARCS ((gcov_unsigned_t)0x01430000) -#define GCOV_TAG_ARCS_LENGTH(NUM) (1 + (NUM) * 2) -#define GCOV_TAG_ARCS_NUM(LENGTH) (((LENGTH) - 1) / 2) -#define GCOV_TAG_LINES ((gcov_unsigned_t)0x01450000) -#define GCOV_TAG_COUNTER_BASE ((gcov_unsigned_t)0x01a10000) -#define GCOV_TAG_COUNTER_LENGTH(NUM) ((NUM) * 2) -#define GCOV_TAG_COUNTER_NUM(LENGTH) ((LENGTH) / 2) -#define GCOV_TAG_OBJECT_SUMMARY ((gcov_unsigned_t)0xa1000000) /* Obsolete */ -#define GCOV_TAG_PROGRAM_SUMMARY ((gcov_unsigned_t)0xa3000000) -#define GCOV_TAG_COMDAT_ZERO_FIXUP ((gcov_unsigned_t)0xa9000000) -/* Ceiling divide by 32 bit word size, plus one word to hold NUM. */ -#define GCOV_TAG_COMDAT_ZERO_FIXUP_LENGTH(NUM) (1 + (NUM + 31) / 32) -#define GCOV_TAG_SUMMARY_LENGTH(NUM) \ - (1 + GCOV_COUNTERS_SUMMABLE * (10 + 3 * 2) + (NUM) * 5) -#define GCOV_TAG_BUILD_INFO ((gcov_unsigned_t)0xa7000000) -#define GCOV_TAG_MODULE_INFO ((gcov_unsigned_t)0xab000000) -#define GCOV_TAG_AFDO_FILE_NAMES ((gcov_unsigned_t)0xaa000000) -#define GCOV_TAG_AFDO_FUNCTION ((gcov_unsigned_t)0xac000000) -#define GCOV_TAG_AFDO_MODULE_GROUPING ((gcov_unsigned_t)0xae000000) -#define GCOV_TAG_AFDO_WORKING_SET ((gcov_unsigned_t)0xaf000000) - -/* Counters that are collected. */ -#define DEF_GCOV_COUNTER(COUNTER, NAME, MERGE_FN) COUNTER, -enum { -#include "gcov-counter.def" -GCOV_COUNTERS -}; -#undef DEF_GCOV_COUNTER - -/* Counters which can be summaried. */ -#define GCOV_COUNTERS_SUMMABLE (GCOV_COUNTER_ARCS + 1) - -/* The first of counters used for value profiling. They must form a - consecutive interval and their order must match the order of - HIST_TYPEs in value-prof.h. */ -#define GCOV_FIRST_VALUE_COUNTER GCOV_COUNTERS_SUMMABLE - -/* The last of counters used for value profiling. */ -#define GCOV_LAST_VALUE_COUNTER (GCOV_COUNTERS - 2) - -/* Number of counters used for value profiling. */ -#define GCOV_N_VALUE_COUNTERS \ - (GCOV_LAST_VALUE_COUNTER - GCOV_FIRST_VALUE_COUNTER + 1) - -#define GCOV_ICALL_TOPN_VAL 2 /* Track two hottest callees */ -#define GCOV_ICALL_TOPN_NCOUNTS 9 /* The number of counter entries per icall callsite */ - -/* Convert a counter index to a tag. */ -#define GCOV_TAG_FOR_COUNTER(COUNT) \ - (GCOV_TAG_COUNTER_BASE + ((gcov_unsigned_t)(COUNT) << 17)) -/* Convert a tag to a counter. */ -#define GCOV_COUNTER_FOR_TAG(TAG) \ - ((unsigned)(((TAG) - GCOV_TAG_COUNTER_BASE) >> 17)) -/* Check whether a tag is a counter tag. */ -#define GCOV_TAG_IS_COUNTER(TAG) \ - (!((TAG) & 0xFFFF) && GCOV_COUNTER_FOR_TAG (TAG) < GCOV_COUNTERS) - -/* The tag level mask has 1's in the position of the inner levels, & - the lsb of the current level, and zero on the current and outer - levels. */ -#define GCOV_TAG_MASK(TAG) (((TAG) - 1) ^ (TAG)) - -/* Return nonzero if SUB is an immediate subtag of TAG. */ -#define GCOV_TAG_IS_SUBTAG(TAG,SUB) \ - (GCOV_TAG_MASK (TAG) >> 8 == GCOV_TAG_MASK (SUB) \ - && !(((SUB) ^ (TAG)) & ~GCOV_TAG_MASK (TAG))) - -/* Return nonzero if SUB is at a sublevel to TAG. */ -#define GCOV_TAG_IS_SUBLEVEL(TAG,SUB) \ - (GCOV_TAG_MASK (TAG) > GCOV_TAG_MASK (SUB)) - -/* Basic block flags. */ -#define GCOV_BLOCK_UNEXPECTED (1 << 1) - -/* Arc flags. */ -#define GCOV_ARC_ON_TREE (1 << 0) -#define GCOV_ARC_FAKE (1 << 1) -#define GCOV_ARC_FALLTHROUGH (1 << 2) - -/* Structured records. */ - -/* Structure used for each bucket of the log2 histogram of counter values. */ -typedef struct -{ - /* Number of counters whose profile count falls within the bucket. */ - gcov_unsigned_t num_counters; - /* Smallest profile count included in this bucket. */ - gcov_type min_value; - /* Cumulative value of the profile counts in this bucket. */ - gcov_type cum_value; -} gcov_bucket_type; - -/* For a log2 scale histogram with each range split into 4 - linear sub-ranges, there will be at most 64 (max gcov_type bit size) - 1 log2 - ranges since the lowest 2 log2 values share the lowest 4 linear - sub-range (values 0 - 3). This is 252 total entries (63*4). */ - -#define GCOV_HISTOGRAM_SIZE 252 - -/* How many unsigned ints are required to hold a bit vector of non-zero - histogram entries when the histogram is written to the gcov file. - This is essentially a ceiling divide by 32 bits. */ -#define GCOV_HISTOGRAM_BITVECTOR_SIZE (GCOV_HISTOGRAM_SIZE + 31) / 32 - -/* Cumulative counter data. */ -struct gcov_ctr_summary -{ - gcov_unsigned_t num; /* number of counters. */ - gcov_unsigned_t runs; /* number of program runs */ - gcov_type sum_all; /* sum of all counters accumulated. */ - gcov_type run_max; /* maximum value on a single run. */ - gcov_type sum_max; /* sum of individual run max values. */ - gcov_bucket_type histogram[GCOV_HISTOGRAM_SIZE]; /* histogram of - counter values. */ -}; - -/* Object & program summary record. */ -struct gcov_summary -{ - gcov_unsigned_t checksum; /* checksum of program */ - struct gcov_ctr_summary ctrs[GCOV_COUNTERS_SUMMABLE]; -}; - -#define GCOV_MODULE_UNKNOWN_LANG 0 -#define GCOV_MODULE_C_LANG 1 -#define GCOV_MODULE_CPP_LANG 2 -#define GCOV_MODULE_FORT_LANG 3 - -#define GCOV_MODULE_ASM_STMTS (1 << 16) -#define GCOV_MODULE_LANG_MASK 0xffff - -/* Source module info. The data structure is used in - both runtime and profile-use phase. Make sure to allocate - enough space for the variable length member. */ -struct gcov_module_info -{ - gcov_unsigned_t ident; - gcov_unsigned_t is_primary; /* this is overloaded to mean two things: - (1) means FDO/LIPO in instrumented binary. - (2) means IS_PRIMARY in persistent file or - memory copy used in profile-use. */ - gcov_unsigned_t flags; /* bit 0: is_exported, - bit 1: need to include all the auxiliary - modules in use compilation. */ - gcov_unsigned_t lang; /* lower 16 bits encode the language, and the upper - 16 bits enocde other attributes, such as whether - any assembler is present in the source, etc. */ - gcov_unsigned_t ggc_memory; /* memory needed for parsing in kb */ - char *da_filename; - char *source_filename; - gcov_unsigned_t num_quote_paths; - gcov_unsigned_t num_bracket_paths; - gcov_unsigned_t num_system_paths; - gcov_unsigned_t num_cpp_defines; - gcov_unsigned_t num_cpp_includes; - gcov_unsigned_t num_cl_args; - char *string_array[1]; -}; - -extern struct gcov_module_info **module_infos; -extern unsigned primary_module_id; -#define SET_MODULE_INCLUDE_ALL_AUX(modu) ((modu->flags |= 0x2)) -#define MODULE_INCLUDE_ALL_AUX_FLAG(modu) ((modu->flags & 0x2)) -#define SET_MODULE_EXPORTED(modu) ((modu->flags |= 0x1)) -#define MODULE_EXPORTED_FLAG(modu) ((modu->flags & 0x1)) -#define PRIMARY_MODULE_EXPORTED \ - (MODULE_EXPORTED_FLAG (module_infos[0]) \ - && !((module_infos[0]->lang & GCOV_MODULE_ASM_STMTS) \ - && flag_ripa_disallow_asm_modules)) - -#if !defined(inhibit_libc) - -/* Functions for reading and writing gcov files. In libgcov you can - open the file for reading then writing. Elsewhere you can open the - file either for reading or for writing. When reading a file you may - use the gcov_read_* functions, gcov_sync, gcov_position, & - gcov_error. When writing a file you may use the gcov_write - functions, gcov_seek & gcov_error. When a file is to be rewritten - you use the functions for reading, then gcov_rewrite then the - functions for writing. Your file may become corrupted if you break - these invariants. */ - -#if !IN_LIBGCOV -GCOV_LINKAGE int gcov_open (const char */*name*/, int /*direction*/); -GCOV_LINKAGE int gcov_magic (gcov_unsigned_t, gcov_unsigned_t); -#endif - -/* Available everywhere. */ -GCOV_LINKAGE int gcov_close (void) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE gcov_unsigned_t gcov_read_unsigned (void) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE gcov_type gcov_read_counter (void) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_read_summary (struct gcov_summary *) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE int *gcov_read_comdat_zero_fixup (gcov_unsigned_t, - gcov_unsigned_t *) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE char **gcov_read_build_info (gcov_unsigned_t, gcov_unsigned_t *) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE const char *gcov_read_string (void); -GCOV_LINKAGE void gcov_sync (gcov_position_t /*base*/, - gcov_unsigned_t /*length */); -GCOV_LINKAGE gcov_unsigned_t gcov_read_string_array (char **, gcov_unsigned_t) - ATTRIBUTE_HIDDEN; - - -#if !IN_LIBGCOV && IN_GCOV != 1 -GCOV_LINKAGE void gcov_read_module_info (struct gcov_module_info *mod_info, - gcov_unsigned_t len) ATTRIBUTE_HIDDEN; -#endif - -#if !IN_GCOV -/* Available outside gcov */ -GCOV_LINKAGE void gcov_write_unsigned (gcov_unsigned_t) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE gcov_unsigned_t gcov_compute_string_array_len (char **, - gcov_unsigned_t) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_write_string_array (char **, gcov_unsigned_t) - ATTRIBUTE_HIDDEN; -#endif - -#if !IN_GCOV && !IN_LIBGCOV -/* Available only in compiler */ -GCOV_LINKAGE unsigned gcov_histo_index (gcov_type value); -GCOV_LINKAGE void gcov_write_string (const char *); -GCOV_LINKAGE gcov_position_t gcov_write_tag (gcov_unsigned_t); -GCOV_LINKAGE void gcov_write_length (gcov_position_t /*position*/); -#endif - -#if IN_GCOV <= 0 && !IN_LIBGCOV -/* Available in gcov-dump and the compiler. */ - -/* Number of data points in the working set summary array. Using 128 - provides information for at least every 1% increment of the total - profile size. The last entry is hardwired to 99.9% of the total. */ -#define NUM_GCOV_WORKING_SETS 128 - -/* Working set size statistics for a given percentage of the entire - profile (sum_all from the counter summary). */ -typedef struct gcov_working_set_info -{ - /* Number of hot counters included in this working set. */ - unsigned num_counters; - /* Smallest counter included in this working set. */ - gcov_type min_counter; -} gcov_working_set_t; - -GCOV_LINKAGE void compute_working_sets (const struct gcov_ctr_summary *summary, - gcov_working_set_t *gcov_working_sets); -#endif - -#if IN_GCOV > 0 -/* Available in gcov */ -GCOV_LINKAGE time_t gcov_time (void); -#endif - -#endif /* !inhibit_libc */ - -#endif /* GCC_GCOV_IO_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-iov.h b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-iov.h deleted file mode 100644 index 0da8e1d..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/gcov-iov.h +++ /dev/null @@ -1,4 +0,0 @@ -/* Generated automatically by the program `build/gcov-iov' - from `4.9.x (4 9) and prerelease (*)'. */ - -#define GCOV_VERSION ((gcov_unsigned_t)0x3430392a) /* 409* */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver-kernel.c b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver-kernel.c deleted file mode 100644 index 34298ed..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver-kernel.c +++ /dev/null @@ -1,203 +0,0 @@ -/* Routines required for instrumenting a program. */ -/* Compile this one with gcc. */ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - - -/* A utility function for outputing errors. */ - -static int __attribute__((format(printf, 1, 2))) -gcov_error (const char *fmt, ...) -{ - int ret; - va_list argp; - va_start (argp, fmt); - ret = vprintk (fmt, argp); - va_end (argp); - return ret; -} - -static void -allocate_filename_struct (struct gcov_filename_aux *gf) -{ - const char *gcov_prefix; - int gcov_prefix_strip = 0; - size_t prefix_length = 0; - char *gi_filename_up; - - /* Allocate and initialize the filename scratch space plus one. */ - gi_filename = (char *) xmalloc (prefix_length + gcov_max_filename + 2); - if (prefix_length) - memcpy (gi_filename, gcov_prefix, prefix_length); - gi_filename_up = gi_filename + prefix_length; - - gf->gi_filename_up = gi_filename_up; - gf->prefix_length = prefix_length; - gf->gcov_prefix_strip = gcov_prefix_strip; -} - -static int -gcov_open_by_filename (char *gi_filename) -{ - gcov_open (gi_filename); - return 0; -} - - -/* Strip GCOV_PREFIX_STRIP levels of leading '/' from FILENAME and - put the result into GI_FILENAME_UP. */ - -static void -gcov_strip_leading_dirs (int prefix_length, int gcov_prefix_strip, - const char *filename, char *gi_filename_up) -{ - strcpy (gi_filename_up, filename); -} - -/* Current virual gcda file. This is for kernel use only. */ -gcov_kernel_vfile *gcov_current_file; - -/* Set current virutal gcda file. It needs to be set before dumping - profile data. */ - -void -gcov_set_vfile (gcov_kernel_vfile *file) -{ - gcov_current_file = file; -} - -/* File fclose operation in kernel mode. */ - -int -kernel_file_fclose (gcov_kernel_vfile *fp) -{ - return 0; -} - -/* File ftell operation in kernel mode. It currently should not - be called. */ - -long -kernel_file_ftell (gcov_kernel_vfile *fp) -{ - return 0; -} - -/* File fseek operation in kernel mode. It should only be called - with OFFSET==0 and WHENCE==0 to a freshly opened file. */ - -int -kernel_file_fseek (gcov_kernel_vfile *fp, long offset, int whence) -{ - gcc_assert (offset == 0 && whence == 0 && fp->count == 0); - return 0; -} - -/* File ftruncate operation in kernel mode. It currently should not - be called. */ - -int -kernel_file_ftruncate (gcov_kernel_vfile *fp, off_t value) -{ - gcc_assert (0); /* should not reach here */ - return 0; -} - -/* File fread operation in kernel mode. It currently should not - be called. */ - -int -kernel_file_fread (void *ptr, size_t size, size_t nitems, - gcov_kernel_vfile *fp) -{ - gcc_assert (0); /* should not reach here */ - return 0; -} - -/* File fwrite operation in kernel mode. It outputs the data - to a buffer in the virual file. */ - -int -kernel_file_fwrite (const void *ptr, size_t size, - size_t nitems, gcov_kernel_vfile *fp) -{ - char *vbuf; - unsigned vsize, vpos; - unsigned len; - - if (!fp) return 0; - - vbuf = fp->buf; - vsize = fp->size; - vpos = fp->count; - - - if (vsize < vpos) - { - printk (KERN_ERR - "GCOV_KERNEL: something wrong in file %s: vbuf=%p vsize=%u" - " vpos=%u\n", - fp->info->filename, vbuf, vsize, vpos); - return 0; - } - - len = vsize - vpos; - len /= size; - - /* Increase the virtual file size if it is not suffcient. */ - while (len < nitems) - { - vsize *= 2; - len = vsize - vpos; - len /= size; - } - - if (vsize != fp->size) - { - vbuf = fp->buf = (char *) gcov_realloc_file_buf(vsize, vpos); - fp->size = vsize; - } - - if (len > nitems) - len = nitems; - - memcpy (vbuf+vpos, ptr, size*len); - fp->count += len*size; - - if (len != nitems) - printk (KERN_ERR - "GCOV_KERNEL: something wrong in file %s: size=%lu nitems=%lu" - " len=%d vsize=%u vpos=%u \n", - fp->info->filename, size, nitems, len, vsize, vpos); - return len; -} - -/* File fileno operation in kernel mode. It currently should not - be called. */ - -int -kernel_file_fileno (gcov_kernel_vfile *fp) -{ - gcc_assert (0); /* should not reach here */ - return 0; -} diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver.c b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver.c deleted file mode 100644 index 3c569f1..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-driver.c +++ /dev/null @@ -1,1550 +0,0 @@ -/* Routines required for instrumenting a program. */ -/* Compile this one with gcc. */ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -#include "libgcov.h" - -#if defined(inhibit_libc) -/* If libc and its header files are not available, provide dummy functions. */ - -#if defined(L_gcov) -void __gcov_init (struct gcov_info *p __attribute__ ((unused))) {} -#endif - -#else /* inhibit_libc */ - -#if !defined(__KERNEL__) -#include <string.h> -#if GCOV_LOCKED -#include <fcntl.h> -#include <errno.h> -#include <sys/stat.h> -#endif -#endif /* __KERNEL__ */ - -#ifdef L_gcov -#include "gcov-io.c" - -/* Unique identifier assigned to each module (object file). */ -static gcov_unsigned_t gcov_cur_module_id = 0; - - -/* Dynamic call graph build and form module groups. */ -int __gcov_compute_module_groups (char **zero_counts) ATTRIBUTE_HIDDEN; -void __gcov_finalize_dyn_callgraph (void) ATTRIBUTE_HIDDEN; - -/* The following functions can be called from outside of this file. */ -extern void gcov_clear (void) ATTRIBUTE_HIDDEN; -extern void gcov_exit (void) ATTRIBUTE_HIDDEN; -extern void set_gcov_dump_complete (void) ATTRIBUTE_HIDDEN; -extern void reset_gcov_dump_complete (void) ATTRIBUTE_HIDDEN; -extern int get_gcov_dump_complete (void) ATTRIBUTE_HIDDEN; -extern void set_gcov_list (struct gcov_info *) ATTRIBUTE_HIDDEN; -__attribute__((weak)) void __coverage_callback (gcov_type, int); - -#if !defined(IN_GCOV_TOOL) && !defined(__KERNEL__) -extern gcov_unsigned_t __gcov_sampling_period; -extern gcov_unsigned_t __gcov_has_sampling; -static int gcov_sampling_period_initialized = 0; - -/* Create a strong reference to these symbols so that they are - unconditionally pulled into the instrumented binary, even when - the only reference is a weak reference. This is necessary because - we are using weak references to enable references from code that - may not be linked with libgcov. These are the only symbols that - should be accessed via link references from application code! - - A subtlety of the linker is that it will only resolve weak references - defined within archive libraries when there is a strong reference to - something else defined within the same object file. Since these functions - are defined within their own object files, they would not automatically - get resolved. Since there are symbols within the main L_gcov - section that are strongly referenced during -fprofile-generate and - -ftest-coverage builds, these dummy symbols will always need to be - resolved. */ -void (*__gcov_dummy_ref1)(void) = &__gcov_reset; -void (*__gcov_dummy_ref2)(void) = &__gcov_dump; -extern char *__gcov_get_profile_prefix (void); -char *(*__gcov_dummy_ref3)(void) = &__gcov_get_profile_prefix; -extern void __gcov_set_sampling_period (unsigned int period); -char *(*__gcov_dummy_ref4)(void) = &__gcov_set_sampling_period; -extern unsigned int __gcov_sampling_enabled (void); -char *(*__gcov_dummy_ref5)(void) = &__gcov_sampling_enabled; -extern void __gcov_flush (void); -char *(*__gcov_dummy_ref6)(void) = &__gcov_flush; -extern unsigned int __gcov_profiling_for_test_coverage (void); -char *(*__gcov_dummy_ref7)(void) = &__gcov_profiling_for_test_coverage; -#endif - -/* Default callback function for profile instrumentation callback. */ -__attribute__((weak)) void -__coverage_callback (gcov_type funcdef_no __attribute__ ((unused)), - int edge_no __attribute__ ((unused))) -{ - /* nothing */ -} - -struct gcov_fn_buffer -{ - struct gcov_fn_buffer *next; - unsigned fn_ix; - struct gcov_fn_info info; - /* note gcov_fn_info ends in a trailing array. */ -}; - -struct gcov_summary_buffer -{ - struct gcov_summary_buffer *next; - struct gcov_summary summary; -}; - -/* Chain of per-object gcov structures. */ -extern struct gcov_info *__gcov_list; - -/* Set the head of gcov_list. */ -void -set_gcov_list (struct gcov_info *head) -{ - __gcov_list = head; -} - -/* Flag if the current function being read was marked as having fixed-up - zero counters. */ -static int __gcov_curr_fn_fixed_up; - -/* Set function fixed up flag. */ -void -set_gcov_fn_fixed_up (int fixed_up) -{ - __gcov_curr_fn_fixed_up = fixed_up; -} - -/* Return function fixed up flag. */ -int -get_gcov_fn_fixed_up (void) -{ - return __gcov_curr_fn_fixed_up; -} - -/* Size of the longest file name. */ -/* We need to expose this static variable when compiling for gcov-tool. */ -#ifndef IN_GCOV_TOOL -static -#endif -size_t gcov_max_filename = 0; - -/* Flag when the profile has already been dumped via __gcov_dump(). */ -static int gcov_dump_complete; - -/* A global function that get the vaule of gcov_dump_complete. */ - -int -get_gcov_dump_complete (void) -{ - return gcov_dump_complete; -} - -/* A global functino that set the vaule of gcov_dump_complete. Will - be used in __gcov_dump() in libgcov-interface.c. */ - -void -set_gcov_dump_complete (void) -{ - gcov_dump_complete = 1; -} - -/* A global functino that set the vaule of gcov_dump_complete. Will - be used in __gcov_reset() in libgcov-interface.c. */ - -void -reset_gcov_dump_complete (void) -{ - gcov_dump_complete = 0; -} - -/* A utility function for outputing errors. */ -static int gcov_error (const char *, ...); - -static struct gcov_fn_buffer * -free_fn_data (const struct gcov_info *gi_ptr, struct gcov_fn_buffer *buffer, - unsigned limit) -{ - struct gcov_fn_buffer *next; - unsigned ix, n_ctr = 0; - - if (!buffer) - return 0; - next = buffer->next; - - for (ix = 0; ix != limit; ix++) - if (gi_ptr->merge[ix]) - xfree (buffer->info.ctrs[n_ctr++].values); - xfree (buffer); - return next; -} - -static struct gcov_fn_buffer ** -buffer_fn_data (const char *filename, const struct gcov_info *gi_ptr, - struct gcov_fn_buffer **end_ptr, unsigned fn_ix) -{ - unsigned n_ctrs = 0, ix = 0; - struct gcov_fn_buffer *fn_buffer; - unsigned len; - - for (ix = GCOV_COUNTERS; ix--;) - if (gi_ptr->merge[ix]) - n_ctrs++; - - len = sizeof (*fn_buffer) + sizeof (fn_buffer->info.ctrs[0]) * n_ctrs; - fn_buffer = (struct gcov_fn_buffer *) xmalloc (len); - - if (!fn_buffer) - goto fail; - - fn_buffer->next = 0; - fn_buffer->fn_ix = fn_ix; - fn_buffer->info.ident = gcov_read_unsigned (); - fn_buffer->info.lineno_checksum = gcov_read_unsigned (); - fn_buffer->info.cfg_checksum = gcov_read_unsigned (); - - for (n_ctrs = ix = 0; ix != GCOV_COUNTERS; ix++) - { - gcov_unsigned_t length; - gcov_type *values; - - if (!gi_ptr->merge[ix]) - continue; - - if (gcov_read_unsigned () != GCOV_TAG_FOR_COUNTER (ix)) - { - len = 0; - goto fail; - } - - length = GCOV_TAG_COUNTER_NUM (gcov_read_unsigned ()); - len = length * sizeof (gcov_type); - values = (gcov_type *) xmalloc (len); - if (!values) - goto fail; - - fn_buffer->info.ctrs[n_ctrs].num = length; - fn_buffer->info.ctrs[n_ctrs].values = values; - - while (length--) - *values++ = gcov_read_counter (); - n_ctrs++; - } - - *end_ptr = fn_buffer; - return &fn_buffer->next; - -fail: - gcov_error ("profiling:%s:Function %u %s %u \n", filename, fn_ix, - len ? "cannot allocate" : "counter mismatch", len ? len : ix); - - return (struct gcov_fn_buffer **)free_fn_data (gi_ptr, fn_buffer, ix); -} - -/* Determine whether a counter is active. */ - -static inline int -gcov_counter_active (const struct gcov_info *info, unsigned int type) -{ - return (info->merge[type] != 0); -} - -/* Add an unsigned value to the current crc */ - -static gcov_unsigned_t -crc32_unsigned (gcov_unsigned_t crc32, gcov_unsigned_t value) -{ - unsigned ix; - - for (ix = 32; ix--; value <<= 1) - { - unsigned feedback; - - feedback = (value ^ crc32) & 0x80000000 ? 0x04c11db7 : 0; - crc32 <<= 1; - crc32 ^= feedback; - } - - return crc32; -} - -/* Check if VERSION of the info block PTR matches libgcov one. - Return 1 on success, or zero in case of versions mismatch. - If FILENAME is not NULL, its value used for reporting purposes - instead of value from the info block. */ - -static int -gcov_version (struct gcov_info *ptr, gcov_unsigned_t version, - const char *filename) -{ - if (version != GCOV_VERSION) - { - char v[4], e[4]; - - GCOV_UNSIGNED2STRING (v, version); - GCOV_UNSIGNED2STRING (e, GCOV_VERSION); - - if (filename) - gcov_error ("profiling:%s:Version mismatch - expected %.4s got %.4s\n", - filename? filename : ptr->filename, e, v); - else - gcov_error ("profiling:Version mismatch - expected %.4s got %.4s\n", e, v); - - return 0; - } - return 1; -} - -/* Insert counter VALUE into HISTOGRAM. */ - -static void -gcov_histogram_insert(gcov_bucket_type *histogram, gcov_type value) -{ - unsigned i; - - i = gcov_histo_index(value); - histogram[i].num_counters++; - histogram[i].cum_value += value; - if (value < histogram[i].min_value) - histogram[i].min_value = value; -} - -/* Computes a histogram of the arc counters to place in the summary SUM. */ - -static void -gcov_compute_histogram (struct gcov_summary *sum) -{ - struct gcov_info *gi_ptr; - const struct gcov_fn_info *gfi_ptr; - const struct gcov_ctr_info *ci_ptr; - struct gcov_ctr_summary *cs_ptr; - unsigned t_ix, f_ix, ctr_info_ix, ix; - int h_ix; - - /* This currently only applies to arc counters. */ - t_ix = GCOV_COUNTER_ARCS; - - /* First check if there are any counts recorded for this counter. */ - cs_ptr = &(sum->ctrs[t_ix]); - if (!cs_ptr->num) - return; - - for (h_ix = 0; h_ix < GCOV_HISTOGRAM_SIZE; h_ix++) - { - cs_ptr->histogram[h_ix].num_counters = 0; - cs_ptr->histogram[h_ix].min_value = cs_ptr->run_max; - cs_ptr->histogram[h_ix].cum_value = 0; - } - - /* Walk through all the per-object structures and record each of - the count values in histogram. */ - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - if (!gi_ptr->merge[t_ix]) - continue; - - /* Find the appropriate index into the gcov_ctr_info array - for the counter we are currently working on based on the - existence of the merge function pointer for this object. */ - for (ix = 0, ctr_info_ix = 0; ix < t_ix; ix++) - { - if (gi_ptr->merge[ix]) - ctr_info_ix++; - } - for (f_ix = 0; f_ix != gi_ptr->n_functions; f_ix++) - { - gfi_ptr = gi_ptr->functions[f_ix]; - - if (!gfi_ptr || gfi_ptr->key != gi_ptr) - continue; - - ci_ptr = &gfi_ptr->ctrs[ctr_info_ix]; - for (ix = 0; ix < ci_ptr->num; ix++) - gcov_histogram_insert (cs_ptr->histogram, ci_ptr->values[ix]); - } - } -} - -/* gcda filename. */ -static char *gi_filename; -/* buffer for the fn_data from another program. */ -static struct gcov_fn_buffer *fn_buffer; -/* buffer for summary from other programs to be written out. */ -static struct gcov_summary_buffer *sum_buffer; -/* If application calls fork or exec multiple times, we end up storing - profile repeadely. We should not account this as multiple runs or - functions executed once may mistakely become cold. */ -static int run_accounted = 0; - -/* This funtions computes the program level summary and the histo-gram. - It computes and returns CRC32 and stored summary in THIS_PRG. */ - -#if !IN_GCOV_TOOL -static -#endif -gcov_unsigned_t -gcov_exit_compute_summary (struct gcov_summary *this_prg) -{ - struct gcov_info *gi_ptr; - const struct gcov_fn_info *gfi_ptr; - struct gcov_ctr_summary *cs_ptr; - const struct gcov_ctr_info *ci_ptr; - int f_ix; - unsigned t_ix; - gcov_unsigned_t c_num; - gcov_unsigned_t crc32 = 0; - - /* Find the totals for this execution. */ - memset (this_prg, 0, sizeof (*this_prg)); - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - crc32 = crc32_unsigned (crc32, gi_ptr->stamp); - crc32 = crc32_unsigned (crc32, gi_ptr->n_functions); - - for (f_ix = 0; (unsigned)f_ix != gi_ptr->n_functions; f_ix++) - { - gfi_ptr = gi_ptr->functions[f_ix]; - - if (gfi_ptr && gfi_ptr->key != gi_ptr) - gfi_ptr = 0; - - crc32 = crc32_unsigned (crc32, gfi_ptr ? gfi_ptr->cfg_checksum : 0); - crc32 = crc32_unsigned (crc32, - gfi_ptr ? gfi_ptr->lineno_checksum : 0); - if (!gfi_ptr) - continue; - - ci_ptr = gfi_ptr->ctrs; - for (t_ix = 0; t_ix != GCOV_COUNTERS_SUMMABLE; t_ix++) - { - if (!gi_ptr->merge[t_ix]) - continue; - - cs_ptr = &(this_prg->ctrs[t_ix]); - cs_ptr->num += ci_ptr->num; - crc32 = crc32_unsigned (crc32, ci_ptr->num); - - for (c_num = 0; c_num < ci_ptr->num; c_num++) - { - cs_ptr->sum_all += ci_ptr->values[c_num]; - if (cs_ptr->run_max < ci_ptr->values[c_num]) - cs_ptr->run_max = ci_ptr->values[c_num]; - } - ci_ptr++; - } - } - } - gcov_compute_histogram (this_prg); - return crc32; -} - -/* A struct that bundles all the related information about the - gcda filename. */ -struct gcov_filename_aux{ - char *gi_filename_up; - int gcov_prefix_strip; - size_t prefix_length; -}; - -/* Including system dependent components. */ -#if !defined (__KERNEL__) -#include "libgcov-driver-system.c" -#else -#include "libgcov-driver-kernel.c" -#endif - -static int -scan_build_info (struct gcov_info *gi_ptr) -{ - gcov_unsigned_t i, length; - gcov_unsigned_t num_strings = 0; - char **build_info_strings; - - length = gcov_read_unsigned (); - build_info_strings = gcov_read_build_info (length, &num_strings); - if (!build_info_strings) - { - gcov_error ("profiling:%s:Error reading build info\n", gi_filename); - return -1; - } - if (!gi_ptr->build_info) - { - gcov_error ("profiling:%s:Mismatched build info sections, expected " - "none, found %u strings)\n", gi_filename, num_strings); - return -1; - } - - for (i = 0; i < num_strings; i++) - { - if (strcmp (build_info_strings[i], gi_ptr->build_info[i])) - { - gcov_error ("profiling:%s:Mismatched build info string " - "(expected %s, read %s)\n", - gi_filename, gi_ptr->build_info[i], - build_info_strings[i]); - return -1; - } - xfree (build_info_strings[i]); - } - xfree (build_info_strings); - return 0; -} - -#if !defined(__KERNEL__) -/* Scan through the current open gcda file corresponding to GI_PTR - to locate the end position just before function data should be rewritten, - returned in SUMMARY_END_POS_P. E.g. scan past the last summary and other - sections that won't be rewritten, like the build info. Return 0 on success, - -1 on error. */ -static int -gcov_scan_to_function_data (struct gcov_info *gi_ptr, - gcov_position_t *summary_end_pos_p) -{ - gcov_unsigned_t tag, version, stamp; - tag = gcov_read_unsigned (); - if (tag != GCOV_DATA_MAGIC) - { - gcov_error ("profiling:%s:Not a gcov data file\n", gi_filename); - return -1; - } - - version = gcov_read_unsigned (); - if (!gcov_version (gi_ptr, version, gi_filename)) - return -1; - - stamp = gcov_read_unsigned (); - if (stamp != gi_ptr->stamp) - /* Read from a different compilation. Overwrite the file. */ - return -1; - - /* Look for program summary. */ - while (1) - { - struct gcov_summary tmp; - - *summary_end_pos_p = gcov_position (); - tag = gcov_read_unsigned (); - if (tag != GCOV_TAG_PROGRAM_SUMMARY) - break; - - gcov_read_unsigned (); - gcov_read_summary (&tmp); - if (gcov_is_error ()) - return -1; - } - - /* If there is a build info section, scan past it as well. */ - if (tag == GCOV_TAG_BUILD_INFO) - { - if (scan_build_info (gi_ptr) < 0) - return -1; - - *summary_end_pos_p = gcov_position (); - tag = gcov_read_unsigned (); - } - /* The next section should be the function counters. */ - gcc_assert (tag == GCOV_TAG_FUNCTION); - - return 0; -} -#endif /* __KERNEL__ */ - -/* This function merges counters in GI_PTR to an existing gcda file. - Return 0 on success. - Return -1 on error. In this case, caller will goto read_fatal. */ - -static int -gcov_exit_merge_gcda (struct gcov_info *gi_ptr, - struct gcov_summary *prg_p, - struct gcov_summary *this_prg, - gcov_position_t *summary_pos_p, - gcov_position_t *eof_pos_p, - gcov_unsigned_t crc32) -{ - gcov_unsigned_t tag, length; - unsigned t_ix; - int f_ix; - int error = 0; - struct gcov_fn_buffer **fn_tail = &fn_buffer; - struct gcov_summary_buffer **sum_tail = &sum_buffer; - int *zero_fixup_flags = NULL; - - length = gcov_read_unsigned (); - if (!gcov_version (gi_ptr, length, gi_filename)) - return -1; - - length = gcov_read_unsigned (); - if (length != gi_ptr->stamp) - /* Read from a different compilation. Overwrite the file. */ - return 0; - - /* Look for program summary. */ - for (f_ix = 0;;) - { - struct gcov_summary tmp; - - *eof_pos_p = gcov_position (); - tag = gcov_read_unsigned (); - if (tag != GCOV_TAG_PROGRAM_SUMMARY) - break; - - f_ix--; - length = gcov_read_unsigned (); - gcov_read_summary (&tmp); - if ((error = gcov_is_error ())) - goto read_error; - if (*summary_pos_p) - { - /* Save all summaries after the one that will be - merged into below. These will need to be rewritten - as histogram merging may change the number of non-zero - histogram entries that will be emitted, and thus the - size of the merged summary. */ - (*sum_tail) = (struct gcov_summary_buffer *) - xmalloc (sizeof(struct gcov_summary_buffer)); - (*sum_tail)->summary = tmp; - (*sum_tail)->next = 0; - sum_tail = &((*sum_tail)->next); - goto next_summary; - } - if (tmp.checksum != crc32) - goto next_summary; - - for (t_ix = 0; t_ix != GCOV_COUNTERS_SUMMABLE; t_ix++) - if (tmp.ctrs[t_ix].num != this_prg->ctrs[t_ix].num) - goto next_summary; - *prg_p = tmp; - *summary_pos_p = *eof_pos_p; - - next_summary:; - } - - if (tag == GCOV_TAG_BUILD_INFO) - { - if (scan_build_info (gi_ptr) < 0) - return -1; - - /* Since the stamps matched if we got here, this should be from - the same compilation and the build info strings should match. */ - tag = gcov_read_unsigned (); - } - - if (tag == GCOV_TAG_COMDAT_ZERO_FIXUP) - { - gcov_unsigned_t num_fns = 0; - length = gcov_read_unsigned (); - zero_fixup_flags = gcov_read_comdat_zero_fixup (length, &num_fns); - if (!zero_fixup_flags) - { - gcov_error ("profiling:%s:Error reading zero fixup flags\n", - gi_filename); - return -1; - } - - tag = gcov_read_unsigned (); - } - - /* Merge execution counts for each function. */ - for (f_ix = 0; (unsigned)f_ix != gi_ptr->n_functions; - f_ix++, tag = gcov_read_unsigned ()) - { - const struct gcov_ctr_info *ci_ptr; - const struct gcov_fn_info *gfi_ptr = gi_ptr->functions[f_ix]; - - if (tag != GCOV_TAG_FUNCTION) - goto read_mismatch; - - length = gcov_read_unsigned (); - if (!length) - /* This function did not appear in the other program. - We have nothing to merge. */ - continue; - - if (length != GCOV_TAG_FUNCTION_LENGTH) - goto read_mismatch; - - if (!gfi_ptr || gfi_ptr->key != gi_ptr) - { - /* This function appears in the other program. We - need to buffer the information in order to write - it back out -- we'll be inserting data before - this point, so cannot simply keep the data in the - file. */ - fn_tail = buffer_fn_data (gi_filename, - gi_ptr, fn_tail, f_ix); - if (!fn_tail) - goto read_mismatch; - continue; - } - - if (zero_fixup_flags) - set_gcov_fn_fixed_up (zero_fixup_flags[f_ix]); - - length = gcov_read_unsigned (); - if (length != gfi_ptr->ident) - goto read_mismatch; - - length = gcov_read_unsigned (); - if (length != gfi_ptr->lineno_checksum) - goto read_mismatch; - - length = gcov_read_unsigned (); - if (length != gfi_ptr->cfg_checksum) - goto read_mismatch; - - ci_ptr = gfi_ptr->ctrs; - for (t_ix = 0; t_ix < GCOV_COUNTERS; t_ix++) - { - gcov_merge_fn merge = gi_ptr->merge[t_ix]; - - if (!merge) - continue; - - tag = gcov_read_unsigned (); - length = gcov_read_unsigned (); - if (tag != GCOV_TAG_FOR_COUNTER (t_ix) - || length != GCOV_TAG_COUNTER_LENGTH (ci_ptr->num)) - goto read_mismatch; - (*merge) (ci_ptr->values, ci_ptr->num); - ci_ptr++; - } - if ((error = gcov_is_error ())) - goto read_error; - } - xfree (zero_fixup_flags); - - if (tag && tag != GCOV_TAG_MODULE_INFO) - { - read_mismatch:; - gcov_error ("profiling:%s:Merge mismatch for %s %u\n", - gi_filename, f_ix >= 0 ? "function" : "summary", - f_ix < 0 ? -1 - f_ix : f_ix); - return -1; - } - return 0; - -read_error: - gcov_error ("profiling:%s:%s merging\n", gi_filename, - error < 0 ? "Overflow": "Error"); - return -1; -} - -#if !defined(__KERNEL__) -/* Write NUM_FNS ZERO_COUNTS fixup flags to a gcda file starting from its - current location. */ - -static void -gcov_write_comdat_zero_fixup (char *zero_counts, unsigned num_fns) -{ - unsigned f_ix; - gcov_unsigned_t len = GCOV_TAG_COMDAT_ZERO_FIXUP_LENGTH (num_fns); - gcov_unsigned_t bitvector = 0, b_ix = 0; - gcov_write_tag_length (GCOV_TAG_COMDAT_ZERO_FIXUP, len); - - gcov_write_unsigned (num_fns); - for (f_ix = 0; f_ix != num_fns; f_ix++) - { - if (zero_counts[f_ix]) - bitvector |= 1 << b_ix; - if (++b_ix == 32) - { - gcov_write_unsigned (bitvector); - b_ix = 0; - bitvector = 0; - } - } - if (b_ix > 0) - gcov_write_unsigned (bitvector); -} -#endif /* __KERNEL__ */ - -/* Write build_info strings from GI_PTR to a gcda file starting from its current - location. */ - -static void -gcov_write_build_info (struct gcov_info *gi_ptr) -{ - gcov_unsigned_t num = 0; - gcov_unsigned_t len = 1; - - if (!gi_ptr->build_info) - return; - - /* Count the number of strings, which is terminated with an empty string. */ - while (gi_ptr->build_info[num][0]) - num++; - - len += gcov_compute_string_array_len (gi_ptr->build_info, num); - gcov_write_tag_length (GCOV_TAG_BUILD_INFO, len); - gcov_write_unsigned (num); - gcov_write_string_array (gi_ptr->build_info, num); -} - -/* Write counters in GI_PTR to a gcda file starting from its current - location. */ - -static void -gcov_write_func_counters (struct gcov_info *gi_ptr) -{ - unsigned f_ix; - - /* Write execution counts for each function. */ - for (f_ix = 0; f_ix != gi_ptr->n_functions; f_ix++) - { - unsigned buffered = 0; - const struct gcov_fn_info *gfi_ptr; - const struct gcov_ctr_info *ci_ptr; - gcov_unsigned_t length; - unsigned t_ix; - - if (fn_buffer && fn_buffer->fn_ix == f_ix) - { - /* Buffered data from another program. */ - buffered = 1; - gfi_ptr = &fn_buffer->info; - length = GCOV_TAG_FUNCTION_LENGTH; - } - else - { - gfi_ptr = gi_ptr->functions[f_ix]; - if (gfi_ptr && gfi_ptr->key == gi_ptr) - length = GCOV_TAG_FUNCTION_LENGTH; - else - length = 0; - } - - gcov_write_tag_length (GCOV_TAG_FUNCTION, length); - if (!length) - continue; - - gcov_write_unsigned (gfi_ptr->ident); - gcov_write_unsigned (gfi_ptr->lineno_checksum); - gcov_write_unsigned (gfi_ptr->cfg_checksum); - - ci_ptr = gfi_ptr->ctrs; - for (t_ix = 0; t_ix < GCOV_COUNTERS; t_ix++) - { - gcov_unsigned_t n_counts; - gcov_type *c_ptr; - - if (!gi_ptr->merge[t_ix]) - continue; - - n_counts = ci_ptr->num; - gcov_write_tag_length (GCOV_TAG_FOR_COUNTER (t_ix), - GCOV_TAG_COUNTER_LENGTH (n_counts)); - c_ptr = ci_ptr->values; - while (n_counts--) - gcov_write_counter (*c_ptr++); - ci_ptr++; - } -#if !defined(__KERNEL__) - if (buffered) - fn_buffer = free_fn_data (gi_ptr, fn_buffer, GCOV_COUNTERS); -#endif /* __KERNEL__ */ - } - - gi_ptr->eof_pos = gcov_position (); - gcov_write_unsigned (0); -} - -/* Write counters in GI_PTR and the summary in PRG to a gcda file. In - the case of appending to an existing file, SUMMARY_POS will be non-zero. - We will write the file starting from SUMMAY_POS. */ - -static void -gcov_exit_write_gcda (struct gcov_info *gi_ptr, - const struct gcov_summary *prg_p, - const gcov_position_t eof_pos, - const gcov_position_t summary_pos) - -{ - struct gcov_summary_buffer *next_sum_buffer; - - /* Write out the data. */ - if (!eof_pos) - { - gcov_write_tag_length (GCOV_DATA_MAGIC, GCOV_VERSION); - gcov_write_unsigned (gi_ptr->stamp); - } - - if (summary_pos) - gcov_seek (summary_pos); - gcc_assert (!summary_pos || summary_pos == gcov_position ()); - - /* Generate whole program statistics. */ - gcov_write_summary (GCOV_TAG_PROGRAM_SUMMARY, prg_p); - - /* Rewrite all the summaries that were after the summary we merged - into. This is necessary as the merged summary may have a different - size due to the number of non-zero histogram entries changing after - merging. */ - - while (sum_buffer) - { - gcov_write_summary (GCOV_TAG_PROGRAM_SUMMARY, &sum_buffer->summary); - next_sum_buffer = sum_buffer->next; - xfree (sum_buffer); - sum_buffer = next_sum_buffer; - } - - gcov_write_build_info (gi_ptr); - - /* Write the counters. */ - gcov_write_func_counters (gi_ptr); -} - -/* Helper function for merging summary. - Return -1 on error. Return 0 on success. */ - -static int -gcov_exit_merge_summary (const struct gcov_info *gi_ptr, struct gcov_summary *prg, - struct gcov_summary *this_prg, gcov_unsigned_t crc32, - struct gcov_summary *all_prg __attribute__ ((unused))) -{ - struct gcov_ctr_summary *cs_prg, *cs_tprg; - unsigned t_ix; -#if !GCOV_LOCKED - /* summary for all instances of program. */ - struct gcov_ctr_summary *cs_all; -#endif - - /* Merge the summaries. */ - for (t_ix = 0; t_ix < GCOV_COUNTERS_SUMMABLE; t_ix++) - { - cs_prg = &(prg->ctrs[t_ix]); - cs_tprg = &(this_prg->ctrs[t_ix]); - - if (gi_ptr->merge[t_ix]) - { - int first = !cs_prg->runs; - - if (!run_accounted) - cs_prg->runs++; - if (first) - cs_prg->num = cs_tprg->num; - cs_prg->sum_all += cs_tprg->sum_all; - if (cs_prg->run_max < cs_tprg->run_max) - cs_prg->run_max = cs_tprg->run_max; - cs_prg->sum_max += cs_tprg->run_max; - if (first) - memcpy (cs_prg->histogram, cs_tprg->histogram, - sizeof (gcov_bucket_type) * GCOV_HISTOGRAM_SIZE); - else - gcov_histogram_merge (cs_prg->histogram, cs_tprg->histogram); - } - else if (cs_prg->runs) - { - gcov_error ("profiling:%s:Merge mismatch for summary.\n", - gi_filename); - return -1; - } -#if !GCOV_LOCKED - cs_all = &all_prg->ctrs[t_ix]; - if (!cs_all->runs && cs_prg->runs) - { - cs_all->num = cs_prg->num; - cs_all->runs = cs_prg->runs; - cs_all->sum_all = cs_prg->sum_all; - cs_all->run_max = cs_prg->run_max; - cs_all->sum_max = cs_prg->sum_max; - } - else if (!all_prg->checksum - /* Don't compare the histograms, which may have slight - variations depending on the order they were updated - due to the truncating integer divides used in the - merge. */ - && (cs_all->num != cs_prg->num - || cs_all->runs != cs_prg->runs - || cs_all->sum_all != cs_prg->sum_all - || cs_all->run_max != cs_prg->run_max - || cs_all->sum_max != cs_prg->sum_max)) - { - gcov_error ("profiling:%s:Data file mismatch - some " - "data files may have been concurrently " - "updated without locking support\n", gi_filename); - all_prg->checksum = ~0u; - } -#endif - } - - prg->checksum = crc32; - - return 0; -} - -__attribute__((weak)) gcov_unsigned_t __gcov_lipo_sampling_period; - -/* Sort N entries in VALUE_ARRAY in descending order. - Each entry in VALUE_ARRAY has two values. The sorting - is based on the second value. */ - -GCOV_LINKAGE void -gcov_sort_n_vals (gcov_type *value_array, int n) -{ - int j, k; - for (j = 2; j < n; j += 2) - { - gcov_type cur_ent[2]; - cur_ent[0] = value_array[j]; - cur_ent[1] = value_array[j + 1]; - k = j - 2; - while (k >= 0 && value_array[k + 1] < cur_ent[1]) - { - value_array[k + 2] = value_array[k]; - value_array[k + 3] = value_array[k+1]; - k -= 2; - } - value_array[k + 2] = cur_ent[0]; - value_array[k + 3] = cur_ent[1]; - } -} - -/* Sort the profile counters for all indirect call sites. Counters - for each call site are allocated in array COUNTERS. */ - -static void -gcov_sort_icall_topn_counter (const struct gcov_ctr_info *counters) -{ - int i; - gcov_type *values; - int n = counters->num; - gcc_assert (!(n % GCOV_ICALL_TOPN_NCOUNTS)); - - values = counters->values; - - for (i = 0; i < n; i += GCOV_ICALL_TOPN_NCOUNTS) - { - gcov_type *value_array = &values[i + 1]; - gcov_sort_n_vals (value_array, GCOV_ICALL_TOPN_NCOUNTS - 1); - } -} - -static void -gcov_sort_topn_counter_arrays (const struct gcov_info *gi_ptr) -{ - unsigned int i; - int f_ix; - const struct gcov_fn_info *gfi_ptr; - const struct gcov_ctr_info *ci_ptr; - - for (f_ix = 0; (unsigned)f_ix != gi_ptr->n_functions; f_ix++) - { - gfi_ptr = gi_ptr->functions[f_ix]; - ci_ptr = gfi_ptr->ctrs; - for (i = 0; i < GCOV_COUNTERS; i++) - { - if (!gcov_counter_active (gi_ptr, i)) - continue; - if (i == GCOV_COUNTER_ICALL_TOPNV) - { - gcov_sort_icall_topn_counter (ci_ptr); - break; - } - ci_ptr++; - } - } -} - -/* Scaling LIPO sampled profile counters. */ -static void -gcov_scaling_lipo_counters (const struct gcov_info *gi_ptr) -{ - unsigned int i,j,k; - int f_ix; - const struct gcov_fn_info *gfi_ptr; - const struct gcov_ctr_info *ci_ptr; - - if (__gcov_lipo_sampling_period <= 1) - return; - - for (f_ix = 0; (unsigned)f_ix != gi_ptr->n_functions; f_ix++) - { - gfi_ptr = gi_ptr->functions[f_ix]; - ci_ptr = gfi_ptr->ctrs; - for (i = 0; i < GCOV_COUNTERS; i++) - { - if (!gcov_counter_active (gi_ptr, i)) - continue; - if (i == GCOV_COUNTER_ICALL_TOPNV) - { - for (j = 0; j < ci_ptr->num; j += GCOV_ICALL_TOPN_NCOUNTS) - for (k = 2; k < GCOV_ICALL_TOPN_NCOUNTS; k += 2) - ci_ptr->values[j+k] *= __gcov_lipo_sampling_period; - } - if (i == GCOV_COUNTER_DIRECT_CALL) - { - for (j = 0; j < ci_ptr->num; j += 2) - ci_ptr->values[j+1] *= __gcov_lipo_sampling_period; - } - ci_ptr++; - } - } -} - -/* Open a gcda file specified by GI_FILENAME. - Return -1 on error. Return 0 on success. */ - -static int -gcov_exit_open_gcda_file (struct gcov_info *gi_ptr, struct gcov_filename_aux *gf) -{ - int gcov_prefix_strip; - size_t prefix_length; - char *gi_filename_up; - - gcov_prefix_strip = gf->gcov_prefix_strip; - gi_filename_up = gf->gi_filename_up; - prefix_length = gf->prefix_length; - - gcov_strip_leading_dirs (prefix_length, gcov_prefix_strip, gi_ptr->filename, - gi_filename_up); - - return gcov_open_by_filename (gi_filename); -} - -/* Dump the coverage counts for one gcov_info object. We merge with existing - counts when possible, to avoid growing the .da files ad infinitum. We use - this program's checksum to make sure we only accumulate whole program - statistics to the correct summary. An object file might be embedded - in two separate programs, and we must keep the two program - summaries separate. */ - -static void -gcov_exit_dump_gcov (struct gcov_info *gi_ptr, struct gcov_filename_aux *gf, - gcov_unsigned_t crc32, struct gcov_summary *all_prg, - struct gcov_summary *this_prg) -{ -/* We have to make the decl static as kernel has limited stack size. - If we put prg to stack, we will running into nasty stack overflow. */ -#if defined(__KERNEL__) - static -#endif - struct gcov_summary prg; /* summary for this object over all program. */ - int error; - gcov_unsigned_t tag = 0; - gcov_position_t summary_pos = 0; - gcov_position_t eof_pos = 0; - - fn_buffer = 0; - sum_buffer = 0; - - gcov_sort_topn_counter_arrays (gi_ptr); - gcov_scaling_lipo_counters (gi_ptr); - - error = gcov_exit_open_gcda_file (gi_ptr, gf); - if (error == -1) - return; - -#if !defined(__KERNEL__) - tag = gcov_read_unsigned (); -#endif - if (tag) - { - /* Merge data from file. */ - if (tag != GCOV_DATA_MAGIC) - { - gcov_error ("profiling:%s:Not a gcov data file\n", gi_filename); - goto read_fatal; - } - error = gcov_exit_merge_gcda (gi_ptr, &prg, this_prg, &summary_pos, &eof_pos, - crc32); - if (error == -1) - goto read_fatal; - } - - gcov_rewrite (); - - if (!summary_pos) - { - memset (&prg, 0, sizeof (prg)); - summary_pos = eof_pos; - } - - error = gcov_exit_merge_summary (gi_ptr, &prg, this_prg, crc32, all_prg); - if (error == -1) - goto read_fatal; - - gcov_exit_write_gcda (gi_ptr, &prg, eof_pos, summary_pos); - /* fall through */ - -read_fatal:; -#if !defined(__KERNEL__) - while (fn_buffer) - fn_buffer = free_fn_data (gi_ptr, fn_buffer, GCOV_COUNTERS); -#else - - /* In LIPO mode, dump the primary module info. */ - if (gi_ptr->mod_info && gi_ptr->mod_info->is_primary) - { - /* Overwrite the zero word at the of the file. */ - gcov_seek (gi_ptr->eof_pos); - gcov_write_module_info (gi_ptr, 1); - /* Write the end marker */ - gcov_write_unsigned (0); - } -#endif - - if ((error = gcov_close ())) - gcov_error (error < 0 ? - "profiling:%s:Overflow writing\n" : - "profiling:%s:Error writing\n", - gi_filename); -} - -#if !defined (__KERNEL__) -/* Write imported files (auxiliary modules) for primary module GI_PTR - into file GI_FILENAME. */ - -static void -gcov_write_import_file (char *gi_filename, struct gcov_info *gi_ptr) -{ - char *gi_imports_filename; - const char *gcov_suffix; - FILE *imports_file; - size_t prefix_length, suffix_length; - - gcov_suffix = getenv ("GCOV_IMPORTS_SUFFIX"); - if (!gcov_suffix || !strlen (gcov_suffix)) - gcov_suffix = ".imports"; - suffix_length = strlen (gcov_suffix); - prefix_length = strlen (gi_filename); - gi_imports_filename = (char *) alloca (prefix_length + suffix_length + 1); - memset (gi_imports_filename, 0, prefix_length + suffix_length + 1); - memcpy (gi_imports_filename, gi_filename, prefix_length); - memcpy (gi_imports_filename + prefix_length, gcov_suffix, suffix_length); - imports_file = fopen (gi_imports_filename, "w"); - if (imports_file) - { - const struct dyn_imp_mod **imp_mods; - unsigned i, imp_len; - imp_mods = gcov_get_sorted_import_module_array (gi_ptr, &imp_len); - if (imp_mods) - { - for (i = 0; i < imp_len; i++) - { - fprintf (imports_file, "%s\n", - imp_mods[i]->imp_mod->mod_info->source_filename); - fprintf (imports_file, "%s%s\n", - imp_mods[i]->imp_mod->mod_info->da_filename, GCOV_DATA_SUFFIX); - } - xfree (imp_mods); - } - fclose (imports_file); - } -} - -static void -gcov_dump_module_info (struct gcov_filename_aux *gf) -{ - struct gcov_info *gi_ptr; - - unsigned max_module_id = 0; - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - unsigned mod_id = gi_ptr->mod_info->ident; - if (max_module_id < mod_id) - max_module_id = mod_id; - } - char **zero_counts = (char **) xcalloc (max_module_id, sizeof (char *)); - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - unsigned mod_id = gi_ptr->mod_info->ident; - zero_counts[mod_id-1] = (char *) xcalloc (gi_ptr->n_functions, - sizeof (char)); - } - - /* Compute the module groups and record whether there were any - counter fixups applied that require rewriting the counters. */ - int changed = __gcov_compute_module_groups (zero_counts); - - /* Now write out module group info. */ - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - int error; - - if (gcov_exit_open_gcda_file (gi_ptr, gf) == -1) - continue; - - if (changed) - { - /* Scan file to find the start of the function section, which is - where we will start re-writing the counters. */ - gcov_position_t summary_end_pos; - if (gcov_scan_to_function_data (gi_ptr, &summary_end_pos) == -1) - gcov_error ("profiling:%s:Error scanning summaries\n", - gi_filename); - else - { - gcov_position_t eof_pos = gi_ptr->eof_pos; - gcov_rewrite (); - gcov_seek (summary_end_pos); - - unsigned mod_id = gi_ptr->mod_info->ident; - gcov_write_comdat_zero_fixup (zero_counts[mod_id-1], - gi_ptr->n_functions); - gcov_position_t zero_fixup_eof_pos = gcov_position (); - - gcov_write_func_counters (gi_ptr); - gcc_assert (eof_pos + (zero_fixup_eof_pos - summary_end_pos) - == gi_ptr->eof_pos); - } - } - else - gcov_rewrite (); - - /* Overwrite the zero word at the of the file. */ - gcov_seek (gi_ptr->eof_pos); - - gcov_write_module_infos (gi_ptr); - /* Write the end marker */ - gcov_write_unsigned (0); - gcov_truncate (); - - if ((error = gcov_close ())) - gcov_error (error < 0 ? "profiling:%s:Overflow writing\n" : - "profiling:%s:Error writing\n", - gi_filename); - gcov_write_import_file (gi_filename, gi_ptr); - free (zero_counts[gi_ptr->mod_info->ident-1]); - } - - free (zero_counts); - - __gcov_finalize_dyn_callgraph (); -} - -/* Dump all the coverage counts for the program. It first computes program - summary and then traverses gcov_list list and dumps the gcov_info - objects one by one. */ - -void -gcov_exit (void) -{ - struct gcov_info *gi_ptr; - struct gcov_filename_aux gf; - gcov_unsigned_t crc32; - int dump_module_info = 0; - struct gcov_summary all_prg; - struct gcov_summary this_prg; - - /* Prevent the counters from being dumped a second time on exit when the - application already wrote out the profile using __gcov_dump(). */ - if (gcov_dump_complete) - return; - - crc32 = gcov_exit_compute_summary (&this_prg); - - allocate_filename_struct (&gf); -#if !GCOV_LOCKED - memset (&all_prg, 0, sizeof (all_prg)); -#endif - - /* Now merge each file. */ - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - gcov_exit_dump_gcov (gi_ptr, &gf, crc32, &all_prg, &this_prg); - - /* The IS_PRIMARY field is overloaded to indicate if this module - is FDO/LIPO. */ - if (gi_ptr->mod_info) - dump_module_info |= gi_ptr->mod_info->is_primary; - } - run_accounted = 1; - - if (dump_module_info) - gcov_dump_module_info (&gf); - - if (gi_filename) - xfree (gi_filename); -} - -/* Add a new object file onto the bb chain. Invoked automatically - when running an object file's global ctors. */ - -void -__gcov_init (struct gcov_info *info) -{ -#ifndef IN_GCOV_TOOL - if (!gcov_sampling_period_initialized) - { - const char* env_value_str = getenv ("GCOV_SAMPLING_PERIOD"); - if (env_value_str) - { - int env_value_int = atoi(env_value_str); - if (env_value_int >= 1) - __gcov_sampling_period = env_value_int; - } - env_value_str = getenv ("GCOV_LIPO_SAMPLING_PERIOD"); - if (env_value_str) - { - int env_value_int = atoi(env_value_str); - if (env_value_int >= 0) - __gcov_lipo_sampling_period = env_value_int; - } - gcov_sampling_period_initialized = 1; - } -#endif - - if (!info->version || !info->n_functions) - return; - if (gcov_version (info, info->version, 0)) - { - size_t filename_length = strlen(info->filename); - - /* Refresh the longest file name information */ - if (filename_length > gcov_max_filename) - gcov_max_filename = filename_length; - - /* Assign the module ID (starting at 1). */ - info->mod_info->ident = (++gcov_cur_module_id); - gcc_assert (EXTRACT_MODULE_ID_FROM_GLOBAL_ID (GEN_FUNC_GLOBAL_ID ( - info->mod_info->ident, 0)) - == info->mod_info->ident); - - if (!__gcov_list) - atexit (gcov_exit); - - info->next = __gcov_list; - __gcov_list = info; - } - info->version = 0; -} - -#else /* __KERNEL__ */ - -static struct gcov_filename_aux gf; -static gcov_unsigned_t crc32; -static struct gcov_summary all_prg; -static struct gcov_summary this_prg; -void -gcov_kernel_dump_gcov_init (void) -{ - crc32 = gcov_exit_compute_summary (&this_prg); - allocate_filename_struct (&gf); - memset (&all_prg, 0, sizeof (all_prg)); -} - -void -gcov_kernel_dump_one_gcov(struct gcov_info *info) -{ - gcov_exit_dump_gcov (info, &gf, crc32, &all_prg, &this_prg); -} - -#endif /* __KERNEL__ */ - -/* Reset all counters to zero. */ - -void -gcov_clear (void) -{ - const struct gcov_info *gi_ptr; - - for (gi_ptr = __gcov_list; gi_ptr; gi_ptr = gi_ptr->next) - { - unsigned f_ix; - - for (f_ix = 0; f_ix < gi_ptr->n_functions; f_ix++) - { - unsigned t_ix; - const struct gcov_fn_info *gfi_ptr = gi_ptr->functions[f_ix]; - const struct gcov_ctr_info *ci_ptr; - - if (!gfi_ptr || gfi_ptr->key != gi_ptr) - continue; - ci_ptr = gfi_ptr->ctrs; - for (t_ix = 0; t_ix != GCOV_COUNTERS; t_ix++) - { - if (!gi_ptr->merge[t_ix]) - continue; - - memset (ci_ptr->values, 0, sizeof (gcov_type) * ci_ptr->num); - ci_ptr++; - } - } - } -} - -/* Write out MOD_INFO into the gcda file. IS_PRIMARY is a flag - indicating if the module is the primary module in the group. */ - -void -gcov_write_module_info (const struct gcov_info *mod_info, - unsigned is_primary) -{ - gcov_unsigned_t len = 0, filename_len = 0, src_filename_len = 0, i; - gcov_unsigned_t num_strings; - gcov_unsigned_t *aligned_fname; - struct gcov_module_info *module_info = mod_info->mod_info; - filename_len = (strlen (module_info->da_filename) + - sizeof (gcov_unsigned_t)) / sizeof (gcov_unsigned_t); - src_filename_len = (strlen (module_info->source_filename) + - sizeof (gcov_unsigned_t)) / sizeof (gcov_unsigned_t); - len = filename_len + src_filename_len; - len += 2; /* each name string is led by a length. */ - - num_strings = module_info->num_quote_paths + module_info->num_bracket_paths - + module_info->num_system_paths - + module_info->num_cpp_defines + module_info->num_cpp_includes - + module_info->num_cl_args; - len += gcov_compute_string_array_len (module_info->string_array, - num_strings); - - len += 11; /* 11 more fields */ - - gcov_write_tag_length (GCOV_TAG_MODULE_INFO, len); - gcov_write_unsigned (module_info->ident); - gcov_write_unsigned (is_primary); - gcov_write_unsigned (module_info->flags); - gcov_write_unsigned (module_info->lang); - gcov_write_unsigned (module_info->ggc_memory); - gcov_write_unsigned (module_info->num_quote_paths); - gcov_write_unsigned (module_info->num_bracket_paths); - gcov_write_unsigned (module_info->num_system_paths); - gcov_write_unsigned (module_info->num_cpp_defines); - gcov_write_unsigned (module_info->num_cpp_includes); - gcov_write_unsigned (module_info->num_cl_args); - - /* Now write the filenames */ - aligned_fname = (gcov_unsigned_t *) alloca ((filename_len + src_filename_len + 2) * - sizeof (gcov_unsigned_t)); - memset (aligned_fname, 0, - (filename_len + src_filename_len + 2) * sizeof (gcov_unsigned_t)); - aligned_fname[0] = filename_len; - strcpy ((char*) (aligned_fname + 1), module_info->da_filename); - aligned_fname[filename_len + 1] = src_filename_len; - strcpy ((char*) (aligned_fname + filename_len + 2), module_info->source_filename); - - for (i = 0; i < (filename_len + src_filename_len + 2); i++) - gcov_write_unsigned (aligned_fname[i]); - - /* Now write the string array. */ - gcov_write_string_array (module_info->string_array, num_strings); -} - -#endif /* L_gcov */ -#endif /* inhibit_libc */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-kernel.h b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-kernel.h deleted file mode 100644 index b44af53..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-kernel.h +++ /dev/null @@ -1,121 +0,0 @@ -/* Header file for libgcov-*.c. - Copyright (C) 1996-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify it under - the terms of the GNU General Public License as published by the Free - Software Foundation; either version 3, or (at your option) any later - version. - - GCC is distributed in the hope that it will be useful, but WITHOUT ANY - WARRANTY; without even the implied warranty of MERCHANTABILITY or - FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License - for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef GCC_LIBGCOV_KERNEL_H -#define GCC_LIBGCOV_KERNEL_H - -/* work around the poisoned malloc/calloc in system.h. */ -#ifndef xmalloc -#define xmalloc vmalloc -#endif -#ifndef xcalloc -#define xcalloc vcalloc -#endif -#ifndef xrealloc -#define xrealloc vrealloc -#endif -#ifndef xfree -#define xfree vfree -#endif -#ifndef alloca -#define alloca __builtin_alloca -#endif - -#ifndef SEEK_SET -#define SEEK_SET 0 -#endif - - /* Define MACROs to be used by kernel compilation. */ -# define L_gcov -# define L_gcov_interval_profiler -# define L_gcov_pow2_profiler -# define L_gcov_one_value_profiler -# define L_gcov_indirect_call_profiler_v2 -# define L_gcov_direct_call_profiler -# define L_gcov_indirect_call_profiler -# define L_gcov_indirect_call_topn_profiler -# define L_gcov_time_profiler -# define L_gcov_average_profiler -# define L_gcov_ior_profiler -# define L_gcov_merge_add -# define L_gcov_merge_single -# define L_gcov_merge_delta -# define L_gcov_merge_ior -# define L_gcov_merge_time_profile -# define L_gcov_merge_icall_topn -# define L_gcov_merge_dc - -# define IN_LIBGCOV 1 -# define IN_GCOV 0 -#define THREAD_PREFIX -#define GCOV_LINKAGE /* nothing */ -#define BITS_PER_UNIT 8 -#define LONG_LONG_TYPE_SIZE 64 -#define MEMMODEL_RELAXED 0 - -#define ENABLE_ASSERT_CHECKING 1 - -/* gcc_assert() prints out a warning if the check fails. It - will not abort. */ -#if ENABLE_ASSERT_CHECKING -# define gcc_assert(EXPR) \ - ((void)(!(EXPR) ? printk (KERN_WARNING \ - "GCOV assertion fails: func=%s line=%d\n", \ - __FUNCTION__, __LINE__), 0 : 0)) -#else -# define gcc_assert(EXPR) ((void)(0 && (EXPR))) -#endif - -/* In Linux kernel mode, a virtual file is used for file operations. */ -struct gcov_info; -typedef struct { - long size; /* size of buf */ - long count; /* element written into buf */ - struct gcov_info *info; - char *buf; -} gcov_kernel_vfile; - -#define _GCOV_FILE gcov_kernel_vfile - -/* Wrappers to the file operations. */ -#define _GCOV_fclose kernel_file_fclose -#define _GCOV_ftell kernel_file_ftell -#define _GCOV_fseek kernel_file_fseek -#define _GCOV_ftruncate kernel_file_ftruncate -#define _GCOV_fread kernel_file_fread -#define _GCOV_fwrite kernel_file_fwrite -#define _GCOV_fileno kernel_file_fileno - -/* Declarations for virtual files operations. */ -extern int kernel_file_fclose (gcov_kernel_vfile *); -extern long kernel_file_ftell (gcov_kernel_vfile *); -extern int kernel_file_fseek (gcov_kernel_vfile *, long, int); -extern int kernel_file_ftruncate (gcov_kernel_vfile *, off_t); -extern int kernel_file_fread (void *, size_t, size_t, - gcov_kernel_vfile *); -extern int kernel_file_fwrite (const void *, size_t, size_t, - gcov_kernel_vfile *); -extern int kernel_file_fileno (gcov_kernel_vfile *); - -#endif /* GCC_LIBGCOV_KERNEL_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-merge.c b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-merge.c deleted file mode 100644 index 997dab3..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-merge.c +++ /dev/null @@ -1,299 +0,0 @@ -/* Routines required for instrumenting a program. */ -/* Compile this one with gcc. */ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -#include "libgcov.h" - -#if defined(inhibit_libc) -/* If libc and its header files are not available, provide dummy functions. */ - -#ifdef L_gcov_merge_add -void __gcov_merge_add (gcov_type *counters __attribute__ ((unused)), - unsigned n_counters __attribute__ ((unused))) {} -#endif - -#ifdef L_gcov_merge_single -void __gcov_merge_single (gcov_type *counters __attribute__ ((unused)), - unsigned n_counters __attribute__ ((unused))) {} -#endif - -#ifdef L_gcov_merge_delta -void __gcov_merge_delta (gcov_type *counters __attribute__ ((unused)), - unsigned n_counters __attribute__ ((unused))) {} -#endif - -#else - -#ifdef L_gcov_merge_add -/* The profile merging function that just adds the counters. It is given - an array COUNTERS of N_COUNTERS old counters and it reads the same number - of counters from the gcov file. */ -void -__gcov_merge_add (gcov_type *counters, unsigned n_counters) -{ - for (; n_counters; counters++, n_counters--) - *counters += gcov_get_counter (); -} -#endif /* L_gcov_merge_add */ - -#ifdef L_gcov_merge_ior -/* The profile merging function that just adds the counters. It is given - an array COUNTERS of N_COUNTERS old counters and it reads the same number - of counters from the gcov file. */ -void -__gcov_merge_ior (gcov_type *counters, unsigned n_counters) -{ - for (; n_counters; counters++, n_counters--) - *counters |= gcov_get_counter_target (); -} -#endif - - -#ifdef L_gcov_merge_dc - -/* Returns 1 if the function global id GID is not valid. */ - -static int -__gcov_is_gid_insane (gcov_type gid) -{ - if (EXTRACT_MODULE_ID_FROM_GLOBAL_ID (gid) == 0 - || EXTRACT_FUNC_ID_FROM_GLOBAL_ID (gid) == 0) - return 1; - return 0; -} - -/* The profile merging function used for merging direct call counts - This function is given array COUNTERS of N_COUNTERS old counters and it - reads the same number of counters from the gcov file. */ - -void -__gcov_merge_dc (gcov_type *counters, unsigned n_counters) -{ - unsigned i; - - gcc_assert (!(n_counters % 2)); - for (i = 0; i < n_counters; i += 2) - { - gcov_type global_id = gcov_get_counter_target (); - gcov_type call_count = gcov_get_counter (); - - /* Note that global id counter may never have been set if no calls were - made from this call-site. */ - if (counters[i] && global_id) - { - /* TODO race condition requires us do the following correction. */ - if (__gcov_is_gid_insane (counters[i])) - counters[i] = global_id; - else if (__gcov_is_gid_insane (global_id)) - global_id = counters[i]; - -#if !defined(__KERNEL__) - /* In the case of inconsistency, use the src's target. */ - if (counters[i] != global_id) - fprintf (stderr, "Warning: Inconsistent call targets in" - " direct-call profile.\n"); -#endif - } - else if (global_id) - counters[i] = global_id; - - counters[i + 1] += call_count; - - /* Reset. */ - if (__gcov_is_gid_insane (counters[i])) - counters[i] = counters[i + 1] = 0; - - /* Assert that the invariant (global_id == 0) <==> (call_count == 0) - holds true after merging. */ - if (counters[i] == 0) - counters[i+1] = 0; - if (counters[i + 1] == 0) - counters[i] = 0; - } -} -#endif - - -#ifdef L_gcov_merge_icall_topn -/* The profile merging function used for merging indirect call counts - This function is given array COUNTERS of N_COUNTERS old counters and it - reads the same number of counters from the gcov file. */ - -void -__gcov_merge_icall_topn (gcov_type *counters, unsigned n_counters) -{ - unsigned i, j, k, m; - - gcc_assert (!(n_counters % GCOV_ICALL_TOPN_NCOUNTS)); - for (i = 0; i < n_counters; i += GCOV_ICALL_TOPN_NCOUNTS) - { - gcov_type *value_array = &counters[i + 1]; - unsigned tmp_size = 2 * (GCOV_ICALL_TOPN_NCOUNTS - 1); - gcov_type *tmp_array - = (gcov_type *) alloca (tmp_size * sizeof (gcov_type)); - - for (j = 0; j < tmp_size; j++) - tmp_array[j] = 0; - - for (j = 0; j < GCOV_ICALL_TOPN_NCOUNTS - 1; j += 2) - { - tmp_array[j] = value_array[j]; - tmp_array[j + 1] = value_array [j + 1]; - } - - /* Skip the number_of_eviction entry. */ - gcov_get_counter (); - for (k = 0; k < GCOV_ICALL_TOPN_NCOUNTS - 1; k += 2) - { - int found = 0; - gcov_type global_id = gcov_get_counter_target (); - gcov_type call_count = gcov_get_counter (); - for (m = 0; m < j; m += 2) - { - if (tmp_array[m] == global_id) - { - found = 1; - tmp_array[m + 1] += call_count; - break; - } - } - if (!found) - { - tmp_array[j] = global_id; - tmp_array[j + 1] = call_count; - j += 2; - } - } - /* Now sort the temp array */ - gcov_sort_n_vals (tmp_array, j); - - /* Now copy back the top half of the temp array */ - for (k = 0; k < GCOV_ICALL_TOPN_NCOUNTS - 1; k += 2) - { - value_array[k] = tmp_array[k]; - value_array[k + 1] = tmp_array[k + 1]; - } - } -} -#endif - - -#ifdef L_gcov_merge_time_profile -/* Time profiles are merged so that minimum from all valid (greater than zero) - is stored. There could be a fork that creates new counters. To have - the profile stable, we chosen to pick the smallest function visit time. */ -void -__gcov_merge_time_profile (gcov_type *counters, unsigned n_counters) -{ - unsigned int i; - gcov_type value; - - for (i = 0; i < n_counters; i++) - { - value = gcov_get_counter_target (); - - if (value && (!counters[i] || value < counters[i])) - counters[i] = value; - } -} -#endif /* L_gcov_merge_time_profile */ - -#ifdef L_gcov_merge_single -/* The profile merging function for choosing the most common value. - It is given an array COUNTERS of N_COUNTERS old counters and it - reads the same number of counters from the gcov file. The counters - are split into 3-tuples where the members of the tuple have - meanings: - - -- the stored candidate on the most common value of the measured entity - -- counter - -- total number of evaluations of the value */ -void -__gcov_merge_single (gcov_type *counters, unsigned n_counters) -{ - unsigned i, n_measures; - gcov_type value, counter, all; - - gcc_assert (!(n_counters % 3)); - n_measures = n_counters / 3; - for (i = 0; i < n_measures; i++, counters += 3) - { - value = gcov_get_counter_target (); - counter = gcov_get_counter (); - all = gcov_get_counter (); - - if (counters[0] == value) - counters[1] += counter; - else if (counter > counters[1]) - { - counters[0] = value; - counters[1] = counter - counters[1]; - } - else - counters[1] -= counter; - counters[2] += all; - } -} -#endif /* L_gcov_merge_single */ - -#ifdef L_gcov_merge_delta -/* The profile merging function for choosing the most common - difference between two consecutive evaluations of the value. It is - given an array COUNTERS of N_COUNTERS old counters and it reads the - same number of counters from the gcov file. The counters are split - into 4-tuples where the members of the tuple have meanings: - - -- the last value of the measured entity - -- the stored candidate on the most common difference - -- counter - -- total number of evaluations of the value */ -void -__gcov_merge_delta (gcov_type *counters, unsigned n_counters) -{ - unsigned i, n_measures; - gcov_type value, counter, all; - - gcc_assert (!(n_counters % 4)); - n_measures = n_counters / 4; - for (i = 0; i < n_measures; i++, counters += 4) - { - /* last = */ gcov_get_counter (); - value = gcov_get_counter_target (); - counter = gcov_get_counter (); - all = gcov_get_counter (); - - if (counters[1] == value) - counters[2] += counter; - else if (counter > counters[2]) - { - counters[1] = value; - counters[2] = counter - counters[2]; - } - else - counters[2] -= counter; - counters[3] += all; - } -} -#endif /* L_gcov_merge_delta */ -#endif /* inhibit_libc */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-profiler.c b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-profiler.c deleted file mode 100644 index 7552ada..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov-profiler.c +++ /dev/null @@ -1,477 +0,0 @@ -/* Routines required for instrumenting a program. */ -/* Compile this one with gcc. */ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -#include "libgcov.h" -#if !defined(inhibit_libc) - -#ifdef L_gcov_interval_profiler -/* If VALUE is in interval <START, START + STEPS - 1>, then increases the - corresponding counter in COUNTERS. If the VALUE is above or below - the interval, COUNTERS[STEPS] or COUNTERS[STEPS + 1] is increased - instead. */ - -void -__gcov_interval_profiler (gcov_type *counters, gcov_type value, - int start, unsigned steps) -{ - gcov_type delta = value - start; - if (delta < 0) - counters[steps + 1]++; - else if (delta >= steps) - counters[steps]++; - else - counters[delta]++; -} -#endif - -#ifdef L_gcov_pow2_profiler -/* If VALUE is a power of two, COUNTERS[1] is incremented. Otherwise - COUNTERS[0] is incremented. */ - -void -__gcov_pow2_profiler (gcov_type *counters, gcov_type value) -{ - if (value & (value - 1)) - counters[0]++; - else - counters[1]++; -} -#endif - -/* Tries to determine the most common value among its inputs. Checks if the - value stored in COUNTERS[0] matches VALUE. If this is the case, COUNTERS[1] - is incremented. If this is not the case and COUNTERS[1] is not zero, - COUNTERS[1] is decremented. Otherwise COUNTERS[1] is set to one and - VALUE is stored to COUNTERS[0]. This algorithm guarantees that if this - function is called more than 50% of the time with one value, this value - will be in COUNTERS[0] in the end. - - In any case, COUNTERS[2] is incremented. */ - -static inline void -__gcov_one_value_profiler_body (gcov_type *counters, gcov_type value) -{ - if (value == counters[0]) - counters[1]++; - else if (counters[1] == 0) - { - counters[1] = 1; - counters[0] = value; - } - else - counters[1]--; - counters[2]++; -} - -/* Atomic update version of __gcov_one_value_profile_body(). */ -static inline void -__gcov_one_value_profiler_body_atomic (gcov_type *counters, gcov_type value) -{ - if (value == counters[0]) - GCOV_TYPE_ATOMIC_FETCH_ADD_FN (&counters[1], 1, MEMMODEL_RELAXED); - else if (counters[1] == 0) - { - counters[1] = 1; - counters[0] = value; - } - else - GCOV_TYPE_ATOMIC_FETCH_ADD_FN (&counters[1], -1, MEMMODEL_RELAXED); - GCOV_TYPE_ATOMIC_FETCH_ADD_FN (&counters[2], 1, MEMMODEL_RELAXED); -} - - -#ifdef L_gcov_one_value_profiler -void -__gcov_one_value_profiler (gcov_type *counters, gcov_type value) -{ - __gcov_one_value_profiler_body (counters, value); -} - -void -__gcov_one_value_profiler_atomic (gcov_type *counters, gcov_type value) -{ - __gcov_one_value_profiler_body_atomic (counters, value); -} - - -#endif - -#ifdef L_gcov_indirect_call_profiler -/* This function exist only for workaround of binutils bug 14342. - Once this compatibility hack is obsolette, it can be removed. */ - -/* By default, the C++ compiler will use function addresses in the - vtable entries. Setting TARGET_VTABLE_USES_DESCRIPTORS to nonzero - tells the compiler to use function descriptors instead. The value - of this macro says how many words wide the descriptor is (normally 2), - but it may be dependent on target flags. Since we do not have access - to the target flags here we just check to see if it is set and use - that to set VTABLE_USES_DESCRIPTORS to 0 or 1. - - It is assumed that the address of a function descriptor may be treated - as a pointer to a function. */ - -#ifdef TARGET_VTABLE_USES_DESCRIPTORS -#define VTABLE_USES_DESCRIPTORS 1 -#else -#define VTABLE_USES_DESCRIPTORS 0 -#endif - -/* Tries to determine the most common value among its inputs. */ -void -__gcov_indirect_call_profiler (gcov_type* counter, gcov_type value, - void* cur_func, void* callee_func) -{ - /* If the C++ virtual tables contain function descriptors then one - function may have multiple descriptors and we need to dereference - the descriptors to see if they point to the same function. */ - if (cur_func == callee_func - || (VTABLE_USES_DESCRIPTORS && callee_func - && *(void **) cur_func == *(void **) callee_func)) - __gcov_one_value_profiler_body (counter, value); -} - - -/* Atomic update version of __gcov_indirect_call_profiler(). */ -void -__gcov_indirect_call_profiler_atomic (gcov_type* counter, gcov_type value, - void* cur_func, void* callee_func) -{ - if (cur_func == callee_func - || (VTABLE_USES_DESCRIPTORS && callee_func - && *(void **) cur_func == *(void **) callee_func)) - __gcov_one_value_profiler_body_atomic (counter, value); -} - - -#endif -#ifdef L_gcov_indirect_call_profiler_v2 - -/* These two variables are used to actually track caller and callee. Keep - them in TLS memory so races are not common (they are written to often). - The variables are set directly by GCC instrumented code, so declaration - here must match one in tree-profile.c */ - -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -void * __gcov_indirect_call_callee; -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -gcov_type * __gcov_indirect_call_counters; - -/* By default, the C++ compiler will use function addresses in the - vtable entries. Setting TARGET_VTABLE_USES_DESCRIPTORS to nonzero - tells the compiler to use function descriptors instead. The value - of this macro says how many words wide the descriptor is (normally 2), - but it may be dependent on target flags. Since we do not have access - to the target flags here we just check to see if it is set and use - that to set VTABLE_USES_DESCRIPTORS to 0 or 1. - - It is assumed that the address of a function descriptor may be treated - as a pointer to a function. */ - -#ifdef TARGET_VTABLE_USES_DESCRIPTORS -#define VTABLE_USES_DESCRIPTORS 1 -#else -#define VTABLE_USES_DESCRIPTORS 0 -#endif - -/* Tries to determine the most common value among its inputs. */ -void -__gcov_indirect_call_profiler_v2 (gcov_type value, void* cur_func) -{ - /* If the C++ virtual tables contain function descriptors then one - function may have multiple descriptors and we need to dereference - the descriptors to see if they point to the same function. */ - if (cur_func == __gcov_indirect_call_callee - || (VTABLE_USES_DESCRIPTORS && __gcov_indirect_call_callee - && *(void **) cur_func == *(void **) __gcov_indirect_call_callee)) - __gcov_one_value_profiler_body (__gcov_indirect_call_counters, value); -} - -void -__gcov_indirect_call_profiler_atomic_v2 (gcov_type value, void* cur_func) -{ - /* If the C++ virtual tables contain function descriptors then one - function may have multiple descriptors and we need to dereference - the descriptors to see if they point to the same function. */ - if (cur_func == __gcov_indirect_call_callee - || (VTABLE_USES_DESCRIPTORS && __gcov_indirect_call_callee - && *(void **) cur_func == *(void **) __gcov_indirect_call_callee)) - __gcov_one_value_profiler_body_atomic (__gcov_indirect_call_counters, value); -} - -#endif - -/* -#if defined(L_gcov_direct_call_profiler) || defined(L_gcov_indirect_call_topn_profiler) -__attribute__ ((weak)) gcov_unsigned_t __gcov_lipo_sampling_period; -#endif -*/ - -extern gcov_unsigned_t __gcov_lipo_sampling_period; - -#ifdef L_gcov_indirect_call_topn_profiler - -#include "gthr.h" - -#ifdef __GTHREAD_MUTEX_INIT -__thread int in_profiler; -ATTRIBUTE_HIDDEN __gthread_mutex_t __indir_topn_val_mx = __GTHREAD_MUTEX_INIT; -#endif - -/* Tries to keep track the most frequent N values in the counters where - N is specified by parameter TOPN_VAL. To track top N values, 2*N counter - entries are used. - counter[0] --- the accumative count of the number of times one entry in - in the counters gets evicted/replaced due to limited capacity. - When this value reaches a threshold, the bottom N values are - cleared. - counter[1] through counter[2*N] records the top 2*N values collected so far. - Each value is represented by two entries: count[2*i+1] is the ith value, and - count[2*i+2] is the number of times the value is seen. */ - -static void -__gcov_topn_value_profiler_body (gcov_type *counters, gcov_type value, - gcov_unsigned_t topn_val) -{ - unsigned i, found = 0, have_zero_count = 0; - - gcov_type *entry; - gcov_type *lfu_entry = &counters[1]; - gcov_type *value_array = &counters[1]; - gcov_type *num_eviction = &counters[0]; - - /* There are 2*topn_val values tracked, each value takes two slots in the - counter array */ -#ifdef __GTHREAD_MUTEX_INIT - /* If this is reentry, return. */ - if (in_profiler == 1) - return; - - in_profiler = 1; - __gthread_mutex_lock (&__indir_topn_val_mx); -#endif - for (i = 0; i < topn_val << 2; i += 2) - { - entry = &value_array[i]; - if (entry[0] == value) - { - entry[1]++ ; - found = 1; - break; - } - else if (entry[1] == 0) - { - lfu_entry = entry; - have_zero_count = 1; - } - else if (entry[1] < lfu_entry[1]) - lfu_entry = entry; - } - - if (found) - { - in_profiler = 0; -#ifdef __GTHREAD_MUTEX_INIT - __gthread_mutex_unlock (&__indir_topn_val_mx); -#endif - return; - } - - /* lfu_entry is either an empty entry or an entry - with lowest count, which will be evicted. */ - lfu_entry[0] = value; - lfu_entry[1] = 1; - -#define GCOV_ICALL_COUNTER_CLEAR_THRESHOLD 3000 - - /* Too many evictions -- time to clear bottom entries to - avoid hot values bumping each other out. */ - if (!have_zero_count - && ++*num_eviction >= GCOV_ICALL_COUNTER_CLEAR_THRESHOLD) - { - unsigned i, j; - gcov_type **p; - gcov_type **tmp_cnts - = (gcov_type **)alloca (topn_val * sizeof(gcov_type *)); - - *num_eviction = 0; - - /* Find the largest topn_val values from the group of - 2*topn_val values and put the addresses into tmp_cnts. */ - for (i = 0; i < topn_val; i++) - tmp_cnts[i] = &value_array[i * 2 + 1]; - - for (i = topn_val * 2; i < topn_val << 2; i += 2) - { - p = &tmp_cnts[0]; - for (j = 1; j < topn_val; j++) - if (*tmp_cnts[j] > **p) - p = &tmp_cnts[j]; - if (value_array[i + 1] < **p) - *p = &value_array[i + 1]; - } - - /* Zero out low value entries. */ - for (i = 0; i < topn_val; i++) - { - *tmp_cnts[i] = 0; - *(tmp_cnts[i] - 1) = 0; - } - } - -#ifdef __GTHREAD_MUTEX_INIT - in_profiler = 0; - __gthread_mutex_unlock (&__indir_topn_val_mx); -#endif -} - -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -gcov_type *__gcov_indirect_call_topn_counters ATTRIBUTE_HIDDEN; - -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -void *__gcov_indirect_call_topn_callee ATTRIBUTE_HIDDEN; - -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -gcov_unsigned_t __gcov_indirect_call_sampling_counter ATTRIBUTE_HIDDEN; - -#ifdef TARGET_VTABLE_USES_DESCRIPTORS -#define VTABLE_USES_DESCRIPTORS 1 -#else -#define VTABLE_USES_DESCRIPTORS 0 -#endif -void -__gcov_indirect_call_topn_profiler (void *cur_func, - void *cur_module_gcov_info, - gcov_unsigned_t cur_func_id) -{ - void *callee_func = __gcov_indirect_call_topn_callee; - gcov_type *counter = __gcov_indirect_call_topn_counters; - /* If the C++ virtual tables contain function descriptors then one - function may have multiple descriptors and we need to dereference - the descriptors to see if they point to the same function. */ - if (cur_func == callee_func - || (VTABLE_USES_DESCRIPTORS && callee_func - && *(void **) cur_func == *(void **) callee_func)) - { - if (++__gcov_indirect_call_sampling_counter >= __gcov_lipo_sampling_period) - { - __gcov_indirect_call_sampling_counter = 0; - gcov_type global_id - = ((struct gcov_info *) cur_module_gcov_info)->mod_info->ident; - global_id = GEN_FUNC_GLOBAL_ID (global_id, cur_func_id); - __gcov_topn_value_profiler_body (counter, global_id, GCOV_ICALL_TOPN_VAL); - } - __gcov_indirect_call_topn_callee = 0; - } -} - -#endif - -#ifdef L_gcov_direct_call_profiler -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -gcov_type *__gcov_direct_call_counters ATTRIBUTE_HIDDEN; -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -void *__gcov_direct_call_callee ATTRIBUTE_HIDDEN; -#if defined(HAVE_CC_TLS) && !defined (USE_EMUTLS) -__thread -#endif -gcov_unsigned_t __gcov_direct_call_sampling_counter ATTRIBUTE_HIDDEN; - -/* Direct call profiler. */ - -void -__gcov_direct_call_profiler (void *cur_func, - void *cur_module_gcov_info, - gcov_unsigned_t cur_func_id) -{ - if (cur_func == __gcov_direct_call_callee) - { - if (++__gcov_direct_call_sampling_counter >= __gcov_lipo_sampling_period) - { - __gcov_direct_call_sampling_counter = 0; - gcov_type global_id - = ((struct gcov_info *) cur_module_gcov_info)->mod_info->ident; - global_id = GEN_FUNC_GLOBAL_ID (global_id, cur_func_id); - __gcov_direct_call_counters[0] = global_id; - __gcov_direct_call_counters[1]++; - } - __gcov_direct_call_callee = 0; - } -} -#endif - - -#ifdef L_gcov_time_profiler - -/* Counter for first visit of each function. */ -static gcov_type function_counter; - -/* Sets corresponding COUNTERS if there is no value. */ - -void -__gcov_time_profiler (gcov_type* counters) -{ - if (!counters[0]) - counters[0] = ++function_counter; -} -#endif - -#ifdef L_gcov_average_profiler -/* Increase corresponding COUNTER by VALUE. FIXME: Perhaps we want - to saturate up. */ - -void -__gcov_average_profiler (gcov_type *counters, gcov_type value) -{ - counters[0] += value; - counters[1] ++; -} -#endif - -#ifdef L_gcov_ior_profiler -/* Bitwise-OR VALUE into COUNTER. */ - -void -__gcov_ior_profiler (gcov_type *counters, gcov_type value) -{ - *counters |= value; -} -#endif - -#endif /* inhibit_libc */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov.h b/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov.h deleted file mode 100644 index c1ebe6e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/gcov-src/libgcov.h +++ /dev/null @@ -1,421 +0,0 @@ -/* Header file for libgcov-*.c. - Copyright (C) 1996-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify it under - the terms of the GNU General Public License as published by the Free - Software Foundation; either version 3, or (at your option) any later - version. - - GCC is distributed in the hope that it will be useful, but WITHOUT ANY - WARRANTY; without even the implied warranty of MERCHANTABILITY or - FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License - for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef GCC_LIBGCOV_H -#define GCC_LIBGCOV_H - -#ifndef __KERNEL__ -/* work around the poisoned malloc/calloc in system.h. */ -#ifndef xmalloc -#define xmalloc malloc -#endif -#ifndef xcalloc -#define xcalloc calloc -#endif -#ifndef xrealloc -#define xrealloc realloc -#endif -#ifndef xfree -#define xfree free -#endif -#else /* __KERNEL__ */ -#include "libgcov-kernel.h" -#endif /* __KERNEL__ */ - -#ifndef IN_GCOV_TOOL -/* About the target. */ -/* This path will be used by libgcov runtime. */ - -#ifndef __KERNEL__ -#include "tconfig.h" -#include "tsystem.h" -#include "coretypes.h" -#include "tm.h" -#include "libgcc_tm.h" -#endif /* __KERNEL__ */ - -#undef FUNC_ID_WIDTH -#undef FUNC_ID_MASK - -#if BITS_PER_UNIT == 8 -typedef unsigned gcov_unsigned_t __attribute__ ((mode (SI))); -typedef unsigned gcov_position_t __attribute__ ((mode (SI))); -#if LONG_LONG_TYPE_SIZE > 32 -typedef signed gcov_type __attribute__ ((mode (DI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (DI))); -#define FUNC_ID_WIDTH 32 -#define FUNC_ID_MASK ((1ll << FUNC_ID_WIDTH) - 1) -#else -typedef signed gcov_type __attribute__ ((mode (SI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (SI))); -#define FUNC_ID_WIDTH 16 -#define FUNC_ID_MASK ((1 << FUNC_ID_WIDTH) - 1) -#endif -#else /* BITS_PER_UNIT != 8 */ -#if BITS_PER_UNIT == 16 -typedef unsigned gcov_unsigned_t __attribute__ ((mode (HI))); -typedef unsigned gcov_position_t __attribute__ ((mode (HI))); -#if LONG_LONG_TYPE_SIZE > 32 -typedef signed gcov_type __attribute__ ((mode (SI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (SI))); -#define FUNC_ID_WIDTH 32 -#define FUNC_ID_MASK ((1ll << FUNC_ID_WIDTH) - 1) -#else -typedef signed gcov_type __attribute__ ((mode (HI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (HI))); -#define FUNC_ID_WIDTH 16 -#define FUNC_ID_MASK ((1 << FUNC_ID_WIDTH) - 1) -#endif -#else /* BITS_PER_UNIT != 16 */ -typedef unsigned gcov_unsigned_t __attribute__ ((mode (QI))); -typedef unsigned gcov_position_t __attribute__ ((mode (QI))); -#if LONG_LONG_TYPE_SIZE > 32 -typedef signed gcov_type __attribute__ ((mode (HI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (HI))); -#define FUNC_ID_WIDTH 32 -#define FUNC_ID_MASK ((1ll << FUNC_ID_WIDTH) - 1) -#else -typedef signed gcov_type __attribute__ ((mode (QI))); -typedef unsigned gcov_type_unsigned __attribute__ ((mode (QI))); -#define FUNC_ID_WIDTH 16 -#define FUNC_ID_MASK ((1 << FUNC_ID_WIDTH) - 1) -#endif -#endif /* BITS_PER_UNIT == 16 */ -#endif /* BITS_PER_UNIT == 8 */ - -#if LONG_LONG_TYPE_SIZE > 32 -#define GCOV_TYPE_ATOMIC_FETCH_ADD_FN __atomic_fetch_add_8 -#define GCOV_TYPE_ATOMIC_FETCH_ADD BUILT_IN_ATOMIC_FETCH_ADD_8 -#else -#define GCOV_TYPE_ATOMIC_FETCH_ADD_FN __atomic_fetch_add_4 -#define GCOV_TYPE_ATOMIC_FETCH_ADD BUILT_IN_ATOMIC_FETCH_ADD_4 -#endif - -#if defined (TARGET_POSIX_IO) -#define GCOV_LOCKED 1 -#else -#define GCOV_LOCKED 0 -#endif - -#else /* IN_GCOV_TOOL */ -/* About the host. */ -/* This path will be compiled for the host and linked into - gcov-tool binary. */ - -#include "config.h" -#include "system.h" -#include "coretypes.h" -#include "tm.h" - -typedef unsigned gcov_unsigned_t; -typedef unsigned gcov_position_t; -/* gcov_type is typedef'd elsewhere for the compiler */ -#if defined (HOST_HAS_F_SETLKW) -#define GCOV_LOCKED 1 -#else -#define GCOV_LOCKED 0 -#endif - -#define FUNC_ID_WIDTH 32 -#define FUNC_ID_MASK ((1ll << FUNC_ID_WIDTH) - 1) - -/* Some Macros specific to gcov-tool. */ - -#define L_gcov 1 -#define L_gcov_merge_add 1 -#define L_gcov_merge_single 1 -#define L_gcov_merge_delta 1 -#define L_gcov_merge_ior 1 -#define L_gcov_merge_time_profile 1 -#define L_gcov_merge_icall_topn 1 -#define L_gcov_merge_dc 1 - -/* Make certian internal functions/variables in libgcov available for - gcov-tool access. */ -#define GCOV_TOOL_LINKAGE - -extern gcov_type gcov_read_counter_mem (); -extern unsigned gcov_get_merge_weight (); - -#endif /* !IN_GCOV_TOOL */ - -#undef EXTRACT_MODULE_ID_FROM_GLOBAL_ID -#undef EXTRACT_FUNC_ID_FROM_GLOBAL_ID -#undef GEN_FUNC_GLOBAL_ID -#define EXTRACT_MODULE_ID_FROM_GLOBAL_ID(gid) \ - (gcov_unsigned_t)(((gid) >> FUNC_ID_WIDTH) & FUNC_ID_MASK) -#define EXTRACT_FUNC_ID_FROM_GLOBAL_ID(gid) \ - (gcov_unsigned_t)((gid) & FUNC_ID_MASK) -#define GEN_FUNC_GLOBAL_ID(m,f) ((((gcov_type) (m)) << FUNC_ID_WIDTH) | (f)) - -#if defined(inhibit_libc) -#define IN_LIBGCOV (-1) -#else -#define IN_LIBGCOV 1 -#if defined(L_gcov) -#define GCOV_LINKAGE /* nothing */ -#endif -#endif - -/* In libgcov we need these functions to be extern, so prefix them with - __gcov. In libgcov they must also be hidden so that the instance in - the executable is not also used in a DSO. */ -#define gcov_var __gcov_var -#define gcov_open __gcov_open -#define gcov_close __gcov_close -#define gcov_write_tag_length __gcov_write_tag_length -#define gcov_position __gcov_position -#define gcov_seek __gcov_seek -#define gcov_rewrite __gcov_rewrite -#define gcov_truncate __gcov_truncate -#define gcov_is_error __gcov_is_error -#define gcov_write_unsigned __gcov_write_unsigned -#define gcov_write_counter __gcov_write_counter -#define gcov_write_summary __gcov_write_summary -#define gcov_write_module_info __gcov_write_module_info -#define gcov_read_unsigned __gcov_read_unsigned -#define gcov_read_counter __gcov_read_counter -#define gcov_read_summary __gcov_read_summary -#define gcov_read_buildinfo __gcov_read_buildinfo -#define gcov_read_module_info __gcov_read_module_info -#define gcov_sort_n_vals __gcov_sort_n_vals - -/* Poison these, so they don't accidentally slip in. */ -#pragma GCC poison gcov_write_string gcov_write_tag gcov_write_length -#pragma GCC poison gcov_time gcov_magic - -#ifdef HAVE_GAS_HIDDEN -#define ATTRIBUTE_HIDDEN __attribute__ ((__visibility__ ("hidden"))) -#else -#define ATTRIBUTE_HIDDEN -#endif - -#include "gcov-io.h" - -/* Structures embedded in coveraged program. The structures generated - by write_profile must match these. */ -/* Information about counters for a single function. */ -struct gcov_ctr_info -{ - gcov_unsigned_t num; /* number of counters. */ - gcov_type *values; /* their values. */ -}; - -/* Information about a single function. This uses the trailing array - idiom. The number of counters is determined from the merge pointer - array in gcov_info. The key is used to detect which of a set of - comdat functions was selected -- it points to the gcov_info object - of the object file containing the selected comdat function. */ - -struct gcov_fn_info -{ - const struct gcov_info *key; /* comdat key */ - gcov_unsigned_t ident; /* unique ident of function */ - gcov_unsigned_t lineno_checksum; /* function lineo_checksum */ - gcov_unsigned_t cfg_checksum; /* function cfg checksum */ - struct gcov_ctr_info ctrs[1]; /* instrumented counters */ -}; - -/* Type of function used to merge counters. */ -typedef void (*gcov_merge_fn) (gcov_type *, gcov_unsigned_t); - -/* Information about a single object file. */ -struct gcov_info -{ - gcov_unsigned_t version; /* expected version number */ - struct gcov_module_info *mod_info; /* addtional module info. */ - struct gcov_info *next; /* link to next, used by libgcov */ - - gcov_unsigned_t stamp; /* uniquifying time stamp */ - const char *filename; /* output file name */ - gcov_unsigned_t eof_pos; /* end position of profile data */ - gcov_merge_fn merge[GCOV_COUNTERS]; /* merge functions (null for - unused) */ - - unsigned n_functions; /* number of functions */ - -#if !defined (IN_GCOV_TOOL) && !defined (__KERNEL__) - const struct gcov_fn_info *const *functions; /* pointer to pointers - to function information */ -#elif defined (IN_GCOV_TOOL) - const struct gcov_fn_info **functions; -#else - struct gcov_fn_info **functions; -#endif /* !IN_GCOV_TOOL */ - char **build_info; /* strings to include in BUILD_INFO - section of gcda file. */ -}; - -/* Information about a single imported module. */ -struct dyn_imp_mod -{ - const struct gcov_info *imp_mod; - double weight; -}; - -/* Register a new object file module. */ -extern void __gcov_init (struct gcov_info *) ATTRIBUTE_HIDDEN; - -/* Set sampling rate to RATE. */ -extern void __gcov_set_sampling_rate (unsigned int rate); - -/* Called before fork, to avoid double counting. */ -extern void __gcov_flush (void) ATTRIBUTE_HIDDEN; - -/* Function to reset all counters to 0. */ -extern void __gcov_reset (void); -/* Function to enable early write of profile information so far. - __gcov_dump is also used by __gcov_dump_all. The latter - depends on __GCOV_DUMP to have hidden or protected visibility - so that each library has its own copy of the registered dumper. */ -extern void __gcov_dump (void) ATTRIBUTE_HIDDEN; - -/* Call __gcov_dump registered from each shared library. - This function must have default visibility. */ -void __gcov_dump_all (void); - -/* The merge function that just sums the counters. */ -extern void __gcov_merge_add (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The merge function to choose the most common value. */ -extern void __gcov_merge_single (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The merge function to choose the most common difference between - consecutive values. */ -extern void __gcov_merge_delta (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The merge function that just ors the counters together. */ -extern void __gcov_merge_ior (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The merge function used for direct call counters. */ -extern void __gcov_merge_dc (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The merge function used for indirect call counters. */ -extern void __gcov_merge_icall_topn (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -extern void __gcov_merge_time_profile (gcov_type *, unsigned) ATTRIBUTE_HIDDEN; - -/* The profiler functions. */ -extern void __gcov_interval_profiler (gcov_type *, gcov_type, int, unsigned); -extern void __gcov_pow2_profiler (gcov_type *, gcov_type); -extern void __gcov_one_value_profiler (gcov_type *, gcov_type); -extern void __gcov_indirect_call_profiler (gcov_type*, gcov_type, - void*, void*); -extern void __gcov_indirect_call_profiler_v2 (gcov_type, void *); -extern void __gcov_indirect_call_topn_profiler (void *, void *, gcov_unsigned_t) ATTRIBUTE_HIDDEN; -extern void __gcov_direct_call_profiler (void *, void *, gcov_unsigned_t) ATTRIBUTE_HIDDEN; -extern void __gcov_average_profiler (gcov_type *, gcov_type); -extern void __gcov_ior_profiler (gcov_type *, gcov_type); -extern void __gcov_sort_n_vals (gcov_type *value_array, int n); -extern void __gcov_time_profiler (gcov_type *); - -#ifndef inhibit_libc -/* The wrappers around some library functions.. */ -extern pid_t __gcov_fork (void) ATTRIBUTE_HIDDEN; -extern int __gcov_execl (const char *, char *, ...) ATTRIBUTE_HIDDEN; -extern int __gcov_execlp (const char *, char *, ...) ATTRIBUTE_HIDDEN; -extern int __gcov_execle (const char *, char *, ...) ATTRIBUTE_HIDDEN; -extern int __gcov_execv (const char *, char *const []) ATTRIBUTE_HIDDEN; -extern int __gcov_execvp (const char *, char *const []) ATTRIBUTE_HIDDEN; -extern int __gcov_execve (const char *, char *const [], char *const []) - ATTRIBUTE_HIDDEN; - - -/* Functions that only available in libgcov. */ -GCOV_LINKAGE int gcov_open (const char */*name*/) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_write_counter (gcov_type) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_write_tag_length (gcov_unsigned_t, gcov_unsigned_t) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_write_summary (gcov_unsigned_t /*tag*/, - const struct gcov_summary *) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_seek (gcov_position_t /*position*/) ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_truncate (void) ATTRIBUTE_HIDDEN; -void gcov_write_module_info (const struct gcov_info *, unsigned) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE void gcov_write_module_infos (struct gcov_info *mod_info) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE const struct dyn_imp_mod ** -gcov_get_sorted_import_module_array (struct gcov_info *mod_info, unsigned *len) - ATTRIBUTE_HIDDEN; -GCOV_LINKAGE inline void gcov_rewrite (void); - -extern void set_gcov_fn_fixed_up (int fixed_up); -extern int get_gcov_fn_fixed_up (void); - -/* "Counts" stored in gcda files can be a real counter value, or - an target address. When differentiate these two types because - when manipulating counts, we should only change real counter values, - rather target addresses. */ - -static inline gcov_type -gcov_get_counter (void) -{ -#ifndef IN_GCOV_TOOL - /* This version is for reading count values in libgcov runtime: - we read from gcda files. */ - - if (get_gcov_fn_fixed_up ()) - { - gcov_read_counter (); - return 0; - } - else - return gcov_read_counter (); -#else - /* This version is for gcov-tool. We read the value from memory and - multiply it by the merge weight. */ - - return gcov_read_counter_mem () * gcov_get_merge_weight (); -#endif -} - -/* Similar function as gcov_get_counter(), but handles target address - counters. */ - -static inline gcov_type -gcov_get_counter_target (void) -{ -#ifndef IN_GCOV_TOOL - /* This version is for reading count target values in libgcov runtime: - we read from gcda files. */ - - if (get_gcov_fn_fixed_up ()) - { - gcov_read_counter (); - return 0; - } - else - return gcov_read_counter (); -#else - /* This version is for gcov-tool. We read the value from memory and we do NOT - multiply it by the merge weight. */ - - return gcov_read_counter_mem (); -#endif -} - -#endif /* !inhibit_libc */ - -#endif /* GCC_LIBGCOV_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/README b/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/README deleted file mode 100644 index 7086a77..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/README +++ /dev/null @@ -1,14 +0,0 @@ -This README file is copied into the directory for GCC-only header files -when fixincludes is run by the makefile for GCC. - -Many of the files in this directory were automatically edited from the -standard system header files by the fixincludes process. They are -system-specific, and will not work on any other kind of system. They -are also not part of GCC. The reason we have to do this is because -GCC requires ANSI C headers and many vendors supply ANSI-incompatible -headers. - -Because this is an automated process, sometimes headers get "fixed" -that do not, strictly speaking, need a fix. As long as nothing is broken -by the process, it is just an unfortunate collateral inconvenience. -We would like to rectify it, if it is not "too inconvenient". diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/limits.h b/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/limits.h deleted file mode 100644 index 8c6a4d3..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/limits.h +++ /dev/null @@ -1,171 +0,0 @@ -/* Copyright (C) 1992-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* This administrivia gets added to the beginning of limits.h - if the system has its own version of limits.h. */ - -/* We use _GCC_LIMITS_H_ because we want this not to match - any macros that the system's limits.h uses for its own purposes. */ -#ifndef _GCC_LIMITS_H_ /* Terminated in limity.h. */ -#define _GCC_LIMITS_H_ - -#ifndef _LIBC_LIMITS_H_ -/* Use "..." so that we find syslimits.h only in this same directory. */ -#include "syslimits.h" -#endif -/* Copyright (C) 1991-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify it under -the terms of the GNU General Public License as published by the Free -Software Foundation; either version 3, or (at your option) any later -version. - -GCC is distributed in the hope that it will be useful, but WITHOUT ANY -WARRANTY; without even the implied warranty of MERCHANTABILITY or -FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -#ifndef _LIMITS_H___ -#define _LIMITS_H___ - -/* Number of bits in a `char'. */ -#undef CHAR_BIT -#define CHAR_BIT __CHAR_BIT__ - -/* Maximum length of a multibyte character. */ -#ifndef MB_LEN_MAX -#define MB_LEN_MAX 1 -#endif - -/* Minimum and maximum values a `signed char' can hold. */ -#undef SCHAR_MIN -#define SCHAR_MIN (-SCHAR_MAX - 1) -#undef SCHAR_MAX -#define SCHAR_MAX __SCHAR_MAX__ - -/* Maximum value an `unsigned char' can hold. (Minimum is 0). */ -#undef UCHAR_MAX -#if __SCHAR_MAX__ == __INT_MAX__ -# define UCHAR_MAX (SCHAR_MAX * 2U + 1U) -#else -# define UCHAR_MAX (SCHAR_MAX * 2 + 1) -#endif - -/* Minimum and maximum values a `char' can hold. */ -#ifdef __CHAR_UNSIGNED__ -# undef CHAR_MIN -# if __SCHAR_MAX__ == __INT_MAX__ -# define CHAR_MIN 0U -# else -# define CHAR_MIN 0 -# endif -# undef CHAR_MAX -# define CHAR_MAX UCHAR_MAX -#else -# undef CHAR_MIN -# define CHAR_MIN SCHAR_MIN -# undef CHAR_MAX -# define CHAR_MAX SCHAR_MAX -#endif - -/* Minimum and maximum values a `signed short int' can hold. */ -#undef SHRT_MIN -#define SHRT_MIN (-SHRT_MAX - 1) -#undef SHRT_MAX -#define SHRT_MAX __SHRT_MAX__ - -/* Maximum value an `unsigned short int' can hold. (Minimum is 0). */ -#undef USHRT_MAX -#if __SHRT_MAX__ == __INT_MAX__ -# define USHRT_MAX (SHRT_MAX * 2U + 1U) -#else -# define USHRT_MAX (SHRT_MAX * 2 + 1) -#endif - -/* Minimum and maximum values a `signed int' can hold. */ -#undef INT_MIN -#define INT_MIN (-INT_MAX - 1) -#undef INT_MAX -#define INT_MAX __INT_MAX__ - -/* Maximum value an `unsigned int' can hold. (Minimum is 0). */ -#undef UINT_MAX -#define UINT_MAX (INT_MAX * 2U + 1U) - -/* Minimum and maximum values a `signed long int' can hold. - (Same as `int'). */ -#undef LONG_MIN -#define LONG_MIN (-LONG_MAX - 1L) -#undef LONG_MAX -#define LONG_MAX __LONG_MAX__ - -/* Maximum value an `unsigned long int' can hold. (Minimum is 0). */ -#undef ULONG_MAX -#define ULONG_MAX (LONG_MAX * 2UL + 1UL) - -#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L -/* Minimum and maximum values a `signed long long int' can hold. */ -# undef LLONG_MIN -# define LLONG_MIN (-LLONG_MAX - 1LL) -# undef LLONG_MAX -# define LLONG_MAX __LONG_LONG_MAX__ - -/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */ -# undef ULLONG_MAX -# define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL) -#endif - -#if defined (__GNU_LIBRARY__) ? defined (__USE_GNU) : !defined (__STRICT_ANSI__) -/* Minimum and maximum values a `signed long long int' can hold. */ -# undef LONG_LONG_MIN -# define LONG_LONG_MIN (-LONG_LONG_MAX - 1LL) -# undef LONG_LONG_MAX -# define LONG_LONG_MAX __LONG_LONG_MAX__ - -/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */ -# undef ULONG_LONG_MAX -# define ULONG_LONG_MAX (LONG_LONG_MAX * 2ULL + 1ULL) -#endif - -#endif /* _LIMITS_H___ */ -/* This administrivia gets added to the end of limits.h - if the system has its own version of limits.h. */ - -#else /* not _GCC_LIMITS_H_ */ - -#ifdef _GCC_NEXT_LIMITS_H -#include_next <limits.h> /* recurse down to the real one */ -#endif - -#endif /* not _GCC_LIMITS_H_ */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/linux/a.out.h b/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/linux/a.out.h deleted file mode 100644 index 21e2c6e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/linux/a.out.h +++ /dev/null @@ -1,235 +0,0 @@ -/* DO NOT EDIT THIS FILE. - - It has been auto-edited by fixincludes from: - - "/tmp/0fe86a71df169d70953725703f46cac3/sysroot/usr/include/linux/a.out.h" - - This had to be done to correct non-standard usages in the - original, manufacturer supplied header file. */ - -/**************************************************************************** - **************************************************************************** - *** - *** This header was automatically generated from a Linux kernel header - *** of the same name, to make information necessary for userspace to - *** call into the kernel available to libc. It contains only constants, - *** structures, and macros generated from the original header, and thus, - *** contains no copyrightable information. - *** - *** To edit the content of this header, modify the corresponding - *** source file (e.g. under external/kernel-headers/original/) then - *** run bionic/libc/kernel/tools/update_all.py - *** - *** Any manual change here will be lost the next time this script will - *** be run. You've been warned! - *** - **************************************************************************** - ****************************************************************************/ -#ifndef _UAPI__A_OUT_GNU_H__ -#define _UAPI__A_OUT_GNU_H__ -#define __GNU_EXEC_MACROS__ -#ifndef __STRUCT_EXEC_OVERRIDE__ -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#include <asm/a.out.h> -#endif -#ifndef __ASSEMBLY__ -enum machine_type { -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifdef M_OLDSUN2 - M__OLDSUN2 = M_OLDSUN2, -#else - M_OLDSUN2 = 0, -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifdef M_68010 - M__68010 = M_68010, -#else -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - M_68010 = 1, -#endif -#ifdef M_68020 - M__68020 = M_68020, -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#else - M_68020 = 2, -#endif -#ifdef M_SPARC -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - M__SPARC = M_SPARC, -#else - M_SPARC = 3, -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - M_386 = 100, - M_MIPS1 = 151, - M_MIPS2 = 152 -}; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_MAGIC -#define N_MAGIC(exec) ((exec).a_info & 0xffff) -#endif -#define N_MACHTYPE(exec) ((enum machine_type)(((exec).a_info >> 16) & 0xff)) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_FLAGS(exec) (((exec).a_info >> 24) & 0xff) -#define N_SET_INFO(exec, magic, type, flags) ((exec).a_info = ((magic) & 0xffff) | (((int)(type) & 0xff) << 16) | (((flags) & 0xff) << 24)) -#define N_SET_MAGIC(exec, magic) ((exec).a_info = (((exec).a_info & 0xffff0000) | ((magic) & 0xffff))) -#define N_SET_MACHTYPE(exec, machtype) ((exec).a_info = ((exec).a_info&0xff00ffff) | ((((int)(machtype))&0xff) << 16)) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_SET_FLAGS(exec, flags) ((exec).a_info = ((exec).a_info&0x00ffffff) | (((flags) & 0xff) << 24)) -#define OMAGIC 0407 -#define NMAGIC 0410 -#define ZMAGIC 0413 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define QMAGIC 0314 -#define CMAGIC 0421 -#ifndef N_BADMAG -#define N_BADMAG(x) (N_MAGIC(x) != OMAGIC && N_MAGIC(x) != NMAGIC && N_MAGIC(x) != ZMAGIC && N_MAGIC(x) != QMAGIC) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#define _N_HDROFF(x) (1024 - sizeof (struct exec)) -#ifndef N_TXTOFF -#define N_TXTOFF(x) (N_MAGIC(x) == ZMAGIC ? _N_HDROFF((x)) + sizeof (struct exec) : (N_MAGIC(x) == QMAGIC ? 0 : sizeof (struct exec))) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifndef N_DATOFF -#define N_DATOFF(x) (N_TXTOFF(x) + (x).a_text) -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_TRELOFF -#define N_TRELOFF(x) (N_DATOFF(x) + (x).a_data) -#endif -#ifndef N_DRELOFF -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_DRELOFF(x) (N_TRELOFF(x) + N_TRSIZE(x)) -#endif -#ifndef N_SYMOFF -#define N_SYMOFF(x) (N_DRELOFF(x) + N_DRSIZE(x)) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifndef N_STROFF -#define N_STROFF(x) (N_SYMOFF(x) + N_SYMSIZE(x)) -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_TXTADDR -#define N_TXTADDR(x) (N_MAGIC(x) == QMAGIC ? PAGE_SIZE : 0) -#endif -#if defined(vax) || defined(hp300) || defined(pyr) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define SEGMENT_SIZE page_size -#endif -#ifdef sony -#define SEGMENT_SIZE 0x2000 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifdef is68k -#define SEGMENT_SIZE 0x20000 -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#if defined(m68k) && defined(PORTAR) -#define PAGE_SIZE 0x400 -#define SEGMENT_SIZE PAGE_SIZE -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifdef __linux__ -#include <unistd.h> -#if defined(__i386__) || defined(__mc68000__) -#define SEGMENT_SIZE 1024 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#else -#ifndef SEGMENT_SIZE -#define SEGMENT_SIZE getpagesize() -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#endif -#define _N_SEGMENT_ROUND(x) ALIGN(x, SEGMENT_SIZE) -#define _N_TXTENDADDR(x) (N_TXTADDR(x)+(x).a_text) -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_DATADDR -#define N_DATADDR(x) (N_MAGIC(x)==OMAGIC? (_N_TXTENDADDR(x)) : (_N_SEGMENT_ROUND (_N_TXTENDADDR(x)))) -#endif -#ifndef N_BSSADDR -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_BSSADDR(x) (N_DATADDR(x) + (x).a_data) -#endif -#ifndef N_NLIST_DECLARED -struct nlist { -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - union { - char *n_name; - struct nlist *n_next; - long n_strx; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - } n_un; - unsigned char n_type; - char n_other; - short n_desc; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - unsigned long n_value; -}; -#endif -#ifndef N_UNDF -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_UNDF 0 -#endif -#ifndef N_ABS -#define N_ABS 2 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifndef N_TEXT -#define N_TEXT 4 -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_DATA -#define N_DATA 6 -#endif -#ifndef N_BSS -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_BSS 8 -#endif -#ifndef N_FN -#define N_FN 15 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#ifndef N_EXT -#define N_EXT 1 -#endif -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_TYPE -#define N_TYPE 036 -#endif -#ifndef N_STAB -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_STAB 0340 -#endif -#define N_INDR 0xa -#define N_SETA 0x14 -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#define N_SETT 0x16 -#define N_SETD 0x18 -#define N_SETB 0x1A -#define N_SETV 0x1C -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifndef N_RELOCATION_INFO_DECLARED -struct relocation_info -{ - int r_address; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ - unsigned int r_symbolnum:24; - unsigned int r_pcrel:1; - unsigned int r_length:2; - unsigned int r_extern:1; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#ifdef NS32K - unsigned r_bsr:1; - unsigned r_disp:1; - unsigned r_pad:2; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#else - unsigned int r_pad:4; -#endif -}; -/* WARNING: DO NOT EDIT, AUTO-GENERATED CODE - SEE TOP FOR INSTRUCTIONS */ -#endif -#endif -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/syslimits.h b/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/syslimits.h deleted file mode 100644 index a362802..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include-fixed/syslimits.h +++ /dev/null @@ -1,8 +0,0 @@ -/* syslimits.h stands for the system's own limits.h file. - If we can use it ok unmodified, then we install this text. - If fixincludes fixes it, then the fixed version is installed - instead of this text. */ - -#define _GCC_NEXT_LIMITS_H /* tell gcc's limits.h to recurse */ -#include_next <limits.h> -#undef _GCC_NEXT_LIMITS_H diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/adxintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/adxintrin.h deleted file mode 100644 index 6118900..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/adxintrin.h +++ /dev/null @@ -1,49 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED -# error "Never use <adxintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _ADXINTRIN_H_INCLUDED -#define _ADXINTRIN_H_INCLUDED - -extern __inline unsigned char -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_addcarryx_u32 (unsigned char __CF, unsigned int __X, - unsigned int __Y, unsigned int *__P) -{ - return __builtin_ia32_addcarryx_u32 (__CF, __X, __Y, __P); -} - -#ifdef __x86_64__ -extern __inline unsigned char -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_addcarryx_u64 (unsigned char __CF, unsigned long __X, - unsigned long __Y, unsigned long long *__P) -{ - return __builtin_ia32_addcarryx_u64 (__CF, __X, __Y, __P); -} -#endif - -#endif /* _ADXINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/ammintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/ammintrin.h deleted file mode 100644 index a89b204..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/ammintrin.h +++ /dev/null @@ -1,93 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the AMD Programmers - Manual Update, version 2.x */ - -#ifndef _AMMINTRIN_H_INCLUDED -#define _AMMINTRIN_H_INCLUDED - -/* We need definitions from the SSE3, SSE2 and SSE header files*/ -#include <pmmintrin.h> - -#ifndef __SSE4A__ -#pragma GCC push_options -#pragma GCC target("sse4a") -#define __DISABLE_SSE4A__ -#endif /* __SSE4A__ */ - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_sd (double * __P, __m128d __Y) -{ - __builtin_ia32_movntsd (__P, (__v2df) __Y); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_ss (float * __P, __m128 __Y) -{ - __builtin_ia32_movntss (__P, (__v4sf) __Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_si64 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_extrq ((__v2di) __X, (__v16qi) __Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extracti_si64 (__m128i __X, unsigned const int __I, unsigned const int __L) -{ - return (__m128i) __builtin_ia32_extrqi ((__v2di) __X, __I, __L); -} -#else -#define _mm_extracti_si64(X, I, L) \ - ((__m128i) __builtin_ia32_extrqi ((__v2di)(__m128i)(X), \ - (unsigned int)(I), (unsigned int)(L))) -#endif - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_si64 (__m128i __X,__m128i __Y) -{ - return (__m128i) __builtin_ia32_insertq ((__v2di)__X, (__v2di)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_inserti_si64(__m128i __X, __m128i __Y, unsigned const int __I, unsigned const int __L) -{ - return (__m128i) __builtin_ia32_insertqi ((__v2di)__X, (__v2di)__Y, __I, __L); -} -#else -#define _mm_inserti_si64(X, Y, I, L) \ - ((__m128i) __builtin_ia32_insertqi ((__v2di)(__m128i)(X), \ - (__v2di)(__m128i)(Y), \ - (unsigned int)(I), (unsigned int)(L))) -#endif - -#ifdef __DISABLE_SSE4A__ -#undef __DISABLE_SSE4A__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4A__ */ - -#endif /* _AMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/arm_neon.h b/lib/gcc/x86_64-linux-android/4.9.x/include/arm_neon.h deleted file mode 100644 index 8692151..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/arm_neon.h +++ /dev/null @@ -1,16620 +0,0 @@ -//created by Victoria Zhislina, the Senior Application Engineer, Intel Corporation, victoria.zhislina@intel.com - -//*** Copyright (C) 2012-2014 Intel Corporation. All rights reserved. - -//IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. - -//By downloading, copying, installing or using the software you agree to this license. -//If you do not agree to this license, do not download, install, copy or use the software. - -// License Agreement - -//Permission to use, copy, modify, and/or distribute this software for any -//purpose with or without fee is hereby granted, provided that the above -//copyright notice and this permission notice appear in all copies. - -//THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH -//REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY -//AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, -//INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM -//LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR -//OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR -//PERFORMANCE OF THIS SOFTWARE. - -//***************************************************************************************** -// This file is intended to simplify ARM->IA32 porting -// It makes the correspondence between ARM NEON intrinsics (as defined in "arm_neon.h") -// and x86 SSE(up to SSE4.2) intrinsic functions as defined in headers files below -// MMX instruction set is not used due to performance overhead and the necessity to use the -// EMMS instruction (_mm_empty())for mmx-x87 floating point switching -//***************************************************************************************** - -//!!!!!!! To use this file in your project that uses ARM NEON intinsics just keep arm_neon.h included and complile it as usual. -//!!!!!!! Please pay attention at USE_SSE4 below - you need to define it for newest Intel platforms for -//!!!!!!! greater performance. It can be done by -msse4.2 compiler switch. - -#ifndef NEON2SSE_H -#define NEON2SSE_H - -#ifndef USE_SSE4 -#if defined(__SSE4_2__) - #define USE_SSE4 -#endif -#endif - -#include <xmmintrin.h> //SSE -#include <emmintrin.h> //SSE2 -#include <pmmintrin.h> //SSE3 -#include <tmmintrin.h> //SSSE3 -#ifdef USE_SSE4 -#include <smmintrin.h> //SSE4.1 -#include <nmmintrin.h> //SSE4.2 -#endif - - -//*************** functions and data attributes, compiler dependent ********************************* -//*********************************************************************************** -#ifdef __GNUC__ -#define _GCC_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__) -#define _NEON2SSE_ALIGN_16 __attribute__((aligned(16))) -#define _NEON2SSE_INLINE extern inline __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -#if _GCC_VERSION < 40500 - #define _NEON2SSE_PERFORMANCE_WARNING(function, explanation) __attribute__((deprecated)) function -#else - #define _NEON2SSE_PERFORMANCE_WARNING(function, explanation) __attribute__((deprecated(explanation))) function -#endif -#if defined(__x86_64__) - #define _NEON2SSE_64BIT __x86_64__ -#endif -#else -#define _NEON2SSE_ALIGN_16 __declspec(align(16)) -#define _NEON2SSE_INLINE __inline -#if defined(_MSC_VER)|| defined (__INTEL_COMPILER) - #define _NEON2SSE_PERFORMANCE_WARNING(function, EXPLANATION) __declspec(deprecated(EXPLANATION)) function -#if defined(_M_X64) - #define _NEON2SSE_64BIT _M_X64 -#endif -#else - #define _NEON2SSE_PERFORMANCE_WARNING(function, explanation) function -#endif -#endif - -#if defined (_NEON2SSE_64BIT) && defined (USE_SSE4) - #define _NEON2SSE_64BIT_SSE4 -#endif - -/*********************************************************************************************************************/ -// data types conversion -/*********************************************************************************************************************/ -#if defined(_MSC_VER) && (_MSC_VER < 1300) - typedef signed char int8_t; - typedef unsigned char uint8_t; - typedef signed short int16_t; - typedef unsigned short uint16_t; - typedef signed int int32_t; - typedef unsigned int uint32_t; - typedef signed long long int64_t; - typedef unsigned long long uint64_t; -#elif defined(_MSC_VER) - typedef signed __int8 int8_t; - typedef unsigned __int8 uint8_t; - typedef signed __int16 int16_t; - typedef unsigned __int16 uint16_t; - typedef signed __int32 int32_t; - typedef unsigned __int32 uint32_t; - - typedef signed long long int64_t; - typedef unsigned long long uint64_t; -#else -#include <stdint.h> -#include <limits.h> -#endif - -typedef union __m64_128 { - uint64_t m64_u64[1]; - float m64_f32[2]; - int8_t m64_i8[8]; - int16_t m64_i16[4]; - int32_t m64_i32[2]; - int64_t m64_i64[1]; - uint8_t m64_u8[8]; - uint16_t m64_u16[4]; - uint32_t m64_u32[2]; -} __m64_128; - -typedef __m64_128 int8x8_t; -typedef __m64_128 uint8x8_t; -typedef __m64_128 int16x4_t; -typedef __m64_128 uint16x4_t; -typedef __m64_128 int32x2_t; -typedef __m64_128 uint32x2_t; -typedef __m64_128 int64x1_t; -typedef __m64_128 uint64x1_t; -typedef __m64_128 poly8x8_t; -typedef __m64_128 poly16x4_t; - -typedef __m64_128 float32x2_t; -typedef __m128 float32x4_t; - -typedef __m128 float16x4_t; //not supported by IA, for compatibility -typedef __m128 float16x8_t; //not supported by IA, for compatibility - -typedef __m128i int8x16_t; -typedef __m128i int16x8_t; -typedef __m128i int32x4_t; -typedef __m128i int64x2_t; -typedef __m128i uint8x16_t; -typedef __m128i uint16x8_t; -typedef __m128i uint32x4_t; -typedef __m128i uint64x2_t; -typedef __m128i poly8x16_t; -typedef __m128i poly16x8_t; - -#if defined(_MSC_VER) - #define SINT_MIN (-2147483647 - 1) /* min signed int value */ - #define SINT_MAX 2147483647 /* max signed int value */ -#else - #define SINT_MIN INT_MIN /* min signed int value */ - #define SINT_MAX INT_MAX /* max signed int value */ -#endif - -typedef float float32_t; -typedef float __fp16; - -typedef uint8_t poly8_t; -typedef uint16_t poly16_t; - - -//MSVC compilers (tested up to 2012 VS version) doesn't allow using structures or arrays of __m128x type as functions arguments resulting in -//error C2719: 'src': formal parameter with __declspec(align('16')) won't be aligned. To avoid it we need the special trick for functions that use these types -struct int8x16x2_t { - int8x16_t val[2]; -}; -struct int16x8x2_t { - int16x8_t val[2]; -}; -struct int32x4x2_t { - int32x4_t val[2]; -}; -struct int64x2x2_t { - int64x2_t val[2]; -}; -//Unfortunately we are unable to merge two 64-bits in on 128 bit register because user should be able to access val[n] members explicitly!!! -struct int8x8x2_t { - int8x8_t val[2]; -}; -struct int16x4x2_t { - int16x4_t val[2]; -}; -struct int32x2x2_t { - int32x2_t val[2]; -}; -struct int64x1x2_t { - int64x1_t val[2]; -}; - -typedef struct int8x16x2_t int8x16x2_t; //for C compilers to make them happy -typedef struct int16x8x2_t int16x8x2_t; //for C compilers to make them happy -typedef struct int32x4x2_t int32x4x2_t; //for C compilers to make them happy -typedef struct int64x2x2_t int64x2x2_t; //for C compilers to make them happy - -typedef struct int8x8x2_t int8x8x2_t; //for C compilers to make them happy -typedef struct int16x4x2_t int16x4x2_t; //for C compilers to make them happy -typedef struct int32x2x2_t int32x2x2_t; //for C compilers to make them happy -typedef struct int64x1x2_t int64x1x2_t; //for C compilers to make them happy - -/* to avoid pointer conversions the following unsigned integers structures are defined via the corresponding signed integers structures above */ -typedef struct int8x16x2_t uint8x16x2_t; -typedef struct int16x8x2_t uint16x8x2_t; -typedef struct int32x4x2_t uint32x4x2_t; -typedef struct int64x2x2_t uint64x2x2_t; -typedef struct int8x16x2_t poly8x16x2_t; -typedef struct int16x8x2_t poly16x8x2_t; - -typedef struct int8x8x2_t uint8x8x2_t; -typedef struct int16x4x2_t uint16x4x2_t; -typedef struct int32x2x2_t uint32x2x2_t; -typedef struct int64x1x2_t uint64x1x2_t; -typedef struct int8x8x2_t poly8x8x2_t; -typedef struct int16x4x2_t poly16x4x2_t; - -//float -struct float32x4x2_t { - float32x4_t val[2]; -}; -struct float16x8x2_t { - float16x8_t val[2]; -}; -struct float32x2x2_t { - float32x2_t val[2]; -}; - -typedef struct float32x4x2_t float32x4x2_t; //for C compilers to make them happy -typedef struct float16x8x2_t float16x8x2_t; //for C compilers to make them happy -typedef struct float32x2x2_t float32x2x2_t; //for C compilers to make them happy -typedef float16x8x2_t float16x4x2_t; - -//4 -struct int8x16x4_t { - int8x16_t val[4]; -}; -struct int16x8x4_t { - int16x8_t val[4]; -}; -struct int32x4x4_t { - int32x4_t val[4]; -}; -struct int64x2x4_t { - int64x2_t val[4]; -}; - -struct int8x8x4_t { - int8x8_t val[4]; -}; -struct int16x4x4_t { - int16x4_t val[4]; -}; -struct int32x2x4_t { - int32x2_t val[4]; -}; -struct int64x1x4_t { - int64x1_t val[4]; -}; - -typedef struct int8x16x4_t int8x16x4_t; //for C compilers to make them happy -typedef struct int16x8x4_t int16x8x4_t; //for C compilers to make them happy -typedef struct int32x4x4_t int32x4x4_t; //for C compilers to make them happy -typedef struct int64x2x4_t int64x2x4_t; //for C compilers to make them happy - -typedef struct int8x8x4_t int8x8x4_t; //for C compilers to make them happy -typedef struct int16x4x4_t int16x4x4_t; //for C compilers to make them happy -typedef struct int32x2x4_t int32x2x4_t; //for C compilers to make them happy -typedef struct int64x1x4_t int64x1x4_t; //for C compilers to make them happy - -/* to avoid pointer conversions the following unsigned integers structures are defined via the corresponding signed integers dealing structures above:*/ -typedef struct int8x8x4_t uint8x8x4_t; -typedef struct int16x4x4_t uint16x4x4_t; -typedef struct int32x2x4_t uint32x2x4_t; -typedef struct int64x1x4_t uint64x1x4_t; -typedef struct int8x8x4_t poly8x8x4_t; -typedef struct int16x4x4_t poly16x4x4_t; - -typedef struct int8x16x4_t uint8x16x4_t; -typedef struct int16x8x4_t uint16x8x4_t; -typedef struct int32x4x4_t uint32x4x4_t; -typedef struct int64x2x4_t uint64x2x4_t; -typedef struct int8x16x4_t poly8x16x4_t; -typedef struct int16x8x4_t poly16x8x4_t; - -struct float32x4x4_t { - float32x4_t val[4]; -}; -struct float16x8x4_t { - float16x8_t val[4]; -}; -struct float32x2x4_t { - float32x2_t val[4]; -}; - -typedef struct float32x4x4_t float32x4x4_t; //for C compilers to make them happy -typedef struct float16x8x4_t float16x8x4_t; //for C compilers to make them happy -typedef struct float32x2x4_t float32x2x4_t; //for C compilers to make them happy -typedef float16x8x4_t float16x4x4_t; - -//3 -struct int16x8x3_t { - int16x8_t val[3]; -}; -struct int32x4x3_t { - int32x4_t val[3]; -}; -struct int64x2x3_t { - int64x2_t val[3]; -}; -struct int8x16x3_t { - int8x16_t val[3]; -}; - -struct int16x4x3_t { - int16x4_t val[3]; -}; -struct int32x2x3_t { - int32x2_t val[3]; -}; -struct int64x1x3_t { - int64x1_t val[3]; -}; -struct int8x8x3_t { - int8x8_t val[3]; -}; -typedef struct int16x8x3_t int16x8x3_t; //for C compilers to make them happy -typedef struct int32x4x3_t int32x4x3_t; //for C compilers to make them happy -typedef struct int64x2x3_t int64x2x3_t; //for C compilers to make them happy -typedef struct int8x16x3_t int8x16x3_t; //for C compilers to make them happy - -typedef struct int8x8x3_t int8x8x3_t; //for C compilers to make them happy -typedef struct int16x4x3_t int16x4x3_t; //for C compilers to make them happy -typedef struct int32x2x3_t int32x2x3_t; //for C compilers to make them happy -typedef struct int64x1x3_t int64x1x3_t; //for C compilers to make them happy - - -/* to avoid pointer conversions the following unsigned integers structures are defined via the corresponding signed integers dealing structures above:*/ -typedef struct int8x16x3_t uint8x16x3_t; -typedef struct int16x8x3_t uint16x8x3_t; -typedef struct int32x4x3_t uint32x4x3_t; -typedef struct int64x2x3_t uint64x2x3_t; -typedef struct int8x16x3_t poly8x16x3_t; -typedef struct int16x8x3_t poly16x8x3_t; -typedef struct int8x8x3_t uint8x8x3_t; -typedef struct int16x4x3_t uint16x4x3_t; -typedef struct int32x2x3_t uint32x2x3_t; -typedef struct int64x1x3_t uint64x1x3_t; -typedef struct int8x8x3_t poly8x8x3_t; -typedef struct int16x4x3_t poly16x4x3_t; - -//float -struct float32x4x3_t { - float32x4_t val[3]; -}; -struct float32x2x3_t { - float32x2_t val[3]; -}; -struct float16x8x3_t { - float16x8_t val[3]; -}; - -typedef struct float32x4x3_t float32x4x3_t; //for C compilers to make them happy -typedef struct float16x8x3_t float16x8x3_t; //for C compilers to make them happy -typedef struct float32x2x3_t float32x2x3_t; //for C compilers to make them happy -typedef float16x8x3_t float16x4x3_t; - - -//**************************************************************************** -//****** Porting auxiliary macros ******************************************** - -//** floating point related macros ** -#define _M128i(a) _mm_castps_si128(a) -#define _M128(a) _mm_castsi128_ps(a) -//here the most performance effective implementation is compiler and 32/64 bits build dependent -#if defined (_NEON2SSE_64BIT) || (defined (__INTEL_COMPILER) && (__INTEL_COMPILER >= 1500) ) - - #define _pM128i(a) _mm_cvtsi64_si128(*(int64_t*)(&(a))) - #define _M64(out, inp) out.m64_i64[0] = _mm_cvtsi128_si64 (inp); - #define _M64f(out, inp) out.m64_i64[0] = _mm_cvtsi128_si64 (_M128i(inp)); -#else - //for 32bit gcc and Microsoft compilers builds - #define _pM128i(a) _mm_loadl_epi64((__m128i*)&(a)) - #define _M64(out, inp) _mm_storel_epi64 ((__m128i*)&(out), inp) - #define _M64f(out, inp) _mm_storel_epi64 ((__m128i*)&(out), _M128i(inp)) -#endif -#define _pM128(a) _mm_castsi128_ps(_pM128i(a)) - -#define return64(a) _M64(res64,a); return res64; -#define return64f(a) _M64f(res64,a); return res64; - -#define _Ui64(a) (*(uint64_t*)&(a)) -#define _UNSIGNED_T(a) u ## a - -#define _SIGNBIT64 ((uint64_t)1 << 63) -#define _SWAP_HI_LOW32 (2 | (3 << 2) | (0 << 4) | (1 << 6)) -#define _INSERTPS_NDX(srcField, dstField) (((srcField) << 6) | ((dstField) << 4) ) - -#define _NEON2SSE_REASON_SLOW_SERIAL "The function may be very slow due to the serial implementation, please try to avoid it" -#define _NEON2SSE_REASON_SLOW_UNEFFECTIVE "The function may be slow due to inefficient x86 SIMD implementation, please try to avoid it" - -//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -#define __constrange(min,max) const -#define __transfersize(size) -//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ - - -//************************************************************************* -//************************************************************************* -//********* Functions declarations as declared in original arm_neon.h ***** -//************************************************************************* -//Vector add: vadd -> Vr[i]:=Va[i]+Vb[i], Vr, Va, Vb have equal lane sizes. -int8x8_t vadd_s8(int8x8_t a, int8x8_t b); // VADD.I8 d0,d0,d0 -int16x4_t vadd_s16(int16x4_t a, int16x4_t b); // VADD.I16 d0,d0,d0 -int32x2_t vadd_s32(int32x2_t a, int32x2_t b); // VADD.I32 d0,d0,d0 -int64x1_t vadd_s64(int64x1_t a, int64x1_t b); // VADD.I64 d0,d0,d0 -float32x2_t vadd_f32(float32x2_t a, float32x2_t b); // VADD.F32 d0,d0,d0 -uint8x8_t vadd_u8(uint8x8_t a, uint8x8_t b); // VADD.I8 d0,d0,d0 -uint16x4_t vadd_u16(uint16x4_t a, uint16x4_t b); // VADD.I16 d0,d0,d0 -uint32x2_t vadd_u32(uint32x2_t a, uint32x2_t b); // VADD.I32 d0,d0,d0 -uint64x1_t vadd_u64(uint64x1_t a, uint64x1_t b); // VADD.I64 d0,d0,d0 -int8x16_t vaddq_s8(int8x16_t a, int8x16_t b); // VADD.I8 q0,q0,q0 -int16x8_t vaddq_s16(int16x8_t a, int16x8_t b); // VADD.I16 q0,q0,q0 -int32x4_t vaddq_s32(int32x4_t a, int32x4_t b); // VADD.I32 q0,q0,q0 -int64x2_t vaddq_s64(int64x2_t a, int64x2_t b); // VADD.I64 q0,q0,q0 -float32x4_t vaddq_f32(float32x4_t a, float32x4_t b); // VADD.F32 q0,q0,q0 -uint8x16_t vaddq_u8(uint8x16_t a, uint8x16_t b); // VADD.I8 q0,q0,q0 -uint16x8_t vaddq_u16(uint16x8_t a, uint16x8_t b); // VADD.I16 q0,q0,q0 -uint32x4_t vaddq_u32(uint32x4_t a, uint32x4_t b); // VADD.I32 q0,q0,q0 -uint64x2_t vaddq_u64(uint64x2_t a, uint64x2_t b); // VADD.I64 q0,q0,q0 -//Vector long add: vaddl -> Vr[i]:=Va[i]+Vb[i], Va, Vb have equal lane sizes, result is a 128 bit vector of lanes that are twice the width. -int16x8_t vaddl_s8(int8x8_t a, int8x8_t b); // VADDL.S8 q0,d0,d0 -int32x4_t vaddl_s16(int16x4_t a, int16x4_t b); // VADDL.S16 q0,d0,d0 -int64x2_t vaddl_s32(int32x2_t a, int32x2_t b); // VADDL.S32 q0,d0,d0 -uint16x8_t vaddl_u8(uint8x8_t a, uint8x8_t b); // VADDL.U8 q0,d0,d0 -uint32x4_t vaddl_u16(uint16x4_t a, uint16x4_t b); // VADDL.U16 q0,d0,d0 -uint64x2_t vaddl_u32(uint32x2_t a, uint32x2_t b); // VADDL.U32 q0,d0,d0 -//Vector wide addw: vadd -> Vr[i]:=Va[i]+Vb[i] -int16x8_t vaddw_s8(int16x8_t a, int8x8_t b); // VADDW.S8 q0,q0,d0 -int32x4_t vaddw_s16(int32x4_t a, int16x4_t b); // VADDW.S16 q0,q0,d0 -int64x2_t vaddw_s32(int64x2_t a, int32x2_t b); // VADDW.S32 q0,q0,d0 -uint16x8_t vaddw_u8(uint16x8_t a, uint8x8_t b); // VADDW.U8 q0,q0,d0 -uint32x4_t vaddw_u16(uint32x4_t a, uint16x4_t b); // VADDW.U16 q0,q0,d0 -uint64x2_t vaddw_u32(uint64x2_t a, uint32x2_t b); // VADDW.U32 q0,q0,d0 -//Vector halving add: vhadd -> Vr[i]:=(Va[i]+Vb[i])>>1 -int8x8_t vhadd_s8(int8x8_t a, int8x8_t b); // VHADD.S8 d0,d0,d0 -int16x4_t vhadd_s16(int16x4_t a, int16x4_t b); // VHADD.S16 d0,d0,d0 -int32x2_t vhadd_s32(int32x2_t a, int32x2_t b); // VHADD.S32 d0,d0,d0 -uint8x8_t vhadd_u8(uint8x8_t a, uint8x8_t b); // VHADD.U8 d0,d0,d0 -uint16x4_t vhadd_u16(uint16x4_t a, uint16x4_t b); // VHADD.U16 d0,d0,d0 -uint32x2_t vhadd_u32(uint32x2_t a, uint32x2_t b); // VHADD.U32 d0,d0,d0 -int8x16_t vhaddq_s8(int8x16_t a, int8x16_t b); // VHADD.S8 q0,q0,q0 -int16x8_t vhaddq_s16(int16x8_t a, int16x8_t b); // VHADD.S16 q0,q0,q0 -int32x4_t vhaddq_s32(int32x4_t a, int32x4_t b); // VHADD.S32 q0,q0,q0 -uint8x16_t vhaddq_u8(uint8x16_t a, uint8x16_t b); // VHADD.U8 q0,q0,q0 -uint16x8_t vhaddq_u16(uint16x8_t a, uint16x8_t b); // VHADD.U16 q0,q0,q0 -uint32x4_t vhaddq_u32(uint32x4_t a, uint32x4_t b); // VHADD.U32 q0,q0,q0 -//Vector rounding halving add: vrhadd -> Vr[i]:=(Va[i]+Vb[i]+1)>>1 -int8x8_t vrhadd_s8(int8x8_t a, int8x8_t b); // VRHADD.S8 d0,d0,d0 -int16x4_t vrhadd_s16(int16x4_t a, int16x4_t b); // VRHADD.S16 d0,d0,d0 -int32x2_t vrhadd_s32(int32x2_t a, int32x2_t b); // VRHADD.S32 d0,d0,d0 -uint8x8_t vrhadd_u8(uint8x8_t a, uint8x8_t b); // VRHADD.U8 d0,d0,d0 -uint16x4_t vrhadd_u16(uint16x4_t a, uint16x4_t b); // VRHADD.U16 d0,d0,d0 -uint32x2_t vrhadd_u32(uint32x2_t a, uint32x2_t b); // VRHADD.U32 d0,d0,d0 -int8x16_t vrhaddq_s8(int8x16_t a, int8x16_t b); // VRHADD.S8 q0,q0,q0 -int16x8_t vrhaddq_s16(int16x8_t a, int16x8_t b); // VRHADD.S16 q0,q0,q0 -int32x4_t vrhaddq_s32(int32x4_t a, int32x4_t b); // VRHADD.S32 q0,q0,q0 -uint8x16_t vrhaddq_u8(uint8x16_t a, uint8x16_t b); // VRHADD.U8 q0,q0,q0 -uint16x8_t vrhaddq_u16(uint16x8_t a, uint16x8_t b); // VRHADD.U16 q0,q0,q0 -uint32x4_t vrhaddq_u32(uint32x4_t a, uint32x4_t b); // VRHADD.U32 q0,q0,q0 -//Vector saturating add: vqadd -> Vr[i]:=sat<size>(Va[i]+Vb[i]) -int8x8_t vqadd_s8(int8x8_t a, int8x8_t b); // VQADD.S8 d0,d0,d0 -int16x4_t vqadd_s16(int16x4_t a, int16x4_t b); // VQADD.S16 d0,d0,d0 -int32x2_t vqadd_s32(int32x2_t a, int32x2_t b); // VQADD.S32 d0,d0,d0 -int64x1_t vqadd_s64(int64x1_t a, int64x1_t b); // VQADD.S64 d0,d0,d0 -uint8x8_t vqadd_u8(uint8x8_t a, uint8x8_t b); // VQADD.U8 d0,d0,d0 -uint16x4_t vqadd_u16(uint16x4_t a, uint16x4_t b); // VQADD.U16 d0,d0,d0 -uint32x2_t vqadd_u32(uint32x2_t a, uint32x2_t b); // VQADD.U32 d0,d0,d0 -uint64x1_t vqadd_u64(uint64x1_t a, uint64x1_t b); // VQADD.U64 d0,d0,d0 -int8x16_t vqaddq_s8(int8x16_t a, int8x16_t b); // VQADD.S8 q0,q0,q0 -int16x8_t vqaddq_s16(int16x8_t a, int16x8_t b); // VQADD.S16 q0,q0,q0 -int32x4_t vqaddq_s32(int32x4_t a, int32x4_t b); // VQADD.S32 q0,q0,q0 -int64x2_t vqaddq_s64(int64x2_t a, int64x2_t b); // VQADD.S64 q0,q0,q0 -uint8x16_t vqaddq_u8(uint8x16_t a, uint8x16_t b); // VQADD.U8 q0,q0,q0 -uint16x8_t vqaddq_u16(uint16x8_t a, uint16x8_t b); // VQADD.U16 q0,q0,q0 -uint32x4_t vqaddq_u32(uint32x4_t a, uint32x4_t b); // VQADD.U32 q0,q0,q0 -uint64x2_t vqaddq_u64(uint64x2_t a, uint64x2_t b); // VQADD.U64 q0,q0,q0 -//Vector add high half: vaddhn-> Vr[i]:=Va[i]+Vb[i] -int8x8_t vaddhn_s16(int16x8_t a, int16x8_t b); // VADDHN.I16 d0,q0,q0 -int16x4_t vaddhn_s32(int32x4_t a, int32x4_t b); // VADDHN.I32 d0,q0,q0 -int32x2_t vaddhn_s64(int64x2_t a, int64x2_t b); // VADDHN.I64 d0,q0,q0 -uint8x8_t vaddhn_u16(uint16x8_t a, uint16x8_t b); // VADDHN.I16 d0,q0,q0 -uint16x4_t vaddhn_u32(uint32x4_t a, uint32x4_t b); // VADDHN.I32 d0,q0,q0 -uint32x2_t vaddhn_u64(uint64x2_t a, uint64x2_t b); // VADDHN.I64 d0,q0,q0 -//Vector rounding add high half: vraddhn -int8x8_t vraddhn_s16(int16x8_t a, int16x8_t b); // VRADDHN.I16 d0,q0,q0 -int16x4_t vraddhn_s32(int32x4_t a, int32x4_t b); // VRADDHN.I32 d0,q0,q0 -int32x2_t vraddhn_s64(int64x2_t a, int64x2_t b); // VRADDHN.I64 d0,q0,q0 -uint8x8_t vraddhn_u16(uint16x8_t a, uint16x8_t b); // VRADDHN.I16 d0,q0,q0 -uint16x4_t vraddhn_u32(uint32x4_t a, uint32x4_t b); // VRADDHN.I32 d0,q0,q0 -uint32x2_t vraddhn_u64(uint64x2_t a, uint64x2_t b); // VRADDHN.I64 d0,q0,q0 -//Multiplication -//Vector multiply: vmul -> Vr[i] := Va[i] * Vb[i] -int8x8_t vmul_s8(int8x8_t a, int8x8_t b); // VMUL.I8 d0,d0,d0 -int16x4_t vmul_s16(int16x4_t a, int16x4_t b); // VMUL.I16 d0,d0,d0 -int32x2_t vmul_s32(int32x2_t a, int32x2_t b); // VMUL.I32 d0,d0,d0 -float32x2_t vmul_f32(float32x2_t a, float32x2_t b); // VMUL.F32 d0,d0,d0 -uint8x8_t vmul_u8(uint8x8_t a, uint8x8_t b); // VMUL.I8 d0,d0,d0 -uint16x4_t vmul_u16(uint16x4_t a, uint16x4_t b); // VMUL.I16 d0,d0,d0 -uint32x2_t vmul_u32(uint32x2_t a, uint32x2_t b); // VMUL.I32 d0,d0,d0 -poly8x8_t vmul_p8(poly8x8_t a, poly8x8_t b); // VMUL.P8 d0,d0,d0 -int8x16_t vmulq_s8(int8x16_t a, int8x16_t b); // VMUL.I8 q0,q0,q0 -int16x8_t vmulq_s16(int16x8_t a, int16x8_t b); // VMUL.I16 q0,q0,q0 -int32x4_t vmulq_s32(int32x4_t a, int32x4_t b); // VMUL.I32 q0,q0,q0 -float32x4_t vmulq_f32(float32x4_t a, float32x4_t b); // VMUL.F32 q0,q0,q0 -uint8x16_t vmulq_u8(uint8x16_t a, uint8x16_t b); // VMUL.I8 q0,q0,q0 -uint16x8_t vmulq_u16(uint16x8_t a, uint16x8_t b); // VMUL.I16 q0,q0,q0 -uint32x4_t vmulq_u32(uint32x4_t a, uint32x4_t b); // VMUL.I32 q0,q0,q0 -poly8x16_t vmulq_p8(poly8x16_t a, poly8x16_t b); // VMUL.P8 q0,q0,q0 -//multiply lane -int16x4_t vmul_lane_s16 (int16x4_t a, int16x4_t b, __constrange(0,3) int c); -int32x2_t vmul_lane_s32 (int32x2_t a, int32x2_t b, __constrange(0,1) int c); -float32x2_t vmul_lane_f32 (float32x2_t a, float32x2_t b, __constrange(0,1) int c); -uint16x4_t vmul_lane_u16 (uint16x4_t a, uint16x4_t b, __constrange(0,3) int c); -uint32x2_t vmul_lane_u32 (uint32x2_t a, uint32x2_t b, __constrange(0,1) int c); -int16x8_t vmulq_lane_s16 (int16x8_t a, int16x4_t b, __constrange(0,3) int c); -int32x4_t vmulq_lane_s32 (int32x4_t a, int32x2_t b, __constrange(0,1) int c); -float32x4_t vmulq_lane_f32 (float32x4_t a, float32x2_t b, __constrange(0,1) int c); -uint16x8_t vmulq_lane_u16 (uint16x8_t a, uint16x4_t b, __constrange(0,3) int c); -uint32x4_t vmulq_lane_u32 (uint32x4_t a, uint32x2_t b, __constrange(0,1) int c); -//Vector multiply accumulate: vmla -> Vr[i] := Va[i] + Vb[i] * Vc[i] -int8x8_t vmla_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VMLA.I8 d0,d0,d0 -int16x4_t vmla_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VMLA.I16 d0,d0,d0 -int32x2_t vmla_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VMLA.I32 d0,d0,d0 -float32x2_t vmla_f32(float32x2_t a, float32x2_t b, float32x2_t c); // VMLA.F32 d0,d0,d0 -uint8x8_t vmla_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VMLA.I8 d0,d0,d0 -uint16x4_t vmla_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VMLA.I16 d0,d0,d0 -uint32x2_t vmla_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VMLA.I32 d0,d0,d0 -int8x16_t vmlaq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VMLA.I8 q0,q0,q0 -int16x8_t vmlaq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VMLA.I16 q0,q0,q0 -int32x4_t vmlaq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VMLA.I32 q0,q0,q0 -float32x4_t vmlaq_f32(float32x4_t a, float32x4_t b, float32x4_t c); // VMLA.F32 q0,q0,q0 -uint8x16_t vmlaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VMLA.I8 q0,q0,q0 -uint16x8_t vmlaq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VMLA.I16 q0,q0,q0 -uint32x4_t vmlaq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VMLA.I32 q0,q0,q0 -//Vector multiply accumulate long: vmlal -> Vr[i] := Va[i] + Vb[i] * Vc[i] -int16x8_t vmlal_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VMLAL.S8 q0,d0,d0 -int32x4_t vmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VMLAL.S16 q0,d0,d0 -int64x2_t vmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VMLAL.S32 q0,d0,d0 -uint16x8_t vmlal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VMLAL.U8 q0,d0,d0 -uint32x4_t vmlal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VMLAL.U16 q0,d0,d0 -uint64x2_t vmlal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VMLAL.U32 q0,d0,d0 -//Vector multiply subtract: vmls -> Vr[i] := Va[i] - Vb[i] * Vc[i] -int8x8_t vmls_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VMLS.I8 d0,d0,d0 -int16x4_t vmls_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VMLS.I16 d0,d0,d0 -int32x2_t vmls_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VMLS.I32 d0,d0,d0 -float32x2_t vmls_f32(float32x2_t a, float32x2_t b, float32x2_t c); // VMLS.F32 d0,d0,d0 -uint8x8_t vmls_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VMLS.I8 d0,d0,d0 -uint16x4_t vmls_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VMLS.I16 d0,d0,d0 -uint32x2_t vmls_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VMLS.I32 d0,d0,d0 -int8x16_t vmlsq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VMLS.I8 q0,q0,q0 -int16x8_t vmlsq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VMLS.I16 q0,q0,q0 -int32x4_t vmlsq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VMLS.I32 q0,q0,q0 -float32x4_t vmlsq_f32(float32x4_t a, float32x4_t b, float32x4_t c); // VMLS.F32 q0,q0,q0 -uint8x16_t vmlsq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VMLS.I8 q0,q0,q0 -uint16x8_t vmlsq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VMLS.I16 q0,q0,q0 -uint32x4_t vmlsq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VMLS.I32 q0,q0,q0 -//Vector multiply subtract long -int16x8_t vmlsl_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VMLSL.S8 q0,d0,d0 -int32x4_t vmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VMLSL.S16 q0,d0,d0 -int64x2_t vmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VMLSL.S32 q0,d0,d0 -uint16x8_t vmlsl_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VMLSL.U8 q0,d0,d0 -uint32x4_t vmlsl_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VMLSL.U16 q0,d0,d0 -uint64x2_t vmlsl_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VMLSL.U32 q0,d0,d0 -//Vector saturating doubling multiply high -int16x4_t vqdmulh_s16(int16x4_t a, int16x4_t b); // VQDMULH.S16 d0,d0,d0 -int32x2_t vqdmulh_s32(int32x2_t a, int32x2_t b); // VQDMULH.S32 d0,d0,d0 -int16x8_t vqdmulhq_s16(int16x8_t a, int16x8_t b); // VQDMULH.S16 q0,q0,q0 -int32x4_t vqdmulhq_s32(int32x4_t a, int32x4_t b); // VQDMULH.S32 q0,q0,q0 -//Vector saturating rounding doubling multiply high -int16x4_t vqrdmulh_s16(int16x4_t a, int16x4_t b); // VQRDMULH.S16 d0,d0,d0 -int32x2_t vqrdmulh_s32(int32x2_t a, int32x2_t b); // VQRDMULH.S32 d0,d0,d0 -int16x8_t vqrdmulhq_s16(int16x8_t a, int16x8_t b); // VQRDMULH.S16 q0,q0,q0 -int32x4_t vqrdmulhq_s32(int32x4_t a, int32x4_t b); // VQRDMULH.S32 q0,q0,q0 -//Vector saturating doubling multiply accumulate long -int32x4_t vqdmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VQDMLAL.S16 q0,d0,d0 -int64x2_t vqdmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VQDMLAL.S32 q0,d0,d0 -//Vector saturating doubling multiply subtract long -int32x4_t vqdmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VQDMLSL.S16 q0,d0,d0 -int64x2_t vqdmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VQDMLSL.S32 q0,d0,d0 -//Vector long multiply -int16x8_t vmull_s8(int8x8_t a, int8x8_t b); // VMULL.S8 q0,d0,d0 -int32x4_t vmull_s16(int16x4_t a, int16x4_t b); // VMULL.S16 q0,d0,d0 -int64x2_t vmull_s32(int32x2_t a, int32x2_t b); // VMULL.S32 q0,d0,d0 -uint16x8_t vmull_u8(uint8x8_t a, uint8x8_t b); // VMULL.U8 q0,d0,d0 -uint32x4_t vmull_u16(uint16x4_t a, uint16x4_t b); // VMULL.U16 q0,d0,d0 -uint64x2_t vmull_u32(uint32x2_t a, uint32x2_t b); // VMULL.U32 q0,d0,d0 -poly16x8_t vmull_p8(poly8x8_t a, poly8x8_t b); // VMULL.P8 q0,d0,d0 -//Vector saturating doubling long multiply -int32x4_t vqdmull_s16(int16x4_t a, int16x4_t b); // VQDMULL.S16 q0,d0,d0 -int64x2_t vqdmull_s32(int32x2_t a, int32x2_t b); // VQDMULL.S32 q0,d0,d0 -//Subtraction -//Vector subtract -int8x8_t vsub_s8(int8x8_t a, int8x8_t b); // VSUB.I8 d0,d0,d0 -int16x4_t vsub_s16(int16x4_t a, int16x4_t b); // VSUB.I16 d0,d0,d0 -int32x2_t vsub_s32(int32x2_t a, int32x2_t b); // VSUB.I32 d0,d0,d0 -int64x1_t vsub_s64(int64x1_t a, int64x1_t b); // VSUB.I64 d0,d0,d0 -float32x2_t vsub_f32(float32x2_t a, float32x2_t b); // VSUB.F32 d0,d0,d0 -uint8x8_t vsub_u8(uint8x8_t a, uint8x8_t b); // VSUB.I8 d0,d0,d0 -uint16x4_t vsub_u16(uint16x4_t a, uint16x4_t b); // VSUB.I16 d0,d0,d0 -uint32x2_t vsub_u32(uint32x2_t a, uint32x2_t b); // VSUB.I32 d0,d0,d0 -uint64x1_t vsub_u64(uint64x1_t a, uint64x1_t b); // VSUB.I64 d0,d0,d0 -int8x16_t vsubq_s8(int8x16_t a, int8x16_t b); // VSUB.I8 q0,q0,q0 -int16x8_t vsubq_s16(int16x8_t a, int16x8_t b); // VSUB.I16 q0,q0,q0 -int32x4_t vsubq_s32(int32x4_t a, int32x4_t b); // VSUB.I32 q0,q0,q0 -int64x2_t vsubq_s64(int64x2_t a, int64x2_t b); // VSUB.I64 q0,q0,q0 -float32x4_t vsubq_f32(float32x4_t a, float32x4_t b); // VSUB.F32 q0,q0,q0 -uint8x16_t vsubq_u8(uint8x16_t a, uint8x16_t b); // VSUB.I8 q0,q0,q0 -uint16x8_t vsubq_u16(uint16x8_t a, uint16x8_t b); // VSUB.I16 q0,q0,q0 -uint32x4_t vsubq_u32(uint32x4_t a, uint32x4_t b); // VSUB.I32 q0,q0,q0 -uint64x2_t vsubq_u64(uint64x2_t a, uint64x2_t b); // VSUB.I64 q0,q0,q0 -//Vector long subtract: vsub -> Vr[i]:=Va[i]+Vb[i] -int16x8_t vsubl_s8(int8x8_t a, int8x8_t b); // VSUBL.S8 q0,d0,d0 -int32x4_t vsubl_s16(int16x4_t a, int16x4_t b); // VSUBL.S16 q0,d0,d0 -int64x2_t vsubl_s32(int32x2_t a, int32x2_t b); // VSUBL.S32 q0,d0,d0 -uint16x8_t vsubl_u8(uint8x8_t a, uint8x8_t b); // VSUBL.U8 q0,d0,d0 -uint32x4_t vsubl_u16(uint16x4_t a, uint16x4_t b); // VSUBL.U16 q0,d0,d0 -uint64x2_t vsubl_u32(uint32x2_t a, uint32x2_t b); // VSUBL.U32 q0,d0,d0 -//Vector wide subtract: vsub -> Vr[i]:=Va[i]+Vb[i] -int16x8_t vsubw_s8(int16x8_t a, int8x8_t b); // VSUBW.S8 q0,q0,d0 -int32x4_t vsubw_s16(int32x4_t a, int16x4_t b); // VSUBW.S16 q0,q0,d0 -int64x2_t vsubw_s32(int64x2_t a, int32x2_t b); // VSUBW.S32 q0,q0,d0 -uint16x8_t vsubw_u8(uint16x8_t a, uint8x8_t b); // VSUBW.U8 q0,q0,d0 -uint32x4_t vsubw_u16(uint32x4_t a, uint16x4_t b); // VSUBW.U16 q0,q0,d0 -uint64x2_t vsubw_u32(uint64x2_t a, uint32x2_t b); // VSUBW.U32 q0,q0,d0 -//Vector saturating subtract -int8x8_t vqsub_s8(int8x8_t a, int8x8_t b); // VQSUB.S8 d0,d0,d0 -int16x4_t vqsub_s16(int16x4_t a, int16x4_t b); // VQSUB.S16 d0,d0,d0 -int32x2_t vqsub_s32(int32x2_t a, int32x2_t b); // VQSUB.S32 d0,d0,d0 -int64x1_t vqsub_s64(int64x1_t a, int64x1_t b); // VQSUB.S64 d0,d0,d0 -uint8x8_t vqsub_u8(uint8x8_t a, uint8x8_t b); // VQSUB.U8 d0,d0,d0 -uint16x4_t vqsub_u16(uint16x4_t a, uint16x4_t b); // VQSUB.U16 d0,d0,d0 -uint32x2_t vqsub_u32(uint32x2_t a, uint32x2_t b); // VQSUB.U32 d0,d0,d0 -uint64x1_t vqsub_u64(uint64x1_t a, uint64x1_t b); // VQSUB.U64 d0,d0,d0 -int8x16_t vqsubq_s8(int8x16_t a, int8x16_t b); // VQSUB.S8 q0,q0,q0 -int16x8_t vqsubq_s16(int16x8_t a, int16x8_t b); // VQSUB.S16 q0,q0,q0 -int32x4_t vqsubq_s32(int32x4_t a, int32x4_t b); // VQSUB.S32 q0,q0,q0 -int64x2_t vqsubq_s64(int64x2_t a, int64x2_t b); // VQSUB.S64 q0,q0,q0 -uint8x16_t vqsubq_u8(uint8x16_t a, uint8x16_t b); // VQSUB.U8 q0,q0,q0 -uint16x8_t vqsubq_u16(uint16x8_t a, uint16x8_t b); // VQSUB.U16 q0,q0,q0 -uint32x4_t vqsubq_u32(uint32x4_t a, uint32x4_t b); // VQSUB.U32 q0,q0,q0 -uint64x2_t vqsubq_u64(uint64x2_t a, uint64x2_t b); // VQSUB.U64 q0,q0,q0 -//Vector halving subtract -int8x8_t vhsub_s8(int8x8_t a, int8x8_t b); // VHSUB.S8 d0,d0,d0 -int16x4_t vhsub_s16(int16x4_t a, int16x4_t b); // VHSUB.S16 d0,d0,d0 -int32x2_t vhsub_s32(int32x2_t a, int32x2_t b); // VHSUB.S32 d0,d0,d0 -uint8x8_t vhsub_u8(uint8x8_t a, uint8x8_t b); // VHSUB.U8 d0,d0,d0 -uint16x4_t vhsub_u16(uint16x4_t a, uint16x4_t b); // VHSUB.U16 d0,d0,d0 -uint32x2_t vhsub_u32(uint32x2_t a, uint32x2_t b); // VHSUB.U32 d0,d0,d0 -int8x16_t vhsubq_s8(int8x16_t a, int8x16_t b); // VHSUB.S8 q0,q0,q0 -int16x8_t vhsubq_s16(int16x8_t a, int16x8_t b); // VHSUB.S16 q0,q0,q0 -int32x4_t vhsubq_s32(int32x4_t a, int32x4_t b); // VHSUB.S32 q0,q0,q0 -uint8x16_t vhsubq_u8(uint8x16_t a, uint8x16_t b); // VHSUB.U8 q0,q0,q0 -uint16x8_t vhsubq_u16(uint16x8_t a, uint16x8_t b); // VHSUB.U16 q0,q0,q0 -uint32x4_t vhsubq_u32(uint32x4_t a, uint32x4_t b); // VHSUB.U32 q0,q0,q0 -//Vector subtract high half -int8x8_t vsubhn_s16(int16x8_t a, int16x8_t b); // VSUBHN.I16 d0,q0,q0 -int16x4_t vsubhn_s32(int32x4_t a, int32x4_t b); // VSUBHN.I32 d0,q0,q0 -int32x2_t vsubhn_s64(int64x2_t a, int64x2_t b); // VSUBHN.I64 d0,q0,q0 -uint8x8_t vsubhn_u16(uint16x8_t a, uint16x8_t b); // VSUBHN.I16 d0,q0,q0 -uint16x4_t vsubhn_u32(uint32x4_t a, uint32x4_t b); // VSUBHN.I32 d0,q0,q0 -uint32x2_t vsubhn_u64(uint64x2_t a, uint64x2_t b); // VSUBHN.I64 d0,q0,q0 -//Vector rounding subtract high half -int8x8_t vrsubhn_s16(int16x8_t a, int16x8_t b); // VRSUBHN.I16 d0,q0,q0 -int16x4_t vrsubhn_s32(int32x4_t a, int32x4_t b); // VRSUBHN.I32 d0,q0,q0 -int32x2_t vrsubhn_s64(int64x2_t a, int64x2_t b); // VRSUBHN.I64 d0,q0,q0 -uint8x8_t vrsubhn_u16(uint16x8_t a, uint16x8_t b); // VRSUBHN.I16 d0,q0,q0 -uint16x4_t vrsubhn_u32(uint32x4_t a, uint32x4_t b); // VRSUBHN.I32 d0,q0,q0 -uint32x2_t vrsubhn_u64(uint64x2_t a, uint64x2_t b); // VRSUBHN.I64 d0,q0,q0 -//Comparison -//Vector compare equal -uint8x8_t vceq_s8(int8x8_t a, int8x8_t b); // VCEQ.I8 d0, d0, d0 -uint16x4_t vceq_s16(int16x4_t a, int16x4_t b); // VCEQ.I16 d0, d0, d0 -uint32x2_t vceq_s32(int32x2_t a, int32x2_t b); // VCEQ.I32 d0, d0, d0 -uint32x2_t vceq_f32(float32x2_t a, float32x2_t b); // VCEQ.F32 d0, d0, d0 -uint8x8_t vceq_u8(uint8x8_t a, uint8x8_t b); // VCEQ.I8 d0, d0, d0 -uint16x4_t vceq_u16(uint16x4_t a, uint16x4_t b); // VCEQ.I16 d0, d0, d0 -uint32x2_t vceq_u32(uint32x2_t a, uint32x2_t b); // VCEQ.I32 d0, d0, d0 -uint8x8_t vceq_p8(poly8x8_t a, poly8x8_t b); // VCEQ.I8 d0, d0, d0 -uint8x16_t vceqq_s8(int8x16_t a, int8x16_t b); // VCEQ.I8 q0, q0, q0 -uint16x8_t vceqq_s16(int16x8_t a, int16x8_t b); // VCEQ.I16 q0, q0, q0 -uint32x4_t vceqq_s32(int32x4_t a, int32x4_t b); // VCEQ.I32 q0, q0, q0 -uint32x4_t vceqq_f32(float32x4_t a, float32x4_t b); // VCEQ.F32 q0, q0, q0 -uint8x16_t vceqq_u8(uint8x16_t a, uint8x16_t b); // VCEQ.I8 q0, q0, q0 -uint16x8_t vceqq_u16(uint16x8_t a, uint16x8_t b); // VCEQ.I16 q0, q0, q0 -uint32x4_t vceqq_u32(uint32x4_t a, uint32x4_t b); // VCEQ.I32 q0, q0, q0 -uint8x16_t vceqq_p8(poly8x16_t a, poly8x16_t b); // VCEQ.I8 q0, q0, q0 -//Vector compare greater-than or equal -uint8x8_t vcge_s8(int8x8_t a, int8x8_t b); // VCGE.S8 d0, d0, d0 -uint16x4_t vcge_s16(int16x4_t a, int16x4_t b); // VCGE.S16 d0, d0, d0 -uint32x2_t vcge_s32(int32x2_t a, int32x2_t b); // VCGE.S32 d0, d0, d0 -uint32x2_t vcge_f32(float32x2_t a, float32x2_t b); // VCGE.F32 d0, d0, d0 -uint8x8_t vcge_u8(uint8x8_t a, uint8x8_t b); // VCGE.U8 d0, d0, d0 -uint16x4_t vcge_u16(uint16x4_t a, uint16x4_t b); // VCGE.U16 d0, d0, d0 -uint32x2_t vcge_u32(uint32x2_t a, uint32x2_t b); // VCGE.U32 d0, d0, d0 -uint8x16_t vcgeq_s8(int8x16_t a, int8x16_t b); // VCGE.S8 q0, q0, q0 -uint16x8_t vcgeq_s16(int16x8_t a, int16x8_t b); // VCGE.S16 q0, q0, q0 -uint32x4_t vcgeq_s32(int32x4_t a, int32x4_t b); // VCGE.S32 q0, q0, q0 -uint32x4_t vcgeq_f32(float32x4_t a, float32x4_t b); // VCGE.F32 q0, q0, q0 -uint8x16_t vcgeq_u8(uint8x16_t a, uint8x16_t b); // VCGE.U8 q0, q0, q0 -uint16x8_t vcgeq_u16(uint16x8_t a, uint16x8_t b); // VCGE.U16 q0, q0, q0 -uint32x4_t vcgeq_u32(uint32x4_t a, uint32x4_t b); // VCGE.U32 q0, q0, q0 -//Vector compare less-than or equal -uint8x8_t vcle_s8(int8x8_t a, int8x8_t b); // VCGE.S8 d0, d0, d0 -uint16x4_t vcle_s16(int16x4_t a, int16x4_t b); // VCGE.S16 d0, d0, d0 -uint32x2_t vcle_s32(int32x2_t a, int32x2_t b); // VCGE.S32 d0, d0, d0 -uint32x2_t vcle_f32(float32x2_t a, float32x2_t b); // VCGE.F32 d0, d0, d0 -uint8x8_t vcle_u8(uint8x8_t a, uint8x8_t b); // VCGE.U8 d0, d0, d0 -uint16x4_t vcle_u16(uint16x4_t a, uint16x4_t b); // VCGE.U16 d0, d0, d0 -uint32x2_t vcle_u32(uint32x2_t a, uint32x2_t b); // VCGE.U32 d0, d0, d0 -uint8x16_t vcleq_s8(int8x16_t a, int8x16_t b); // VCGE.S8 q0, q0, q0 -uint16x8_t vcleq_s16(int16x8_t a, int16x8_t b); // VCGE.S16 q0, q0, q0 -uint32x4_t vcleq_s32(int32x4_t a, int32x4_t b); // VCGE.S32 q0, q0, q0 -uint32x4_t vcleq_f32(float32x4_t a, float32x4_t b); // VCGE.F32 q0, q0, q0 -uint8x16_t vcleq_u8(uint8x16_t a, uint8x16_t b); // VCGE.U8 q0, q0, q0 -uint16x8_t vcleq_u16(uint16x8_t a, uint16x8_t b); // VCGE.U16 q0, q0, q0 -uint32x4_t vcleq_u32(uint32x4_t a, uint32x4_t b); // VCGE.U32 q0, q0, q0 -//Vector compare greater-than -uint8x8_t vcgt_s8(int8x8_t a, int8x8_t b); // VCGT.S8 d0, d0, d0 -uint16x4_t vcgt_s16(int16x4_t a, int16x4_t b); // VCGT.S16 d0, d0, d0 -uint32x2_t vcgt_s32(int32x2_t a, int32x2_t b); // VCGT.S32 d0, d0, d0 -uint32x2_t vcgt_f32(float32x2_t a, float32x2_t b); // VCGT.F32 d0, d0, d0 -uint8x8_t vcgt_u8(uint8x8_t a, uint8x8_t b); // VCGT.U8 d0, d0, d0 -uint16x4_t vcgt_u16(uint16x4_t a, uint16x4_t b); // VCGT.U16 d0, d0, d0 -uint32x2_t vcgt_u32(uint32x2_t a, uint32x2_t b); // VCGT.U32 d0, d0, d0 -uint8x16_t vcgtq_s8(int8x16_t a, int8x16_t b); // VCGT.S8 q0, q0, q0 -uint16x8_t vcgtq_s16(int16x8_t a, int16x8_t b); // VCGT.S16 q0, q0, q0 -uint32x4_t vcgtq_s32(int32x4_t a, int32x4_t b); // VCGT.S32 q0, q0, q0 -uint32x4_t vcgtq_f32(float32x4_t a, float32x4_t b); // VCGT.F32 q0, q0, q0 -uint8x16_t vcgtq_u8(uint8x16_t a, uint8x16_t b); // VCGT.U8 q0, q0, q0 -uint16x8_t vcgtq_u16(uint16x8_t a, uint16x8_t b); // VCGT.U16 q0, q0, q0 -uint32x4_t vcgtq_u32(uint32x4_t a, uint32x4_t b); // VCGT.U32 q0, q0, q0 -//Vector compare less-than -uint8x8_t vclt_s8(int8x8_t a, int8x8_t b); // VCGT.S8 d0, d0, d0 -uint16x4_t vclt_s16(int16x4_t a, int16x4_t b); // VCGT.S16 d0, d0, d0 -uint32x2_t vclt_s32(int32x2_t a, int32x2_t b); // VCGT.S32 d0, d0, d0 -uint32x2_t vclt_f32(float32x2_t a, float32x2_t b); // VCGT.F32 d0, d0, d0 -uint8x8_t vclt_u8(uint8x8_t a, uint8x8_t b); // VCGT.U8 d0, d0, d0 -uint16x4_t vclt_u16(uint16x4_t a, uint16x4_t b); // VCGT.U16 d0, d0, d0 -uint32x2_t vclt_u32(uint32x2_t a, uint32x2_t b); // VCGT.U32 d0, d0, d0 -uint8x16_t vcltq_s8(int8x16_t a, int8x16_t b); // VCGT.S8 q0, q0, q0 -uint16x8_t vcltq_s16(int16x8_t a, int16x8_t b); // VCGT.S16 q0, q0, q0 -uint32x4_t vcltq_s32(int32x4_t a, int32x4_t b); // VCGT.S32 q0, q0, q0 -uint32x4_t vcltq_f32(float32x4_t a, float32x4_t b); // VCGT.F32 q0, q0, q0 -uint8x16_t vcltq_u8(uint8x16_t a, uint8x16_t b); // VCGT.U8 q0, q0, q0 -uint16x8_t vcltq_u16(uint16x8_t a, uint16x8_t b); // VCGT.U16 q0, q0, q0 -uint32x4_t vcltq_u32(uint32x4_t a, uint32x4_t b); // VCGT.U32 q0, q0, q0 -//Vector compare absolute greater-than or equal -uint32x2_t vcage_f32(float32x2_t a, float32x2_t b); // VACGE.F32 d0, d0, d0 -uint32x4_t vcageq_f32(float32x4_t a, float32x4_t b); // VACGE.F32 q0, q0, q0 -//Vector compare absolute less-than or equal -uint32x2_t vcale_f32(float32x2_t a, float32x2_t b); // VACGE.F32 d0, d0, d0 -uint32x4_t vcaleq_f32(float32x4_t a, float32x4_t b); // VACGE.F32 q0, q0, q0 -//Vector compare absolute greater-than -uint32x2_t vcagt_f32(float32x2_t a, float32x2_t b); // VACGT.F32 d0, d0, d0 -uint32x4_t vcagtq_f32(float32x4_t a, float32x4_t b); // VACGT.F32 q0, q0, q0 -//Vector compare absolute less-than -uint32x2_t vcalt_f32(float32x2_t a, float32x2_t b); // VACGT.F32 d0, d0, d0 -uint32x4_t vcaltq_f32(float32x4_t a, float32x4_t b); // VACGT.F32 q0, q0, q0 -//Vector test bits -uint8x8_t vtst_s8(int8x8_t a, int8x8_t b); // VTST.8 d0, d0, d0 -uint16x4_t vtst_s16(int16x4_t a, int16x4_t b); // VTST.16 d0, d0, d0 -uint32x2_t vtst_s32(int32x2_t a, int32x2_t b); // VTST.32 d0, d0, d0 -uint8x8_t vtst_u8(uint8x8_t a, uint8x8_t b); // VTST.8 d0, d0, d0 -uint16x4_t vtst_u16(uint16x4_t a, uint16x4_t b); // VTST.16 d0, d0, d0 -uint32x2_t vtst_u32(uint32x2_t a, uint32x2_t b); // VTST.32 d0, d0, d0 -uint8x8_t vtst_p8(poly8x8_t a, poly8x8_t b); // VTST.8 d0, d0, d0 -uint8x16_t vtstq_s8(int8x16_t a, int8x16_t b); // VTST.8 q0, q0, q0 -uint16x8_t vtstq_s16(int16x8_t a, int16x8_t b); // VTST.16 q0, q0, q0 -uint32x4_t vtstq_s32(int32x4_t a, int32x4_t b); // VTST.32 q0, q0, q0 -uint8x16_t vtstq_u8(uint8x16_t a, uint8x16_t b); // VTST.8 q0, q0, q0 -uint16x8_t vtstq_u16(uint16x8_t a, uint16x8_t b); // VTST.16 q0, q0, q0 -uint32x4_t vtstq_u32(uint32x4_t a, uint32x4_t b); // VTST.32 q0, q0, q0 -uint8x16_t vtstq_p8(poly8x16_t a, poly8x16_t b); // VTST.8 q0, q0, q0 -//Absolute difference -//Absolute difference between the arguments: Vr[i] = | Va[i] - Vb[i] | -int8x8_t vabd_s8(int8x8_t a, int8x8_t b); // VABD.S8 d0,d0,d0 -int16x4_t vabd_s16(int16x4_t a, int16x4_t b); // VABD.S16 d0,d0,d0 -int32x2_t vabd_s32(int32x2_t a, int32x2_t b); // VABD.S32 d0,d0,d0 -uint8x8_t vabd_u8(uint8x8_t a, uint8x8_t b); // VABD.U8 d0,d0,d0 -uint16x4_t vabd_u16(uint16x4_t a, uint16x4_t b); // VABD.U16 d0,d0,d0 -uint32x2_t vabd_u32(uint32x2_t a, uint32x2_t b); // VABD.U32 d0,d0,d0 -float32x2_t vabd_f32(float32x2_t a, float32x2_t b); // VABD.F32 d0,d0,d0 -int8x16_t vabdq_s8(int8x16_t a, int8x16_t b); // VABD.S8 q0,q0,q0 -int16x8_t vabdq_s16(int16x8_t a, int16x8_t b); // VABD.S16 q0,q0,q0 -int32x4_t vabdq_s32(int32x4_t a, int32x4_t b); // VABD.S32 q0,q0,q0 -uint8x16_t vabdq_u8(uint8x16_t a, uint8x16_t b); // VABD.U8 q0,q0,q0 -uint16x8_t vabdq_u16(uint16x8_t a, uint16x8_t b); // VABD.U16 q0,q0,q0 -uint32x4_t vabdq_u32(uint32x4_t a, uint32x4_t b); // VABD.U32 q0,q0,q0 -float32x4_t vabdq_f32(float32x4_t a, float32x4_t b); // VABD.F32 q0,q0,q0 -//Absolute difference - long -int16x8_t vabdl_s8(int8x8_t a, int8x8_t b); // VABDL.S8 q0,d0,d0 -int32x4_t vabdl_s16(int16x4_t a, int16x4_t b); // VABDL.S16 q0,d0,d0 -int64x2_t vabdl_s32(int32x2_t a, int32x2_t b); // VABDL.S32 q0,d0,d0 -uint16x8_t vabdl_u8(uint8x8_t a, uint8x8_t b); // VABDL.U8 q0,d0,d0 -uint32x4_t vabdl_u16(uint16x4_t a, uint16x4_t b); // VABDL.U16 q0,d0,d0 -uint64x2_t vabdl_u32(uint32x2_t a, uint32x2_t b); // VABDL.U32 q0,d0,d0 -//Absolute difference and accumulate: Vr[i] = Va[i] + | Vb[i] - Vc[i] | -int8x8_t vaba_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VABA.S8 d0,d0,d0 -int16x4_t vaba_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VABA.S16 d0,d0,d0 -int32x2_t vaba_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VABA.S32 d0,d0,d0 -uint8x8_t vaba_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VABA.U8 d0,d0,d0 -uint16x4_t vaba_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VABA.U16 d0,d0,d0 -uint32x2_t vaba_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VABA.U32 d0,d0,d0 -int8x16_t vabaq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VABA.S8 q0,q0,q0 -int16x8_t vabaq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VABA.S16 q0,q0,q0 -int32x4_t vabaq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VABA.S32 q0,q0,q0 -uint8x16_t vabaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VABA.U8 q0,q0,q0 -uint16x8_t vabaq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VABA.U16 q0,q0,q0 -uint32x4_t vabaq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VABA.U32 q0,q0,q0 -//Absolute difference and accumulate - long -int16x8_t vabal_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VABAL.S8 q0,d0,d0 -int32x4_t vabal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VABAL.S16 q0,d0,d0 -int64x2_t vabal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VABAL.S32 q0,d0,d0 -uint16x8_t vabal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VABAL.U8 q0,d0,d0 -uint32x4_t vabal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VABAL.U16 q0,d0,d0 -uint64x2_t vabal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VABAL.U32 q0,d0,d0 -//Max/Min -//vmax -> Vr[i] := (Va[i] >= Vb[i]) ? Va[i] : Vb[i] -int8x8_t vmax_s8(int8x8_t a, int8x8_t b); // VMAX.S8 d0,d0,d0 -int16x4_t vmax_s16(int16x4_t a, int16x4_t b); // VMAX.S16 d0,d0,d0 -int32x2_t vmax_s32(int32x2_t a, int32x2_t b); // VMAX.S32 d0,d0,d0 -uint8x8_t vmax_u8(uint8x8_t a, uint8x8_t b); // VMAX.U8 d0,d0,d0 -uint16x4_t vmax_u16(uint16x4_t a, uint16x4_t b); // VMAX.U16 d0,d0,d0 -uint32x2_t vmax_u32(uint32x2_t a, uint32x2_t b); // VMAX.U32 d0,d0,d0 -float32x2_t vmax_f32(float32x2_t a, float32x2_t b); // VMAX.F32 d0,d0,d0 -int8x16_t vmaxq_s8(int8x16_t a, int8x16_t b); // VMAX.S8 q0,q0,q0 -int16x8_t vmaxq_s16(int16x8_t a, int16x8_t b); // VMAX.S16 q0,q0,q0 -int32x4_t vmaxq_s32(int32x4_t a, int32x4_t b); // VMAX.S32 q0,q0,q0 -uint8x16_t vmaxq_u8(uint8x16_t a, uint8x16_t b); // VMAX.U8 q0,q0,q0 -uint16x8_t vmaxq_u16(uint16x8_t a, uint16x8_t b); // VMAX.U16 q0,q0,q0 -uint32x4_t vmaxq_u32(uint32x4_t a, uint32x4_t b); // VMAX.U32 q0,q0,q0 -float32x4_t vmaxq_f32(float32x4_t a, float32x4_t b); // VMAX.F32 q0,q0,q0 -//vmin -> Vr[i] := (Va[i] >= Vb[i]) ? Vb[i] : Va[i] -int8x8_t vmin_s8(int8x8_t a, int8x8_t b); // VMIN.S8 d0,d0,d0 -int16x4_t vmin_s16(int16x4_t a, int16x4_t b); // VMIN.S16 d0,d0,d0 -int32x2_t vmin_s32(int32x2_t a, int32x2_t b); // VMIN.S32 d0,d0,d0 -uint8x8_t vmin_u8(uint8x8_t a, uint8x8_t b); // VMIN.U8 d0,d0,d0 -uint16x4_t vmin_u16(uint16x4_t a, uint16x4_t b); // VMIN.U16 d0,d0,d0 -uint32x2_t vmin_u32(uint32x2_t a, uint32x2_t b); // VMIN.U32 d0,d0,d0 -float32x2_t vmin_f32(float32x2_t a, float32x2_t b); // VMIN.F32 d0,d0,d0 -int8x16_t vminq_s8(int8x16_t a, int8x16_t b); // VMIN.S8 q0,q0,q0 -int16x8_t vminq_s16(int16x8_t a, int16x8_t b); // VMIN.S16 q0,q0,q0 -int32x4_t vminq_s32(int32x4_t a, int32x4_t b); // VMIN.S32 q0,q0,q0 -uint8x16_t vminq_u8(uint8x16_t a, uint8x16_t b); // VMIN.U8 q0,q0,q0 -uint16x8_t vminq_u16(uint16x8_t a, uint16x8_t b); // VMIN.U16 q0,q0,q0 -uint32x4_t vminq_u32(uint32x4_t a, uint32x4_t b); // VMIN.U32 q0,q0,q0 -float32x4_t vminq_f32(float32x4_t a, float32x4_t b); // VMIN.F32 q0,q0,q0 -//Pairwise addition -//Pairwise add -int8x8_t vpadd_s8(int8x8_t a, int8x8_t b); // VPADD.I8 d0,d0,d0 -int16x4_t vpadd_s16(int16x4_t a, int16x4_t b); // VPADD.I16 d0,d0,d0 -int32x2_t vpadd_s32(int32x2_t a, int32x2_t b); // VPADD.I32 d0,d0,d0 -uint8x8_t vpadd_u8(uint8x8_t a, uint8x8_t b); // VPADD.I8 d0,d0,d0 -uint16x4_t vpadd_u16(uint16x4_t a, uint16x4_t b); // VPADD.I16 d0,d0,d0 -uint32x2_t vpadd_u32(uint32x2_t a, uint32x2_t b); // VPADD.I32 d0,d0,d0 -float32x2_t vpadd_f32(float32x2_t a, float32x2_t b); // VPADD.F32 d0,d0,d0 -//Long pairwise add -int16x4_t vpaddl_s8(int8x8_t a); // VPADDL.S8 d0,d0 -int32x2_t vpaddl_s16(int16x4_t a); // VPADDL.S16 d0,d0 -int64x1_t vpaddl_s32(int32x2_t a); // VPADDL.S32 d0,d0 -uint16x4_t vpaddl_u8(uint8x8_t a); // VPADDL.U8 d0,d0 -uint32x2_t vpaddl_u16(uint16x4_t a); // VPADDL.U16 d0,d0 -uint64x1_t vpaddl_u32(uint32x2_t a); // VPADDL.U32 d0,d0 -int16x8_t vpaddlq_s8(int8x16_t a); // VPADDL.S8 q0,q0 -int32x4_t vpaddlq_s16(int16x8_t a); // VPADDL.S16 q0,q0 -int64x2_t vpaddlq_s32(int32x4_t a); // VPADDL.S32 q0,q0 -uint16x8_t vpaddlq_u8(uint8x16_t a); // VPADDL.U8 q0,q0 -uint32x4_t vpaddlq_u16(uint16x8_t a); // VPADDL.U16 q0,q0 -uint64x2_t vpaddlq_u32(uint32x4_t a); // VPADDL.U32 q0,q0 -//Long pairwise add and accumulate -int16x4_t vpadal_s8(int16x4_t a, int8x8_t b); // VPADAL.S8 d0,d0 -int32x2_t vpadal_s16(int32x2_t a, int16x4_t b); // VPADAL.S16 d0,d0 -int64x1_t vpadal_s32(int64x1_t a, int32x2_t b); // VPADAL.S32 d0,d0 -uint16x4_t vpadal_u8(uint16x4_t a, uint8x8_t b); // VPADAL.U8 d0,d0 -uint32x2_t vpadal_u16(uint32x2_t a, uint16x4_t b); // VPADAL.U16 d0,d0 -uint64x1_t vpadal_u32(uint64x1_t a, uint32x2_t b); // VPADAL.U32 d0,d0 -int16x8_t vpadalq_s8(int16x8_t a, int8x16_t b); // VPADAL.S8 q0,q0 -int32x4_t vpadalq_s16(int32x4_t a, int16x8_t b); // VPADAL.S16 q0,q0 -int64x2_t vpadalq_s32(int64x2_t a, int32x4_t b); // VPADAL.S32 q0,q0 -uint16x8_t vpadalq_u8(uint16x8_t a, uint8x16_t b); // VPADAL.U8 q0,q0 -uint32x4_t vpadalq_u16(uint32x4_t a, uint16x8_t b); // VPADAL.U16 q0,q0 -uint64x2_t vpadalq_u32(uint64x2_t a, uint32x4_t b); // VPADAL.U32 q0,q0 -//Folding maximum vpmax -> takes maximum of adjacent pairs -int8x8_t vpmax_s8(int8x8_t a, int8x8_t b); // VPMAX.S8 d0,d0,d0 -int16x4_t vpmax_s16(int16x4_t a, int16x4_t b); // VPMAX.S16 d0,d0,d0 -int32x2_t vpmax_s32(int32x2_t a, int32x2_t b); // VPMAX.S32 d0,d0,d0 -uint8x8_t vpmax_u8(uint8x8_t a, uint8x8_t b); // VPMAX.U8 d0,d0,d0 -uint16x4_t vpmax_u16(uint16x4_t a, uint16x4_t b); // VPMAX.U16 d0,d0,d0 -uint32x2_t vpmax_u32(uint32x2_t a, uint32x2_t b); // VPMAX.U32 d0,d0,d0 -float32x2_t vpmax_f32(float32x2_t a, float32x2_t b); // VPMAX.F32 d0,d0,d0 -//Folding minimum vpmin -> takes minimum of adjacent pairs -int8x8_t vpmin_s8(int8x8_t a, int8x8_t b); // VPMIN.S8 d0,d0,d0 -int16x4_t vpmin_s16(int16x4_t a, int16x4_t b); // VPMIN.S16 d0,d0,d0 -int32x2_t vpmin_s32(int32x2_t a, int32x2_t b); // VPMIN.S32 d0,d0,d0 -uint8x8_t vpmin_u8(uint8x8_t a, uint8x8_t b); // VPMIN.U8 d0,d0,d0 -uint16x4_t vpmin_u16(uint16x4_t a, uint16x4_t b); // VPMIN.U16 d0,d0,d0 -uint32x2_t vpmin_u32(uint32x2_t a, uint32x2_t b); // VPMIN.U32 d0,d0,d0 -float32x2_t vpmin_f32(float32x2_t a, float32x2_t b); // VPMIN.F32 d0,d0,d0 -//Reciprocal/Sqrt -float32x2_t vrecps_f32(float32x2_t a, float32x2_t b); // VRECPS.F32 d0, d0, d0 -float32x4_t vrecpsq_f32(float32x4_t a, float32x4_t b); // VRECPS.F32 q0, q0, q0 -float32x2_t vrsqrts_f32(float32x2_t a, float32x2_t b); // VRSQRTS.F32 d0, d0, d0 -float32x4_t vrsqrtsq_f32(float32x4_t a, float32x4_t b); // VRSQRTS.F32 q0, q0, q0 -//Shifts by signed variable -//Vector shift left: Vr[i] := Va[i] << Vb[i] (negative values shift right) -int8x8_t vshl_s8(int8x8_t a, int8x8_t b); // VSHL.S8 d0,d0,d0 -int16x4_t vshl_s16(int16x4_t a, int16x4_t b); // VSHL.S16 d0,d0,d0 -int32x2_t vshl_s32(int32x2_t a, int32x2_t b); // VSHL.S32 d0,d0,d0 -int64x1_t vshl_s64(int64x1_t a, int64x1_t b); // VSHL.S64 d0,d0,d0 -uint8x8_t vshl_u8(uint8x8_t a, int8x8_t b); // VSHL.U8 d0,d0,d0 -uint16x4_t vshl_u16(uint16x4_t a, int16x4_t b); // VSHL.U16 d0,d0,d0 -uint32x2_t vshl_u32(uint32x2_t a, int32x2_t b); // VSHL.U32 d0,d0,d0 -uint64x1_t vshl_u64(uint64x1_t a, int64x1_t b); // VSHL.U64 d0,d0,d0 -int8x16_t vshlq_s8(int8x16_t a, int8x16_t b); // VSHL.S8 q0,q0,q0 -int16x8_t vshlq_s16(int16x8_t a, int16x8_t b); // VSHL.S16 q0,q0,q0 -int32x4_t vshlq_s32(int32x4_t a, int32x4_t b); // VSHL.S32 q0,q0,q0 -int64x2_t vshlq_s64(int64x2_t a, int64x2_t b); // VSHL.S64 q0,q0,q0 -uint8x16_t vshlq_u8(uint8x16_t a, int8x16_t b); // VSHL.U8 q0,q0,q0 -uint16x8_t vshlq_u16(uint16x8_t a, int16x8_t b); // VSHL.U16 q0,q0,q0 -uint32x4_t vshlq_u32(uint32x4_t a, int32x4_t b); // VSHL.U32 q0,q0,q0 -uint64x2_t vshlq_u64(uint64x2_t a, int64x2_t b); // VSHL.U64 q0,q0,q0 -//Vector saturating shift left: (negative values shift right) -int8x8_t vqshl_s8(int8x8_t a, int8x8_t b); // VQSHL.S8 d0,d0,d0 -int16x4_t vqshl_s16(int16x4_t a, int16x4_t b); // VQSHL.S16 d0,d0,d0 -int32x2_t vqshl_s32(int32x2_t a, int32x2_t b); // VQSHL.S32 d0,d0,d0 -int64x1_t vqshl_s64(int64x1_t a, int64x1_t b); // VQSHL.S64 d0,d0,d0 -uint8x8_t vqshl_u8(uint8x8_t a, int8x8_t b); // VQSHL.U8 d0,d0,d0 -uint16x4_t vqshl_u16(uint16x4_t a, int16x4_t b); // VQSHL.U16 d0,d0,d0 -uint32x2_t vqshl_u32(uint32x2_t a, int32x2_t b); // VQSHL.U32 d0,d0,d0 -uint64x1_t vqshl_u64(uint64x1_t a, int64x1_t b); // VQSHL.U64 d0,d0,d0 -int8x16_t vqshlq_s8(int8x16_t a, int8x16_t b); // VQSHL.S8 q0,q0,q0 -int16x8_t vqshlq_s16(int16x8_t a, int16x8_t b); // VQSHL.S16 q0,q0,q0 -int32x4_t vqshlq_s32(int32x4_t a, int32x4_t b); // VQSHL.S32 q0,q0,q0 -int64x2_t vqshlq_s64(int64x2_t a, int64x2_t b); // VQSHL.S64 q0,q0,q0 -uint8x16_t vqshlq_u8(uint8x16_t a, int8x16_t b); // VQSHL.U8 q0,q0,q0 -uint16x8_t vqshlq_u16(uint16x8_t a, int16x8_t b); // VQSHL.U16 q0,q0,q0 -uint32x4_t vqshlq_u32(uint32x4_t a, int32x4_t b); // VQSHL.U32 q0,q0,q0 -uint64x2_t vqshlq_u64(uint64x2_t a, int64x2_t b); // VQSHL.U64 q0,q0,q0 -//Vector rounding shift left: (negative values shift right) -int8x8_t vrshl_s8(int8x8_t a, int8x8_t b); // VRSHL.S8 d0,d0,d0 -int16x4_t vrshl_s16(int16x4_t a, int16x4_t b); // VRSHL.S16 d0,d0,d0 -int32x2_t vrshl_s32(int32x2_t a, int32x2_t b); // VRSHL.S32 d0,d0,d0 -int64x1_t vrshl_s64(int64x1_t a, int64x1_t b); // VRSHL.S64 d0,d0,d0 -uint8x8_t vrshl_u8(uint8x8_t a, int8x8_t b); // VRSHL.U8 d0,d0,d0 -uint16x4_t vrshl_u16(uint16x4_t a, int16x4_t b); // VRSHL.U16 d0,d0,d0 -uint32x2_t vrshl_u32(uint32x2_t a, int32x2_t b); // VRSHL.U32 d0,d0,d0 -uint64x1_t vrshl_u64(uint64x1_t a, int64x1_t b); // VRSHL.U64 d0,d0,d0 -int8x16_t vrshlq_s8(int8x16_t a, int8x16_t b); // VRSHL.S8 q0,q0,q0 -int16x8_t vrshlq_s16(int16x8_t a, int16x8_t b); // VRSHL.S16 q0,q0,q0 -int32x4_t vrshlq_s32(int32x4_t a, int32x4_t b); // VRSHL.S32 q0,q0,q0 -int64x2_t vrshlq_s64(int64x2_t a, int64x2_t b); // VRSHL.S64 q0,q0,q0 -uint8x16_t vrshlq_u8(uint8x16_t a, int8x16_t b); // VRSHL.U8 q0,q0,q0 -uint16x8_t vrshlq_u16(uint16x8_t a, int16x8_t b); // VRSHL.U16 q0,q0,q0 -uint32x4_t vrshlq_u32(uint32x4_t a, int32x4_t b); // VRSHL.U32 q0,q0,q0 -uint64x2_t vrshlq_u64(uint64x2_t a, int64x2_t b); // VRSHL.U64 q0,q0,q0 -//Vector saturating rounding shift left: (negative values shift right) -int8x8_t vqrshl_s8(int8x8_t a, int8x8_t b); // VQRSHL.S8 d0,d0,d0 -int16x4_t vqrshl_s16(int16x4_t a, int16x4_t b); // VQRSHL.S16 d0,d0,d0 -int32x2_t vqrshl_s32(int32x2_t a, int32x2_t b); // VQRSHL.S32 d0,d0,d0 -int64x1_t vqrshl_s64(int64x1_t a, int64x1_t b); // VQRSHL.S64 d0,d0,d0 -uint8x8_t vqrshl_u8(uint8x8_t a, int8x8_t b); // VQRSHL.U8 d0,d0,d0 -uint16x4_t vqrshl_u16(uint16x4_t a, int16x4_t b); // VQRSHL.U16 d0,d0,d0 -uint32x2_t vqrshl_u32(uint32x2_t a, int32x2_t b); // VQRSHL.U32 d0,d0,d0 -uint64x1_t vqrshl_u64(uint64x1_t a, int64x1_t b); // VQRSHL.U64 d0,d0,d0 -int8x16_t vqrshlq_s8(int8x16_t a, int8x16_t b); // VQRSHL.S8 q0,q0,q0 -int16x8_t vqrshlq_s16(int16x8_t a, int16x8_t b); // VQRSHL.S16 q0,q0,q0 -int32x4_t vqrshlq_s32(int32x4_t a, int32x4_t b); // VQRSHL.S32 q0,q0,q0 -int64x2_t vqrshlq_s64(int64x2_t a, int64x2_t b); // VQRSHL.S64 q0,q0,q0 -uint8x16_t vqrshlq_u8(uint8x16_t a, int8x16_t b); // VQRSHL.U8 q0,q0,q0 -uint16x8_t vqrshlq_u16(uint16x8_t a, int16x8_t b); // VQRSHL.U16 q0,q0,q0 -uint32x4_t vqrshlq_u32(uint32x4_t a, int32x4_t b); // VQRSHL.U32 q0,q0,q0 -uint64x2_t vqrshlq_u64(uint64x2_t a, int64x2_t b); // VQRSHL.U64 q0,q0,q0 -//Shifts by a constant -//Vector shift right by constant -int8x8_t vshr_n_s8(int8x8_t a, __constrange(1,8) int b); // VSHR.S8 d0,d0,#8 -int16x4_t vshr_n_s16(int16x4_t a, __constrange(1,16) int b); // VSHR.S16 d0,d0,#16 -int32x2_t vshr_n_s32(int32x2_t a, __constrange(1,32) int b); // VSHR.S32 d0,d0,#32 -int64x1_t vshr_n_s64(int64x1_t a, __constrange(1,64) int b); // VSHR.S64 d0,d0,#64 -uint8x8_t vshr_n_u8(uint8x8_t a, __constrange(1,8) int b); // VSHR.U8 d0,d0,#8 -uint16x4_t vshr_n_u16(uint16x4_t a, __constrange(1,16) int b); // VSHR.U16 d0,d0,#16 -uint32x2_t vshr_n_u32(uint32x2_t a, __constrange(1,32) int b); // VSHR.U32 d0,d0,#32 -uint64x1_t vshr_n_u64(uint64x1_t a, __constrange(1,64) int b); // VSHR.U64 d0,d0,#64 -int8x16_t vshrq_n_s8(int8x16_t a, __constrange(1,8) int b); // VSHR.S8 q0,q0,#8 -int16x8_t vshrq_n_s16(int16x8_t a, __constrange(1,16) int b); // VSHR.S16 q0,q0,#16 -int32x4_t vshrq_n_s32(int32x4_t a, __constrange(1,32) int b); // VSHR.S32 q0,q0,#32 -int64x2_t vshrq_n_s64(int64x2_t a, __constrange(1,64) int b); // VSHR.S64 q0,q0,#64 -uint8x16_t vshrq_n_u8(uint8x16_t a, __constrange(1,8) int b); // VSHR.U8 q0,q0,#8 -uint16x8_t vshrq_n_u16(uint16x8_t a, __constrange(1,16) int b); // VSHR.U16 q0,q0,#16 -uint32x4_t vshrq_n_u32(uint32x4_t a, __constrange(1,32) int b); // VSHR.U32 q0,q0,#32 -uint64x2_t vshrq_n_u64(uint64x2_t a, __constrange(1,64) int b); // VSHR.U64 q0,q0,#64 -//Vector shift left by constant -int8x8_t vshl_n_s8(int8x8_t a, __constrange(0,7) int b); // VSHL.I8 d0,d0,#0 -int16x4_t vshl_n_s16(int16x4_t a, __constrange(0,15) int b); // VSHL.I16 d0,d0,#0 -int32x2_t vshl_n_s32(int32x2_t a, __constrange(0,31) int b); // VSHL.I32 d0,d0,#0 -int64x1_t vshl_n_s64(int64x1_t a, __constrange(0,63) int b); // VSHL.I64 d0,d0,#0 -uint8x8_t vshl_n_u8(uint8x8_t a, __constrange(0,7) int b); // VSHL.I8 d0,d0,#0 -uint16x4_t vshl_n_u16(uint16x4_t a, __constrange(0,15) int b); // VSHL.I16 d0,d0,#0 -uint32x2_t vshl_n_u32(uint32x2_t a, __constrange(0,31) int b); // VSHL.I32 d0,d0,#0 -uint64x1_t vshl_n_u64(uint64x1_t a, __constrange(0,63) int b); // VSHL.I64 d0,d0,#0 -int8x16_t vshlq_n_s8(int8x16_t a, __constrange(0,7) int b); // VSHL.I8 q0,q0,#0 -int16x8_t vshlq_n_s16(int16x8_t a, __constrange(0,15) int b); // VSHL.I16 q0,q0,#0 -int32x4_t vshlq_n_s32(int32x4_t a, __constrange(0,31) int b); // VSHL.I32 q0,q0,#0 -int64x2_t vshlq_n_s64(int64x2_t a, __constrange(0,63) int b); // VSHL.I64 q0,q0,#0 -uint8x16_t vshlq_n_u8(uint8x16_t a, __constrange(0,7) int b); // VSHL.I8 q0,q0,#0 -uint16x8_t vshlq_n_u16(uint16x8_t a, __constrange(0,15) int b); // VSHL.I16 q0,q0,#0 -uint32x4_t vshlq_n_u32(uint32x4_t a, __constrange(0,31) int b); // VSHL.I32 q0,q0,#0 -uint64x2_t vshlq_n_u64(uint64x2_t a, __constrange(0,63) int b); // VSHL.I64 q0,q0,#0 -//Vector rounding shift right by constant -int8x8_t vrshr_n_s8(int8x8_t a, __constrange(1,8) int b); // VRSHR.S8 d0,d0,#8 -int16x4_t vrshr_n_s16(int16x4_t a, __constrange(1,16) int b); // VRSHR.S16 d0,d0,#16 -int32x2_t vrshr_n_s32(int32x2_t a, __constrange(1,32) int b); // VRSHR.S32 d0,d0,#32 -int64x1_t vrshr_n_s64(int64x1_t a, __constrange(1,64) int b); // VRSHR.S64 d0,d0,#64 -uint8x8_t vrshr_n_u8(uint8x8_t a, __constrange(1,8) int b); // VRSHR.U8 d0,d0,#8 -uint16x4_t vrshr_n_u16(uint16x4_t a, __constrange(1,16) int b); // VRSHR.U16 d0,d0,#16 -uint32x2_t vrshr_n_u32(uint32x2_t a, __constrange(1,32) int b); // VRSHR.U32 d0,d0,#32 -uint64x1_t vrshr_n_u64(uint64x1_t a, __constrange(1,64) int b); // VRSHR.U64 d0,d0,#64 -int8x16_t vrshrq_n_s8(int8x16_t a, __constrange(1,8) int b); // VRSHR.S8 q0,q0,#8 -int16x8_t vrshrq_n_s16(int16x8_t a, __constrange(1,16) int b); // VRSHR.S16 q0,q0,#16 -int32x4_t vrshrq_n_s32(int32x4_t a, __constrange(1,32) int b); // VRSHR.S32 q0,q0,#32 -int64x2_t vrshrq_n_s64(int64x2_t a, __constrange(1,64) int b); // VRSHR.S64 q0,q0,#64 -uint8x16_t vrshrq_n_u8(uint8x16_t a, __constrange(1,8) int b); // VRSHR.U8 q0,q0,#8 -uint16x8_t vrshrq_n_u16(uint16x8_t a, __constrange(1,16) int b); // VRSHR.U16 q0,q0,#16 -uint32x4_t vrshrq_n_u32(uint32x4_t a, __constrange(1,32) int b); // VRSHR.U32 q0,q0,#32 -uint64x2_t vrshrq_n_u64(uint64x2_t a, __constrange(1,64) int b); // VRSHR.U64 q0,q0,#64 -//Vector shift right by constant and accumulate -int8x8_t vsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VSRA.S8 d0,d0,#8 -int16x4_t vsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VSRA.S16 d0,d0,#16 -int32x2_t vsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VSRA.S32 d0,d0,#32 -int64x1_t vsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VSRA.S64 d0,d0,#64 -uint8x8_t vsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VSRA.U8 d0,d0,#8 -uint16x4_t vsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VSRA.U16 d0,d0,#16 -uint32x2_t vsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VSRA.U32 d0,d0,#32 -uint64x1_t vsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VSRA.U64 d0,d0,#64 -int8x16_t vsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VSRA.S8 q0,q0,#8 -int16x8_t vsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VSRA.S16 q0,q0,#16 -int32x4_t vsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VSRA.S32 q0,q0,#32 -int64x2_t vsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VSRA.S64 q0,q0,#64 -uint8x16_t vsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VSRA.U8 q0,q0,#8 -uint16x8_t vsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VSRA.U16 q0,q0,#16 -uint32x4_t vsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VSRA.U32 q0,q0,#32 -uint64x2_t vsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VSRA.U64 q0,q0,#64 -//Vector rounding shift right by constant and accumulate -int8x8_t vrsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VRSRA.S8 d0,d0,#8 -int16x4_t vrsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VRSRA.S16 d0,d0,#16 -int32x2_t vrsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VRSRA.S32 d0,d0,#32 -int64x1_t vrsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VRSRA.S64 d0,d0,#64 -uint8x8_t vrsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VRSRA.U8 d0,d0,#8 -uint16x4_t vrsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VRSRA.U16 d0,d0,#16 -uint32x2_t vrsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VRSRA.U32 d0,d0,#32 -uint64x1_t vrsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VRSRA.U64 d0,d0,#64 -int8x16_t vrsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VRSRA.S8 q0,q0,#8 -int16x8_t vrsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VRSRA.S16 q0,q0,#16 -int32x4_t vrsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VRSRA.S32 q0,q0,#32 -int64x2_t vrsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VRSRA.S64 q0,q0,#64 -uint8x16_t vrsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VRSRA.U8 q0,q0,#8 -uint16x8_t vrsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VRSRA.U16 q0,q0,#16 -uint32x4_t vrsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VRSRA.U32 q0,q0,#32 -uint64x2_t vrsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VRSRA.U64 q0,q0,#64 -//Vector saturating shift left by constant -int8x8_t vqshl_n_s8(int8x8_t a, __constrange(0,7) int b); // VQSHL.S8 d0,d0,#0 -int16x4_t vqshl_n_s16(int16x4_t a, __constrange(0,15) int b); // VQSHL.S16 d0,d0,#0 -int32x2_t vqshl_n_s32(int32x2_t a, __constrange(0,31) int b); // VQSHL.S32 d0,d0,#0 -int64x1_t vqshl_n_s64(int64x1_t a, __constrange(0,63) int b); // VQSHL.S64 d0,d0,#0 -uint8x8_t vqshl_n_u8(uint8x8_t a, __constrange(0,7) int b); // VQSHL.U8 d0,d0,#0 -uint16x4_t vqshl_n_u16(uint16x4_t a, __constrange(0,15) int b); // VQSHL.U16 d0,d0,#0 -uint32x2_t vqshl_n_u32(uint32x2_t a, __constrange(0,31) int b); // VQSHL.U32 d0,d0,#0 -uint64x1_t vqshl_n_u64(uint64x1_t a, __constrange(0,63) int b); // VQSHL.U64 d0,d0,#0 -int8x16_t vqshlq_n_s8(int8x16_t a, __constrange(0,7) int b); // VQSHL.S8 q0,q0,#0 -int16x8_t vqshlq_n_s16(int16x8_t a, __constrange(0,15) int b); // VQSHL.S16 q0,q0,#0 -int32x4_t vqshlq_n_s32(int32x4_t a, __constrange(0,31) int b); // VQSHL.S32 q0,q0,#0 -int64x2_t vqshlq_n_s64(int64x2_t a, __constrange(0,63) int b); // VQSHL.S64 q0,q0,#0 -uint8x16_t vqshlq_n_u8(uint8x16_t a, __constrange(0,7) int b); // VQSHL.U8 q0,q0,#0 -uint16x8_t vqshlq_n_u16(uint16x8_t a, __constrange(0,15) int b); // VQSHL.U16 q0,q0,#0 -uint32x4_t vqshlq_n_u32(uint32x4_t a, __constrange(0,31) int b); // VQSHL.U32 q0,q0,#0 -uint64x2_t vqshlq_n_u64(uint64x2_t a, __constrange(0,63) int b); // VQSHL.U64 q0,q0,#0 -//Vector signed->unsigned saturating shift left by constant -uint8x8_t vqshlu_n_s8(int8x8_t a, __constrange(0,7) int b); // VQSHLU.S8 d0,d0,#0 -uint16x4_t vqshlu_n_s16(int16x4_t a, __constrange(0,15) int b); // VQSHLU.S16 d0,d0,#0 -uint32x2_t vqshlu_n_s32(int32x2_t a, __constrange(0,31) int b); // VQSHLU.S32 d0,d0,#0 -uint64x1_t vqshlu_n_s64(int64x1_t a, __constrange(0,63) int b); // VQSHLU.S64 d0,d0,#0 -uint8x16_t vqshluq_n_s8(int8x16_t a, __constrange(0,7) int b); // VQSHLU.S8 q0,q0,#0 -uint16x8_t vqshluq_n_s16(int16x8_t a, __constrange(0,15) int b); // VQSHLU.S16 q0,q0,#0 -uint32x4_t vqshluq_n_s32(int32x4_t a, __constrange(0,31) int b); // VQSHLU.S32 q0,q0,#0 -uint64x2_t vqshluq_n_s64(int64x2_t a, __constrange(0,63) int b); // VQSHLU.S64 q0,q0,#0 -//Vector narrowing shift right by constant -int8x8_t vshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VSHRN.I16 d0,q0,#8 -int16x4_t vshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VSHRN.I32 d0,q0,#16 -int32x2_t vshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VSHRN.I64 d0,q0,#32 -uint8x8_t vshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VSHRN.I16 d0,q0,#8 -uint16x4_t vshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VSHRN.I32 d0,q0,#16 -uint32x2_t vshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VSHRN.I64 d0,q0,#32 -//Vector signed->unsigned narrowing saturating shift right by constant -uint8x8_t vqshrun_n_s16(int16x8_t a, __constrange(1,8) int b); // VQSHRUN.S16 d0,q0,#8 -uint16x4_t vqshrun_n_s32(int32x4_t a, __constrange(1,16) int b); // VQSHRUN.S32 d0,q0,#16 -uint32x2_t vqshrun_n_s64(int64x2_t a, __constrange(1,32) int b); // VQSHRUN.S64 d0,q0,#32 -//Vector signed->unsigned rounding narrowing saturating shift right by constant -uint8x8_t vqrshrun_n_s16(int16x8_t a, __constrange(1,8) int b); // VQRSHRUN.S16 d0,q0,#8 -uint16x4_t vqrshrun_n_s32(int32x4_t a, __constrange(1,16) int b); // VQRSHRUN.S32 d0,q0,#16 -uint32x2_t vqrshrun_n_s64(int64x2_t a, __constrange(1,32) int b); // VQRSHRUN.S64 d0,q0,#32 -//Vector narrowing saturating shift right by constant -int8x8_t vqshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VQSHRN.S16 d0,q0,#8 -int16x4_t vqshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VQSHRN.S32 d0,q0,#16 -int32x2_t vqshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VQSHRN.S64 d0,q0,#32 -uint8x8_t vqshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VQSHRN.U16 d0,q0,#8 -uint16x4_t vqshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VQSHRN.U32 d0,q0,#16 -uint32x2_t vqshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VQSHRN.U64 d0,q0,#32 -//Vector rounding narrowing shift right by constant -int8x8_t vrshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VRSHRN.I16 d0,q0,#8 -int16x4_t vrshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VRSHRN.I32 d0,q0,#16 -int32x2_t vrshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VRSHRN.I64 d0,q0,#32 -uint8x8_t vrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VRSHRN.I16 d0,q0,#8 -uint16x4_t vrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VRSHRN.I32 d0,q0,#16 -uint32x2_t vrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VRSHRN.I64 d0,q0,#32 -//Vector rounding narrowing saturating shift right by constant -int8x8_t vqrshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VQRSHRN.S16 d0,q0,#8 -int16x4_t vqrshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VQRSHRN.S32 d0,q0,#16 -int32x2_t vqrshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VQRSHRN.S64 d0,q0,#32 -uint8x8_t vqrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VQRSHRN.U16 d0,q0,#8 -uint16x4_t vqrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VQRSHRN.U32 d0,q0,#16 -uint32x2_t vqrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VQRSHRN.U64 d0,q0,#32 -//Vector widening shift left by constant -int16x8_t vshll_n_s8(int8x8_t a, __constrange(0,8) int b); // VSHLL.S8 q0,d0,#0 -int32x4_t vshll_n_s16(int16x4_t a, __constrange(0,16) int b); // VSHLL.S16 q0,d0,#0 -int64x2_t vshll_n_s32(int32x2_t a, __constrange(0,32) int b); // VSHLL.S32 q0,d0,#0 -uint16x8_t vshll_n_u8(uint8x8_t a, __constrange(0,8) int b); // VSHLL.U8 q0,d0,#0 -uint32x4_t vshll_n_u16(uint16x4_t a, __constrange(0,16) int b); // VSHLL.U16 q0,d0,#0 -uint64x2_t vshll_n_u32(uint32x2_t a, __constrange(0,32) int b); // VSHLL.U32 q0,d0,#0 -//Shifts with insert -//Vector shift right and insert -int8x8_t vsri_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -int16x4_t vsri_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -int32x2_t vsri_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VSRI.32 d0,d0,#32 -int64x1_t vsri_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VSRI.64 d0,d0,#64 -uint8x8_t vsri_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -uint16x4_t vsri_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -uint32x2_t vsri_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VSRI.32 d0,d0,#32 -uint64x1_t vsri_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VSRI.64 d0,d0,#64 -poly8x8_t vsri_n_p8(poly8x8_t a, poly8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -poly16x4_t vsri_n_p16(poly16x4_t a, poly16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -int8x16_t vsriq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -int16x8_t vsriq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -int32x4_t vsriq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VSRI.32 q0,q0,#32 -int64x2_t vsriq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VSRI.64 q0,q0,#64 -uint8x16_t vsriq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -uint16x8_t vsriq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -uint32x4_t vsriq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VSRI.32 q0,q0,#32 -uint64x2_t vsriq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VSRI.64 q0,q0,#64 -poly8x16_t vsriq_n_p8(poly8x16_t a, poly8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -poly16x8_t vsriq_n_p16(poly16x8_t a, poly16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -//Vector shift left and insert -int8x8_t vsli_n_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -int16x4_t vsli_n_s16(int16x4_t a, int16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -int32x2_t vsli_n_s32(int32x2_t a, int32x2_t b, __constrange(0,31) int c); // VSLI.32 d0,d0,#0 -int64x1_t vsli_n_s64(int64x1_t a, int64x1_t b, __constrange(0,63) int c); // VSLI.64 d0,d0,#0 -uint8x8_t vsli_n_u8(uint8x8_t a, uint8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -uint16x4_t vsli_n_u16(uint16x4_t a, uint16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -uint32x2_t vsli_n_u32(uint32x2_t a, uint32x2_t b, __constrange(0,31) int c); // VSLI.32 d0,d0,#0 -uint64x1_t vsli_n_u64(uint64x1_t a, uint64x1_t b, __constrange(0,63) int c); // VSLI.64 d0,d0,#0 -poly8x8_t vsli_n_p8(poly8x8_t a, poly8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -poly16x4_t vsli_n_p16(poly16x4_t a, poly16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -int8x16_t vsliq_n_s8(int8x16_t a, int8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -int16x8_t vsliq_n_s16(int16x8_t a, int16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -int32x4_t vsliq_n_s32(int32x4_t a, int32x4_t b, __constrange(0,31) int c); // VSLI.32 q0,q0,#0 -int64x2_t vsliq_n_s64(int64x2_t a, int64x2_t b, __constrange(0,63) int c); // VSLI.64 q0,q0,#0 -uint8x16_t vsliq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -uint16x8_t vsliq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -uint32x4_t vsliq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(0,31) int c); // VSLI.32 q0,q0,#0 -uint64x2_t vsliq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(0,63) int c); // VSLI.64 q0,q0,#0 -poly8x16_t vsliq_n_p8(poly8x16_t a, poly8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -poly16x8_t vsliq_n_p16(poly16x8_t a, poly16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -//Loads of a single vector or lane. Perform loads and stores of a single vector of some type. -//Load a single vector from memory -uint8x16_t vld1q_u8(__transfersize(16) uint8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -uint16x8_t vld1q_u16(__transfersize(8) uint16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -uint32x4_t vld1q_u32(__transfersize(4) uint32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -uint64x2_t vld1q_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -int8x16_t vld1q_s8(__transfersize(16) int8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -int16x8_t vld1q_s16(__transfersize(8) int16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -int32x4_t vld1q_s32(__transfersize(4) int32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -int64x2_t vld1q_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -float16x8_t vld1q_f16(__transfersize(8) __fp16 const * ptr); // VLD1.16 {d0, d1}, [r0] -float32x4_t vld1q_f32(__transfersize(4) float32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -poly8x16_t vld1q_p8(__transfersize(16) poly8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -poly16x8_t vld1q_p16(__transfersize(8) poly16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -uint8x8_t vld1_u8(__transfersize(8) uint8_t const * ptr); // VLD1.8 {d0}, [r0] -uint16x4_t vld1_u16(__transfersize(4) uint16_t const * ptr); // VLD1.16 {d0}, [r0] -uint32x2_t vld1_u32(__transfersize(2) uint32_t const * ptr); // VLD1.32 {d0}, [r0] -uint64x1_t vld1_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -int8x8_t vld1_s8(__transfersize(8) int8_t const * ptr); // VLD1.8 {d0}, [r0] -int16x4_t vld1_s16(__transfersize(4) int16_t const * ptr); // VLD1.16 {d0}, [r0] -int32x2_t vld1_s32(__transfersize(2) int32_t const * ptr); // VLD1.32 {d0}, [r0] -int64x1_t vld1_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -float16x4_t vld1_f16(__transfersize(4) __fp16 const * ptr); // VLD1.16 {d0}, [r0] -float32x2_t vld1_f32(__transfersize(2) float32_t const * ptr); // VLD1.32 {d0}, [r0] -poly8x8_t vld1_p8(__transfersize(8) poly8_t const * ptr); // VLD1.8 {d0}, [r0] -poly16x4_t vld1_p16(__transfersize(4) poly16_t const * ptr); // VLD1.16 {d0}, [r0] -//Load a single lane from memory -uint8x16_t vld1q_lane_u8(__transfersize(1) uint8_t const * ptr, uint8x16_t vec, __constrange(0,15) int lane); //VLD1.8 {d0[0]}, [r0] -uint16x8_t vld1q_lane_u16(__transfersize(1) uint16_t const * ptr, uint16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -uint32x4_t vld1q_lane_u32(__transfersize(1) uint32_t const * ptr, uint32x4_t vec, __constrange(0,3) int lane); // VLD1.32 {d0[0]}, [r0] -uint64x2_t vld1q_lane_u64(__transfersize(1) uint64_t const * ptr, uint64x2_t vec, __constrange(0,1) int lane); // VLD1.64 {d0}, [r0] -int8x16_t vld1q_lane_s8(__transfersize(1) int8_t const * ptr, int8x16_t vec, __constrange(0,15) int lane); //VLD1.8 {d0[0]}, [r0] -int16x8_t vld1q_lane_s16(__transfersize(1) int16_t const * ptr, int16x8_t vec, __constrange(0,7) int lane); //VLD1.16 {d0[0]}, [r0] -int32x4_t vld1q_lane_s32(__transfersize(1) int32_t const * ptr, int32x4_t vec, __constrange(0,3) int lane); //VLD1.32 {d0[0]}, [r0] -float16x8_t vld1q_lane_f16(__transfersize(1) __fp16 const * ptr, float16x8_t vec, __constrange(0,7) int lane); //VLD1.16 {d0[0]}, [r0] -float32x4_t vld1q_lane_f32(__transfersize(1) float32_t const * ptr, float32x4_t vec, __constrange(0,3) int lane); // VLD1.32 {d0[0]}, [r0] -int64x2_t vld1q_lane_s64(__transfersize(1) int64_t const * ptr, int64x2_t vec, __constrange(0,1) int lane); //VLD1.64 {d0}, [r0] -poly8x16_t vld1q_lane_p8(__transfersize(1) poly8_t const * ptr, poly8x16_t vec, __constrange(0,15) int lane); //VLD1.8 {d0[0]}, [r0] -poly16x8_t vld1q_lane_p16(__transfersize(1) poly16_t const * ptr, poly16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -uint8x8_t vld1_lane_u8(__transfersize(1) uint8_t const * ptr, uint8x8_t vec, __constrange(0,7) int lane); //VLD1.8 {d0[0]}, [r0] -uint16x4_t vld1_lane_u16(__transfersize(1) uint16_t const * ptr, uint16x4_t vec, __constrange(0,3) int lane); //VLD1.16 {d0[0]}, [r0] -uint32x2_t vld1_lane_u32(__transfersize(1) uint32_t const * ptr, uint32x2_t vec, __constrange(0,1) int lane); //VLD1.32 {d0[0]}, [r0] -uint64x1_t vld1_lane_u64(__transfersize(1) uint64_t const * ptr, uint64x1_t vec, __constrange(0,0) int lane); //VLD1.64 {d0}, [r0] -int8x8_t vld1_lane_s8(__transfersize(1) int8_t const * ptr, int8x8_t vec, __constrange(0,7) int lane); // VLD1.8{d0[0]}, [r0] -int16x4_t vld1_lane_s16(__transfersize(1) int16_t const * ptr, int16x4_t vec, __constrange(0,3) int lane); //VLD1.16 {d0[0]}, [r0] -int32x2_t vld1_lane_s32(__transfersize(1) int32_t const * ptr, int32x2_t vec, __constrange(0,1) int lane); //VLD1.32 {d0[0]}, [r0] -float16x4_t vld1q_lane_f16(__transfersize(1) __fp16 const * ptr, float16x4_t vec, __constrange(0,3) int lane); //VLD1.16 {d0[0]}, [r0] -float32x2_t vld1_lane_f32(__transfersize(1) float32_t const * ptr, float32x2_t vec, __constrange(0,1) int lane); // VLD1.32 {d0[0]}, [r0] -int64x1_t vld1_lane_s64(__transfersize(1) int64_t const * ptr, int64x1_t vec, __constrange(0,0) int lane); //VLD1.64 {d0}, [r0] -poly8x8_t vld1_lane_p8(__transfersize(1) poly8_t const * ptr, poly8x8_t vec, __constrange(0,7) int lane); //VLD1.8 {d0[0]}, [r0] -poly16x4_t vld1_lane_p16(__transfersize(1) poly16_t const * ptr, poly16x4_t vec, __constrange(0,3) int lane); //VLD1.16 {d0[0]}, [r0] -//Load all lanes of vector with same value from memory -uint8x16_t vld1q_dup_u8(__transfersize(1) uint8_t const * ptr); // VLD1.8 {d0[]}, [r0] -uint16x8_t vld1q_dup_u16(__transfersize(1) uint16_t const * ptr); // VLD1.16 {d0[]}, [r0] -uint32x4_t vld1q_dup_u32(__transfersize(1) uint32_t const * ptr); // VLD1.32 {d0[]}, [r0] -uint64x2_t vld1q_dup_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -int8x16_t vld1q_dup_s8(__transfersize(1) int8_t const * ptr); // VLD1.8 {d0[]}, [r0] -int16x8_t vld1q_dup_s16(__transfersize(1) int16_t const * ptr); // VLD1.16 {d0[]}, [r0] -int32x4_t vld1q_dup_s32(__transfersize(1) int32_t const * ptr); // VLD1.32 {d0[]}, [r0] -int64x2_t vld1q_dup_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -float16x8_t vld1q_dup_f16(__transfersize(1) __fp16 const * ptr); // VLD1.16 {d0[]}, [r0] -float32x4_t vld1q_dup_f32(__transfersize(1) float32_t const * ptr); // VLD1.32 {d0[]}, [r0] -poly8x16_t vld1q_dup_p8(__transfersize(1) poly8_t const * ptr); // VLD1.8 {d0[]}, [r0] -poly16x8_t vld1q_dup_p16(__transfersize(1) poly16_t const * ptr); // VLD1.16 {d0[]}, [r0] -uint8x8_t vld1_dup_u8(__transfersize(1) uint8_t const * ptr); // VLD1.8 {d0[]}, [r0] -uint16x4_t vld1_dup_u16(__transfersize(1) uint16_t const * ptr); // VLD1.16 {d0[]}, [r0] -uint32x2_t vld1_dup_u32(__transfersize(1) uint32_t const * ptr); // VLD1.32 {d0[]}, [r0] -uint64x1_t vld1_dup_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -int8x8_t vld1_dup_s8(__transfersize(1) int8_t const * ptr); // VLD1.8 {d0[]}, [r0] -int16x4_t vld1_dup_s16(__transfersize(1) int16_t const * ptr); // VLD1.16 {d0[]}, [r0] -int32x2_t vld1_dup_s32(__transfersize(1) int32_t const * ptr); // VLD1.32 {d0[]}, [r0] -int64x1_t vld1_dup_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -float16x4_t vld1_dup_f16(__transfersize(1) __fp16 const * ptr); // VLD1.16 {d0[]}, [r0] -float32x2_t vld1_dup_f32(__transfersize(1) float32_t const * ptr); // VLD1.32 {d0[]}, [r0] -poly8x8_t vld1_dup_p8(__transfersize(1) poly8_t const * ptr); // VLD1.8 {d0[]}, [r0] -poly16x4_t vld1_dup_p16(__transfersize(1) poly16_t const * ptr); // VLD1.16 {d0[]}, [r0] -//Store a single vector or lane. Stores all lanes or a single lane of a vector. -//Store a single vector into memory -void vst1q_u8(__transfersize(16) uint8_t * ptr, uint8x16_t val); // VST1.8 {d0, d1}, [r0] -void vst1q_u16(__transfersize(8) uint16_t * ptr, uint16x8_t val); // VST1.16 {d0, d1}, [r0] -void vst1q_u32(__transfersize(4) uint32_t * ptr, uint32x4_t val); // VST1.32 {d0, d1}, [r0] -void vst1q_u64(__transfersize(2) uint64_t * ptr, uint64x2_t val); // VST1.64 {d0, d1}, [r0] -void vst1q_s8(__transfersize(16) int8_t * ptr, int8x16_t val); // VST1.8 {d0, d1}, [r0] -void vst1q_s16(__transfersize(8) int16_t * ptr, int16x8_t val); // VST1.16 {d0, d1}, [r0] -void vst1q_s32(__transfersize(4) int32_t * ptr, int32x4_t val); // VST1.32 {d0, d1}, [r0] -void vst1q_s64(__transfersize(2) int64_t * ptr, int64x2_t val); // VST1.64 {d0, d1}, [r0] -void vst1q_f16(__transfersize(8) __fp16 * ptr, float16x8_t val); // VST1.16 {d0, d1}, [r0] -void vst1q_f32(__transfersize(4) float32_t * ptr, float32x4_t val); // VST1.32 {d0, d1}, [r0] -void vst1q_p8(__transfersize(16) poly8_t * ptr, poly8x16_t val); // VST1.8 {d0, d1}, [r0] -void vst1q_p16(__transfersize(8) poly16_t * ptr, poly16x8_t val); // VST1.16 {d0, d1}, [r0] -void vst1_u8(__transfersize(8) uint8_t * ptr, uint8x8_t val); // VST1.8 {d0}, [r0] -void vst1_u16(__transfersize(4) uint16_t * ptr, uint16x4_t val); // VST1.16 {d0}, [r0] -void vst1_u32(__transfersize(2) uint32_t * ptr, uint32x2_t val); // VST1.32 {d0}, [r0] -void vst1_u64(__transfersize(1) uint64_t * ptr, uint64x1_t val); // VST1.64 {d0}, [r0] -void vst1_s8(__transfersize(8) int8_t * ptr, int8x8_t val); // VST1.8 {d0}, [r0] -void vst1_s16(__transfersize(4) int16_t * ptr, int16x4_t val); // VST1.16 {d0}, [r0] -void vst1_s32(__transfersize(2) int32_t * ptr, int32x2_t val); // VST1.32 {d0}, [r0] -void vst1_s64(__transfersize(1) int64_t * ptr, int64x1_t val); // VST1.64 {d0}, [r0] -void vst1_f16(__transfersize(4) __fp16 * ptr, float16x4_t val); // VST1.16 {d0}, [r0] -void vst1_f32(__transfersize(2) float32_t * ptr, float32x2_t val); // VST1.32 {d0}, [r0] -void vst1_p8(__transfersize(8) poly8_t * ptr, poly8x8_t val); // VST1.8 {d0}, [r0] -void vst1_p16(__transfersize(4) poly16_t * ptr, poly16x4_t val); // VST1.16 {d0}, [r0] -//Store a lane of a vector into memory -//Loads of an N-element structure -//Load N-element structure from memory -uint8x16x2_t vld2q_u8(__transfersize(32) uint8_t const * ptr); // VLD2.8 {d0, d2}, [r0] -uint16x8x2_t vld2q_u16(__transfersize(16) uint16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -uint32x4x2_t vld2q_u32(__transfersize(8) uint32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -int8x16x2_t vld2q_s8(__transfersize(32) int8_t const * ptr); // VLD2.8 {d0, d2}, [r0] -int16x8x2_t vld2q_s16(__transfersize(16) int16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -int32x4x2_t vld2q_s32(__transfersize(8) int32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -float16x8x2_t vld2q_f16(__transfersize(16) __fp16 const * ptr); // VLD2.16 {d0, d2}, [r0] -float32x4x2_t vld2q_f32(__transfersize(8) float32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -poly8x16x2_t vld2q_p8(__transfersize(32) poly8_t const * ptr); // VLD2.8 {d0, d2}, [r0] -poly16x8x2_t vld2q_p16(__transfersize(16) poly16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -uint8x8x2_t vld2_u8(__transfersize(16) uint8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -uint16x4x2_t vld2_u16(__transfersize(8) uint16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -uint32x2x2_t vld2_u32(__transfersize(4) uint32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -uint64x1x2_t vld2_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -int8x8x2_t vld2_s8(__transfersize(16) int8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -int16x4x2_t vld2_s16(__transfersize(8) int16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -int32x2x2_t vld2_s32(__transfersize(4) int32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -int64x1x2_t vld2_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -//float16x4x2_t vld2_f16(__transfersize(8) __fp16 const * ptr); // VLD2.16 {d0, d1}, [r0] -float32x2x2_t vld2_f32(__transfersize(4) float32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -poly8x8x2_t vld2_p8(__transfersize(16) poly8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -poly16x4x2_t vld2_p16(__transfersize(8) poly16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -uint8x16x3_t vld3q_u8(__transfersize(48) uint8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -uint16x8x3_t vld3q_u16(__transfersize(24) uint16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -uint32x4x3_t vld3q_u32(__transfersize(12) uint32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -int8x16x3_t vld3q_s8(__transfersize(48) int8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -int16x8x3_t vld3q_s16(__transfersize(24) int16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -int32x4x3_t vld3q_s32(__transfersize(12) int32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -float16x8x3_t vld3q_f16(__transfersize(24) __fp16 const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -float32x4x3_t vld3q_f32(__transfersize(12) float32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -poly8x16x3_t vld3q_p8(__transfersize(48) poly8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -poly16x8x3_t vld3q_p16(__transfersize(24) poly16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -uint8x8x3_t vld3_u8(__transfersize(24) uint8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -uint16x4x3_t vld3_u16(__transfersize(12) uint16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -uint32x2x3_t vld3_u32(__transfersize(6) uint32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -uint64x1x3_t vld3_u64(__transfersize(3) uint64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -int8x8x3_t vld3_s8(__transfersize(24) int8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -int16x4x3_t vld3_s16(__transfersize(12) int16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -int32x2x3_t vld3_s32(__transfersize(6) int32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -int64x1x3_t vld3_s64(__transfersize(3) int64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -float16x4x3_t vld3_f16(__transfersize(12) __fp16 const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -float32x2x3_t vld3_f32(__transfersize(6) float32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -poly8x8x3_t vld3_p8(__transfersize(24) poly8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -poly16x4x3_t vld3_p16(__transfersize(12) poly16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -uint8x16x4_t vld4q_u8(__transfersize(64) uint8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -uint16x8x4_t vld4q_u16(__transfersize(32) uint16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -uint32x4x4_t vld4q_u32(__transfersize(16) uint32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -int8x16x4_t vld4q_s8(__transfersize(64) int8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -int16x8x4_t vld4q_s16(__transfersize(32) int16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -int32x4x4_t vld4q_s32(__transfersize(16) int32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -float16x8x4_t vld4q_f16(__transfersize(32) __fp16 const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -float32x4x4_t vld4q_f32(__transfersize(16) float32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -poly8x16x4_t vld4q_p8(__transfersize(64) poly8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -poly16x8x4_t vld4q_p16(__transfersize(32) poly16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -uint8x8x4_t vld4_u8(__transfersize(32) uint8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -uint16x4x4_t vld4_u16(__transfersize(16) uint16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -uint32x2x4_t vld4_u32(__transfersize(8) uint32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -uint64x1x4_t vld4_u64(__transfersize(4) uint64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -int8x8x4_t vld4_s8(__transfersize(32) int8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -int16x4x4_t vld4_s16(__transfersize(16) int16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -int32x2x4_t vld4_s32(__transfersize(8) int32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -int64x1x4_t vld4_s64(__transfersize(4) int64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -float16x4x4_t vld4_f16(__transfersize(16) __fp16 const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -float32x2x4_t vld4_f32(__transfersize(8) float32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -poly8x8x4_t vld4_p8(__transfersize(32) poly8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -poly16x4x4_t vld4_p16(__transfersize(16) poly16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -//Load all lanes of N-element structure with same value from memory -uint8x8x2_t vld2_dup_u8(__transfersize(2) uint8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -uint16x4x2_t vld2_dup_u16(__transfersize(2) uint16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -uint32x2x2_t vld2_dup_u32(__transfersize(2) uint32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -uint64x1x2_t vld2_dup_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -int8x8x2_t vld2_dup_s8(__transfersize(2) int8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -int16x4x2_t vld2_dup_s16(__transfersize(2) int16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -int32x2x2_t vld2_dup_s32(__transfersize(2) int32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -int64x1x2_t vld2_dup_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -//float16x4x2_t vld2_dup_f16(__transfersize(2) __fp16 const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -float32x2x2_t vld2_dup_f32(__transfersize(2) float32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -poly8x8x2_t vld2_dup_p8(__transfersize(2) poly8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -poly16x4x2_t vld2_dup_p16(__transfersize(2) poly16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -uint8x8x3_t vld3_dup_u8(__transfersize(3) uint8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -uint16x4x3_t vld3_dup_u16(__transfersize(3) uint16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -uint32x2x3_t vld3_dup_u32(__transfersize(3) uint32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -uint64x1x3_t vld3_dup_u64(__transfersize(3) uint64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -int8x8x3_t vld3_dup_s8(__transfersize(3) int8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -int16x4x3_t vld3_dup_s16(__transfersize(3) int16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -int32x2x3_t vld3_dup_s32(__transfersize(3) int32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -int64x1x3_t vld3_dup_s64(__transfersize(3) int64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -float16x4x3_t vld3_dup_f16(__transfersize(3) __fp16 const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -float32x2x3_t vld3_dup_f32(__transfersize(3) float32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -poly8x8x3_t vld3_dup_p8(__transfersize(3) poly8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -poly16x4x3_t vld3_dup_p16(__transfersize(3) poly16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -uint8x8x4_t vld4_dup_u8(__transfersize(4) uint8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -uint16x4x4_t vld4_dup_u16(__transfersize(4) uint16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -uint32x2x4_t vld4_dup_u32(__transfersize(4) uint32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -uint64x1x4_t vld4_dup_u64(__transfersize(4) uint64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -int8x8x4_t vld4_dup_s8(__transfersize(4) int8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -int16x4x4_t vld4_dup_s16(__transfersize(4) int16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -int32x2x4_t vld4_dup_s32(__transfersize(4) int32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -int64x1x4_t vld4_dup_s64(__transfersize(4) int64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -float16x4x4_t vld4_dup_f16(__transfersize(4) __fp16 const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -float32x2x4_t vld4_dup_f32(__transfersize(4) float32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -poly8x8x4_t vld4_dup_p8(__transfersize(4) poly8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -poly16x4x4_t vld4_dup_p16(__transfersize(4) poly16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -//Load a single lane of N-element structure from memory -//the functions below are modified to deal with the error C2719: 'src': formal parameter with __declspec(align('16')) won't be aligned -uint16x8x2_t vld2q_lane_u16_ptr(__transfersize(2) uint16_t const * ptr, uint16x8x2_t * src, __constrange(0,7) int lane); // VLD2.16 {d0[0], d2[0]}, [r0] -uint32x4x2_t vld2q_lane_u32_ptr(__transfersize(2) uint32_t const * ptr, uint32x4x2_t * src, __constrange(0,3) int lane); // VLD2.32 {d0[0], d2[0]}, [r0] -int16x8x2_t vld2q_lane_s16_ptr(__transfersize(2) int16_t const * ptr, int16x8x2_t * src, __constrange(0,7) int lane); // VLD2.16 {d0[0], d2[0]}, [r0] -int32x4x2_t vld2q_lane_s32_ptr(__transfersize(2) int32_t const * ptr, int32x4x2_t * src, __constrange(0,3) int lane); // VLD2.32 {d0[0], d2[0]}, [r0] -float16x8x2_t vld2q_lane_f16_ptr(__transfersize(2) __fp16 const * ptr, float16x8x2_t * src, __constrange(0,7) int lane); // VLD2.16 {d0[0], d2[0]}, [r0] -float32x4x2_t vld2q_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x4x2_t * src, __constrange(0,3) int lane); // VLD2.32 {d0[0], d2[0]}, [r0] -poly16x8x2_t vld2q_lane_p16_ptr(__transfersize(2) poly16_t const * ptr, poly16x8x2_t * src, __constrange(0,7) int lane); // VLD2.16 {d0[0], d2[0]}, [r0] -uint8x8x2_t vld2_lane_u8_ptr(__transfersize(2) uint8_t const * ptr, uint8x8x2_t * src, __constrange(0,7) int lane); //VLD2.8 {d0[0], d1[0]}, [r0] -uint16x4x2_t vld2_lane_u16_ptr(__transfersize(2) uint16_t const * ptr, uint16x4x2_t * src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -uint32x2x2_t vld2_lane_u32_ptr(__transfersize(2) uint32_t const * ptr, uint32x2x2_t * src, __constrange(0,1) int lane); // VLD2.32 {d0[0], d1[0]}, [r0] -int8x8x2_t vld2_lane_s8_ptr(__transfersize(2) int8_t const * ptr, int8x8x2_t * src, __constrange(0,7) int lane); //VLD2.8 {d0[0], d1[0]}, [r0] -int16x4x2_t vld2_lane_s16_ptr(__transfersize(2) int16_t const * ptr, int16x4x2_t * src, __constrange(0,3) int lane); //VLD2.16 {d0[0], d1[0]}, [r0] -int32x2x2_t vld2_lane_s32_ptr(__transfersize(2) int32_t const * ptr, int32x2x2_t * src, __constrange(0,1) int lane); //VLD2.32 {d0[0], d1[0]}, [r0] -//float16x4x2_t vld2_lane_f16_ptr(__transfersize(2) __fp16 const * ptr, float16x4x2_t * src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -float32x2x2_t vld2_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x2x2_t * src, __constrange(0,1) int lane); // VLD2.32 {d0[0], d1[0]}, [r0] -poly8x8x2_t vld2_lane_p8_ptr(__transfersize(2) poly8_t const * ptr, poly8x8x2_t * src, __constrange(0,7) int lane); //VLD2.8 {d0[0], d1[0]}, [r0] -poly16x4x2_t vld2_lane_p16_ptr(__transfersize(2) poly16_t const * ptr, poly16x4x2_t * src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -uint16x8x3_t vld3q_lane_u16_ptr(__transfersize(3) uint16_t const * ptr, uint16x8x3_t * src, __constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -uint32x4x3_t vld3q_lane_u32_ptr(__transfersize(3) uint32_t const * ptr, uint32x4x3_t * src, __constrange(0,3) int lane); // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -int16x8x3_t vld3q_lane_s16_ptr(__transfersize(3) int16_t const * ptr, int16x8x3_t * src, __constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -int32x4x3_t vld3q_lane_s32_ptr(__transfersize(3) int32_t const * ptr, int32x4x3_t * src, __constrange(0,3) int lane); // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -float16x8x3_t vld3q_lane_f16_ptr(__transfersize(3) __fp16 const * ptr, float16x8x3_t * src, __constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -float32x4x3_t vld3q_lane_f32_ptr(__transfersize(3) float32_t const * ptr, float32x4x3_t * src, __constrange(0,3) int lane); // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -poly16x8x3_t vld3q_lane_p16_ptr(__transfersize(3) poly16_t const * ptr, poly16x8x3_t * src, __constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -uint8x8x3_t vld3_lane_u8_ptr(__transfersize(3) uint8_t const * ptr, uint8x8x3_t * src, __constrange(0,7) int lane); //VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -uint16x4x3_t vld3_lane_u16_ptr(__transfersize(3) uint16_t const * ptr, uint16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -uint32x2x3_t vld3_lane_u32_ptr(__transfersize(3) uint32_t const * ptr, uint32x2x3_t * src, __constrange(0,1) int lane); // VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -int8x8x3_t vld3_lane_s8_ptr(__transfersize(3) int8_t const * ptr, int8x8x3_t * src, __constrange(0,7) int lane); //VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -int16x4x3_t vld3_lane_s16_ptr(__transfersize(3) int16_t const * ptr, int16x4x3_t * src, __constrange(0,3) int lane); //VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -int32x2x3_t vld3_lane_s32_ptr(__transfersize(3) int32_t const * ptr, int32x2x3_t * src, __constrange(0,1) int lane); //VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -float16x4x3_t vld3_lane_f16_ptr(__transfersize(3) __fp16 const * ptr, float16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -float32x2x3_t vld3_lane_f32_ptr(__transfersize(3) float32_t const * ptr, float32x2x3_t * src, __constrange(0,1) int lane); // VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -poly8x8x3_t vld3_lane_p8_ptr(__transfersize(3) poly8_t const * ptr, poly8x8x3_t * src, __constrange(0,7) int lane); //VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -poly16x4x3_t vld3_lane_p16_ptr(__transfersize(3) poly16_t const * ptr, poly16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -uint16x8x4_t vld4q_lane_u16_ptr(__transfersize(4) uint16_t const * ptr, uint16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -uint32x4x4_t vld4q_lane_u32_ptr(__transfersize(4) uint32_t const * ptr, uint32x4x4_t * src, __constrange(0,3) int lane); // VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -int16x8x4_t vld4q_lane_s16_ptr(__transfersize(4) int16_t const * ptr, int16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -int32x4x4_t vld4q_lane_s32_ptr(__transfersize(4) int32_t const * ptr, int32x4x4_t * src, __constrange(0,3) int lane); // VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -float16x8x4_t vld4q_lane_f16_ptr(__transfersize(4) __fp16 const * ptr, float16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -float32x4x4_t vld4q_lane_f32_ptr(__transfersize(4) float32_t const * ptr, float32x4x4_t * src, __constrange(0,3) int lane); // VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -poly16x8x4_t vld4q_lane_p16_ptr(__transfersize(4) poly16_t const * ptr, poly16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -uint8x8x4_t vld4_lane_u8_ptr(__transfersize(4) uint8_t const * ptr, uint8x8x4_t * src, __constrange(0,7) int lane); //VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -uint16x4x4_t vld4_lane_u16_ptr(__transfersize(4) uint16_t const * ptr, uint16x4x4_t * src, __constrange(0,3) int lane); // VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -uint32x2x4_t vld4_lane_u32_ptr(__transfersize(4) uint32_t const * ptr, uint32x2x4_t * src, __constrange(0,1) int lane); // VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int8x8x4_t vld4_lane_s8_ptr(__transfersize(4) int8_t const * ptr, int8x8x4_t * src, __constrange(0,7) int lane); //VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int16x4x4_t vld4_lane_s16_ptr(__transfersize(4) int16_t const * ptr, int16x4x4_t * src, __constrange(0,3) int lane); //VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int32x2x4_t vld4_lane_s32_ptr(__transfersize(4) int32_t const * ptr, int32x2x4_t * src, __constrange(0,1) int lane); //VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -float16x4x4_t vld4_lane_f16_ptr(__transfersize(4) __fp16 const * ptr, float16x4x4_t * src, __constrange(0,3) int lane); // VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -float32x2x4_t vld4_lane_f32_ptr(__transfersize(4) float32_t const * ptr, float32x2x4_t * src, __constrange(0,1) int lane); // VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -poly8x8x4_t vld4_lane_p8_ptr(__transfersize(4) poly8_t const * ptr, poly8x8x4_t * src, __constrange(0,7) int lane); //VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -poly16x4x4_t vld4_lane_p16_ptr(__transfersize(4) poly16_t const * ptr, poly16x4x4_t * src, __constrange(0,3) int lane); // VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -//Store N-element structure to memory -void vst2q_u8_ptr(__transfersize(32) uint8_t * ptr, uint8x16x2_t * val); // VST2.8 {d0, d2}, [r0] -void vst2q_u16_ptr(__transfersize(16) uint16_t * ptr, uint16x8x2_t * val); // VST2.16 {d0, d2}, [r0] -void vst2q_u32_ptr(__transfersize(8) uint32_t * ptr, uint32x4x2_t * val); // VST2.32 {d0, d2}, [r0] -void vst2q_s8_ptr(__transfersize(32) int8_t * ptr, int8x16x2_t * val); // VST2.8 {d0, d2}, [r0] -void vst2q_s16_ptr(__transfersize(16) int16_t * ptr, int16x8x2_t * val); // VST2.16 {d0, d2}, [r0] -void vst2q_s32_ptr(__transfersize(8) int32_t * ptr, int32x4x2_t * val); // VST2.32 {d0, d2}, [r0] -void vst2q_f16_ptr(__transfersize(16) __fp16 * ptr, float16x8x2_t * val); // VST2.16 {d0, d2}, [r0] -void vst2q_f32_ptr(__transfersize(8) float32_t * ptr, float32x4x2_t * val); // VST2.32 {d0, d2}, [r0] -void vst2q_p8_ptr(__transfersize(32) poly8_t * ptr, poly8x16x2_t * val); // VST2.8 {d0, d2}, [r0] -void vst2q_p16_ptr(__transfersize(16) poly16_t * ptr, poly16x8x2_t * val); // VST2.16 {d0, d2}, [r0] -void vst2_u8_ptr(__transfersize(16) uint8_t * ptr, uint8x8x2_t * val); // VST2.8 {d0, d1}, [r0] -void vst2_u16_ptr(__transfersize(8) uint16_t * ptr, uint16x4x2_t * val); // VST2.16 {d0, d1}, [r0] -void vst2_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x2x2_t * val); // VST2.32 {d0, d1}, [r0] -void vst2_u64_ptr(__transfersize(2) uint64_t * ptr, uint64x1x2_t * val); // VST1.64 {d0, d1}, [r0] -void vst2_s8_ptr(__transfersize(16) int8_t * ptr, int8x8x2_t * val); // VST2.8 {d0, d1}, [r0] -void vst2_s16_ptr(__transfersize(8) int16_t * ptr, int16x4x2_t * val); // VST2.16 {d0, d1}, [r0] -void vst2_s32_ptr(__transfersize(4) int32_t * ptr, int32x2x2_t * val); // VST2.32 {d0, d1}, [r0] -void vst2_s64_ptr(__transfersize(2) int64_t * ptr, int64x1x2_t * val); // VST1.64 {d0, d1}, [r0] -//void vst2_f16_ptr(__transfersize(8) __fp16 * ptr, float16x4x2_t * val); // VST2.16 {d0, d1}, [r0] -void vst2_f32_ptr(__transfersize(4) float32_t * ptr, float32x2x2_t * val); // VST2.32 {d0, d1}, [r0] -void vst2_p8_ptr(__transfersize(16) poly8_t * ptr, poly8x8x2_t * val); // VST2.8 {d0, d1}, [r0] -void vst2_p16_ptr(__transfersize(8) poly16_t * ptr, poly16x4x2_t * val); // VST2.16 {d0, d1}, [r0] -void vst3q_u8_ptr(__transfersize(48) uint8_t * ptr, uint8x16x3_t * val); // VST3.8 {d0, d2, d4}, [r0] -void vst3q_u16_ptr(__transfersize(24) uint16_t * ptr, uint16x8x3_t * val); // VST3.16 {d0, d2, d4}, [r0] -void vst3q_u32_ptr(__transfersize(12) uint32_t * ptr, uint32x4x3_t * val); // VST3.32 {d0, d2, d4}, [r0] -void vst3q_s8_ptr(__transfersize(48) int8_t * ptr, int8x16x3_t * val); // VST3.8 {d0, d2, d4}, [r0] -void vst3q_s16_ptr(__transfersize(24) int16_t * ptr, int16x8x3_t * val); // VST3.16 {d0, d2, d4}, [r0] -void vst3q_s32_ptr(__transfersize(12) int32_t * ptr, int32x4x3_t * val); // VST3.32 {d0, d2, d4}, [r0] -void vst3q_f16_ptr(__transfersize(24) __fp16 * ptr, float16x8x3_t * val); // VST3.16 {d0, d2, d4}, [r0] -void vst3q_f32_ptr(__transfersize(12) float32_t * ptr, float32x4x3_t * val); // VST3.32 {d0, d2, d4}, [r0] -void vst3q_p8_ptr(__transfersize(48) poly8_t * ptr, poly8x16x3_t * val); // VST3.8 {d0, d2, d4}, [r0] -void vst3q_p16_ptr(__transfersize(24) poly16_t * ptr, poly16x8x3_t * val); // VST3.16 {d0, d2, d4}, [r0] -void vst3_u8_ptr(__transfersize(24) uint8_t * ptr, uint8x8x3_t * val); // VST3.8 {d0, d1, d2}, [r0] -void vst3_u16_ptr(__transfersize(12) uint16_t * ptr, uint16x4x3_t * val); // VST3.16 {d0, d1, d2}, [r0] -void vst3_u32_ptr(__transfersize(6) uint32_t * ptr, uint32x2x3_t * val); // VST3.32 {d0, d1, d2}, [r0] -void vst3_u64_ptr(__transfersize(3) uint64_t * ptr, uint64x1x3_t * val); // VST1.64 {d0, d1, d2}, [r0] -void vst3_s8_ptr(__transfersize(24) int8_t * ptr, int8x8x3_t * val); // VST3.8 {d0, d1, d2}, [r0] -void vst3_s16_ptr(__transfersize(12) int16_t * ptr, int16x4x3_t * val); // VST3.16 {d0, d1, d2}, [r0] -void vst3_s32_ptr(__transfersize(6) int32_t * ptr, int32x2x3_t * val); // VST3.32 {d0, d1, d2}, [r0] -void vst3_s64_ptr(__transfersize(3) int64_t * ptr, int64x1x3_t * val); // VST1.64 {d0, d1, d2}, [r0] -void vst3_f16_ptr(__transfersize(12) __fp16 * ptr, float16x4x3_t * val); // VST3.16 {d0, d1, d2}, [r0] -void vst3_f32_ptr(__transfersize(6) float32_t * ptr, float32x2x3_t * val); // VST3.32 {d0, d1, d2}, [r0] -void vst3_p8_ptr(__transfersize(24) poly8_t * ptr, poly8x8x3_t * val); // VST3.8 {d0, d1, d2}, [r0] -void vst3_p16_ptr(__transfersize(12) poly16_t * ptr, poly16x4x3_t * val); // VST3.16 {d0, d1, d2}, [r0] -void vst4q_u8_ptr(__transfersize(64) uint8_t * ptr, uint8x16x4_t * val); // VST4.8 {d0, d2, d4, d6}, [r0] -void vst4q_u16_ptr(__transfersize(32) uint16_t * ptr, uint16x8x4_t * val); // VST4.16 {d0, d2, d4, d6}, [r0] -void vst4q_u32_ptr(__transfersize(16) uint32_t * ptr, uint32x4x4_t * val); // VST4.32 {d0, d2, d4, d6}, [r0] -void vst4q_s8_ptr(__transfersize(64) int8_t * ptr, int8x16x4_t * val); // VST4.8 {d0, d2, d4, d6}, [r0] -void vst4q_s16_ptr(__transfersize(32) int16_t * ptr, int16x8x4_t * val); // VST4.16 {d0, d2, d4, d6}, [r0] -void vst4q_s32_ptr(__transfersize(16) int32_t * ptr, int32x4x4_t * val); // VST4.32 {d0, d2, d4, d6}, [r0] -void vst4q_f16_ptr(__transfersize(32) __fp16 * ptr, float16x8x4_t * val); // VST4.16 {d0, d2, d4, d6}, [r0] -void vst4q_f32_ptr(__transfersize(16) float32_t * ptr, float32x4x4_t * val); // VST4.32 {d0, d2, d4, d6}, [r0] -void vst4q_p8_ptr(__transfersize(64) poly8_t * ptr, poly8x16x4_t * val); // VST4.8 {d0, d2, d4, d6}, [r0] -void vst4q_p16_ptr(__transfersize(32) poly16_t * ptr, poly16x8x4_t * val); // VST4.16 {d0, d2, d4, d6}, [r0] -void vst4_u8_ptr(__transfersize(32) uint8_t * ptr, uint8x8x4_t * val); // VST4.8 {d0, d1, d2, d3}, [r0] -void vst4_u16_ptr(__transfersize(16) uint16_t * ptr, uint16x4x4_t * val); // VST4.16 {d0, d1, d2, d3}, [r0] -void vst4_u32_ptr(__transfersize(8) uint32_t * ptr, uint32x2x4_t * val); // VST4.32 {d0, d1, d2, d3}, [r0] -void vst4_u64_ptr(__transfersize(4) uint64_t * ptr, uint64x1x4_t * val); // VST1.64 {d0, d1, d2, d3}, [r0] -void vst4_s8_ptr(__transfersize(32) int8_t * ptr, int8x8x4_t * val); // VST4.8 {d0, d1, d2, d3}, [r0] -void vst4_s16_ptr(__transfersize(16) int16_t * ptr, int16x4x4_t * val); // VST4.16 {d0, d1, d2, d3}, [r0] -void vst4_s32_ptr(__transfersize(8) int32_t * ptr, int32x2x4_t * val); // VST4.32 {d0, d1, d2, d3}, [r0] -void vst4_s64_ptr(__transfersize(4) int64_t * ptr, int64x1x4_t * val); // VST1.64 {d0, d1, d2, d3}, [r0] -void vst4_f16_ptr(__transfersize(16) __fp16 * ptr, float16x4x4_t * val); // VST4.16 {d0, d1, d2, d3}, [r0] -void vst4_f32_ptr(__transfersize(8) float32_t * ptr, float32x2x4_t * val); // VST4.32 {d0, d1, d2, d3}, [r0] -void vst4_p8_ptr(__transfersize(32) poly8_t * ptr, poly8x8x4_t * val); // VST4.8 {d0, d1, d2, d3}, [r0] -void vst4_p16_ptr(__transfersize(16) poly16_t * ptr, poly16x4x4_t * val); // VST4.16 {d0, d1, d2, d3}, [r0] -//Store a single lane of N-element structure to memory -void vst2q_lane_u16_ptr(__transfersize(2) uint16_t * ptr, uint16x8x2_t * val, __constrange(0,7) int lane); // VST2.16{d0[0], d2[0]}, [r0] -void vst2q_lane_u32_ptr(__transfersize(2) uint32_t * ptr, uint32x4x2_t * val, __constrange(0,3) int lane); // VST2.32{d0[0], d2[0]}, [r0] -void vst2q_lane_s16_ptr(__transfersize(2) int16_t * ptr, int16x8x2_t * val, __constrange(0,7) int lane); // VST2.16{d0[0], d2[0]}, [r0] -void vst2q_lane_s32_ptr(__transfersize(2) int32_t * ptr, int32x4x2_t * val, __constrange(0,3) int lane); // VST2.32{d0[0], d2[0]}, [r0] -void vst2q_lane_f16_ptr(__transfersize(2) __fp16 * ptr, float16x8x2_t * val, __constrange(0,7) int lane); // VST2.16{d0[0], d2[0]}, [r0] -void vst2q_lane_f32_ptr(__transfersize(2) float32_t * ptr, float32x4x2_t * val, __constrange(0,3) int lane); //VST2.32 {d0[0], d2[0]}, [r0] -void vst2q_lane_p16_ptr(__transfersize(2) poly16_t * ptr, poly16x8x2_t * val, __constrange(0,7) int lane); // VST2.16{d0[0], d2[0]}, [r0] -void vst2_lane_u8_ptr(__transfersize(2) uint8_t * ptr, uint8x8x2_t * val, __constrange(0,7) int lane); // VST2.8{d0[0], d1[0]}, [r0] -void vst2_lane_u16_ptr(__transfersize(2) uint16_t * ptr, uint16x4x2_t * val, __constrange(0,3) int lane); // VST2.16{d0[0], d1[0]}, [r0] -void vst2_lane_u32_ptr(__transfersize(2) uint32_t * ptr, uint32x2x2_t * val, __constrange(0,1) int lane); // VST2.32{d0[0], d1[0]}, [r0] -void vst2_lane_s8_ptr(__transfersize(2) int8_t * ptr, int8x8x2_t * val, __constrange(0,7) int lane); // VST2.8 {d0[0],d1[0]}, [r0] -void vst2_lane_s16_ptr(__transfersize(2) int16_t * ptr, int16x4x2_t * val, __constrange(0,3) int lane); // VST2.16{d0[0], d1[0]}, [r0] -void vst2_lane_s32_ptr(__transfersize(2) int32_t * ptr, int32x2x2_t * val, __constrange(0,1) int lane); // VST2.32{d0[0], d1[0]}, [r0] -void vst2_lane_f16_ptr(__transfersize(2) __fp16 * ptr, float16x4x2_t * val, __constrange(0,3) int lane); // VST2.16{d0[0], d1[0]}, [r0] -void vst2_lane_f32_ptr(__transfersize(2) float32_t * ptr, float32x2x2_t * val, __constrange(0,1) int lane); // VST2.32{d0[0], d1[0]}, [r0] -void vst2_lane_p8_ptr(__transfersize(2) poly8_t * ptr, poly8x8x2_t * val, __constrange(0,7) int lane); // VST2.8{d0[0], d1[0]}, [r0] -void vst2_lane_p16_ptr(__transfersize(2) poly16_t * ptr, poly16x4x2_t * val, __constrange(0,3) int lane); // VST2.16{d0[0], d1[0]}, [r0] -void vst3q_lane_u16_ptr(__transfersize(3) uint16_t * ptr, uint16x8x3_t * val, __constrange(0,7) int lane); // VST3.16{d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_u32_ptr(__transfersize(3) uint32_t * ptr, uint32x4x3_t * val, __constrange(0,3) int lane); // VST3.32{d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_s16_ptr(__transfersize(3) int16_t * ptr, int16x8x3_t * val, __constrange(0,7) int lane); // VST3.16{d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_s32_ptr(__transfersize(3) int32_t * ptr, int32x4x3_t * val, __constrange(0,3) int lane); // VST3.32{d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_f16_ptr(__transfersize(3) __fp16 * ptr, float16x8x3_t * val, __constrange(0,7) int lane); // VST3.16{d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_f32_ptr(__transfersize(3) float32_t * ptr, float32x4x3_t * val, __constrange(0,3) int lane); //VST3.32 {d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_p16_ptr(__transfersize(3) poly16_t * ptr, poly16x8x3_t * val, __constrange(0,7) int lane); // VST3.16{d0[0], d2[0], d4[0]}, [r0] -void vst3_lane_u8_ptr(__transfersize(3) uint8_t * ptr, uint8x8x3_t * val, __constrange(0,7) int lane); // VST3.8{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_u16_ptr(__transfersize(3) uint16_t * ptr, uint16x4x3_t * val, __constrange(0,3) int lane); // VST3.16{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_u32_ptr(__transfersize(3) uint32_t * ptr, uint32x2x3_t * val, __constrange(0,1) int lane); // VST3.32{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_s8_ptr(__transfersize(3) int8_t * ptr, int8x8x3_t * val, __constrange(0,7) int lane); // VST3.8 {d0[0],d1[0], d2[0]}, [r0] -void vst3_lane_s16_ptr(__transfersize(3) int16_t * ptr, int16x4x3_t * val, __constrange(0,3) int lane); // VST3.16{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_s32_ptr(__transfersize(3) int32_t * ptr, int32x2x3_t * val, __constrange(0,1) int lane); // VST3.32{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_f16_ptr(__transfersize(3) __fp16 * ptr, float16x4x3_t * val, __constrange(0,3) int lane); // VST3.16{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_f32_ptr(__transfersize(3) float32_t * ptr, float32x2x3_t * val, __constrange(0,1) int lane); // VST3.32{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_p8_ptr(__transfersize(3) poly8_t * ptr, poly8x8x3_t * val, __constrange(0,7) int lane); // VST3.8{d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_p16_ptr(__transfersize(3) poly16_t * ptr, poly16x4x3_t * val, __constrange(0,3) int lane); // VST3.16{d0[0], d1[0], d2[0]}, [r0] -void vst4q_lane_u16_ptr(__transfersize(4) uint16_t * ptr, uint16x8x4_t * val, __constrange(0,7) int lane); // VST4.16{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x4x4_t * val, __constrange(0,3) int lane); // VST4.32{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_s16_ptr(__transfersize(4) int16_t * ptr, int16x8x4_t * val, __constrange(0,7) int lane); // VST4.16{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_s32_ptr(__transfersize(4) int32_t * ptr, int32x4x4_t * val, __constrange(0,3) int lane); // VST4.32{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_f16_ptr(__transfersize(4) __fp16 * ptr, float16x8x4_t * val, __constrange(0,7) int lane); // VST4.16{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_f32_ptr(__transfersize(4) float32_t * ptr, float32x4x4_t * val, __constrange(0,3) int lane); //VST4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_p16_ptr(__transfersize(4) poly16_t * ptr, poly16x8x4_t * val, __constrange(0,7) int lane); // VST4.16{d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4_lane_u8_ptr(__transfersize(4) uint8_t * ptr, uint8x8x4_t * val, __constrange(0,7) int lane); // VST4.8{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_u16_ptr(__transfersize(4) uint16_t * ptr, uint16x4x4_t * val, __constrange(0,3) int lane); // VST4.16{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x2x4_t * val, __constrange(0,1) int lane); // VST4.32{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_s8_ptr(__transfersize(4) int8_t * ptr, int8x8x4_t * val, __constrange(0,7) int lane); // VST4.8 {d0[0],d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_s16_ptr(__transfersize(4) int16_t * ptr, int16x4x4_t * val, __constrange(0,3) int lane); // VST4.16{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_s32_ptr(__transfersize(4) int32_t * ptr, int32x2x4_t * val, __constrange(0,1) int lane); // VST4.32{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_f16_ptr(__transfersize(4) __fp16 * ptr, float16x4x4_t * val, __constrange(0,3) int lane); // VST4.16{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_f32_ptr(__transfersize(4) float32_t * ptr, float32x2x4_t * val, __constrange(0,1) int lane); // VST4.32{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_p8_ptr(__transfersize(4) poly8_t * ptr, poly8x8x4_t * val, __constrange(0,7) int lane); // VST4.8{d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_p16_ptr(__transfersize(4) poly16_t * ptr, poly16x4x4_t * val, __constrange(0,3) int lane); // VST4.16{d0[0], d1[0], d2[0], d3[0]}, [r0] -//Extract lanes from a vector and put into a register. These intrinsics extract a single lane (element) from a vector. -uint8_t vget_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VMOV.U8 r0, d0[0] -uint16_t vget_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VMOV.U16 r0, d0[0] -uint32_t vget_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -int8_t vget_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VMOV.S8 r0, d0[0] -int16_t vget_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VMOV.S16 r0, d0[0] -int32_t vget_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -poly8_t vget_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VMOV.U8 r0, d0[0] -poly16_t vget_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VMOV.U16 r0, d0[0] -float32_t vget_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -uint8_t vgetq_lane_u8(uint8x16_t vec, __constrange(0,15) int lane); // VMOV.U8 r0, d0[0] -uint16_t vgetq_lane_u16(uint16x8_t vec, __constrange(0,7) int lane); // VMOV.U16 r0, d0[0] -uint32_t vgetq_lane_u32(uint32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -int8_t vgetq_lane_s8(int8x16_t vec, __constrange(0,15) int lane); // VMOV.S8 r0, d0[0] -int16_t vgetq_lane_s16(int16x8_t vec, __constrange(0,7) int lane); // VMOV.S16 r0, d0[0] -int32_t vgetq_lane_s32(int32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -poly8_t vgetq_lane_p8(poly8x16_t vec, __constrange(0,15) int lane); // VMOV.U8 r0, d0[0] -poly16_t vgetq_lane_p16(poly16x8_t vec, __constrange(0,7) int lane); // VMOV.U16 r0, d0[0] -float32_t vgetq_lane_f32(float32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -int64_t vget_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV r0,r0,d0 -uint64_t vget_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV r0,r0,d0 -int64_t vgetq_lane_s64(int64x2_t vec, __constrange(0,1) int lane); // VMOV r0,r0,d0 -uint64_t vgetq_lane_u64(uint64x2_t vec, __constrange(0,1) int lane); // VMOV r0,r0,d0 -//Load a single lane of a vector from a literal. These intrinsics set a single lane (element) within a vector. -uint8x8_t vset_lane_u8(uint8_t value, uint8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -uint16x4_t vset_lane_u16(uint16_t value, uint16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -uint32x2_t vset_lane_u32(uint32_t value, uint32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -int8x8_t vset_lane_s8(int8_t value, int8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -int16x4_t vset_lane_s16(int16_t value, int16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -int32x2_t vset_lane_s32(int32_t value, int32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -poly8x8_t vset_lane_p8(poly8_t value, poly8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -poly16x4_t vset_lane_p16(poly16_t value, poly16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -float32x2_t vset_lane_f32(float32_t value, float32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -uint8x16_t vsetq_lane_u8(uint8_t value, uint8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -uint16x8_t vsetq_lane_u16(uint16_t value, uint16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -uint32x4_t vsetq_lane_u32(uint32_t value, uint32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -int8x16_t vsetq_lane_s8(int8_t value, int8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -int16x8_t vsetq_lane_s16(int16_t value, int16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -int32x4_t vsetq_lane_s32(int32_t value, int32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -poly8x16_t vsetq_lane_p8(poly8_t value, poly8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -poly16x8_t vsetq_lane_p16(poly16_t value, poly16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -float32x4_t vsetq_lane_f32(float32_t value, float32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -int64x1_t vset_lane_s64(int64_t value, int64x1_t vec, __constrange(0,0) int lane); // VMOV d0,r0,r0 -uint64x1_t vset_lane_u64(uint64_t value, uint64x1_t vec, __constrange(0,0) int lane); // VMOV d0,r0,r0 -int64x2_t vsetq_lane_s64(int64_t value, int64x2_t vec, __constrange(0,1) int lane); // VMOV d0,r0,r0 -uint64x2_t vsetq_lane_u64(uint64_t value, uint64x2_t vec, __constrange(0,1) int lane); // VMOV d0,r0,r0 -//Initialize a vector from a literal bit pattern. -int8x8_t vcreate_s8(uint64_t a); // VMOV d0,r0,r0 -int16x4_t vcreate_s16(uint64_t a); // VMOV d0,r0,r0 -int32x2_t vcreate_s32(uint64_t a); // VMOV d0,r0,r0 -float16x4_t vcreate_f16(uint64_t a); // VMOV d0,r0,r0 -float32x2_t vcreate_f32(uint64_t a); // VMOV d0,r0,r0 -uint8x8_t vcreate_u8(uint64_t a); // VMOV d0,r0,r0 -uint16x4_t vcreate_u16(uint64_t a); // VMOV d0,r0,r0 -uint32x2_t vcreate_u32(uint64_t a); // VMOV d0,r0,r0 -uint64x1_t vcreate_u64(uint64_t a); // VMOV d0,r0,r0 -poly8x8_t vcreate_p8(uint64_t a); // VMOV d0,r0,r0 -poly16x4_t vcreate_p16(uint64_t a); // VMOV d0,r0,r0 -int64x1_t vcreate_s64(uint64_t a); // VMOV d0,r0,r0 -//Set all lanes to same value -//Load all lanes of vector to the same literal value -uint8x8_t vdup_n_u8(uint8_t value); // VDUP.8 d0,r0 -uint16x4_t vdup_n_u16(uint16_t value); // VDUP.16 d0,r0 -uint32x2_t vdup_n_u32(uint32_t value); // VDUP.32 d0,r0 -int8x8_t vdup_n_s8(int8_t value); // VDUP.8 d0,r0 -int16x4_t vdup_n_s16(int16_t value); // VDUP.16 d0,r0 -int32x2_t vdup_n_s32(int32_t value); // VDUP.32 d0,r0 -poly8x8_t vdup_n_p8(poly8_t value); // VDUP.8 d0,r0 -poly16x4_t vdup_n_p16(poly16_t value); // VDUP.16 d0,r0 -float32x2_t vdup_n_f32(float32_t value); // VDUP.32 d0,r0 -uint8x16_t vdupq_n_u8(uint8_t value); // VDUP.8 q0,r0 -uint16x8_t vdupq_n_u16(uint16_t value); // VDUP.16 q0,r0 -uint32x4_t vdupq_n_u32(uint32_t value); // VDUP.32 q0,r0 -int8x16_t vdupq_n_s8(int8_t value); // VDUP.8 q0,r0 -int16x8_t vdupq_n_s16(int16_t value); // VDUP.16 q0,r0 -int32x4_t vdupq_n_s32(int32_t value); // VDUP.32 q0,r0 -poly8x16_t vdupq_n_p8(poly8_t value); // VDUP.8 q0,r0 -poly16x8_t vdupq_n_p16(poly16_t value); // VDUP.16 q0,r0 -float32x4_t vdupq_n_f32(float32_t value); // VDUP.32 q0,r0 -int64x1_t vdup_n_s64(int64_t value); // VMOV d0,r0,r0 -uint64x1_t vdup_n_u64(uint64_t value); // VMOV d0,r0,r0 -int64x2_t vdupq_n_s64(int64_t value); // VMOV d0,r0,r0 -uint64x2_t vdupq_n_u64(uint64_t value); // VMOV d0,r0,r0 -uint8x8_t vmov_n_u8(uint8_t value); // VDUP.8 d0,r0 -uint16x4_t vmov_n_u16(uint16_t value); // VDUP.16 d0,r0 -uint32x2_t vmov_n_u32(uint32_t value); // VDUP.32 d0,r0 -int8x8_t vmov_n_s8(int8_t value); // VDUP.8 d0,r0 -int16x4_t vmov_n_s16(int16_t value); // VDUP.16 d0,r0 -int32x2_t vmov_n_s32(int32_t value); // VDUP.32 d0,r0 -poly8x8_t vmov_n_p8(poly8_t value); // VDUP.8 d0,r0 -poly16x4_t vmov_n_p16(poly16_t value); // VDUP.16 d0,r0 -float32x2_t vmov_n_f32(float32_t value); // VDUP.32 d0,r0 -uint8x16_t vmovq_n_u8(uint8_t value); // VDUP.8 q0,r0 -uint16x8_t vmovq_n_u16(uint16_t value); // VDUP.16 q0,r0 -uint32x4_t vmovq_n_u32(uint32_t value); // VDUP.32 q0,r0 -int8x16_t vmovq_n_s8(int8_t value); // VDUP.8 q0,r0 -int16x8_t vmovq_n_s16(int16_t value); // VDUP.16 q0,r0 -int32x4_t vmovq_n_s32(int32_t value); // VDUP.32 q0,r0 -poly8x16_t vmovq_n_p8(poly8_t value); // VDUP.8 q0,r0 -poly16x8_t vmovq_n_p16(poly16_t value); // VDUP.16 q0,r0 -float32x4_t vmovq_n_f32(float32_t value); // VDUP.32 q0,r0 -int64x1_t vmov_n_s64(int64_t value); // VMOV d0,r0,r0 -uint64x1_t vmov_n_u64(uint64_t value); // VMOV d0,r0,r0 -int64x2_t vmovq_n_s64(int64_t value); // VMOV d0,r0,r0 -uint64x2_t vmovq_n_u64(uint64_t value); // VMOV d0,r0,r0 -//Load all lanes of the vector to the value of a lane of a vector -uint8x8_t vdup_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -uint16x4_t vdup_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -uint32x2_t vdup_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -int8x8_t vdup_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -int16x4_t vdup_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -int32x2_t vdup_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -poly8x8_t vdup_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -poly16x4_t vdup_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -float32x2_t vdup_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -uint8x16_t vdupq_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -uint16x8_t vdupq_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -uint32x4_t vdupq_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -int8x16_t vdupq_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -int16x8_t vdupq_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -int32x4_t vdupq_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -poly8x16_t vdupq_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -poly16x8_t vdupq_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -float32x4_t vdupq_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -int64x1_t vdup_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV d0,d0 -uint64x1_t vdup_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV d0,d0 -int64x2_t vdupq_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV q0,q0 -uint64x2_t vdupq_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV q0,q0 -//Combining vectors. These intrinsics join two 64 bit vectors into a single 128bit vector. -int8x16_t vcombine_s8(int8x8_t low, int8x8_t high); // VMOV d0,d0 -int16x8_t vcombine_s16(int16x4_t low, int16x4_t high); // VMOV d0,d0 -int32x4_t vcombine_s32(int32x2_t low, int32x2_t high); // VMOV d0,d0 -int64x2_t vcombine_s64(int64x1_t low, int64x1_t high); // VMOV d0,d0 -float16x8_t vcombine_f16(float16x4_t low, float16x4_t high); // VMOV d0,d0 -float32x4_t vcombine_f32(float32x2_t low, float32x2_t high); // VMOV d0,d0 -uint8x16_t vcombine_u8(uint8x8_t low, uint8x8_t high); // VMOV d0,d0 -uint16x8_t vcombine_u16(uint16x4_t low, uint16x4_t high); // VMOV d0,d0 -uint32x4_t vcombine_u32(uint32x2_t low, uint32x2_t high); // VMOV d0,d0 -uint64x2_t vcombine_u64(uint64x1_t low, uint64x1_t high); // VMOV d0,d0 -poly8x16_t vcombine_p8(poly8x8_t low, poly8x8_t high); // VMOV d0,d0 -poly16x8_t vcombine_p16(poly16x4_t low, poly16x4_t high); // VMOV d0,d0 -//Splitting vectors. These intrinsics split a 128 bit vector into 2 component 64 bit vectors -int8x8_t vget_high_s8(int8x16_t a); // VMOV d0,d0 -int16x4_t vget_high_s16(int16x8_t a); // VMOV d0,d0 -int32x2_t vget_high_s32(int32x4_t a); // VMOV d0,d0 -int64x1_t vget_high_s64(int64x2_t a); // VMOV d0,d0 -float16x4_t vget_high_f16(float16x8_t a); // VMOV d0,d0 -float32x2_t vget_high_f32(float32x4_t a); // VMOV d0,d0 -uint8x8_t vget_high_u8(uint8x16_t a); // VMOV d0,d0 -uint16x4_t vget_high_u16(uint16x8_t a); // VMOV d0,d0 -uint32x2_t vget_high_u32(uint32x4_t a); // VMOV d0,d0 -uint64x1_t vget_high_u64(uint64x2_t a); // VMOV d0,d0 -poly8x8_t vget_high_p8(poly8x16_t a); // VMOV d0,d0 -poly16x4_t vget_high_p16(poly16x8_t a); // VMOV d0,d0 -int8x8_t vget_low_s8(int8x16_t a); // VMOV d0,d0 -int16x4_t vget_low_s16(int16x8_t a); // VMOV d0,d0 -int32x2_t vget_low_s32(int32x4_t a); // VMOV d0,d0 -int64x1_t vget_low_s64(int64x2_t a); // VMOV d0,d0 -float16x4_t vget_low_f16(float16x8_t a); // VMOV d0,d0 -float32x2_t vget_low_f32(float32x4_t a); // VMOV d0,d0 -uint8x8_t vget_low_u8(uint8x16_t a); // VMOV d0,d0 -uint16x4_t vget_low_u16(uint16x8_t a); // VMOV d0,d0 -uint32x2_t vget_low_u32(uint32x4_t a); // VMOV d0,d0 -uint64x1_t vget_low_u64(uint64x2_t a); // VMOV d0,d0 -poly8x8_t vget_low_p8(poly8x16_t a); // VMOV d0,d0 -poly16x4_t vget_low_p16(poly16x8_t a); // VMOV d0,d0 -//Converting vectors. These intrinsics are used to convert vectors. -//Convert from float -int32x2_t vcvt_s32_f32(float32x2_t a); // VCVT.S32.F32 d0, d0 -uint32x2_t vcvt_u32_f32(float32x2_t a); // VCVT.U32.F32 d0, d0 -int32x4_t vcvtq_s32_f32(float32x4_t a); // VCVT.S32.F32 q0, q0 -uint32x4_t vcvtq_u32_f32(float32x4_t a); // VCVT.U32.F32 q0, q0 -int32x2_t vcvt_n_s32_f32(float32x2_t a, __constrange(1,32) int b); // VCVT.S32.F32 d0, d0, #32 -uint32x2_t vcvt_n_u32_f32(float32x2_t a, __constrange(1,32) int b); // VCVT.U32.F32 d0, d0, #32 -int32x4_t vcvtq_n_s32_f32(float32x4_t a, __constrange(1,32) int b); // VCVT.S32.F32 q0, q0, #32 -uint32x4_t vcvtq_n_u32_f32(float32x4_t a, __constrange(1,32) int b); // VCVT.U32.F32 q0, q0, #32 -//Convert to float -float32x2_t vcvt_f32_s32(int32x2_t a); // VCVT.F32.S32 d0, d0 -float32x2_t vcvt_f32_u32(uint32x2_t a); // VCVT.F32.U32 d0, d0 -float32x4_t vcvtq_f32_s32(int32x4_t a); // VCVT.F32.S32 q0, q0 -float32x4_t vcvtq_f32_u32(uint32x4_t a); // VCVT.F32.U32 q0, q0 -float32x2_t vcvt_n_f32_s32(int32x2_t a, __constrange(1,32) int b); // VCVT.F32.S32 d0, d0, #32 -float32x2_t vcvt_n_f32_u32(uint32x2_t a, __constrange(1,32) int b); // VCVT.F32.U32 d0, d0, #32 -float32x4_t vcvtq_n_f32_s32(int32x4_t a, __constrange(1,32) int b); // VCVT.F32.S32 q0, q0, #32 -float32x4_t vcvtq_n_f32_u32(uint32x4_t a, __constrange(1,32) int b); // VCVT.F32.U32 q0, q0, #32 -//Convert between floats -float16x4_t vcvt_f16_f32(float32x4_t a); // VCVT.F16.F32 d0, q0 -float32x4_t vcvt_f32_f16(float16x4_t a); // VCVT.F32.F16 q0, d0 -//Vector narrow integer -int8x8_t vmovn_s16(int16x8_t a); // VMOVN.I16 d0,q0 -int16x4_t vmovn_s32(int32x4_t a); // VMOVN.I32 d0,q0 -int32x2_t vmovn_s64(int64x2_t a); // VMOVN.I64 d0,q0 -uint8x8_t vmovn_u16(uint16x8_t a); // VMOVN.I16 d0,q0 -uint16x4_t vmovn_u32(uint32x4_t a); // VMOVN.I32 d0,q0 -uint32x2_t vmovn_u64(uint64x2_t a); // VMOVN.I64 d0,q0 -//Vector long move -int16x8_t vmovl_s8(int8x8_t a); // VMOVL.S8 q0,d0 -int32x4_t vmovl_s16(int16x4_t a); // VMOVL.S16 q0,d0 -int64x2_t vmovl_s32(int32x2_t a); // VMOVL.S32 q0,d0 -uint16x8_t vmovl_u8(uint8x8_t a); // VMOVL.U8 q0,d0 -uint32x4_t vmovl_u16(uint16x4_t a); // VMOVL.U16 q0,d0 -uint64x2_t vmovl_u32(uint32x2_t a); // VMOVL.U32 q0,d0 -//Vector saturating narrow integer -int8x8_t vqmovn_s16(int16x8_t a); // VQMOVN.S16 d0,q0 -int16x4_t vqmovn_s32(int32x4_t a); // VQMOVN.S32 d0,q0 -int32x2_t vqmovn_s64(int64x2_t a); // VQMOVN.S64 d0,q0 -uint8x8_t vqmovn_u16(uint16x8_t a); // VQMOVN.U16 d0,q0 -uint16x4_t vqmovn_u32(uint32x4_t a); // VQMOVN.U32 d0,q0 -uint32x2_t vqmovn_u64(uint64x2_t a); // VQMOVN.U64 d0,q0 -//Vector saturating narrow integer signed->unsigned -uint8x8_t vqmovun_s16(int16x8_t a); // VQMOVUN.S16 d0,q0 -uint16x4_t vqmovun_s32(int32x4_t a); // VQMOVUN.S32 d0,q0 -uint32x2_t vqmovun_s64(int64x2_t a); // VQMOVUN.S64 d0,q0 -//Table look up -uint8x8_t vtbl1_u8(uint8x8_t a, uint8x8_t b); // VTBL.8 d0, {d0}, d0 -int8x8_t vtbl1_s8(int8x8_t a, int8x8_t b); // VTBL.8 d0, {d0}, d0 -poly8x8_t vtbl1_p8(poly8x8_t a, uint8x8_t b); // VTBL.8 d0, {d0}, d0 -uint8x8_t vtbl2_u8_ptr(uint8x8x2_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -int8x8_t vtbl2_s8_ptr(int8x8x2_t *a, int8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -poly8x8_t vtbl2_p8_ptr(poly8x8x2_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -uint8x8_t vtbl3_u8_ptr(uint8x8x3_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -int8x8_t vtbl3_s8_ptr(int8x8x3_t *a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -poly8x8_t vtbl3_p8_ptr(poly8x8x3_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -uint8x8_t vtbl4_u8_ptr(uint8x8x4_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -int8x8_t vtbl4_s8_ptr(int8x8x4_t *a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -poly8x8_t vtbl4_p8_ptr(poly8x8x4_t *a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -//Extended table look up intrinsics -uint8x8_t vtbx1_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VTBX.8 d0, {d0}, d0 -int8x8_t vtbx1_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VTBX.8 d0, {d0}, d0 -poly8x8_t vtbx1_p8(poly8x8_t a, poly8x8_t b, uint8x8_t c); // VTBX.8 d0, {d0}, d0 -uint8x8_t vtbx2_u8_ptr(uint8x8_t a, uint8x8x2_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -int8x8_t vtbx2_s8_ptr(int8x8_t a, int8x8x2_t *b, int8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -poly8x8_t vtbx2_p8_ptr(poly8x8_t a, poly8x8x2_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -uint8x8_t vtbx3_u8_ptr(uint8x8_t a, uint8x8x3_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2}, d0 -int8x8_t vtbx3_s8_ptr(int8x8_t a, int8x8x3_t *b, int8x8_t c); // VTBX.8 d0, {d0, d1, d2}, d0 -poly8x8_t vtbx3_p8_ptr(poly8x8_t a, poly8x8x3_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2}, d0 -uint8x8_t vtbx4_u8_ptr(uint8x8_t a, uint8x8x4_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2, d3}, d0 -int8x8_t vtbx4_s8_ptr(int8x8_t a, int8x8x4_t *b, int8x8_t c); // VTBX.8 d0, {d0, d1, d2, d3}, d0 -poly8x8_t vtbx4_p8_ptr(poly8x8_t a, poly8x8x4_t *b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2, d3}, d0 -//Operations with a scalar value -//Vector multiply accumulate with scalar -int16x4_t vmla_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLA.I16 d0, d0,d0[0] -int32x2_t vmla_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLA.I32 d0, d0,d0[0] -uint16x4_t vmla_lane_u16(uint16x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLA.I16 d0, d0,d0[0] -uint32x2_t vmla_lane_u32(uint32x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLA.I32 d0, d0,d0[0] -float32x2_t vmla_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l); // VMLA.F32 d0,d0, d0[0] -int16x8_t vmlaq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l); // VMLA.I16 q0, q0,d0[0] -int32x4_t vmlaq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l); // VMLA.I32 q0, q0,d0[0] -uint16x8_t vmlaq_lane_u16(uint16x8_t a, uint16x8_t b, uint16x4_t v, __constrange(0,3) int l); // VMLA.I16 q0,q0, d0[0] -uint32x4_t vmlaq_lane_u32(uint32x4_t a, uint32x4_t b, uint32x2_t v, __constrange(0,1) int l); // VMLA.I32 q0,q0, d0[0] -float32x4_t vmlaq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l); // VMLA.F32 q0,q0, d0[0] -//Vector widening multiply accumulate with scalar -int32x4_t vmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); //VMLAL.S16 q0, d0,d0[0] -int64x2_t vmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); //VMLAL.S32 q0, d0,d0[0] -uint32x4_t vmlal_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLAL.U16 q0,d0, d0[0] -uint64x2_t vmlal_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLAL.U32 q0,d0, d0[0] -//Vector widening saturating doubling multiply accumulate with scalar -int32x4_t vqdmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VQDMLAL.S16 q0,d0, d0[0] -int64x2_t vqdmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VQDMLAL.S32 q0,d0, d0[0] -//Vector multiply subtract with scalar -int16x4_t vmls_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLS.I16 d0, d0,d0[0] -int32x2_t vmls_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLS.I32 d0, d0,d0[0] -uint16x4_t vmls_lane_u16(uint16x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLS.I16 d0, d0,d0[0] -uint32x2_t vmls_lane_u32(uint32x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLS.I32 d0, d0,d0[0] -float32x2_t vmls_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l); // VMLS.F32 d0,d0, d0[0] -int16x8_t vmlsq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l); // VMLS.I16 q0, q0,d0[0] -int32x4_t vmlsq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l); // VMLS.I32 q0, q0,d0[0] -uint16x8_t vmlsq_lane_u16(uint16x8_t a, uint16x8_t b, uint16x4_t v, __constrange(0,3) int l); // VMLS.I16 q0,q0, d0[0] -uint32x4_t vmlsq_lane_u32(uint32x4_t a, uint32x4_t b, uint32x2_t v, __constrange(0,1) int l); // VMLS.I32 q0,q0, d0[0] -float32x4_t vmlsq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l); // VMLS.F32 q0,q0, d0[0] -//Vector widening multiply subtract with scalar -int32x4_t vmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLSL.S16 q0, d0,d0[0] -int64x2_t vmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLSL.S32 q0, d0,d0[0] -uint32x4_t vmlsl_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLSL.U16 q0,d0, d0[0] -uint64x2_t vmlsl_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLSL.U32 q0,d0, d0[0] -//Vector widening saturating doubling multiply subtract with scalar -int32x4_t vqdmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VQDMLSL.S16 q0,d0, d0[0] -int64x2_t vqdmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VQDMLSL.S32 q0,d0, d0[0] -//Vector multiply by scalar -int16x4_t vmul_n_s16(int16x4_t a, int16_t b); // VMUL.I16 d0,d0,d0[0] -int32x2_t vmul_n_s32(int32x2_t a, int32_t b); // VMUL.I32 d0,d0,d0[0] -float32x2_t vmul_n_f32(float32x2_t a, float32_t b); // VMUL.F32 d0,d0,d0[0] -uint16x4_t vmul_n_u16(uint16x4_t a, uint16_t b); // VMUL.I16 d0,d0,d0[0] -uint32x2_t vmul_n_u32(uint32x2_t a, uint32_t b); // VMUL.I32 d0,d0,d0[0] -int16x8_t vmulq_n_s16(int16x8_t a, int16_t b); // VMUL.I16 q0,q0,d0[0] -int32x4_t vmulq_n_s32(int32x4_t a, int32_t b); // VMUL.I32 q0,q0,d0[0] -float32x4_t vmulq_n_f32(float32x4_t a, float32_t b); // VMUL.F32 q0,q0,d0[0] -uint16x8_t vmulq_n_u16(uint16x8_t a, uint16_t b); // VMUL.I16 q0,q0,d0[0] -uint32x4_t vmulq_n_u32(uint32x4_t a, uint32_t b); // VMUL.I32 q0,q0,d0[0] -//Vector long multiply with scalar -int32x4_t vmull_n_s16(int16x4_t vec1, int16_t val2); // VMULL.S16 q0,d0,d0[0] -int64x2_t vmull_n_s32(int32x2_t vec1, int32_t val2); // VMULL.S32 q0,d0,d0[0] -uint32x4_t vmull_n_u16(uint16x4_t vec1, uint16_t val2); // VMULL.U16 q0,d0,d0[0] -uint64x2_t vmull_n_u32(uint32x2_t vec1, uint32_t val2); // VMULL.U32 q0,d0,d0[0] -//Vector long multiply by scalar -int32x4_t vmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VMULL.S16 q0,d0,d0[0] -int64x2_t vmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VMULL.S32 q0,d0,d0[0] -uint32x4_t vmull_lane_u16(uint16x4_t vec1, uint16x4_t val2, __constrange(0, 3) int val3); // VMULL.U16 q0,d0,d0[0] -uint64x2_t vmull_lane_u32(uint32x2_t vec1, uint32x2_t val2, __constrange(0, 1) int val3); // VMULL.U32 q0,d0,d0[0] -//Vector saturating doubling long multiply with scalar -int32x4_t vqdmull_n_s16(int16x4_t vec1, int16_t val2); // VQDMULL.S16 q0,d0,d0[0] -int64x2_t vqdmull_n_s32(int32x2_t vec1, int32_t val2); // VQDMULL.S32 q0,d0,d0[0] -//Vector saturating doubling long multiply by scalar -int32x4_t vqdmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULL.S16 q0,d0,d0[0] -int64x2_t vqdmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULL.S32 q0,d0,d0[0] -//Vector saturating doubling multiply high with scalar -int16x4_t vqdmulh_n_s16(int16x4_t vec1, int16_t val2); // VQDMULH.S16 d0,d0,d0[0] -int32x2_t vqdmulh_n_s32(int32x2_t vec1, int32_t val2); // VQDMULH.S32 d0,d0,d0[0] -int16x8_t vqdmulhq_n_s16(int16x8_t vec1, int16_t val2); // VQDMULH.S16 q0,q0,d0[0] -int32x4_t vqdmulhq_n_s32(int32x4_t vec1, int32_t val2); // VQDMULH.S32 q0,q0,d0[0] -//Vector saturating doubling multiply high by scalar -int16x4_t vqdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULH.S16 d0,d0,d0[0] -int32x2_t vqdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULH.S32 d0,d0,d0[0] -int16x8_t vqdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULH.S16 q0,q0,d0[0] -int32x4_t vqdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULH.S32 q0,q0,d0[0] -//Vector saturating rounding doubling multiply high with scalar -int16x4_t vqrdmulh_n_s16(int16x4_t vec1, int16_t val2); // VQRDMULH.S16 d0,d0,d0[0] -int32x2_t vqrdmulh_n_s32(int32x2_t vec1, int32_t val2); // VQRDMULH.S32 d0,d0,d0[0] -int16x8_t vqrdmulhq_n_s16(int16x8_t vec1, int16_t val2); // VQRDMULH.S16 q0,q0,d0[0] -int32x4_t vqrdmulhq_n_s32(int32x4_t vec1, int32_t val2); // VQRDMULH.S32 q0,q0,d0[0] -//Vector rounding saturating doubling multiply high by scalar -int16x4_t vqrdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQRDMULH.S16 d0,d0,d0[0] -int32x2_t vqrdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQRDMULH.S32 d0,d0,d0[0] -int16x8_t vqrdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQRDMULH.S16 q0,q0,d0[0] -int32x4_t vqrdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQRDMULH.S32 q0,q0,d0[0] -//Vector multiply accumulate with scalar -int16x4_t vmla_n_s16(int16x4_t a, int16x4_t b, int16_t c); // VMLA.I16 d0, d0, d0[0] -int32x2_t vmla_n_s32(int32x2_t a, int32x2_t b, int32_t c); // VMLA.I32 d0, d0, d0[0] -uint16x4_t vmla_n_u16(uint16x4_t a, uint16x4_t b, uint16_t c); // VMLA.I16 d0, d0, d0[0] -uint32x2_t vmla_n_u32(uint32x2_t a, uint32x2_t b, uint32_t c); // VMLA.I32 d0, d0, d0[0] -float32x2_t vmla_n_f32(float32x2_t a, float32x2_t b, float32_t c); // VMLA.F32 d0, d0, d0[0] -int16x8_t vmlaq_n_s16(int16x8_t a, int16x8_t b, int16_t c); // VMLA.I16 q0, q0, d0[0] -int32x4_t vmlaq_n_s32(int32x4_t a, int32x4_t b, int32_t c); // VMLA.I32 q0, q0, d0[0] -uint16x8_t vmlaq_n_u16(uint16x8_t a, uint16x8_t b, uint16_t c); // VMLA.I16 q0, q0, d0[0] -uint32x4_t vmlaq_n_u32(uint32x4_t a, uint32x4_t b, uint32_t c); // VMLA.I32 q0, q0, d0[0] -float32x4_t vmlaq_n_f32(float32x4_t a, float32x4_t b, float32_t c); // VMLA.F32 q0, q0, d0[0] -//Vector widening multiply accumulate with scalar -int32x4_t vmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VMLAL.S16 q0, d0, d0[0] -int64x2_t vmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VMLAL.S32 q0, d0, d0[0] -uint32x4_t vmlal_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c); // VMLAL.U16 q0, d0, d0[0] -uint64x2_t vmlal_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c); // VMLAL.U32 q0, d0, d0[0] -//Vector widening saturating doubling multiply accumulate with scalar -int32x4_t vqdmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VQDMLAL.S16 q0, d0, d0[0] -int64x2_t vqdmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VQDMLAL.S32 q0, d0, d0[0] -//Vector multiply subtract with scalar -int16x4_t vmls_n_s16(int16x4_t a, int16x4_t b, int16_t c); // VMLS.I16 d0, d0, d0[0] -int32x2_t vmls_n_s32(int32x2_t a, int32x2_t b, int32_t c); // VMLS.I32 d0, d0, d0[0] -uint16x4_t vmls_n_u16(uint16x4_t a, uint16x4_t b, uint16_t c); // VMLS.I16 d0, d0, d0[0] -uint32x2_t vmls_n_u32(uint32x2_t a, uint32x2_t b, uint32_t c); // VMLS.I32 d0, d0, d0[0] -float32x2_t vmls_n_f32(float32x2_t a, float32x2_t b, float32_t c); // VMLS.F32 d0, d0, d0[0] -int16x8_t vmlsq_n_s16(int16x8_t a, int16x8_t b, int16_t c); // VMLS.I16 q0, q0, d0[0] -int32x4_t vmlsq_n_s32(int32x4_t a, int32x4_t b, int32_t c); // VMLS.I32 q0, q0, d0[0] -uint16x8_t vmlsq_n_u16(uint16x8_t a, uint16x8_t b, uint16_t c); // VMLS.I16 q0, q0, d0[0] -uint32x4_t vmlsq_n_u32(uint32x4_t a, uint32x4_t b, uint32_t c); // VMLS.I32 q0, q0, d0[0] -float32x4_t vmlsq_n_f32(float32x4_t a, float32x4_t b, float32_t c); // VMLS.F32 q0, q0, d0[0] -//Vector widening multiply subtract with scalar -int32x4_t vmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VMLSL.S16 q0, d0, d0[0] -int64x2_t vmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VMLSL.S32 q0, d0, d0[0] -uint32x4_t vmlsl_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c); // VMLSL.U16 q0, d0, d0[0] -uint64x2_t vmlsl_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c); // VMLSL.U32 q0, d0, d0[0] -//Vector widening saturating doubling multiply subtract with scalar -int32x4_t vqdmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VQDMLSL.S16 q0, d0, d0[0] -int64x2_t vqdmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VQDMLSL.S32 q0, d0, d0[0] -//Vector extract -int8x8_t vext_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -uint8x8_t vext_u8(uint8x8_t a, uint8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -poly8x8_t vext_p8(poly8x8_t a, poly8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -int16x4_t vext_s16(int16x4_t a, int16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -uint16x4_t vext_u16(uint16x4_t a, uint16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -poly16x4_t vext_p16(poly16x4_t a, poly16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -int32x2_t vext_s32(int32x2_t a, int32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -uint32x2_t vext_u32(uint32x2_t a, uint32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -int64x1_t vext_s64(int64x1_t a, int64x1_t b, __constrange(0,0) int c); // VEXT.64 d0,d0,d0,#0 -uint64x1_t vext_u64(uint64x1_t a, uint64x1_t b, __constrange(0,0) int c); // VEXT.64 d0,d0,d0,#0 -float32x2_t vext_f32(float32x2_t a, float32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -int8x16_t vextq_s8(int8x16_t a, int8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -uint8x16_t vextq_u8(uint8x16_t a, uint8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -poly8x16_t vextq_p8(poly8x16_t a, poly8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -int16x8_t vextq_s16(int16x8_t a, int16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -uint16x8_t vextq_u16(uint16x8_t a, uint16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -poly16x8_t vextq_p16(poly16x8_t a, poly16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -int32x4_t vextq_s32(int32x4_t a, int32x4_t b, __constrange(0,3) int c); // VEXT.32 q0,q0,q0,#0 -uint32x4_t vextq_u32(uint32x4_t a, uint32x4_t b, __constrange(0,3) int c); // VEXT.32 q0,q0,q0,#0 -int64x2_t vextq_s64(int64x2_t a, int64x2_t b, __constrange(0,1) int c); // VEXT.64 q0,q0,q0,#0 -uint64x2_t vextq_u64(uint64x2_t a, uint64x2_t b, __constrange(0,1) int c); // VEXT.64 q0,q0,q0,#0 -float32x4_t vextq_f32(float32x4_t a, float32x4_t b, __constrange(0,3) float c); // VEXT.32 q0,q0,q0,#0 -//Reverse vector elements (swap endianness). VREVn.m reverses the order of the m-bit lanes within a set that is n bits wide. -int8x8_t vrev64_s8(int8x8_t vec); // VREV64.8 d0,d0 -int16x4_t vrev64_s16(int16x4_t vec); // VREV64.16 d0,d0 -int32x2_t vrev64_s32(int32x2_t vec); // VREV64.32 d0,d0 -uint8x8_t vrev64_u8(uint8x8_t vec); // VREV64.8 d0,d0 -uint16x4_t vrev64_u16(uint16x4_t vec); // VREV64.16 d0,d0 -uint32x2_t vrev64_u32(uint32x2_t vec); // VREV64.32 d0,d0 -poly8x8_t vrev64_p8(poly8x8_t vec); // VREV64.8 d0,d0 -poly16x4_t vrev64_p16(poly16x4_t vec); // VREV64.16 d0,d0 -float32x2_t vrev64_f32(float32x2_t vec); // VREV64.32 d0,d0 -int8x16_t vrev64q_s8(int8x16_t vec); // VREV64.8 q0,q0 -int16x8_t vrev64q_s16(int16x8_t vec); // VREV64.16 q0,q0 -int32x4_t vrev64q_s32(int32x4_t vec); // VREV64.32 q0,q0 -uint8x16_t vrev64q_u8(uint8x16_t vec); // VREV64.8 q0,q0 -uint16x8_t vrev64q_u16(uint16x8_t vec); // VREV64.16 q0,q0 -uint32x4_t vrev64q_u32(uint32x4_t vec); // VREV64.32 q0,q0 -poly8x16_t vrev64q_p8(poly8x16_t vec); // VREV64.8 q0,q0 -poly16x8_t vrev64q_p16(poly16x8_t vec); // VREV64.16 q0,q0 -float32x4_t vrev64q_f32(float32x4_t vec); // VREV64.32 q0,q0 -int8x8_t vrev32_s8(int8x8_t vec); // VREV32.8 d0,d0 -int16x4_t vrev32_s16(int16x4_t vec); // VREV32.16 d0,d0 -uint8x8_t vrev32_u8(uint8x8_t vec); // VREV32.8 d0,d0 -uint16x4_t vrev32_u16(uint16x4_t vec); // VREV32.16 d0,d0 -poly8x8_t vrev32_p8(poly8x8_t vec); // VREV32.8 d0,d0 -poly16x4_t vrev32_p16(poly16x4_t vec); // VREV32.16 d0,d0 -int8x16_t vrev32q_s8(int8x16_t vec); // VREV32.8 q0,q0 -int16x8_t vrev32q_s16(int16x8_t vec); // VREV32.16 q0,q0 -uint8x16_t vrev32q_u8(uint8x16_t vec); // VREV32.8 q0,q0 -uint16x8_t vrev32q_u16(uint16x8_t vec); // VREV32.16 q0,q0 -poly8x16_t vrev32q_p8(poly8x16_t vec); // VREV32.8 q0,q0 -poly16x8_t vrev32q_p16(poly16x8_t vec); // VREV32.16 q0,q0 -int8x8_t vrev16_s8(int8x8_t vec); // VREV16.8 d0,d0 -uint8x8_t vrev16_u8(uint8x8_t vec); // VREV16.8 d0,d0 -poly8x8_t vrev16_p8(poly8x8_t vec); // VREV16.8 d0,d0 -int8x16_t vrev16q_s8(int8x16_t vec); // VREV16.8 q0,q0 -uint8x16_t vrev16q_u8(uint8x16_t vec); // VREV16.8 q0,q0 -poly8x16_t vrev16q_p8(poly8x16_t vec); // VREV16.8 q0,q0 -//Other single operand arithmetic -//Absolute: Vd[i] = |Va[i]| -int8x8_t vabs_s8(int8x8_t a); // VABS.S8 d0,d0 -int16x4_t vabs_s16(int16x4_t a); // VABS.S16 d0,d0 -int32x2_t vabs_s32(int32x2_t a); // VABS.S32 d0,d0 -float32x2_t vabs_f32(float32x2_t a); // VABS.F32 d0,d0 -int8x16_t vabsq_s8(int8x16_t a); // VABS.S8 q0,q0 -int16x8_t vabsq_s16(int16x8_t a); // VABS.S16 q0,q0 -int32x4_t vabsq_s32(int32x4_t a); // VABS.S32 q0,q0 -float32x4_t vabsq_f32(float32x4_t a); // VABS.F32 q0,q0 -//Saturating absolute: Vd[i] = sat(|Va[i]|) -int8x8_t vqabs_s8(int8x8_t a); // VQABS.S8 d0,d0 -int16x4_t vqabs_s16(int16x4_t a); // VQABS.S16 d0,d0 -int32x2_t vqabs_s32(int32x2_t a); // VQABS.S32 d0,d0 -int8x16_t vqabsq_s8(int8x16_t a); // VQABS.S8 q0,q0 -int16x8_t vqabsq_s16(int16x8_t a); // VQABS.S16 q0,q0 -int32x4_t vqabsq_s32(int32x4_t a); // VQABS.S32 q0,q0 -//Negate: Vd[i] = - Va[i] -int8x8_t vneg_s8(int8x8_t a); // VNE//d0,d0 -int16x4_t vneg_s16(int16x4_t a); // VNE//d0,d0 -int32x2_t vneg_s32(int32x2_t a); // VNE//d0,d0 -float32x2_t vneg_f32(float32x2_t a); // VNE//d0,d0 -int8x16_t vnegq_s8(int8x16_t a); // VNE//q0,q0 -int16x8_t vnegq_s16(int16x8_t a); // VNE//q0,q0 -int32x4_t vnegq_s32(int32x4_t a); // VNE//q0,q0 -float32x4_t vnegq_f32(float32x4_t a); // VNE//q0,q0 -//Saturating Negate: sat(Vd[i] = - Va[i]) -int8x8_t vqneg_s8(int8x8_t a); // VQNE//d0,d0 -int16x4_t vqneg_s16(int16x4_t a); // VQNE//d0,d0 -int32x2_t vqneg_s32(int32x2_t a); // VQNE//d0,d0 -int8x16_t vqnegq_s8(int8x16_t a); // VQNE//q0,q0 -int16x8_t vqnegq_s16(int16x8_t a); // VQNE//q0,q0 -int32x4_t vqnegq_s32(int32x4_t a); // VQNE//q0,q0 -//Count leading sign bits -int8x8_t vcls_s8(int8x8_t a); // VCLS.S8 d0,d0 -int16x4_t vcls_s16(int16x4_t a); // VCLS.S16 d0,d0 -int32x2_t vcls_s32(int32x2_t a); // VCLS.S32 d0,d0 -int8x16_t vclsq_s8(int8x16_t a); // VCLS.S8 q0,q0 -int16x8_t vclsq_s16(int16x8_t a); // VCLS.S16 q0,q0 -int32x4_t vclsq_s32(int32x4_t a); // VCLS.S32 q0,q0 -//Count leading zeros -int8x8_t vclz_s8(int8x8_t a); // VCLZ.I8 d0,d0 -int16x4_t vclz_s16(int16x4_t a); // VCLZ.I16 d0,d0 -int32x2_t vclz_s32(int32x2_t a); // VCLZ.I32 d0,d0 -uint8x8_t vclz_u8(uint8x8_t a); // VCLZ.I8 d0,d0 -uint16x4_t vclz_u16(uint16x4_t a); // VCLZ.I16 d0,d0 -uint32x2_t vclz_u32(uint32x2_t a); // VCLZ.I32 d0,d0 -int8x16_t vclzq_s8(int8x16_t a); // VCLZ.I8 q0,q0 -int16x8_t vclzq_s16(int16x8_t a); // VCLZ.I16 q0,q0 -int32x4_t vclzq_s32(int32x4_t a); // VCLZ.I32 q0,q0 -uint8x16_t vclzq_u8(uint8x16_t a); // VCLZ.I8 q0,q0 -uint16x8_t vclzq_u16(uint16x8_t a); // VCLZ.I16 q0,q0 -uint32x4_t vclzq_u32(uint32x4_t a); // VCLZ.I32 q0,q0 -//Count number of set bits -uint8x8_t vcnt_u8(uint8x8_t a); // VCNT.8 d0,d0 -int8x8_t vcnt_s8(int8x8_t a); // VCNT.8 d0,d0 -poly8x8_t vcnt_p8(poly8x8_t a); // VCNT.8 d0,d0 -uint8x16_t vcntq_u8(uint8x16_t a); // VCNT.8 q0,q0 -int8x16_t vcntq_s8(int8x16_t a); // VCNT.8 q0,q0 -poly8x16_t vcntq_p8(poly8x16_t a); // VCNT.8 q0,q0 -//Reciprocal estimate -float32x2_t vrecpe_f32(float32x2_t a); // VRECPE.F32 d0,d0 -uint32x2_t vrecpe_u32(uint32x2_t a); // VRECPE.U32 d0,d0 -float32x4_t vrecpeq_f32(float32x4_t a); // VRECPE.F32 q0,q0 -uint32x4_t vrecpeq_u32(uint32x4_t a); // VRECPE.U32 q0,q0 -//Reciprocal square root estimate -float32x2_t vrsqrte_f32(float32x2_t a); // VRSQRTE.F32 d0,d0 -uint32x2_t vrsqrte_u32(uint32x2_t a); // VRSQRTE.U32 d0,d0 -float32x4_t vrsqrteq_f32(float32x4_t a); // VRSQRTE.F32 q0,q0 -uint32x4_t vrsqrteq_u32(uint32x4_t a); // VRSQRTE.U32 q0,q0 -//Logical operations -//Bitwise not -int8x8_t vmvn_s8(int8x8_t a); // VMVN d0,d0 -int16x4_t vmvn_s16(int16x4_t a); // VMVN d0,d0 -int32x2_t vmvn_s32(int32x2_t a); // VMVN d0,d0 -uint8x8_t vmvn_u8(uint8x8_t a); // VMVN d0,d0 -uint16x4_t vmvn_u16(uint16x4_t a); // VMVN d0,d0 -uint32x2_t vmvn_u32(uint32x2_t a); // VMVN d0,d0 -poly8x8_t vmvn_p8(poly8x8_t a); // VMVN d0,d0 -int8x16_t vmvnq_s8(int8x16_t a); // VMVN q0,q0 -int16x8_t vmvnq_s16(int16x8_t a); // VMVN q0,q0 -int32x4_t vmvnq_s32(int32x4_t a); // VMVN q0,q0 -uint8x16_t vmvnq_u8(uint8x16_t a); // VMVN q0,q0 -uint16x8_t vmvnq_u16(uint16x8_t a); // VMVN q0,q0 -uint32x4_t vmvnq_u32(uint32x4_t a); // VMVN q0,q0 -poly8x16_t vmvnq_p8(poly8x16_t a); // VMVN q0,q0 -//Bitwise and -int8x8_t vand_s8(int8x8_t a, int8x8_t b); // VAND d0,d0,d0 -int16x4_t vand_s16(int16x4_t a, int16x4_t b); // VAND d0,d0,d0 -int32x2_t vand_s32(int32x2_t a, int32x2_t b); // VAND d0,d0,d0 -int64x1_t vand_s64(int64x1_t a, int64x1_t b); // VAND d0,d0,d0 -uint8x8_t vand_u8(uint8x8_t a, uint8x8_t b); // VAND d0,d0,d0 -uint16x4_t vand_u16(uint16x4_t a, uint16x4_t b); // VAND d0,d0,d0 -uint32x2_t vand_u32(uint32x2_t a, uint32x2_t b); // VAND d0,d0,d0 -uint64x1_t vand_u64(uint64x1_t a, uint64x1_t b); // VAND d0,d0,d0 -int8x16_t vandq_s8(int8x16_t a, int8x16_t b); // VAND q0,q0,q0 -int16x8_t vandq_s16(int16x8_t a, int16x8_t b); // VAND q0,q0,q0 -int32x4_t vandq_s32(int32x4_t a, int32x4_t b); // VAND q0,q0,q0 -int64x2_t vandq_s64(int64x2_t a, int64x2_t b); // VAND q0,q0,q0 -uint8x16_t vandq_u8(uint8x16_t a, uint8x16_t b); // VAND q0,q0,q0 -uint16x8_t vandq_u16(uint16x8_t a, uint16x8_t b); // VAND q0,q0,q0 -uint32x4_t vandq_u32(uint32x4_t a, uint32x4_t b); // VAND q0,q0,q0 -uint64x2_t vandq_u64(uint64x2_t a, uint64x2_t b); // VAND q0,q0,q0 -//Bitwise or -int8x8_t vorr_s8(int8x8_t a, int8x8_t b); // VORR d0,d0,d0 -int16x4_t vorr_s16(int16x4_t a, int16x4_t b); // VORR d0,d0,d0 -int32x2_t vorr_s32(int32x2_t a, int32x2_t b); // VORR d0,d0,d0 -int64x1_t vorr_s64(int64x1_t a, int64x1_t b); // VORR d0,d0,d0 -uint8x8_t vorr_u8(uint8x8_t a, uint8x8_t b); // VORR d0,d0,d0 -uint16x4_t vorr_u16(uint16x4_t a, uint16x4_t b); // VORR d0,d0,d0 -uint32x2_t vorr_u32(uint32x2_t a, uint32x2_t b); // VORR d0,d0,d0 -uint64x1_t vorr_u64(uint64x1_t a, uint64x1_t b); // VORR d0,d0,d0 -int8x16_t vorrq_s8(int8x16_t a, int8x16_t b); // VORR q0,q0,q0 -int16x8_t vorrq_s16(int16x8_t a, int16x8_t b); // VORR q0,q0,q0 -int32x4_t vorrq_s32(int32x4_t a, int32x4_t b); // VORR q0,q0,q0 -int64x2_t vorrq_s64(int64x2_t a, int64x2_t b); // VORR q0,q0,q0 -uint8x16_t vorrq_u8(uint8x16_t a, uint8x16_t b); // VORR q0,q0,q0 -uint16x8_t vorrq_u16(uint16x8_t a, uint16x8_t b); // VORR q0,q0,q0 -uint32x4_t vorrq_u32(uint32x4_t a, uint32x4_t b); // VORR q0,q0,q0 -uint64x2_t vorrq_u64(uint64x2_t a, uint64x2_t b); // VORR q0,q0,q0 -//Bitwise exclusive or (EOR or XOR) -int8x8_t veor_s8(int8x8_t a, int8x8_t b); // VEOR d0,d0,d0 -int16x4_t veor_s16(int16x4_t a, int16x4_t b); // VEOR d0,d0,d0 -int32x2_t veor_s32(int32x2_t a, int32x2_t b); // VEOR d0,d0,d0 -int64x1_t veor_s64(int64x1_t a, int64x1_t b); // VEOR d0,d0,d0 -uint8x8_t veor_u8(uint8x8_t a, uint8x8_t b); // VEOR d0,d0,d0 -uint16x4_t veor_u16(uint16x4_t a, uint16x4_t b); // VEOR d0,d0,d0 -uint32x2_t veor_u32(uint32x2_t a, uint32x2_t b); // VEOR d0,d0,d0 -uint64x1_t veor_u64(uint64x1_t a, uint64x1_t b); // VEOR d0,d0,d0 -int8x16_t veorq_s8(int8x16_t a, int8x16_t b); // VEOR q0,q0,q0 -int16x8_t veorq_s16(int16x8_t a, int16x8_t b); // VEOR q0,q0,q0 -int32x4_t veorq_s32(int32x4_t a, int32x4_t b); // VEOR q0,q0,q0 -int64x2_t veorq_s64(int64x2_t a, int64x2_t b); // VEOR q0,q0,q0 -uint8x16_t veorq_u8(uint8x16_t a, uint8x16_t b); // VEOR q0,q0,q0 -uint16x8_t veorq_u16(uint16x8_t a, uint16x8_t b); // VEOR q0,q0,q0 -uint32x4_t veorq_u32(uint32x4_t a, uint32x4_t b); // VEOR q0,q0,q0 -uint64x2_t veorq_u64(uint64x2_t a, uint64x2_t b); // VEOR q0,q0,q0 -//Bit Clear -int8x8_t vbic_s8(int8x8_t a, int8x8_t b); // VBIC d0,d0,d0 -int16x4_t vbic_s16(int16x4_t a, int16x4_t b); // VBIC d0,d0,d0 -int32x2_t vbic_s32(int32x2_t a, int32x2_t b); // VBIC d0,d0,d0 -int64x1_t vbic_s64(int64x1_t a, int64x1_t b); // VBIC d0,d0,d0 -uint8x8_t vbic_u8(uint8x8_t a, uint8x8_t b); // VBIC d0,d0,d0 -uint16x4_t vbic_u16(uint16x4_t a, uint16x4_t b); // VBIC d0,d0,d0 -uint32x2_t vbic_u32(uint32x2_t a, uint32x2_t b); // VBIC d0,d0,d0 -uint64x1_t vbic_u64(uint64x1_t a, uint64x1_t b); // VBIC d0,d0,d0 -int8x16_t vbicq_s8(int8x16_t a, int8x16_t b); // VBIC q0,q0,q0 -int16x8_t vbicq_s16(int16x8_t a, int16x8_t b); // VBIC q0,q0,q0 -int32x4_t vbicq_s32(int32x4_t a, int32x4_t b); // VBIC q0,q0,q0 -int64x2_t vbicq_s64(int64x2_t a, int64x2_t b); // VBIC q0,q0,q0 -uint8x16_t vbicq_u8(uint8x16_t a, uint8x16_t b); // VBIC q0,q0,q0 -uint16x8_t vbicq_u16(uint16x8_t a, uint16x8_t b); // VBIC q0,q0,q0 -uint32x4_t vbicq_u32(uint32x4_t a, uint32x4_t b); // VBIC q0,q0,q0 -uint64x2_t vbicq_u64(uint64x2_t a, uint64x2_t b); // VBIC q0,q0,q0 -//Bitwise OR complement -int8x8_t vorn_s8(int8x8_t a, int8x8_t b); // VORN d0,d0,d0 -int16x4_t vorn_s16(int16x4_t a, int16x4_t b); // VORN d0,d0,d0 -int32x2_t vorn_s32(int32x2_t a, int32x2_t b); // VORN d0,d0,d0 -int64x1_t vorn_s64(int64x1_t a, int64x1_t b); // VORN d0,d0,d0 -uint8x8_t vorn_u8(uint8x8_t a, uint8x8_t b); // VORN d0,d0,d0 -uint16x4_t vorn_u16(uint16x4_t a, uint16x4_t b); // VORN d0,d0,d0 -uint32x2_t vorn_u32(uint32x2_t a, uint32x2_t b); // VORN d0,d0,d0 -uint64x1_t vorn_u64(uint64x1_t a, uint64x1_t b); // VORN d0,d0,d0 -int8x16_t vornq_s8(int8x16_t a, int8x16_t b); // VORN q0,q0,q0 -int16x8_t vornq_s16(int16x8_t a, int16x8_t b); // VORN q0,q0,q0 -int32x4_t vornq_s32(int32x4_t a, int32x4_t b); // VORN q0,q0,q0 -int64x2_t vornq_s64(int64x2_t a, int64x2_t b); // VORN q0,q0,q0 -uint8x16_t vornq_u8(uint8x16_t a, uint8x16_t b); // VORN q0,q0,q0 -uint16x8_t vornq_u16(uint16x8_t a, uint16x8_t b); // VORN q0,q0,q0 -uint32x4_t vornq_u32(uint32x4_t a, uint32x4_t b); // VORN q0,q0,q0 -uint64x2_t vornq_u64(uint64x2_t a, uint64x2_t b); // VORN q0,q0,q0 -//Bitwise Select -int8x8_t vbsl_s8(uint8x8_t a, int8x8_t b, int8x8_t c); // VBSL d0,d0,d0 -int16x4_t vbsl_s16(uint16x4_t a, int16x4_t b, int16x4_t c); // VBSL d0,d0,d0 -int32x2_t vbsl_s32(uint32x2_t a, int32x2_t b, int32x2_t c); // VBSL d0,d0,d0 -int64x1_t vbsl_s64(uint64x1_t a, int64x1_t b, int64x1_t c); // VBSL d0,d0,d0 -uint8x8_t vbsl_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VBSL d0,d0,d0 -uint16x4_t vbsl_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VBSL d0,d0,d0 -uint32x2_t vbsl_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VBSL d0,d0,d0 -uint64x1_t vbsl_u64(uint64x1_t a, uint64x1_t b, uint64x1_t c); // VBSL d0,d0,d0 -float32x2_t vbsl_f32(uint32x2_t a, float32x2_t b, float32x2_t c); // VBSL d0,d0,d0 -poly8x8_t vbsl_p8(uint8x8_t a, poly8x8_t b, poly8x8_t c); // VBSL d0,d0,d0 -poly16x4_t vbsl_p16(uint16x4_t a, poly16x4_t b, poly16x4_t c); // VBSL d0,d0,d0 -int8x16_t vbslq_s8(uint8x16_t a, int8x16_t b, int8x16_t c); // VBSL q0,q0,q0 -int16x8_t vbslq_s16(uint16x8_t a, int16x8_t b, int16x8_t c); // VBSL q0,q0,q0 -int32x4_t vbslq_s32(uint32x4_t a, int32x4_t b, int32x4_t c); // VBSL q0,q0,q0 -int64x2_t vbslq_s64(uint64x2_t a, int64x2_t b, int64x2_t c); // VBSL q0,q0,q0 -uint8x16_t vbslq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VBSL q0,q0,q0 -uint16x8_t vbslq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VBSL q0,q0,q0 -uint32x4_t vbslq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VBSL q0,q0,q0 -uint64x2_t vbslq_u64(uint64x2_t a, uint64x2_t b, uint64x2_t c); // VBSL q0,q0,q0 -float32x4_t vbslq_f32(uint32x4_t a, float32x4_t b, float32x4_t c); // VBSL q0,q0,q0 -poly8x16_t vbslq_p8(uint8x16_t a, poly8x16_t b, poly8x16_t c); // VBSL q0,q0,q0 -poly16x8_t vbslq_p16(uint16x8_t a, poly16x8_t b, poly16x8_t c); // VBSL q0,q0,q0 -//Transposition operations -//Transpose elements -int8x8x2_t vtrn_s8(int8x8_t a, int8x8_t b); // VTRN.8 d0,d0 -int16x4x2_t vtrn_s16(int16x4_t a, int16x4_t b); // VTRN.16 d0,d0 -int32x2x2_t vtrn_s32(int32x2_t a, int32x2_t b); // VTRN.32 d0,d0 -uint8x8x2_t vtrn_u8(uint8x8_t a, uint8x8_t b); // VTRN.8 d0,d0 -uint16x4x2_t vtrn_u16(uint16x4_t a, uint16x4_t b); // VTRN.16 d0,d0 -uint32x2x2_t vtrn_u32(uint32x2_t a, uint32x2_t b); // VTRN.32 d0,d0 -float32x2x2_t vtrn_f32(float32x2_t a, float32x2_t b); // VTRN.32 d0,d0 -poly8x8x2_t vtrn_p8(poly8x8_t a, poly8x8_t b); // VTRN.8 d0,d0 -poly16x4x2_t vtrn_p16(poly16x4_t a, poly16x4_t b); // VTRN.16 d0,d0 -int8x16x2_t vtrnq_s8(int8x16_t a, int8x16_t b); // VTRN.8 q0,q0 -int16x8x2_t vtrnq_s16(int16x8_t a, int16x8_t b); // VTRN.16 q0,q0 -int32x4x2_t vtrnq_s32(int32x4_t a, int32x4_t b); // VTRN.32 q0,q0 -uint8x16x2_t vtrnq_u8(uint8x16_t a, uint8x16_t b); // VTRN.8 q0,q0 -uint16x8x2_t vtrnq_u16(uint16x8_t a, uint16x8_t b); // VTRN.16 q0,q0 -uint32x4x2_t vtrnq_u32(uint32x4_t a, uint32x4_t b); // VTRN.32 q0,q0 -float32x4x2_t vtrnq_f32(float32x4_t a, float32x4_t b); // VTRN.32 q0,q0 -poly8x16x2_t vtrnq_p8(poly8x16_t a, poly8x16_t b); // VTRN.8 q0,q0 -poly16x8x2_t vtrnq_p16(poly16x8_t a, poly16x8_t b); // VTRN.16 q0,q0 -//Interleave elements -int8x8x2_t vzip_s8(int8x8_t a, int8x8_t b); // VZIP.8 d0,d0 -int16x4x2_t vzip_s16(int16x4_t a, int16x4_t b); // VZIP.16 d0,d0 -int32x2x2_t vzip_s32(int32x2_t a, int32x2_t b); // VZIP.32 d0,d0 -uint8x8x2_t vzip_u8(uint8x8_t a, uint8x8_t b); // VZIP.8 d0,d0 -uint16x4x2_t vzip_u16(uint16x4_t a, uint16x4_t b); // VZIP.16 d0,d0 -uint32x2x2_t vzip_u32(uint32x2_t a, uint32x2_t b); // VZIP.32 d0,d0 -float32x2x2_t vzip_f32(float32x2_t a, float32x2_t b); // VZIP.32 d0,d0 -poly8x8x2_t vzip_p8(poly8x8_t a, poly8x8_t b); // VZIP.8 d0,d0 -poly16x4x2_t vzip_p16(poly16x4_t a, poly16x4_t b); // VZIP.16 d0,d0 -int8x16x2_t vzipq_s8(int8x16_t a, int8x16_t b); // VZIP.8 q0,q0 -int16x8x2_t vzipq_s16(int16x8_t a, int16x8_t b); // VZIP.16 q0,q0 -int32x4x2_t vzipq_s32(int32x4_t a, int32x4_t b); // VZIP.32 q0,q0 -uint8x16x2_t vzipq_u8(uint8x16_t a, uint8x16_t b); // VZIP.8 q0,q0 -uint16x8x2_t vzipq_u16(uint16x8_t a, uint16x8_t b); // VZIP.16 q0,q0 -uint32x4x2_t vzipq_u32(uint32x4_t a, uint32x4_t b); // VZIP.32 q0,q0 -float32x4x2_t vzipq_f32(float32x4_t a, float32x4_t b); // VZIP.32 q0,q0 -poly8x16x2_t vzipq_p8(poly8x16_t a, poly8x16_t b); // VZIP.8 q0,q0 -poly16x8x2_t vzipq_p16(poly16x8_t a, poly16x8_t b); // VZIP.16 q0,q0 -//De-Interleave elements -int8x8x2_t vuzp_s8(int8x8_t a, int8x8_t b); // VUZP.8 d0,d0 -int16x4x2_t vuzp_s16(int16x4_t a, int16x4_t b); // VUZP.16 d0,d0 -int32x2x2_t vuzp_s32(int32x2_t a, int32x2_t b); // VUZP.32 d0,d0 -uint8x8x2_t vuzp_u8(uint8x8_t a, uint8x8_t b); // VUZP.8 d0,d0 -uint16x4x2_t vuzp_u16(uint16x4_t a, uint16x4_t b); // VUZP.16 d0,d0 -uint32x2x2_t vuzp_u32(uint32x2_t a, uint32x2_t b); // VUZP.32 d0,d0 -float32x2x2_t vuzp_f32(float32x2_t a, float32x2_t b); // VUZP.32 d0,d0 -poly8x8x2_t vuzp_p8(poly8x8_t a, poly8x8_t b); // VUZP.8 d0,d0 -poly16x4x2_t vuzp_p16(poly16x4_t a, poly16x4_t b); // VUZP.16 d0,d0 -int8x16x2_t vuzpq_s8(int8x16_t a, int8x16_t b); // VUZP.8 q0,q0 -int16x8x2_t vuzpq_s16(int16x8_t a, int16x8_t b); // VUZP.16 q0,q0 -int32x4x2_t vuzpq_s32(int32x4_t a, int32x4_t b); // VUZP.32 q0,q0 -uint8x16x2_t vuzpq_u8(uint8x16_t a, uint8x16_t b); // VUZP.8 q0,q0 -uint16x8x2_t vuzpq_u16(uint16x8_t a, uint16x8_t b); // VUZP.16 q0,q0 -uint32x4x2_t vuzpq_u32(uint32x4_t a, uint32x4_t b); // VUZP.32 q0,q0 -float32x4x2_t vuzpq_f32(float32x4_t a, float32x4_t b); // VUZP.32 q0,q0 -poly8x16x2_t vuzpq_p8(poly8x16_t a, poly8x16_t b); // VUZP.8 q0,q0 -poly16x8x2_t vuzpq_p16(poly16x8_t a, poly16x8_t b); // VUZP.16 q0,q0 - - -//^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ -// the following macros solve the problem of the "immediate parameters requirement" for some x86 intrinsics. While for release build it is not a must, -//for debug build we need it to compile the code unless the "Intrinsic parameter must be an immediate value" error is our goal -// -#if ( ((defined _MSC_VER) && (_MSC_VER > 1600)) || defined (__INTEL_COMPILER) )&& defined NDEBUG //if it is a release build, we also need it to fix the issue for VS2010 and earlier compilers. - - #define _MM_ALIGNR_EPI8 _mm_alignr_epi8 - - #define _MM_EXTRACT_EPI16 _mm_extract_epi16 - #define _MM_INSERT_EPI16 _mm_insert_epi16 -#ifdef USE_SSE4 - #define _MM_EXTRACT_EPI8 _mm_extract_epi8 - #define _MM_EXTRACT_EPI32 _mm_extract_epi32 - #define _MM_EXTRACT_PS _mm_extract_ps - - #define _MM_INSERT_EPI8 _mm_insert_epi8 - #define _MM_INSERT_EPI32 _mm_insert_epi32 - #define _MM_INSERT_PS _mm_insert_ps -#ifdef _NEON2SSE_64BIT - #define _MM_INSERT_EPI64 _mm_insert_epi64 - #define _MM_EXTRACT_EPI64 _mm_extract_epi64 -#endif -#endif //SSE4 -#else - #define _NEON2SSE_COMMA , - #define _NEON2SSE_SWITCH16(NAME, a, b, LANE) \ - switch(LANE) \ - { \ - case 0: return NAME(a b, 0); \ - case 1: return NAME(a b, 1); \ - case 2: return NAME(a b, 2); \ - case 3: return NAME(a b, 3); \ - case 4: return NAME(a b, 4); \ - case 5: return NAME(a b, 5); \ - case 6: return NAME(a b, 6); \ - case 7: return NAME(a b, 7); \ - case 8: return NAME(a b, 8); \ - case 9: return NAME(a b, 9); \ - case 10: return NAME(a b, 10); \ - case 11: return NAME(a b, 11); \ - case 12: return NAME(a b, 12); \ - case 13: return NAME(a b, 13); \ - case 14: return NAME(a b, 14); \ - case 15: return NAME(a b, 15); \ - default: return NAME(a b, 0); \ - } - - #define _NEON2SSE_SWITCH8(NAME, vec, LANE, p) \ - switch(LANE) \ - { \ - case 0: return NAME(vec p,0); \ - case 1: return NAME(vec p,1); \ - case 2: return NAME(vec p,2); \ - case 3: return NAME(vec p,3); \ - case 4: return NAME(vec p,4); \ - case 5: return NAME(vec p,5); \ - case 6: return NAME(vec p,6); \ - case 7: return NAME(vec p,7); \ - default: return NAME(vec p,0); \ - } - - #define _NEON2SSE_SWITCH4(NAME, case0, case1, case2, case3, vec, LANE, p) \ - switch(LANE) \ - { \ - case case0: return NAME(vec p,case0); \ - case case1: return NAME(vec p,case1); \ - case case2: return NAME(vec p,case2); \ - case case3: return NAME(vec p,case3); \ - default: return NAME(vec p,case0); \ - } - - _NEON2SSE_INLINE __m128i _MM_ALIGNR_EPI8(__m128i a, __m128i b, int LANE) - { - _NEON2SSE_SWITCH16(_mm_alignr_epi8, a, _NEON2SSE_COMMA b, LANE) - } - - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI16(__m128i vec, int p, const int LANE) - { - _NEON2SSE_SWITCH8(_mm_insert_epi16, vec, LANE, _NEON2SSE_COMMA p) - } - - _NEON2SSE_INLINE int _MM_EXTRACT_EPI16(__m128i vec, const int LANE) - { - _NEON2SSE_SWITCH8(_mm_extract_epi16, vec, LANE,) - } - -#ifdef USE_SSE4 - _NEON2SSE_INLINE int _MM_EXTRACT_EPI32(__m128i vec, const int LANE) - { - _NEON2SSE_SWITCH4(_mm_extract_epi32, 0,1,2,3, vec, LANE,) - } - - _NEON2SSE_INLINE int _MM_EXTRACT_PS(__m128 vec, const int LANE) - { - _NEON2SSE_SWITCH4(_mm_extract_ps, 0,1,2,3, vec, LANE,) - } - - _NEON2SSE_INLINE int _MM_EXTRACT_EPI8(__m128i vec, const int LANE) - { - _NEON2SSE_SWITCH16(_mm_extract_epi8, vec, , LANE) - } - - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI32(__m128i vec, int p, const int LANE) - { - _NEON2SSE_SWITCH4(_mm_insert_epi32, 0, 1, 2, 3, vec, LANE, _NEON2SSE_COMMA p) - } - - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI8(__m128i vec, int p, const int LANE) - { - _NEON2SSE_SWITCH16(_mm_insert_epi8, vec, _NEON2SSE_COMMA p, LANE) - } - -#ifdef _NEON2SSE_64BIT - //the special case of functions available only for SSE4 and 64-bit build. - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI64(__m128i vec, int p, const int LANE) - { - switch(LANE) { - case 0: - return _mm_insert_epi64(vec, p, 0); - case 1: - return _mm_insert_epi64(vec, p, 1); - default: - return _mm_insert_epi64(vec, p, 0); - } - } - - _NEON2SSE_INLINE int64_t _MM_EXTRACT_EPI64(__m128i val, const int LANE) - { - if (LANE ==0) return _mm_extract_epi64(val, 0); - else return _mm_extract_epi64(val, 1); - } -#endif - - _NEON2SSE_INLINE __m128 _MM_INSERT_PS(__m128 vec, __m128 p, const int LANE) - { - _NEON2SSE_SWITCH4(_mm_insert_ps, 0, 16, 32, 48, vec, LANE, _NEON2SSE_COMMA p) - } - -#endif //USE_SSE4 - -#endif //#ifdef NDEBUG - -//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -// Below are some helper functions used either for SSE4 intrinsics "emulation" for SSSE3 limited devices -// or for some specific commonly used operations implementation missing in SSE -#ifdef USE_SSE4 - #define _MM_CVTEPU8_EPI16 _mm_cvtepu8_epi16 - #define _MM_CVTEPU16_EPI32 _mm_cvtepu16_epi32 - #define _MM_CVTEPU32_EPI64 _mm_cvtepu32_epi64 - - #define _MM_CVTEPI8_EPI16 _mm_cvtepi8_epi16 - #define _MM_CVTEPI16_EPI32 _mm_cvtepi16_epi32 - #define _MM_CVTEPI32_EPI64 _mm_cvtepi32_epi64 - - #define _MM_MAX_EPI8 _mm_max_epi8 - #define _MM_MAX_EPI32 _mm_max_epi32 - #define _MM_MAX_EPU16 _mm_max_epu16 - #define _MM_MAX_EPU32 _mm_max_epu32 - - #define _MM_MIN_EPI8 _mm_min_epi8 - #define _MM_MIN_EPI32 _mm_min_epi32 - #define _MM_MIN_EPU16 _mm_min_epu16 - #define _MM_MIN_EPU32 _mm_min_epu32 - - #define _MM_BLENDV_EPI8 _mm_blendv_epi8 - #define _MM_PACKUS_EPI32 _mm_packus_epi32 - #define _MM_PACKUS1_EPI32(a) _mm_packus_epi32(a, a) - - #define _MM_MULLO_EPI32 _mm_mullo_epi32 - #define _MM_MUL_EPI32 _mm_mul_epi32 - - #define _MM_CMPEQ_EPI64 _mm_cmpeq_epi64 -#else //no SSE4 !!!!!! - _NEON2SSE_INLINE __m128i _MM_CVTEPU8_EPI16(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - return _mm_unpacklo_epi8(a, zero); - } - - _NEON2SSE_INLINE __m128i _MM_CVTEPU16_EPI32(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - return _mm_unpacklo_epi16(a, zero); - } - - _NEON2SSE_INLINE __m128i _MM_CVTEPU32_EPI64(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - return _mm_unpacklo_epi32(a, zero); - } - - _NEON2SSE_INLINE __m128i _MM_CVTEPI8_EPI16(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - __m128i sign = _mm_cmpgt_epi8(zero, a); - return _mm_unpacklo_epi8(a, sign); - } - - _NEON2SSE_INLINE __m128i _MM_CVTEPI16_EPI32(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - __m128i sign = _mm_cmpgt_epi16(zero, a); - return _mm_unpacklo_epi16(a, sign); - } - - _NEON2SSE_INLINE __m128i _MM_CVTEPI32_EPI64(__m128i a) - { - __m128i zero = _mm_setzero_si128(); - __m128i sign = _mm_cmpgt_epi32(zero, a); - return _mm_unpacklo_epi32(a, sign); - } - - _NEON2SSE_INLINE int _MM_EXTRACT_EPI32(__m128i vec, const int LANE) - { - _NEON2SSE_ALIGN_16 int32_t tmp[4]; - _mm_store_si128((__m128i*)tmp, vec); - return tmp[LANE]; - } - - _NEON2SSE_INLINE int _MM_EXTRACT_EPI8(__m128i vec, const int LANE) - { - _NEON2SSE_ALIGN_16 int8_t tmp[16]; - _mm_store_si128((__m128i*)tmp, vec); - return (int)tmp[LANE]; - } - - _NEON2SSE_INLINE int _MM_EXTRACT_PS(__m128 vec, const int LANE) - { - _NEON2SSE_ALIGN_16 int32_t tmp[4]; - _mm_store_si128((__m128i*)tmp, _M128i(vec)); - return tmp[LANE]; - } - - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI32(__m128i vec, int p, const int LANE) - { - _NEON2SSE_ALIGN_16 int32_t pvec[4] = {0,0,0,0}; - _NEON2SSE_ALIGN_16 uint32_t mask[4] = {0xffffffff,0xffffffff,0xffffffff,0xffffffff}; - __m128i vec_masked, p_masked; - pvec[LANE] = p; - mask[LANE] = 0x0; - vec_masked = _mm_and_si128 (*(__m128i*)mask,vec); //ready for p - p_masked = _mm_andnot_si128 (*(__m128i*)mask,*(__m128i*)pvec); //ready for vec - return _mm_or_si128(vec_masked, p_masked); - } - - _NEON2SSE_INLINE __m128i _MM_INSERT_EPI8(__m128i vec, int p, const int LANE) - { - _NEON2SSE_ALIGN_16 int8_t pvec[16] = {0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0}; - _NEON2SSE_ALIGN_16 uint8_t mask[16] = {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff}; - __m128i vec_masked, p_masked; - pvec[LANE] = (int8_t)p; - mask[LANE] = 0x0; - vec_masked = _mm_and_si128 (*(__m128i*)mask,vec); //ready for p - p_masked = _mm_andnot_si128 (*(__m128i*)mask,*(__m128i*)pvec); //ready for vec - return _mm_or_si128(vec_masked, p_masked); - } - - _NEON2SSE_INLINE __m128 _MM_INSERT_PS(__m128 vec, __m128 p, const int LANE) - { - _NEON2SSE_ALIGN_16 int32_t mask[4] = {0xffffffff,0xffffffff,0xffffffff,0xffffffff}; - __m128 tmp, vec_masked, p_masked; - mask[LANE >> 4] = 0x0; //here the LANE is not actural lane, need to deal with it - vec_masked = _mm_and_ps (*(__m128*)mask,vec); //ready for p - p_masked = _mm_andnot_ps (*(__m128*)mask, p); //ready for vec - tmp = _mm_or_ps(vec_masked, p_masked); - return tmp; - } - - _NEON2SSE_INLINE __m128i _MM_MAX_EPI8(__m128i a, __m128i b) - { - __m128i cmp, resa, resb; - cmp = _mm_cmpgt_epi8 (a, b); - resa = _mm_and_si128 (cmp, a); - resb = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(resa, resb); - } - - _NEON2SSE_INLINE __m128i _MM_MAX_EPI32(__m128i a, __m128i b) - { - __m128i cmp, resa, resb; - cmp = _mm_cmpgt_epi32(a, b); - resa = _mm_and_si128 (cmp, a); - resb = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(resa, resb); - } - - _NEON2SSE_INLINE __m128i _MM_MAX_EPU16(__m128i a, __m128i b) - { - __m128i c8000, b_s, a_s, cmp; - c8000 = _mm_cmpeq_epi16 (a,a); //0xffff - c8000 = _mm_slli_epi16 (c8000, 15); //0x8000 - b_s = _mm_sub_epi16 (b, c8000); - a_s = _mm_sub_epi16 (a, c8000); - cmp = _mm_cmpgt_epi16 (a_s, b_s); //no unsigned comparison, need to go to signed - a_s = _mm_and_si128 (cmp,a); - b_s = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(a_s, b_s); - } - - _NEON2SSE_INLINE __m128i _MM_MAX_EPU32(__m128i a, __m128i b) - { - __m128i c80000000, b_s, a_s, cmp; - c80000000 = _mm_cmpeq_epi32 (a,a); //0xffffffff - c80000000 = _mm_slli_epi32 (c80000000, 31); //0x80000000 - b_s = _mm_sub_epi32 (b, c80000000); - a_s = _mm_sub_epi32 (a, c80000000); - cmp = _mm_cmpgt_epi32 (a_s, b_s); //no unsigned comparison, need to go to signed - a_s = _mm_and_si128 (cmp,a); - b_s = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(a_s, b_s); - } - - _NEON2SSE_INLINE __m128i _MM_MIN_EPI8(__m128i a, __m128i b) - { - __m128i cmp, resa, resb; - cmp = _mm_cmpgt_epi8 (b, a); - resa = _mm_and_si128 (cmp, a); - resb = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(resa, resb); - } - - _NEON2SSE_INLINE __m128i _MM_MIN_EPI32(__m128i a, __m128i b) - { - __m128i cmp, resa, resb; - cmp = _mm_cmpgt_epi32(b, a); - resa = _mm_and_si128 (cmp, a); - resb = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(resa, resb); - } - - _NEON2SSE_INLINE __m128i _MM_MIN_EPU16(__m128i a, __m128i b) - { - __m128i c8000, b_s, a_s, cmp; - c8000 = _mm_cmpeq_epi16 (a,a); //0xffff - c8000 = _mm_slli_epi16 (c8000, 15); //0x8000 - b_s = _mm_sub_epi16 (b, c8000); - a_s = _mm_sub_epi16 (a, c8000); - cmp = _mm_cmpgt_epi16 (b_s, a_s); //no unsigned comparison, need to go to signed - a_s = _mm_and_si128 (cmp,a); - b_s = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(a_s, b_s); - } - - _NEON2SSE_INLINE __m128i _MM_MIN_EPU32(__m128i a, __m128i b) - { - __m128i c80000000, b_s, a_s, cmp; - c80000000 = _mm_cmpeq_epi32 (a,a); //0xffffffff - c80000000 = _mm_slli_epi32 (c80000000, 31); //0x80000000 - b_s = _mm_sub_epi32 (b, c80000000); - a_s = _mm_sub_epi32 (a, c80000000); - cmp = _mm_cmpgt_epi32 (b_s, a_s); //no unsigned comparison, need to go to signed - a_s = _mm_and_si128 (cmp,a); - b_s = _mm_andnot_si128 (cmp,b); - return _mm_or_si128(a_s, b_s); - } - - _NEON2SSE_INLINE __m128i _MM_BLENDV_EPI8(__m128i a, __m128i b, __m128i mask) //this is NOT exact implementation of _mm_blendv_epi8 !!!!! - please see below - { - //it assumes mask is either 0xff or 0 always (like in all usecases below) while for the original _mm_blendv_epi8 only MSB mask byte matters. - __m128i a_masked, b_masked; - b_masked = _mm_and_si128 (mask,b); //use b if mask 0xff - a_masked = _mm_andnot_si128 (mask,a); - return _mm_or_si128(a_masked, b_masked); - } - - _NEON2SSE_INLINE __m128i _MM_PACKUS_EPI32(__m128i a, __m128i b) - { - _NEON2SSE_ALIGN_16 int8_t mask8_32_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7,10,11,14,15}; - __m128i a16, b16, res, reshi,cmp, zero; - zero = _mm_setzero_si128(); - a16 = _mm_shuffle_epi8 (a, *(__m128i*) mask8_32_even_odd); - b16 = _mm_shuffle_epi8 (b, *(__m128i*) mask8_32_even_odd); - res = _mm_unpacklo_epi64(a16, b16); //result without saturation - reshi = _mm_unpackhi_epi64(a16, b16); //hi part of result used for saturation - cmp = _mm_cmpgt_epi16(zero, reshi); //if cmp<0 the result should be zero - res = _mm_andnot_si128(cmp,res); //if cmp zero - do nothing, otherwise cmp <0 and the result is 0 - cmp = _mm_cmpgt_epi16(reshi,zero); //if cmp positive - return _mm_or_si128(res, cmp); //if cmp positive we are out of 16bits need to saturaate to 0xffff - } - - _NEON2SSE_INLINE __m128i _MM_PACKUS1_EPI32(__m128i a) - { - _NEON2SSE_ALIGN_16 int8_t mask8_32_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7,10,11,14,15}; - __m128i a16, res, reshi,cmp, zero; - zero = _mm_setzero_si128(); - a16 = _mm_shuffle_epi8 (a, *(__m128i*)mask8_32_even_odd); - reshi = _mm_unpackhi_epi64(a16, a16); //hi part of result used for saturation - cmp = _mm_cmpgt_epi16(zero, reshi); //if cmp<0 the result should be zero - res = _mm_andnot_si128(cmp, a16); //if cmp zero - do nothing, otherwise cmp <0 and the result is 0 - cmp = _mm_cmpgt_epi16(reshi,zero); //if cmp positive - return _mm_or_si128(res, cmp); //if cmp positive we are out of 16bits need to saturaate to 0xffff - } - - - _NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(__m128i _MM_MULLO_EPI32(__m128i a, __m128i b), _NEON2SSE_REASON_SLOW_SERIAL) - { - _NEON2SSE_ALIGN_16 int32_t atmp[4], btmp[4], res[4]; - int64_t res64; - int i; - _mm_store_si128((__m128i*)atmp, a); - _mm_store_si128((__m128i*)btmp, b); - for (i = 0; i<4; i++) { - res64 = atmp[i] * btmp[i]; - res[i] = (int)(res64 & 0xffffffff); - } - return _mm_load_si128((__m128i*)res); - } - - _NEON2SSE_INLINE __m128i _MM_MUL_EPI32(__m128i a, __m128i b) - { - __m128i sign, zero, mul_us, a_neg, b_neg, mul_us_neg; - sign = _mm_xor_si128 (a, b); - sign = _mm_srai_epi32 (sign, 31); //promote sign bit to all fields, all fff if negative and all 0 if positive - zero = _mm_setzero_si128(); - a_neg = _mm_abs_epi32 (a); //negate a and b - b_neg = _mm_abs_epi32 (b); //negate a and b - mul_us = _mm_mul_epu32 (a_neg, b_neg); //uses 0 and 2nd data lanes, (abs), the multiplication gives 64 bit result - mul_us_neg = _mm_sub_epi64(zero, mul_us); - mul_us_neg = _mm_and_si128(sign, mul_us_neg); - mul_us = _mm_andnot_si128(sign, mul_us); - return _mm_or_si128 (mul_us, mul_us_neg); - } - - _NEON2SSE_INLINE __m128i _MM_CMPEQ_EPI64(__m128i a, __m128i b) - { - __m128i res; - res = _mm_cmpeq_epi32 (a, b); - return _mm_shuffle_epi32 (res, 1 | (1 << 2) | (3 << 4) | (3 << 6)); //copy the information from hi to low part of the 64 bit data - } -#endif //SSE4 - -//the special case of functions working only for 32 bits, no SSE4 -_NEON2SSE_INLINE __m128i _MM_INSERT_EPI64_32(__m128i vec, int p, const int LANE) -{ - _NEON2SSE_ALIGN_16 uint64_t pvec[2] = {0,0}; - _NEON2SSE_ALIGN_16 uint64_t mask[2] = {0xffffffffffffffff, 0xffffffffffffffff}; - __m128i vec_masked, p_masked; - pvec[LANE] = p; - mask[LANE] = 0x0; - vec_masked = _mm_and_si128 (*(__m128i*)mask,vec); //ready for p - p_masked = _mm_andnot_si128 (*(__m128i*)mask,*(__m128i*)pvec); //ready for vec - return _mm_or_si128(vec_masked, p_masked); -} - -_NEON2SSE_INLINE int64_t _MM_EXTRACT_EPI64_32(__m128i val, const int LANE) -{ - _NEON2SSE_ALIGN_16 int64_t tmp[2]; - _mm_store_si128((__m128i*)tmp, val); - return tmp[LANE]; -} - -#ifndef _NEON2SSE_64BIT_SSE4 - #define _MM_INSERT_EPI64 _MM_INSERT_EPI64_32 - #define _MM_EXTRACT_EPI64 _MM_EXTRACT_EPI64_32 -#endif - -int32x4_t vqd_s32(int32x4_t a); //Doubling saturation for signed ints -_NEON2SSE_INLINE int32x4_t vqd_s32(int32x4_t a) -{ - //Overflow happens only if a and sum have the opposite signs - __m128i c7fffffff, res, res_sat, res_xor_a; - c7fffffff = _mm_set1_epi32(0x7fffffff); - res = _mm_slli_epi32 (a, 1); // res = a*2 - res_sat = _mm_srli_epi32(a, 31); - res_sat = _mm_add_epi32(res_sat, c7fffffff); - res_xor_a = _mm_xor_si128(res, a); - res_xor_a = _mm_srai_epi32(res_xor_a,31); //propagate the sigh bit, all ffff if <0 all ones otherwise - res_sat = _mm_and_si128(res_xor_a, res_sat); - res = _mm_andnot_si128(res_xor_a, res); - return _mm_or_si128(res, res_sat); -} - - -//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! -//************************************************************************* -//************************************************************************* -//***************** Functions redefinition\implementatin starts here ***** -//************************************************************************* -//************************************************************************* -//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! - -/*If the unified intrinsics solutions is necessary please define your SSE intrinsics wrap here like in the following sample: -#ifdef ARM -#define vector_addq_s32 _mm_add_epi32 -#else //if we have IA -#define vector_addq_s32 vadd_s32 -#endif - -******************************************************************************************** -Functions below are organised in the following way: - -Each NEON intrinsic function has one of the following options: -1. its x86 full equivalent SSE intrinsic - in this case x86 version just follows the NEON one under the corresponding #define statement -2. x86 implementation using more than one x86 intrinsics. In this case it is shaped as inlined C function with return statement -3. the reference to the NEON function returning the same result and implemented in x86 as above. In this case it is shaped as matching NEON function definition -4. for about 5% of functions due to the corresponding x86 SIMD unavailability or inefficiency in terms of performance -the serial implementation is provided along with the corresponding compiler warning. If these functions are on your app critical path -- please consider such functions removal from your code. -*/ - -//*********************************************************************** -//************************ Vector add ***************************** -//*********************************************************************** -int8x8_t vadd_s8(int8x8_t a, int8x8_t b); // VADD.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vadd_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_add_epi8(_pM128i(a),_pM128i(b))); -} - - -int16x4_t vadd_s16(int16x4_t a, int16x4_t b); // VADD.I16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vadd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_add_epi16(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vadd_s32(int32x2_t a, int32x2_t b); // VADD.I32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vadd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_add_epi32(_pM128i(a),_pM128i(b))); -} - - -int64x1_t vadd_s64(int64x1_t a, int64x1_t b); // VADD.I64 d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vadd_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res64; - res64.m64_i64[0] = a.m64_i64[0] + b.m64_i64[0]; - return res64; -} - - -float32x2_t vadd_f32(float32x2_t a, float32x2_t b); // VADD.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vadd_f32(float32x2_t a, float32x2_t b) -{ - __m128 res; - __m64_128 res64; - res = _mm_add_ps(_pM128(a),_pM128(b)); //SSE, use only low 64 bits - _M64f(res64, res); - return res64; -} - -uint8x8_t vadd_u8(uint8x8_t a, uint8x8_t b); // VADD.I8 d0,d0,d0 -#define vadd_u8 vadd_s8 - -uint16x4_t vadd_u16(uint16x4_t a, uint16x4_t b); // VADD.I16 d0,d0,d0 -#define vadd_u16 vadd_s16 - -uint32x2_t vadd_u32(uint32x2_t a, uint32x2_t b); // VADD.I32 d0,d0,d0 -#define vadd_u32 vadd_s32 - -uint64x1_t vadd_u64(uint64x1_t a, uint64x1_t b); // VADD.I64 d0,d0,d0 -_NEON2SSE_INLINE uint64x1_t vadd_u64(uint64x1_t a, uint64x1_t b) -{ - uint64x1_t res64; - res64.m64_u64[0] = a.m64_u64[0] + b.m64_u64[0]; - return res64; -} - - -int8x16_t vaddq_s8(int8x16_t a, int8x16_t b); // VADD.I8 q0,q0,q0 -#define vaddq_s8 _mm_add_epi8 - -int16x8_t vaddq_s16(int16x8_t a, int16x8_t b); // VADD.I16 q0,q0,q0 -#define vaddq_s16 _mm_add_epi16 - -int32x4_t vaddq_s32(int32x4_t a, int32x4_t b); // VADD.I32 q0,q0,q0 -#define vaddq_s32 _mm_add_epi32 - -int64x2_t vaddq_s64(int64x2_t a, int64x2_t b); // VADD.I64 q0,q0,q0 -#define vaddq_s64 _mm_add_epi64 - -float32x4_t vaddq_f32(float32x4_t a, float32x4_t b); // VADD.F32 q0,q0,q0 -#define vaddq_f32 _mm_add_ps - -uint8x16_t vaddq_u8(uint8x16_t a, uint8x16_t b); // VADD.I8 q0,q0,q0 -#define vaddq_u8 _mm_add_epi8 - -uint16x8_t vaddq_u16(uint16x8_t a, uint16x8_t b); // VADD.I16 q0,q0,q0 -#define vaddq_u16 _mm_add_epi16 - -uint32x4_t vaddq_u32(uint32x4_t a, uint32x4_t b); // VADD.I32 q0,q0,q0 -#define vaddq_u32 _mm_add_epi32 - -uint64x2_t vaddq_u64(uint64x2_t a, uint64x2_t b); // VADD.I64 q0,q0,q0 -#define vaddq_u64 _mm_add_epi64 - -//**************************** Vector long add *****************************: -//*********************************************************************** -//Va, Vb have equal lane sizes, result is a 128 bit vector of lanes that are twice the width. -int16x8_t vaddl_s8(int8x8_t a, int8x8_t b); // VADDL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vaddl_s8(int8x8_t a, int8x8_t b) // VADDL.S8 q0,d0,d0 -{ - __m128i a16, b16; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE4.1, - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_add_epi16 (a16, b16); -} - -int32x4_t vaddl_s16(int16x4_t a, int16x4_t b); // VADDL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vaddl_s16(int16x4_t a, int16x4_t b) // VADDL.S16 q0,d0,d0 -{ - __m128i a32, b32; - a32 = _MM_CVTEPI16_EPI32 (_pM128i(a)); //SSE4.1 - b32 = _MM_CVTEPI16_EPI32 (_pM128i(b)); //SSE4.1 - return _mm_add_epi32 (a32, b32); -} - -int64x2_t vaddl_s32(int32x2_t a, int32x2_t b); // VADDL.S32 q0,d0,d0 -_NEON2SSE_INLINE int64x2_t vaddl_s32(int32x2_t a, int32x2_t b) // VADDL.S32 q0,d0,d0 -{ - //may be not optimal - __m128i a64, b64; - a64 = _MM_CVTEPI32_EPI64 (_pM128i(a)); //SSE4.1 - b64 = _MM_CVTEPI32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_add_epi64 ( a64, b64); -} - -uint16x8_t vaddl_u8(uint8x8_t a, uint8x8_t b); // VADDL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vaddl_u8(uint8x8_t a, uint8x8_t b) // VADDL.U8 q0,d0,d0 -{ - __m128i a16, b16; - a16 = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE4.1 - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); //SSE4.1 - return _mm_add_epi16 (a16, b16); -} - -uint32x4_t vaddl_u16(uint16x4_t a, uint16x4_t b); // VADDL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vaddl_u16(uint16x4_t a, uint16x4_t b) // VADDL.s16 q0,d0,d0 -{ - __m128i a32, b32; - a32 = _MM_CVTEPU16_EPI32 (_pM128i(a)); //SSE4.1 - b32 = _MM_CVTEPU16_EPI32 (_pM128i(b)); //SSE4.1 - return _mm_add_epi32 (a32, b32); -} - -uint64x2_t vaddl_u32(uint32x2_t a, uint32x2_t b); // VADDL.U32 q0,d0,d0 -_NEON2SSE_INLINE uint64x2_t vaddl_u32(uint32x2_t a, uint32x2_t b) // VADDL.U32 q0,d0,d0 -{ - //may be not optimal - __m128i a64, b64; - a64 = _MM_CVTEPU32_EPI64 (_pM128i(a)); //SSE4.1 - b64 = _MM_CVTEPU32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_add_epi64 (a64, b64); -} - -//*************** Vector wide add: vaddw_<type>. Vr[i]:=Va[i]+Vb[i] ****************** -//*************** ********************************************************************* -int16x8_t vaddw_s8(int16x8_t a, int8x8_t b); // VADDW.S8 q0,q0,d0 -_NEON2SSE_INLINE int16x8_t vaddw_s8(int16x8_t a, int8x8_t b) // VADDW.S8 q0,q0,d0 -{ - __m128i b16; - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_add_epi16 (a, b16); -} - -int32x4_t vaddw_s16(int32x4_t a, int16x4_t b); // VADDW.S16 q0,q0,d0 -_NEON2SSE_INLINE int32x4_t vaddw_s16(int32x4_t a, int16x4_t b) // VADDW.S16 q0,q0,d0 -{ - __m128i b32; - b32 = _MM_CVTEPI16_EPI32(_pM128i(b)); //SSE4.1, - return _mm_add_epi32 (a, b32); -} - -int64x2_t vaddw_s32(int64x2_t a, int32x2_t b); // VADDW.S32 q0,q0,d0 -_NEON2SSE_INLINE int64x2_t vaddw_s32(int64x2_t a, int32x2_t b) // VADDW.S32 q0,q0,d0 -{ - __m128i b64; - b64 = _MM_CVTEPI32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_add_epi64 (a, b64); -} - -uint16x8_t vaddw_u8(uint16x8_t a, uint8x8_t b); // VADDW.U8 q0,q0,d0 -_NEON2SSE_INLINE uint16x8_t vaddw_u8(uint16x8_t a, uint8x8_t b) // VADDW.U8 q0,q0,d0 -{ - __m128i b16; - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); //SSE4.1 - return _mm_add_epi16 (a, b16); -} - -uint32x4_t vaddw_u16(uint32x4_t a, uint16x4_t b); // VADDW.s16 q0,q0,d0 -_NEON2SSE_INLINE uint32x4_t vaddw_u16(uint32x4_t a, uint16x4_t b) // VADDW.s16 q0,q0,d0 -{ - __m128i b32; - b32 = _MM_CVTEPU16_EPI32 (_pM128i(b)); //SSE4.1 - return _mm_add_epi32 (a, b32); -} - -uint64x2_t vaddw_u32(uint64x2_t a, uint32x2_t b); // VADDW.U32 q0,q0,d0 -_NEON2SSE_INLINE uint64x2_t vaddw_u32(uint64x2_t a, uint32x2_t b) // VADDW.U32 q0,q0,d0 -{ - __m128i b64; - b64 = _MM_CVTEPU32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_add_epi64 (a, b64); -} - -//******************************Vector halving add: vhadd -> Vr[i]:=(Va[i]+Vb[i])>>1 , result truncated ******************************* -//************************************************************************************************************************* -int8x8_t vhadd_s8(int8x8_t a, int8x8_t b); // VHADD.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vhadd_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vhaddq_u8(_pM128i(a), _pM128i(b))); -} - - -int16x4_t vhadd_s16(int16x4_t a, int16x4_t b); // VHADD.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vhadd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64( vhaddq_s16(_pM128i(a), _pM128i(b))); -} - - -int32x2_t vhadd_s32(int32x2_t a, int32x2_t b); // VHADD.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vhadd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64( vhaddq_s32(_pM128i(a), _pM128i(b))); -} - - -uint8x8_t vhadd_u8(uint8x8_t a, uint8x8_t b); // VHADD.w d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vhadd_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64( vhaddq_u8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vhadd_u16(uint16x4_t a, uint16x4_t b); // VHADD.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vhadd_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64( vhaddq_u16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vhadd_u32(uint32x2_t a, uint32x2_t b); // VHADD.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vhadd_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64( vhaddq_u32(_pM128i(a), _pM128i(b))); -} - - -int8x16_t vhaddq_s8(int8x16_t a, int8x16_t b); // VHADD.S8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vhaddq_s8(int8x16_t a, int8x16_t b) -{ - //need to avoid internal overflow, will use the (x&y)+((x^y)>>1). - __m128i tmp1, tmp2; - tmp1 = _mm_and_si128(a,b); - tmp2 = _mm_xor_si128(a,b); - tmp2 = vshrq_n_s8(tmp2,1); - return _mm_add_epi8(tmp1,tmp2); -} - -int16x8_t vhaddq_s16(int16x8_t a, int16x8_t b); // VHADD.S1 6 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vhaddq_s16(int16x8_t a, int16x8_t b) -{ - //need to avoid internal overflow, will use the (x&y)+((x^y)>>1). - __m128i tmp1, tmp2; - tmp1 = _mm_and_si128(a,b); - tmp2 = _mm_xor_si128(a,b); - tmp2 = _mm_srai_epi16(tmp2,1); - return _mm_add_epi16(tmp1,tmp2); -} - -int32x4_t vhaddq_s32(int32x4_t a, int32x4_t b); // VHADD.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vhaddq_s32(int32x4_t a, int32x4_t b) // VHADD.S32 q0,q0,q0 -{ - //need to avoid internal overflow, will use the (x&y)+((x^y)>>1). - __m128i tmp1, tmp2; - tmp1 = _mm_and_si128(a,b); - tmp2 = _mm_xor_si128(a,b); - tmp2 = _mm_srai_epi32(tmp2,1); - return _mm_add_epi32(tmp1,tmp2); -} - -uint8x16_t vhaddq_u8(uint8x16_t a, uint8x16_t b); // VHADD.U8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vhaddq_u8(uint8x16_t a, uint8x16_t b) // VHADD.U8 q0,q0,q0 -{ - __m128i c1, sum, res; - c1 = _mm_set1_epi8(1); - sum = _mm_avg_epu8(a, b); //result is rounded, need to compensate it - res = _mm_xor_si128(a, b); //for rounding compensation - res = _mm_and_si128(res,c1); //for rounding compensation - return _mm_sub_epi8 (sum, res); //actual rounding compensation -} - -uint16x8_t vhaddq_u16(uint16x8_t a, uint16x8_t b); // VHADD.s16 q0,q0,q0 -_NEON2SSE_INLINE uint16x8_t vhaddq_u16(uint16x8_t a, uint16x8_t b) // VHADD.s16 q0,q0,q0 -{ - __m128i sum, res; - sum = _mm_avg_epu16(a, b); //result is rounded, need to compensate it - res = _mm_xor_si128(a, b); //for rounding compensation - res = _mm_slli_epi16 (res,15); //shift left then back right to - res = _mm_srli_epi16 (res,15); //get 1 or zero - return _mm_sub_epi16 (sum, res); //actual rounding compensation -} - -uint32x4_t vhaddq_u32(uint32x4_t a, uint32x4_t b); // VHADD.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vhaddq_u32(uint32x4_t a, uint32x4_t b) // VHADD.U32 q0,q0,q0 -{ - //need to avoid internal overflow, will use the (x&y)+((x^y)>>1). - __m128i tmp1, tmp2; - tmp1 = _mm_and_si128(a,b); - tmp2 = _mm_xor_si128(a,b); - tmp2 = _mm_srli_epi32(tmp2,1); - return _mm_add_epi32(tmp1,tmp2); -} - -//************************Vector rounding halving add: vrhadd{q}_<type>. Vr[i]:=(Va[i]+Vb[i]+1)>>1 *************************** -//***************************************************************************************************************************** -int8x8_t vrhadd_s8(int8x8_t a, int8x8_t b); // VRHADD.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vrhadd_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vrhaddq_s8(_pM128i(a), _pM128i(b))); -} - - -int16x4_t vrhadd_s16(int16x4_t a, int16x4_t b); // VRHADD.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vrhadd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vrhaddq_s16(_pM128i(a), _pM128i(b))); -} - - -int32x2_t vrhadd_s32(int32x2_t a, int32x2_t b); // VRHADD.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vrhadd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vrhaddq_s32(_pM128i(a), _pM128i(b))); -} - - -uint8x8_t vrhadd_u8(uint8x8_t a, uint8x8_t b); // VRHADD.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vrhadd_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_avg_epu8(_pM128i(a),_pM128i(b))); //SSE, result rounding!!! -} - - -uint16x4_t vrhadd_u16(uint16x4_t a, uint16x4_t b); // VRHADD.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vrhadd_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_mm_avg_epu16(_pM128i(a),_pM128i(b))); //SSE, result rounding!!! -} - - -uint32x2_t vrhadd_u32(uint32x2_t a, uint32x2_t b); // VRHADD.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vrhadd_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vrhaddq_u32(_pM128i(a), _pM128i(b))); -} - - -int8x16_t vrhaddq_s8(int8x16_t a, int8x16_t b); // VRHADD.S8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vrhaddq_s8(int8x16_t a, int8x16_t b) // VRHADD.S8 q0,q0,q0 -{ - //no signed average in x86 SIMD, go to unsigned - __m128i c128, au, bu, sum; - c128 = _mm_set1_epi8(0x80); //-128 - au = _mm_sub_epi8(a, c128); //add 128 - bu = _mm_sub_epi8(b, c128); //add 128 - sum = _mm_avg_epu8(au, bu); - return _mm_add_epi8 (sum, c128); //sub 128 -} - -int16x8_t vrhaddq_s16(int16x8_t a, int16x8_t b); // VRHADD.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vrhaddq_s16(int16x8_t a, int16x8_t b) // VRHADD.S16 q0,q0,q0 -{ - //no signed average in x86 SIMD, go to unsigned - __m128i cx8000, au, bu, sum; - cx8000 = _mm_set1_epi16(0x8000); // - 32768 - au = _mm_sub_epi16(a, cx8000); //add 32768 - bu = _mm_sub_epi16(b, cx8000); //add 32768 - sum = _mm_avg_epu16(au, bu); - return _mm_add_epi16 (sum, cx8000); //sub 32768 -} - -int32x4_t vrhaddq_s32(int32x4_t a, int32x4_t b); // VRHADD.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vrhaddq_s32(int32x4_t a, int32x4_t b) -{ - //need to avoid overflow - __m128i a2, b2, res, sum; - a2 = _mm_srai_epi32(a,1); //a2=a/2; - b2 = _mm_srai_epi32(b,1); // b2=b/2; - res = _mm_or_si128(a,b); //for rounding - res = _mm_slli_epi32 (res,31); //shift left then back right to - res = _mm_srli_epi32 (res,31); //get 1 or zero - sum = _mm_add_epi32(a2,b2); - return _mm_add_epi32(sum,res); -} - -uint8x16_t vrhaddq_u8(uint8x16_t a, uint8x16_t b); // VRHADD.U8 q0,q0,q0 -#define vrhaddq_u8 _mm_avg_epu8 //SSE2, results rounded - -uint16x8_t vrhaddq_u16(uint16x8_t a, uint16x8_t b); // VRHADD.s16 q0,q0,q0 -#define vrhaddq_u16 _mm_avg_epu16 //SSE2, results rounded - - -uint32x4_t vrhaddq_u32(uint32x4_t a, uint32x4_t b); // VRHADD.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vrhaddq_u32(uint32x4_t a, uint32x4_t b) // VRHADD.U32 q0,q0,q0 -{ - //need to avoid overflow - __m128i a2, b2, res, sum; - a2 = _mm_srli_epi32(a,1); //a2=a/2; - b2 = _mm_srli_epi32(b,1); // b2=b/2; - res = _mm_or_si128(a,b); //for rounding - res = _mm_slli_epi32 (res,31); //shift left then back right to - res = _mm_srli_epi32 (res,31); //get 1 or zero - sum = _mm_add_epi32(a2,b2); - return _mm_add_epi32(sum,res); -} - -//****************** VQADD: Vector saturating add ************************ -//************************************************************************ -int8x8_t vqadd_s8(int8x8_t a, int8x8_t b); // VQADD.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vqadd_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_adds_epi8(_pM128i(a),_pM128i(b))); -} - - -int16x4_t vqadd_s16(int16x4_t a, int16x4_t b); // VQADD.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vqadd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_adds_epi16(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vqadd_s32(int32x2_t a, int32x2_t b); // VQADD.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vqadd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vqaddq_s32(_pM128i(a), _pM128i(b))); -} - - -int64x1_t vqadd_s64(int64x1_t a, int64x1_t b); // VQADD.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vqadd_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int64x1_t res; - uint64_t a64, b64; - a64 = a.m64_u64[0]; - b64 = b.m64_u64[0]; - res.m64_u64[0] = a64 + b64; - a64 = (a64 >> 63) + (~_SIGNBIT64); - if ((int64_t)((b64 ^ a64) | ~(res.m64_u64[0] ^ b64))>=0) { - res.m64_u64[0] = a64; - } - return res; -} - -uint8x8_t vqadd_u8(uint8x8_t a, uint8x8_t b); // VQADD.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vqadd_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_adds_epu8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vqadd_u16(uint16x4_t a, uint16x4_t b); // VQADD.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vqadd_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_mm_adds_epu16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vqadd_u32(uint32x2_t a, uint32x2_t b); // VQADD.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vqadd_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vqaddq_u32(_pM128i(a), _pM128i(b))); -} - - -uint64x1_t vqadd_u64(uint64x1_t a, uint64x1_t b); // VQADD.U64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqadd_u64(uint64x1_t a, uint64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - _NEON2SSE_ALIGN_16 uint64_t a64, b64; - uint64x1_t res; - a64 = a.m64_u64[0]; - b64 = b.m64_u64[0]; - res.m64_u64[0] = a64 + b64; - if (res.m64_u64[0] < a64) { - res.m64_u64[0] = ~(uint64_t)0; - } - return res; -} - -int8x16_t vqaddq_s8(int8x16_t a, int8x16_t b); // VQADD.S8 q0,q0,q0 -#define vqaddq_s8 _mm_adds_epi8 - -int16x8_t vqaddq_s16(int16x8_t a, int16x8_t b); // VQADD.S16 q0,q0,q0 -#define vqaddq_s16 _mm_adds_epi16 - -int32x4_t vqaddq_s32(int32x4_t a, int32x4_t b); // VQADD.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vqaddq_s32(int32x4_t a, int32x4_t b) -{ - //no corresponding x86 SIMD soulution, special tricks are necessary. Overflow happens only if a and b have the same sign and sum has the opposite sign - __m128i c7fffffff, res, res_sat, res_xor_a, b_xor_a_; - c7fffffff = _mm_set1_epi32(0x7fffffff); - res = _mm_add_epi32(a, b); - res_sat = _mm_srli_epi32(a, 31); - res_sat = _mm_add_epi32(res_sat, c7fffffff); - res_xor_a = _mm_xor_si128(res, a); - b_xor_a_ = _mm_xor_si128(b, a); - res_xor_a = _mm_andnot_si128(b_xor_a_, res_xor_a); - res_xor_a = _mm_srai_epi32(res_xor_a,31); //propagate the sigh bit, all ffff if <0 all ones otherwise - res_sat = _mm_and_si128(res_xor_a, res_sat); - res = _mm_andnot_si128(res_xor_a, res); - return _mm_or_si128(res, res_sat); -} - -int64x2_t vqaddq_s64(int64x2_t a, int64x2_t b); // VQADD.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqaddq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - _NEON2SSE_ALIGN_16 uint64_t atmp[2], btmp[2], res[2]; - _mm_store_si128((__m128i*)atmp, a); - _mm_store_si128((__m128i*)btmp, b); - res[0] = atmp[0] + btmp[0]; - res[1] = atmp[1] + btmp[1]; - - atmp[0] = (atmp[0] >> 63) + (~_SIGNBIT64); - atmp[1] = (atmp[1] >> 63) + (~_SIGNBIT64); - - if ((int64_t)((btmp[0] ^ atmp[0]) | ~(res[0] ^ btmp[0]))>=0) { - res[0] = atmp[0]; - } - if ((int64_t)((btmp[1] ^ atmp[1]) | ~(res[1] ^ btmp[1]))>=0) { - res[1] = atmp[1]; - } - return _mm_load_si128((__m128i*)res); -} - -uint8x16_t vqaddq_u8(uint8x16_t a, uint8x16_t b); // VQADD.U8 q0,q0,q0 -#define vqaddq_u8 _mm_adds_epu8 - -uint16x8_t vqaddq_u16(uint16x8_t a, uint16x8_t b); // VQADD.s16 q0,q0,q0 -#define vqaddq_u16 _mm_adds_epu16 - -uint32x4_t vqaddq_u32(uint32x4_t a, uint32x4_t b); // VQADD.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vqaddq_u32(uint32x4_t a, uint32x4_t b) -{ - __m128i c80000000, cmp, subsum, suba, sum; - c80000000 = _mm_set1_epi32 (0x80000000); - sum = _mm_add_epi32 (a, b); - subsum = _mm_sub_epi32 (sum, c80000000); - suba = _mm_sub_epi32 (a, c80000000); - cmp = _mm_cmpgt_epi32 ( suba, subsum); //no unsigned comparison, need to go to signed - return _mm_or_si128 (sum, cmp); //saturation -} - -uint64x2_t vqaddq_u64(uint64x2_t a, uint64x2_t b); // VQADD.U64 q0,q0,q0 -#ifdef USE_SSE4 - _NEON2SSE_INLINE uint64x2_t vqaddq_u64(uint64x2_t a, uint64x2_t b) - { - __m128i c80000000, sum, cmp, suba, subsum; - c80000000 = _mm_set_epi32 (0x80000000, 0x0, 0x80000000, 0x0); - sum = _mm_add_epi64 (a, b); - subsum = _mm_sub_epi64 (sum, c80000000); - suba = _mm_sub_epi64 (a, c80000000); - cmp = _mm_cmpgt_epi64 ( suba, subsum); //no unsigned comparison, need to go to signed, SSE4.2!!! - return _mm_or_si128 (sum, cmp); //saturation - } -#else - _NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqaddq_u64(uint64x2_t a, uint64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) - { - _NEON2SSE_ALIGN_16 uint64_t atmp[2], btmp[2], res[2]; - _mm_store_si128((__m128i*)atmp, a); - _mm_store_si128((__m128i*)btmp, b); - res[0] = atmp[0] + btmp[0]; - res[1] = atmp[1] + btmp[1]; - if (res[0] < atmp[0]) res[0] = ~(uint64_t)0; - if (res[1] < atmp[1]) res[1] = ~(uint64_t)0; - return _mm_load_si128((__m128i*)(res)); - } -#endif - - -//******************* Vector add high half (truncated) ****************** -//************************************************************************ -int8x8_t vaddhn_s16(int16x8_t a, int16x8_t b); // VADDHN.I16 d0,q0,q0 -_NEON2SSE_INLINE int8x8_t vaddhn_s16(int16x8_t a, int16x8_t b) // VADDHN.I16 d0,q0,q0 -{ - int8x8_t res64; - __m128i sum; - sum = _mm_add_epi16 (a, b); - sum = _mm_srai_epi16 (sum, 8); - sum = _mm_packs_epi16 (sum, sum); //use 64 low bits only - return64(sum); -} - -int16x4_t vaddhn_s32(int32x4_t a, int32x4_t b); // VADDHN.I32 d0,q0,q0 -_NEON2SSE_INLINE int16x4_t vaddhn_s32(int32x4_t a, int32x4_t b) // VADDHN.I32 d0,q0,q0 -{ - int16x4_t res64; - __m128i sum; - sum = _mm_add_epi32 (a, b); - sum = _mm_srai_epi32(sum, 16); - sum = _mm_packs_epi32 (sum, sum); //use 64 low bits only - return64(sum); -} - -int32x2_t vaddhn_s64(int64x2_t a, int64x2_t b); // VADDHN.I64 d0,q0,q0 -_NEON2SSE_INLINE int32x2_t vaddhn_s64(int64x2_t a, int64x2_t b) -{ - int32x2_t res64; - __m128i sum; - sum = _mm_add_epi64 (a, b); - sum = _mm_shuffle_epi32(sum, 1 | (3 << 2) | (0 << 4) | (2 << 6)); - return64(sum); -} - -uint8x8_t vaddhn_u16(uint16x8_t a, uint16x8_t b); // VADDHN.I16 d0,q0,q0 -_NEON2SSE_INLINE uint8x8_t vaddhn_u16(uint16x8_t a, uint16x8_t b) // VADDHN.I16 d0,q0,q0 -{ - uint8x8_t res64; - __m128i sum; - sum = _mm_add_epi16 (a, b); - sum = _mm_srli_epi16 (sum, 8); - sum = _mm_packus_epi16 (sum,sum); //use 64 low bits only - return64(sum); -} - -uint16x4_t vaddhn_u32(uint32x4_t a, uint32x4_t b); // VADDHN.I32 d0,q0,q0 -_NEON2SSE_INLINE uint16x4_t vaddhn_u32(uint32x4_t a, uint32x4_t b) // VADDHN.I32 d0,q0,q0 -{ - uint16x4_t res64; - __m128i sum; - sum = _mm_add_epi32 (a, b); - sum = _mm_srli_epi32 (sum, 16); - sum = _MM_PACKUS1_EPI32 (sum); //use 64 low bits only - return64(sum); -} - -uint32x2_t vaddhn_u64(uint64x2_t a, uint64x2_t b); // VADDHN.I64 d0,q0,q0 -#define vaddhn_u64 vaddhn_s64 - -//*********** Vector rounding add high half: vraddhn_<type> ******************. -//*************************************************************************** -int8x8_t vraddhn_s16(int16x8_t a, int16x8_t b); // VRADDHN.I16 d0,q0,q0 -_NEON2SSE_INLINE int8x8_t vraddhn_s16(int16x8_t a, int16x8_t b) // VRADDHN.I16 d0,q0,q0 -{ - int8x8_t res64; - __m128i sum, mask1; - sum = _mm_add_epi16 (a, b); - mask1 = _mm_slli_epi16(sum, 9); //shift left then back right to - mask1 = _mm_srli_epi16(mask1, 15); //get 7-th bit 1 or zero - sum = _mm_srai_epi16 (sum, 8); //get high half - sum = _mm_add_epi16 (sum, mask1); //actual rounding - sum = _mm_packs_epi16 (sum, sum); - return64(sum); -} - -int16x4_t vraddhn_s32(int32x4_t a, int32x4_t b); // VRADDHN.I32 d0,q0,q0 -_NEON2SSE_INLINE int16x4_t vraddhn_s32(int32x4_t a, int32x4_t b) // VRADDHN.I32 d0,q0,q0 -{ - //SIMD may be not optimal, serial may be faster - int16x4_t res64; - __m128i sum, mask1; - sum = _mm_add_epi32 (a, b); - mask1 = _mm_slli_epi32(sum, 17); //shift left then back right to - mask1 = _mm_srli_epi32(mask1,31); //get 15-th bit 1 or zero - sum = _mm_srai_epi32 (sum, 16); //get high half - sum = _mm_add_epi32 (sum, mask1); //actual rounding - sum = _mm_packs_epi32 (sum, sum); - return64(sum); -} - -int32x2_t vraddhn_s64(int64x2_t a, int64x2_t b); // VRADDHN.I64 d0,q0,q0 -_NEON2SSE_INLINE int32x2_t vraddhn_s64(int64x2_t a, int64x2_t b) -{ - //SIMD may be not optimal, serial may be faster - int32x2_t res64; - __m128i sum, mask1; - sum = _mm_add_epi64 (a, b); - mask1 = _mm_slli_epi64(sum, 33); //shift left then back right to - mask1 = _mm_srli_epi64(mask1,32); //get 31-th bit 1 or zero - sum = _mm_add_epi64 (sum, mask1); //actual high half rounding - sum = _mm_shuffle_epi32(sum, 1 | (3 << 2) | (1 << 4) | (3 << 6)); - return64(sum); -} - -uint8x8_t vraddhn_u16(uint16x8_t a, uint16x8_t b); // VRADDHN.I16 d0,q0,q0 -_NEON2SSE_INLINE uint8x8_t vraddhn_u16(uint16x8_t a, uint16x8_t b) // VRADDHN.I16 d0,q0,q0 -{ - uint8x8_t res64; - __m128i sum, mask1; - sum = _mm_add_epi16 (a, b); - mask1 = _mm_slli_epi16(sum, 9); //shift left then back right to - mask1 = _mm_srli_epi16(mask1, 15); //get 7-th bit 1 or zero - sum = _mm_srai_epi16 (sum, 8); //get high half - sum = _mm_add_epi16 (sum, mask1); //actual rounding - sum = _mm_packus_epi16 (sum, sum); - return64(sum); -} - -uint16x4_t vraddhn_u32(uint32x4_t a, uint32x4_t b); // VRADDHN.I32 d0,q0,q0 -_NEON2SSE_INLINE uint16x4_t vraddhn_u32(uint32x4_t a, uint32x4_t b) -{ - //SIMD may be not optimal, serial may be faster - uint16x4_t res64; - __m128i sum, mask1; - sum = _mm_add_epi32 (a, b); - mask1 = _mm_slli_epi32(sum, 17); //shift left then back right to - mask1 = _mm_srli_epi32(mask1,31); //get 15-th bit 1 or zero - sum = _mm_srai_epi32 (sum, 16); //get high half - sum = _mm_add_epi32 (sum, mask1); //actual rounding - sum = _MM_PACKUS1_EPI32 (sum); - return64(sum); -} - -uint32x2_t vraddhn_u64(uint64x2_t a, uint64x2_t b); // VRADDHN.I64 d0,q0,q0 -#define vraddhn_u64 vraddhn_s64 - -//********************************************************************************** -//********* Multiplication ************************************* -//************************************************************************************** - -//Vector multiply: vmul -> Vr[i] := Va[i] * Vb[i] -//As we don't go to wider result functions are equal to "multiply low" in x86 -int8x8_t vmul_s8(int8x8_t a, int8x8_t b); // VMUL.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vmul_s8(int8x8_t a, int8x8_t b) // VMUL.I8 d0,d0,d0 -{ - // no 8 bit simd multiply, need to go to 16 bits in SSE - int8x8_t res64; - __m128i a128, b128, res; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - a128 = _MM_CVTEPI8_EPI16 (_pM128i(a)); // SSE 4.1 use low 64 bits - b128 = _MM_CVTEPI8_EPI16 (_pM128i(b)); // SSE 4.1 use low 64 bits - res = _mm_mullo_epi16 (a128, b128); - res = _mm_shuffle_epi8 (res, *(__m128i*) mask8_16_even_odd); //return to 8 bit from 16, use 64 low bits only - return64(res); -} - -int16x4_t vmul_s16(int16x4_t a, int16x4_t b); // VMUL.I16 d0,d0,d0 -#define vmul_s16 vmul_u16 - -int32x2_t vmul_s32(int32x2_t a, int32x2_t b); // VMUL.I32 d0,d0,d0 -#define vmul_s32 vmul_u32 - -float32x2_t vmul_f32(float32x2_t a, float32x2_t b); // VMUL.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vmul_f32(float32x2_t a, float32x2_t b) -{ - float32x4_t tmp; - __m64_128 res64; - tmp = _mm_mul_ps(_pM128(a),_pM128(b)); - _M64f(res64, tmp); //use low 64 bits - return res64; -} - -uint8x8_t vmul_u8(uint8x8_t a, uint8x8_t b); // VMUL.I8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vmul_u8(uint8x8_t a, uint8x8_t b) // VMUL.I8 d0,d0,d0 -{ - // no 8 bit simd multiply, need to go to 16 bits in SSE - uint8x8_t res64; - __m128i mask, a128, b128, res; - mask = _mm_set1_epi16(0xff); - a128 = _MM_CVTEPU8_EPI16 (_pM128i(a)); - b128 = _MM_CVTEPU8_EPI16 (_pM128i(b)); - res = _mm_mullo_epi16 (a128, b128); - res = _mm_and_si128(res, mask); //to avoid saturation - res = _mm_packus_epi16 (res,res); //use only low 64 bits - return64(res); -} - -uint16x4_t vmul_u16(uint16x4_t a, uint16x4_t b); // VMUL.I16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vmul_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_mm_mullo_epi16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vmul_u32(uint32x2_t a, uint32x2_t b); // VMUL.I32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING( uint32x2_t vmul_u32(uint32x2_t a, uint32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint32x2_t res; - res.m64_u32[0] = a.m64_u32[0] * b.m64_u32[0]; - res.m64_u32[1] = a.m64_u32[1] * b.m64_u32[1]; - return res; -} - -poly8x8_t vmul_p8(poly8x8_t a, poly8x8_t b); // VMUL.P8 d0,d0,d0 -_NEON2SSE_INLINE poly8x8_t vmul_p8(poly8x8_t a, poly8x8_t b) -{ - //may be optimized - poly8x8_t res64; - __m128i a64, b64, c1, res, tmp, bmasked; - int i; - a64 = _pM128i(a); - b64 = _pM128i(b); - c1 = _mm_cmpeq_epi8 (a64,a64); //all ones 0xff.... - c1 = vshrq_n_u8(c1,7); //0x1 - bmasked = _mm_and_si128(b64, c1); //0x1 - res = vmulq_u8(a64, bmasked); - for(i = 1; i<8; i++) { - c1 = _mm_slli_epi16(c1,1); //shift mask left by 1, 16 bit shift is OK here - bmasked = _mm_and_si128(b64, c1); //0x1 - tmp = vmulq_u8(a64, bmasked); - res = _mm_xor_si128(res, tmp); - } - return64 (res); -} - -int8x16_t vmulq_s8(int8x16_t a, int8x16_t b); // VMUL.I8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vmulq_s8(int8x16_t a, int8x16_t b) // VMUL.I8 q0,q0,q0 -{ - // no 8 bit simd multiply, need to go to 16 bits - //solution may be not optimal - __m128i a16, b16, r16_1, r16_2; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - a16 = _MM_CVTEPI8_EPI16 (a); // SSE 4.1 - b16 = _MM_CVTEPI8_EPI16 (b); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (a16, b16); - //swap hi and low part of a and b to process the remaining data - a16 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - a16 = _MM_CVTEPI8_EPI16 (a16); // SSE 4.1 - b16 = _MM_CVTEPI8_EPI16 (b16); // SSE 4.1 __m128i r16_2 - - r16_2 = _mm_mullo_epi16 (a16, b16); - r16_1 = _mm_shuffle_epi8 (r16_1, *(__m128i*)mask8_16_even_odd); //return to 8 bit - r16_2 = _mm_shuffle_epi8 (r16_2, *(__m128i*)mask8_16_even_odd); //return to 8 bit - - return _mm_unpacklo_epi64(r16_1, r16_2); -} - -int16x8_t vmulq_s16(int16x8_t a, int16x8_t b); // VMUL.I16 q0,q0,q0 -#define vmulq_s16 _mm_mullo_epi16 - -int32x4_t vmulq_s32(int32x4_t a, int32x4_t b); // VMUL.I32 q0,q0,q0 -#define vmulq_s32 _MM_MULLO_EPI32 //SSE4.1 - -float32x4_t vmulq_f32(float32x4_t a, float32x4_t b); // VMUL.F32 q0,q0,q0 -#define vmulq_f32 _mm_mul_ps - -uint8x16_t vmulq_u8(uint8x16_t a, uint8x16_t b); // VMUL.I8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vmulq_u8(uint8x16_t a, uint8x16_t b) // VMUL.I8 q0,q0,q0 -{ - // no 8 bit simd multiply, need to go to 16 bits - //solution may be not optimal - __m128i maskff, a16, b16, r16_1, r16_2; - maskff = _mm_set1_epi16(0xff); - a16 = _MM_CVTEPU8_EPI16 (a); // SSE 4.1 - b16 = _MM_CVTEPU8_EPI16 (b); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (a16, b16); - r16_1 = _mm_and_si128(r16_1, maskff); //to avoid saturation - //swap hi and low part of a and b to process the remaining data - a16 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - a16 = _MM_CVTEPI8_EPI16 (a16); // SSE 4.1 - b16 = _MM_CVTEPI8_EPI16 (b16); // SSE 4.1 - - r16_2 = _mm_mullo_epi16 (a16, b16); - r16_2 = _mm_and_si128(r16_2, maskff); //to avoid saturation - return _mm_packus_epi16 (r16_1, r16_2); -} - -uint16x8_t vmulq_u16(uint16x8_t a, uint16x8_t b); // VMUL.I16 q0,q0,q0 -#define vmulq_u16 _mm_mullo_epi16 - -uint32x4_t vmulq_u32(uint32x4_t a, uint32x4_t b); // VMUL.I32 q0,q0,q0 -#define vmulq_u32 _MM_MULLO_EPI32 //SSE4.1 - -poly8x16_t vmulq_p8(poly8x16_t a, poly8x16_t b); // VMUL.P8 q0,q0,q0 -_NEON2SSE_INLINE poly8x16_t vmulq_p8(poly8x16_t a, poly8x16_t b) -{ - //may be optimized - __m128i c1, res, tmp, bmasked; - int i; - c1 = _mm_cmpeq_epi8 (a,a); //all ones 0xff.... - c1 = vshrq_n_u8(c1,7); //0x1 - bmasked = _mm_and_si128(b, c1); //0x1 - res = vmulq_u8(a, bmasked); - for(i = 1; i<8; i++) { - c1 = _mm_slli_epi16(c1,1); //shift mask left by 1, 16 bit shift is OK here - bmasked = _mm_and_si128(b, c1); //0x1 - tmp = vmulq_u8(a, bmasked); - res = _mm_xor_si128(res, tmp); - } - return res; -} - -//************************* Vector long multiply *********************************** -//**************************************************************************** -int16x8_t vmull_s8(int8x8_t a, int8x8_t b); // VMULL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vmull_s8(int8x8_t a, int8x8_t b) // VMULL.S8 q0,d0,d0 -{ - //no 8 bit simd multiply, need to go to 16 bits - __m128i a16, b16; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); // SSE 4.1 - return _mm_mullo_epi16 (a16, b16); //should fit into 16 bit -} - -int32x4_t vmull_s16(int16x4_t a, int16x4_t b); // VMULL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vmull_s16(int16x4_t a, int16x4_t b) // VMULL.S16 q0,d0,d0 -{ - #ifdef USE_SSE4 - __m128i a16, b16; - a16 = _MM_CVTEPI16_EPI32 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPI16_EPI32 (_pM128i(b)); // SSE 4.1 - return _MM_MULLO_EPI32 (a16, b16); // SSE 4.1 - #else - __m128i low, hi, a128,b128; - a128 = _pM128i(a); - b128 = _pM128i(b); - low = _mm_mullo_epi16(a128,b128); - hi = _mm_mulhi_epi16(a128,b128); - return _mm_unpacklo_epi16(low,hi); - #endif -} - -int64x2_t vmull_s32(int32x2_t a, int32x2_t b); // VMULL.S32 q0,d0,d0 -_NEON2SSE_INLINE int64x2_t vmull_s32(int32x2_t a, int32x2_t b) // VMULL.S32 q0,d0,d0 -{ - __m128i ab, ba, a128, b128; - a128 = _pM128i(a); - b128 = _pM128i(b); - ab = _mm_unpacklo_epi32 (a128, b128); //a0, b0, a1,b1 - ba = _mm_unpacklo_epi32 (b128, a128); //b0, a0, b1,a1 - return _MM_MUL_EPI32(ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result -} - -uint16x8_t vmull_u8(uint8x8_t a, uint8x8_t b); // VMULL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vmull_u8(uint8x8_t a, uint8x8_t b) // VMULL.U8 q0,d0,d0 -{ - //no 8 bit simd multiply, need to go to 16 bits - __m128i a16, b16; - a16 = _MM_CVTEPU8_EPI16 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); // SSE 4.1 - return _mm_mullo_epi16 (a16, b16); //should fit into 16 bit -} - -uint32x4_t vmull_u16(uint16x4_t a, uint16x4_t b); // VMULL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vmull_u16(uint16x4_t a, uint16x4_t b) // VMULL.s16 q0,d0,d0 -{ - #ifdef USE_SSE4 - __m128i a16, b16; - a16 = _MM_CVTEPU16_EPI32 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPU16_EPI32 (_pM128i(b)); // SSE 4.1 - return _MM_MULLO_EPI32 (a16, b16); // SSE 4.1 - #else - __m128i a128,b128,low, hi; - a128 = _pM128i(a); - b128 = _pM128i(b); - low = _mm_mullo_epi16(a128,b128); - hi = _mm_mulhi_epu16(a128,b128); - return _mm_unpacklo_epi16(low,hi); - #endif -} - -uint64x2_t vmull_u32(uint32x2_t a, uint32x2_t b); // VMULL.U32 q0,d0,d0 -_NEON2SSE_INLINE uint64x2_t vmull_u32(uint32x2_t a, uint32x2_t b) // VMULL.U32 q0,d0,d0 -{ - ///may be not optimal compared with serial implementation - __m128i ab, ba, a128, b128; - a128 = _pM128i(a); - b128 = _pM128i(b); - ab = _mm_unpacklo_epi32 (a128, b128); //a0, b0, a1,b1 - ba = _mm_unpacklo_epi32 (b128, a128); //b0, a0, b1,a1 - return _mm_mul_epu32 (ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result -} - -poly16x8_t vmull_p8(poly8x8_t a, poly8x8_t b); // VMULL.P8 q0,d0,d0 -_NEON2SSE_INLINE poly16x8_t vmull_p8(poly8x8_t a, poly8x8_t b) -{ - //may be optimized - __m128i a128,b128, c1, a128_16, bmasked_16, res, tmp, bmasked; - int i; - a128 = _pM128i(a); - b128 = _pM128i(b); - c1 = _mm_cmpeq_epi8 (a128,a128); //all ones 0xff.... - c1 = vshrq_n_u8(c1,7); //0x1 - bmasked = _mm_and_si128(b128, c1); //0x1 - - a128_16 = _MM_CVTEPU8_EPI16 (a128); // SSE 4.1 - bmasked_16 = _MM_CVTEPU8_EPI16 (bmasked); // SSE 4.1 - res = _mm_mullo_epi16 (a128_16, bmasked_16); //should fit into 16 bit - for(i = 1; i<8; i++) { - c1 = _mm_slli_epi16(c1,1); //shift mask left by 1, 16 bit shift is OK here - bmasked = _mm_and_si128(b128, c1); //0x1 - bmasked_16 = _MM_CVTEPU8_EPI16 (bmasked); // SSE 4.1 - tmp = _mm_mullo_epi16 (a128_16, bmasked_16); //should fit into 16 bit, vmull_u8(a, bmasked); - res = _mm_xor_si128(res, tmp); - } - return res; -} - -//****************Vector saturating doubling long multiply ************************** -//***************************************************************** -int32x4_t vqdmull_s16(int16x4_t a, int16x4_t b); // VQDMULL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vqdmull_s16(int16x4_t a, int16x4_t b) -{ - //the serial soulution may be faster due to saturation - __m128i res; - res = vmull_s16(a, b); - return vqd_s32(res); -} - -int64x2_t vqdmull_s32(int32x2_t a, int32x2_t b); // VQDMULL.S32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmull_s32(int32x2_t a, int32x2_t b),_NEON2SSE_REASON_SLOW_SERIAL) -{ - //the serial soulution may be faster due to saturation - __m128i res; - res = vmull_s32(a,b); - return vqaddq_s64(res,res); //slow serial function!!!! -} - -//********************* Vector multiply accumulate: vmla -> Vr[i] := Va[i] + Vb[i] * Vc[i] ************************ -//****************************************************************************************** -int8x8_t vmla_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VMLA.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vmla_s8(int8x8_t a, int8x8_t b, int8x8_t c) // VMLA.I8 d0,d0,d0 -{ - // no 8 bit x86 simd multiply, need to go to 16 bits, and use the low 64 bits - int8x8_t res64; - __m128i b128, c128, res; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - b128 = _MM_CVTEPI8_EPI16 (_pM128i(b)); // SSE 4.1 use low 64 bits - c128 = _MM_CVTEPI8_EPI16 (_pM128i(c)); // SSE 4.1 use low 64 bits - res = _mm_mullo_epi16 (c128, b128); - res = _mm_shuffle_epi8 (res, *(__m128i*) mask8_16_even_odd); - res = _mm_add_epi8 (res, _pM128i(a)); //use the low 64 bits - return64(res); -} - -int16x4_t vmla_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VMLA.I16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vmla_s16(int16x4_t a, int16x4_t b, int16x4_t c) -{ - int16x4_t res64; - return64(vmlaq_s16(_pM128i(a),_pM128i(b), _pM128i(c))); -} - - -int32x2_t vmla_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VMLA.I32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vmla_s32(int32x2_t a, int32x2_t b, int32x2_t c) // VMLA.I32 d0,d0,d0 -{ - int32x2_t res64; - __m128i res; - res = _MM_MULLO_EPI32 (_pM128i(b), _pM128i(c)); //SSE4.1 - res = _mm_add_epi32 (res, _pM128i(a)); //use the low 64 bits - return64(res); -} - -float32x2_t vmla_f32(float32x2_t a, float32x2_t b, float32x2_t c); // VMLA.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vmla_f32(float32x2_t a, float32x2_t b, float32x2_t c) -{ - //fma is coming soon, but right now: - __m128 res; - __m64_128 res64; - res = _mm_mul_ps (_pM128(c), _pM128(b)); - res = _mm_add_ps (_pM128(a), res); - _M64f(res64, res); - return res64; -} - -uint8x8_t vmla_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VMLA.I8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vmla_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c) // VMLA.I8 d0,d0,d0 -{ - // no 8 bit x86 simd multiply, need to go to 16 bits, and use the low 64 bits - uint8x8_t res64; - __m128i mask, b128, c128, res; - mask = _mm_set1_epi16(0xff); - b128 = _MM_CVTEPU8_EPI16 (_pM128i(b)); // SSE 4.1 use low 64 bits - c128 = _MM_CVTEPU8_EPI16 (_pM128i(c)); // SSE 4.1 use low 64 bits - res = _mm_mullo_epi16 (c128, b128); - res = _mm_and_si128(res, mask); //to avoid saturation - res = _mm_packus_epi16 (res, res); - res = _mm_add_epi8 (res, _pM128i(a)); //use the low 64 bits - return64(res); -} - -uint16x4_t vmla_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VMLA.I16 d0,d0,d0 -#define vmla_u16 vmla_s16 - -uint32x2_t vmla_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VMLA.I32 d0,d0,d0 -#define vmla_u32 vmla_s32 - -int8x16_t vmlaq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VMLA.I8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vmlaq_s8(int8x16_t a, int8x16_t b, int8x16_t c) // VMLA.I8 q0,q0,q0 -{ - //solution may be not optimal - // no 8 bit simd multiply, need to go to 16 bits - __m128i b16, c16, r16_1, a_2,r16_2; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - b16 = _MM_CVTEPI8_EPI16 (b); // SSE 4.1 - c16 = _MM_CVTEPI8_EPI16 (c); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (b16, c16); - r16_1 = _mm_shuffle_epi8 (r16_1, *(__m128i*) mask8_16_even_odd); //return to 8 bits - r16_1 = _mm_add_epi8 (r16_1, a); - //swap hi and low part of a, b and c to process the remaining data - a_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - c16 = _mm_shuffle_epi32 (c, _SWAP_HI_LOW32); - b16 = _MM_CVTEPI8_EPI16 (b16); // SSE 4.1 - c16 = _MM_CVTEPI8_EPI16 (c16); // SSE 4.1 - - r16_2 = _mm_mullo_epi16 (b16, c16); - r16_2 = _mm_shuffle_epi8 (r16_2, *(__m128i*) mask8_16_even_odd); - r16_2 = _mm_add_epi8(r16_2, a_2); - return _mm_unpacklo_epi64(r16_1,r16_2); -} - -int16x8_t vmlaq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VMLA.I16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vmlaq_s16(int16x8_t a, int16x8_t b, int16x8_t c) // VMLA.I16 q0,q0,q0 -{ - __m128i res; - res = _mm_mullo_epi16 (c, b); - return _mm_add_epi16 (res, a); -} - -int32x4_t vmlaq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VMLA.I32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vmlaq_s32(int32x4_t a, int32x4_t b, int32x4_t c) // VMLA.I32 q0,q0,q0 -{ - __m128i res; - res = _MM_MULLO_EPI32 (c, b); //SSE4.1 - return _mm_add_epi32 (res, a); -} - -float32x4_t vmlaq_f32(float32x4_t a, float32x4_t b, float32x4_t c); // VMLA.F32 q0,q0,q0 -_NEON2SSE_INLINE float32x4_t vmlaq_f32(float32x4_t a, float32x4_t b, float32x4_t c) // VMLA.F32 q0,q0,q0 -{ - //fma is coming soon, but right now: - __m128 res; - res = _mm_mul_ps (c, b); - return _mm_add_ps (a, res); -} - -uint8x16_t vmlaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VMLA.I8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vmlaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c) // VMLA.I8 q0,q0,q0 -{ - //solution may be not optimal - // no 8 bit simd multiply, need to go to 16 bits - __m128i b16, c16, r16_1, a_2, r16_2; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - b16 = _MM_CVTEPU8_EPI16 (b); // SSE 4.1 - c16 = _MM_CVTEPU8_EPI16 (c); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (b16, c16); - r16_1 = _mm_shuffle_epi8 (r16_1, *(__m128i*) mask8_16_even_odd); //return to 8 bits - r16_1 = _mm_add_epi8 (r16_1, a); - //swap hi and low part of a, b and c to process the remaining data - a_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - c16 = _mm_shuffle_epi32 (c, _SWAP_HI_LOW32); - b16 = _MM_CVTEPU8_EPI16 (b16); // SSE 4.1 - c16 = _MM_CVTEPU8_EPI16 (c16); // SSE 4.1 - - r16_2 = _mm_mullo_epi16 (b16, c16); - r16_2 = _mm_shuffle_epi8 (r16_2, *(__m128i*) mask8_16_even_odd); - r16_2 = _mm_add_epi8(r16_2, a_2); - return _mm_unpacklo_epi64(r16_1,r16_2); -} - -uint16x8_t vmlaq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VMLA.I16 q0,q0,q0 -#define vmlaq_u16 vmlaq_s16 - -uint32x4_t vmlaq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VMLA.I32 q0,q0,q0 -#define vmlaq_u32 vmlaq_s32 - -//********************** Vector widening multiply accumulate (long multiply accumulate): -// vmla -> Vr[i] := Va[i] + Vb[i] * Vc[i] ************** -//******************************************************************************************** -int16x8_t vmlal_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VMLAL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vmlal_s8(int16x8_t a, int8x8_t b, int8x8_t c) // VMLAL.S8 q0,d0,d0 -{ - int16x8_t res; - res = vmull_s8(b, c); - return _mm_add_epi16 (res, a); -} - -int32x4_t vmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VMLAL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c) // VMLAL.S16 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int32x4_t res; - res = vmull_s16(b, c); - return _mm_add_epi32 (res, a); -} - -int64x2_t vmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VMLAL.S32 q0,d0,d0 -_NEON2SSE_INLINE int64x2_t vmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c) // VMLAL.S32 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int64x2_t res; - res = vmull_s32( b, c); - return _mm_add_epi64 (res, a); -} - -uint16x8_t vmlal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VMLAL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vmlal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c) // VMLAL.U8 q0,d0,d0 -{ - uint16x8_t res; - res = vmull_u8(b, c); - return _mm_add_epi16 (res, a); -} - -uint32x4_t vmlal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VMLAL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vmlal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c) // VMLAL.s16 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - uint32x4_t res; - res = vmull_u16(b, c); - return _mm_add_epi32 (res, a); -} - -uint64x2_t vmlal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VMLAL.U32 q0,d0,d0 -_NEON2SSE_INLINE uint64x2_t vmlal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c) // VMLAL.U32 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int64x2_t res; - res = vmull_u32( b,c); - return _mm_add_epi64 (res, a); -} - -//******************** Vector multiply subtract: vmls -> Vr[i] := Va[i] - Vb[i] * Vc[i] *************************************** -//******************************************************************************************** -int8x8_t vmls_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VMLS.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vmls_s8(int8x8_t a, int8x8_t b, int8x8_t c) // VMLS.I8 d0,d0,d0 -{ - // no 8 bit simd multiply, need to go to 16 bits - and use the low 64 bits - int8x8_t res64; - __m128i res; - res64 = vmul_s8(b,c); - res = _mm_sub_epi8 (_pM128i(a), _pM128i(res64)); - return64(res); -} - -int16x4_t vmls_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VMLS.I16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vmls_s16(int16x4_t a, int16x4_t b, int16x4_t c) -{ - int16x4_t res64; - return64(vmlsq_s16(_pM128i(a),_pM128i(b), _pM128i(c))); -} - - -int32x2_t vmls_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VMLS.I32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vmls_s32(int32x2_t a, int32x2_t b, int32x2_t c) // VMLS.I32 d0,d0,d0 -{ - int32x2_t res64; - __m128i res; - res = _MM_MULLO_EPI32 (_pM128i(c),_pM128i( b)); //SSE4.1 - res = _mm_sub_epi32 (_pM128i(a),res); //use low 64 bits only - return64(res); -} - -float32x2_t vmls_f32(float32x2_t a, float32x2_t b, float32x2_t c); // VMLS.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vmls_f32(float32x2_t a, float32x2_t b, float32x2_t c) -{ - __m128 res; - __m64_128 res64; - res = _mm_mul_ps (_pM128(c), _pM128(b)); - res = _mm_sub_ps (_pM128(a), res); - _M64f(res64, res); - return res64; -} - -uint8x8_t vmls_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VMLS.I8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vmls_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c) -{ - // no 8 bit simd multiply, need to go to 16 bits - and use the low 64 bits - uint8x8_t res64; - __m128i res; - res64 = vmul_u8(b,c); - res = _mm_sub_epi8 (_pM128i(a), _pM128i(res64)); - return64(res); -} - -uint16x4_t vmls_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VMLS.I16 d0,d0,d0 -#define vmls_u16 vmls_s16 - -uint32x2_t vmls_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VMLS.I32 d0,d0,d0 -#define vmls_u32 vmls_s32 - - -int8x16_t vmlsq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VMLS.I8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vmlsq_s8(int8x16_t a, int8x16_t b, int8x16_t c) // VMLS.I8 q0,q0,q0 -{ - //solution may be not optimal - // no 8 bit simd multiply, need to go to 16 bits - __m128i b16, c16, r16_1, a_2, r16_2; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - b16 = _MM_CVTEPI8_EPI16 (b); // SSE 4.1 - c16 = _MM_CVTEPI8_EPI16 (c); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (b16, c16); - r16_1 = _mm_shuffle_epi8 (r16_1, *(__m128i*) mask8_16_even_odd); - r16_1 = _mm_sub_epi8 (a, r16_1); - //swap hi and low part of a, b, c to process the remaining data - a_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - c16 = _mm_shuffle_epi32 (c, _SWAP_HI_LOW32); - b16 = _MM_CVTEPI8_EPI16 (b16); // SSE 4.1 - c16 = _MM_CVTEPI8_EPI16 (c16); // SSE 4.1 - - r16_2 = _mm_mullo_epi16 (b16, c16); - r16_2 = _mm_shuffle_epi8 (r16_2, *(__m128i*) mask8_16_even_odd); - r16_2 = _mm_sub_epi8 (a_2, r16_2); - return _mm_unpacklo_epi64(r16_1,r16_2); -} - -int16x8_t vmlsq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VMLS.I16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vmlsq_s16(int16x8_t a, int16x8_t b, int16x8_t c) // VMLS.I16 q0,q0,q0 -{ - __m128i res; - res = _mm_mullo_epi16 (c, b); - return _mm_sub_epi16 (a, res); -} - -int32x4_t vmlsq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VMLS.I32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vmlsq_s32(int32x4_t a, int32x4_t b, int32x4_t c) // VMLS.I32 q0,q0,q0 -{ - __m128i res; - res = _MM_MULLO_EPI32 (c, b); //SSE4.1 - return _mm_sub_epi32 (a, res); -} - -float32x4_t vmlsq_f32(float32x4_t a, float32x4_t b, float32x4_t c); // VMLS.F32 q0,q0,q0 -_NEON2SSE_INLINE float32x4_t vmlsq_f32(float32x4_t a, float32x4_t b, float32x4_t c) // VMLS.F32 q0,q0,q0 -{ - __m128 res; - res = _mm_mul_ps (c, b); - return _mm_sub_ps (a, res); -} - -uint8x16_t vmlsq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VMLS.I8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vmlsq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c) // VMLS.I8 q0,q0,q0 -{ - //solution may be not optimal - // no 8 bit simd multiply, need to go to 16 bits - __m128i b16, c16, r16_1, a_2, r16_2; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - b16 = _MM_CVTEPU8_EPI16 (b); // SSE 4.1 - c16 = _MM_CVTEPU8_EPI16 (c); // SSE 4.1 - r16_1 = _mm_mullo_epi16 (b16, c16); - r16_1 = _mm_shuffle_epi8 (r16_1, *(__m128i*) mask8_16_even_odd); //return to 8 bits - r16_1 = _mm_sub_epi8 (a, r16_1); - //swap hi and low part of a, b and c to process the remaining data - a_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - b16 = _mm_shuffle_epi32 (b, _SWAP_HI_LOW32); - c16 = _mm_shuffle_epi32 (c, _SWAP_HI_LOW32); - b16 = _MM_CVTEPU8_EPI16 (b16); // SSE 4.1 - c16 = _MM_CVTEPU8_EPI16 (c16); // SSE 4.1 - - r16_2 = _mm_mullo_epi16 (b16, c16); - r16_2 = _mm_shuffle_epi8 (r16_2, *(__m128i*) mask8_16_even_odd); - r16_2 = _mm_sub_epi8(a_2, r16_2); - return _mm_unpacklo_epi64(r16_1,r16_2); -} - -uint16x8_t vmlsq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VMLS.I16 q0,q0,q0 -#define vmlsq_u16 vmlsq_s16 - -uint32x4_t vmlsq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VMLS.I32 q0,q0,q0 -#define vmlsq_u32 vmlsq_s32 - -//******************** Vector multiply subtract long (widening multiply subtract) ************************************ -//************************************************************************************************************* -int16x8_t vmlsl_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VMLSL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vmlsl_s8(int16x8_t a, int8x8_t b, int8x8_t c) // VMLSL.S8 q0,d0,d0 -{ - int16x8_t res; - res = vmull_s8(b, c); - return _mm_sub_epi16 (a, res); -} - -int32x4_t vmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VMLSL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c) // VMLSL.S16 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int32x4_t res; - res = vmull_s16(b, c); - return _mm_sub_epi32 (a, res); -} - -int64x2_t vmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VMLSL.S32 q0,d0,d0 -_NEON2SSE_INLINE int64x2_t vmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c) // VMLSL.S32 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int64x2_t res; - res = vmull_s32( b,c); - return _mm_sub_epi64 (a, res); -} - -uint16x8_t vmlsl_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VMLSL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vmlsl_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c) // VMLSL.U8 q0,d0,d0 -{ - uint16x8_t res; - res = vmull_u8(b, c); - return _mm_sub_epi16 (a, res); -} - -uint32x4_t vmlsl_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VMLSL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vmlsl_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c) // VMLSL.s16 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - uint32x4_t res; - res = vmull_u16(b, c); - return _mm_sub_epi32 (a, res); -} - -uint64x2_t vmlsl_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VMLSL.U32 q0,d0,d0 -_NEON2SSE_INLINE uint64x2_t vmlsl_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c) // VMLSL.U32 q0,d0,d0 -{ - //may be not optimal compared with serial implementation - int64x2_t res; - res = vmull_u32( b,c); - return _mm_sub_epi64 (a, res); -} - -//****** Vector saturating doubling multiply high ********************** -//************************************************************************* -int16x4_t vqdmulh_s16(int16x4_t a, int16x4_t b); // VQDMULH.S16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vqdmulh_s16(int16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int16x4_t res; - int32_t a32, b32, i; - for (i = 0; i<4; i++) { - a32 = (int32_t) a.m64_i16[i]; - b32 = (int32_t) b.m64_i16[i]; - a32 = (a32 * b32) >> 15; - res.m64_i16[i] = (a32 == 0x8000) ? 0x7fff : (int16_t) a32; - } - return res; -} - -int32x2_t vqdmulh_s32(int32x2_t a, int32x2_t b); // VQDMULH.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vqdmulh_s32(int32x2_t a, int32x2_t b) // no multiply high 32 bit SIMD in IA32, so need to do some tricks, serial solution may be faster -{ - //may be not optimal compared with a serial solution - int32x2_t res64; - __m128i mask; - _NEON2SSE_ALIGN_16 uint32_t cmask32[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - int64x2_t mul; - mul = vmull_s32(a,b); - mul = _mm_slli_epi64(mul,1); //double the result - //at this point start treating 2 64-bit numbers as 4 32-bit - mul = _mm_shuffle_epi32 (mul, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits - mask = _mm_cmpeq_epi32 (mul, *(__m128i*)cmask32); - mul = _mm_xor_si128 (mul, mask); //res saturated for 0x80000000 - return64(mul); -} - -int16x8_t vqdmulhq_s16(int16x8_t a, int16x8_t b); // VQDMULH.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vqdmulhq_s16(int16x8_t a, int16x8_t b) // VQDMULH.S16 q0,q0,q0 -{ - __m128i res, res_lo, mask; - _NEON2SSE_ALIGN_16 uint16_t cmask[] = {0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000}; - res = _mm_mulhi_epi16 (a, b); - res = _mm_slli_epi16 (res, 1); //double the result, don't care about saturation - res_lo = _mm_mullo_epi16 (a, b); - res_lo = _mm_srli_epi16(res_lo,15); //take the highest bit - res = _mm_add_epi16(res, res_lo); //combine results - mask = _mm_cmpeq_epi16 (res, *(__m128i*)cmask); - return _mm_xor_si128 (res, mask); //res saturated for 0x8000 -} - -int32x4_t vqdmulhq_s32(int32x4_t a, int32x4_t b); // VQDMULH.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqdmulhq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - // no multiply high 32 bit SIMD in IA32, may be not optimal compared with a serial solution for the SSSE3 target - __m128i ab, ba, mask, mul, mul1; - _NEON2SSE_ALIGN_16 uint32_t cmask32[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - ab = _mm_unpacklo_epi32 (a, b); //a0, b0, a1,b1 - ba = _mm_unpacklo_epi32 (b, a); //b0, a0, b1,a1 - mul = _MM_MUL_EPI32(ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result - mul = _mm_slli_epi64(mul,1); //double the result - ab = _mm_unpackhi_epi32 (a, b); //a2, b2, a3,b3 - ba = _mm_unpackhi_epi32 (b, a); //b2, a2, b3,a3 - mul1 = _MM_MUL_EPI32(ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result - mul1 = _mm_slli_epi64(mul1,1); //double the result - mul = _mm_shuffle_epi32 (mul, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits - mul1 = _mm_shuffle_epi32 (mul1, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits - mul = _mm_unpacklo_epi64(mul, mul1); - mask = _mm_cmpeq_epi32 (mul, *(__m128i*)cmask32); - return _mm_xor_si128 (mul, mask); //res saturated for 0x80000000 -} - -//********* Vector saturating rounding doubling multiply high **************** -//**************************************************************************** -//If use _mm_mulhrs_xx functions the result may differ from NEON one a little due to different rounding rules and order -int16x4_t vqrdmulh_s16(int16x4_t a, int16x4_t b); // VQRDMULH.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vqrdmulh_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vqrdmulhq_s16(_pM128i(a), _pM128i(b))); -} - -int32x2_t vqrdmulh_s32(int32x2_t a, int32x2_t b); // VQRDMULH.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqrdmulh_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - //may be not optimal compared with a serial solution - int32x2_t res64; - _NEON2SSE_ALIGN_16 uint32_t cmask32[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - __m128i res_sat, mask, mask1; - int64x2_t mul; - mul = vmull_s32(a,b); - res_sat = _mm_slli_epi64 (mul, 1); //double the result, saturation not considered - mask1 = _mm_slli_epi64(res_sat, 32); //shift left then back right to - mask1 = _mm_srli_epi64(mask1,31); //get 31-th bit 1 or zero - mul = _mm_add_epi32 (res_sat, mask1); //actual rounding - //at this point start treating 2 64-bit numbers as 4 32-bit - mul = _mm_shuffle_epi32 (mul, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits from each 64-bit - mask = _mm_cmpeq_epi32 (mul, *(__m128i*)cmask32); - mul = _mm_xor_si128 (mul, mask); //res saturated for 0x80000000 - return64(mul); -} - -int16x8_t vqrdmulhq_s16(int16x8_t a, int16x8_t b); // VQRDMULH.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vqrdmulhq_s16(int16x8_t a, int16x8_t b) // VQRDMULH.S16 q0,q0,q0 -{ - __m128i mask, res; - _NEON2SSE_ALIGN_16 uint16_t cmask[] = {0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000}; - res = _mm_mulhrs_epi16 (a, b); - mask = _mm_cmpeq_epi16 (res, *(__m128i*)cmask); - return _mm_xor_si128 (res, mask); //res saturated for 0x8000 -} - -int32x4_t vqrdmulhq_s32(int32x4_t a, int32x4_t b); // VQRDMULH.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqrdmulhq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - // no multiply high 32 bit SIMD in IA32, may be not optimal compared with a serial solution for the SSSE3 target - __m128i ab, ba, mask, mul, mul1, mask1; - _NEON2SSE_ALIGN_16 uint32_t cmask32[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - ab = _mm_unpacklo_epi32 (a, b); //a0, b0, a1,b1 - ba = _mm_unpacklo_epi32 (b, a); //b0, a0, b1,a1 - mul = _MM_MUL_EPI32(ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result - mul = _mm_slli_epi64 (mul, 1); //double the result, saturation not considered - mask1 = _mm_slli_epi64(mul, 32); //shift left then back right to - mask1 = _mm_srli_epi64(mask1,31); //get 31-th bit 1 or zero - mul = _mm_add_epi32 (mul, mask1); //actual rounding - - ab = _mm_unpackhi_epi32 (a, b); //a2, b2, a3,b3 - ba = _mm_unpackhi_epi32 (b, a); //b2, a2, b3,a3 - mul1 = _MM_MUL_EPI32(ab, ba); //uses 1rst and 3rd data lanes, the multiplication gives 64 bit result - mul1 = _mm_slli_epi64 (mul1, 1); //double the result, saturation not considered - mask1 = _mm_slli_epi64(mul1, 32); //shift left then back right to - mask1 = _mm_srli_epi64(mask1,31); //get 31-th bit 1 or zero - mul1 = _mm_add_epi32 (mul1, mask1); //actual rounding - //at this point start treating 2 64-bit numbers as 4 32-bit - mul = _mm_shuffle_epi32 (mul, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits from each 64-bit - mul1 = _mm_shuffle_epi32 (mul1, 1 | (3 << 2) | (0 << 4) | (2 << 6)); //shuffle the data to get 2 32-bits from each 64-bit - mul = _mm_unpacklo_epi64(mul, mul1); - mask = _mm_cmpeq_epi32 (mul, *(__m128i*)cmask32); - return _mm_xor_si128 (mul, mask); //res saturated for 0x80000000 -} - -//*************Vector widening saturating doubling multiply accumulate (long saturating doubling multiply accumulate) ***** -//************************************************************************************************************************* -int32x4_t vqdmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VQDMLAL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vqdmlal_s16(int32x4_t a, int16x4_t b, int16x4_t c) // VQDMLAL.S16 q0,d0,d0 -{ - //not optimal SIMD soulution, serial may be faster - __m128i res32; - res32 = vmull_s16(b, c); - res32 = vqd_s32(res32); //doubling & saturation ,if no saturation we could use _mm_slli_epi32 (res, 1); - return vqaddq_s32(res32, a); //saturation -} - -int64x2_t vqdmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VQDMLAL.S32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmlal_s32(int64x2_t a, int32x2_t b, int32x2_t c),_NEON2SSE_REASON_SLOW_SERIAL) -{ - __m128i res64; - res64 = vmull_s32(b,c); - res64 = vqaddq_s64(res64, res64); //doubling & saturation ,if no saturation we could use _mm_slli_epi64 (res, 1); - return vqaddq_s64(res64, a); //saturation -} - -//************************************************************************************ -//****************** Vector subtract *********************************************** -//************************************************************************************ -int8x8_t vsub_s8(int8x8_t a, int8x8_t b); // VSUB.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vsub_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_sub_epi8(_pM128i(a),_pM128i(b))); -} - - -int16x4_t vsub_s16(int16x4_t a, int16x4_t b); // VSUB.I16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vsub_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_sub_epi16(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vsub_s32(int32x2_t a, int32x2_t b); // VSUB.I32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vsub_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_sub_epi32(_pM128i(a),_pM128i(b))); -} - - -int64x1_t vsub_s64(int64x1_t a, int64x1_t b); // VSUB.I64 d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vsub_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res64; - res64.m64_i64[0] = a.m64_i64[0] - b.m64_i64[0]; - return res64; -} - - -float32x2_t vsub_f32(float32x2_t a, float32x2_t b); // VSUB.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vsub_f32(float32x2_t a, float32x2_t b) -{ - float32x2_t res; - res.m64_f32[0] = a.m64_f32[0] - b.m64_f32[0]; - res.m64_f32[1] = a.m64_f32[1] - b.m64_f32[1]; - return res; -} - -uint8x8_t vsub_u8(uint8x8_t a, uint8x8_t b); // VSUB.I8 d0,d0,d0 -#define vsub_u8 vsub_s8 - -uint16x4_t vsub_u16(uint16x4_t a, uint16x4_t b); // VSUB.I16 d0,d0,d0 -#define vsub_u16 vsub_s16 - -uint32x2_t vsub_u32(uint32x2_t a, uint32x2_t b); // VSUB.I32 d0,d0,d0 -#define vsub_u32 vsub_s32 - - -uint64x1_t vsub_u64(uint64x1_t a, uint64x1_t b); // VSUB.I64 d0,d0,d0 -_NEON2SSE_INLINE uint64x1_t vsub_u64(uint64x1_t a, uint64x1_t b) -{ - int64x1_t res64; - res64.m64_u64[0] = a.m64_u64[0] - b.m64_u64[0]; - return res64; -} - - -int8x16_t vsubq_s8(int8x16_t a, int8x16_t b); // VSUB.I8 q0,q0,q0 -#define vsubq_s8 _mm_sub_epi8 - -int16x8_t vsubq_s16(int16x8_t a, int16x8_t b); // VSUB.I16 q0,q0,q0 -#define vsubq_s16 _mm_sub_epi16 - -int32x4_t vsubq_s32(int32x4_t a, int32x4_t b); // VSUB.I32 q0,q0,q0 -#define vsubq_s32 _mm_sub_epi32 - -int64x2_t vsubq_s64(int64x2_t a, int64x2_t b); // VSUB.I64 q0,q0,q0 -#define vsubq_s64 _mm_sub_epi64 - -float32x4_t vsubq_f32(float32x4_t a, float32x4_t b); // VSUB.F32 q0,q0,q0 -#define vsubq_f32 _mm_sub_ps - -uint8x16_t vsubq_u8(uint8x16_t a, uint8x16_t b); // VSUB.I8 q0,q0,q0 -#define vsubq_u8 _mm_sub_epi8 - -uint16x8_t vsubq_u16(uint16x8_t a, uint16x8_t b); // VSUB.I16 q0,q0,q0 -#define vsubq_u16 _mm_sub_epi16 - -uint32x4_t vsubq_u32(uint32x4_t a, uint32x4_t b); // VSUB.I32 q0,q0,q0 -#define vsubq_u32 _mm_sub_epi32 - -uint64x2_t vsubq_u64(uint64x2_t a, uint64x2_t b); // VSUB.I64 q0,q0,q0 -#define vsubq_u64 _mm_sub_epi64 - -//***************Vector long subtract: vsub -> Vr[i]:=Va[i]-Vb[i] ****************** -//*********************************************************************************** -//Va, Vb have equal lane sizes, result is a 128 bit vector of lanes that are twice the width. -int16x8_t vsubl_s8(int8x8_t a, int8x8_t b); // VSUBL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vsubl_s8(int8x8_t a, int8x8_t b) // VSUBL.S8 q0,d0,d0 -{ - __m128i a16, b16; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE4.1, - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi16 (a16, b16); -} - -int32x4_t vsubl_s16(int16x4_t a, int16x4_t b); // VSUBL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vsubl_s16(int16x4_t a, int16x4_t b) // VSUBL.S16 q0,d0,d0 -{ - __m128i a32, b32; - a32 = _MM_CVTEPI16_EPI32 (_pM128i(a)); //SSE4.1 - b32 = _MM_CVTEPI16_EPI32 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi32 (a32, b32); -} - -int64x2_t vsubl_s32(int32x2_t a, int32x2_t b); // VSUBL.S32 q0,d0,d0 -_NEON2SSE_INLINE int64x2_t vsubl_s32(int32x2_t a, int32x2_t b) // VSUBL.S32 q0,d0,d0 -{ - //may be not optimal - __m128i a64, b64; - a64 = _MM_CVTEPI32_EPI64 (_pM128i(a)); //SSE4.1 - b64 = _MM_CVTEPI32_EPI64 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi64 (a64, b64); -} - -uint16x8_t vsubl_u8(uint8x8_t a, uint8x8_t b); // VSUBL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vsubl_u8(uint8x8_t a, uint8x8_t b) // VSUBL.U8 q0,d0,d0 -{ - __m128i a16, b16; - a16 = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE4.1, - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi16 (a16, b16); -} - -uint32x4_t vsubl_u16(uint16x4_t a, uint16x4_t b); // VSUBL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vsubl_u16(uint16x4_t a, uint16x4_t b) // VSUBL.s16 q0,d0,d0 -{ - __m128i a32, b32; - a32 = _MM_CVTEPU16_EPI32 (_pM128i(a)); //SSE4.1 - b32 = _MM_CVTEPU16_EPI32 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi32 (a32, b32); -} - -uint64x2_t vsubl_u32(uint32x2_t a, uint32x2_t b); // VSUBL.U32 q0,d0,d0 -_NEON2SSE_INLINE uint64x2_t vsubl_u32(uint32x2_t a, uint32x2_t b) // VSUBL.U32 q0,d0,d0 -{ - //may be not optimal - __m128i a64, b64; - a64 = _MM_CVTEPU32_EPI64 (_pM128i(a)); //SSE4.1 - b64 = _MM_CVTEPU32_EPI64 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi64 (a64, b64); -} - -//***************** Vector wide subtract: vsub -> Vr[i]:=Va[i]-Vb[i] ********************************** -//***************************************************************************************************** -int16x8_t vsubw_s8(int16x8_t a, int8x8_t b); // VSUBW.S8 q0,q0,d0 -_NEON2SSE_INLINE int16x8_t vsubw_s8(int16x8_t a, int8x8_t b) // VSUBW.S8 q0,q0,d0 -{ - __m128i b16; - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi16 (a, b16); -} - -int32x4_t vsubw_s16(int32x4_t a, int16x4_t b); // VSUBW.S16 q0,q0,d0 -_NEON2SSE_INLINE int32x4_t vsubw_s16(int32x4_t a, int16x4_t b) // VSUBW.S16 q0,q0,d0 -{ - __m128i b32; - b32 = _MM_CVTEPI16_EPI32 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi32 (a, b32); -} - -int64x2_t vsubw_s32(int64x2_t a, int32x2_t b); // VSUBW.S32 q0,q0,d0 -_NEON2SSE_INLINE int64x2_t vsubw_s32(int64x2_t a, int32x2_t b) // VSUBW.S32 q0,q0,d0 -{ - __m128i b64; - b64 = _MM_CVTEPI32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_sub_epi64 (a, b64); -} - -uint16x8_t vsubw_u8(uint16x8_t a, uint8x8_t b); // VSUBW.U8 q0,q0,d0 -_NEON2SSE_INLINE uint16x8_t vsubw_u8(uint16x8_t a, uint8x8_t b) // VSUBW.U8 q0,q0,d0 -{ - __m128i b16; - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi16 (a, b16); -} - -uint32x4_t vsubw_u16(uint32x4_t a, uint16x4_t b); // VSUBW.s16 q0,q0,d0 -_NEON2SSE_INLINE uint32x4_t vsubw_u16(uint32x4_t a, uint16x4_t b) // VSUBW.s16 q0,q0,d0 -{ - __m128i b32; - b32 = _MM_CVTEPU16_EPI32 (_pM128i(b)); //SSE4.1, - return _mm_sub_epi32 (a, b32); -} - -uint64x2_t vsubw_u32(uint64x2_t a, uint32x2_t b); // VSUBW.U32 q0,q0,d0 -_NEON2SSE_INLINE uint64x2_t vsubw_u32(uint64x2_t a, uint32x2_t b) // VSUBW.U32 q0,q0,d0 -{ - __m128i b64; - b64 = _MM_CVTEPU32_EPI64 (_pM128i(b)); //SSE4.1 - return _mm_sub_epi64 (a, b64); -} - -//************************Vector saturating subtract ********************************* -//************************************************************************************* -int8x8_t vqsub_s8(int8x8_t a, int8x8_t b); // VQSUB.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vqsub_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_subs_epi8(_pM128i(a),_pM128i(b))); -} - - -int16x4_t vqsub_s16(int16x4_t a, int16x4_t b); // VQSUB.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vqsub_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_subs_epi16(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vqsub_s32(int32x2_t a, int32x2_t b); // VQSUB.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vqsub_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vqsubq_s32(_pM128i(a), _pM128i(b))); -} - - -int64x1_t vqsub_s64(int64x1_t a, int64x1_t b); // VQSUB.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vqsub_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) //no optimal SIMD soulution -{ - uint64x1_t res; - uint64_t a64,b64; - a64 = a.m64_u64[0]; - b64 = b.m64_u64[0]; - res.m64_u64[0] = a64 - b64; - - a64 = (a64 >> 63) + (~_SIGNBIT64); - if ((int64_t)((a64 ^ b64) & (a64 ^ res.m64_u64[0])) < 0) { - res.m64_u64[0] = a64; - } - return res; -} - -uint8x8_t vqsub_u8(uint8x8_t a, uint8x8_t b); // VQSUB.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vqsub_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_subs_epu8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vqsub_u16(uint16x4_t a, uint16x4_t b); // VQSUB.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vqsub_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_mm_subs_epu16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vqsub_u32(uint32x2_t a, uint32x2_t b); // VQSUB.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vqsub_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vqsubq_u32(_pM128i(a), _pM128i(b))); -} - - -uint64x1_t vqsub_u64(uint64x1_t a, uint64x1_t b); // VQSUB.U64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqsub_u64(uint64x1_t a, uint64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint64x1_t res; - uint64_t a64, b64; - a64 = _Ui64(a); - b64 = _Ui64(b); - if (a64 > b64) { - res.m64_u64[0] = a64 - b64; - } else { - res.m64_u64[0] = 0; - } - return res; -} - -int8x16_t vqsubq_s8(int8x16_t a, int8x16_t b); // VQSUB.S8 q0,q0,q0 -#define vqsubq_s8 _mm_subs_epi8 - -int16x8_t vqsubq_s16(int16x8_t a, int16x8_t b); // VQSUB.S16 q0,q0,q0 -#define vqsubq_s16 _mm_subs_epi16 - -int32x4_t vqsubq_s32(int32x4_t a, int32x4_t b); // VQSUB.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vqsubq_s32(int32x4_t a, int32x4_t b) -{ - //no corresponding x86 SIMD soulution, special tricks are necessary. The overflow is possible only if a and b have opposite signs and sub has opposite sign to a - __m128i c7fffffff, res, res_sat, res_xor_a, b_xor_a; - c7fffffff = _mm_set1_epi32(0x7fffffff); - res = _mm_sub_epi32(a, b); - res_sat = _mm_srli_epi32(a, 31); - res_sat = _mm_add_epi32(res_sat, c7fffffff); - res_xor_a = _mm_xor_si128(res, a); - b_xor_a = _mm_xor_si128(b, a); - res_xor_a = _mm_and_si128(b_xor_a, res_xor_a); - res_xor_a = _mm_srai_epi32(res_xor_a,31); //propagate the sigh bit, all ffff if <0 all ones otherwise - res_sat = _mm_and_si128(res_xor_a, res_sat); - res = _mm_andnot_si128(res_xor_a, res); - return _mm_or_si128(res, res_sat); -} - -int64x2_t vqsubq_s64(int64x2_t a, int64x2_t b); // VQSUB.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqsubq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) //no optimal SIMD soulution -{ - _NEON2SSE_ALIGN_16 int64_t atmp[2], btmp[2]; - _NEON2SSE_ALIGN_16 uint64_t res[2]; - _mm_store_si128((__m128i*)atmp, a); - _mm_store_si128((__m128i*)btmp, b); - res[0] = atmp[0] - btmp[0]; - res[1] = atmp[1] - btmp[1]; - if (((res[0] ^ atmp[0]) & _SIGNBIT64) && ((atmp[0] ^ btmp[0]) & _SIGNBIT64)) { - res[0] = (atmp[0] >> 63) ^ ~_SIGNBIT64; - } - if (((res[1] ^ atmp[1]) & _SIGNBIT64) && ((atmp[1] ^ btmp[1]) & _SIGNBIT64)) { - res[1] = (atmp[1] >> 63) ^ ~_SIGNBIT64; - } - return _mm_load_si128((__m128i*)res); -} - -uint8x16_t vqsubq_u8(uint8x16_t a, uint8x16_t b); // VQSUB.U8 q0,q0,q0 -#define vqsubq_u8 _mm_subs_epu8 - -uint16x8_t vqsubq_u16(uint16x8_t a, uint16x8_t b); // VQSUB.s16 q0,q0,q0 -#define vqsubq_u16 _mm_subs_epu16 - -uint32x4_t vqsubq_u32(uint32x4_t a, uint32x4_t b); // VQSUB.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vqsubq_u32(uint32x4_t a, uint32x4_t b) // VQSUB.U32 q0,q0,q0 -{ - __m128i min, mask, sub; - min = _MM_MIN_EPU32(a, b); //SSE4.1 - mask = _mm_cmpeq_epi32 (min, b); - sub = _mm_sub_epi32 (a, b); - return _mm_and_si128 ( sub, mask); -} - -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqsubq_u64(uint64x2_t a, uint64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL); // VQSUB.U64 q0,q0,q0 -#ifdef USE_SSE4 - _NEON2SSE_INLINE uint64x2_t vqsubq_u64(uint64x2_t a, uint64x2_t b) - { - __m128i c80000000, subb, suba, cmp, sub; - c80000000 = _mm_set_epi32 (0x80000000, 0x0, 0x80000000, 0x0); - sub = _mm_sub_epi64 (a, b); - suba = _mm_sub_epi64 (a, c80000000); - subb = _mm_sub_epi64 (b, c80000000); - cmp = _mm_cmpgt_epi64 ( suba, subb); //no unsigned comparison, need to go to signed, SSE4.2!!! - return _mm_and_si128 (sub, cmp); //saturation - } -#else - _NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqsubq_u64(uint64x2_t a, uint64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) - { - _NEON2SSE_ALIGN_16 uint64_t atmp[2], btmp[2], res[2]; - _mm_store_si128((__m128i*)atmp, a); - _mm_store_si128((__m128i*)btmp, b); - res[0] = (atmp[0] > btmp[0]) ? atmp[0] - btmp[0] : 0; - res[1] = (atmp[1] > btmp[1]) ? atmp[1] - btmp[1] : 0; - return _mm_load_si128((__m128i*)(res)); - } -#endif - -//**********Vector halving subtract Vr[i]:=(Va[i]-Vb[i])>>1 ****************************************************** -//**************************************************************** -int8x8_t vhsub_s8(int8x8_t a, int8x8_t b); // VHSUB.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vhsub_s8(int8x8_t a, int8x8_t b) // VHSUB.S8 d0,d0,d0 -{ - //no 8 bit shift available, internal overflow is possible, so let's go to 16 bit, - int8x8_t res64; - __m128i r16; - int8x8_t r; - r = vsub_s8 (a, b); - r16 = _MM_CVTEPI8_EPI16 (_pM128i(r)); //SSE 4.1 - r16 = _mm_srai_epi16 (r16, 1); //SSE2 - r16 = _mm_packs_epi16 (r16,r16); //use low 64 bits - return64(r16); -} - -int16x4_t vhsub_s16(int16x4_t a, int16x4_t b); // VHSUB.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vhsub_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vhsubq_s16(_pM128i(a), _pM128i(b))); -} - - - -int32x2_t vhsub_s32(int32x2_t a, int32x2_t b); // VHSUB.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vhsub_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vhsubq_s32(_pM128i(a), _pM128i(b))); -} - - -uint8x8_t vhsub_u8(uint8x8_t a, uint8x8_t b); // VHSUB.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vhsub_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(vhsubq_u8(_pM128i(a), _pM128i(b))); -} - -uint16x4_t vhsub_u16(uint16x4_t a, uint16x4_t b); // VHSUB.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vhsub_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(vhsubq_u16(_pM128i(a), _pM128i(b))); -} - -uint32x2_t vhsub_u32(uint32x2_t a, uint32x2_t b); // VHSUB.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vhsub_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vhsubq_u32(_pM128i(a), _pM128i(b))); -} - -int8x16_t vhsubq_s8(int8x16_t a, int8x16_t b); // VHSUB.S8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vhsubq_s8(int8x16_t a, int8x16_t b) // VHSUB.S8 q0,q0,q0 -{ - // //need to deal with the possibility of internal overflow - __m128i c128, au,bu; - c128 = _mm_set1_epi8 (128); - au = _mm_add_epi8( a, c128); - bu = _mm_add_epi8( b, c128); - return vhsubq_u8(au,bu); -} - -int16x8_t vhsubq_s16(int16x8_t a, int16x8_t b); // VHSUB.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vhsubq_s16(int16x8_t a, int16x8_t b) // VHSUB.S16 q0,q0,q0 -{ - //need to deal with the possibility of internal overflow - __m128i c8000, au,bu; - c8000 = _mm_set1_epi16(0x8000); - au = _mm_add_epi16( a, c8000); - bu = _mm_add_epi16( b, c8000); - return vhsubq_u16(au,bu); -} - -int32x4_t vhsubq_s32(int32x4_t a, int32x4_t b); // VHSUB.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vhsubq_s32(int32x4_t a, int32x4_t b) // VHSUB.S32 q0,q0,q0 -{ - //need to deal with the possibility of internal overflow - __m128i a2, b2,r, b_1; - a2 = _mm_srai_epi32 (a,1); - b2 = _mm_srai_epi32 (b,1); - r = _mm_sub_epi32 (a2, b2); - b_1 = _mm_andnot_si128(a, b); //!a and b - b_1 = _mm_slli_epi32 (b_1,31); - b_1 = _mm_srli_epi32 (b_1,31); //0 or 1, last b bit - return _mm_sub_epi32(r,b_1); -} - -uint8x16_t vhsubq_u8(uint8x16_t a, uint8x16_t b); // VHSUB.U8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vhsubq_u8(uint8x16_t a, uint8x16_t b) // VHSUB.U8 q0,q0,q0 -{ - __m128i avg; - avg = _mm_avg_epu8 (a, b); - return _mm_sub_epi8(a, avg); -} - -uint16x8_t vhsubq_u16(uint16x8_t a, uint16x8_t b); // VHSUB.s16 q0,q0,q0 -_NEON2SSE_INLINE uint16x8_t vhsubq_u16(uint16x8_t a, uint16x8_t b) // VHSUB.s16 q0,q0,q0 -{ - __m128i avg; - avg = _mm_avg_epu16 (a, b); - return _mm_sub_epi16(a, avg); -} - -uint32x4_t vhsubq_u32(uint32x4_t a, uint32x4_t b); // VHSUB.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vhsubq_u32(uint32x4_t a, uint32x4_t b) // VHSUB.U32 q0,q0,q0 -{ - //need to deal with the possibility of internal overflow - __m128i a2, b2,r, b_1; - a2 = _mm_srli_epi32 (a,1); - b2 = _mm_srli_epi32 (b,1); - r = _mm_sub_epi32 (a2, b2); - b_1 = _mm_andnot_si128(a, b); //!a and b - b_1 = _mm_slli_epi32 (b_1,31); - b_1 = _mm_srli_epi32 (b_1,31); //0 or 1, last b bit - return _mm_sub_epi32(r,b_1); -} - -//******* Vector subtract high half (truncated) ** ************ -//************************************************************ -int8x8_t vsubhn_s16(int16x8_t a, int16x8_t b); // VSUBHN.I16 d0,q0,q0 -_NEON2SSE_INLINE int8x8_t vsubhn_s16(int16x8_t a, int16x8_t b) // VSUBHN.I16 d0,q0,q0 -{ - int8x8_t res64; - __m128i sum, sum8; - sum = _mm_sub_epi16 (a, b); - sum8 = _mm_srai_epi16 (sum, 8); - sum8 = _mm_packs_epi16(sum8,sum8); - return64(sum8); -} - -int16x4_t vsubhn_s32(int32x4_t a, int32x4_t b); // VSUBHN.I32 d0,q0,q0 -_NEON2SSE_INLINE int16x4_t vsubhn_s32(int32x4_t a, int32x4_t b) // VSUBHN.I32 d0,q0,q0 -{ - int16x4_t res64; - __m128i sum, sum16; - sum = _mm_sub_epi32 (a, b); - sum16 = _mm_srai_epi32 (sum, 16); - sum16 = _mm_packs_epi32(sum16,sum16); - return64(sum16); -} - -int32x2_t vsubhn_s64(int64x2_t a, int64x2_t b); // VSUBHN.I64 d0,q0,q0 -_NEON2SSE_INLINE int32x2_t vsubhn_s64(int64x2_t a, int64x2_t b) -{ - int32x2_t res64; - __m128i sub; - sub = _mm_sub_epi64 (a, b); - sub = _mm_shuffle_epi32(sub, 1 | (3 << 2) | (0 << 4) | (2 << 6)); - return64(sub); -} - -uint8x8_t vsubhn_u16(uint16x8_t a, uint16x8_t b); // VSUBHN.I16 d0,q0,q0 -_NEON2SSE_INLINE uint8x8_t vsubhn_u16(uint16x8_t a, uint16x8_t b) // VSUBHN.I16 d0,q0,q0 -{ - uint8x8_t res64; - __m128i sum, sum8; - sum = _mm_sub_epi16 (a, b); - sum8 = _mm_srli_epi16 (sum, 8); - sum8 = _mm_packus_epi16(sum8,sum8); - return64(sum8); -} - -uint16x4_t vsubhn_u32(uint32x4_t a, uint32x4_t b); // VSUBHN.I32 d0,q0,q0 -_NEON2SSE_INLINE uint16x4_t vsubhn_u32(uint32x4_t a, uint32x4_t b) // VSUBHN.I32 d0,q0,q0 -{ - uint16x4_t res64; - __m128i sum, sum16; - sum = _mm_sub_epi32 (a, b); - sum16 = _mm_srli_epi32 (sum, 16); - sum16 = _MM_PACKUS1_EPI32(sum16); - return64(sum16); -} - -uint32x2_t vsubhn_u64(uint64x2_t a, uint64x2_t b); // VSUBHN.I64 d0,q0,q0 -#define vsubhn_u64 vsubhn_s64 - -//************ Vector rounding subtract high half ********************* -//********************************************************************* -int8x8_t vrsubhn_s16(int16x8_t a, int16x8_t b); // VRSUBHN.I16 d0,q0,q0 -_NEON2SSE_INLINE int8x8_t vrsubhn_s16(int16x8_t a, int16x8_t b) // VRSUBHN.I16 d0,q0,q0 -{ - int8x8_t res64; - __m128i sub, mask1; - sub = _mm_sub_epi16 (a, b); - mask1 = _mm_slli_epi16(sub, 9); //shift left then back right to - mask1 = _mm_srli_epi16(mask1, 15); //get 7-th bit 1 or zero - sub = _mm_srai_epi16 (sub, 8); //get high half - sub = _mm_add_epi16 (sub, mask1); //actual rounding - sub = _mm_packs_epi16 (sub, sub); - return64(sub); -} - -int16x4_t vrsubhn_s32(int32x4_t a, int32x4_t b); // VRSUBHN.I32 d0,q0,q0 -_NEON2SSE_INLINE int16x4_t vrsubhn_s32(int32x4_t a, int32x4_t b) // VRSUBHN.I32 d0,q0,q0 -{ - //SIMD may be not optimal, serial may be faster - int16x4_t res64; - __m128i sub, mask1; - sub = _mm_sub_epi32 (a, b); - mask1 = _mm_slli_epi32(sub, 17); //shift left then back right to - mask1 = _mm_srli_epi32(mask1,31); //get 15-th bit 1 or zero - sub = _mm_srai_epi32 (sub, 16); //get high half - sub = _mm_add_epi32 (sub, mask1); //actual rounding - sub = _mm_packs_epi32 (sub, sub); - return64(sub); -} - -int32x2_t vrsubhn_s64(int64x2_t a, int64x2_t b); // VRSUBHN.I64 d0,q0,q0 -_NEON2SSE_INLINE int32x2_t vrsubhn_s64(int64x2_t a, int64x2_t b) -{ - //SIMD may be not optimal, serial may be faster - int32x2_t res64; - __m128i sub, mask1; - sub = _mm_sub_epi64 (a, b); - mask1 = _mm_slli_epi64(sub, 33); //shift left then back right to - mask1 = _mm_srli_epi64(mask1,32); //get 31-th bit 1 or zero - sub = _mm_add_epi64 (sub, mask1); //actual high half rounding - sub = _mm_shuffle_epi32(sub, 1 | (3 << 2) | (0 << 4) | (2 << 6)); - return64(sub); -} - -uint8x8_t vrsubhn_u16(uint16x8_t a, uint16x8_t b); // VRSUBHN.I16 d0,q0,q0 -_NEON2SSE_INLINE uint8x8_t vrsubhn_u16(uint16x8_t a, uint16x8_t b) // VRSUBHN.I16 d0,q0,q0 -{ - uint8x8_t res64; - __m128i sub, mask1; - sub = _mm_sub_epi16 (a, b); - mask1 = _mm_slli_epi16(sub, 9); //shift left then back right to - mask1 = _mm_srli_epi16(mask1, 15); //get 7-th bit 1 or zero - sub = _mm_srai_epi16 (sub, 8); //get high half - sub = _mm_add_epi16 (sub, mask1); //actual rounding - sub = _mm_packus_epi16 (sub, sub); - return64(sub); -} - -uint16x4_t vrsubhn_u32(uint32x4_t a, uint32x4_t b); // VRSUBHN.I32 d0,q0,q0 -_NEON2SSE_INLINE uint16x4_t vrsubhn_u32(uint32x4_t a, uint32x4_t b) // VRSUBHN.I32 d0,q0,q0 -{ - //SIMD may be not optimal, serial may be faster - uint16x4_t res64; - __m128i sub, mask1; - sub = _mm_sub_epi32 (a, b); - mask1 = _mm_slli_epi32(sub, 17); //shift left then back right to - mask1 = _mm_srli_epi32(mask1,31); //get 15-th bit 1 or zero - sub = _mm_srai_epi32 (sub, 16); //get high half - sub = _mm_add_epi32 (sub, mask1); //actual rounding - sub = _MM_PACKUS1_EPI32 (sub); - return64(sub); -} - -uint32x2_t vrsubhn_u64(uint64x2_t a, uint64x2_t b); // VRSUBHN.I64 d0,q0,q0 -#define vrsubhn_u64 vrsubhn_s64 - -//*********** Vector saturating doubling multiply subtract long ******************** -//************************************************************************************ -int32x4_t vqdmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VQDMLSL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vqdmlsl_s16(int32x4_t a, int16x4_t b, int16x4_t c) -{ - //not optimal SIMD soulution, serial may be faster - __m128i res32, mask; - int32x4_t res; - _NEON2SSE_ALIGN_16 uint32_t cmask[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - res = vmull_s16(b, c); - res32 = _mm_slli_epi32 (res, 1); //double the result, saturation not considered - mask = _mm_cmpeq_epi32 (res32, *(__m128i*)cmask); - res32 = _mm_xor_si128 (res32, mask); //res32 saturated for 0x80000000 - return vqsubq_s32(a, res32); //saturation -} - -int64x2_t vqdmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VQDMLSL.S32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmlsl_s32(int64x2_t a, int32x2_t b, int32x2_t c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - __m128i res64, mask; - int64x2_t res; - _NEON2SSE_ALIGN_16 uint64_t cmask[] = {0x8000000000000000, 0x8000000000000000}; - res = vmull_s32(b, c); - res64 = _mm_slli_epi64 (res, 1); //double the result, saturation not considered - mask = _MM_CMPEQ_EPI64 (res64, *(__m128i*)cmask); - res64 = _mm_xor_si128 (res64, mask); //res32 saturated for 0x80000000 - return vqsubq_s64(a, res64); //saturation -} - -//****************** COMPARISON *************************************** -//******************* Vector compare equal ************************************* -//**************************************************************************** -uint8x8_t vceq_s8(int8x8_t a, int8x8_t b); // VCEQ.I8 d0, d0, d0 -_NEON2SSE_INLINE int8x8_t vceq_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_cmpeq_epi8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vceq_s16(int16x4_t a, int16x4_t b); // VCEQ.I16 d0, d0, d0 -_NEON2SSE_INLINE int16x4_t vceq_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_cmpeq_epi16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vceq_s32(int32x2_t a, int32x2_t b); // VCEQ.I32 d0, d0, d0 -_NEON2SSE_INLINE int32x2_t vceq_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_cmpeq_epi32(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vceq_f32(float32x2_t a, float32x2_t b); // VCEQ.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vceq_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128 res; - res = _mm_cmpeq_ps(_pM128(a), _pM128(b) ); - return64f(res); -} - -uint8x8_t vceq_u8(uint8x8_t a, uint8x8_t b); // VCEQ.I8 d0, d0, d0 -_NEON2SSE_INLINE uint8x8_t vceq_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_cmpeq_epi8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vceq_u16(uint16x4_t a, uint16x4_t b); // VCEQ.I16 d0, d0, d0 -_NEON2SSE_INLINE uint16x4_t vceq_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_mm_cmpeq_epi16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vceq_u32(uint32x2_t a, uint32x2_t b); // VCEQ.I32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vceq_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(_mm_cmpeq_epi32(_pM128i(a),_pM128i(b))); -} - - -uint8x8_t vceq_p8(poly8x8_t a, poly8x8_t b); // VCEQ.I8 d0, d0, d0 -#define vceq_p8 vceq_u8 - - -uint8x16_t vceqq_s8(int8x16_t a, int8x16_t b); // VCEQ.I8 q0, q0, q0 -#define vceqq_s8 _mm_cmpeq_epi8 - -uint16x8_t vceqq_s16(int16x8_t a, int16x8_t b); // VCEQ.I16 q0, q0, q0 -#define vceqq_s16 _mm_cmpeq_epi16 - -uint32x4_t vceqq_s32(int32x4_t a, int32x4_t b); // VCEQ.I32 q0, q0, q0 -#define vceqq_s32 _mm_cmpeq_epi32 - -uint32x4_t vceqq_f32(float32x4_t a, float32x4_t b); // VCEQ.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vceqq_f32(float32x4_t a, float32x4_t b) -{ - __m128 res; - res = _mm_cmpeq_ps(a,b); - return _M128i(res); -} - -uint8x16_t vceqq_u8(uint8x16_t a, uint8x16_t b); // VCEQ.I8 q0, q0, q0 -#define vceqq_u8 _mm_cmpeq_epi8 - -uint16x8_t vceqq_u16(uint16x8_t a, uint16x8_t b); // VCEQ.I16 q0, q0, q0 -#define vceqq_u16 _mm_cmpeq_epi16 - -uint32x4_t vceqq_u32(uint32x4_t a, uint32x4_t b); // VCEQ.I32 q0, q0, q0 -#define vceqq_u32 _mm_cmpeq_epi32 - -uint8x16_t vceqq_p8(poly8x16_t a, poly8x16_t b); // VCEQ.I8 q0, q0, q0 -#define vceqq_p8 _mm_cmpeq_epi8 - -//******************Vector compare greater-than or equal************************* -//******************************************************************************* -//in IA SIMD no greater-than-or-equal comparison for integers, -// there is greater-than available only, so we need the following tricks - -uint8x8_t vcge_s8(int8x8_t a, int8x8_t b); // VCGE.S8 d0, d0, d0 -_NEON2SSE_INLINE int8x8_t vcge_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vcgeq_s8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vcge_s16(int16x4_t a, int16x4_t b); // VCGE.S16 d0, d0, d0 -_NEON2SSE_INLINE int16x4_t vcge_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vcgeq_s16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcge_s32(int32x2_t a, int32x2_t b); // VCGE.S32 d0, d0, d0 -_NEON2SSE_INLINE int32x2_t vcge_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vcgeq_s32(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcge_f32(float32x2_t a, float32x2_t b); // VCGE.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcge_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128 res; - res = _mm_cmpge_ps(_pM128(a),_pM128(b)); //use only 2 first entries - return64f(res); -} - -uint8x8_t vcge_u8(uint8x8_t a, uint8x8_t b); // VCGE.U8 d0, d0, d0 -_NEON2SSE_INLINE uint8x8_t vcge_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(vcgeq_u8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vcge_u16(uint16x4_t a, uint16x4_t b); // VCGE.s16 d0, d0, d0 -_NEON2SSE_INLINE uint16x4_t vcge_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(vcgeq_u16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcge_u32(uint32x2_t a, uint32x2_t b); // VCGE.U32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcge_u32(uint32x2_t a, uint32x2_t b) -{ - //serial solution looks faster - uint32x2_t res64; - return64(vcgeq_u32 (_pM128i(a), _pM128i(b))); -} - - - -uint8x16_t vcgeq_s8(int8x16_t a, int8x16_t b); // VCGE.S8 q0, q0, q0 -_NEON2SSE_INLINE uint8x16_t vcgeq_s8(int8x16_t a, int8x16_t b) // VCGE.S8 q0, q0, q0 -{ - __m128i m1, m2; - m1 = _mm_cmpgt_epi8 ( a, b); - m2 = _mm_cmpeq_epi8 ( a, b); - return _mm_or_si128 ( m1, m2); -} - -uint16x8_t vcgeq_s16(int16x8_t a, int16x8_t b); // VCGE.S16 q0, q0, q0 -_NEON2SSE_INLINE uint16x8_t vcgeq_s16(int16x8_t a, int16x8_t b) // VCGE.S16 q0, q0, q0 -{ - __m128i m1, m2; - m1 = _mm_cmpgt_epi16 ( a, b); - m2 = _mm_cmpeq_epi16 ( a, b); - return _mm_or_si128 ( m1,m2); -} - -uint32x4_t vcgeq_s32(int32x4_t a, int32x4_t b); // VCGE.S32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcgeq_s32(int32x4_t a, int32x4_t b) // VCGE.S32 q0, q0, q0 -{ - __m128i m1, m2; - m1 = _mm_cmpgt_epi32 (a, b); - m2 = _mm_cmpeq_epi32 (a, b); - return _mm_or_si128 (m1, m2); -} - -uint32x4_t vcgeq_f32(float32x4_t a, float32x4_t b); // VCGE.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcgeq_f32(float32x4_t a, float32x4_t b) -{ - __m128 res; - res = _mm_cmpge_ps(a,b); //use only 2 first entries - return *(__m128i*)&res; -} - -uint8x16_t vcgeq_u8(uint8x16_t a, uint8x16_t b); // VCGE.U8 q0, q0, q0 -_NEON2SSE_INLINE uint8x16_t vcgeq_u8(uint8x16_t a, uint8x16_t b) // VCGE.U8 q0, q0, q0 -{ - //no unsigned chars comparison, only signed available,so need the trick - #ifdef USE_SSE4 - __m128i cmp; - cmp = _mm_max_epu8(a, b); - return _mm_cmpeq_epi8(cmp, a); //a>=b - #else - __m128i c128, as, bs, m1, m2; - c128 = _mm_set1_epi8 (128); - as = _mm_sub_epi8( a, c128); - bs = _mm_sub_epi8( b, c128); - m1 = _mm_cmpgt_epi8( as, bs); - m2 = _mm_cmpeq_epi8 (as, bs); - return _mm_or_si128 ( m1, m2); - #endif -} - -uint16x8_t vcgeq_u16(uint16x8_t a, uint16x8_t b); // VCGE.s16 q0, q0, q0 -_NEON2SSE_INLINE uint16x8_t vcgeq_u16(uint16x8_t a, uint16x8_t b) // VCGE.s16 q0, q0, q0 -{ - //no unsigned shorts comparison, only signed available,so need the trick - #ifdef USE_SSE4 - __m128i cmp; - cmp = _mm_max_epu16(a, b); - return _mm_cmpeq_epi16(cmp, a); //a>=b - #else - __m128i c8000, as, bs, m1, m2; - c8000 = _mm_set1_epi16 (0x8000); - as = _mm_sub_epi16(a,c8000); - bs = _mm_sub_epi16(b,c8000); - m1 = _mm_cmpgt_epi16(as, bs); - m2 = _mm_cmpeq_epi16 (as, bs); - return _mm_or_si128 ( m1, m2); - #endif -} - -uint32x4_t vcgeq_u32(uint32x4_t a, uint32x4_t b); // VCGE.U32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcgeq_u32(uint32x4_t a, uint32x4_t b) // VCGE.U32 q0, q0, q0 -{ - //no unsigned ints comparison, only signed available,so need the trick - #ifdef USE_SSE4 - __m128i cmp; - cmp = _mm_max_epu32(a, b); - return _mm_cmpeq_epi32(cmp, a); //a>=b - #else - //serial solution may be faster - __m128i c80000000, as, bs, m1, m2; - c80000000 = _mm_set1_epi32 (0x80000000); - as = _mm_sub_epi32(a,c80000000); - bs = _mm_sub_epi32(b,c80000000); - m1 = _mm_cmpgt_epi32 (as, bs); - m2 = _mm_cmpeq_epi32 (as, bs); - return _mm_or_si128 ( m1, m2); - #endif -} - -//**********************Vector compare less-than or equal****************************** -//*************************************************************************************** -//in IA SIMD no less-than-or-equal comparison for integers present, so we need the tricks - -uint8x8_t vcle_s8(int8x8_t a, int8x8_t b); // VCGE.S8 d0, d0, d0 -_NEON2SSE_INLINE int8x8_t vcle_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vcleq_s8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vcle_s16(int16x4_t a, int16x4_t b); // VCGE.S16 d0, d0, d0 -_NEON2SSE_INLINE int16x4_t vcle_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vcleq_s16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcle_s32(int32x2_t a, int32x2_t b); // VCGE.S32 d0, d0, d0 -_NEON2SSE_INLINE int32x2_t vcle_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vcleq_s32(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcle_f32(float32x2_t a, float32x2_t b); // VCGE.F32 d0, d0, d0? -_NEON2SSE_INLINE uint32x2_t vcle_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128 res; - res = _mm_cmple_ps(_pM128(a),_pM128(b)); - return64f(res); -} - -uint8x8_t vcle_u8(uint8x8_t a, uint8x8_t b); // VCGE.U8 d0, d0, d0 -#define vcle_u8(a,b) vcge_u8(b,a) - - -uint16x4_t vcle_u16(uint16x4_t a, uint16x4_t b); // VCGE.s16 d0, d0, d0 -#define vcle_u16(a,b) vcge_u16(b,a) - - -uint32x2_t vcle_u32(uint32x2_t a, uint32x2_t b); // VCGE.U32 d0, d0, d0 -#define vcle_u32(a,b) vcge_u32(b,a) - -uint8x16_t vcleq_s8(int8x16_t a, int8x16_t b); // VCGE.S8 q0, q0, q0 -_NEON2SSE_INLINE uint8x16_t vcleq_s8(int8x16_t a, int8x16_t b) // VCGE.S8 q0, q0, q0 -{ - __m128i c1, res; - c1 = _mm_cmpeq_epi8 (a,a); //all ones 0xff.... - res = _mm_cmpgt_epi8 ( a, b); - return _mm_andnot_si128 (res, c1); //inverse the cmpgt result, get less-than-or-equal -} - -uint16x8_t vcleq_s16(int16x8_t a, int16x8_t b); // VCGE.S16 q0, q0, q0 -_NEON2SSE_INLINE uint16x8_t vcleq_s16(int16x8_t a, int16x8_t b) // VCGE.S16 q0, q0, q0 -{ - __m128i c1, res; - c1 = _mm_cmpeq_epi16 (a,a); //all ones 0xff.... - res = _mm_cmpgt_epi16 ( a, b); - return _mm_andnot_si128 (res, c1); -} - -uint32x4_t vcleq_s32(int32x4_t a, int32x4_t b); // VCGE.S32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcleq_s32(int32x4_t a, int32x4_t b) // VCGE.S32 q0, q0, q0 -{ - __m128i c1, res; - c1 = _mm_cmpeq_epi32 (a,a); //all ones 0xff.... - res = _mm_cmpgt_epi32 ( a, b); - return _mm_andnot_si128 (res, c1); -} - -uint32x4_t vcleq_f32(float32x4_t a, float32x4_t b); // VCGE.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcleq_f32(float32x4_t a, float32x4_t b) -{ - __m128 res; - res = _mm_cmple_ps(a,b); - return *(__m128i*)&res; -} - -uint8x16_t vcleq_u8(uint8x16_t a, uint8x16_t b); // VCGE.U8 q0, q0, q0 -#ifdef USE_SSE4 - _NEON2SSE_INLINE uint8x16_t vcleq_u8(uint8x16_t a, uint8x16_t b) // VCGE.U8 q0, q0, q0 - { - //no unsigned chars comparison in SSE, only signed available,so need the trick - __m128i cmp; - cmp = _mm_min_epu8(a, b); - return _mm_cmpeq_epi8(cmp, a); //a<=b - } -#else - #define vcleq_u8(a,b) vcgeq_u8(b,a) -#endif - - -uint16x8_t vcleq_u16(uint16x8_t a, uint16x8_t b); // VCGE.s16 q0, q0, q0 -#ifdef USE_SSE4 - _NEON2SSE_INLINE uint16x8_t vcleq_u16(uint16x8_t a, uint16x8_t b) // VCGE.s16 q0, q0, q0 - { - //no unsigned shorts comparison in SSE, only signed available,so need the trick - __m128i cmp; - cmp = _mm_min_epu16(a, b); - return _mm_cmpeq_epi16(cmp, a); //a<=b - } -#else - #define vcleq_u16(a,b) vcgeq_u16(b,a) -#endif - - -uint32x4_t vcleq_u32(uint32x4_t a, uint32x4_t b); // VCGE.U32 q0, q0, q0 -#ifdef USE_SSE4 - _NEON2SSE_INLINE uint32x4_t vcleq_u32(uint32x4_t a, uint32x4_t b) // VCGE.U32 q0, q0, q0 - { - //no unsigned chars comparison in SSE, only signed available,so need the trick - __m128i cmp; - cmp = _mm_min_epu32(a, b); - return _mm_cmpeq_epi32(cmp, a); //a<=b - } -#else -//solution may be not optimal compared with the serial one - #define vcleq_u32(a,b) vcgeq_u32(b,a) -#endif - - -//****** Vector compare greater-than ****************************************** -//************************************************************************** -uint8x8_t vcgt_s8(int8x8_t a, int8x8_t b); // VCGT.S8 d0, d0, d0 -_NEON2SSE_INLINE int8x8_t vcgt_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_cmpgt_epi8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vcgt_s16(int16x4_t a, int16x4_t b); // VCGT.S16 d0, d0, d0 -_NEON2SSE_INLINE int16x4_t vcgt_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_cmpgt_epi16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vcgt_s32(int32x2_t a, int32x2_t b); // VCGT.S32 d0, d0, d0 -_NEON2SSE_INLINE int32x2_t vcgt_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_cmpgt_epi32(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vcgt_f32(float32x2_t a, float32x2_t b); // VCGT.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcgt_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128 res; - res = _mm_cmpgt_ps(_pM128(a),_pM128(b)); //use only 2 first entries - return64f(res); -} - -uint8x8_t vcgt_u8(uint8x8_t a, uint8x8_t b); // VCGT.U8 d0, d0, d0 -_NEON2SSE_INLINE uint8x8_t vcgt_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(vcgtq_u8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vcgt_u16(uint16x4_t a, uint16x4_t b); // VCGT.s16 d0, d0, d0 -_NEON2SSE_INLINE uint16x4_t vcgt_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(vcgtq_u16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vcgt_u32(uint32x2_t a, uint32x2_t b); // VCGT.U32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcgt_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vcgtq_u32(_pM128i(a), _pM128i(b))); -} - - -uint8x16_t vcgtq_s8(int8x16_t a, int8x16_t b); // VCGT.S8 q0, q0, q0 -#define vcgtq_s8 _mm_cmpgt_epi8 - -uint16x8_t vcgtq_s16(int16x8_t a, int16x8_t b); // VCGT.S16 q0, q0, q0 -#define vcgtq_s16 _mm_cmpgt_epi16 - -uint32x4_t vcgtq_s32(int32x4_t a, int32x4_t b); // VCGT.S32 q0, q0, q0 -#define vcgtq_s32 _mm_cmpgt_epi32 - -uint32x4_t vcgtq_f32(float32x4_t a, float32x4_t b); // VCGT.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcgtq_f32(float32x4_t a, float32x4_t b) -{ - __m128 res; - res = _mm_cmpgt_ps(a,b); //use only 2 first entries - return *(__m128i*)&res; -} - -uint8x16_t vcgtq_u8(uint8x16_t a, uint8x16_t b); // VCGT.U8 q0, q0, q0 -_NEON2SSE_INLINE uint8x16_t vcgtq_u8(uint8x16_t a, uint8x16_t b) // VCGT.U8 q0, q0, q0 -{ - //no unsigned chars comparison, only signed available,so need the trick - __m128i c128, as, bs; - c128 = _mm_set1_epi8 (128); - as = _mm_sub_epi8(a,c128); - bs = _mm_sub_epi8(b,c128); - return _mm_cmpgt_epi8 (as, bs); -} - -uint16x8_t vcgtq_u16(uint16x8_t a, uint16x8_t b); // VCGT.s16 q0, q0, q0 -_NEON2SSE_INLINE uint16x8_t vcgtq_u16(uint16x8_t a, uint16x8_t b) // VCGT.s16 q0, q0, q0 -{ - //no unsigned short comparison, only signed available,so need the trick - __m128i c8000, as, bs; - c8000 = _mm_set1_epi16 (0x8000); - as = _mm_sub_epi16(a,c8000); - bs = _mm_sub_epi16(b,c8000); - return _mm_cmpgt_epi16 ( as, bs); -} - -uint32x4_t vcgtq_u32(uint32x4_t a, uint32x4_t b); // VCGT.U32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcgtq_u32(uint32x4_t a, uint32x4_t b) // VCGT.U32 q0, q0, q0 -{ - //no unsigned int comparison, only signed available,so need the trick - __m128i c80000000, as, bs; - c80000000 = _mm_set1_epi32 (0x80000000); - as = _mm_sub_epi32(a,c80000000); - bs = _mm_sub_epi32(b,c80000000); - return _mm_cmpgt_epi32 ( as, bs); -} - -//********************* Vector compare less-than ************************** -//************************************************************************* -uint8x8_t vclt_s8(int8x8_t a, int8x8_t b); // VCGT.S8 d0, d0, d0 -#define vclt_s8(a,b) vcgt_s8(b,a) //swap the arguments!! - - -uint16x4_t vclt_s16(int16x4_t a, int16x4_t b); // VCGT.S16 d0, d0, d0 -#define vclt_s16(a,b) vcgt_s16(b,a) //swap the arguments!! - - -uint32x2_t vclt_s32(int32x2_t a, int32x2_t b); // VCGT.S32 d0, d0, d0 -#define vclt_s32(a,b) vcgt_s32(b,a) //swap the arguments!! - - -uint32x2_t vclt_f32(float32x2_t a, float32x2_t b); // VCGT.F32 d0, d0, d0 -#define vclt_f32(a,b) vcgt_f32(b, a) //swap the arguments!! - -uint8x8_t vclt_u8(uint8x8_t a, uint8x8_t b); // VCGT.U8 d0, d0, d0 -#define vclt_u8(a,b) vcgt_u8(b,a) //swap the arguments!! - -uint16x4_t vclt_u16(uint16x4_t a, uint16x4_t b); // VCGT.s16 d0, d0, d0 -#define vclt_u16(a,b) vcgt_u16(b,a) //swap the arguments!! - -uint32x2_t vclt_u32(uint32x2_t a, uint32x2_t b); // VCGT.U32 d0, d0, d0 -#define vclt_u32(a,b) vcgt_u32(b,a) //swap the arguments!! - -uint8x16_t vcltq_s8(int8x16_t a, int8x16_t b); // VCGT.S8 q0, q0, q0 -#define vcltq_s8(a,b) vcgtq_s8(b, a) //swap the arguments!! - -uint16x8_t vcltq_s16(int16x8_t a, int16x8_t b); // VCGT.S16 q0, q0, q0 -#define vcltq_s16(a,b) vcgtq_s16(b, a) //swap the arguments!! - -uint32x4_t vcltq_s32(int32x4_t a, int32x4_t b); // VCGT.S32 q0, q0, q0 -#define vcltq_s32(a,b) vcgtq_s32(b, a) //swap the arguments!! - -uint32x4_t vcltq_f32(float32x4_t a, float32x4_t b); // VCGT.F32 q0, q0, q0 -#define vcltq_f32(a,b) vcgtq_f32(b, a) //swap the arguments!! - -uint8x16_t vcltq_u8(uint8x16_t a, uint8x16_t b); // VCGT.U8 q0, q0, q0 -#define vcltq_u8(a,b) vcgtq_u8(b, a) //swap the arguments!! - -uint16x8_t vcltq_u16(uint16x8_t a, uint16x8_t b); // VCGT.s16 q0, q0, q0 -#define vcltq_u16(a,b) vcgtq_u16(b, a) //swap the arguments!! - -uint32x4_t vcltq_u32(uint32x4_t a, uint32x4_t b); // VCGT.U32 q0, q0, q0 -#define vcltq_u32(a,b) vcgtq_u32(b, a) //swap the arguments!! - -//*****************Vector compare absolute greater-than or equal ************ -//*************************************************************************** -uint32x2_t vcage_f32(float32x2_t a, float32x2_t b); // VACGE.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcage_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (_pM128(a), *(__m128*)&c7fffffff); - b0 = _mm_and_ps (_pM128(b), *(__m128*)&c7fffffff); - a0 = _mm_cmpge_ps ( a0, b0); - return64f(a0); -} - -uint32x4_t vcageq_f32(float32x4_t a, float32x4_t b); // VACGE.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcageq_f32(float32x4_t a, float32x4_t b) // VACGE.F32 q0, q0, q0 -{ - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (a, *(__m128*)&c7fffffff); - b0 = _mm_and_ps (b, *(__m128*)&c7fffffff); - a0 = _mm_cmpge_ps ( a0, b0); - return (*(__m128i*)&a0); -} - -//********Vector compare absolute less-than or equal ****************** -//******************************************************************** -uint32x2_t vcale_f32(float32x2_t a, float32x2_t b); // VACGE.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcale_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (_pM128(a), *(__m128*)&c7fffffff); - b0 = _mm_and_ps (_pM128(b), *(__m128*)&c7fffffff); - a0 = _mm_cmple_ps (a0, b0); - return64f(a0); -} - -uint32x4_t vcaleq_f32(float32x4_t a, float32x4_t b); // VACGE.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcaleq_f32(float32x4_t a, float32x4_t b) // VACGE.F32 q0, q0, q0 -{ - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (a, *(__m128*)&c7fffffff); - b0 = _mm_and_ps (b, *(__m128*)&c7fffffff); - a0 = _mm_cmple_ps (a0, b0); - return (*(__m128i*)&a0); -} - -//******** Vector compare absolute greater-than ****************** -//****************************************************************** -uint32x2_t vcagt_f32(float32x2_t a, float32x2_t b); // VACGT.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcagt_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (_pM128(a), *(__m128*)&c7fffffff); - b0 = _mm_and_ps (_pM128(b), *(__m128*)&c7fffffff); - a0 = _mm_cmpgt_ps (a0, b0); - return64f(a0); -} - -uint32x4_t vcagtq_f32(float32x4_t a, float32x4_t b); // VACGT.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcagtq_f32(float32x4_t a, float32x4_t b) // VACGT.F32 q0, q0, q0 -{ - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (a, *(__m128*)&c7fffffff); - b0 = _mm_and_ps (b, *(__m128*)&c7fffffff); - a0 = _mm_cmpgt_ps (a0, b0); - return (*(__m128i*)&a0); -} - -//***************Vector compare absolute less-than *********************** -//************************************************************************* -uint32x2_t vcalt_f32(float32x2_t a, float32x2_t b); // VACGT.F32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vcalt_f32(float32x2_t a, float32x2_t b) -{ - uint32x2_t res64; - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (_pM128(a), *(__m128*)&c7fffffff); - b0 = _mm_and_ps (_pM128(b), *(__m128*)&c7fffffff); - a0 = _mm_cmplt_ps (a0, b0); - return64f(a0); -} - -uint32x4_t vcaltq_f32(float32x4_t a, float32x4_t b); // VACGT.F32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vcaltq_f32(float32x4_t a, float32x4_t b) // VACGT.F32 q0, q0, q0 -{ - __m128i c7fffffff; - __m128 a0, b0; - c7fffffff = _mm_set1_epi32 (0x7fffffff); - a0 = _mm_and_ps (a, *(__m128*)&c7fffffff); - b0 = _mm_and_ps (b, *(__m128*)&c7fffffff); - a0 = _mm_cmplt_ps (a0, b0); - return (*(__m128i*)&a0); -} - -//*************************Vector test bits************************************ -//***************************************************************************** -/*VTST (Vector Test Bits) takes each element in a vector, and bitwise logical ANDs them -with the corresponding element of a second vector. If the result is not zero, the -corresponding element in the destination vector is set to all ones. Otherwise, it is set to -all zeros. */ - -uint8x8_t vtst_s8(int8x8_t a, int8x8_t b); // VTST.8 d0, d0, d0 -_NEON2SSE_INLINE uint8x8_t vtst_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vtstq_s8(_pM128i(a), _pM128i(b))); -} - - -uint16x4_t vtst_s16(int16x4_t a, int16x4_t b); // VTST.16 d0, d0, d0 -_NEON2SSE_INLINE uint16x4_t vtst_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vtstq_s16(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vtst_s32(int32x2_t a, int32x2_t b); // VTST.32 d0, d0, d0 -_NEON2SSE_INLINE uint32x2_t vtst_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vtstq_s32(_pM128i(a), _pM128i(b))); -} - - -uint8x8_t vtst_u8(uint8x8_t a, uint8x8_t b); // VTST.8 d0, d0, d0 -#define vtst_u8 vtst_s8 - -uint16x4_t vtst_u16(uint16x4_t a, uint16x4_t b); // VTST.16 d0, d0, d0 -#define vtst_u16 vtst_s16 - -uint32x2_t vtst_u32(uint32x2_t a, uint32x2_t b); // VTST.32 d0, d0, d0 -#define vtst_u32 vtst_s32 - - -uint8x8_t vtst_p8(poly8x8_t a, poly8x8_t b); // VTST.8 d0, d0, d0 -#define vtst_p8 vtst_u8 - -uint8x16_t vtstq_s8(int8x16_t a, int8x16_t b); // VTST.8 q0, q0, q0 -_NEON2SSE_INLINE uint8x16_t vtstq_s8(int8x16_t a, int8x16_t b) // VTST.8 q0, q0, q0 -{ - __m128i zero, one, res; - zero = _mm_setzero_si128 (); - one = _mm_cmpeq_epi8(zero,zero); //0xfff..ffff - res = _mm_and_si128 (a, b); - res = _mm_cmpeq_epi8 (res, zero); - return _mm_xor_si128(res, one); //invert result -} - -uint16x8_t vtstq_s16(int16x8_t a, int16x8_t b); // VTST.16 q0, q0, q0 -_NEON2SSE_INLINE uint16x8_t vtstq_s16(int16x8_t a, int16x8_t b) // VTST.16 q0, q0, q0 -{ - __m128i zero, one, res; - zero = _mm_setzero_si128 (); - one = _mm_cmpeq_epi8(zero,zero); //0xfff..ffff - res = _mm_and_si128 (a, b); - res = _mm_cmpeq_epi16 (res, zero); - return _mm_xor_si128(res, one); //invert result -} - -uint32x4_t vtstq_s32(int32x4_t a, int32x4_t b); // VTST.32 q0, q0, q0 -_NEON2SSE_INLINE uint32x4_t vtstq_s32(int32x4_t a, int32x4_t b) // VTST.32 q0, q0, q0 -{ - __m128i zero, one, res; - zero = _mm_setzero_si128 (); - one = _mm_cmpeq_epi8(zero,zero); //0xfff..ffff - res = _mm_and_si128 (a, b); - res = _mm_cmpeq_epi32 (res, zero); - return _mm_xor_si128(res, one); //invert result -} - -uint8x16_t vtstq_u8(uint8x16_t a, uint8x16_t b); // VTST.8 q0, q0, q0 -#define vtstq_u8 vtstq_s8 - -uint16x8_t vtstq_u16(uint16x8_t a, uint16x8_t b); // VTST.16 q0, q0, q0 -#define vtstq_u16 vtstq_s16 - -uint32x4_t vtstq_u32(uint32x4_t a, uint32x4_t b); // VTST.32 q0, q0, q0 -#define vtstq_u32 vtstq_s32 - -uint8x16_t vtstq_p8(poly8x16_t a, poly8x16_t b); // VTST.8 q0, q0, q0 -#define vtstq_p8 vtstq_u8 - -//****************** Absolute difference ******************** -//*** Absolute difference between the arguments: Vr[i] = | Va[i] - Vb[i] |***** -//************************************************************ -int8x8_t vabd_s8(int8x8_t a, int8x8_t b); // VABD.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vabd_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vabdq_s8(_pM128i(a), _pM128i(b))); -} - -int16x4_t vabd_s16(int16x4_t a, int16x4_t b); // VABD.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vabd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vabdq_s16(_pM128i(a), _pM128i(b))); -} - -int32x2_t vabd_s32(int32x2_t a, int32x2_t b); // VABD.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vabd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vabdq_s32(_pM128i(a), _pM128i(b))); -} - -uint8x8_t vabd_u8(uint8x8_t a, uint8x8_t b); // VABD.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vabd_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(vabdq_u8(_pM128i(a), _pM128i(b))); -} - -uint16x4_t vabd_u16(uint16x4_t a, uint16x4_t b); // VABD.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vabd_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(vabdq_u16(_pM128i(a), _pM128i(b))); -} - -uint32x2_t vabd_u32(uint32x2_t a, uint32x2_t b); // VABD.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vabd_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - return64(vabdq_u32(_pM128i(a), _pM128i(b))); -} - -float32x2_t vabd_f32(float32x2_t a, float32x2_t b); // VABD.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vabd_f32(float32x2_t a, float32x2_t b) -{ - float32x4_t res; - __m64_128 res64; - res = vabdq_f32(_pM128(a), _pM128(b)); - _M64f(res64, res); - return res64; -} - -int8x16_t vabdq_s8(int8x16_t a, int8x16_t b); // VABD.S8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vabdq_s8(int8x16_t a, int8x16_t b) // VABD.S8 q0,q0,q0 -{ - __m128i res; - res = _mm_sub_epi8 (a, b); - return _mm_abs_epi8 (res); -} - -int16x8_t vabdq_s16(int16x8_t a, int16x8_t b); // VABD.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vabdq_s16(int16x8_t a, int16x8_t b) // VABD.S16 q0,q0,q0 -{ - __m128i res; - res = _mm_sub_epi16 (a,b); - return _mm_abs_epi16 (res); -} - -int32x4_t vabdq_s32(int32x4_t a, int32x4_t b); // VABD.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vabdq_s32(int32x4_t a, int32x4_t b) // VABD.S32 q0,q0,q0 -{ - __m128i res; - res = _mm_sub_epi32 (a,b); - return _mm_abs_epi32 (res); -} - -uint8x16_t vabdq_u8(uint8x16_t a, uint8x16_t b); // VABD.U8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vabdq_u8(uint8x16_t a, uint8x16_t b) //no abs for unsigned -{ - __m128i cmp, difab, difba; - cmp = vcgtq_u8(a,b); - difab = _mm_sub_epi8(a,b); - difba = _mm_sub_epi8 (b,a); - difab = _mm_and_si128(cmp, difab); - difba = _mm_andnot_si128(cmp, difba); - return _mm_or_si128(difab, difba); -} - -uint16x8_t vabdq_u16(uint16x8_t a, uint16x8_t b); // VABD.s16 q0,q0,q0 -_NEON2SSE_INLINE uint16x8_t vabdq_u16(uint16x8_t a, uint16x8_t b) -{ - __m128i cmp, difab, difba; - cmp = vcgtq_u16(a,b); - difab = _mm_sub_epi16(a,b); - difba = _mm_sub_epi16 (b,a); - difab = _mm_and_si128(cmp, difab); - difba = _mm_andnot_si128(cmp, difba); - return _mm_or_si128(difab, difba); -} - -uint32x4_t vabdq_u32(uint32x4_t a, uint32x4_t b); // VABD.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vabdq_u32(uint32x4_t a, uint32x4_t b) -{ - __m128i cmp, difab, difba; - cmp = vcgtq_u32(a,b); - difab = _mm_sub_epi32(a,b); - difba = _mm_sub_epi32 (b,a); - difab = _mm_and_si128(cmp, difab); - difba = _mm_andnot_si128(cmp, difba); - return _mm_or_si128(difab, difba); -} - -float32x4_t vabdq_f32(float32x4_t a, float32x4_t b); // VABD.F32 q0,q0,q0 -_NEON2SSE_INLINE float32x4_t vabdq_f32(float32x4_t a, float32x4_t b) // VABD.F32 q0,q0,q0 -{ - __m128i c1; - __m128 res; - c1 = _mm_set1_epi32(0x7fffffff); - res = _mm_sub_ps (a, b); - return _mm_and_ps (res, *(__m128*)&c1); -} - -//************ Absolute difference - long ************************** -//******************************************************************** -int16x8_t vabdl_s8(int8x8_t a, int8x8_t b); // VABDL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vabdl_s8(int8x8_t a, int8x8_t b) // VABDL.S8 q0,d0,d0 -{ - __m128i a16, b16; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE4.1, - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - return vabdq_s16(a16, b16); - -} - -int32x4_t vabdl_s16(int16x4_t a, int16x4_t b); // VABDL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vabdl_s16(int16x4_t a, int16x4_t b) // VABDL.S16 q0,d0,d0 -{ - __m128i a32, b32; - a32 = _MM_CVTEPI16_EPI32 (_pM128i(a)); //SSE4.1 - b32 = _MM_CVTEPI16_EPI32 (_pM128i(b)); //SSE4.1, - return vabdq_s32(a32, b32); -} - -int64x2_t vabdl_s32(int32x2_t a, int32x2_t b); // VABDL.S32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING (int64x2_t vabdl_s32(int32x2_t a, int32x2_t b),_NEON2SSE_REASON_SLOW_SERIAL) -{ - //no optimal SIMD solution, serial looks faster - _NEON2SSE_ALIGN_16 int64_t res[2]; - if(a.m64_i32[0] > b.m64_i32[0]) res[0] = ( int64_t) a.m64_i32[0] - ( int64_t) b.m64_i32[0]; - else res[0] = ( int64_t) b.m64_i32[0] - ( int64_t) a.m64_i32[0]; - if(a.m64_i32[1] > b.m64_i32[1]) res[1] = ( int64_t) a.m64_i32[1] - ( int64_t) b.m64_i32[1]; - else res[1] = ( int64_t) b.m64_i32[1] - ( int64_t) a.m64_i32[1]; - return _mm_load_si128((__m128i*)res); -} - -uint16x8_t vabdl_u8(uint8x8_t a, uint8x8_t b); // VABDL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vabdl_u8(uint8x8_t a, uint8x8_t b) -{ - __m128i res; - res = vsubl_u8(a,b); - return _mm_abs_epi16(res); -} - -uint32x4_t vabdl_u16(uint16x4_t a, uint16x4_t b); // VABDL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vabdl_u16(uint16x4_t a, uint16x4_t b) -{ - __m128i res; - res = vsubl_u16(a,b); - return _mm_abs_epi32(res); -} - -uint64x2_t vabdl_u32(uint32x2_t a, uint32x2_t b); // VABDL.U32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING (uint64x2_t vabdl_u32(uint32x2_t a, uint32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - _NEON2SSE_ALIGN_16 uint64_t res[2]; - if(a.m64_u32[0] > b.m64_u32[0]) res[0] = ( uint64_t) a.m64_u32[0] - ( uint64_t) b.m64_u32[0]; - else res[0] = ( uint64_t) b.m64_u32[0] - ( uint64_t) a.m64_u32[0]; - if(a.m64_u32[1] > b.m64_u32[1]) res[1] = ( uint64_t) a.m64_u32[1] - ( uint64_t) b.m64_u32[1]; - else res[1] = ( uint64_t) b.m64_u32[1] - ( uint64_t) a.m64_u32[1]; - return _mm_load_si128((__m128i*)res); -} - -//**********Absolute difference and accumulate: Vr[i] = Va[i] + | Vb[i] - Vc[i] | ************* -//********************************************************************************************* -int8x8_t vaba_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VABA.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vaba_s8(int8x8_t a, int8x8_t b, int8x8_t c) -{ - int8x8_t res64; - return64(vabaq_s8(_pM128i(a),_pM128i(b), _pM128i(c))); -} - -int16x4_t vaba_s16(int16x4_t a, int16x4_t b, int16x4_t c); // VABA.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vaba_s16(int16x4_t a, int16x4_t b, int16x4_t c) -{ - int16x4_t res64; - return64(vabaq_s16(_pM128i(a), _pM128i(b), _pM128i(c))); -} - -int32x2_t vaba_s32(int32x2_t a, int32x2_t b, int32x2_t c); // VABA.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vaba_s32(int32x2_t a, int32x2_t b, int32x2_t c) -{ - int32x2_t res64; - return64(vabaq_s32(_pM128i(a), _pM128i(b), _pM128i(c))); -} - -uint8x8_t vaba_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VABA.U8 d0,d0,d0 -#define vaba_u8 vaba_s8 - - -uint16x4_t vaba_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VABA.s16 d0,d0,d0 -#define vaba_u16 vaba_s16 - -uint32x2_t vaba_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VABA.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vaba_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c) -{ - uint32x2_t res64; - return64(vabaq_u32(_pM128i(a), _pM128i(b), _pM128i(c))); -} - -int8x16_t vabaq_s8(int8x16_t a, int8x16_t b, int8x16_t c); // VABA.S8 q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vabaq_s8(int8x16_t a, int8x16_t b, int8x16_t c) // VABA.S8 q0,q0,q0 -{ - int8x16_t sub; - sub = vabdq_s8(b, c); - return vaddq_s8( a, sub); -} - -int16x8_t vabaq_s16(int16x8_t a, int16x8_t b, int16x8_t c); // VABA.S16 q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vabaq_s16(int16x8_t a, int16x8_t b, int16x8_t c) // VABA.S16 q0,q0,q0 -{ - int16x8_t sub; - sub = vabdq_s16(b, c); - return vaddq_s16( a, sub); -} - -int32x4_t vabaq_s32(int32x4_t a, int32x4_t b, int32x4_t c); // VABA.S32 q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vabaq_s32(int32x4_t a, int32x4_t b, int32x4_t c) // VABA.S32 q0,q0,q0 -{ - int32x4_t sub; - sub = vabdq_s32(b, c); - return vaddq_s32( a, sub); -} - -uint8x16_t vabaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VABA.U8 q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vabaq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c) -{ - uint8x16_t sub; - sub = vabdq_u8(b, c); - return vaddq_u8( a, sub); -} - -uint16x8_t vabaq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VABA.s16 q0,q0,q0 -_NEON2SSE_INLINE uint16x8_t vabaq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c) -{ - uint16x8_t sub; - sub = vabdq_u16(b, c); - return vaddq_u16( a, sub); -} - -uint32x4_t vabaq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VABA.U32 q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vabaq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c) -{ - uint32x4_t sub; - sub = vabdq_u32(b, c); - return vaddq_u32( a, sub); -} - -//************** Absolute difference and accumulate - long ******************************** -//************************************************************************************* -int16x8_t vabal_s8(int16x8_t a, int8x8_t b, int8x8_t c); // VABAL.S8 q0,d0,d0 -_NEON2SSE_INLINE int16x8_t vabal_s8(int16x8_t a, int8x8_t b, int8x8_t c) // VABAL.S8 q0,d0,d0 -{ - __m128i b16, c16, res; - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); //SSE4.1, - c16 = _MM_CVTEPI8_EPI16 (_pM128i(c)); //SSE4.1, - res = _mm_abs_epi16 (_mm_sub_epi16 (b16, c16) ); - return _mm_add_epi16 (a, res); -} - -int32x4_t vabal_s16(int32x4_t a, int16x4_t b, int16x4_t c); // VABAL.S16 q0,d0,d0 -_NEON2SSE_INLINE int32x4_t vabal_s16(int32x4_t a, int16x4_t b, int16x4_t c) // VABAL.S16 q0,d0,d0 -{ - __m128i b32, c32, res; - b32 = _MM_CVTEPI16_EPI32(_pM128i(b)); //SSE4.1 - c32 = _MM_CVTEPI16_EPI32(_pM128i(c)); //SSE4.1 - res = _mm_abs_epi32 (_mm_sub_epi32 (b32, c32) ); - return _mm_add_epi32 (a, res); -} - -int64x2_t vabal_s32(int64x2_t a, int32x2_t b, int32x2_t c); // VABAL.S32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING (int64x2_t vabal_s32(int64x2_t a, int32x2_t b, int32x2_t c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - __m128i res; - res = vabdl_s32(b,c); - return _mm_add_epi64(a, res); -} - -uint16x8_t vabal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c); // VABAL.U8 q0,d0,d0 -_NEON2SSE_INLINE uint16x8_t vabal_u8(uint16x8_t a, uint8x8_t b, uint8x8_t c) -{ - __m128i b16, c16, res; - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); //SSE4.1, - c16 = _MM_CVTEPU8_EPI16 (_pM128i(c)); //SSE4.1, - res = _mm_abs_epi16 (_mm_sub_epi16 (b16, c16) ); - return _mm_add_epi16 (a, res); -} - -uint32x4_t vabal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c); // VABAL.s16 q0,d0,d0 -_NEON2SSE_INLINE uint32x4_t vabal_u16(uint32x4_t a, uint16x4_t b, uint16x4_t c) -{ - __m128i b32, c32, res; - b32 = _MM_CVTEPU16_EPI32(_pM128i(b)); //SSE4.1 - c32 = _MM_CVTEPU16_EPI32(_pM128i(c)); //SSE4.1 - res = _mm_abs_epi32 (_mm_sub_epi32 (b32, c32) ); - return _mm_add_epi32 (a, res); -} - -uint64x2_t vabal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c); // VABAL.U32 q0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING (uint64x2_t vabal_u32(uint64x2_t a, uint32x2_t b, uint32x2_t c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - __m128i res; - res = vabdl_u32(b,c); - return _mm_add_epi64(a, res); -} - -//*********************************************************************************** -//**************** Maximum and minimum operations ********************************** -//*********************************************************************************** -//************* Maximum: vmax -> Vr[i] := (Va[i] >= Vb[i]) ? Va[i] : Vb[i] ******* -//*********************************************************************************** -int8x8_t vmax_s8(int8x8_t a, int8x8_t b); // VMAX.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vmax_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - __m128i res; - res = _MM_MAX_EPI8(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits - return64(res); -} - -int16x4_t vmax_s16(int16x4_t a, int16x4_t b); // VMAX.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vmax_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_max_epi16(_pM128i(a),_pM128i(b))); -} - -int32x2_t vmax_s32(int32x2_t a, int32x2_t b); // VMAX.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vmax_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - __m128i res; - res = _MM_MAX_EPI32(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits - return64(res); -} - -uint8x8_t vmax_u8(uint8x8_t a, uint8x8_t b); // VMAX.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vmax_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_max_epu8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vmax_u16(uint16x4_t a, uint16x4_t b); // VMAX.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vmax_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_MM_MAX_EPU16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vmax_u32(uint32x2_t a, uint32x2_t b); // VMAX.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vmax_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - __m128i res; - res = _MM_MAX_EPU32(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits, may be not effective compared with serial - return64(res); -} - -float32x2_t vmax_f32(float32x2_t a, float32x2_t b); // VMAX.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vmax_f32(float32x2_t a, float32x2_t b) -{ - //serial solution looks faster than SIMD one - float32x2_t res; - res.m64_f32[0] = (a.m64_f32[0] > b.m64_f32[0]) ? a.m64_f32[0] : b.m64_f32[0]; - res.m64_f32[1] = (a.m64_f32[1] > b.m64_f32[1]) ? a.m64_f32[1] : b.m64_f32[1]; - return res; -} - -int8x16_t vmaxq_s8(int8x16_t a, int8x16_t b); // VMAX.S8 q0,q0,q0 -#define vmaxq_s8 _MM_MAX_EPI8 //SSE4.1 - -int16x8_t vmaxq_s16(int16x8_t a, int16x8_t b); // VMAX.S16 q0,q0,q0 -#define vmaxq_s16 _mm_max_epi16 - -int32x4_t vmaxq_s32(int32x4_t a, int32x4_t b); // VMAX.S32 q0,q0,q0 -#define vmaxq_s32 _MM_MAX_EPI32 //SSE4.1 - -uint8x16_t vmaxq_u8(uint8x16_t a, uint8x16_t b); // VMAX.U8 q0,q0,q0 -#define vmaxq_u8 _mm_max_epu8 - -uint16x8_t vmaxq_u16(uint16x8_t a, uint16x8_t b); // VMAX.s16 q0,q0,q0 -#define vmaxq_u16 _MM_MAX_EPU16 //SSE4.1 - -uint32x4_t vmaxq_u32(uint32x4_t a, uint32x4_t b); // VMAX.U32 q0,q0,q0 -#define vmaxq_u32 _MM_MAX_EPU32 //SSE4.1 - - -float32x4_t vmaxq_f32(float32x4_t a, float32x4_t b); // VMAX.F32 q0,q0,q0 -#define vmaxq_f32 _mm_max_ps - -//*************** Minimum: vmin -> Vr[i] := (Va[i] >= Vb[i]) ? Vb[i] : Va[i] ******************************** -//*********************************************************************************************************** -int8x8_t vmin_s8(int8x8_t a, int8x8_t b); // VMIN.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vmin_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - __m128i res; - res = _MM_MIN_EPI8(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits - return64(res); -} - -int16x4_t vmin_s16(int16x4_t a, int16x4_t b); // VMIN.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vmin_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_min_epi16(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vmin_s32(int32x2_t a, int32x2_t b); // VMIN.S32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vmin_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - __m128i res; - res = _MM_MIN_EPI32(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits - return64(res); -} - -uint8x8_t vmin_u8(uint8x8_t a, uint8x8_t b); // VMIN.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vmin_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - return64(_mm_min_epu8(_pM128i(a),_pM128i(b))); -} - - -uint16x4_t vmin_u16(uint16x4_t a, uint16x4_t b); // VMIN.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vmin_u16(uint16x4_t a, uint16x4_t b) -{ - uint16x4_t res64; - return64(_MM_MIN_EPU16(_pM128i(a),_pM128i(b))); -} - - -uint32x2_t vmin_u32(uint32x2_t a, uint32x2_t b); // VMIN.U32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vmin_u32(uint32x2_t a, uint32x2_t b) -{ - uint32x2_t res64; - __m128i res; - res = _MM_MIN_EPU32(_pM128i(a),_pM128i(b)); //SSE4.1, use only lower 64 bits, may be not effective compared with serial - return64(res); -} - -float32x2_t vmin_f32(float32x2_t a, float32x2_t b); // VMIN.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vmin_f32(float32x2_t a, float32x2_t b) -{ - //serial solution looks faster than SIMD one - float32x2_t res; - res.m64_f32[0] = (a.m64_f32[0] < b.m64_f32[0]) ? a.m64_f32[0] : b.m64_f32[0]; - res.m64_f32[1] = (a.m64_f32[1] < b.m64_f32[1]) ? a.m64_f32[1] : b.m64_f32[1]; - return res; -} - -int8x16_t vminq_s8(int8x16_t a, int8x16_t b); // VMIN.S8 q0,q0,q0 -#define vminq_s8 _MM_MIN_EPI8 //SSE4.1 - -int16x8_t vminq_s16(int16x8_t a, int16x8_t b); // VMIN.S16 q0,q0,q0 -#define vminq_s16 _mm_min_epi16 - -int32x4_t vminq_s32(int32x4_t a, int32x4_t b); // VMIN.S32 q0,q0,q0 -#define vminq_s32 _MM_MIN_EPI32 //SSE4.1 - -uint8x16_t vminq_u8(uint8x16_t a, uint8x16_t b); // VMIN.U8 q0,q0,q0 -#define vminq_u8 _mm_min_epu8 - -uint16x8_t vminq_u16(uint16x8_t a, uint16x8_t b); // VMIN.s16 q0,q0,q0 -#define vminq_u16 _MM_MIN_EPU16 //SSE4.1 - -uint32x4_t vminq_u32(uint32x4_t a, uint32x4_t b); // VMIN.U32 q0,q0,q0 -#define vminq_u32 _MM_MIN_EPU32 //SSE4.1 - -float32x4_t vminq_f32(float32x4_t a, float32x4_t b); // VMIN.F32 q0,q0,q0 -#define vminq_f32 _mm_min_ps - -//************* Pairwise addition operations. ************************************** -//************************************************************************************ -//Pairwise add - adds adjacent pairs of elements of two vectors, and places the results in the destination vector -int8x8_t vpadd_s8(int8x8_t a, int8x8_t b); // VPADD.I8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vpadd_s8(int8x8_t a, int8x8_t b) // VPADD.I8 d0,d0,d0 -{ - //no 8 bit hadd in IA32, need to go to 16 bit and then pack - int8x8_t res64; - __m128i a16, b16, res; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPI8_EPI16 (_pM128i(b)); // SSE 4.1 - res = _mm_hadd_epi16 (a16, b16); - res = _mm_shuffle_epi8 (res, *(__m128i*) mask8_16_even_odd); //return to 8 bit, use low 64 bits - return64(res); -} - -int16x4_t vpadd_s16(int16x4_t a, int16x4_t b); // VPADD.I16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vpadd_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - __m128i hadd128; - hadd128 = _mm_hadd_epi16 (_pM128i(a), _pM128i(b)); - hadd128 = _mm_shuffle_epi32 (hadd128, 0 | (2 << 2) | (1 << 4) | (3 << 6)); - return64(hadd128); -} - - -int32x2_t vpadd_s32(int32x2_t a, int32x2_t b); // VPADD.I32 d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vpadd_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - __m128i hadd128; - hadd128 = _mm_hadd_epi32 (_pM128i(a), _pM128i(b)); - hadd128 = _mm_shuffle_epi32 (hadd128, 0 | (2 << 2) | (1 << 4) | (3 << 6)); - return64(hadd128); -} - - -uint8x8_t vpadd_u8(uint8x8_t a, uint8x8_t b); // VPADD.I8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vpadd_u8(uint8x8_t a, uint8x8_t b) // VPADD.I8 d0,d0,d0 -{ - // no 8 bit hadd in IA32, need to go to 16 bit and then pack - uint8x8_t res64; -// no unsigned _mm_hadd_ functions in IA32, but 8 unsigned is less then 16 signed, so it should work - __m128i mask8, a16, b16, res; - mask8 = _mm_set1_epi16(0xff); - a16 = _MM_CVTEPU8_EPI16 (_pM128i(a)); // SSE 4.1 - b16 = _MM_CVTEPU8_EPI16 (_pM128i(b)); // SSE 4.1 - res = _mm_hadd_epi16 (a16, b16); - res = _mm_and_si128(res, mask8); //to avoid saturation - res = _mm_packus_epi16 (res,res); //use low 64 bits - return64(res); -} - -uint16x4_t vpadd_u16(uint16x4_t a, uint16x4_t b); // VPADD.I16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vpadd_u16(uint16x4_t a, uint16x4_t b) // VPADD.I16 d0,d0,d0 -{ - // solution may be not optimal, serial execution may be faster - // no unsigned _mm_hadd_ functions in IA32, need to move from unsigned to signed - uint16x4_t res64; - __m128i c32767, cfffe, as, bs, res; - c32767 = _mm_set1_epi16 (32767); - cfffe = _mm_set1_epi16 (0xfffe); - as = _mm_sub_epi16 (_pM128i(a), c32767); - bs = _mm_sub_epi16 (_pM128i(b), c32767); - res = _mm_hadd_epi16 (as, bs); - res = _mm_add_epi16 (res, cfffe); - res = _mm_shuffle_epi32 (res, 0 | (2 << 2) | (1 << 4) | (3 << 6)); - return64(res); -} - -uint32x2_t vpadd_u32(uint32x2_t a, uint32x2_t b); // VPADD.I32 d0,d0,d0 -_NEON2SSE_INLINE uint32x2_t vpadd_u32(uint32x2_t a, uint32x2_t b) //serial may be faster -{ - //hadd doesn't work for unsigned values - uint32x2_t res64; - __m128i ab, ab_sh, res; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //a0 a1 b0 b1 - ab_sh = _mm_shuffle_epi32(ab, 1 | (0 << 2) | (3 << 4) | (2 << 6)); //a1, a0, b1, b0 - res = _mm_add_epi32(ab, ab_sh); - res = _mm_shuffle_epi32(res, 0 | (2 << 2) | (1 << 4) | (3 << 6)); - return64(res); -} - -float32x2_t vpadd_f32(float32x2_t a, float32x2_t b); // VPADD.F32 d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vpadd_f32(float32x2_t a, float32x2_t b) -{ - __m128 hadd128; - __m64_128 res64; - hadd128 = _mm_hadd_ps (_pM128(a), _pM128(b)); - hadd128 = _mm_shuffle_ps (hadd128, hadd128, _MM_SHUFFLE(3,1, 2, 0)); //use low 64 bits - _M64f(res64, hadd128); - return res64; -} - - -//************************** Long pairwise add ********************************** -//********************************************************************************* -//Adds adjacent pairs of elements of a vector,sign or zero extends the results to twice their original width, -// and places the final results in the destination vector. - -int16x4_t vpaddl_s8(int8x8_t a); // VPADDL.S8 d0,d0 -_NEON2SSE_INLINE int16x4_t vpaddl_s8(int8x8_t a) // VPADDL.S8 d0,d0 -{ - //no 8 bit hadd in IA32, need to go to 16 bit anyway - __m128i a16; - int16x4_t res64; - a16 = _MM_CVTEPI8_EPI16 (_pM128i(a)); // SSE 4.1 - a16 = _mm_hadd_epi16 (a16, a16); //use low 64 bits - return64(a16); -} - -int32x2_t vpaddl_s16(int16x4_t a); // VPADDL.S16 d0,d0 -_NEON2SSE_INLINE int32x2_t vpaddl_s16(int16x4_t a) // VPADDL.S16 d0,d0 -{ - // solution may be not optimal, serial execution may be faster - int32x2_t res64; - __m128i r32_1; - r32_1 = _MM_CVTEPI16_EPI32 (_pM128i(a)); - r32_1 = _mm_hadd_epi32(r32_1, r32_1); //use low 64 bits - return64(r32_1); -} - -int64x1_t vpaddl_s32(int32x2_t a); // VPADDL.S32 d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vpaddl_s32(int32x2_t a), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution looks faster -{ - int64x1_t res; - res.m64_i64[0] = (int64_t)a.m64_i32[0] + (int64_t)a.m64_i32[1]; - return res; -} - -uint16x4_t vpaddl_u8(uint8x8_t a); // VPADDL.U8 d0,d0 -_NEON2SSE_INLINE uint16x4_t vpaddl_u8(uint8x8_t a) // VPADDL.U8 d0,d0 -{ - // no 8 bit hadd in IA32, need to go to 16 bit -// no unsigned _mm_hadd_ functions in IA32, but 8 unsigned is less then 16 signed, so it should work - uint16x4_t res64; - __m128i a16; - a16 = _MM_CVTEPU8_EPI16 (_pM128i(a)); // SSE 4.1 use low 64 bits - a16 = _mm_hadd_epi16 (a16, a16); //use low 64 bits - return64(a16); -} - -uint32x2_t vpaddl_u16(uint16x4_t a); // VPADDL.s16 d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vpaddl_u16(uint16x4_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than a SIMD one - uint32x2_t res; - res.m64_u32[0] = (uint32_t)a.m64_u16[0] + (uint32_t)a.m64_u16[1]; - res.m64_u32[1] = (uint32_t)a.m64_u16[2] + (uint32_t)a.m64_u16[3]; - return res; -} - -uint64x1_t vpaddl_u32(uint32x2_t a); // VPADDL.U32 d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vpaddl_u32(uint32x2_t a), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution looks faster -{ - uint64x1_t res; - res.m64_u64[0] = (uint64_t)a.m64_u32[0] + (uint64_t)a.m64_u32[1]; - return res; -} - -int16x8_t vpaddlq_s8(int8x16_t a); // VPADDL.S8 q0,q0 -_NEON2SSE_INLINE int16x8_t vpaddlq_s8(int8x16_t a) // VPADDL.S8 q0,q0 -{ - //no 8 bit hadd in IA32, need to go to 16 bit - __m128i r16_1, r16_2; - r16_1 = _MM_CVTEPI8_EPI16 (a); // SSE 4.1 - //swap hi and low part of r to process the remaining data - r16_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - r16_2 = _MM_CVTEPI8_EPI16 (r16_2); - return _mm_hadd_epi16 (r16_1, r16_2); -} - -int32x4_t vpaddlq_s16(int16x8_t a); // VPADDL.S16 q0,q0 -_NEON2SSE_INLINE int32x4_t vpaddlq_s16(int16x8_t a) // VPADDL.S16 q0,q0 -{ - //no 8 bit hadd in IA32, need to go to 16 bit - __m128i r32_1, r32_2; - r32_1 = _MM_CVTEPI16_EPI32(a); - //swap hi and low part of r to process the remaining data - r32_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - r32_2 = _MM_CVTEPI16_EPI32 (r32_2); - return _mm_hadd_epi32 (r32_1, r32_2); -} - -int64x2_t vpaddlq_s32(int32x4_t a); // VPADDL.S32 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vpaddlq_s32(int32x4_t a), _NEON2SSE_REASON_SLOW_SERIAL) // VPADDL.S32 q0,q0 -{ - _NEON2SSE_ALIGN_16 int32_t atmp[4]; - _NEON2SSE_ALIGN_16 int64_t res[2]; - _mm_store_si128((__m128i*)atmp, a); - res[0] = (int64_t)atmp[0] + (int64_t)atmp[1]; - res[1] = (int64_t)atmp[2] + (int64_t)atmp[3]; - return _mm_load_si128((__m128i*)res); -} - -uint16x8_t vpaddlq_u8(uint8x16_t a); // VPADDL.U8 q0,q0 -_NEON2SSE_INLINE uint16x8_t vpaddlq_u8(uint8x16_t a) // VPADDL.U8 q0,q0 -{ - //no 8 bit hadd in IA32, need to go to 16 bit - __m128i r16_1, r16_2; - r16_1 = _MM_CVTEPU8_EPI16(a); - //swap hi and low part of r to process the remaining data - r16_2 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - r16_2 = _MM_CVTEPU8_EPI16 (r16_2); - return _mm_hadd_epi16 (r16_1, r16_2); -} - -uint32x4_t vpaddlq_u16(uint16x8_t a); // VPADDL.s16 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vpaddlq_u16(uint16x8_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than a SIMD one - _NEON2SSE_ALIGN_16 uint16_t atmp[8]; - _NEON2SSE_ALIGN_16 uint32_t res[4]; - _mm_store_si128((__m128i*)atmp, a); - res[0] = (uint32_t)atmp[0] + (uint32_t)atmp[1]; - res[1] = (uint32_t)atmp[2] + (uint32_t)atmp[3]; - res[2] = (uint32_t)atmp[4] + (uint32_t)atmp[5]; - res[3] = (uint32_t)atmp[6] + (uint32_t)atmp[7]; - return _mm_load_si128((__m128i*)res); -} - -uint64x2_t vpaddlq_u32(uint32x4_t a); // VPADDL.U32 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vpaddlq_u32(uint32x4_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - _NEON2SSE_ALIGN_16 uint32_t atmp[4]; - _NEON2SSE_ALIGN_16 uint64_t res[2]; - _mm_store_si128((__m128i*)atmp, a); - res[0] = (uint64_t)atmp[0] + (uint64_t)atmp[1]; - res[1] = (uint64_t)atmp[2] + (uint64_t)atmp[3]; - return _mm_load_si128((__m128i*)res); -} - -//************************ Long pairwise add and accumulate ************************** -//**************************************************************************************** -//VPADAL (Vector Pairwise Add and Accumulate Long) adds adjacent pairs of elements of a vector, -// and accumulates the values of the results into the elements of the destination (wide) vector -int16x4_t vpadal_s8(int16x4_t a, int8x8_t b); // VPADAL.S8 d0,d0 -_NEON2SSE_INLINE int16x4_t vpadal_s8(int16x4_t a, int8x8_t b) -{ - int16x4_t res64; - return64(vpadalq_s8(_pM128i(a), _pM128i(b))); -} - -int32x2_t vpadal_s16(int32x2_t a, int16x4_t b); // VPADAL.S16 d0,d0 -_NEON2SSE_INLINE int32x2_t vpadal_s16(int32x2_t a, int16x4_t b) -{ - int32x2_t res64; - return64(vpadalq_s16(_pM128i(a), _pM128i(b))); -} - - -int64x1_t vpadal_s32(int64x1_t a, int32x2_t b); // VPADAL.S32 d0,d0 -_NEON2SSE_INLINE int64x1_t vpadal_s32(int64x1_t a, int32x2_t b) -{ - int64x1_t res; - res.m64_i64[0] = (int64_t)b.m64_i32[0] + (int64_t)b.m64_i32[1] + a.m64_i64[0]; - return res; -} - -uint16x4_t vpadal_u8(uint16x4_t a, uint8x8_t b); // VPADAL.U8 d0,d0 -_NEON2SSE_INLINE uint16x4_t vpadal_u8(uint16x4_t a, uint8x8_t b) -{ - uint16x4_t res64; - return64(vpadalq_u8(_pM128i(a), _pM128i(b))); -} - - -uint32x2_t vpadal_u16(uint32x2_t a, uint16x4_t b); // VPADAL.s16 d0,d0 -_NEON2SSE_INLINE uint32x2_t vpadal_u16(uint32x2_t a, uint16x4_t b) -{ - uint32x2_t res64; - return64(vpadalq_u16(_pM128i(a), _pM128i(b))); -} - -uint64x1_t vpadal_u32(uint64x1_t a, uint32x2_t b); // VPADAL.U32 d0,d0 -_NEON2SSE_INLINE uint64x1_t vpadal_u32(uint64x1_t a, uint32x2_t b) -{ - uint64x1_t res; - res.m64_u64[0] = (uint64_t)b.m64_u32[0] + (uint64_t)b.m64_u32[1] + a.m64_u64[0]; - return res; -} - -int16x8_t vpadalq_s8(int16x8_t a, int8x16_t b); // VPADAL.S8 q0,q0 -_NEON2SSE_INLINE int16x8_t vpadalq_s8(int16x8_t a, int8x16_t b) // VPADAL.S8 q0,q0 -{ - int16x8_t pad; - pad = vpaddlq_s8(b); - return _mm_add_epi16 (a, pad); -} - -int32x4_t vpadalq_s16(int32x4_t a, int16x8_t b); // VPADAL.S16 q0,q0 -_NEON2SSE_INLINE int32x4_t vpadalq_s16(int32x4_t a, int16x8_t b) // VPADAL.S16 q0,q0 -{ - int32x4_t pad; - pad = vpaddlq_s16(b); - return _mm_add_epi32(a, pad); -} - -int64x2_t vpadalq_s32(int64x2_t a, int32x4_t b); // VPADAL.S32 q0,q0 -_NEON2SSE_INLINE int64x2_t vpadalq_s32(int64x2_t a, int32x4_t b) -{ - int64x2_t pad; - pad = vpaddlq_s32(b); - return _mm_add_epi64 (a, pad); -} - -uint16x8_t vpadalq_u8(uint16x8_t a, uint8x16_t b); // VPADAL.U8 q0,q0 -_NEON2SSE_INLINE uint16x8_t vpadalq_u8(uint16x8_t a, uint8x16_t b) // VPADAL.U8 q0,q0 -{ - uint16x8_t pad; - pad = vpaddlq_u8(b); - return _mm_add_epi16 (a, pad); -} - -uint32x4_t vpadalq_u16(uint32x4_t a, uint16x8_t b); // VPADAL.s16 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vpadalq_u16(uint32x4_t a, uint16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint32x4_t pad; - pad = vpaddlq_u16(b); - return _mm_add_epi32(a, pad); -} //no optimal SIMD solution, serial is faster - -uint64x2_t vpadalq_u32(uint64x2_t a, uint32x4_t b); // VPADAL.U32 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vpadalq_u32(uint64x2_t a, uint32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //no optimal SIMD solution, serial is faster - uint64x2_t pad; - pad = vpaddlq_u32(b); - return _mm_add_epi64(a, pad); -} //no optimal SIMD solution, serial is faster - -//********** Folding maximum ************************************* -//******************************************************************* -//VPMAX (Vector Pairwise Maximum) compares adjacent pairs of elements in two vectors, -//and copies the larger of each pair into the corresponding element in the destination -// no corresponding functionality in IA32 SIMD, so we need to do the vertical comparison -int8x8_t vpmax_s8(int8x8_t a, int8x8_t b); // VPMAX.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vpmax_s8(int8x8_t a, int8x8_t b) // VPMAX.S8 d0,d0,d0 -{ - int8x8_t res64; - __m128i ab, ab1, max; - _NEON2SSE_ALIGN_16 uint8_t mask8_sab[16] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14}; - _NEON2SSE_ALIGN_16 uint8_t mask8_odd[16] = { 1, 3, 5, 7, 9, 11, 13, 15, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask8_sab); //horisontal pairs swap for vertical max finding - max = _MM_MAX_EPI8 (ab, ab1); // SSE4.1 - max = _mm_shuffle_epi8 (max, *(__m128i*) mask8_odd); //remove repetitive data - return64(max); //we need 64 bits only -} - -int16x4_t vpmax_s16(int16x4_t a, int16x4_t b); // VPMAX.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vpmax_s16(int16x4_t a, int16x4_t b) // VPMAX.S16 d0,d0,d0 -{ - //solution may be not optimal compared with the serial one - int16x4_t res64; - __m128i ab, ab1, max; - _NEON2SSE_ALIGN_16 int8_t mask16_sab[16] = { 2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13}; //each chars pair is considerd to be 16 bit number - _NEON2SSE_ALIGN_16 int8_t mask16_odd[16] = { 0,1, 4,5, 8,9, 12,13, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask16_sab); //horisontal pairs swap for vertical max finding, use 8bit fn and the corresponding mask - max = _mm_max_epi16 (ab, ab1); - max = _mm_shuffle_epi8 (max, *(__m128i*) mask16_odd); //remove repetitive data, use 8bit fn and the corresponding mask - return64(max); -} - -int32x2_t vpmax_s32(int32x2_t a, int32x2_t b); // VPMAX.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vpmax_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - int32x2_t res; - res.m64_i32[0] = (a.m64_i32[0] < a.m64_i32[1]) ? a.m64_i32[1] : a.m64_i32[0]; - res.m64_i32[1] = (b.m64_i32[0] < b.m64_i32[1]) ? b.m64_i32[1] : b.m64_i32[0]; - return res; -} - -uint8x8_t vpmax_u8(uint8x8_t a, uint8x8_t b); // VPMAX.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vpmax_u8(uint8x8_t a, uint8x8_t b) // VPMAX.U8 d0,d0,d0 -{ - uint8x8_t res64; - __m128i ab, ab1, max; - _NEON2SSE_ALIGN_16 int8_t mask8_sab[16] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14}; - _NEON2SSE_ALIGN_16 uint8_t mask8_odd[16] = { 1, 3, 5, 7, 9, 11, 13, 15, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 (_pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask8_sab); //horisontal pairs swap for vertical max finding - max = _mm_max_epu8 (ab, ab1); // SSE4.1 - max = _mm_shuffle_epi8 (max, *(__m128i*) mask8_odd); //remove repetitive data - return64(max); -} - -uint16x4_t vpmax_u16(uint16x4_t a, uint16x4_t b); // VPMAX.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vpmax_u16(uint16x4_t a, uint16x4_t b) // VPMAX.s16 d0,d0,d0 -{ - //solution may be not optimal compared with the serial one - uint16x4_t res64; - __m128i ab, ab1, max; - _NEON2SSE_ALIGN_16 uint8_t mask16_sab[16] = { 2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13}; //each chars pair is considerd to be 16 bit number - _NEON2SSE_ALIGN_16 uint8_t mask16_odd[16] = { 0,1, 4,5, 8,9, 12,13, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask16_sab); //horisontal pairs swap for vertical max finding, use 8bit fn and the corresponding mask - max = _MM_MAX_EPU16 (ab, ab1); - max = _mm_shuffle_epi8 (max, *(__m128i*) mask16_odd); //remove repetitive data, use 8bit fn and the corresponding mask - return64(max); -} - -uint32x2_t vpmax_u32(uint32x2_t a, uint32x2_t b); // VPMAX.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vpmax_u32(uint32x2_t a, uint32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - uint32x2_t res; - res.m64_i32[0] = (a.m64_i32[0] < a.m64_i32[1]) ? a.m64_i32[1] : a.m64_i32[0]; - res.m64_i32[1] = (b.m64_i32[0] < b.m64_i32[1]) ? b.m64_i32[1] : b.m64_i32[0]; - return res; -} //serial solution looks faster than a SIMD one - -float32x2_t vpmax_f32(float32x2_t a, float32x2_t b); // VPMAX.F32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(float32x2_t vpmax_f32(float32x2_t a, float32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - float32x2_t res; - res.m64_f32[0] = (a.m64_f32[0] < a.m64_f32[1]) ? a.m64_f32[1] : a.m64_f32[0]; - res.m64_f32[1] = (b.m64_f32[0] < b.m64_f32[1]) ? b.m64_f32[1] : b.m64_f32[0]; - return res; -} - -// ***************** Folding minimum **************************** -// ************************************************************** -//vpmin -> takes minimum of adjacent pairs -int8x8_t vpmin_s8(int8x8_t a, int8x8_t b); // VPMIN.S8 d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vpmin_s8(int8x8_t a, int8x8_t b) // VPMIN.S8 d0,d0,d0 -{ - int8x8_t res64; - __m128i ab, ab1, min; - _NEON2SSE_ALIGN_16 uint8_t mask8_sab[16] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14}; - _NEON2SSE_ALIGN_16 uint8_t mask8_odd[16] = { 1, 3, 5, 7, 9, 11, 13, 15, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask8_sab); //horisontal pairs swap for vertical min finding - min = _MM_MIN_EPI8 (ab, ab1); // SSE4.1 - min = _mm_shuffle_epi8 (min, *(__m128i*) mask8_odd); //remove repetitive data - return64(min); -} - -int16x4_t vpmin_s16(int16x4_t a, int16x4_t b); // VPMIN.S16 d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vpmin_s16(int16x4_t a, int16x4_t b) // VPMIN.S16 d0,d0,d0 -{ - //solution may be not optimal compared with the serial one - int16x4_t res64; - __m128i ab, ab1, min; - _NEON2SSE_ALIGN_16 int8_t mask16_sab[16] = { 2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13}; //each chars pair is considerd to be 16 bit number - _NEON2SSE_ALIGN_16 int8_t mask16_odd[16] = { 0,1, 4,5, 8,9, 12,13, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask16_sab); //horisontal pairs swap for vertical max finding, use 8bit fn and the corresponding mask - min = _mm_min_epi16 (ab, ab1); - min = _mm_shuffle_epi8 (min, *(__m128i*) mask16_odd); //remove repetitive data, use 8bit fn and the corresponding mask - return64(min); -} - -int32x2_t vpmin_s32(int32x2_t a, int32x2_t b); // VPMIN.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vpmin_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - int32x2_t res; - res.m64_i32[0] = (a.m64_i32[0] > a.m64_i32[1]) ? a.m64_i32[1] : a.m64_i32[0]; - res.m64_i32[1] = (b.m64_i32[0] > b.m64_i32[1]) ? b.m64_i32[1] : b.m64_i32[0]; - return res; -} - -uint8x8_t vpmin_u8(uint8x8_t a, uint8x8_t b); // VPMIN.U8 d0,d0,d0 -_NEON2SSE_INLINE uint8x8_t vpmin_u8(uint8x8_t a, uint8x8_t b) // VPMIN.U8 d0,d0,d0 -{ - uint8x8_t res64; - __m128i ab, ab1, min; - _NEON2SSE_ALIGN_16 uint8_t mask8_sab[16] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14}; - _NEON2SSE_ALIGN_16 uint8_t mask8_odd[16] = { 1, 3, 5, 7, 9, 11, 13, 15, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask8_sab); //horisontal pairs swap for vertical max finding - min = _mm_min_epu8 (ab, ab1); // SSE4.1 - min = _mm_shuffle_epi8 (min, *(__m128i*) mask8_odd); //remove repetitive data - return64(min); -} - -uint16x4_t vpmin_u16(uint16x4_t a, uint16x4_t b); // VPMIN.s16 d0,d0,d0 -_NEON2SSE_INLINE uint16x4_t vpmin_u16(uint16x4_t a, uint16x4_t b) // VPMIN.s16 d0,d0,d0 -{ - //solution may be not optimal compared with the serial one - uint16x4_t res64; - __m128i ab, ab1, min; - _NEON2SSE_ALIGN_16 uint8_t mask16_sab[16] = { 2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13}; //each chars pair is considerd to be 16 bit number - _NEON2SSE_ALIGN_16 uint8_t mask16_odd[16] = { 0,1, 4,5, 8,9, 12,13, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; - ab = _mm_unpacklo_epi64 ( _pM128i(a), _pM128i(b)); //ab - ab1 = _mm_shuffle_epi8 (ab, *(__m128i*) mask16_sab); //horisontal pairs swap for vertical min finding, use 8bit fn and the corresponding mask - min = _MM_MIN_EPU16 (ab, ab1); - min = _mm_shuffle_epi8 (min, *(__m128i*) mask16_odd); //remove repetitive data, use 8bit fn and the corresponding mask - return64(min); -} - -uint32x2_t vpmin_u32(uint32x2_t a, uint32x2_t b); // VPMIN.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vpmin_u32(uint32x2_t a, uint32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - uint32x2_t res; - res.m64_u32[0] = (a.m64_u32[0] > a.m64_u32[1]) ? a.m64_u32[1] : a.m64_u32[0]; - res.m64_u32[1] = (b.m64_u32[0] > b.m64_u32[1]) ? b.m64_u32[1] : b.m64_u32[0]; - return res; -} - -float32x2_t vpmin_f32(float32x2_t a, float32x2_t b); // VPMIN.F32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(float32x2_t vpmin_f32(float32x2_t a, float32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution looks faster than SIMD one - float32x2_t res; - res.m64_f32[0] = (a.m64_f32[0] > a.m64_f32[1]) ? a.m64_f32[1] : a.m64_f32[0]; - res.m64_f32[1] = (b.m64_f32[0] > b.m64_f32[1]) ? b.m64_f32[1] : b.m64_f32[0]; - return res; -} - -//*************************************************************** -//*********** Reciprocal/Sqrt ************************************ -//*************************************************************** -//****************** Reciprocal estimate ******************************* -//the ARM NEON and x86 SIMD results may be slightly different -float32x2_t vrecpe_f32(float32x2_t a); // VRECPE.F32 d0,d0 -_NEON2SSE_INLINE float32x2_t vrecpe_f32(float32x2_t a) //use low 64 bits -{ - float32x4_t res; - __m64_128 res64; - res = _mm_rcp_ps(_pM128(a)); - _M64f(res64, res); - return res64; -} - -uint32x2_t vrecpe_u32(uint32x2_t a); // VRECPE.U32 d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vrecpe_u32(uint32x2_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //Input is fixed point number!!! No reciprocal for ints in IA32 available - uint32x2_t res; - float resf, r; - int i, q, s; - for (i =0; i<2; i++){ - if((a.m64_u32[i] & 0x80000000) == 0) { - res.m64_u32[i] = 0xffffffff; - }else{ - resf = (float) (a.m64_u32[i] * (0.5f / (uint32_t)(1 << 31))); - q = (int)(resf * 512.0); /* a in units of 1/512 rounded down */ - r = 1.0 / (((float)q + 0.5) / 512.0); /* reciprocal r */ - s = (int)(256.0 * r + 0.5); /* r in units of 1/256 rounded to nearest */ - r = (float)s / 256.0; - res.m64_u32[i] = r * (uint32_t)(1 << 31); - } - } - return res; -} - -float32x4_t vrecpeq_f32(float32x4_t a); // VRECPE.F32 q0,q0 -#define vrecpeq_f32 _mm_rcp_ps - - -uint32x4_t vrecpeq_u32(uint32x4_t a); // VRECPE.U32 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vrecpeq_u32(uint32x4_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //Input is fixed point number!!! - //We implement the recip_estimate function as described in ARMv7 reference manual (VRECPE instruction) but use float instead of double - _NEON2SSE_ALIGN_16 uint32_t atmp[4]; - _NEON2SSE_ALIGN_16 uint32_t res[4]; - _NEON2SSE_ALIGN_16 int c80000000[4] = {0x80000000,0x80000000, 0x80000000,0x80000000}; - float resf, r; - int i, q, s; - __m128i res128, mask, zero; - _mm_store_si128((__m128i*)atmp, a); - zero = _mm_setzero_si128(); - for (i =0; i<4; i++){ - resf = (atmp[i] * (0.5f / (uint32_t) (1 << 31))); // 2.3283064365386963E-10 ~(0.5f / (uint32_t) (1 << 31)) - q = (int)(resf * 512.0); /* a in units of 1/512 rounded down */ - r = 1.0 / (((float)q + 0.5) / 512.0); /* reciprocal r */ - s = (int)(256.0 * r + 0.5); /* r in units of 1/256 rounded to nearest */ - r = (float)s / 256.0; - res[i] = (uint32_t) (r * (((uint32_t)1) << 31) ); - } - res128 = _mm_load_si128((__m128i*)res); - mask = _mm_and_si128(a, *(__m128i*)c80000000); - mask = _mm_cmpeq_epi32(zero, mask); //0xffffffff if atmp[i] <= 0x7fffffff - return _mm_or_si128(res128, mask); -} - -//**********Reciprocal square root estimate **************** -//********************************************************** -//no reciprocal square root for ints in IA32 available, neither for unsigned int to float4 lanes conversion, so a serial solution looks faster -//but the particular implementation for vrsqrte_u32 may vary for various ARM compilers -////the ARM NEON and x86 SIMD results may be slightly different -float32x2_t vrsqrte_f32(float32x2_t a); // VRSQRTE.F32 d0,d0 -_NEON2SSE_INLINE float32x2_t vrsqrte_f32(float32x2_t a) //use low 64 bits -{ - float32x4_t res; - __m64_128 res64; - res = _mm_rsqrt_ps(_pM128(a)); - _M64f(res64, res); - return res64; -} - -uint32x2_t vrsqrte_u32(uint32x2_t a); // VRSQRTE.U32 d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vrsqrte_u32(uint32x2_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //Input is fixed point number!!! - //We implement the recip_sqrt_estimate function as described in ARMv7 reference manual (VRSQRTE instruction) but use float instead of double - uint32x2_t res; - __m128 tmp; - float r, resf, coeff; - int i,q0, q1, s;; - for (i =0; i<2; i++){ - if((a.m64_u32[i] & 0xc0000000) == 0) { //a <=0x3fffffff - res.m64_u32[i] = 0xffffffff; - }else{ - resf = (float) (a.m64_u32[i] * (0.5f / (uint32_t)(1 << 31))); - coeff = (resf < 0.5)? 512.0 : 256.0 ; /* range 0.25 <= resf < 0.5 or range 0.5 <= resf < 1.0*/ - q0 = (int)(resf * coeff); /* a in units of 1/512 rounded down */ - r = ((float)q0 + 0.5) / coeff; - tmp = _mm_rsqrt_ss(_mm_load_ss( &r));/* reciprocal root r */ - _mm_store_ss(&r, tmp); - s = (int)(256.0 * r + 0.5); /* r in units of 1/256 rounded to nearest */ - r = (float)s / 256.0; - res.m64_u32[i] = r * (((uint32_t)1) << 31); - } - } - return res; -} - -float32x4_t vrsqrteq_f32(float32x4_t a); // VRSQRTE.F32 q0,q0 -#define vrsqrteq_f32 _mm_rsqrt_ps - -uint32x4_t vrsqrteq_u32(uint32x4_t a); // VRSQRTE.U32 q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vrsqrteq_u32(uint32x4_t a), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //Input is fixed point number!!! - //We implement the recip_sqrt_estimate function as described in ARMv7 reference manual (VRSQRTE instruction) but use float instead of double - _NEON2SSE_ALIGN_16 uint32_t atmp[4], res[4]; - _NEON2SSE_ALIGN_16 float c1_31[4] = {(float)(((uint32_t)1) << 31), (float)(((uint32_t)1) << 31),(float)(((uint32_t)1) << 31), (float)(((uint32_t)1) << 31)}; - _NEON2SSE_ALIGN_16 int c_c0000000[4] = {0xc0000000,0xc0000000, 0xc0000000,0xc0000000}; - __m128 tmp; - __m128i res128, mask, zero; - float r, resf, coeff; - int i,q0, q1, s; - _mm_store_si128((__m128i*)atmp, a); - zero = _mm_setzero_si128(); - for (i =0; i<4; i++){ - resf = (float) (atmp[i] * (0.5f / (uint32_t)(1 << 31))); - coeff = (resf < 0.5)? 512.0 : 256.0 ; /* range 0.25 <= resf < 0.5 or range 0.5 <= resf < 1.0*/ - q0 = (int)(resf * coeff); /* a in units of 1/512 rounded down */ - r = ((float)q0 + 0.5) / coeff; - tmp = _mm_rsqrt_ss(_mm_load_ss( &r));/* reciprocal root r */ - _mm_store_ss(&r, tmp); - s = (int)(256.0 * r + 0.5); /* r in units of 1/256 rounded to nearest */ - r = (float)s / 256.0; - res[i] = (uint32_t) (r * (((uint32_t)1) << 31) ); - } - res128 = _mm_load_si128((__m128i*)res); - mask = _mm_and_si128(a, *(__m128i*)c_c0000000); - mask = _mm_cmpeq_epi32(zero, mask); //0xffffffff if atmp[i] <= 0x3fffffff - return _mm_or_si128(res128, mask); -} -//************ Reciprocal estimate/step and 1/sqrt estimate/step *************************** -//****************************************************************************************** -//******VRECPS (Vector Reciprocal Step) *************************************************** -//multiplies the elements of one vector by the corresponding elements of another vector, -//subtracts each of the results from 2, and places the final results into the elements of the destination vector. - -float32x2_t vrecps_f32(float32x2_t a, float32x2_t b); // VRECPS.F32 d0, d0, d0 -_NEON2SSE_INLINE float32x2_t vrecps_f32(float32x2_t a, float32x2_t b) -{ - float32x4_t res; - __m64_128 res64; - res = vrecpsq_f32(_pM128(a), _pM128(b)); - _M64f(res64, res); - return res64; -} - -float32x4_t vrecpsq_f32(float32x4_t a, float32x4_t b); // VRECPS.F32 q0, q0, q0 -_NEON2SSE_INLINE float32x4_t vrecpsq_f32(float32x4_t a, float32x4_t b) // VRECPS.F32 q0, q0, q0 -{ - __m128 f2, mul; - f2 = _mm_set1_ps(2.); - mul = _mm_mul_ps(a,b); - return _mm_sub_ps(f2,mul); -} - -//*****************VRSQRTS (Vector Reciprocal Square Root Step) ***************************** -//multiplies the elements of one vector by the corresponding elements of another vector, -//subtracts each of the results from 3, divides these results by two, and places the final results into the elements of the destination vector. - -float32x2_t vrsqrts_f32(float32x2_t a, float32x2_t b); // VRSQRTS.F32 d0, d0, d0 -_NEON2SSE_INLINE float32x2_t vrsqrts_f32(float32x2_t a, float32x2_t b) -{ - float32x2_t res; - res.m64_f32[0] = (3 - a.m64_f32[0] * b.m64_f32[0]) / 2; - res.m64_f32[1] = (3 - a.m64_f32[1] * b.m64_f32[1]) / 2; - return res; -} - -float32x4_t vrsqrtsq_f32(float32x4_t a, float32x4_t b); // VRSQRTS.F32 q0, q0, q0 -_NEON2SSE_INLINE float32x4_t vrsqrtsq_f32(float32x4_t a, float32x4_t b) // VRSQRTS.F32 q0, q0, q0 -{ - __m128 f3, f05, mul; - f3 = _mm_set1_ps(3.); - f05 = _mm_set1_ps(0.5); - mul = _mm_mul_ps(a,b); - f3 = _mm_sub_ps(f3,mul); - return _mm_mul_ps (f3, f05); -} -//******************************************************************************************** -//***************************** Shifts by signed variable *********************************** -//******************************************************************************************** -//***** Vector shift left: Vr[i] := Va[i] << Vb[i] (negative values shift right) *********************** -//******************************************************************************************** -//No such operations in IA32 SIMD unfortunately, constant shift only available, so need to do the serial solution -//helper macro. It matches ARM implementation for big shifts -#define SERIAL_SHIFT(TYPE, INTERNAL_TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 TYPE atmp[LENMAX], res[LENMAX]; _NEON2SSE_ALIGN_16 INTERNAL_TYPE btmp[LENMAX]; int i, lanesize = sizeof(INTERNAL_TYPE) << 3; \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if( (btmp[i] >= lanesize)||(btmp[i] <= -lanesize) ) res[i] = 0; \ - else res[i] = (btmp[i] >=0) ? atmp[i] << btmp[i] : atmp[i] >> (-btmp[i]); } \ - return _mm_load_si128((__m128i*)res); - -#define SERIAL_SHIFT_64(TYPE, SIGN, LEN) \ - int ## TYPE ## x ## LEN ## _t res; int i, lanesize = sizeof(int ## TYPE ## _t) << 3; \ - for (i = 0; i<LEN; i++) { \ - if( (b.m64_i ## TYPE[i] >= lanesize)||(b.m64_i ## TYPE[i] <= -lanesize) ) res.m64_ ## SIGN ## TYPE[i] = 0; \ - else res.m64_ ## SIGN ## TYPE[i] = (b.m64_i ## TYPE[i] >=0) ? a.m64_ ## SIGN ## TYPE[i] << b.m64_i ## TYPE[i] : a.m64_ ## SIGN ## TYPE[i] >> (-b.m64_i ## TYPE[i]); } \ - return res; - -int8x8_t vshl_s8(int8x8_t a, int8x8_t b); // VSHL.S8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vshl_s8(int8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(8, i, 8) -} - -int16x4_t vshl_s16(int16x4_t a, int16x4_t b); // VSHL.S16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vshl_s16(int16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(16, i, 4) -} - -int32x2_t vshl_s32(int32x2_t a, int32x2_t b); // VSHL.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vshl_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(32, i, 2) -} - -int64x1_t vshl_s64(int64x1_t a, int64x1_t b); // VSHL.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vshl_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(64, i, 1) -} - -uint8x8_t vshl_u8(uint8x8_t a, int8x8_t b); // VSHL.U8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vshl_u8(uint8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(8, u, 8) -} - -uint16x4_t vshl_u16(uint16x4_t a, int16x4_t b); // VSHL.s16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vshl_u16(uint16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(16, u, 4) -} - -uint32x2_t vshl_u32(uint32x2_t a, int32x2_t b); // VSHL.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vshl_u32(uint32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT_64(32, u, 2) -} - -uint64x1_t vshl_u64(uint64x1_t a, int64x1_t b); // VSHL.U64 d0,d0,d0 -_NEON2SSE_INLINE uint64x1_t vshl_u64(uint64x1_t a, int64x1_t b) //if we use the SERIAL_SHIFT macro need to have the special processing for large numbers -{ - SERIAL_SHIFT_64(64, u, 1) -} - -int8x16_t vshlq_s8(int8x16_t a, int8x16_t b); // VSHL.S8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x16_t vshlq_s8(int8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(int8_t, int8_t, 16, 16) -} - -int16x8_t vshlq_s16(int16x8_t a, int16x8_t b); // VSHL.S16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x8_t vshlq_s16(int16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(int16_t, int16_t, 8, 8) -} - -int32x4_t vshlq_s32(int32x4_t a, int32x4_t b); // VSHL.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vshlq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(int32_t, int32_t, 4, 4) -} - -int64x2_t vshlq_s64(int64x2_t a, int64x2_t b); // VSHL.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vshlq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(int64_t, int64_t, 2, 2) -} - -uint8x16_t vshlq_u8(uint8x16_t a, int8x16_t b); // VSHL.U8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x16_t vshlq_u8(uint8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(uint8_t, int8_t, 16, 16) -} - -uint16x8_t vshlq_u16(uint16x8_t a, int16x8_t b); // VSHL.s16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x8_t vshlq_u16(uint16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(uint16_t, int16_t, 8, 8) -} - -uint32x4_t vshlq_u32(uint32x4_t a, int32x4_t b); // VSHL.U32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vshlq_u32(uint32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(uint32_t, int32_t, 4, 4) -} - -uint64x2_t vshlq_u64(uint64x2_t a, int64x2_t b); // VSHL.U64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING( uint64x2_t vshlq_u64(uint64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SHIFT(uint64_t, int64_t, 2, 2) -} - - -//*********** Vector saturating shift left: (negative values shift right) ********************** -//******************************************************************************************** -//No such operations in IA32 SIMD available yet, constant shift only available, so need to do the serial solution -#define SERIAL_SATURATING_SHIFT_SIGNED(TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 TYPE atmp[LENMAX], res[LENMAX], btmp[LENMAX]; TYPE limit; int i; \ - int lanesize_1 = (sizeof(TYPE) << 3) - 1; \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if (atmp[i] ==0) res[i] = 0; \ - else{ \ - if(btmp[i] <0) res[i] = atmp[i] >> (-btmp[i]); \ - else{ \ - if (btmp[i]>lanesize_1) { \ - res[i] = ((_UNSIGNED_T(TYPE))atmp[i] >> lanesize_1 ) + ((TYPE)1 << lanesize_1) - 1; \ - }else{ \ - limit = (TYPE)1 << (lanesize_1 - btmp[i]); \ - if((atmp[i] >= limit)||(atmp[i] <= -limit)) \ - res[i] = ((_UNSIGNED_T(TYPE))atmp[i] >> lanesize_1 ) + ((TYPE)1 << lanesize_1) - 1; \ - else res[i] = atmp[i] << btmp[i]; }}}} \ - return _mm_load_si128((__m128i*)res); - -#define SERIAL_SATURATING_SHIFT_UNSIGNED(TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 _UNSIGNED_T(TYPE) atmp[LENMAX], res[LENMAX]; _NEON2SSE_ALIGN_16 TYPE btmp[LENMAX]; _UNSIGNED_T(TYPE) limit; int i; \ - TYPE lanesize = (sizeof(TYPE) << 3); \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if (atmp[i] ==0) {res[i] = 0; \ - }else{ \ - if(btmp[i] < 0) res[i] = atmp[i] >> (-btmp[i]); \ - else{ \ - if (btmp[i]>lanesize) res[i] = ~((TYPE)0); \ - else{ \ - limit = (TYPE) 1 << (lanesize - btmp[i]); \ - res[i] = ( atmp[i] >= limit) ? res[i] = ~((TYPE)0) : atmp[i] << btmp[i]; }}}} \ - return _mm_load_si128((__m128i*)res); - -#define SERIAL_SATURATING_SHIFT_SIGNED_64(TYPE, LEN) \ - int ## TYPE ## x ## LEN ## _t res; int ## TYPE ## _t limit; int i; \ - int lanesize_1 = (sizeof( int ## TYPE ## _t) << 3) - 1; \ - for (i = 0; i<LEN; i++) { \ - if (a.m64_i ## TYPE[i] ==0) res.m64_i ## TYPE[i] = 0; \ - else{ \ - if(b.m64_i ## TYPE[i] <0) res.m64_i ## TYPE[i] = a.m64_i ## TYPE[i] >> (-(b.m64_i ## TYPE[i])); \ - else{ \ - if (b.m64_i ## TYPE[i]>lanesize_1) { \ - res.m64_i ## TYPE[i] = ((_UNSIGNED_T(int ## TYPE ## _t))a.m64_i ## TYPE[i] >> lanesize_1 ) + ((int ## TYPE ## _t) 1 << lanesize_1) - 1; \ - }else{ \ - limit = (int ## TYPE ## _t) 1 << (lanesize_1 - b.m64_i ## TYPE[i]); \ - if((a.m64_i ## TYPE[i] >= limit)||(a.m64_i ## TYPE[i] <= -limit)) \ - res.m64_i ## TYPE[i] = ((_UNSIGNED_T(int ## TYPE ## _t))a.m64_i ## TYPE[i] >> lanesize_1 ) + ((int ## TYPE ## _t) 1 << lanesize_1) - 1; \ - else res.m64_i ## TYPE[i] = a.m64_i ## TYPE[i] << b.m64_i ## TYPE[i]; }}}} \ - return res; - -#define SERIAL_SATURATING_SHIFT_UNSIGNED_64(TYPE, LEN) \ - int ## TYPE ## x ## LEN ## _t res; _UNSIGNED_T(int ## TYPE ## _t) limit; int i; \ - int ## TYPE ## _t lanesize = (sizeof(int ## TYPE ## _t) << 3); \ - for (i = 0; i<LEN; i++) { \ - if (a.m64_u ## TYPE[i] ==0) {res.m64_u ## TYPE[i] = 0; \ - }else{ \ - if(b.m64_i ## TYPE[i] < 0) res.m64_u ## TYPE[i] = a.m64_u ## TYPE[i] >> (-(b.m64_i ## TYPE[i])); \ - else{ \ - if (b.m64_i ## TYPE[i]>lanesize) res.m64_u ## TYPE[i] = ~((int ## TYPE ## _t) 0); \ - else{ \ - limit = (int ## TYPE ## _t) 1 << (lanesize - b.m64_i ## TYPE[i]); \ - res.m64_u ## TYPE[i] = ( a.m64_u ## TYPE[i] >= limit) ? res.m64_u ## TYPE[i] = ~((int ## TYPE ## _t) 0) : a.m64_u ## TYPE[i] << b.m64_u ## TYPE[i]; }}}} \ - return res; - -int8x8_t vqshl_s8(int8x8_t a, int8x8_t b); // VQSHL.S8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vqshl_s8(int8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED_64(8,8) -} - -int16x4_t vqshl_s16(int16x4_t a, int16x4_t b); // VQSHL.S16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vqshl_s16(int16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED_64(16,4) -} - -int32x2_t vqshl_s32(int32x2_t a, int32x2_t b); // VQSHL.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqshl_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED_64(32,2) -} - -int64x1_t vqshl_s64(int64x1_t a, int64x1_t b); // VQSHL.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vqshl_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED_64(64,1) -} - -uint8x8_t vqshl_u8(uint8x8_t a, int8x8_t b); // VQSHL.U8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vqshl_u8(uint8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED_64(8,8) -} - -uint16x4_t vqshl_u16(uint16x4_t a, int16x4_t b); // VQSHL.s16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vqshl_u16(uint16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED_64(16,4) -} - -uint32x2_t vqshl_u32(uint32x2_t a, int32x2_t b); // VQSHL.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vqshl_u32(uint32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED_64(32,2) -} - -uint64x1_t vqshl_u64(uint64x1_t a, int64x1_t b); // VQSHL.U64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqshl_u64(uint64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED_64(64,1) -} - -int8x16_t vqshlq_s8(int8x16_t a, int8x16_t b); // VQSHL.S8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x16_t vqshlq_s8(int8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED(int8_t, 16, 16) -} - -int16x8_t vqshlq_s16(int16x8_t a, int16x8_t b); // VQSHL.S16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x8_t vqshlq_s16(int16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED(int16_t, 8, 8) -} - -int32x4_t vqshlq_s32(int32x4_t a, int32x4_t b); // VQSHL.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqshlq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED(int32_t, 4, 4) -} - -int64x2_t vqshlq_s64(int64x2_t a, int64x2_t b); // VQSHL.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqshlq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_SIGNED(int64_t, 2, 2) -} - -uint8x16_t vqshlq_u8(uint8x16_t a, int8x16_t b); // VQSHL.U8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x16_t vqshlq_u8(uint8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED(int8_t, 16, 16) -} - -uint16x8_t vqshlq_u16(uint16x8_t a, int16x8_t b); // VQSHL.s16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x8_t vqshlq_u16(uint16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED(int16_t, 8, 8) -} - -uint32x4_t vqshlq_u32(uint32x4_t a, int32x4_t b); // VQSHL.U32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vqshlq_u32(uint32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED(int32_t, 4, 4) -} - -uint64x2_t vqshlq_u64(uint64x2_t a, int64x2_t b); // VQSHL.U64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqshlq_u64(uint64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_SHIFT_UNSIGNED(int64_t, 2, 2) -} - - -//******** Vector rounding shift left: (negative values shift right) ********** -//**************************************************************************** -//No such operations in IA32 SIMD available yet, constant shift only available, so need to do the serial solution -//rounding makes sense for right shifts only. -#define SERIAL_ROUNDING_SHIFT(TYPE, INTERNAL_TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 TYPE atmp[LENMAX], res[LENMAX]; _NEON2SSE_ALIGN_16 INTERNAL_TYPE btmp[LENMAX]; INTERNAL_TYPE i, lanesize = sizeof(INTERNAL_TYPE) << 3; \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if( btmp[i] >= 0) { \ - if(btmp[i] >= lanesize) res[i] = 0; \ - else res[i] = (atmp[i] << btmp[i]); \ - }else{ \ - res[i] = (btmp[i] < -lanesize) ? res[i] = 0 : \ - (btmp[i] == -lanesize) ? (atmp[i] & ((INTERNAL_TYPE)1 << (-btmp[i] - 1))) >> (-btmp[i] - 1) : \ - (atmp[i] >> (-btmp[i])) + ( (atmp[i] & ((INTERNAL_TYPE)1 << (-btmp[i] - 1))) >> (-btmp[i] - 1) ); }} \ - return _mm_load_si128((__m128i*)res); - - -#define SERIAL_ROUNDING_SHIFT_64(TYPE, SIGN, LEN) \ - int ## TYPE ## x ## LEN ## _t res; int i; int lanesize = sizeof(int ## TYPE ## _t) << 3; \ - for (i = 0; i<LEN; i++) { \ - if( b.m64_i ## TYPE[i] >= 0) { \ - if(b.m64_i ## TYPE[i] >= lanesize) res.m64_ ## SIGN ## TYPE[i] = 0; \ - else res.m64_ ## SIGN ## TYPE[i] = (a.m64_ ## SIGN ## TYPE[i] << b.m64_i ## TYPE[i]); \ - }else{ \ - res.m64_ ## SIGN ## TYPE[i] = (b.m64_i ## TYPE[i] < -lanesize) ? res.m64_ ## SIGN ## TYPE[i] = 0 : \ - (b.m64_i ## TYPE[i] == -lanesize) ? (a.m64_ ## SIGN ## TYPE[i] & ((int ## TYPE ## _t) 1 << (-(b.m64_i ## TYPE[i]) - 1))) >> (-(b.m64_i ## TYPE[i]) - 1) : \ - (a.m64_ ## SIGN ## TYPE[i] >> (-(b.m64_i ## TYPE[i]))) + ( (a.m64_ ## SIGN ## TYPE[i] & ((int ## TYPE ## _t) 1 << (-(b.m64_i ## TYPE[i]) - 1))) >> (-(b.m64_i ## TYPE[i]) - 1) ); }} \ - return res; - - -int8x8_t vrshl_s8(int8x8_t a, int8x8_t b); // VRSHL.S8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vrshl_s8(int8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(8,i,8) -} - -int16x4_t vrshl_s16(int16x4_t a, int16x4_t b); // VRSHL.S16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vrshl_s16(int16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(16,i,4) -} - -int32x2_t vrshl_s32(int32x2_t a, int32x2_t b); // VRSHL.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vrshl_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(32,i,2) -} - -int64x1_t vrshl_s64(int64x1_t a, int64x1_t b); // VRSHL.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vrshl_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(64,i,1) -} - -uint8x8_t vrshl_u8(uint8x8_t a, int8x8_t b); // VRSHL.U8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vrshl_u8(uint8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(8,u,8) -} - -uint16x4_t vrshl_u16(uint16x4_t a, int16x4_t b); // VRSHL.s16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vrshl_u16(uint16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(16,u,4) -} - -uint32x2_t vrshl_u32(uint32x2_t a, int32x2_t b); // VRSHL.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vrshl_u32(uint32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(32,u,2) -} - -uint64x1_t vrshl_u64(uint64x1_t a, int64x1_t b); // VRSHL.U64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vrshl_u64(uint64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT_64(64,u,1) -} - -int8x16_t vrshlq_s8(int8x16_t a, int8x16_t b); // VRSHL.S8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x16_t vrshlq_s8(int8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(int8_t, int8_t, 16, 16) -} - -int16x8_t vrshlq_s16(int16x8_t a, int16x8_t b); // VRSHL.S16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x8_t vrshlq_s16(int16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(int16_t, int16_t, 8, 8) -} - -int32x4_t vrshlq_s32(int32x4_t a, int32x4_t b); // VRSHL.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vrshlq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(int32_t, int32_t, 4, 4) -} - -int64x2_t vrshlq_s64(int64x2_t a, int64x2_t b); // VRSHL.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vrshlq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(int64_t, int64_t, 2, 2) -} - -uint8x16_t vrshlq_u8(uint8x16_t a, int8x16_t b); // VRSHL.U8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x16_t vrshlq_u8(uint8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(uint8_t, int8_t, 16, 16) -} - -uint16x8_t vrshlq_u16(uint16x8_t a, int16x8_t b); // VRSHL.s16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x8_t vrshlq_u16(uint16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(uint16_t, int16_t, 8, 8) -} - -uint32x4_t vrshlq_u32(uint32x4_t a, int32x4_t b); // VRSHL.U32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vrshlq_u32(uint32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(uint32_t, int32_t, 4, 4) -} - -uint64x2_t vrshlq_u64(uint64x2_t a, int64x2_t b); // VRSHL.U64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vrshlq_u64(uint64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_ROUNDING_SHIFT(uint64_t, int64_t, 2, 2) -} - - -//********** Vector saturating rounding shift left: (negative values shift right) **************** -//************************************************************************************************* -//No such operations in IA32 SIMD unfortunately, constant shift only available, so need to do the serial solution -//Saturation happens for left shifts only while rounding makes sense for right shifts only. -#define SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED(TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 TYPE atmp[LENMAX], res[LENMAX], btmp[LENMAX]; TYPE limit; int i; \ - int lanesize_1 = (sizeof(TYPE) << 3) - 1; \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if (atmp[i] ==0) res[i] = 0; \ - else{ \ - if(btmp[i] <0) res[i] = (btmp[i] < (-lanesize_1)) ? 0 : (atmp[i] >> (-btmp[i])) + ( (atmp[i] & ((TYPE)1 << (-btmp[i] - 1))) >> (-btmp[i] - 1) ); \ - else{ \ - if (btmp[i]>lanesize_1) { \ - res[i] = ((_UNSIGNED_T(TYPE))atmp[i] >> lanesize_1 ) + ((TYPE)1 << lanesize_1) - 1; \ - }else{ \ - limit = (TYPE)1 << (lanesize_1 - btmp[i]); \ - if((atmp[i] >= limit)||(atmp[i] <= -limit)) \ - res[i] = ((_UNSIGNED_T(TYPE))atmp[i] >> lanesize_1 ) + ((TYPE)1 << lanesize_1) - 1; \ - else res[i] = atmp[i] << btmp[i]; }}}} \ - return _mm_load_si128((__m128i*)res); - -#define SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED(TYPE, LENMAX, LEN) \ - _NEON2SSE_ALIGN_16 _UNSIGNED_T(TYPE) atmp[LENMAX], res[LENMAX]; _NEON2SSE_ALIGN_16 TYPE btmp[LENMAX]; _UNSIGNED_T(TYPE) limit; int i; \ - int lanesize = (sizeof(TYPE) << 3); \ - _mm_store_si128((__m128i*)atmp, a); _mm_store_si128((__m128i*)btmp, b); \ - for (i = 0; i<LEN; i++) { \ - if (atmp[i] ==0) {res[i] = 0; \ - }else{ \ - if(btmp[i] < 0) res[i] = (btmp[i] < (-lanesize)) ? 0 : (atmp[i] >> (-btmp[i])) + ( (atmp[i] & ((TYPE)1 << (-btmp[i] - 1))) >> (-btmp[i] - 1) ); \ - else{ \ - if (btmp[i]>lanesize) res[i] = ~((TYPE)0); \ - else{ \ - limit = (TYPE) 1 << (lanesize - btmp[i]); \ - res[i] = ( atmp[i] >= limit) ? res[i] = ~((TYPE)0) : atmp[i] << btmp[i]; }}}} \ - return _mm_load_si128((__m128i*)res); - -#define SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED_64(TYPE, LEN) \ - __m64_128 res; int ## TYPE ## _t limit; int i; \ - int lanesize_1 = (sizeof(int ## TYPE ## _t ) << 3) - 1; \ - for (i = 0; i<LEN; i++) { \ - if (a.m64_i ## TYPE[i] ==0) res.m64_i ## TYPE[i] = 0; \ - else{ \ - if(b.m64_i ## TYPE[i] <0) res.m64_i ## TYPE[i] = (b.m64_i ## TYPE[i] < (-lanesize_1)) ? 0 : (a.m64_i ## TYPE[i] >> (-(b.m64_i ## TYPE[i]))) + ( (a.m64_i ## TYPE[i] & ((int ## TYPE ## _t ) 1 << (-(b.m64_i ## TYPE[i]) - 1))) >> (-(b.m64_i ## TYPE[i]) - 1) ); \ - else{ \ - if (b.m64_i ## TYPE[i]>lanesize_1) { \ - res.m64_i ## TYPE[i] = ((_UNSIGNED_T(int ## TYPE ## _t ))a.m64_i ## TYPE[i] >> lanesize_1 ) + ((int ## TYPE ## _t ) 1 << lanesize_1) - 1; \ - }else{ \ - limit = (int ## TYPE ## _t ) 1 << (lanesize_1 - b.m64_i ## TYPE[i]); \ - if((a.m64_i ## TYPE[i] >= limit)||(a.m64_i ## TYPE[i] <= -limit)) \ - res.m64_i ## TYPE[i] = ((_UNSIGNED_T(int ## TYPE ## _t ))a.m64_i ## TYPE[i] >> lanesize_1 ) + ((int ## TYPE ## _t ) 1 << lanesize_1) - 1; \ - else res.m64_i ## TYPE[i] = a.m64_i ## TYPE[i] << b.m64_i ## TYPE[i]; }}}} \ - return res; - -#define SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED_64(TYPE, LEN) \ - __m64_128 res; _UNSIGNED_T(int ## TYPE ## _t) limit; int i; \ - int lanesize = (sizeof(int ## TYPE ## _t) << 3); \ - for (i = 0; i<LEN; i++) { \ - if (a.m64_u ## TYPE[i] ==0) {res.m64_u ## TYPE[i] = 0; \ - }else{ \ - if(b.m64_i ## TYPE[i] < 0) res.m64_u ## TYPE[i] = (b.m64_i ## TYPE[i] < (-lanesize)) ? 0 : (a.m64_u ## TYPE[i] >> (-(b.m64_i ## TYPE[i]))) + ( (a.m64_u ## TYPE[i] & ((int ## TYPE ## _t) 1 << (-(b.m64_i ## TYPE[i]) - 1))) >> (-(b.m64_i ## TYPE[i]) - 1) ); \ - else{ \ - if (b.m64_i ## TYPE[i]>lanesize) res.m64_u ## TYPE[i] = ~((int ## TYPE ## _t) 0); \ - else{ \ - limit = (int ## TYPE ## _t) 1 << (lanesize - b.m64_i ## TYPE[i]); \ - res.m64_u ## TYPE[i] = ( a.m64_u ## TYPE[i] >= limit) ? res.m64_u ## TYPE[i] = ~((int ## TYPE ## _t) 0) : a.m64_u ## TYPE[i] << b.m64_i ## TYPE[i]; }}}} \ - return res; - -int8x8_t vqrshl_s8(int8x8_t a, int8x8_t b); // VQRSHL.S8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vqrshl_s8(int8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED_64(8,8) -} - -int16x4_t vqrshl_s16(int16x4_t a, int16x4_t b); // VQRSHL.S16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vqrshl_s16(int16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED_64(16,4) -} - -int32x2_t vqrshl_s32(int32x2_t a, int32x2_t b); // VQRSHL.S32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqrshl_s32(int32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED_64(32,2) -} - -int64x1_t vqrshl_s64(int64x1_t a, int64x1_t b); // VQRSHL.S64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vqrshl_s64(int64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED_64(64,1) -} - -uint8x8_t vqrshl_u8(uint8x8_t a, int8x8_t b); // VQRSHL.U8 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vqrshl_u8(uint8x8_t a, int8x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED_64(8,8) -} - -uint16x4_t vqrshl_u16(uint16x4_t a, int16x4_t b); // VQRSHL.s16 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vqrshl_u16(uint16x4_t a, int16x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED_64(16,4) -} - -uint32x2_t vqrshl_u32(uint32x2_t a, int32x2_t b); // VQRSHL.U32 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vqrshl_u32(uint32x2_t a, int32x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED_64(32,2) -} - -uint64x1_t vqrshl_u64(uint64x1_t a, int64x1_t b); // VQRSHL.U64 d0,d0,d0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqrshl_u64(uint64x1_t a, int64x1_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED_64(64,1) -} - -int8x16_t vqrshlq_s8(int8x16_t a, int8x16_t b); // VQRSHL.S8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x16_t vqrshlq_s8(int8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED(int8_t, 16, 16) -} - -int16x8_t vqrshlq_s16(int16x8_t a, int16x8_t b); // VQRSHL.S16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x8_t vqrshlq_s16(int16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED(int16_t, 8, 8) -} - -int32x4_t vqrshlq_s32(int32x4_t a, int32x4_t b); // VQRSHL.S32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqrshlq_s32(int32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED(int32_t, 4, 4) -} - -int64x2_t vqrshlq_s64(int64x2_t a, int64x2_t b); // VQRSHL.S64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqrshlq_s64(int64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_SIGNED(int64_t, 2, 2) -} - -uint8x16_t vqrshlq_u8(uint8x16_t a, int8x16_t b); // VQRSHL.U8 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x16_t vqrshlq_u8(uint8x16_t a, int8x16_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED(int8_t, 16, 16) -} - -uint16x8_t vqrshlq_u16(uint16x8_t a, int16x8_t b); // VQRSHL.s16 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x8_t vqrshlq_u16(uint16x8_t a, int16x8_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED(int16_t, 8, 8) -} - -uint32x4_t vqrshlq_u32(uint32x4_t a, int32x4_t b); // VQRSHL.U32 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x4_t vqrshlq_u32(uint32x4_t a, int32x4_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED(int32_t, 4, 4) -} - -uint64x2_t vqrshlq_u64(uint64x2_t a, int64x2_t b); // VQRSHL.U64 q0,q0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqrshlq_u64(uint64x2_t a, int64x2_t b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - SERIAL_SATURATING_ROUNDING_SHIFT_UNSIGNED(int64_t, 2, 2) -} - -// ********************************************************************************* -// ***************************** Shifts by a constant ***************************** -// ********************************************************************************* -//**************** Vector shift right by constant************************************* -//************************************************************************************ -int8x8_t vshr_n_s8(int8x8_t a, __constrange(1,8) int b); // VSHR.S8 d0,d0,#8 -_NEON2SSE_INLINE int8x8_t vshr_n_s8(int8x8_t a, __constrange(1,8) int b) // VSHR.S8 d0,d0,#8 -{ - //no 8 bit shift available, go to 16 bit - int8x8_t res64; - __m128i r; - r = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - r = _mm_srai_epi16 (r, b); //SSE2 - r = _mm_packs_epi16 (r,r); //we need 64 bits only - return64(r); -} - -int16x4_t vshr_n_s16(int16x4_t a, __constrange(1,16) int b); // VSHR.S16 d0,d0,#16 -_NEON2SSE_INLINE int16x4_t vshr_n_s16(int16x4_t a, __constrange(1,16) int b) -{ - int16x4_t res64; - return64(_mm_srai_epi16(_pM128i(a), b)); -} - - -int32x2_t vshr_n_s32(int32x2_t a, __constrange(1,32) int b); // VSHR.S32 d0,d0,#32 -_NEON2SSE_INLINE int32x2_t vshr_n_s32(int32x2_t a, __constrange(1,32) int b) -{ - int32x2_t res64; - return64(_mm_srai_epi32(_pM128i(a), b)); -} - -int64x1_t vshr_n_s64(int64x1_t a, __constrange(1,64) int b); // VSHR.S64 d0,d0,#64 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vshr_n_s64(int64x1_t a, __constrange(1,64) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //no arithmetic shift for 64bit values, serial solution used - int64x1_t res; - if(b>=64) res.m64_i64[0] = 0; - else res.m64_i64[0] = (*(int64_t*)&a) >> b; - return res; -} - -uint8x8_t vshr_n_u8(uint8x8_t a, __constrange(1,8) int b); // VSHR.U8 d0,d0,#8 -_NEON2SSE_INLINE uint8x8_t vshr_n_u8(uint8x8_t a, __constrange(1,8) int b) // VSHR.U8 d0,d0,#8 -{ - //no 8 bit shift available, go to 16 bit - uint8x8_t res64; - __m128i r; - r = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE 4.1 - r = _mm_srli_epi16 (r, b); //for unsigned variables we use the logical shift not arithmetical one - r = _mm_packus_epi16 (r,r); //we need 64 bits only - return64(r); -} - -uint16x4_t vshr_n_u16(uint16x4_t a, __constrange(1,16) int b); // VSHR.s16 d0,d0,#16 -_NEON2SSE_INLINE uint16x4_t vshr_n_u16(uint16x4_t a, __constrange(1,16) int b) -{ - uint16x4_t res64; - return64(_mm_srli_epi16(_pM128i(a), b)); -} - - -uint32x2_t vshr_n_u32(uint32x2_t a, __constrange(1,32) int b); // VSHR.U32 d0,d0,#32 -_NEON2SSE_INLINE uint32x2_t vshr_n_u32(uint32x2_t a, __constrange(1,32) int b) -{ - uint32x2_t res64; - return64(_mm_srli_epi32(_pM128i(a), b)); -} - - -uint64x1_t vshr_n_u64(uint64x1_t a, __constrange(1,64) int b); // VSHR.U64 d0,d0,#64 -_NEON2SSE_INLINE uint64x1_t vshr_n_u64(uint64x1_t a, __constrange(1,64) int b) -{ - uint64x1_t res64; - return64(_mm_srli_epi64(_pM128i(a), b)); -} - - -int8x16_t vshrq_n_s8(int8x16_t a, __constrange(1,8) int b); // VSHR.S8 q0,q0,#8 -_NEON2SSE_INLINE int8x16_t vshrq_n_s8(int8x16_t a, __constrange(1,8) int b) // VSHR.S8 q0,q0,#8 -{ - //no 8 bit shift available, go to 16 bit trick - __m128i zero, mask0, a_sign, r, a_sign_mask; - _NEON2SSE_ALIGN_16 int16_t mask0_16[9] = {0x0000, 0x0080, 0x00c0, 0x00e0, 0x00f0, 0x00f8, 0x00fc, 0x00fe, 0x00ff}; - zero = _mm_setzero_si128(); - mask0 = _mm_set1_epi16(mask0_16[b]); //to mask the bits to be "spoiled" by 16 bit shift - a_sign = _mm_cmpgt_epi8 (zero, a); //ff if a<0 or zero if a>0 - r = _mm_srai_epi16 (a, b); - a_sign_mask = _mm_and_si128 (mask0, a_sign); - r = _mm_andnot_si128 (mask0, r); - return _mm_or_si128 (r, a_sign_mask); -} - -int16x8_t vshrq_n_s16(int16x8_t a, __constrange(1,16) int b); // VSHR.S16 q0,q0,#16 -#define vshrq_n_s16 _mm_srai_epi16 - -int32x4_t vshrq_n_s32(int32x4_t a, __constrange(1,32) int b); // VSHR.S32 q0,q0,#32 -#define vshrq_n_s32 _mm_srai_epi32 - -int64x2_t vshrq_n_s64(int64x2_t a, __constrange(1,64) int b); // VSHR.S64 q0,q0,#64 -_NEON2SSE_INLINE int64x2_t vshrq_n_s64(int64x2_t a, __constrange(1,64) int b) -{ - //SIMD implementation may be not optimal due to 64 bit arithmetic shift absense in x86 SIMD - __m128i c1, signmask,a0, res64; - _NEON2SSE_ALIGN_16 uint64_t mask[] = {0x8000000000000000, 0x8000000000000000}; - c1 = _mm_cmpeq_epi32(a,a); //0xffffffffffffffff - signmask = _mm_slli_epi64 (c1, (64 - b)); - a0 = _mm_or_si128(a, *(__m128i*)mask); //get the first bit - a0 = _MM_CMPEQ_EPI64 (a, a0); - signmask = _mm_and_si128(a0, signmask); - res64 = _mm_srli_epi64 (a, b); - return _mm_or_si128(res64, signmask); -} - -uint8x16_t vshrq_n_u8(uint8x16_t a, __constrange(1,8) int b); // VSHR.U8 q0,q0,#8 -_NEON2SSE_INLINE uint8x16_t vshrq_n_u8(uint8x16_t a, __constrange(1,8) int b) // VSHR.U8 q0,q0,#8 -{ - //no 8 bit shift available, need the special trick - __m128i mask0, r; - _NEON2SSE_ALIGN_16 uint16_t mask10_16[9] = {0xffff, 0xff7f, 0xff3f, 0xff1f, 0xff0f, 0xff07, 0xff03, 0xff01, 0xff00}; - mask0 = _mm_set1_epi16(mask10_16[b]); //to mask the bits to be "spoiled" by 16 bit shift - r = _mm_srli_epi16 ( a, b); - return _mm_and_si128 (r, mask0); -} - -uint16x8_t vshrq_n_u16(uint16x8_t a, __constrange(1,16) int b); // VSHR.s16 q0,q0,#16 -#define vshrq_n_u16 _mm_srli_epi16 - -uint32x4_t vshrq_n_u32(uint32x4_t a, __constrange(1,32) int b); // VSHR.U32 q0,q0,#32 -#define vshrq_n_u32 _mm_srli_epi32 - -uint64x2_t vshrq_n_u64(uint64x2_t a, __constrange(1,64) int b); // VSHR.U64 q0,q0,#64 -#define vshrq_n_u64 _mm_srli_epi64 - -//*************************** Vector shift left by constant ************************* -//********************************************************************************* -int8x8_t vshl_n_s8(int8x8_t a, __constrange(0,7) int b); // VSHL.I8 d0,d0,#0 -_NEON2SSE_INLINE int8x8_t vshl_n_s8(int8x8_t a, __constrange(0,7) int b) // VSHL.I8 d0,d0,#0 -{ - //no 8 bit shift available, go to 16 bit - int8x8_t res64; - __m128i r; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - r = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - r = _mm_slli_epi16 (r, b); //SSE2 - r = _mm_shuffle_epi8 (r, *(__m128i*) mask8_16_even_odd); //return to 8 bit, we need 64 bits only - return64(r); -} - -int16x4_t vshl_n_s16(int16x4_t a, __constrange(0,15) int b); // VSHL.I16 d0,d0,#0 -_NEON2SSE_INLINE int16x4_t vshl_n_s16(int16x4_t a, __constrange(0,15) int b) -{ - int16x4_t res64; - return64(_mm_slli_epi16(_pM128i(a), b)); -} - - -int32x2_t vshl_n_s32(int32x2_t a, __constrange(0,31) int b); // VSHL.I32 d0,d0,#0 -_NEON2SSE_INLINE int32x2_t vshl_n_s32(int32x2_t a, __constrange(0,31) int b) -{ - int32x2_t res64; - return64(_mm_slli_epi32(_pM128i(a), b)); -} - - -int64x1_t vshl_n_s64(int64x1_t a, __constrange(0,63) int b); // VSHL.I64 d0,d0,#0 -_NEON2SSE_INLINE int64x1_t vshl_n_s64(int64x1_t a, __constrange(0,63) int b) -{ - int64x1_t res64; - return64(_mm_slli_epi64(_pM128i(a), b)); -} - - -uint8x8_t vshl_n_u8(uint8x8_t a, __constrange(0,7) int b); // VSHL.I8 d0,d0,#0 -_NEON2SSE_INLINE uint8x8_t vshl_n_u8(uint8x8_t a, __constrange(0,7) int b) -{ - //no 8 bit shift available, go to 16 bit - uint8x8_t res64; - __m128i mask8; - __m128i r; - mask8 = _mm_set1_epi16(0xff); - r = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE 4.1 - r = _mm_slli_epi16 (r, b); //SSE2 - r = _mm_and_si128(r, mask8); //to avoid saturation - r = _mm_packus_epi16 (r,r); //we need 64 bits only - return64(r); -} - -uint16x4_t vshl_n_u16(uint16x4_t a, __constrange(0,15) int b); // VSHL.I16 d0,d0,#0 -#define vshl_n_u16 vshl_n_s16 - - -uint32x2_t vshl_n_u32(uint32x2_t a, __constrange(0,31) int b); // VSHL.I32 d0,d0,#0 -#define vshl_n_u32 vshl_n_s32 - -uint64x1_t vshl_n_u64(uint64x1_t a, __constrange(0,63) int b); // VSHL.I64 d0,d0,#0 -#define vshl_n_u64 vshl_n_s64 - -int8x16_t vshlq_n_s8(int8x16_t a, __constrange(0,7) int b); // VSHL.I8 q0,q0,#0 -#define vshlq_n_s8 vshlq_n_u8 - -int16x8_t vshlq_n_s16(int16x8_t a, __constrange(0,15) int b); // VSHL.I16 q0,q0,#0 -#define vshlq_n_s16 _mm_slli_epi16 - -int32x4_t vshlq_n_s32(int32x4_t a, __constrange(0,31) int b); // VSHL.I32 q0,q0,#0 -#define vshlq_n_s32 _mm_slli_epi32 - -int64x2_t vshlq_n_s64(int64x2_t a, __constrange(0,63) int b); // VSHL.I64 q0,q0,#0 -#define vshlq_n_s64 _mm_slli_epi64 - -uint8x16_t vshlq_n_u8(uint8x16_t a, __constrange(0,7) int b); // VSHL.I8 q0,q0,#0 -_NEON2SSE_INLINE uint8x16_t vshlq_n_u8(uint8x16_t a, __constrange(0,7) int b) -{ - //no 8 bit shift available, need the special trick - __m128i mask0, r; - _NEON2SSE_ALIGN_16 uint16_t mask10_16[9] = {0xffff, 0xfeff, 0xfcff, 0xf8ff, 0xf0ff, 0xe0ff, 0xc0ff, 0x80ff, 0xff}; - mask0 = _mm_set1_epi16(mask10_16[b]); //to mask the bits to be "spoiled" by 16 bit shift - r = _mm_slli_epi16 ( a, b); - return _mm_and_si128 (r, mask0); -} - -uint16x8_t vshlq_n_u16(uint16x8_t a, __constrange(0,15) int b); // VSHL.I16 q0,q0,#0 -#define vshlq_n_u16 vshlq_n_s16 - -uint32x4_t vshlq_n_u32(uint32x4_t a, __constrange(0,31) int b); // VSHL.I32 q0,q0,#0 -#define vshlq_n_u32 vshlq_n_s32 - -uint64x2_t vshlq_n_u64(uint64x2_t a, __constrange(0,63) int b); // VSHL.I64 q0,q0,#0 -#define vshlq_n_u64 vshlq_n_s64 - -//************* Vector rounding shift right by constant ****************** -//************************************************************************* -//No corresponding x86 intrinsics exist, need to do some tricks -int8x8_t vrshr_n_s8(int8x8_t a, __constrange(1,8) int b); // VRSHR.S8 d0,d0,#8 -_NEON2SSE_INLINE int8x8_t vrshr_n_s8(int8x8_t a, __constrange(1,8) int b) // VRSHR.S8 d0,d0,#8 -{ - //no 8 bit shift available, go to 16 bit - int8x8_t res64; - __m128i r, maskb; - r = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - maskb = _mm_slli_epi16 (r, (16 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi16 (maskb, 15); //1 or 0 - r = _mm_srai_epi16 (r, b); - r = _mm_add_epi16 (r, maskb); //actual rounding - r = _mm_packs_epi16 (r,r); ////we need 64 bits only - return64(r); -} - -int16x4_t vrshr_n_s16(int16x4_t a, __constrange(1,16) int b); // VRSHR.S16 d0,d0,#16 -_NEON2SSE_INLINE int16x4_t vrshr_n_s16(int16x4_t a, __constrange(1,16) int b) -{ - int16x4_t res64; - return64(vrshrq_n_s16(_pM128i(a), b)); -} - - -int32x2_t vrshr_n_s32(int32x2_t a, __constrange(1,32) int b); // VRSHR.S32 d0,d0,#32 -_NEON2SSE_INLINE int32x2_t vrshr_n_s32(int32x2_t a, __constrange(1,32) int b) -{ - int32x2_t res64; - return64(vrshrq_n_s32(_pM128i(a), b)); -} - - -int64x1_t vrshr_n_s64(int64x1_t a, __constrange(1,64) int b); // VRSHR.S64 d0,d0,#64 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vrshr_n_s64(int64x1_t a, __constrange(1,64) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - //serial solution is faster - int64x1_t res; - int64_t a_i64 = *( int64_t*)&a; - if(b==64) { - res.m64_i64[0] = 0; //for some compilers rounding happens and we need to use(a_i64 & _SIGNBIT64)>>63; - } else { - int64_t maskb = a_i64 & (( int64_t)1 << (b - 1)); - res.m64_i64[0] = (a_i64 >> b) + (maskb >> (b - 1)); - } - return res; -} - -uint8x8_t vrshr_n_u8(uint8x8_t a, __constrange(1,8) int b); // VRSHR.U8 d0,d0,#8 -_NEON2SSE_INLINE uint8x8_t vrshr_n_u8(uint8x8_t a, __constrange(1,8) int b) // VRSHR.U8 d0,d0,#8 -{ - //no 8 bit shift available, go to 16 bit, solution may be not optimal compared with the serial one - uint8x8_t res64; - __m128i r, maskb; - r = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE 4.1 - maskb = _mm_slli_epi16 (r, (16 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi16 (maskb, 15); //1 or 0 - r = _mm_srli_epi16 (r, b); - r = _mm_add_epi16 (r, maskb); //actual rounding - r = _mm_packus_epi16 (r,r); ////we need 64 bits only - return64(r); -} - -uint16x4_t vrshr_n_u16(uint16x4_t a, __constrange(1,16) int b); // VRSHR.s16 d0,d0,#16 -_NEON2SSE_INLINE uint16x4_t vrshr_n_u16(uint16x4_t a, __constrange(1,16) int b) -{ - uint16x4_t res64; - return64(vrshrq_n_u16(_pM128i(a), b)); -} - - -uint32x2_t vrshr_n_u32(uint32x2_t a, __constrange(1,32) int b); // VRSHR.U32 d0,d0,#32 -_NEON2SSE_INLINE uint32x2_t vrshr_n_u32(uint32x2_t a, __constrange(1,32) int b) -{ - uint32x2_t res64; - return64(vrshrq_n_u32(_pM128i(a), b)); -} - - -uint64x1_t vrshr_n_u64(uint64x1_t a, __constrange(1,64) int b); // VRSHR.U64 d0,d0,#64 -_NEON2SSE_INLINE uint64x1_t vrshr_n_u64(uint64x1_t a, __constrange(1,64) int b) -{ - uint64x1_t res64; - return64(vrshrq_n_u64(_pM128i(a), b)); -} - -int8x16_t vrshrq_n_s8(int8x16_t a, __constrange(1,8) int b); // VRSHR.S8 q0,q0,#8 -_NEON2SSE_INLINE int8x16_t vrshrq_n_s8(int8x16_t a, __constrange(1,8) int b) // VRSHR.S8 q0,q0,#8 -{ - //no 8 bit shift available, go to 16 bit trick - __m128i r, mask1, maskb; - _NEON2SSE_ALIGN_16 uint16_t mask2b[9] = {0x0000, 0x0101, 0x0202, 0x0404, 0x0808, 0x1010, 0x2020, 0x4040, 0x8080}; // 2^b-th bit set to 1 - r = vshrq_n_s8 (a, b); - mask1 = _mm_set1_epi16(mask2b[b]); // 2^b-th bit set to 1 for 16bit, need it for rounding - maskb = _mm_and_si128(a, mask1); //get b or 0 for rounding - maskb = _mm_srli_epi16 (maskb, b - 1); // to add 1 - return _mm_add_epi8(r, maskb); //actual rounding -} - -int16x8_t vrshrq_n_s16(int16x8_t a, __constrange(1,16) int b); // VRSHR.S16 q0,q0,#16 -_NEON2SSE_INLINE int16x8_t vrshrq_n_s16(int16x8_t a, __constrange(1,16) int b) // VRSHR.S16 q0,q0,#16 -{ - __m128i maskb, r; - maskb = _mm_slli_epi16(a, (16 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi16(maskb, 15); //1 or 0 - r = _mm_srai_epi16 (a, b); - return _mm_add_epi16 (r, maskb); //actual rounding -} - -int32x4_t vrshrq_n_s32(int32x4_t a, __constrange(1,32) int b); // VRSHR.S32 q0,q0,#32 -_NEON2SSE_INLINE int32x4_t vrshrq_n_s32(int32x4_t a, __constrange(1,32) int b) // VRSHR.S32 q0,q0,#32 -{ - __m128i maskb, r; - maskb = _mm_slli_epi32 (a, (32 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi32 (maskb,31); //1 or 0 - r = _mm_srai_epi32(a, b); - return _mm_add_epi32 (r, maskb); //actual rounding -} - -int64x2_t vrshrq_n_s64(int64x2_t a, __constrange(1,64) int b); // VRSHR.S64 q0,q0,#64 -_NEON2SSE_INLINE int64x2_t vrshrq_n_s64(int64x2_t a, __constrange(1,64) int b) -{ - //solution may be not optimal compared with a serial one - __m128i maskb; - int64x2_t r; - maskb = _mm_slli_epi64 (a, (64 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi64 (maskb,63); //1 or 0 - r = vshrq_n_s64(a, b); - return _mm_add_epi64 (r, maskb); //actual rounding -} - -uint8x16_t vrshrq_n_u8(uint8x16_t a, __constrange(1,8) int b); // VRSHR.U8 q0,q0,#8 -_NEON2SSE_INLINE uint8x16_t vrshrq_n_u8(uint8x16_t a, __constrange(1,8) int b) // VRSHR.U8 q0,q0,#8 -{ - //no 8 bit shift available, go to 16 bit trick - __m128i r, mask1, maskb; - _NEON2SSE_ALIGN_16 uint16_t mask2b[9] = {0x0000, 0x0101, 0x0202, 0x0404, 0x0808, 0x1010, 0x2020, 0x4040, 0x8080}; // 2^b-th bit set to 1 - r = vshrq_n_u8 (a, b); - mask1 = _mm_set1_epi16(mask2b[b]); // 2^b-th bit set to 1 for 16bit, need it for rounding - maskb = _mm_and_si128(a, mask1); //get b or 0 for rounding - maskb = _mm_srli_epi16 (maskb, b - 1); // to add 1 - return _mm_add_epi8(r, maskb); //actual rounding -} - -uint16x8_t vrshrq_n_u16(uint16x8_t a, __constrange(1,16) int b); // VRSHR.s16 q0,q0,#16 -_NEON2SSE_INLINE uint16x8_t vrshrq_n_u16(uint16x8_t a, __constrange(1,16) int b) // VRSHR.S16 q0,q0,#16 -{ - __m128i maskb, r; - maskb = _mm_slli_epi16(a, (16 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi16(maskb, 15); //1 or 0 - r = _mm_srli_epi16 (a, b); - return _mm_add_epi16 (r, maskb); //actual rounding -} - -uint32x4_t vrshrq_n_u32(uint32x4_t a, __constrange(1,32) int b); // VRSHR.U32 q0,q0,#32 -_NEON2SSE_INLINE uint32x4_t vrshrq_n_u32(uint32x4_t a, __constrange(1,32) int b) // VRSHR.S32 q0,q0,#32 -{ - __m128i maskb, r; - maskb = _mm_slli_epi32 (a, (32 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi32 (maskb,31); //1 or 0 - r = _mm_srli_epi32(a, b); - return _mm_add_epi32 (r, maskb); //actual rounding -} - -uint64x2_t vrshrq_n_u64(uint64x2_t a, __constrange(1,64) int b); // VRSHR.U64 q0,q0,#64 -_NEON2SSE_INLINE uint64x2_t vrshrq_n_u64(uint64x2_t a, __constrange(1,64) int b) -{ - //solution may be not optimal compared with a serial one - __m128i maskb, r; - maskb = _mm_slli_epi64 (a, (64 - b)); //to get rounding (b-1)th bit - maskb = _mm_srli_epi64 (maskb,63); //1 or 0 - r = _mm_srli_epi64(a, b); - return _mm_add_epi64 (r, maskb); //actual rounding -} - -//************* Vector shift right by constant and accumulate ********* -//********************************************************************* -int8x8_t vsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VSRA.S8 d0,d0,#8 -_NEON2SSE_INLINE int8x8_t vsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c) // VSRA.S8 d0,d0,#8 -{ - int8x8_t shift; - shift = vshr_n_s8(b, c); - return vadd_s8( a, shift); -} - -int16x4_t vsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VSRA.S16 d0,d0,#16 -_NEON2SSE_INLINE int16x4_t vsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c) // VSRA.S16 d0,d0,#16 -{ - int16x4_t shift; - shift = vshr_n_s16( b, c); - return vadd_s16(a, shift); -} - -int32x2_t vsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VSRA.S32 d0,d0,#32 -_NEON2SSE_INLINE int32x2_t vsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c) // VSRA.S32 d0,d0,#32 -{ - //may be not optimal compared with the serial execution - int32x2_t shift; - shift = vshr_n_s32(b, c); - return vadd_s32( a, shift); -} - -int64x1_t vsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VSRA.S64 d0,d0,#64 -_NEON2SSE_INLINE int64x1_t vsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c) -{ - //may be not optimal compared with a serial solution - int64x1_t shift; - shift = vshr_n_s64(b, c); - return vadd_s64( a, shift); -} - -uint8x8_t vsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VSRA.U8 d0,d0,#8 -_NEON2SSE_INLINE uint8x8_t vsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c) // VSRA.U8 d0,d0,#8 -{ - uint8x8_t shift; - shift = vshr_n_u8(b, c); - return vadd_u8(a, shift); -} - -uint16x4_t vsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VSRA.s16 d0,d0,#16 -_NEON2SSE_INLINE uint16x4_t vsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c) // VSRA.s16 d0,d0,#16 -{ - uint16x4_t shift; - shift = vshr_n_u16(b, c); - return vadd_u16(a,shift); -} - -uint32x2_t vsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VSRA.U32 d0,d0,#32 -_NEON2SSE_INLINE uint32x2_t vsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c) // VSRA.U32 d0,d0,#32 -{ - //may be not optimal compared with the serial execution - uint32x2_t shift; - shift = vshr_n_u32(b, c); - return vadd_u32( a, shift); -} - -uint64x1_t vsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VSRA.U64 d0,d0,#64 -_NEON2SSE_INLINE uint64x1_t vsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c) // VSRA.U64 d0,d0,#64 -{ - //may be not optimal compared with the serial execution - uint64x1_t shift; - shift = vshr_n_u64(b, c); - return vadd_u64(a, shift); -} - -int8x16_t vsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VSRA.S8 q0,q0,#8 -_NEON2SSE_INLINE int8x16_t vsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c) // VSRA.S8 q0,q0,#8 -{ - int8x16_t shift; - shift = vshrq_n_s8(b, c); - return vaddq_s8(a, shift); -} - -int16x8_t vsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VSRA.S16 q0,q0,#16 -_NEON2SSE_INLINE int16x8_t vsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c) // VSRA.S16 q0,q0,#16 -{ - int16x8_t shift; - shift = vshrq_n_s16(b, c); - return vaddq_s16(a, shift); -} - -int32x4_t vsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VSRA.S32 q0,q0,#32 -_NEON2SSE_INLINE int32x4_t vsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c) // VSRA.S32 q0,q0,#32 -{ - int32x4_t shift; - shift = vshrq_n_s32(b, c); - return vaddq_s32(a, shift); -} - -int64x2_t vsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VSRA.S64 q0,q0,#64 -_NEON2SSE_INLINE int64x2_t vsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c) // VSRA.S64 q0,q0,#64 -{ - int64x2_t shift; - shift = vshrq_n_s64(b, c); - return vaddq_s64( a, shift); -} - -uint8x16_t vsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VSRA.U8 q0,q0,#8 -_NEON2SSE_INLINE uint8x16_t vsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c) // VSRA.U8 q0,q0,#8 -{ - uint8x16_t shift; - shift = vshrq_n_u8(b, c); - return vaddq_u8(a, shift); -} - -uint16x8_t vsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VSRA.s16 q0,q0,#16 -_NEON2SSE_INLINE uint16x8_t vsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c) // VSRA.s16 q0,q0,#16 -{ - uint16x8_t shift; - shift = vshrq_n_u16(b, c); - return vaddq_u16(a, shift); -} - -uint32x4_t vsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VSRA.U32 q0,q0,#32 -_NEON2SSE_INLINE uint32x4_t vsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c) // VSRA.U32 q0,q0,#32 -{ - uint32x4_t shift; - shift = vshrq_n_u32(b, c); - return vaddq_u32(a, shift); -} - -uint64x2_t vsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VSRA.U64 q0,q0,#64 -_NEON2SSE_INLINE uint64x2_t vsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c) // VSRA.U64 q0,q0,#64 -{ - uint64x2_t shift; - shift = vshrq_n_u64(b, c); - return vaddq_u64(a, shift); -} - -//************* Vector rounding shift right by constant and accumulate **************************** -//************************************************************************************************ -int8x8_t vrsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VRSRA.S8 d0,d0,#8 -_NEON2SSE_INLINE int8x8_t vrsra_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c) // VRSRA.S8 d0,d0,#8 -{ - int8x8_t shift; - shift = vrshr_n_s8(b, c); - return vadd_s8( a, shift); -} - -int16x4_t vrsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VRSRA.S16 d0,d0,#16 -_NEON2SSE_INLINE int16x4_t vrsra_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c) // VRSRA.S16 d0,d0,#16 -{ - int16x4_t shift; - shift = vrshr_n_s16( b, c); - return vadd_s16(a, shift); -} - -int32x2_t vrsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VRSRA.S32 d0,d0,#32 -_NEON2SSE_INLINE int32x2_t vrsra_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c) // VRSRA.S32 d0,d0,#32 -{ - //may be not optimal compared with the serial execution - int32x2_t shift; - shift = vrshr_n_s32(b, c); - return vadd_s32( a, shift); -} - -int64x1_t vrsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VRSRA.S64 d0,d0,#64 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vrsra_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution -{ - int64x1_t shift; - shift = vrshr_n_s64(b, c); - return vadd_s64( a, shift); -} - -uint8x8_t vrsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VRSRA.U8 d0,d0,#8 -_NEON2SSE_INLINE uint8x8_t vrsra_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c) // VRSRA.U8 d0,d0,#8 -{ - uint8x8_t shift; - shift = vrshr_n_u8(b, c); - return vadd_u8(a, shift); -} - -uint16x4_t vrsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VRSRA.s16 d0,d0,#16 -_NEON2SSE_INLINE uint16x4_t vrsra_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c) // VRSRA.s16 d0,d0,#16 -{ - uint16x4_t shift; - shift = vrshr_n_u16(b, c); - return vadd_u16(a,shift); -} - -uint32x2_t vrsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VRSRA.U32 d0,d0,#32 -_NEON2SSE_INLINE uint32x2_t vrsra_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c) // VRSRA.U32 d0,d0,#32 -{ - //may be not optimal compared with the serial execution - uint32x2_t shift; - shift = vrshr_n_u32(b, c); - return vadd_u32( a, shift); -} - -uint64x1_t vrsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VRSRA.U64 d0,d0,#64 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vrsra_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution -{ - //may be not optimal compared with the serial execution - uint64x1_t shift; - shift = vrshr_n_u64(b, c); - return vadd_u64( a, shift); -} - -int8x16_t vrsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VRSRA.S8 q0,q0,#8 -_NEON2SSE_INLINE int8x16_t vrsraq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c) // VRSRA.S8 q0,q0,#8 -{ - int8x16_t shift; - shift = vrshrq_n_s8(b, c); - return vaddq_s8(a, shift); -} - -int16x8_t vrsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VRSRA.S16 q0,q0,#16 -_NEON2SSE_INLINE int16x8_t vrsraq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c) // VRSRA.S16 q0,q0,#16 -{ - int16x8_t shift; - shift = vrshrq_n_s16(b, c); - return vaddq_s16(a, shift); -} - -int32x4_t vrsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VRSRA.S32 q0,q0,#32 -_NEON2SSE_INLINE int32x4_t vrsraq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c) // VRSRA.S32 q0,q0,#32 -{ - int32x4_t shift; - shift = vrshrq_n_s32(b, c); - return vaddq_s32(a, shift); -} - -int64x2_t vrsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VRSRA.S64 q0,q0,#64 -_NEON2SSE_INLINE int64x2_t vrsraq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c) -{ - int64x2_t shift; - shift = vrshrq_n_s64(b, c); - return vaddq_s64(a, shift); -} - -uint8x16_t vrsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VRSRA.U8 q0,q0,#8 -_NEON2SSE_INLINE uint8x16_t vrsraq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c) // VRSRA.U8 q0,q0,#8 -{ - uint8x16_t shift; - shift = vrshrq_n_u8(b, c); - return vaddq_u8(a, shift); -} - -uint16x8_t vrsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VRSRA.s16 q0,q0,#16 -_NEON2SSE_INLINE uint16x8_t vrsraq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c) // VRSRA.s16 q0,q0,#16 -{ - uint16x8_t shift; - shift = vrshrq_n_u16(b, c); - return vaddq_u16(a, shift); -} - -uint32x4_t vrsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VRSRA.U32 q0,q0,#32 -_NEON2SSE_INLINE uint32x4_t vrsraq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c) // VRSRA.U32 q0,q0,#32 -{ - uint32x4_t shift; - shift = vrshrq_n_u32(b, c); - return vaddq_u32(a, shift); -} - -uint64x2_t vrsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VRSRA.U64 q0,q0,#64 -_NEON2SSE_INLINE uint64x2_t vrsraq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c) -{ - uint64x2_t shift; - shift = vrshrq_n_u64(b, c); - return vaddq_u64(a, shift); -} - -//**********************Vector saturating shift left by constant ***************************** -//******************************************************************************************** -//we don't check const ranges assuming they are met -int8x8_t vqshl_n_s8(int8x8_t a, __constrange(0,7) int b); // VQSHL.S8 d0,d0,#0 -_NEON2SSE_INLINE int8x8_t vqshl_n_s8(int8x8_t a, __constrange(0,7) int b) // VQSHL.S8 d0,d0,#0 -{ - //no 8 bit shift available in IA32 SIMD, go to 16 bit. It also provides the auto saturation (in packs function) - int8x8_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi16 (a128, b); - r128 = _mm_packs_epi16 (r128,r128); //saturated s8, use 64 low bits only - return64(r128); -} - -int16x4_t vqshl_n_s16(int16x4_t a, __constrange(0,15) int b); // VQSHL.S16 d0,d0,#0 -_NEON2SSE_INLINE int16x4_t vqshl_n_s16(int16x4_t a, __constrange(0,15) int b) // VQSHL.S16 d0,d0,#0 -{ - // go to 32 bit to get the auto saturation (in packs function) - int16x4_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPI16_EPI32 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi32 (a128, b); //shift_res - r128 = _mm_packs_epi32 (r128,r128); //saturated s16, use 64 low bits only - return64(r128); -} - -int32x2_t vqshl_n_s32(int32x2_t a, __constrange(0,31) int b); // VQSHL.S32 d0,d0,#0 -_NEON2SSE_INLINE int32x2_t vqshl_n_s32(int32x2_t a, __constrange(0,31) int b) -{ - //serial execution may be faster - int32x2_t res64; - return64(vqshlq_n_s32 (_pM128i(a), b)); -} - - -int64x1_t vqshl_n_s64(int64x1_t a, __constrange(0,63) int b); // VQSHL.S64 d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x1_t vqshl_n_s64(int64x1_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - // no effective SIMD solution here - int64x1_t res; - int64_t bmask; - int64_t a_i64 = *( int64_t*)&a; - bmask = ( int64_t)1 << (63 - b); //positive - if (a_i64 >= bmask) { - res.m64_i64[0] = ~(_SIGNBIT64); - } else { - res.m64_i64[0] = (a_i64 <= -bmask) ? _SIGNBIT64 : a_i64 << b; - } - return res; -} - - -uint8x8_t vqshl_n_u8(uint8x8_t a, __constrange(0,7) int b); // VQSHL.U8 d0,d0,#0 -_NEON2SSE_INLINE uint8x8_t vqshl_n_u8(uint8x8_t a, __constrange(0,7) int b) // VQSHL.U8 d0,d0,#0 -{ - //no 8 bit shift available in IA32 SIMD, go to 16 bit - uint8x8_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPU8_EPI16 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi16 (a128, b); //shift_res - r128 = _mm_packus_epi16 (r128,r128); //saturated u8, use 64 low bits only - return64(r128); -} - -uint16x4_t vqshl_n_u16(uint16x4_t a, __constrange(0,15) int b); // VQSHL.s16 d0,d0,#0 -_NEON2SSE_INLINE uint16x4_t vqshl_n_u16(uint16x4_t a, __constrange(0,15) int b) // VQSHL.s16 d0,d0,#0 -{ - // go to 32 bit to get the auto saturation (in packus function) - uint16x4_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPU16_EPI32 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi32 (a128, b); //shift_res - r128 = _MM_PACKUS1_EPI32 (r128); //saturated s16 - return64(r128); -} - -uint32x2_t vqshl_n_u32(uint32x2_t a, __constrange(0,31) int b); // VQSHL.U32 d0,d0,#0 -_NEON2SSE_INLINE uint32x2_t vqshl_n_u32(uint32x2_t a, __constrange(0,31) int b) -{ - uint32x2_t res64; - return64(vqshlq_n_u32(_pM128i(a), b)); -} - -uint64x1_t vqshl_n_u64(uint64x1_t a, __constrange(0,63) int b); // VQSHL.U64 d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqshl_n_u64(uint64x1_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - // no effective SIMD solution here - uint64x1_t res; - uint64_t bmask; - uint64_t a_i64 = *(uint64_t*)&a; - bmask = ( uint64_t)1 << (64 - b); - res.m64_u64[0] = (a_i64 >= bmask)&&(b>0) ? 0xffffffffffffffff : a_i64 << b; //if b=0 we are fine with any a - return res; -} - -int8x16_t vqshlq_n_s8(int8x16_t a, __constrange(0,7) int b); // VQSHL.S8 q0,q0,#0 -_NEON2SSE_INLINE int8x16_t vqshlq_n_s8(int8x16_t a, __constrange(0,7) int b) // VQSHL.S8 q0,q0,#0 -{ - // go to 16 bit to get the auto saturation (in packs function) - __m128i a128, r128_1, r128_2; - a128 = _MM_CVTEPI8_EPI16 (a); //SSE 4.1 - r128_1 = _mm_slli_epi16 (a128, b); - //swap hi and low part of a128 to process the remaining data - a128 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - a128 = _MM_CVTEPI8_EPI16 (a128); - r128_2 = _mm_slli_epi16 (a128, b); - return _mm_packs_epi16 (r128_1, r128_2); //saturated s8 -} - -int16x8_t vqshlq_n_s16(int16x8_t a, __constrange(0,15) int b); // VQSHL.S16 q0,q0,#0 -_NEON2SSE_INLINE int16x8_t vqshlq_n_s16(int16x8_t a, __constrange(0,15) int b) // VQSHL.S16 q0,q0,#0 -{ - // manual saturation solution looks LESS optimal than 32 bits conversion one - // go to 32 bit to get the auto saturation (in packs function) - __m128i a128, r128_1, r128_2; - a128 = _MM_CVTEPI16_EPI32 (a); //SSE 4.1 - r128_1 = _mm_slli_epi32 (a128, b); //shift_res - //swap hi and low part of a128 to process the remaining data - a128 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - a128 = _MM_CVTEPI16_EPI32 (a128); - r128_2 = _mm_slli_epi32 (a128, b); - return _mm_packs_epi32 (r128_1, r128_2); //saturated s16 -} - -int32x4_t vqshlq_n_s32(int32x4_t a, __constrange(0,31) int b); // VQSHL.S32 q0,q0,#0 -_NEON2SSE_INLINE int32x4_t vqshlq_n_s32(int32x4_t a, __constrange(0,31) int b) // VQSHL.S32 q0,q0,#0 -{ - // no 64 bit saturation option available, special tricks necessary - __m128i c1, maskA, saturation_mask, c7ffffff_mask, shift_res, shift_res_mask; - c1 = _mm_cmpeq_epi32(a,a); //0xff..ff - maskA = _mm_srli_epi32(c1, b + 1); //mask for positive numbers (32-b+1) zeros and b-1 ones - saturation_mask = _mm_cmpgt_epi32 (a, maskA); //0xff...ff if we need saturation, 0 otherwise - c7ffffff_mask = _mm_srli_epi32(saturation_mask, 1); //saturated to 0x7f..ff when needed and zeros if not - shift_res = _mm_slli_epi32 (a, b); - shift_res_mask = _mm_andnot_si128(saturation_mask, shift_res); - //result with positive numbers saturated - shift_res = _mm_or_si128 (c7ffffff_mask, shift_res_mask); - //treat negative numbers - maskA = _mm_slli_epi32(c1, 31 - b); //mask for negative numbers b-1 ones and (32-b+1) zeros - saturation_mask = _mm_cmpgt_epi32 (maskA,a); //0xff...ff if we need saturation, 0 otherwise - c7ffffff_mask = _mm_slli_epi32(saturation_mask, 31); //saturated to 0x80..00 when needed and zeros if not - shift_res_mask = _mm_andnot_si128(saturation_mask, shift_res); - return _mm_or_si128 (c7ffffff_mask, shift_res_mask); -} - -int64x2_t vqshlq_n_s64(int64x2_t a, __constrange(0,63) int b); // VQSHL.S64 q0,q0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqshlq_n_s64(int64x2_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - // no effective SIMD solution here - _NEON2SSE_ALIGN_16 int64_t atmp[2], res[2]; - int64_t bmask; - int i; - bmask = ( int64_t)1 << (63 - b); //positive - _mm_store_si128((__m128i*)atmp, a); - for (i = 0; i<2; i++) { - if (atmp[i] >= bmask) { - res[i] = ~(_SIGNBIT64); - } else { - res[i] = (atmp[i] <= -bmask) ? _SIGNBIT64 : atmp[i] << b; - } - } - return _mm_load_si128((__m128i*)res); -} - -uint8x16_t vqshlq_n_u8(uint8x16_t a, __constrange(0,7) int b); // VQSHL.U8 q0,q0,#0 -_NEON2SSE_INLINE uint8x16_t vqshlq_n_u8(uint8x16_t a, __constrange(0,7) int b) // VQSHL.U8 q0,q0,#0 -{ - // go to 16 bit to get the auto saturation (in packs function) - __m128i a128, r128_1, r128_2; - a128 = _MM_CVTEPU8_EPI16 (a); //SSE 4.1 - r128_1 = _mm_slli_epi16 (a128, b); - //swap hi and low part of a128 to process the remaining data - a128 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - a128 = _MM_CVTEPU8_EPI16 (a128); - r128_2 = _mm_slli_epi16 (a128, b); - return _mm_packus_epi16 (r128_1, r128_2); //saturated u8 -} - -uint16x8_t vqshlq_n_u16(uint16x8_t a, __constrange(0,15) int b); // VQSHL.s16 q0,q0,#0 -_NEON2SSE_INLINE uint16x8_t vqshlq_n_u16(uint16x8_t a, __constrange(0,15) int b) // VQSHL.s16 q0,q0,#0 -{ - // manual saturation solution looks more optimal than 32 bits conversion one - __m128i cb, c8000, a_signed, saturation_mask, shift_res; - cb = _mm_set1_epi16((1 << (16 - b)) - 1 - 0x8000 ); - c8000 = _mm_set1_epi16 (0x8000); -//no unsigned shorts comparison in SSE, only signed available, so need the trick - a_signed = _mm_sub_epi16(a, c8000); //go to signed - saturation_mask = _mm_cmpgt_epi16 (a_signed, cb); - shift_res = _mm_slli_epi16 (a, b); - return _mm_or_si128 (shift_res, saturation_mask); -} - -uint32x4_t vqshlq_n_u32(uint32x4_t a, __constrange(0,31) int b); // VQSHL.U32 q0,q0,#0 -_NEON2SSE_INLINE uint32x4_t vqshlq_n_u32(uint32x4_t a, __constrange(0,31) int b) // VQSHL.U32 q0,q0,#0 -{ - // manual saturation solution, no 64 bit saturation option, the serial version may be faster - __m128i cb, c80000000, a_signed, saturation_mask, shift_res; - cb = _mm_set1_epi32((1 << (32 - b)) - 1 - 0x80000000 ); - c80000000 = _mm_set1_epi32 (0x80000000); -//no unsigned ints comparison in SSE, only signed available, so need the trick - a_signed = _mm_sub_epi32(a, c80000000); //go to signed - saturation_mask = _mm_cmpgt_epi32 (a_signed, cb); - shift_res = _mm_slli_epi32 (a, b); - return _mm_or_si128 (shift_res, saturation_mask); -} - -uint64x2_t vqshlq_n_u64(uint64x2_t a, __constrange(0,63) int b); // VQSHL.U64 q0,q0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqshlq_n_u64(uint64x2_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - // no effective SIMD solution here - _NEON2SSE_ALIGN_16 uint64_t atmp[2], res[2]; - uint64_t bmask; - int i; - bmask = ( uint64_t)1 << (64 - b); - _mm_store_si128((__m128i*)atmp, a); - for (i = 0; i<2; i++) { - res[i] = (atmp[i] >= bmask)&&(b>0) ? 0xffffffffffffffff : atmp[i] << b; //if b=0 we are fine with any a - } - return _mm_load_si128((__m128i*)res); -} - -//**************Vector signed->unsigned saturating shift left by constant ************* -//************************************************************************************* -uint8x8_t vqshlu_n_s8(int8x8_t a, __constrange(0,7) int b); // VQSHLU.S8 d0,d0,#0 -_NEON2SSE_INLINE uint8x8_t vqshlu_n_s8(int8x8_t a, __constrange(0,7) int b) // VQSHLU.S8 d0,d0,#0 -{ - //no 8 bit shift available in IA32 SIMD, go to 16 bit. It also provides the auto saturation (in packs function) - uint8x8_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi16 (a128, b); - r128 = _mm_packus_epi16 (r128,r128); //saturated u8, use 64 low bits only - return64(r128); -} - -uint16x4_t vqshlu_n_s16(int16x4_t a, __constrange(0,15) int b); // VQSHLU.S16 d0,d0,#0 -_NEON2SSE_INLINE uint16x4_t vqshlu_n_s16(int16x4_t a, __constrange(0,15) int b) // VQSHLU.S16 d0,d0,#0 -{ - uint16x4_t res64; - __m128i a128, r128; - a128 = _MM_CVTEPI16_EPI32 (_pM128i(a)); //SSE 4.1 - r128 = _mm_slli_epi32 (a128, b); //shift_res - r128 = _MM_PACKUS1_EPI32 (r128); //saturated s16, use 64 low bits only - return64(r128); -} - -uint32x2_t vqshlu_n_s32(int32x2_t a, __constrange(0,31) int b); // VQSHLU.S32 d0,d0,#0 -_NEON2SSE_INLINE int32x2_t vqshlu_n_s32(int32x2_t a, __constrange(0,31) int b) -{ - int32x2_t res64; - return64( vqshluq_n_s32(_pM128i(a), b)); -} - -uint64x1_t vqshlu_n_s64(int64x1_t a, __constrange(0,63) int b); // VQSHLU.S64 d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x1_t vqshlu_n_s64(int64x1_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) // no effective SIMD solution here, serial execution looks faster -{ - uint64x1_t res; - uint64_t limit; - if (a.m64_i64[0]<=0) { - res.m64_u64[0] = 0; - } else { - limit = (uint64_t) 1 << (64 - b); - res.m64_u64[0] = ( ((uint64_t)a.m64_i64[0]) >= limit) ? res.m64_u64[0] = ~((uint64_t)0) : a.m64_i64[0] << b; - } - return res; -} - -uint8x16_t vqshluq_n_s8(int8x16_t a, __constrange(0,7) int b); // VQSHLU.S8 q0,q0,#0 -_NEON2SSE_INLINE uint8x16_t vqshluq_n_s8(int8x16_t a, __constrange(0,7) int b) // VQSHLU.S8 q0,q0,#0 -{ - __m128i a128, r128_1, r128_2; - a128 = _MM_CVTEPI8_EPI16 (a); //SSE 4.1 - r128_1 = _mm_slli_epi16 (a128, b); - //swap hi and low part of a128 to process the remaining data - a128 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - a128 = _MM_CVTEPI8_EPI16 (a128); - r128_2 = _mm_slli_epi16 (a128, b); - return _mm_packus_epi16 (r128_1, r128_2); //saturated u8 -} - -uint16x8_t vqshluq_n_s16(int16x8_t a, __constrange(0,15) int b); // VQSHLU.S16 q0,q0,#0 -_NEON2SSE_INLINE uint16x8_t vqshluq_n_s16(int16x8_t a, __constrange(0,15) int b) // VQSHLU.S16 q0,q0,#0 -{ - // manual saturation solution looks LESS optimal than 32 bits conversion one - __m128i a128, r128_1, r128_2; - a128 = _MM_CVTEPI16_EPI32 (a); //SSE 4.1 - r128_1 = _mm_slli_epi32 (a128, b); //shift_res - //swap hi and low part of a128 to process the remaining data - a128 = _mm_shuffle_epi32 (a, _SWAP_HI_LOW32); - a128 = _MM_CVTEPI16_EPI32 (a128); - r128_2 = _mm_slli_epi32 (a128, b); - return _MM_PACKUS_EPI32 (r128_1, r128_2); //saturated s16 -} - -uint32x4_t vqshluq_n_s32(int32x4_t a, __constrange(0,31) int b); // VQSHLU.S32 q0,q0,#0 -_NEON2SSE_INLINE uint32x4_t vqshluq_n_s32(int32x4_t a, __constrange(0,31) int b) // VQSHLU.S32 q0,q0,#0 -{ - //solution may be not optimal compared with the serial one - __m128i zero, maskA, maskGT0, a0, a_masked, a_shift; - zero = _mm_setzero_si128(); - maskA = _mm_cmpeq_epi32(a, a); - maskA = _mm_slli_epi32(maskA,(32 - b)); // b ones and (32-b)zeros - //saturate negative numbers to zero - maskGT0 = _mm_cmpgt_epi32 (a, zero); // //0xffffffff if positive number and zero otherwise (negative numbers) - a0 = _mm_and_si128 (a, maskGT0); //negative are zeros now - //saturate positive to 0xffffffff - a_masked = _mm_and_si128 (a0, maskA); - a_masked = _mm_cmpgt_epi32 (a_masked, zero); //0xffffffff if saturation necessary 0 otherwise - a_shift = _mm_slli_epi32 (a0, b); - return _mm_or_si128 (a_shift, a_masked); //actual saturation -} - -uint64x2_t vqshluq_n_s64(int64x2_t a, __constrange(0,63) int b); // VQSHLU.S64 q0,q0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint64x2_t vqshluq_n_s64(int64x2_t a, __constrange(0,63) int b), _NEON2SSE_REASON_SLOW_SERIAL) -{ - // no effective SIMD solution here, serial execution looks faster - _NEON2SSE_ALIGN_16 int64_t atmp[2]; - _NEON2SSE_ALIGN_16 uint64_t res[2]; - uint64_t limit; - int i; - _mm_store_si128((__m128i*)atmp, a); - for (i = 0; i<2; i++) { - if (atmp[i]<=0) { - res[i] = 0; - } else { - limit = (uint64_t) 1 << (64 - b); - res[i] = ( ((uint64_t)atmp[i]) >= limit) ? res[i] = ~((uint64_t)0) : atmp[i] << b; - } - } - return _mm_load_si128((__m128i*)res); -} - -//************** Vector narrowing shift right by constant ************** -//********************************************************************** -int8x8_t vshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VSHRN.I16 d0,q0,#8 -_NEON2SSE_INLINE int8x8_t vshrn_n_s16(int16x8_t a, __constrange(1,8) int b) // VSHRN.I16 d0,q0,#8 -{ - int8x8_t res64; - __m128i r16; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - r16 = vshrq_n_s16(a,b); - r16 = _mm_shuffle_epi8 (r16, *(__m128i*) mask8_16_even_odd); //narrow, use low 64 bits only. Impossible to use _mm_packs because of negative saturation problems - return64(r16); -} - -int16x4_t vshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VSHRN.I32 d0,q0,#16 -_NEON2SSE_INLINE int16x4_t vshrn_n_s32(int32x4_t a, __constrange(1,16) int b) // VSHRN.I32 d0,q0,#16 -{ - int16x4_t res64; - __m128i r32; - _NEON2SSE_ALIGN_16 int8_t mask16_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - r32 = vshrq_n_s32(a,b); - r32 = _mm_shuffle_epi8 (r32, *(__m128i*) mask16_odd); //narrow, use low 64 bits only. Impossible to use _mm_packs because of negative saturation problems - return64(r32); -} - -int32x2_t vshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VSHRN.I64 d0,q0,#32 -_NEON2SSE_INLINE int32x2_t vshrn_n_s64(int64x2_t a, __constrange(1,32) int b) -{ - int32x2_t res64; - __m128i r64; - r64 = vshrq_n_s64(a,b); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - -uint8x8_t vshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VSHRN.I16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vshrn_n_u16(uint16x8_t a, __constrange(1,8) int b) // VSHRN.I16 d0,q0,#8 -{ - uint8x8_t res64; - __m128i mask, r16; - mask = _mm_set1_epi16(0xff); - r16 = vshrq_n_s16(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _mm_packus_epi16 (signed 16 to unsigned 8) - r16 = _mm_and_si128(r16, mask); //to avoid saturation - r16 = _mm_packus_epi16 (r16,r16); //narrow, use low 64 bits only - return64(r16); -} - -uint16x4_t vshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VSHRN.I32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vshrn_n_u32(uint32x4_t a, __constrange(1,16) int b) // VSHRN.I32 d0,q0,#16 -{ - uint16x4_t res64; - __m128i mask, r32; - mask = _mm_set1_epi32(0xffff); - r32 = vshrq_n_u32(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _MM_PACKUS_EPI32 (signed 32 to unsigned 16) - r32 = _mm_and_si128(r32, mask); //to avoid saturation - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -uint32x2_t vshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VSHRN.I64 d0,q0,#32 -_NEON2SSE_INLINE uint32x2_t vshrn_n_u64(uint64x2_t a, __constrange(1,32) int b) -{ - uint32x2_t res64; - __m128i r64; - r64 = vshrq_n_u64(a,b); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - -//************** Vector signed->unsigned narrowing saturating shift right by constant ******** -//********************************************************************************************* -uint8x8_t vqshrun_n_s16(int16x8_t a, __constrange(1,8) int b); // VQSHRUN.S16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vqshrun_n_s16(int16x8_t a, __constrange(1,8) int b) // VQSHRUN.S16 d0,q0,#8 -{ - uint8x8_t res64; - __m128i r16; - r16 = vshrq_n_s16(a,b); - r16 = _mm_packus_epi16 (r16,r16); //saturate and narrow (signed to unsigned), use low 64 bits only - return64(r16); -} - -uint16x4_t vqshrun_n_s32(int32x4_t a, __constrange(1,16) int b); // VQSHRUN.S32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vqshrun_n_s32(int32x4_t a, __constrange(1,16) int b) // VQSHRUN.S32 d0,q0,#16 -{ - uint16x4_t res64; - __m128i r32; - r32 = vshrq_n_s32(a,b); - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow(signed to unsigned), use low 64 bits only - return64(r32); -} - -uint32x2_t vqshrun_n_s64(int64x2_t a, __constrange(1,32) int b); // VQSHRUN.S64 d0,q0,#32 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vqshrun_n_s64(int64x2_t a, __constrange(1,32) int b), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution is faster -{ - _NEON2SSE_ALIGN_16 int64_t atmp[2]; - uint32x2_t res; - int64_t res64; - _mm_store_si128((__m128i*)atmp, a); - if (atmp[0] < 0) { - res.m64_u32[0] = 0; - } else { - res64 = (atmp[0] >> b); - res.m64_u32[0] = (res64 > (int64_t)0xffffffff) ? 0xffffffff : (uint32_t) res64; - } - if (atmp[1] < 0) { - res.m64_u32[1] = 0; - } else { - res64 = (atmp[1] >> b); - res.m64_u32[1] = (res64 > (int64_t)0xffffffff) ? 0xffffffff : (uint32_t)res64; - } - return res; -} - -//**** Vector signed->unsigned rounding narrowing saturating shift right by constant ***** -uint8x8_t vqrshrun_n_s16(int16x8_t a, __constrange(1,8) int b); // VQRSHRUN.S16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vqrshrun_n_s16(int16x8_t a, __constrange(1,8) int b) // VQRSHRUN.S16 d0,q0,#8 -{ - //solution may be not optimal compared with the serial one - __m128i r16; - uint8x8_t res64; - r16 = vrshrq_n_s16(a,b); - r16 = _mm_packus_epi16 (r16,r16); //saturate and narrow (signed to unsigned), use low 64 bits only - return64(r16); -} - -uint16x4_t vqrshrun_n_s32(int32x4_t a, __constrange(1,16) int b); // VQRSHRUN.S32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vqrshrun_n_s32(int32x4_t a, __constrange(1,16) int b) // VQRSHRUN.S32 d0,q0,#16 -{ - //solution may be not optimal compared with the serial one - __m128i r32; - uint16x4_t res64; - r32 = vrshrq_n_s32(a,b); - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow (signed to unsigned), use low 64 bits only - return64(r32); -} - -uint32x2_t vqrshrun_n_s64(int64x2_t a, __constrange(1,32) int b); // VQRSHRUN.S64 d0,q0,#32 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vqrshrun_n_s64(int64x2_t a, __constrange(1,32) int b), _NEON2SSE_REASON_SLOW_SERIAL) //serial solution is faster -{ - _NEON2SSE_ALIGN_16 int64_t atmp[2]; - uint32x2_t res; - int64_t res64; - _mm_store_si128((__m128i*)atmp, a); - if (atmp[0] < 0) { - res.m64_u32[0] = 0; - } else { - res64 = (atmp[0] >> b) + ( (atmp[0] & ((int64_t)1 << (b - 1))) >> (b - 1) ); - res.m64_u32[0] = (res64 > (int64_t)0xffffffff ) ? 0xffffffff : res64; - } - if (atmp[1] < 0) { - res.m64_u32[1] = 0; - } else { - res64 = (atmp[1] >> b) + ( (atmp[0] & ((int64_t)1 << (b - 1))) >> (b - 1) ); - res.m64_u32[1] = (res64 > (int64_t)0xffffffff ) ? 0xffffffff : res64; - } - return res; -} - -//***** Vector narrowing saturating shift right by constant ****** -//***************************************************************** -int8x8_t vqshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VQSHRN.S16 d0,q0,#8 -_NEON2SSE_INLINE int8x8_t vqshrn_n_s16(int16x8_t a, __constrange(1,8) int b) // VQSHRN.S16 d0,q0,#8 -{ - int8x8_t res64; - __m128i r16; - r16 = vshrq_n_s16(a,b); - r16 = _mm_packs_epi16 (r16,r16); //saturate and narrow, use low 64 bits only - return64(r16); -} - -int16x4_t vqshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VQSHRN.S32 d0,q0,#16 -_NEON2SSE_INLINE int16x4_t vqshrn_n_s32(int32x4_t a, __constrange(1,16) int b) // VQSHRN.S32 d0,q0,#16 -{ - int16x4_t res64; - __m128i r32; - r32 = vshrq_n_s32(a,b); - r32 = _mm_packs_epi32 (r32,r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -int32x2_t vqshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VQSHRN.S64 d0,q0,#32 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqshrn_n_s64(int64x2_t a, __constrange(1,32) int b), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - //no optimal SIMD solution found - _NEON2SSE_ALIGN_16 int64_t res64[2], atmp[2]; - int32x2_t res; - _mm_store_si128((__m128i*)atmp, a); - res64[0] = (atmp[0] >> b); - res64[1] = (atmp[1] >> b); - if(res64[0]>SINT_MAX) res64[0] = SINT_MAX; - if(res64[0]<SINT_MIN) res64[0] = SINT_MIN; - if(res64[1]>SINT_MAX) res64[1] = SINT_MAX; - if(res64[1]<SINT_MIN) res64[1] = SINT_MIN; - res.m64_i32[0] = (int32_t)res64[0]; - res.m64_i32[1] = (int32_t)res64[1]; - return res; -} - -uint8x8_t vqshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VQSHRN.s16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vqshrn_n_u16(uint16x8_t a, __constrange(1,8) int b) // VQSHRN.s16 d0,q0,#8 -{ - uint8x8_t res64; - __m128i r16; - r16 = vshrq_n_u16(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _mm_packus_epi16 (signed 16 to unsigned 8) - r16 = _mm_packus_epi16 (r16,r16); //saturate and narrow, use low 64 bits only - return64(r16); -} - -uint16x4_t vqshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VQSHRN.U32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vqshrn_n_u32(uint32x4_t a, __constrange(1,16) int b) // VQSHRN.U32 d0,q0,#16 -{ - uint16x4_t res64; - __m128i r32; - r32 = vshrq_n_u32(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _MM_PACKUS_EPI32 (signed 32 to unsigned 8) - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -uint32x2_t vqshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VQSHRN.U64 d0,q0,#32 -_NEON2SSE_INLINE uint32x2_t vqshrn_n_u64(uint64x2_t a, __constrange(1,32) int b) -{ - //serial solution may be faster - uint32x2_t res64; - __m128i r64, res_hi, zero; - zero = _mm_setzero_si128(); - r64 = vshrq_n_u64(a,b); - res_hi = _mm_srli_epi64(r64, 32); - res_hi = _mm_cmpgt_epi32(res_hi, zero); - r64 = _mm_or_si128(r64, res_hi); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - - -//********* Vector rounding narrowing shift right by constant ************************* -//**************************************************************************************** -int8x8_t vrshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VRSHRN.I16 d0,q0,#8 -_NEON2SSE_INLINE int8x8_t vrshrn_n_s16(int16x8_t a, __constrange(1,8) int b) // VRSHRN.I16 d0,q0,#8 -{ - int8x8_t res64; - __m128i r16; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - r16 = vrshrq_n_s16(a,b); - r16 = _mm_shuffle_epi8 (r16, *(__m128i*) mask8_16_even_odd); //narrow, use low 64 bits only. Impossible to use _mm_packs because of negative saturation problems - return64(r16); -} - -int16x4_t vrshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VRSHRN.I32 d0,q0,#16 -_NEON2SSE_INLINE int16x4_t vrshrn_n_s32(int32x4_t a, __constrange(1,16) int b) // VRSHRN.I32 d0,q0,#16 -{ - int16x4_t res64; - __m128i r32; - _NEON2SSE_ALIGN_16 int8_t mask16_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - r32 = vrshrq_n_s32(a,b); - r32 = _mm_shuffle_epi8 (r32, *(__m128i*) mask16_odd); //narrow, use low 64 bits only. Impossible to use _mm_packs because of negative saturation problems - return64(r32); -} - -int32x2_t vrshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VRSHRN.I64 d0,q0,#32 -_NEON2SSE_INLINE int32x2_t vrshrn_n_s64(int64x2_t a, __constrange(1,32) int b) -{ - int32x2_t res64; - __m128i r64; - r64 = vrshrq_n_s64(a,b); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - -uint8x8_t vrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VRSHRN.I16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b) // VRSHRN.I16 d0,q0,#8 -{ - uint8x8_t res64; - __m128i mask, r16; - mask = _mm_set1_epi16(0xff); - r16 = vrshrq_n_s16(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _mm_packus_epi16 (signed 16 to unsigned 8) - r16 = _mm_and_si128(r16, mask); //to avoid saturation - r16 = _mm_packus_epi16 (r16,r16); //saturate and narrow, use low 64 bits only - return64(r16); -} - -uint16x4_t vrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VRSHRN.I32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b) // VRSHRN.I32 d0,q0,#16 -{ - uint16x4_t res64; - __m128i mask, r32; - mask = _mm_set1_epi32(0xffff); - r32 = vrshrq_n_u32(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _MM_PACKUS_EPI32 (signed 32 to unsigned 8) - r32 = _mm_and_si128(r32, mask); //to avoid saturation - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -uint32x2_t vrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VRSHRN.I64 d0,q0,#32 -_NEON2SSE_INLINE uint32x2_t vrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b) //serial solution may be faster -{ - uint32x2_t res64; - __m128i r64; - r64 = vrshrq_n_u64(a,b); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - -//************* Vector rounding narrowing saturating shift right by constant ************ -//**************************************************************************************** -int8x8_t vqrshrn_n_s16(int16x8_t a, __constrange(1,8) int b); // VQRSHRN.S16 d0,q0,#8 -_NEON2SSE_INLINE int8x8_t vqrshrn_n_s16(int16x8_t a, __constrange(1,8) int b) // VQRSHRN.S16 d0,q0,#8 -{ - int8x8_t res64; - __m128i r16; - r16 = vrshrq_n_s16(a,b); - r16 = _mm_packs_epi16 (r16,r16); //saturate and narrow, use low 64 bits only - return64(r16); -} - -int16x4_t vqrshrn_n_s32(int32x4_t a, __constrange(1,16) int b); // VQRSHRN.S32 d0,q0,#16 -_NEON2SSE_INLINE int16x4_t vqrshrn_n_s32(int32x4_t a, __constrange(1,16) int b) // VQRSHRN.S32 d0,q0,#16 -{ - int16x4_t res64; - __m128i r32; - r32 = vrshrq_n_s32(a,b); - r32 = _mm_packs_epi32 (r32,r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -int32x2_t vqrshrn_n_s64(int64x2_t a, __constrange(1,32) int b); // VQRSHRN.S64 d0,q0,#32 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqrshrn_n_s64(int64x2_t a, __constrange(1,32) int b), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - //no optimal SIMD solution found - _NEON2SSE_ALIGN_16 int64_t res64[2], atmp[2], maskb[2]; - int32x2_t res; - _mm_store_si128((__m128i*)atmp, a); - maskb[0] = atmp[0] & (( int64_t)1 << (b - 1)); - res64[0] = (atmp[0] >> b) + (maskb[0] >> (b - 1)); //rounded result - maskb[1] = atmp[1] & (( int64_t)1 << (b - 1)); - res64[1] = (atmp[1] >> b) + (maskb[1] >> (b - 1)); //rounded result - if(res64[0]>SINT_MAX) res64[0] = SINT_MAX; - if(res64[0]<SINT_MIN) res64[0] = SINT_MIN; - if(res64[1]>SINT_MAX) res64[1] = SINT_MAX; - if(res64[1]<SINT_MIN) res64[1] = SINT_MIN; - res.m64_i32[0] = (int32_t)res64[0]; - res.m64_i32[1] = (int32_t)res64[1]; - return res; -} - -uint8x8_t vqrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b); // VQRSHRN.s16 d0,q0,#8 -_NEON2SSE_INLINE uint8x8_t vqrshrn_n_u16(uint16x8_t a, __constrange(1,8) int b) // VQRSHRN.s16 d0,q0,#8 -{ - uint8x8_t res64; - __m128i r16; - r16 = vrshrq_n_u16(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _mm_packus_epi16 (signed 16 to unsigned 8) - r16 = _mm_packus_epi16 (r16,r16); //saturate and narrow, use low 64 bits only - return64(r16); -} - -uint16x4_t vqrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b); // VQRSHRN.U32 d0,q0,#16 -_NEON2SSE_INLINE uint16x4_t vqrshrn_n_u32(uint32x4_t a, __constrange(1,16) int b) // VQRSHRN.U32 d0,q0,#16 -{ - uint16x4_t res64; - __m128i r32; - r32 = vrshrq_n_u32(a,b); //after right shift b>=1 unsigned var fits into signed range, so we could use _MM_PACKUS_EPI32 (signed 32 to unsigned 8) - r32 = _MM_PACKUS1_EPI32 (r32); //saturate and narrow, use low 64 bits only - return64(r32); -} - -uint32x2_t vqrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b); // VQRSHRN.U64 d0,q0,#32 -_NEON2SSE_INLINE uint32x2_t vqrshrn_n_u64(uint64x2_t a, __constrange(1,32) int b) -{ - //serial solution may be faster - uint32x2_t res64; - __m128i r64, res_hi, zero; - zero = _mm_setzero_si128(); - r64 = vrshrq_n_u64(a,b); - res_hi = _mm_srli_epi64(r64, 32); - res_hi = _mm_cmpgt_epi32(res_hi, zero); - r64 = _mm_or_si128(r64, res_hi); - r64 = _mm_shuffle_epi32(r64, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(r64); -} - -//************** Vector widening shift left by constant **************** -//************************************************************************ -int16x8_t vshll_n_s8(int8x8_t a, __constrange(0,8) int b); // VSHLL.S8 q0,d0,#0 -_NEON2SSE_INLINE int16x8_t vshll_n_s8(int8x8_t a, __constrange(0,8) int b) // VSHLL.S8 q0,d0,#0 -{ - __m128i r; - r = _MM_CVTEPI8_EPI16 (_pM128i(a)); //SSE 4.1 - return _mm_slli_epi16 (r, b); -} - -int32x4_t vshll_n_s16(int16x4_t a, __constrange(0,16) int b); // VSHLL.S16 q0,d0,#0 -_NEON2SSE_INLINE int32x4_t vshll_n_s16(int16x4_t a, __constrange(0,16) int b) // VSHLL.S16 q0,d0,#0 -{ - __m128i r; - r = _MM_CVTEPI16_EPI32(_pM128i(a)); //SSE4.1, - return _mm_slli_epi32 (r, b); -} - -int64x2_t vshll_n_s32(int32x2_t a, __constrange(0,32) int b); // VSHLL.S32 q0,d0,#0 -_NEON2SSE_INLINE int64x2_t vshll_n_s32(int32x2_t a, __constrange(0,32) int b) // VSHLL.S32 q0,d0,#0 -{ - __m128i r; - r = _MM_CVTEPI32_EPI64(_pM128i(a)); //SSE4.1, - return _mm_slli_epi64 (r, b); -} - -uint16x8_t vshll_n_u8(uint8x8_t a, __constrange(0,8) int b); // VSHLL.U8 q0,d0,#0 -_NEON2SSE_INLINE uint16x8_t vshll_n_u8(uint8x8_t a, __constrange(0,8) int b) // VSHLL.U8 q0,d0,#0 -{ - //no uint8 to uint16 conversion available, manual conversion used - __m128i zero, r; - zero = _mm_setzero_si128 (); - r = _mm_unpacklo_epi8(_pM128i(a), zero); - return _mm_slli_epi16 (r, b); -} - -uint32x4_t vshll_n_u16(uint16x4_t a, __constrange(0,16) int b); // VSHLL.s16 q0,d0,#0 -_NEON2SSE_INLINE uint32x4_t vshll_n_u16(uint16x4_t a, __constrange(0,16) int b) // VSHLL.s16 q0,d0,#0 -{ - //no uint16 to uint32 conversion available, manual conversion used - __m128i zero, r; - zero = _mm_setzero_si128 (); - r = _mm_unpacklo_epi16(_pM128i(a), zero); - return _mm_slli_epi32 (r, b); -} - -uint64x2_t vshll_n_u32(uint32x2_t a, __constrange(0,32) int b); // VSHLL.U32 q0,d0,#0 -_NEON2SSE_INLINE uint64x2_t vshll_n_u32(uint32x2_t a, __constrange(0,32) int b) // VSHLL.U32 q0,d0,#0 -{ - //no uint32 to uint64 conversion available, manual conversion used - __m128i zero, r; - zero = _mm_setzero_si128 (); - r = _mm_unpacklo_epi32(_pM128i(a), zero); - return _mm_slli_epi64 (r, b); -} - -//************************************************************************************ -//**************************** Shifts with insert ************************************ -//************************************************************************************ -//takes each element in a vector, shifts them by an immediate value, -//and inserts the results in the destination vector. Bits shifted out of the each element are lost. - -//**************** Vector shift right and insert ************************************ -//Actually the "c" left bits from "a" are the only bits remained from "a" after the shift. -//All other bits are taken from b shifted. -int8x8_t vsri_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -_NEON2SSE_INLINE int8x8_t vsri_n_s8(int8x8_t a, int8x8_t b, __constrange(1,8) int c) -{ - int8x8_t res64; - return64(vsriq_n_s8(_pM128i(a),_pM128i(b), c)); -} - - -int16x4_t vsri_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -_NEON2SSE_INLINE int16x4_t vsri_n_s16(int16x4_t a, int16x4_t b, __constrange(1,16) int c) -{ - int16x4_t res64; - return64(vsriq_n_s16(_pM128i(a),_pM128i(b), c)); -} - - -int32x2_t vsri_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c); // VSRI.32 d0,d0,#32 -_NEON2SSE_INLINE int32x2_t vsri_n_s32(int32x2_t a, int32x2_t b, __constrange(1,32) int c) -{ - int32x2_t res64; - return64(vsriq_n_s32(_pM128i(a),_pM128i(b), c)); -} - - -int64x1_t vsri_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c); // VSRI.64 d0,d0,#64 -_NEON2SSE_INLINE int64x1_t vsri_n_s64(int64x1_t a, int64x1_t b, __constrange(1,64) int c) -{ - int64x1_t res; - if (c ==64) - res = a; - else{ - res.m64_i64[0] = (b.m64_u64[0] >> c) | ((a.m64_i64[0] >> (64 - c)) << (64 - c)); //treat b as unsigned for shift to get leading zeros - } - return res; -} - -uint8x8_t vsri_n_u8(uint8x8_t a, uint8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -#define vsri_n_u8 vsri_n_s8 - -uint16x4_t vsri_n_u16(uint16x4_t a, uint16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -#define vsri_n_u16 vsri_n_s16 - -uint32x2_t vsri_n_u32(uint32x2_t a, uint32x2_t b, __constrange(1,32) int c); // VSRI.32 d0,d0,#32 -#define vsri_n_u32 vsri_n_s32 - - -uint64x1_t vsri_n_u64(uint64x1_t a, uint64x1_t b, __constrange(1,64) int c); // VSRI.64 d0,d0,#64 -#define vsri_n_u64 vsri_n_s64 - -poly8x8_t vsri_n_p8(poly8x8_t a, poly8x8_t b, __constrange(1,8) int c); // VSRI.8 d0,d0,#8 -#define vsri_n_p8 vsri_n_u8 - -poly16x4_t vsri_n_p16(poly16x4_t a, poly16x4_t b, __constrange(1,16) int c); // VSRI.16 d0,d0,#16 -#define vsri_n_p16 vsri_n_u16 - -int8x16_t vsriq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -_NEON2SSE_INLINE int8x16_t vsriq_n_s8(int8x16_t a, int8x16_t b, __constrange(1,8) int c) // VSRI.8 q0,q0,#8 -{ - __m128i maskA, a_masked; - uint8x16_t b_shift; - _NEON2SSE_ALIGN_16 uint8_t maskLeft[9] = {0x0, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff}; //"a" bits mask, 0 bit not used - maskA = _mm_set1_epi8(maskLeft[c]); // c ones and (8-c)zeros - a_masked = _mm_and_si128 (a, maskA); - b_shift = vshrq_n_u8( b, c); // c zeros on the left in b due to logical shift - return _mm_or_si128 (a_masked, b_shift); //combine (insert b into a) -} - -int16x8_t vsriq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -_NEON2SSE_INLINE int16x8_t vsriq_n_s16(int16x8_t a, int16x8_t b, __constrange(1,16) int c) // VSRI.16 q0,q0,#16 -{ - //to cut "c" left bits from a we do shift right and then shift back left providing c right zeros in a - uint16x8_t b_shift; - uint16x8_t a_c; - b_shift = vshrq_n_u16( b, c); // c zeros on the left in b due to logical shift - a_c = vshrq_n_u16( a, (16 - c)); - a_c = _mm_slli_epi16(a_c, (16 - c)); //logical shift provides right "c" bits zeros in a - return _mm_or_si128 (a_c, b_shift); //combine (insert b into a) -} - -int32x4_t vsriq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c); // VSRI.32 q0,q0,#32 -_NEON2SSE_INLINE int32x4_t vsriq_n_s32(int32x4_t a, int32x4_t b, __constrange(1,32) int c) // VSRI.32 q0,q0,#32 -{ - //to cut "c" left bits from a we do shift right and then shift back left providing c right zeros in a - uint32x4_t b_shift; - uint32x4_t a_c; - b_shift = vshrq_n_u32( b, c); // c zeros on the left in b due to logical shift - a_c = vshrq_n_u32( a, (32 - c)); - a_c = _mm_slli_epi32(a_c, (32 - c)); //logical shift provides right "c" bits zeros in a - return _mm_or_si128 (a_c, b_shift); //combine (insert b into a) -} - -int64x2_t vsriq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c); // VSRI.64 q0,q0,#64 -_NEON2SSE_INLINE int64x2_t vsriq_n_s64(int64x2_t a, int64x2_t b, __constrange(1,64) int c) -{ - //serial solution may be faster - uint64x2_t b_shift; - uint64x2_t a_c; - b_shift = _mm_srli_epi64(b, c); // c zeros on the left in b due to logical shift - a_c = _mm_srli_epi64(a, (64 - c)); - a_c = _mm_slli_epi64(a_c, (64 - c)); //logical shift provides right "c" bits zeros in a - return _mm_or_si128 (a_c, b_shift); //combine (insert b into a) -} - -uint8x16_t vsriq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -#define vsriq_n_u8 vsriq_n_s8 - -uint16x8_t vsriq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -#define vsriq_n_u16 vsriq_n_s16 - -uint32x4_t vsriq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(1,32) int c); // VSRI.32 q0,q0,#32 -#define vsriq_n_u32 vsriq_n_s32 - -uint64x2_t vsriq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(1,64) int c); // VSRI.64 q0,q0,#64 -#define vsriq_n_u64 vsriq_n_s64 - -poly8x16_t vsriq_n_p8(poly8x16_t a, poly8x16_t b, __constrange(1,8) int c); // VSRI.8 q0,q0,#8 -#define vsriq_n_p8 vsriq_n_u8 - -poly16x8_t vsriq_n_p16(poly16x8_t a, poly16x8_t b, __constrange(1,16) int c); // VSRI.16 q0,q0,#16 -#define vsriq_n_p16 vsriq_n_u16 - -//***** Vector shift left and insert ********************************************* -//********************************************************************************* -//Actually the "c" right bits from "a" are the only bits remained from "a" after the shift. -//All other bits are taken from b shifted. Ending zeros are inserted in b in the shift proces. We need to combine "a" and "b shifted". -int8x8_t vsli_n_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -_NEON2SSE_INLINE int8x8_t vsli_n_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c) -{ - int8x8_t res64; - return64(vsliq_n_s8(_pM128i(a),_pM128i(b), c)); -} - - -int16x4_t vsli_n_s16(int16x4_t a, int16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -_NEON2SSE_INLINE int16x4_t vsli_n_s16(int16x4_t a, int16x4_t b, __constrange(0,15) int c) -{ - int16x4_t res64; - return64(vsliq_n_s16(_pM128i(a),_pM128i(b), c)); -} - - -int32x2_t vsli_n_s32(int32x2_t a, int32x2_t b, __constrange(0,31) int c); // VSLI.32 d0,d0,#0 -_NEON2SSE_INLINE int32x2_t vsli_n_s32(int32x2_t a, int32x2_t b, __constrange(0,31) int c) -{ - int32x2_t res64; - return64(vsliq_n_s32(_pM128i(a),_pM128i(b), c)); -} - -int64x1_t vsli_n_s64(int64x1_t a, int64x1_t b, __constrange(0,63) int c); // VSLI.64 d0,d0,#0 -_NEON2SSE_INLINE int64x1_t vsli_n_s64(int64x1_t a, int64x1_t b, __constrange(0,63) int c) -{ - int64x1_t res; - res.m64_i64[0] = (b.m64_i64[0] << c) | ((a.m64_u64[0] << (64 - c)) >> (64 - c)); //need to treat a as unsigned to get leading zeros - return res; -} - - -uint8x8_t vsli_n_u8(uint8x8_t a, uint8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -#define vsli_n_u8 vsli_n_s8 - -uint16x4_t vsli_n_u16(uint16x4_t a, uint16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -#define vsli_n_u16 vsli_n_s16 - -uint32x2_t vsli_n_u32(uint32x2_t a, uint32x2_t b, __constrange(0,31) int c); // VSLI.32 d0,d0,#0 -#define vsli_n_u32 vsli_n_s32 - -uint64x1_t vsli_n_u64(uint64x1_t a, uint64x1_t b, __constrange(0,63) int c); // VSLI.64 d0,d0,#0 -#define vsli_n_u64 vsli_n_s64 - -poly8x8_t vsli_n_p8(poly8x8_t a, poly8x8_t b, __constrange(0,7) int c); // VSLI.8 d0,d0,#0 -#define vsli_n_p8 vsli_n_u8 - -poly16x4_t vsli_n_p16(poly16x4_t a, poly16x4_t b, __constrange(0,15) int c); // VSLI.16 d0,d0,#0 -#define vsli_n_p16 vsli_n_u16 - -int8x16_t vsliq_n_s8(int8x16_t a, int8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -_NEON2SSE_INLINE int8x16_t vsliq_n_s8(int8x16_t a, int8x16_t b, __constrange(0,7) int c) // VSLI.8 q0,q0,#0 -{ - __m128i maskA, a_masked; - int8x16_t b_shift; - _NEON2SSE_ALIGN_16 uint8_t maskRight[8] = {0x0, 0x1, 0x3, 0x7, 0x0f, 0x1f, 0x3f, 0x7f}; //"a" bits mask - maskA = _mm_set1_epi8(maskRight[c]); // (8-c)zeros and c ones - b_shift = vshlq_n_s8( b, c); - a_masked = _mm_and_si128 (a, maskA); - return _mm_or_si128 (b_shift, a_masked); //combine (insert b into a) -} - -int16x8_t vsliq_n_s16(int16x8_t a, int16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -_NEON2SSE_INLINE int16x8_t vsliq_n_s16(int16x8_t a, int16x8_t b, __constrange(0,15) int c) // VSLI.16 q0,q0,#0 -{ - //to cut "c" right bits from a we do shift left and then logical shift back right providing (16-c)zeros in a - int16x8_t b_shift; - int16x8_t a_c; - b_shift = vshlq_n_s16( b, c); - a_c = vshlq_n_s16( a, (16 - c)); - a_c = _mm_srli_epi16(a_c, (16 - c)); - return _mm_or_si128 (b_shift, a_c); //combine (insert b into a) -} - -int32x4_t vsliq_n_s32(int32x4_t a, int32x4_t b, __constrange(0,31) int c); // VSLI.32 q0,q0,#0 -_NEON2SSE_INLINE int32x4_t vsliq_n_s32(int32x4_t a, int32x4_t b, __constrange(0,31) int c) // VSLI.32 q0,q0,#0 -{ - //solution may be not optimal compared with the serial one - //to cut "c" right bits from a we do shift left and then logical shift back right providing (32-c)zeros in a - int32x4_t b_shift; - int32x4_t a_c; - b_shift = vshlq_n_s32( b, c); - a_c = vshlq_n_s32( a, (32 - c)); - a_c = _mm_srli_epi32(a_c, (32 - c)); - return _mm_or_si128 (b_shift, a_c); //combine (insert b into a) -} - -int64x2_t vsliq_n_s64(int64x2_t a, int64x2_t b, __constrange(0,63) int c); // VSLI.64 q0,q0,#0 -_NEON2SSE_INLINE int64x2_t vsliq_n_s64(int64x2_t a, int64x2_t b, __constrange(0,63) int c) // VSLI.64 q0,q0,#0 -{ - //solution may be not optimal compared with the serial one - //to cut "c" right bits from a we do shift left and then logical shift back right providing (64-c)zeros in a - int64x2_t b_shift; - int64x2_t a_c; - b_shift = vshlq_n_s64( b, c); - a_c = vshlq_n_s64( a, (64 - c)); - a_c = _mm_srli_epi64(a_c, (64 - c)); - return _mm_or_si128 (b_shift, a_c); //combine (insert b into a) -} - -uint8x16_t vsliq_n_u8(uint8x16_t a, uint8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -#define vsliq_n_u8 vsliq_n_s8 - -uint16x8_t vsliq_n_u16(uint16x8_t a, uint16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -#define vsliq_n_u16 vsliq_n_s16 - -uint32x4_t vsliq_n_u32(uint32x4_t a, uint32x4_t b, __constrange(0,31) int c); // VSLI.32 q0,q0,#0 -#define vsliq_n_u32 vsliq_n_s32 - -uint64x2_t vsliq_n_u64(uint64x2_t a, uint64x2_t b, __constrange(0,63) int c); // VSLI.64 q0,q0,#0 -#define vsliq_n_u64 vsliq_n_s64 - -poly8x16_t vsliq_n_p8(poly8x16_t a, poly8x16_t b, __constrange(0,7) int c); // VSLI.8 q0,q0,#0 -#define vsliq_n_p8 vsliq_n_u8 - -poly16x8_t vsliq_n_p16(poly16x8_t a, poly16x8_t b, __constrange(0,15) int c); // VSLI.16 q0,q0,#0 -#define vsliq_n_p16 vsliq_n_u16 - -// *********************************************************************************************** -// ****************** Loads and stores of a single vector *************************************** -// *********************************************************************************************** -//Performs loads and stores of a single vector of some type. -//******************************* Loads ******************************************************** -// *********************************************************************************************** -//We assume ptr is NOT aligned in general case and use __m128i _mm_loadu_si128 ((__m128i*) ptr);. -//also for SSE3 supporting systems the __m128i _mm_lddqu_si128 (__m128i const* p) usage for unaligned access may be advantageous. -// it loads a 32-byte block aligned on a 16-byte boundary and extracts the 16 bytes corresponding to the unaligned access -//If the ptr is aligned then could use __m128i _mm_load_si128 ((__m128i*) ptr) instead; -#define LOAD_SI128(ptr) \ - ( ((unsigned long)(ptr) & 15) == 0 ) ? _mm_load_si128((__m128i*)(ptr)) : _mm_loadu_si128((__m128i*)(ptr)); - -uint8x16_t vld1q_u8(__transfersize(16) uint8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -#define vld1q_u8 LOAD_SI128 - -uint16x8_t vld1q_u16(__transfersize(8) uint16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -#define vld1q_u16 LOAD_SI128 - -uint32x4_t vld1q_u32(__transfersize(4) uint32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -#define vld1q_u32 LOAD_SI128 - -uint64x2_t vld1q_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -#define vld1q_u64 LOAD_SI128 - -int8x16_t vld1q_s8(__transfersize(16) int8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -#define vld1q_s8 LOAD_SI128 - -int16x8_t vld1q_s16(__transfersize(8) int16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -#define vld1q_s16 LOAD_SI128 - -int32x4_t vld1q_s32(__transfersize(4) int32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -#define vld1q_s32 LOAD_SI128 - -int64x2_t vld1q_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -#define vld1q_s64 LOAD_SI128 - -float16x8_t vld1q_f16(__transfersize(8) __fp16 const * ptr); // VLD1.16 {d0, d1}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers -/* _NEON2SSE_INLINE float16x8_t vld1q_f16(__transfersize(8) __fp16 const * ptr)// VLD1.16 {d0, d1}, [r0] -{__m128 f1 = _mm_set_ps (ptr[3], ptr[2], ptr[1], ptr[0]); -__m128 f2; -f2 = _mm_set_ps (ptr[7], ptr[6], ptr[5], ptr[4]); -}*/ - -float32x4_t vld1q_f32(__transfersize(4) float32_t const * ptr); // VLD1.32 {d0, d1}, [r0] -_NEON2SSE_INLINE float32x4_t vld1q_f32(__transfersize(4) float32_t const * ptr) -{ - if( (((unsigned long)(ptr)) & 15 ) == 0 ) //16 bits aligned - return _mm_load_ps(ptr); - else - return _mm_loadu_ps(ptr); -} - -poly8x16_t vld1q_p8(__transfersize(16) poly8_t const * ptr); // VLD1.8 {d0, d1}, [r0] -#define vld1q_p8 LOAD_SI128 - -poly16x8_t vld1q_p16(__transfersize(8) poly16_t const * ptr); // VLD1.16 {d0, d1}, [r0] -#define vld1q_p16 LOAD_SI128 - -uint8x8_t vld1_u8(__transfersize(8) uint8_t const * ptr); // VLD1.8 {d0}, [r0] -#define vld1_u8(ptr) *((__m64_128*)(ptr)) //was _mm_loadl_epi64((__m128i*)(ptr)) - -uint16x4_t vld1_u16(__transfersize(4) uint16_t const * ptr); // VLD1.16 {d0}, [r0] -#define vld1_u16 vld1_u8 - -uint32x2_t vld1_u32(__transfersize(2) uint32_t const * ptr); // VLD1.32 {d0}, [r0] -#define vld1_u32 vld1_u8 - - -uint64x1_t vld1_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -#define vld1_u64 vld1_u8 - -int8x8_t vld1_s8(__transfersize(8) int8_t const * ptr); // VLD1.8 {d0}, [r0] -#define vld1_s8 vld1_u8 - -int16x4_t vld1_s16(__transfersize(4) int16_t const * ptr); // VLD1.16 {d0}, [r0] -#define vld1_s16 vld1_u16 - -int32x2_t vld1_s32(__transfersize(2) int32_t const * ptr); // VLD1.32 {d0}, [r0] -#define vld1_s32 vld1_u32 - -int64x1_t vld1_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -#define vld1_s64 vld1_u64 - -float16x4_t vld1_f16(__transfersize(4) __fp16 const * ptr); // VLD1.16 {d0}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit like _mm_set_ps (ptr[3], ptr[2], ptr[1], ptr[0]); - -float32x2_t vld1_f32(__transfersize(2) float32_t const * ptr); // VLD1.32 {d0}, [r0] -_NEON2SSE_INLINE float32x2_t vld1_f32(__transfersize(2) float32_t const * ptr) -{ - float32x2_t res; - res.m64_f32[0] = *(ptr); - res.m64_f32[1] = *(ptr + 1); - return res; -} - -poly8x8_t vld1_p8(__transfersize(8) poly8_t const * ptr); // VLD1.8 {d0}, [r0] -#define vld1_p8 vld1_u8 - -poly16x4_t vld1_p16(__transfersize(4) poly16_t const * ptr); // VLD1.16 {d0}, [r0] -#define vld1_p16 vld1_u16 - -//*********************************************************************************************************** -//******* Lane load functions - insert the data at vector's given position (lane) ************************* -//*********************************************************************************************************** -uint8x16_t vld1q_lane_u8(__transfersize(1) uint8_t const * ptr, uint8x16_t vec, __constrange(0,15) int lane); // VLD1.8 {d0[0]}, [r0] -#define vld1q_lane_u8(ptr, vec, lane) _MM_INSERT_EPI8(vec, *(ptr), lane) - -uint16x8_t vld1q_lane_u16(__transfersize(1) uint16_t const * ptr, uint16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -#define vld1q_lane_u16(ptr, vec, lane) _MM_INSERT_EPI16(vec, *(ptr), lane) - -uint32x4_t vld1q_lane_u32(__transfersize(1) uint32_t const * ptr, uint32x4_t vec, __constrange(0,3) int lane); // VLD1.32 {d0[0]}, [r0] -#define vld1q_lane_u32(ptr, vec, lane) _MM_INSERT_EPI32(vec, *(ptr), lane) - -uint64x2_t vld1q_lane_u64(__transfersize(1) uint64_t const * ptr, uint64x2_t vec, __constrange(0,1) int lane); // VLD1.64 {d0}, [r0] -#define vld1q_lane_u64(ptr, vec, lane) _MM_INSERT_EPI64(vec, *(ptr), lane); // _p; - - -int8x16_t vld1q_lane_s8(__transfersize(1) int8_t const * ptr, int8x16_t vec, __constrange(0,15) int lane); // VLD1.8 {d0[0]}, [r0] -#define vld1q_lane_s8(ptr, vec, lane) _MM_INSERT_EPI8(vec, *(ptr), lane) - -int16x8_t vld1q_lane_s16(__transfersize(1) int16_t const * ptr, int16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -#define vld1q_lane_s16(ptr, vec, lane) _MM_INSERT_EPI16(vec, *(ptr), lane) - -int32x4_t vld1q_lane_s32(__transfersize(1) int32_t const * ptr, int32x4_t vec, __constrange(0,3) int lane); // VLD1.32 {d0[0]}, [r0] -#define vld1q_lane_s32(ptr, vec, lane) _MM_INSERT_EPI32(vec, *(ptr), lane) - -float16x8_t vld1q_lane_f16(__transfersize(1) __fp16 const * ptr, float16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -//current IA SIMD doesn't support float16 - -float32x4_t vld1q_lane_f32(__transfersize(1) float32_t const * ptr, float32x4_t vec, __constrange(0,3) int lane); // VLD1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE float32x4_t vld1q_lane_f32(__transfersize(1) float32_t const * ptr, float32x4_t vec, __constrange(0,3) int lane) -{ - //we need to deal with ptr 16bit NOT aligned case - __m128 p; - p = _mm_set1_ps(*(ptr)); - return _MM_INSERT_PS(vec, p, _INSERTPS_NDX(0, lane)); -} - -int64x2_t vld1q_lane_s64(__transfersize(1) int64_t const * ptr, int64x2_t vec, __constrange(0,1) int lane); // VLD1.64 {d0}, [r0] -#define vld1q_lane_s64(ptr, vec, lane) _MM_INSERT_EPI64(vec, *(ptr), lane) - -poly8x16_t vld1q_lane_p8(__transfersize(1) poly8_t const * ptr, poly8x16_t vec, __constrange(0,15) int lane); // VLD1.8 {d0[0]}, [r0] -#define vld1q_lane_p8(ptr, vec, lane) _MM_INSERT_EPI8(vec, *(ptr), lane) - -poly16x8_t vld1q_lane_p16(__transfersize(1) poly16_t const * ptr, poly16x8_t vec, __constrange(0,7) int lane); // VLD1.16 {d0[0]}, [r0] -#define vld1q_lane_p16(ptr, vec, lane) _MM_INSERT_EPI16(vec, *(ptr), lane) - -uint8x8_t vld1_lane_u8(__transfersize(1) uint8_t const * ptr, uint8x8_t vec, __constrange(0,7) int lane); // VLD1.8 {d0[0]}, [r0] -_NEON2SSE_INLINE uint8x8_t vld1_lane_u8(__transfersize(1) uint8_t const * ptr, uint8x8_t vec, __constrange(0,7) int lane) -{ - uint8x8_t res; - res = vec; - res.m64_u8[lane] = *(ptr); - return res; -} - -uint16x4_t vld1_lane_u16(__transfersize(1) uint16_t const * ptr, uint16x4_t vec, __constrange(0,3) int lane); // VLD1.16 {d0[0]}, [r0] -_NEON2SSE_INLINE uint16x4_t vld1_lane_u16(__transfersize(1) uint16_t const * ptr, uint16x4_t vec, __constrange(0,3) int lane) -{ - uint16x4_t res; - res = vec; - res.m64_u16[lane] = *(ptr); - return res; -} - -uint32x2_t vld1_lane_u32(__transfersize(1) uint32_t const * ptr, uint32x2_t vec, __constrange(0,1) int lane); // VLD1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE uint32x2_t vld1_lane_u32(__transfersize(1) uint32_t const * ptr, uint32x2_t vec, __constrange(0,1) int lane) -{ - uint32x2_t res; - res = vec; - res.m64_u32[lane] = *(ptr); - return res; -} - -uint64x1_t vld1_lane_u64(__transfersize(1) uint64_t const * ptr, uint64x1_t vec, __constrange(0,0) int lane); // VLD1.64 {d0}, [r0] -_NEON2SSE_INLINE uint64x1_t vld1_lane_u64(__transfersize(1) uint64_t const * ptr, uint64x1_t vec, __constrange(0,0) int lane) -{ - uint64x1_t res; - res.m64_u64[0] = *(ptr); - return res; -} - - -int8x8_t vld1_lane_s8(__transfersize(1) int8_t const * ptr, int8x8_t vec, __constrange(0,7) int lane); // VLD1.8 {d0[0]}, [r0] -#define vld1_lane_s8(ptr, vec, lane) vld1_lane_u8((uint8_t*)ptr, vec, lane) - -int16x4_t vld1_lane_s16(__transfersize(1) int16_t const * ptr, int16x4_t vec, __constrange(0,3) int lane); // VLD1.16 {d0[0]}, [r0] -#define vld1_lane_s16(ptr, vec, lane) vld1_lane_u16((uint16_t*)ptr, vec, lane) - -int32x2_t vld1_lane_s32(__transfersize(1) int32_t const * ptr, int32x2_t vec, __constrange(0,1) int lane); // VLD1.32 {d0[0]}, [r0] -#define vld1_lane_s32(ptr, vec, lane) vld1_lane_u32((uint32_t*)ptr, vec, lane) - -float16x4_t vld1_lane_f16(__transfersize(1) __fp16 const * ptr, float16x4_t vec, __constrange(0,3) int lane); // VLD1.16 {d0[0]}, [r0] -//current IA SIMD doesn't support float16 - -float32x2_t vld1_lane_f32(__transfersize(1) float32_t const * ptr, float32x2_t vec, __constrange(0,1) int lane); // VLD1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE float32x2_t vld1_lane_f32(__transfersize(1) float32_t const * ptr, float32x2_t vec, __constrange(0,1) int lane) -{ - float32x2_t res; - res = vec; - res.m64_f32[lane] = *(ptr); - return res; -} - -int64x1_t vld1_lane_s64(__transfersize(1) int64_t const * ptr, int64x1_t vec, __constrange(0,0) int lane); // VLD1.64 {d0}, [r0] -#define vld1_lane_s64(ptr, vec, lane) vld1_lane_u64((uint64_t*)ptr, vec, lane) - -poly8x8_t vld1_lane_p8(__transfersize(1) poly8_t const * ptr, poly8x8_t vec, __constrange(0,7) int lane); // VLD1.8 {d0[0]}, [r0] -#define vld1_lane_p8 vld1_lane_u8 - -poly16x4_t vld1_lane_p16(__transfersize(1) poly16_t const * ptr, poly16x4_t vec, __constrange(0,3) int lane); // VLD1.16 {d0[0]}, [r0] -#define vld1_lane_p16 vld1_lane_s16 - -// ****************** Load single value ( set all lanes of vector with same value from memory)********************** -// ****************************************************************************************************************** -uint8x16_t vld1q_dup_u8(__transfersize(1) uint8_t const * ptr); // VLD1.8 {d0[]}, [r0] -#define vld1q_dup_u8(ptr) _mm_set1_epi8(*(ptr)) - -uint16x8_t vld1q_dup_u16(__transfersize(1) uint16_t const * ptr); // VLD1.16 {d0[]}, [r0] -#define vld1q_dup_u16(ptr) _mm_set1_epi16(*(ptr)) - -uint32x4_t vld1q_dup_u32(__transfersize(1) uint32_t const * ptr); // VLD1.32 {d0[]}, [r0] -#define vld1q_dup_u32(ptr) _mm_set1_epi32(*(ptr)) - -uint64x2_t vld1q_dup_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -_NEON2SSE_INLINE uint64x2_t vld1q_dup_u64(__transfersize(1) uint64_t const * ptr) -{ - _NEON2SSE_ALIGN_16 uint64_t val[2] = {*(ptr), *(ptr)}; - return LOAD_SI128(val); -} - -int8x16_t vld1q_dup_s8(__transfersize(1) int8_t const * ptr); // VLD1.8 {d0[]}, [r0] -#define vld1q_dup_s8(ptr) _mm_set1_epi8(*(ptr)) - -int16x8_t vld1q_dup_s16(__transfersize(1) int16_t const * ptr); // VLD1.16 {d0[]}, [r0] -#define vld1q_dup_s16(ptr) _mm_set1_epi16 (*(ptr)) - -int32x4_t vld1q_dup_s32(__transfersize(1) int32_t const * ptr); // VLD1.32 {d0[]}, [r0] -#define vld1q_dup_s32(ptr) _mm_set1_epi32 (*(ptr)) - -int64x2_t vld1q_dup_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -#define vld1q_dup_s64(ptr) vld1q_dup_u64((uint64_t*)ptr) - -float16x8_t vld1q_dup_f16(__transfersize(1) __fp16 const * ptr); // VLD1.16 {d0[]}, [r0] -//current IA SIMD doesn't support float16, need to go to 32 bits - -float32x4_t vld1q_dup_f32(__transfersize(1) float32_t const * ptr); // VLD1.32 {d0[]}, [r0] -#define vld1q_dup_f32(ptr) _mm_set1_ps (*(ptr)) - -poly8x16_t vld1q_dup_p8(__transfersize(1) poly8_t const * ptr); // VLD1.8 {d0[]}, [r0] -#define vld1q_dup_p8(ptr) _mm_set1_epi8(*(ptr)) - -poly16x8_t vld1q_dup_p16(__transfersize(1) poly16_t const * ptr); // VLD1.16 {d0[]}, [r0] -#define vld1q_dup_p16(ptr) _mm_set1_epi16 (*(ptr)) - -uint8x8_t vld1_dup_u8(__transfersize(1) uint8_t const * ptr); // VLD1.8 {d0[]}, [r0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vld1_dup_u8(__transfersize(1) uint8_t const * ptr), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint8x8_t res; - int i; - for(i = 0; i<8; i++) { - res.m64_u8[i] = *(ptr); - } - return res; -} - -uint16x4_t vld1_dup_u16(__transfersize(1) uint16_t const * ptr); // VLD1.16 {d0[]}, [r0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vld1_dup_u16(__transfersize(1) uint16_t const * ptr), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint16x4_t res; - int i; - for(i = 0; i<4; i++) { - res.m64_u16[i] = *(ptr); - } - return res; -} - -uint32x2_t vld1_dup_u32(__transfersize(1) uint32_t const * ptr); // VLD1.32 {d0[]}, [r0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vld1_dup_u32(__transfersize(1) uint32_t const * ptr), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint32x2_t res; - res.m64_u32[0] = *(ptr); - res.m64_u32[1] = *(ptr); - return res; -} - -uint64x1_t vld1_dup_u64(__transfersize(1) uint64_t const * ptr); // VLD1.64 {d0}, [r0] -_NEON2SSE_INLINE uint64x1_t vld1_dup_u64(__transfersize(1) uint64_t const * ptr) -{ - uint64x1_t res; - res.m64_u64[0] = *(ptr); - return res; -} - -int8x8_t vld1_dup_s8(__transfersize(1) int8_t const * ptr); // VLD1.8 {d0[]}, [r0] -#define vld1_dup_s8(ptr) vld1_dup_u8((uint8_t*)ptr) - - -int16x4_t vld1_dup_s16(__transfersize(1) int16_t const * ptr); // VLD1.16 {d0[]}, [r0] -#define vld1_dup_s16(ptr) vld1_dup_u16((uint16_t*)ptr) - - -int32x2_t vld1_dup_s32(__transfersize(1) int32_t const * ptr); // VLD1.32 {d0[]}, [r0] -#define vld1_dup_s32(ptr) vld1_dup_u32((uint32_t*)ptr) - - -int64x1_t vld1_dup_s64(__transfersize(1) int64_t const * ptr); // VLD1.64 {d0}, [r0] -#define vld1_dup_s64(ptr) vld1_dup_u64((uint64_t*)ptr) - -float16x4_t vld1_dup_f16(__transfersize(1) __fp16 const * ptr); // VLD1.16 {d0[]}, [r0] -//current IA SIMD doesn't support float16 - -float32x2_t vld1_dup_f32(__transfersize(1) float32_t const * ptr); // VLD1.32 {d0[]}, [r0] -_NEON2SSE_INLINE float32x2_t vld1_dup_f32(__transfersize(1) float32_t const * ptr) -{ - float32x2_t res; - res.m64_f32[0] = *(ptr); - res.m64_f32[1] = res.m64_f32[0]; - return res; // use last 64bits only -} - -poly8x8_t vld1_dup_p8(__transfersize(1) poly8_t const * ptr); // VLD1.8 {d0[]}, [r0] -#define vld1_dup_p8 vld1_dup_u8 - - -poly16x4_t vld1_dup_p16(__transfersize(1) poly16_t const * ptr); // VLD1.16 {d0[]}, [r0] -#define vld1_dup_p16 vld1_dup_u16 - - -//************************************************************************************* -//********************************* Store ********************************************** -//************************************************************************************* -// If ptr is 16bit aligned and you need to store data without cache pollution then use void _mm_stream_si128 ((__m128i*)ptr, val); -//here we assume the case of NOT 16bit aligned ptr possible. If it is aligned we could to use _mm_store_si128 like shown in the following macro -#define STORE_SI128(ptr, val) \ - (((unsigned long)(ptr) & 15) == 0 ) ? _mm_store_si128 ((__m128i*)(ptr), val) : _mm_storeu_si128 ((__m128i*)(ptr), val); - -void vst1q_u8(__transfersize(16) uint8_t * ptr, uint8x16_t val); // VST1.8 {d0, d1}, [r0] -#define vst1q_u8 STORE_SI128 - -void vst1q_u16(__transfersize(8) uint16_t * ptr, uint16x8_t val); // VST1.16 {d0, d1}, [r0] -#define vst1q_u16 STORE_SI128 - -void vst1q_u32(__transfersize(4) uint32_t * ptr, uint32x4_t val); // VST1.32 {d0, d1}, [r0] -#define vst1q_u32 STORE_SI128 - -void vst1q_u64(__transfersize(2) uint64_t * ptr, uint64x2_t val); // VST1.64 {d0, d1}, [r0] -#define vst1q_u64 STORE_SI128 - -void vst1q_s8(__transfersize(16) int8_t * ptr, int8x16_t val); // VST1.8 {d0, d1}, [r0] -#define vst1q_s8 STORE_SI128 - -void vst1q_s16(__transfersize(8) int16_t * ptr, int16x8_t val); // VST1.16 {d0, d1}, [r0] -#define vst1q_s16 STORE_SI128 - -void vst1q_s32(__transfersize(4) int32_t * ptr, int32x4_t val); // VST1.32 {d0, d1}, [r0] -#define vst1q_s32 STORE_SI128 - -void vst1q_s64(__transfersize(2) int64_t * ptr, int64x2_t val); // VST1.64 {d0, d1}, [r0] -#define vst1q_s64 STORE_SI128 - -void vst1q_f16(__transfersize(8) __fp16 * ptr, float16x8_t val); // VST1.16 {d0, d1}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently - -void vst1q_f32(__transfersize(4) float32_t * ptr, float32x4_t val); // VST1.32 {d0, d1}, [r0] -_NEON2SSE_INLINE void vst1q_f32(__transfersize(4) float32_t * ptr, float32x4_t val) -{ - if( ((unsigned long)(ptr) & 15) == 0 ) //16 bits aligned - _mm_store_ps (ptr, val); - else - _mm_storeu_ps (ptr, val); -} - -void vst1q_p8(__transfersize(16) poly8_t * ptr, poly8x16_t val); // VST1.8 {d0, d1}, [r0] -#define vst1q_p8 vst1q_u8 - -void vst1q_p16(__transfersize(8) poly16_t * ptr, poly16x8_t val); // VST1.16 {d0, d1}, [r0] -#define vst1q_p16 vst1q_u16 - -void vst1_u8(__transfersize(8) uint8_t * ptr, uint8x8_t val); // VST1.8 {d0}, [r0] -_NEON2SSE_INLINE void vst1_u8(__transfersize(8) uint8_t * ptr, uint8x8_t val) -{ - int i; - for (i = 0; i<8; i++) { - *(ptr + i) = ((uint8_t*)&val)[i]; - } - //_mm_storel_epi64((__m128i*)ptr, val); - return; -} - -void vst1_u16(__transfersize(4) uint16_t * ptr, uint16x4_t val); // VST1.16 {d0}, [r0] -_NEON2SSE_INLINE void vst1_u16(__transfersize(4) uint16_t * ptr, uint16x4_t val) -{ - int i; - for (i = 0; i<4; i++) { - *(ptr + i) = ((uint16_t*)&val)[i]; - } - //_mm_storel_epi64((__m128i*)ptr, val); - return; -} - -void vst1_u32(__transfersize(2) uint32_t * ptr, uint32x2_t val); // VST1.32 {d0}, [r0] -_NEON2SSE_INLINE void vst1_u32(__transfersize(2) uint32_t * ptr, uint32x2_t val) -{ - int i; - for (i = 0; i<2; i++) { - *(ptr + i) = ((uint32_t*)&val)[i]; - } - //_mm_storel_epi64((__m128i*)ptr, val); - return; -} - -void vst1_u64(__transfersize(1) uint64_t * ptr, uint64x1_t val); // VST1.64 {d0}, [r0] -_NEON2SSE_INLINE void vst1_u64(__transfersize(1) uint64_t * ptr, uint64x1_t val) -{ - *(ptr) = *((uint64_t*)&val); - //_mm_storel_epi64((__m128i*)ptr, val); - return; -} - -void vst1_s8(__transfersize(8) int8_t * ptr, int8x8_t val); // VST1.8 {d0}, [r0] -#define vst1_s8(ptr,val) vst1_u8((uint8_t*)ptr,val) - -void vst1_s16(__transfersize(4) int16_t * ptr, int16x4_t val); // VST1.16 {d0}, [r0] -#define vst1_s16(ptr,val) vst1_u16((uint16_t*)ptr,val) - -void vst1_s32(__transfersize(2) int32_t * ptr, int32x2_t val); // VST1.32 {d0}, [r0] -#define vst1_s32(ptr,val) vst1_u32((uint32_t*)ptr,val) - -void vst1_s64(__transfersize(1) int64_t * ptr, int64x1_t val); // VST1.64 {d0}, [r0] -#define vst1_s64(ptr,val) vst1_u64((uint64_t*)ptr,val) - -void vst1_f16(__transfersize(4) __fp16 * ptr, float16x4_t val); // VST1.16 {d0}, [r0] -//current IA SIMD doesn't support float16 - -void vst1_f32(__transfersize(2) float32_t * ptr, float32x2_t val); // VST1.32 {d0}, [r0] -_NEON2SSE_INLINE void vst1_f32(__transfersize(2) float32_t * ptr, float32x2_t val) -{ - *(ptr) = val.m64_f32[0]; - *(ptr + 1) = val.m64_f32[1]; - return; -} - -void vst1_p8(__transfersize(8) poly8_t * ptr, poly8x8_t val); // VST1.8 {d0}, [r0] -#define vst1_p8 vst1_u8 - -void vst1_p16(__transfersize(4) poly16_t * ptr, poly16x4_t val); // VST1.16 {d0}, [r0] -#define vst1_p16 vst1_u16 - -//***********Store a lane of a vector into memory (extract given lane) ********************* -//****************************************************************************************** -void vst1q_lane_u8(__transfersize(1) uint8_t * ptr, uint8x16_t val, __constrange(0,15) int lane); // VST1.8 {d0[0]}, [r0] -#define vst1q_lane_u8(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI8 (val, lane) - -void vst1q_lane_u16(__transfersize(1) uint16_t * ptr, uint16x8_t val, __constrange(0,7) int lane); // VST1.16 {d0[0]}, [r0] -#define vst1q_lane_u16(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI16 (val, lane) - -void vst1q_lane_u32(__transfersize(1) uint32_t * ptr, uint32x4_t val, __constrange(0,3) int lane); // VST1.32 {d0[0]}, [r0] -#define vst1q_lane_u32(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI32 (val, lane) - -void vst1q_lane_u64(__transfersize(1) uint64_t * ptr, uint64x2_t val, __constrange(0,1) int lane); // VST1.64 {d0}, [r0] -#define vst1q_lane_u64(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI64 (val, lane) - -void vst1q_lane_s8(__transfersize(1) int8_t * ptr, int8x16_t val, __constrange(0,15) int lane); // VST1.8 {d0[0]}, [r0] -#define vst1q_lane_s8(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI8 (val, lane) - -void vst1q_lane_s16(__transfersize(1) int16_t * ptr, int16x8_t val, __constrange(0,7) int lane); // VST1.16 {d0[0]}, [r0] -#define vst1q_lane_s16(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI16 (val, lane) - -void vst1q_lane_s32(__transfersize(1) int32_t * ptr, int32x4_t val, __constrange(0,3) int lane); // VST1.32 {d0[0]}, [r0] -#define vst1q_lane_s32(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI32 (val, lane) - -void vst1q_lane_s64(__transfersize(1) int64_t * ptr, int64x2_t val, __constrange(0,1) int lane); // VST1.64 {d0}, [r0] -#define vst1q_lane_s64(ptr, val, lane) *(ptr) = _MM_EXTRACT_EPI64 (val, lane) - -void vst1q_lane_f16(__transfersize(1) __fp16 * ptr, float16x8_t val, __constrange(0,7) int lane); // VST1.16 {d0[0]}, [r0] -//current IA SIMD doesn't support float16 - -void vst1q_lane_f32(__transfersize(1) float32_t * ptr, float32x4_t val, __constrange(0,3) int lane); // VST1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE void vst1q_lane_f32(__transfersize(1) float32_t * ptr, float32x4_t val, __constrange(0,3) int lane) -{ - int32_t ilane; - ilane = _MM_EXTRACT_PS(val,lane); - *(ptr) = *((float*)&ilane); -} - -void vst1q_lane_p8(__transfersize(1) poly8_t * ptr, poly8x16_t val, __constrange(0,15) int lane); // VST1.8 {d0[0]}, [r0] -#define vst1q_lane_p8 vst1q_lane_u8 - -void vst1q_lane_p16(__transfersize(1) poly16_t * ptr, poly16x8_t val, __constrange(0,7) int lane); // VST1.16 {d0[0]}, [r0] -#define vst1q_lane_p16 vst1q_lane_s16 - -void vst1_lane_u8(__transfersize(1) uint8_t * ptr, uint8x8_t val, __constrange(0,7) int lane); // VST1.8 {d0[0]}, [r0] -_NEON2SSE_INLINE void vst1_lane_u8(__transfersize(1) uint8_t * ptr, uint8x8_t val, __constrange(0,7) int lane) -{ - *(ptr) = val.m64_u8[lane]; -} - -void vst1_lane_u16(__transfersize(1) uint16_t * ptr, uint16x4_t val, __constrange(0,3) int lane); // VST1.16 {d0[0]}, [r0] -_NEON2SSE_INLINE void vst1_lane_u16(__transfersize(1) uint16_t * ptr, uint16x4_t val, __constrange(0,3) int lane) -{ - *(ptr) = val.m64_u16[lane]; -} - -void vst1_lane_u32(__transfersize(1) uint32_t * ptr, uint32x2_t val, __constrange(0,1) int lane); // VST1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE void vst1_lane_u32(__transfersize(1) uint32_t * ptr, uint32x2_t val, __constrange(0,1) int lane) -{ - *(ptr) = val.m64_u32[lane]; -} - -void vst1_lane_u64(__transfersize(1) uint64_t * ptr, uint64x1_t val, __constrange(0,0) int lane); // VST1.64 {d0}, [r0] -_NEON2SSE_INLINE void vst1_lane_u64(__transfersize(1) uint64_t * ptr, uint64x1_t val, __constrange(0,0) int lane) -{ - *(ptr) = val.m64_u64[0]; -} - -void vst1_lane_s8(__transfersize(1) int8_t * ptr, int8x8_t val, __constrange(0,7) int lane); // VST1.8 {d0[0]}, [r0] -#define vst1_lane_s8(ptr, val, lane) vst1_lane_u8((uint8_t*)ptr, val, lane) - -void vst1_lane_s16(__transfersize(1) int16_t * ptr, int16x4_t val, __constrange(0,3) int lane); // VST1.16 {d0[0]}, [r0] -#define vst1_lane_s16(ptr, val, lane) vst1_lane_u16((uint16_t*)ptr, val, lane) - -void vst1_lane_s32(__transfersize(1) int32_t * ptr, int32x2_t val, __constrange(0,1) int lane); // VST1.32 {d0[0]}, [r0] -#define vst1_lane_s32(ptr, val, lane) vst1_lane_u32((uint32_t*)ptr, val, lane) - - -void vst1_lane_s64(__transfersize(1) int64_t * ptr, int64x1_t val, __constrange(0,0) int lane); // VST1.64 {d0}, [r0] -#define vst1_lane_s64(ptr, val, lane) vst1_lane_u64((uint64_t*)ptr, val, lane) - - -void vst1_lane_f16(__transfersize(1) __fp16 * ptr, float16x4_t val, __constrange(0,3) int lane); // VST1.16 {d0[0]}, [r0] -//current IA SIMD doesn't support float16 - -void vst1_lane_f32(__transfersize(1) float32_t * ptr, float32x2_t val, __constrange(0,1) int lane); // VST1.32 {d0[0]}, [r0] -_NEON2SSE_INLINE void vst1_lane_f32(__transfersize(1) float32_t * ptr, float32x2_t val, __constrange(0,1) int lane) -{ - *(ptr) = val.m64_f32[lane]; -} - -void vst1_lane_p8(__transfersize(1) poly8_t * ptr, poly8x8_t val, __constrange(0,7) int lane); // VST1.8 {d0[0]}, [r0] -#define vst1_lane_p8 vst1_lane_u8 - -void vst1_lane_p16(__transfersize(1) poly16_t * ptr, poly16x4_t val, __constrange(0,3) int lane); // VST1.16 {d0[0]}, [r0] -#define vst1_lane_p16 vst1_lane_s16 - -//*********************************************************************************************** -//**************** Loads and stores of an N-element structure ********************************** -//*********************************************************************************************** -//These intrinsics load or store an n-element structure. The array structures are defined in the beginning -//We assume ptr is NOT aligned in general case, for more details see "Loads and stores of a single vector functions" -//****************** 2 elements load ********************************************* -uint8x16x2_t vld2q_u8(__transfersize(32) uint8_t const * ptr); // VLD2.8 {d0, d2}, [r0] -_NEON2SSE_INLINE uint8x16x2_t vld2q_u8(__transfersize(32) uint8_t const * ptr) // VLD2.8 {d0, d2}, [r0] -{ - uint8x16x2_t v; - v.val[0] = vld1q_u8(ptr); - v.val[1] = vld1q_u8((ptr + 16)); - v = vuzpq_s8(v.val[0], v.val[1]); - return v; -} - -uint16x8x2_t vld2q_u16(__transfersize(16) uint16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -_NEON2SSE_INLINE uint16x8x2_t vld2q_u16(__transfersize(16) uint16_t const * ptr) // VLD2.16 {d0, d2}, [r0] -{ - uint16x8x2_t v; - v.val[0] = vld1q_u16( ptr); - v.val[1] = vld1q_u16( (ptr + 8)); - v = vuzpq_s16(v.val[0], v.val[1]); - return v; -} - -uint32x4x2_t vld2q_u32(__transfersize(8) uint32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -_NEON2SSE_INLINE uint32x4x2_t vld2q_u32(__transfersize(8) uint32_t const * ptr) // VLD2.32 {d0, d2}, [r0] -{ - uint32x4x2_t v; - v.val[0] = vld1q_u32 ( ptr); - v.val[1] = vld1q_u32 ( (ptr + 4)); - v = vuzpq_s32(v.val[0], v.val[1]); - return v; -} - -int8x16x2_t vld2q_s8(__transfersize(32) int8_t const * ptr); -#define vld2q_s8(ptr) vld2q_u8((uint8_t*) ptr) - -int16x8x2_t vld2q_s16(__transfersize(16) int16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -#define vld2q_s16(ptr) vld2q_u16((uint16_t*) ptr) - -int32x4x2_t vld2q_s32(__transfersize(8) int32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -#define vld2q_s32(ptr) vld2q_u32((uint32_t*) ptr) - - -float16x8x2_t vld2q_f16(__transfersize(16) __fp16 const * ptr); // VLD2.16 {d0, d2}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x4x2_t vld2q_f32(__transfersize(8) float32_t const * ptr); // VLD2.32 {d0, d2}, [r0] -_NEON2SSE_INLINE float32x4x2_t vld2q_f32(__transfersize(8) float32_t const * ptr) // VLD2.32 {d0, d2}, [r0] -{ - float32x4x2_t v; - v.val[0] = vld1q_f32 (ptr); - v.val[1] = vld1q_f32 ((ptr + 4)); - v = vuzpq_f32(v.val[0], v.val[1]); - return v; -} - -poly8x16x2_t vld2q_p8(__transfersize(32) poly8_t const * ptr); // VLD2.8 {d0, d2}, [r0] -#define vld2q_p8 vld2q_u8 - -poly16x8x2_t vld2q_p16(__transfersize(16) poly16_t const * ptr); // VLD2.16 {d0, d2}, [r0] -#define vld2q_p16 vld2q_u16 - -uint8x8x2_t vld2_u8(__transfersize(16) uint8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -_NEON2SSE_INLINE uint8x8x2_t vld2_u8(__transfersize(16) uint8_t const * ptr) -{ - uint8x8x2_t v; - _NEON2SSE_ALIGN_16 int8_t mask8_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15}; - __m128i ld128; - ld128 = vld1q_u8(ptr); //merge two 64-bits in 128 bit - ld128 = _mm_shuffle_epi8(ld128, *(__m128i*)mask8_even_odd); - vst1q_u8((v.val), ld128); // v.val[1] = _mm_shuffle_epi32(v.val[0], _SWAP_HI_LOW32); - return v; -} - -uint16x4x2_t vld2_u16(__transfersize(8) uint16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -_NEON2SSE_INLINE uint16x4x2_t vld2_u16(__transfersize(8) uint16_t const * ptr) -{ - _NEON2SSE_ALIGN_16 uint16x4x2_t v; - _NEON2SSE_ALIGN_16 int8_t mask16_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7, 10,11, 14,15}; - __m128i ld128; - ld128 = vld1q_u16(ptr); //merge two 64-bits in 128 bit - ld128 = _mm_shuffle_epi8(ld128, *(__m128i*)mask16_even_odd); - vst1q_u16((v.val), ld128); - return v; -} - -uint32x2x2_t vld2_u32(__transfersize(4) uint32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -_NEON2SSE_INLINE uint32x2x2_t vld2_u32(__transfersize(4) uint32_t const * ptr) -{ - _NEON2SSE_ALIGN_16 uint32x2x2_t v; - __m128i ld128; - ld128 = vld1q_u32(ptr); //merge two 64-bits in 128 bit - ld128 = _mm_shuffle_epi32(ld128, 0 | (2 << 2) | (1 << 4) | (3 << 6)); - vst1q_u32((v.val), ld128); - return v; -} - -uint64x1x2_t vld2_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -_NEON2SSE_INLINE uint64x1x2_t vld2_u64(__transfersize(2) uint64_t const * ptr) -{ - uint64x1x2_t v; - v.val[0].m64_u64[0] = *(ptr); - v.val[1].m64_u64[0] = *(ptr + 1); - return v; -} - -int8x8x2_t vld2_s8(__transfersize(16) int8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -#define vld2_s8(ptr) vld2_u8((uint8_t*)ptr) - -int16x4x2_t vld2_s16(__transfersize(8) int16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -#define vld2_s16(ptr) vld2_u16((uint16_t*)ptr) - -int32x2x2_t vld2_s32(__transfersize(4) int32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -#define vld2_s32(ptr) vld2_u32((uint32_t*)ptr) - -int64x1x2_t vld2_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -#define vld2_s64(ptr) vld2_u64((uint64_t*)ptr) - -float16x4x2_t vld2_f16(__transfersize(8) __fp16 const * ptr); // VLD2.16 {d0, d1}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1_f16 for example - -float32x2x2_t vld2_f32(__transfersize(4) float32_t const * ptr); // VLD2.32 {d0, d1}, [r0] -_NEON2SSE_INLINE float32x2x2_t vld2_f32(__transfersize(4) float32_t const * ptr) -{ - float32x2x2_t v; - v.val[0].m64_f32[0] = *(ptr); - v.val[0].m64_f32[1] = *(ptr + 2); - v.val[1].m64_f32[0] = *(ptr + 1); - v.val[1].m64_f32[1] = *(ptr + 3); - return v; -} - -poly8x8x2_t vld2_p8(__transfersize(16) poly8_t const * ptr); // VLD2.8 {d0, d1}, [r0] -#define vld2_p8 vld2_u8 - -poly16x4x2_t vld2_p16(__transfersize(8) poly16_t const * ptr); // VLD2.16 {d0, d1}, [r0] -#define vld2_p16 vld2_u16 - -//******************** Triplets *************************************** -//********************************************************************* -uint8x16x3_t vld3q_u8(__transfersize(48) uint8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE uint8x16x3_t vld3q_u8(__transfersize(48) uint8_t const * ptr) // VLD3.8 {d0, d2, d4}, [r0] -{ - //a0,a1,a2,a3,...a7,a8,...a15, b0,b1,b2,...b7,b8,...b15, c0,c1,c2,...c7,c8,...c15 -> - //a:0,3,6,9,12,15,b:2,5,8,11,14, c:1,4,7,10,13 - //a:1,4,7,10,13, b:0,3,6,9,12,15,c:2,5,8,11,14, - //a:2,5,8,11,14, b:1,4,7,10,13, c:0,3,6,9,12,15 - uint8x16x3_t v; - __m128i tmp0, tmp1,tmp2, tmp3; - _NEON2SSE_ALIGN_16 int8_t mask8_0[16] = {0,3,6,9,12,15,1,4,7,10,13,2,5,8,11,14}; - _NEON2SSE_ALIGN_16 int8_t mask8_1[16] = {2,5,8,11,14,0,3,6,9,12,15,1,4,7,10,13}; - _NEON2SSE_ALIGN_16 int8_t mask8_2[16] = {1,4,7,10,13,2,5,8,11,14,0,3,6,9,12,15}; - - v.val[0] = vld1q_u8 (ptr); //a0,a1,a2,a3,...a7, ...a15 - v.val[1] = vld1q_u8 ((ptr + 16)); //b0,b1,b2,b3...b7, ...b15 - v.val[2] = vld1q_u8 ((ptr + 32)); //c0,c1,c2,c3,...c7,...c15 - - tmp0 = _mm_shuffle_epi8(v.val[0], *(__m128i*)mask8_0); //a:0,3,6,9,12,15,1,4,7,10,13,2,5,8,11 - tmp1 = _mm_shuffle_epi8(v.val[1], *(__m128i*)mask8_1); //b:2,5,8,11,14,0,3,6,9,12,15,1,4,7,10,13 - tmp2 = _mm_shuffle_epi8(v.val[2], *(__m128i*)mask8_2); //c:1,4,7,10,13,2,5,8,11,14,3,6,9,12,15 - - tmp3 = _mm_slli_si128(tmp0,10); //0,0,0,0,0,0,0,0,0,0,a0,a3,a6,a9,a12,a15 - tmp3 = _mm_alignr_epi8(tmp1,tmp3, 10); //a:0,3,6,9,12,15,b:2,5,8,11,14,x,x,x,x,x - tmp3 = _mm_slli_si128(tmp3, 5); //0,0,0,0,0,a:0,3,6,9,12,15,b:2,5,8,11,14, - tmp3 = _mm_srli_si128(tmp3, 5); //a:0,3,6,9,12,15,b:2,5,8,11,14,:0,0,0,0,0 - v.val[0] = _mm_slli_si128(tmp2, 11); //0,0,0,0,0,0,0,0,0,0,0,0, 1,4,7,10,13, - v.val[0] = _mm_or_si128(v.val[0],tmp3); //a:0,3,6,9,12,15,b:2,5,8,11,14,c:1,4,7,10,13, - - tmp3 = _mm_slli_si128(tmp0, 5); //0,0,0,0,0,a:0,3,6,9,12,15,1,4,7,10,13, - tmp3 = _mm_srli_si128(tmp3, 11); //a:1,4,7,10,13, 0,0,0,0,0,0,0,0,0,0,0 - v.val[1] = _mm_srli_si128(tmp1,5); //b:0,3,6,9,12,15,C:1,4,7,10,13, 0,0,0,0,0 - v.val[1] = _mm_slli_si128(v.val[1], 5); //0,0,0,0,0,b:0,3,6,9,12,15,C:1,4,7,10,13, - v.val[1] = _mm_or_si128(v.val[1],tmp3); //a:1,4,7,10,13,b:0,3,6,9,12,15,C:1,4,7,10,13, - v.val[1] = _mm_slli_si128(v.val[1],5); //0,0,0,0,0,a:1,4,7,10,13,b:0,3,6,9,12,15, - v.val[1] = _mm_srli_si128(v.val[1], 5); //a:1,4,7,10,13,b:0,3,6,9,12,15,0,0,0,0,0 - tmp3 = _mm_srli_si128(tmp2,5); //c:2,5,8,11,14,0,3,6,9,12,15,0,0,0,0,0 - tmp3 = _mm_slli_si128(tmp3,11); //0,0,0,0,0,0,0,0,0,0,0,c:2,5,8,11,14, - v.val[1] = _mm_or_si128(v.val[1],tmp3); //a:1,4,7,10,13,b:0,3,6,9,12,15,c:2,5,8,11,14, - - tmp3 = _mm_srli_si128(tmp2,10); //c:0,3,6,9,12,15, 0,0,0,0,0,0,0,0,0,0, - tmp3 = _mm_slli_si128(tmp3,10); //0,0,0,0,0,0,0,0,0,0, c:0,3,6,9,12,15, - v.val[2] = _mm_srli_si128(tmp1,11); //b:1,4,7,10,13,0,0,0,0,0,0,0,0,0,0,0 - v.val[2] = _mm_slli_si128(v.val[2],5); //0,0,0,0,0,b:1,4,7,10,13, 0,0,0,0,0,0 - v.val[2] = _mm_or_si128(v.val[2],tmp3); //0,0,0,0,0,b:1,4,7,10,13,c:0,3,6,9,12,15, - tmp0 = _mm_srli_si128(tmp0, 11); //a:2,5,8,11,14, 0,0,0,0,0,0,0,0,0,0,0, - v.val[2] = _mm_or_si128(v.val[2],tmp0); //a:2,5,8,11,14,b:1,4,7,10,13,c:0,3,6,9,12,15, - return v; -} - -uint16x8x3_t vld3q_u16(__transfersize(24) uint16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE uint16x8x3_t vld3q_u16(__transfersize(24) uint16_t const * ptr) // VLD3.16 {d0, d2, d4}, [r0] -{ - //a0, a1,a2,a3,...a7, b0,b1,b2,b3,...b7, c0,c1,c2,c3...c7 -> a0,a3,a6,b1,b4,b7,c2,c5, a1,a4,a7,b2,b5,c0,c3,c6, a2,a5,b0,b3,b6,c1,c4,c7 - uint16x8x3_t v; - __m128i tmp0, tmp1,tmp2, tmp3; - _NEON2SSE_ALIGN_16 int8_t mask16_0[16] = {0,1, 6,7, 12,13, 2,3, 8,9, 14,15, 4,5, 10,11}; - _NEON2SSE_ALIGN_16 int8_t mask16_1[16] = {2,3, 8,9, 14,15, 4,5, 10,11, 0,1, 6,7, 12,13}; - _NEON2SSE_ALIGN_16 int8_t mask16_2[16] = {4,5, 10,11, 0,1, 6,7, 12,13, 2,3, 8,9, 14,15}; - - v.val[0] = vld1q_u16 (ptr); //a0,a1,a2,a3,...a7, - v.val[1] = vld1q_u16 ((ptr + 8)); //b0,b1,b2,b3...b7 - v.val[2] = vld1q_u16 ((ptr + 16)); //c0,c1,c2,c3,...c7 - - tmp0 = _mm_shuffle_epi8(v.val[0], *(__m128i*)mask16_0); //a0,a3,a6,a1,a4,a7,a2,a5, - tmp1 = _mm_shuffle_epi8(v.val[1], *(__m128i*)mask16_1); //b1,b4,b7,b2,b5,b0,b3,b6 - tmp2 = _mm_shuffle_epi8(v.val[2], *(__m128i*)mask16_2); //c2,c5, c0,c3,c6, c1,c4,c7 - - tmp3 = _mm_slli_si128(tmp0,10); //0,0,0,0,0,a0,a3,a6, - tmp3 = _mm_alignr_epi8(tmp1,tmp3, 10); //a0,a3,a6,b1,b4,b7,x,x - tmp3 = _mm_slli_si128(tmp3, 4); //0,0, a0,a3,a6,b1,b4,b7 - tmp3 = _mm_srli_si128(tmp3, 4); //a0,a3,a6,b1,b4,b7,0,0 - v.val[0] = _mm_slli_si128(tmp2, 12); //0,0,0,0,0,0, c2,c5, - v.val[0] = _mm_or_si128(v.val[0],tmp3); //a0,a3,a6,b1,b4,b7,c2,c5 - - tmp3 = _mm_slli_si128(tmp0, 4); //0,0,a0,a3,a6,a1,a4,a7 - tmp3 = _mm_srli_si128(tmp3,10); //a1,a4,a7, 0,0,0,0,0 - v.val[1] = _mm_srli_si128(tmp1,6); //b2,b5,b0,b3,b6,0,0 - v.val[1] = _mm_slli_si128(v.val[1], 6); //0,0,0,b2,b5,b0,b3,b6, - v.val[1] = _mm_or_si128(v.val[1],tmp3); //a1,a4,a7,b2,b5,b0,b3,b6, - v.val[1] = _mm_slli_si128(v.val[1],6); //0,0,0,a1,a4,a7,b2,b5, - v.val[1] = _mm_srli_si128(v.val[1], 6); //a1,a4,a7,b2,b5,0,0,0, - tmp3 = _mm_srli_si128(tmp2,4); //c0,c3,c6, c1,c4,c7,0,0 - tmp3 = _mm_slli_si128(tmp3,10); //0,0,0,0,0,c0,c3,c6, - v.val[1] = _mm_or_si128(v.val[1],tmp3); //a1,a4,a7,b2,b5,c0,c3,c6, - - tmp3 = _mm_srli_si128(tmp2,10); //c1,c4,c7, 0,0,0,0,0 - tmp3 = _mm_slli_si128(tmp3,10); //0,0,0,0,0, c1,c4,c7, - v.val[2] = _mm_srli_si128(tmp1,10); //b0,b3,b6,0,0, 0,0,0 - v.val[2] = _mm_slli_si128(v.val[2],4); //0,0, b0,b3,b6,0,0,0 - v.val[2] = _mm_or_si128(v.val[2],tmp3); //0,0, b0,b3,b6,c1,c4,c7, - tmp0 = _mm_srli_si128(tmp0, 12); //a2,a5,0,0,0,0,0,0 - v.val[2] = _mm_or_si128(v.val[2],tmp0); //a2,a5,b0,b3,b6,c1,c4,c7, - return v; -} - -uint32x4x3_t vld3q_u32(__transfersize(12) uint32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE uint32x4x3_t vld3q_u32(__transfersize(12) uint32_t const * ptr) // VLD3.32 {d0, d2, d4}, [r0] -{ - //a0,a1,a2,a3, b0,b1,b2,b3, c0,c1,c2,c3 -> a0,a3,b2,c1, a1,b0,b3,c2, a2,b1,c0,c3, - uint32x4x3_t v; - __m128i tmp0, tmp1,tmp2, tmp3; - v.val[0] = vld1q_u32 (ptr); //a0,a1,a2,a3, - v.val[1] = vld1q_u32 ((ptr + 4)); //b0,b1,b2,b3 - v.val[2] = vld1q_u32 ((ptr + 8)); //c0,c1,c2,c3, - - tmp0 = _mm_shuffle_epi32(v.val[0], 0 | (3 << 2) | (1 << 4) | (2 << 6)); //a0,a3,a1,a2 - tmp1 = _mm_shuffle_epi32(v.val[1], _SWAP_HI_LOW32); //b2,b3,b0,b1 - tmp2 = _mm_shuffle_epi32(v.val[2], 1 | (2 << 2) | (0 << 4) | (3 << 6)); //c1,c2, c0,c3 - - tmp3 = _mm_unpacklo_epi32(tmp1, tmp2); //b2,c1, b3,c2 - v.val[0] = _mm_unpacklo_epi64(tmp0,tmp3); //a0,a3,b2,c1 - tmp0 = _mm_unpackhi_epi32(tmp0, tmp1); //a1,b0, a2,b1 - v.val[1] = _mm_shuffle_epi32(tmp0, _SWAP_HI_LOW32 ); //a2,b1, a1,b0, - v.val[1] = _mm_unpackhi_epi64(v.val[1], tmp3); //a1,b0, b3,c2 - v.val[2] = _mm_unpackhi_epi64(tmp0, tmp2); //a2,b1, c0,c3 - return v; -} - -int8x16x3_t vld3q_s8(__transfersize(48) int8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -#define vld3q_s8(ptr) vld3q_u8((uint8_t*) (ptr)) - -int16x8x3_t vld3q_s16(__transfersize(24) int16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -#define vld3q_s16(ptr) vld3q_u16((uint16_t*) (ptr)) - -int32x4x3_t vld3q_s32(__transfersize(12) int32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -#define vld3q_s32(ptr) vld3q_u32((uint32_t*) (ptr)) - -float16x8x3_t vld3q_f16(__transfersize(24) __fp16 const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x4x3_t vld3q_f32(__transfersize(12) float32_t const * ptr); // VLD3.32 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE float32x4x3_t vld3q_f32(__transfersize(12) float32_t const * ptr) // VLD3.32 {d0, d2, d4}, [r0] -{ - //a0,a1,a2,a3, b0,b1,b2,b3, c0,c1,c2,c3 -> a0,a3,b2,c1, a1,b0,b3,c2, a2,b1,c0,c3, - float32x4x3_t v; - __m128 tmp0, tmp1,tmp2, tmp3; - v.val[0] = vld1q_f32 (ptr); //a0,a1,a2,a3, - v.val[1] = vld1q_f32 ((ptr + 4)); //b0,b1,b2,b3 - v.val[2] = vld1q_f32 ((ptr + 8)); //c0,c1,c2,c3, - - tmp0 = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(v.val[0]), 0 | (3 << 2) | (1 << 4) | (2 << 6))); //a0,a3,a1,a2 - tmp1 = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(v.val[1]), _SWAP_HI_LOW32)); //b2,b3,b0,b1 - tmp2 = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(v.val[2]), 1 | (2 << 2) | (0 << 4) | (3 << 6))); //c1,c2, c0,c3 - tmp3 = _mm_unpacklo_ps(tmp1, tmp2); //b2,c1, b3,c2 - - v.val[0] = _mm_movelh_ps(tmp0,tmp3); //a0,a3,b2,c1 - tmp0 = _mm_unpackhi_ps(tmp0, tmp1); //a1,b0, a2,b1 - v.val[1] = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(tmp0), _SWAP_HI_LOW32 )); //a2,b1, a1,b0, - v.val[1] = _mm_movehl_ps(tmp3,v.val[1]); //a1,b0, b3,c2 - v.val[2] = _mm_movehl_ps(tmp2,tmp0); //a2,b1, c0,c3 - return v; -} - -poly8x16x3_t vld3q_p8(__transfersize(48) poly8_t const * ptr); // VLD3.8 {d0, d2, d4}, [r0] -#define vld3q_p8 vld3q_u8 - -poly16x8x3_t vld3q_p16(__transfersize(24) poly16_t const * ptr); // VLD3.16 {d0, d2, d4}, [r0] -#define vld3q_p16 vld3q_u16 - -uint8x8x3_t vld3_u8(__transfersize(24) uint8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE uint8x8x3_t vld3_u8(__transfersize(24) uint8_t const * ptr) // VLD3.8 {d0, d1, d2}, [r0] -{ - //a0, a1,a2,a3,...a7, b0,b1,b2,b3,...b7, c0,c1,c2,c3...c7 -> a0,a3,a6,b1,b4,b7,c2,c5, a1,a4,a7,b2,b5,c0,c3,c6, a2,a5,b0,b3,b6,c1,c4,c7 - uint8x8x3_t v; - __m128i val0, val1, val2, tmp0, tmp1; - _NEON2SSE_ALIGN_16 int8_t mask8_0[16] = {0,3,6,9,12,15, 1,4,7,10,13, 2,5,8,11,14}; - _NEON2SSE_ALIGN_16 int8_t mask8_1[16] = {2,5, 0,3,6, 1,4,7, 0,0,0,0,0,0,0,0}; - val0 = vld1q_u8 (ptr); //a0,a1,a2,a3,...a7, b0,b1,b2,b3...b7 - val2 = _mm_loadl_epi64((__m128i*)(ptr + 16)); //c0,c1,c2,c3,...c7 - - tmp0 = _mm_shuffle_epi8(val0, *(__m128i*)mask8_0); //a0,a3,a6,b1,b4,b7, a1,a4,a7,b2,b5, a2,a5,b0,b3,b6, - tmp1 = _mm_shuffle_epi8(val2, *(__m128i*)mask8_1); //c2,c5, c0,c3,c6, c1,c4,c7,x,x,x,x,x,x,x,x - val0 = _mm_slli_si128(tmp0,10); - val0 = _mm_srli_si128(val0,10); //a0,a3,a6,b1,b4,b7, 0,0,0,0,0,0,0,0,0,0 - val2 = _mm_slli_si128(tmp1,6); //0,0,0,0,0,0,c2,c5,x,x,x,x,x,x,x,x - val0 = _mm_or_si128(val0,val2); //a0,a3,a6,b1,b4,b7,c2,c5 x,x,x,x,x,x,x,x - _M64(v.val[0], val0); - val1 = _mm_slli_si128(tmp0,5); //0,0,0,0,0,0,0,0,0,0,0, a1,a4,a7,b2,b5, - val1 = _mm_srli_si128(val1,11); //a1,a4,a7,b2,b5,0,0,0,0,0,0,0,0,0,0,0, - val2 = _mm_srli_si128(tmp1,2); //c0,c3,c6,c1,c4,c7,x,x,x,x,x,x,x,x,0,0 - val2 = _mm_slli_si128(val2,5); //0,0,0,0,0,c0,c3,c6,0,0,0,0,0,0,0,0 - val1 = _mm_or_si128(val1,val2); //a1,a4,a7,b2,b5,c0,c3,c6,x,x,x,x,x,x,x,x - _M64(v.val[1], val1); - - tmp0 = _mm_srli_si128(tmp0,11); //a2,a5,b0,b3,b6,0,0,0,0,0,0,0,0,0,0,0, - val2 = _mm_srli_si128(tmp1,5); //c1,c4,c7,0,0,0,0,0,0,0,0,0,0,0,0,0 - val2 = _mm_slli_si128(val2,5); //0,0,0,0,0,c1,c4,c7, - val2 = _mm_or_si128(tmp0, val2); //a2,a5,b0,b3,b6,c1,c4,c7,x,x,x,x,x,x,x,x - _M64(v.val[2], val2); - return v; -} - -uint16x4x3_t vld3_u16(__transfersize(12) uint16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE uint16x4x3_t vld3_u16(__transfersize(12) uint16_t const * ptr) // VLD3.16 {d0, d1, d2}, [r0] -{ - //a0,a1,a2,a3, b0,b1,b2,b3, c0,c1,c2,c3 -> a0,a3,b2,c1, a1,b0,b3,c2, a2,b1,c0,c3, - uint16x4x3_t v; - __m128i val0, val1, val2, tmp0, tmp1; - _NEON2SSE_ALIGN_16 int8_t mask16[16] = {0,1, 6,7, 12,13, 2,3, 8,9, 14,15, 4,5, 10,11}; - val0 = vld1q_u16 (ptr); //a0,a1,a2,a3, b0,b1,b2,b3 - val2 = _mm_loadl_epi64((__m128i*)(ptr + 8)); //c0,c1,c2,c3, x,x,x,x - - tmp0 = _mm_shuffle_epi8(val0, *(__m128i*)mask16); //a0, a3, b2,a1, b0, b3, a2, b1 - tmp1 = _mm_shufflelo_epi16(val2, 201); //11 00 10 01 : c1, c2, c0, c3, - val0 = _mm_slli_si128(tmp0,10); - val0 = _mm_srli_si128(val0,10); //a0, a3, b2, 0,0, 0,0, - val2 = _mm_slli_si128(tmp1,14); //0,0,0,0,0,0,0,c1 - val2 = _mm_srli_si128(val2,8); //0,0,0,c1,0,0,0,0 - val0 = _mm_or_si128(val0,val2); //a0, a3, b2, c1, x,x,x,x - _M64(v.val[0], val0); - - val1 = _mm_slli_si128(tmp0,4); //0,0,0,0,0,a1, b0, b3 - val1 = _mm_srli_si128(val1,10); //a1, b0, b3, 0,0, 0,0, - val2 = _mm_srli_si128(tmp1,2); //c2, 0,0,0,0,0,0,0, - val2 = _mm_slli_si128(val2,6); //0,0,0,c2,0,0,0,0 - val1 = _mm_or_si128(val1,val2); //a1, b0, b3, c2, x,x,x,x - _M64(v.val[1], val1); - - tmp0 = _mm_srli_si128(tmp0,12); //a2, b1,0,0,0,0,0,0 - tmp1 = _mm_srli_si128(tmp1,4); - tmp1 = _mm_slli_si128(tmp1,4); //0,0,c0, c3, - val2 = _mm_or_si128(tmp0, tmp1); //a2, b1, c0, c3, - _M64(v.val[2], val2); - return v; -} - -uint32x2x3_t vld3_u32(__transfersize(6) uint32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE uint32x2x3_t vld3_u32(__transfersize(6) uint32_t const * ptr) // VLD3.32 {d0, d1, d2}, [r0] -{ - //a0,a1, b0,b1, c0,c1, -> a0,b1, a1,c0, b0,c1 - uint32x2x3_t v; - __m128i val0, val1, val2; - val0 = vld1q_u32 (ptr); //a0,a1, b0,b1, - val2 = _mm_loadl_epi64((__m128i*) (ptr + 4)); //c0,c1, x,x - - val0 = _mm_shuffle_epi32(val0, 0 | (3 << 2) | (1 << 4) | (2 << 6)); //a0,b1, a1, b0 - _M64(v.val[0], val0); - val2 = _mm_slli_si128(val2, 8); //x, x,c0,c1, - val1 = _mm_unpackhi_epi32(val0,val2); //a1,c0, b0, c1 - _M64(v.val[1], val1); - val2 = _mm_srli_si128(val1, 8); //b0, c1, x, x, - _M64(v.val[2], val2); - return v; -} -uint64x1x3_t vld3_u64(__transfersize(3) uint64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE uint64x1x3_t vld3_u64(__transfersize(3) uint64_t const * ptr) // VLD1.64 {d0, d1, d2}, [r0] -{ - uint64x1x3_t v; - v.val[0].m64_u64[0] = *(ptr); - v.val[1].m64_u64[0] = *(ptr + 1); - v.val[2].m64_u64[0] = *(ptr + 2); - return v; -} - -int8x8x3_t vld3_s8(__transfersize(24) int8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -#define vld3_s8(ptr) vld3_u8((uint8_t*)ptr) - -int16x4x3_t vld3_s16(__transfersize(12) int16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -#define vld3_s16(ptr) vld3_u16((uint16_t*)ptr) - -int32x2x3_t vld3_s32(__transfersize(6) int32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -#define vld3_s32(ptr) vld3_u32((uint32_t*)ptr) - -int64x1x3_t vld3_s64(__transfersize(3) int64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -#define vld3_s64(ptr) vld3_u64((uint64_t*)ptr) - -float16x4x3_t vld3_f16(__transfersize(12) __fp16 const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x2x3_t vld3_f32(__transfersize(6) float32_t const * ptr); // VLD3.32 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE float32x2x3_t vld3_f32(__transfersize(6) float32_t const * ptr) -{ - //a0,a1, b0,b1, c0,c1, -> a0,b1, a1,c0, b0,c1 - float32x2x3_t v; - v.val[0].m64_f32[0] = *(ptr); - v.val[0].m64_f32[1] = *(ptr + 3); - - v.val[1].m64_f32[0] = *(ptr + 1); - v.val[1].m64_f32[1] = *(ptr + 4); - - v.val[2].m64_f32[0] = *(ptr + 2); - v.val[2].m64_f32[1] = *(ptr + 5); - return v; -} - -poly8x8x3_t vld3_p8(__transfersize(24) poly8_t const * ptr); // VLD3.8 {d0, d1, d2}, [r0] -#define vld3_p8 vld3_u8 - -poly16x4x3_t vld3_p16(__transfersize(12) poly16_t const * ptr); // VLD3.16 {d0, d1, d2}, [r0] -#define vld3_p16 vld3_u16 - -//*************** Quadruples load ******************************** -//***************************************************************** -uint8x16x4_t vld4q_u8(__transfersize(64) uint8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE uint8x16x4_t vld4q_u8(__transfersize(64) uint8_t const * ptr) // VLD4.8 {d0, d2, d4, d6}, [r0] -{ - uint8x16x4_t v; - __m128i tmp3, tmp2, tmp1, tmp0; - - v.val[0] = vld1q_u8 ( ptr); //a0,a1,a2,...a7, ...a15 - v.val[1] = vld1q_u8 ( (ptr + 16)); //b0, b1,b2,...b7.... b15 - v.val[2] = vld1q_u8 ( (ptr + 32)); //c0, c1,c2,...c7....c15 - v.val[3] = vld1q_u8 ( (ptr + 48)); //d0,d1,d2,...d7....d15 - - tmp0 = _mm_unpacklo_epi8(v.val[0],v.val[1]); //a0,b0, a1,b1, a2,b2, a3,b3,....a7,b7 - tmp1 = _mm_unpacklo_epi8(v.val[2],v.val[3]); //c0,d0, c1,d1, c2,d2, c3,d3,... c7,d7 - tmp2 = _mm_unpackhi_epi8(v.val[0],v.val[1]); //a8,b8, a9,b9, a10,b10, a11,b11,...a15,b15 - tmp3 = _mm_unpackhi_epi8(v.val[2],v.val[3]); //c8,d8, c9,d9, c10,d10, c11,d11,...c15,d15 - - v.val[0] = _mm_unpacklo_epi8(tmp0, tmp2); //a0,a8, b0,b8, a1,a9, b1,b9, ....a3,a11, b3,b11 - v.val[1] = _mm_unpackhi_epi8(tmp0, tmp2); //a4,a12, b4,b12, a5,a13, b5,b13,....a7,a15,b7,b15 - v.val[2] = _mm_unpacklo_epi8(tmp1, tmp3); //c0,c8, d0,d8, c1,c9, d1,d9.....d3,d11 - v.val[3] = _mm_unpackhi_epi8(tmp1, tmp3); //c4,c12,d4,d12, c5,c13, d5,d13,....d7,d15 - - tmp0 = _mm_unpacklo_epi32(v.val[0], v.val[2] ); ///a0,a8, b0,b8, c0,c8, d0,d8, a1,a9, b1,b9, c1,c9, d1,d9 - tmp1 = _mm_unpackhi_epi32(v.val[0], v.val[2] ); //a2,a10, b2,b10, c2,c10, d2,d10, a3,a11, b3,b11, c3,c11, d3,d11 - tmp2 = _mm_unpacklo_epi32(v.val[1], v.val[3] ); //a4,a12, b4,b12, c4,c12, d4,d12, a5,a13, b5,b13, c5,c13, d5,d13, - tmp3 = _mm_unpackhi_epi32(v.val[1], v.val[3] ); //a6,a14, b6,b14, c6,c14, d6,d14, a7,a15,b7,b15,c7,c15,d7,d15 - - v.val[0] = _mm_unpacklo_epi8(tmp0, tmp2); //a0,a4,a8,a12,b0,b4,b8,b12,c0,c4,c8,c12,d0,d4,d8,d12 - v.val[1] = _mm_unpackhi_epi8(tmp0, tmp2); //a1,a5, a9, a13, b1,b5, b9,b13, c1,c5, c9, c13, d1,d5, d9,d13 - v.val[2] = _mm_unpacklo_epi8(tmp1, tmp3); //a2,a6, a10,a14, b2,b6, b10,b14,c2,c6, c10,c14, d2,d6, d10,d14 - v.val[3] = _mm_unpackhi_epi8(tmp1, tmp3); //a3,a7, a11,a15, b3,b7, b11,b15,c3,c7, c11, c15,d3,d7, d11,d15 - return v; -} - -uint16x8x4_t vld4q_u16(__transfersize(32) uint16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE uint16x8x4_t vld4q_u16(__transfersize(32) uint16_t const * ptr) // VLD4.16 {d0, d2, d4, d6}, [r0] -{ - uint16x8x4_t v; - __m128i tmp3, tmp2, tmp1, tmp0; - tmp0 = vld1q_u16 (ptr); //a0,a1,a2,...a7 - tmp1 = vld1q_u16 ((ptr + 8)); //b0, b1,b2,...b7 - tmp2 = vld1q_u16 ((ptr + 16)); //c0, c1,c2,...c7 - tmp3 = vld1q_u16 ((ptr + 24)); //d0,d1,d2,...d7 - v.val[0] = _mm_unpacklo_epi16(tmp0,tmp1); //a0,b0, a1,b1, a2,b2, a3,b3, - v.val[1] = _mm_unpacklo_epi16(tmp2,tmp3); //c0,d0, c1,d1, c2,d2, c3,d3, - v.val[2] = _mm_unpackhi_epi16(tmp0,tmp1); //a4,b4, a5,b5, a6,b6, a7,b7 - v.val[3] = _mm_unpackhi_epi16(tmp2,tmp3); //c4,d4, c5,d5, c6,d6, c7,d7 - tmp0 = _mm_unpacklo_epi16(v.val[0], v.val[2]); //a0,a4, b0,b4, a1,a5, b1,b5 - tmp1 = _mm_unpackhi_epi16(v.val[0], v.val[2]); //a2,a6, b2,b6, a3,a7, b3,b7 - tmp2 = _mm_unpacklo_epi16(v.val[1], v.val[3]); //c0,c4, d0,d4, c1,c5, d1,d5 - tmp3 = _mm_unpackhi_epi16(v.val[1], v.val[3]); //c2,c6, d2,d6, c3,c7, d3,d7 - v.val[0] = _mm_unpacklo_epi64(tmp0, tmp2); //a0,a4, b0,b4, c0,c4, d0,d4, - v.val[1] = _mm_unpackhi_epi64(tmp0, tmp2); //a1,a5, b1,b5, c1,c5, d1,d5 - v.val[2] = _mm_unpacklo_epi64(tmp1, tmp3); //a2,a6, b2,b6, c2,c6, d2,d6, - v.val[3] = _mm_unpackhi_epi64(tmp1, tmp3); //a3,a7, b3,b7, c3,c7, d3,d7 - return v; -} - -uint32x4x4_t vld4q_u32(__transfersize(16) uint32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE uint32x4x4_t vld4q_u32(__transfersize(16) uint32_t const * ptr) // VLD4.32 {d0, d2, d4, d6}, [r0] -{ - uint32x4x4_t v; - __m128i tmp3, tmp2, tmp1, tmp0; - v.val[0] = vld1q_u32 (ptr); - v.val[1] = vld1q_u32 ((ptr + 4)); - v.val[2] = vld1q_u32 ((ptr + 8)); - v.val[3] = vld1q_u32 ((ptr + 12)); - tmp0 = _mm_unpacklo_epi32(v.val[0],v.val[1]); - tmp1 = _mm_unpacklo_epi32(v.val[2],v.val[3]); - tmp2 = _mm_unpackhi_epi32(v.val[0],v.val[1]); - tmp3 = _mm_unpackhi_epi32(v.val[2],v.val[3]); - v.val[0] = _mm_unpacklo_epi64(tmp0, tmp1); - v.val[1] = _mm_unpackhi_epi64(tmp0, tmp1); - v.val[2] = _mm_unpacklo_epi64(tmp2, tmp3); - v.val[3] = _mm_unpackhi_epi64(tmp2, tmp3); - return v; -} - -int8x16x4_t vld4q_s8(__transfersize(64) int8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -#define vld4q_s8(ptr) vld4q_u8((uint8_t*)ptr) - -int16x8x4_t vld4q_s16(__transfersize(32) int16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -#define vld4q_s16(ptr) vld4q_u16((uint16_t*)ptr) - -int32x4x4_t vld4q_s32(__transfersize(16) int32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -#define vld4q_s32(ptr) vld4q_u32((uint32_t*)ptr) - -float16x8x4_t vld4q_f16(__transfersize(32) __fp16 const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x4x4_t vld4q_f32(__transfersize(16) float32_t const * ptr); // VLD4.32 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE float32x4x4_t vld4q_f32(__transfersize(16) float32_t const * ptr) // VLD4.32 {d0, d2, d4, d6}, [r0] -{ - float32x4x4_t v; - __m128 tmp3, tmp2, tmp1, tmp0; - - v.val[0] = vld1q_f32 ((float*) ptr); - v.val[1] = vld1q_f32 ((float*) (ptr + 4)); - v.val[2] = vld1q_f32 ((float*) (ptr + 8)); - v.val[3] = vld1q_f32 ((float*) (ptr + 12)); - tmp0 = _mm_unpacklo_ps(v.val[0], v.val[1]); - tmp2 = _mm_unpacklo_ps(v.val[2], v.val[3]); - tmp1 = _mm_unpackhi_ps(v.val[0], v.val[1]); - tmp3 = _mm_unpackhi_ps(v.val[2], v.val[3]); - v.val[0] = _mm_movelh_ps(tmp0, tmp2); - v.val[1] = _mm_movehl_ps(tmp2, tmp0); - v.val[2] = _mm_movelh_ps(tmp1, tmp3); - v.val[3] = _mm_movehl_ps(tmp3, tmp1); - return v; -} - -poly8x16x4_t vld4q_p8(__transfersize(64) poly8_t const * ptr); // VLD4.8 {d0, d2, d4, d6}, [r0] -#define vld4q_p8 vld4q_u8 - -poly16x8x4_t vld4q_p16(__transfersize(32) poly16_t const * ptr); // VLD4.16 {d0, d2, d4, d6}, [r0] -#define vld4q_p16 vld4q_s16 - -uint8x8x4_t vld4_u8(__transfersize(32) uint8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE uint8x8x4_t vld4_u8(__transfersize(32) uint8_t const * ptr) // VLD4.8 {d0, d1, d2, d3}, [r0] -{ - uint8x8x4_t v; - __m128i sh0, sh1; - __m128i val0, val2; - _NEON2SSE_ALIGN_16 int8_t mask4_8[16] = {0, 4, 8, 12, 1, 5, 9, 13, 2, 6, 10, 14, 3, 7, 11, 15}; - - val0 = vld1q_u8(( ptr)); //load first 64-bits in val[0] and val[1] - val2 = vld1q_u8(( ptr + 16)); //load third and forth 64-bits in val[2], val[3] - - sh0 = _mm_shuffle_epi8(val0, *(__m128i*)mask4_8); - sh1 = _mm_shuffle_epi8(val2, *(__m128i*)mask4_8); - val0 = _mm_unpacklo_epi32(sh0,sh1); //0,4,8,12,16,20,24,28, 1,5,9,13,17,21,25,29 - vst1q_u8(&v.val[0], val0 ); - val2 = _mm_unpackhi_epi32(sh0,sh1); //2,6,10,14,18,22,26,30, 3,7,11,15,19,23,27,31 - vst1q_u8(&v.val[2], val2 ); - return v; -} - -uint16x4x4_t vld4_u16(__transfersize(16) uint16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE uint16x4x4_t vld4_u16(__transfersize(16) uint16_t const * ptr) // VLD4.16 {d0, d1, d2, d3}, [r0] -{ - uint16x4x4_t v; - __m128i sh0, sh1; - __m128i val0, val2; - _NEON2SSE_ALIGN_16 int8_t mask4_16[16] = {0,1, 8,9, 2,3, 10,11, 4,5, 12,13, 6,7, 14,15}; //0, 4, 1, 5, 2, 6, 3, 7 - val0 = vld1q_u16 ( (ptr)); //load first 64-bits in val[0] and val[1] - val2 = vld1q_u16 ( (ptr + 8)); //load third and forth 64-bits in val[2], val[3] - sh0 = _mm_shuffle_epi8(val0, *(__m128i*)mask4_16); - sh1 = _mm_shuffle_epi8(val2, *(__m128i*)mask4_16); - val0 = _mm_unpacklo_epi32(sh0,sh1); //0,4,8,12, 1,5,9,13 - vst1q_u16(&v.val[0], val0 ); - val2 = _mm_unpackhi_epi32(sh0,sh1); //2,6,10,14, 3,7,11,15 - vst1q_u16(&v.val[2], val2 ); - return v; -} - -uint32x2x4_t vld4_u32(__transfersize(8) uint32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE uint32x2x4_t vld4_u32(__transfersize(8) uint32_t const * ptr) -{ - //a0,a1, b0,b1, c0,c1, d0,d1 -> a0,c0, a1,c1, b0,d0, b1,d1 - uint32x2x4_t v; - __m128i val0, val01, val2; - val0 = vld1q_u32 (ptr); //a0,a1, b0,b1, - val2 = vld1q_u32 ((ptr + 4)); //c0,c1, d0,d1 - val01 = _mm_unpacklo_epi32(val0,val2); //a0, c0, a1,c1, - val2 = _mm_unpackhi_epi32(val0,val2); //b0,d0, b1, d1 - vst1q_u32(&v.val[0], val01); - vst1q_u32(&v.val[2], val2 ); - return v; -} - -uint64x1x4_t vld4_u64(__transfersize(4) uint64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE uint64x1x4_t vld4_u64(__transfersize(4) uint64_t const * ptr) // VLD1.64 {d0, d1, d2, d3}, [r0] -{ - uint64x1x4_t v; - v.val[0].m64_u64[0] = *(ptr); //load first 64-bits in val[0] and val[1] - v.val[1].m64_u64[0] = *(ptr + 1); //load first 64-bits in val[0] and val[1] - v.val[2].m64_u64[0] = *(ptr + 2); //load third and forth 64-bits in val[2], val[3] - v.val[3].m64_u64[0] = *(ptr + 3); //load third and forth 64-bits in val[2], val[3] - return v; -} - -int8x8x4_t vld4_s8(__transfersize(32) int8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -#define vld4_s8(ptr) vld4_u8((uint8_t*)ptr) - -int16x4x4_t vld4_s16(__transfersize(16) int16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -#define vld4_s16(ptr) vld4_u16((uint16_t*)ptr) - -int32x2x4_t vld4_s32(__transfersize(8) int32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -#define vld4_s32(ptr) vld4_u32((uint32_t*)ptr) - -int64x1x4_t vld4_s64(__transfersize(4) int64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -#define vld4_s64(ptr) vld4_u64((uint64_t*)ptr) - -float16x4x4_t vld4_f16(__transfersize(16) __fp16 const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x2x4_t vld4_f32(__transfersize(8) float32_t const * ptr); // VLD4.32 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE float32x2x4_t vld4_f32(__transfersize(8) float32_t const * ptr) // VLD4.32 {d0, d1, d2, d3}, [r0] -{ - //a0,a1, b0,b1, c0,c1, d0,d1 -> a0,c0, a1,c1, b0,d0, b1,d1 - float32x2x4_t res; - res.val[0].m64_f32[0] = *(ptr); - res.val[0].m64_f32[1] = *(ptr + 4); - res.val[1].m64_f32[0] = *(ptr + 1); - res.val[1].m64_f32[1] = *(ptr + 5); - res.val[2].m64_f32[0] = *(ptr + 2); - res.val[2].m64_f32[1] = *(ptr + 6); - res.val[3].m64_f32[0] = *(ptr + 3); - res.val[3].m64_f32[1] = *(ptr + 7); - return res; -} - -poly8x8x4_t vld4_p8(__transfersize(32) poly8_t const * ptr); // VLD4.8 {d0, d1, d2, d3}, [r0] -#define vld4_p8 vld4_u8 - -poly16x4x4_t vld4_p16(__transfersize(16) poly16_t const * ptr); // VLD4.16 {d0, d1, d2, d3}, [r0] -#define vld4_p16 vld4_u16 - -//************* Duplicate (or propagate) ptr[0] to all val[0] lanes and ptr[1] to all val[1] lanes ******************* -//******************************************************************************************************************* -uint8x8x2_t vld2_dup_u8(__transfersize(2) uint8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -_NEON2SSE_INLINE uint8x8x2_t vld2_dup_u8(__transfersize(2) uint8_t const * ptr) // VLD2.8 {d0[], d1[]}, [r0] -{ - uint8x8x2_t v; - __m128i val0, val1; - val0 = LOAD_SI128(ptr); //0,1,x,x, x,x,x,x,x,x,x,x, x,x,x,x - val1 = _mm_unpacklo_epi8(val0,val0); //0,0,1,1,x,x,x,x, x,x,x,x,x,x,x,x, - val1 = _mm_unpacklo_epi16(val1,val1); //0,0,0,0, 1,1,1,1,x,x,x,x, x,x,x,x - val0 = _mm_unpacklo_epi32(val1,val1); //0,0,0,0, 0,0,0,0,1,1,1,1,1,1,1,1, - vst1q_u8(v.val, val0); - return v; -} - -uint16x4x2_t vld2_dup_u16(__transfersize(2) uint16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -_NEON2SSE_INLINE uint16x4x2_t vld2_dup_u16(__transfersize(2) uint16_t const * ptr) // VLD2.16 {d0[], d1[]}, [r0] -{ - uint16x4x2_t v; - __m128i val0, val1; - val1 = LOAD_SI128(ptr); //0,1,x,x, x,x,x,x - val0 = _mm_shufflelo_epi16(val1, 0); //00 00 00 00 (all 0) - _M64(v.val[0], val0); - val1 = _mm_shufflelo_epi16(val1, 85); //01 01 01 01 (all 1) - _M64(v.val[1], val1); - return v; -} - -uint32x2x2_t vld2_dup_u32(__transfersize(2) uint32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -_NEON2SSE_INLINE uint32x2x2_t vld2_dup_u32(__transfersize(2) uint32_t const * ptr) // VLD2.32 {d0[], d1[]}, [r0] -{ - uint32x2x2_t v; - __m128i val0; - val0 = LOAD_SI128(ptr); //0,1,x,x - val0 = _mm_shuffle_epi32(val0, 0 | (0 << 2) | (1 << 4) | (1 << 6)); //0,0,1,1 - vst1q_u32(v.val, val0); - return v; -} - -uint64x1x2_t vld2_dup_u64(__transfersize(2) uint64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -#define vld2_dup_u64 vld2_u64 - -int8x8x2_t vld2_dup_s8(__transfersize(2) int8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -#define vld2_dup_s8(ptr) vld2_dup_u8((uint8_t*)ptr) - -int16x4x2_t vld2_dup_s16(__transfersize(2) int16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -#define vld2_dup_s16(ptr) vld2_dup_u16((uint16_t*)ptr) - -int32x2x2_t vld2_dup_s32(__transfersize(2) int32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -#define vld2_dup_s32(ptr) vld2_dup_u32((uint32_t*)ptr) - -int64x1x2_t vld2_dup_s64(__transfersize(2) int64_t const * ptr); // VLD1.64 {d0, d1}, [r0] -#define vld2_dup_s64(ptr) vld2_dup_u64((uint64_t*)ptr) - -float16x4x2_t vld2_dup_f16(__transfersize(2) __fp16 const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x2x2_t vld2_dup_f32(__transfersize(2) float32_t const * ptr); // VLD2.32 {d0[], d1[]}, [r0] -_NEON2SSE_INLINE float32x2x2_t vld2_dup_f32(__transfersize(2) float32_t const * ptr) // VLD2.32 {d0[], d1[]}, [r0] -{ - float32x2x2_t v; - v.val[0].m64_f32[0] = *(ptr); //0,0 - v.val[0].m64_f32[1] = *(ptr); //0,0 - v.val[1].m64_f32[0] = *(ptr + 1); //1,1 - v.val[1].m64_f32[1] = *(ptr + 1); //1,1 - return v; -} - -poly8x8x2_t vld2_dup_p8(__transfersize(2) poly8_t const * ptr); // VLD2.8 {d0[], d1[]}, [r0] -#define vld2_dup_p8 vld2_dup_u8 - -poly16x4x2_t vld2_dup_p16(__transfersize(2) poly16_t const * ptr); // VLD2.16 {d0[], d1[]}, [r0] -#define vld2_dup_p16 vld2_dup_s16 - -//************* Duplicate (or propagate)triplets: ******************* -//******************************************************************** -//ptr[0] to all val[0] lanes, ptr[1] to all val[1] lanes and ptr[2] to all val[2] lanes -uint8x8x3_t vld3_dup_u8(__transfersize(3) uint8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -_NEON2SSE_INLINE uint8x8x3_t vld3_dup_u8(__transfersize(3) uint8_t const * ptr) // VLD3.8 {d0[], d1[], d2[]}, [r0] -{ - uint8x8x3_t v; - __m128i val0, val1, val2; - val0 = LOAD_SI128(ptr); //0,1,2,x, x,x,x,x,x,x,x,x, x,x,x,x - val1 = _mm_unpacklo_epi8(val0,val0); //0,0,1,1,2,2,x,x, x,x,x,x,x,x,x,x, - val1 = _mm_unpacklo_epi16(val1,val1); //0,0,0,0, 1,1,1,1,2,2,2,2,x,x,x,x, - val0 = _mm_unpacklo_epi32(val1,val1); //0,0,0,0, 0,0,0,0,1,1,1,1,1,1,1,1, - val2 = _mm_unpackhi_epi32(val1,val1); // 2,2,2,2,2,2,2,2, x,x,x,x,x,x,x,x, - vst1q_u8(v.val, val0); - _M64(v.val[2], val2); - return v; -} - -uint16x4x3_t vld3_dup_u16(__transfersize(3) uint16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -_NEON2SSE_INLINE uint16x4x3_t vld3_dup_u16(__transfersize(3) uint16_t const * ptr) // VLD3.16 {d0[], d1[], d2[]}, [r0] -{ - uint16x4x3_t v; - __m128i val0, val1, val2; - val2 = LOAD_SI128(ptr); //0,1,2,x, x,x,x,x - val0 = _mm_shufflelo_epi16(val2, 0); //00 00 00 00 (all 0) - val1 = _mm_shufflelo_epi16(val2, 85); //01 01 01 01 (all 1) - val2 = _mm_shufflelo_epi16(val2, 170); //10 10 10 10 (all 2) - _M64(v.val[0], val0); - _M64(v.val[1], val1); - _M64(v.val[2], val2); - return v; -} - -uint32x2x3_t vld3_dup_u32(__transfersize(3) uint32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -_NEON2SSE_INLINE uint32x2x3_t vld3_dup_u32(__transfersize(3) uint32_t const * ptr) // VLD3.32 {d0[], d1[], d2[]}, [r0] -{ - uint32x2x3_t v; - __m128i val0, val1, val2; - val2 = LOAD_SI128(ptr); //0,1,2,x - val0 = _mm_shuffle_epi32(val2, 0 | (0 << 2) | (2 << 4) | (2 << 6)); //0,0,2,2 - val1 = _mm_shuffle_epi32(val2, 1 | (1 << 2) | (2 << 4) | (2 << 6)); //1,1,2,2 - val2 = _mm_srli_si128(val0, 8); //2,2,0x0,0x0 - _M64(v.val[0], val0); - _M64(v.val[1], val1); - _M64(v.val[2], val2); - return v; -} - -uint64x1x3_t vld3_dup_u64(__transfersize(3) uint64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE uint64x1x3_t vld3_dup_u64(__transfersize(3) uint64_t const * ptr) // VLD1.64 {d0, d1, d2}, [r0] -{ - uint64x1x3_t v; - v.val[0].m64_u64[0] = *(ptr); - v.val[1].m64_u64[0] = *(ptr + 1); - v.val[2].m64_u64[0] = *(ptr + 2); - return v; -} - -int8x8x3_t vld3_dup_s8(__transfersize(3) int8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -#define vld3_dup_s8(ptr) vld3_dup_u8((uint8_t*)ptr) - -int16x4x3_t vld3_dup_s16(__transfersize(3) int16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -#define vld3_dup_s16(ptr) vld3_dup_u16((uint16_t*)ptr) - -int32x2x3_t vld3_dup_s32(__transfersize(3) int32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -#define vld3_dup_s32(ptr) vld3_dup_u32((uint32_t*)ptr) - -int64x1x3_t vld3_dup_s64(__transfersize(3) int64_t const * ptr); // VLD1.64 {d0, d1, d2}, [r0] -#define vld3_dup_s64(ptr) vld3_dup_u64((uint64_t*)ptr) - - -float16x4x3_t vld3_dup_f16(__transfersize(3) __fp16 const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x2x3_t vld3_dup_f32(__transfersize(3) float32_t const * ptr); // VLD3.32 {d0[], d1[], d2[]}, [r0] -_NEON2SSE_INLINE float32x2x3_t vld3_dup_f32(__transfersize(3) float32_t const * ptr) // VLD3.32 {d0[], d1[], d2[]}, [r0] -{ - float32x2x3_t v; - int i; - for (i = 0; i<3; i++) { - v.val[i].m64_f32[0] = *(ptr + i); - v.val[i].m64_f32[1] = *(ptr + i); - } - return v; -} - -poly8x8x3_t vld3_dup_p8(__transfersize(3) poly8_t const * ptr); // VLD3.8 {d0[], d1[], d2[]}, [r0] -#define vld3_dup_p8 vld3_dup_u8 - -poly16x4x3_t vld3_dup_p16(__transfersize(3) poly16_t const * ptr); // VLD3.16 {d0[], d1[], d2[]}, [r0] -#define vld3_dup_p16 vld3_dup_s16 - - -//************* Duplicate (or propagate) quadruples: ******************* -//*********************************************************************** -//ptr[0] to all val[0] lanes, ptr[1] to all val[1] lanes, ptr[2] to all val[2] lanes and ptr[3] to all val[3] lanes -uint8x8x4_t vld4_dup_u8(__transfersize(4) uint8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -_NEON2SSE_INLINE uint8x8x4_t vld4_dup_u8(__transfersize(4) uint8_t const * ptr) // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -{ - uint8x8x4_t v; - __m128i val0, val1, val2; - val0 = LOAD_SI128(ptr); //0,1,2,3, x,x,x,x,x,x,x,x, x,x,x,x - val1 = _mm_unpacklo_epi8(val0,val0); //0,0,1,1,2,2,3,3, x,x,x,x,x,x,x,x, - val1 = _mm_unpacklo_epi16(val1,val1); //0,0,0,0, 1,1,1,1,2,2,2,2,3,3,3,3 - val0 = _mm_unpacklo_epi32(val1,val1); //0,0,0,0, 0,0,0,0,1,1,1,1,1,1,1,1, - val2 = _mm_unpackhi_epi32(val1,val1); // 2,2,2,2,2,2,2,2, 3,3,3,3, 3,3,3,3 - vst1q_u8(&v.val[0], val0); - vst1q_u8(&v.val[2], val2); - return v; -} - -uint16x4x4_t vld4_dup_u16(__transfersize(4) uint16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -_NEON2SSE_INLINE uint16x4x4_t vld4_dup_u16(__transfersize(4) uint16_t const * ptr) // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -{ - uint16x4x4_t v; - __m128i val0, val1, val2, val3; - val3 = LOAD_SI128(ptr); //0,1,2,3, x,x,x,x - val0 = _mm_shufflelo_epi16(val3, 0); //00 00 00 00 (all 0) - val1 = _mm_shufflelo_epi16(val3, 85); //01 01 01 01 (all 1) - val2 = _mm_shufflelo_epi16(val3, 170); //10 10 10 10 (all 2) - val3 = _mm_shufflelo_epi16(val3, 255); //11 11 11 11 (all 3) - _M64(v.val[0], val0); - _M64(v.val[1], val1); - _M64(v.val[2], val2); - _M64(v.val[3], val3); - return v; -} - -uint32x2x4_t vld4_dup_u32(__transfersize(4) uint32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -_NEON2SSE_INLINE uint32x2x4_t vld4_dup_u32(__transfersize(4) uint32_t const * ptr) // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -{ - uint32x2x4_t v; - __m128i val0, val1, val2, val3; - val3 = LOAD_SI128(ptr); //0,1,2,3 - val0 = _mm_shuffle_epi32(val3, 0 | (0 << 2) | (2 << 4) | (3 << 6)); //0,0,2,3 - val1 = _mm_shuffle_epi32(val3, 1 | (1 << 2) | (2 << 4) | (3 << 6)); //1,1,2,3 - val2 = _mm_shuffle_epi32(val3, 2 | (2 << 2) | (3 << 4) | (3 << 6)); //2,2,3,3 - val3 = _mm_shuffle_epi32(val3, 3 | (3 << 2) | (3 << 4) | (3 << 6)); //3,3,2,2 - _M64(v.val[0], val0); - _M64(v.val[1], val1); - _M64(v.val[2], val2); - _M64(v.val[3], val3); - return v; -} - -uint64x1x4_t vld4_dup_u64(__transfersize(4) uint64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE uint64x1x4_t vld4_dup_u64(__transfersize(4) uint64_t const * ptr) // VLD1.64 {d0, d1, d2, d3}, [r0] -{ - uint64x1x4_t v; - v.val[0].m64_u64[0] = *(ptr); - v.val[1].m64_u64[0] = *(ptr + 1); - v.val[2].m64_u64[0] = *(ptr + 2); - v.val[3].m64_u64[0] = *(ptr + 3); - return v; -} - -int8x8x4_t vld4_dup_s8(__transfersize(4) int8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -#define vld4_dup_s8(ptr) vld4_dup_u8((uint8_t*)ptr) - -int16x4x4_t vld4_dup_s16(__transfersize(4) int16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -#define vld4_dup_s16(ptr) vld4_dup_u16((uint16_t*)ptr) - -int32x2x4_t vld4_dup_s32(__transfersize(4) int32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -#define vld4_dup_s32(ptr) vld4_dup_u32((uint32_t*)ptr) - -int64x1x4_t vld4_dup_s64(__transfersize(4) int64_t const * ptr); // VLD1.64 {d0, d1, d2, d3}, [r0] -#define vld4_dup_s64(ptr) vld4_dup_u64((uint64_t*)ptr) - -float16x4x4_t vld4_dup_f16(__transfersize(4) __fp16 const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -float32x2x4_t vld4_dup_f32(__transfersize(4) float32_t const * ptr); // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -_NEON2SSE_INLINE float32x2x4_t vld4_dup_f32(__transfersize(4) float32_t const * ptr) // VLD4.32 {d0[], d1[], d2[], d3[]}, [r0] -{ - float32x2x4_t v; - int i; - for (i = 0; i<4; i++) { - v.val[i].m64_f32[0] = *(ptr + i); - v.val[i].m64_f32[1] = *(ptr + i); - } - return v; -} - -poly8x8x4_t vld4_dup_p8(__transfersize(4) poly8_t const * ptr); // VLD4.8 {d0[], d1[], d2[], d3[]}, [r0] -#define vld4_dup_p8 vld4_dup_u8 - -poly16x4x4_t vld4_dup_p16(__transfersize(4) poly16_t const * ptr); // VLD4.16 {d0[], d1[], d2[], d3[]}, [r0] -#define vld4_dup_p16 vld4_dup_u16 - - -//********************************************************************************** -//*******************Lane loads for an N-element structures *********************** -//********************************************************************************** -//********************** Lane pairs ************************************************ -//does vld1_lane_xx ptr[0] to src->val[0] at lane positon and ptr[1] to src->val[1] at lane positon -//we assume src is 16 bit aligned - -//!!!!!! Microsoft compiler does not allow xxxxxx_2t function arguments resulting in "formal parameter with __declspec(align('16')) won't be aligned" error -//to fix it the all functions below work with xxxxxx_2t pointers and the corresponding original functions are redefined - -//uint16x8x2_t vld2q_lane_u16(__transfersize(2) uint16_t const * ptr, uint16x8x2_t src,__constrange(0,7) int lane);// VLD2.16 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE uint16x8x2_t vld2q_lane_u16_ptr(__transfersize(2) uint16_t const * ptr, uint16x8x2_t* src,__constrange(0,7) int lane) // VLD2.16 {d0[0], d2[0]}, [r0] -{ - uint16x8x2_t v; - v.val[0] = vld1q_lane_s16 (ptr, src->val[0], lane); - v.val[1] = vld1q_lane_s16 ((ptr + 1), src->val[1], lane); - return v; -} -#define vld2q_lane_u16(ptr, src, lane) vld2q_lane_u16_ptr(ptr, &src, lane) - -//uint32x4x2_t vld2q_lane_u32(__transfersize(2) uint32_t const * ptr, uint32x4x2_t src,__constrange(0,3) int lane);// VLD2.32 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE uint32x4x2_t vld2q_lane_u32_ptr(__transfersize(2) uint32_t const * ptr, uint32x4x2_t* src,__constrange(0,3) int lane) // VLD2.32 {d0[0], d2[0]}, [r0] -{ - uint32x4x2_t v; - v.val[0] = _MM_INSERT_EPI32 (src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI32 (src->val[1], ptr[1], lane); - return v; -} -#define vld2q_lane_u32(ptr, src, lane) vld2q_lane_u32_ptr(ptr, &src, lane) - -//int16x8x2_t vld2q_lane_s16(__transfersize(2) int16_t const * ptr, int16x8x2_t src, __constrange(0,7)int lane);// VLD2.16 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE int16x8x2_t vld2q_lane_s16_ptr(__transfersize(2) int16_t const * ptr, int16x8x2_t* src, __constrange(0,7) int lane) -{ - int16x8x2_t v; - v.val[0] = vld1q_lane_s16 (ptr, src->val[0], lane); - v.val[1] = vld1q_lane_s16 ((ptr + 1), src->val[1], lane); - return v; -} -#define vld2q_lane_s16(ptr, src, lane) vld2q_lane_s16_ptr(ptr, &src, lane) - -//int32x4x2_t vld2q_lane_s32(__transfersize(2) int32_t const * ptr, int32x4x2_t src, __constrange(0,3)int lane);// VLD2.32 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE int32x4x2_t vld2q_lane_s32_ptr(__transfersize(2) int32_t const * ptr, int32x4x2_t* src, __constrange(0,3) int lane) -{ - int32x4x2_t v; - v.val[0] = _MM_INSERT_EPI32 (src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI32 (src->val[1], ptr[1], lane); - return v; -} -#define vld2q_lane_s32(ptr, src, lane) vld2q_lane_s32_ptr(ptr, &src, lane) - -//float16x8x2_t vld2q_lane_f16(__transfersize(2) __fp16 const * ptr, float16x8x2_t src, __constrange(0,7)int lane);// VLD2.16 {d0[0], d2[0]}, [r0] -//current IA SIMD doesn't support float16 - -//float32x4x2_t vld2q_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x4x2_t src,__constrange(0,3) int lane);// VLD2.32 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE float32x4x2_t vld2q_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x4x2_t* src,__constrange(0,3) int lane) // VLD2.32 {d0[0], d2[0]}, [r0] -{ - float32x4x2_t v; - v.val[0] = vld1q_lane_f32(ptr, src->val[0], lane); - v.val[1] = vld1q_lane_f32((ptr + 1), src->val[1], lane); - return v; -} -#define vld2q_lane_f32(ptr,src,lane) vld2q_lane_f32_ptr(ptr,&src,lane) - -//poly16x8x2_t vld2q_lane_p16(__transfersize(2) poly16_t const * ptr, poly16x8x2_t src,__constrange(0,7) int lane);// VLD2.16 {d0[0], d2[0]}, [r0] -#define vld2q_lane_p16 vld2q_lane_u16 - -//uint8x8x2_t vld2_lane_u8(__transfersize(2) uint8_t const * ptr, uint8x8x2_t src, __constrange(0,7) int lane);// VLD2.8 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE uint8x8x2_t vld2_lane_u8_ptr(__transfersize(2) uint8_t const * ptr, uint8x8x2_t* src, __constrange(0,7) int lane) // VLD2.8 {d0[0], d1[0]}, [r0] -{ - uint8x8x2_t v; - v.val[0] = vld1_lane_u8(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u8((ptr + 1), src->val[1], lane); - return v; -} -#define vld2_lane_u8(ptr, src, lane) vld2_lane_u8_ptr(ptr, &src, lane) - -//uint16x4x2_t vld2_lane_u16(__transfersize(2) uint16_t const * ptr, uint16x4x2_t src, __constrange(0,3)int lane);// VLD2.16 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE uint16x4x2_t vld2_lane_u16_ptr(__transfersize(2) uint16_t const * ptr, uint16x4x2_t* src, __constrange(0,3) int lane) -{ - uint16x4x2_t v; - v.val[0] = vld1_lane_u16(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u16((ptr + 1), src->val[1], lane); - return v; -} -#define vld2_lane_u16(ptr, src, lane) vld2_lane_u16_ptr(ptr, &src, lane) - -//uint32x2x2_t vld2_lane_u32(__transfersize(2) uint32_t const * ptr, uint32x2x2_t src, __constrange(0,1)int lane);// VLD2.32 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE uint32x2x2_t vld2_lane_u32_ptr(__transfersize(2) uint32_t const * ptr, uint32x2x2_t* src, __constrange(0,1) int lane) -{ - uint32x2x2_t v; - v.val[0] = vld1_lane_u32(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u32((ptr + 1), src->val[1], lane); - return v; -} -#define vld2_lane_u32(ptr, src, lane) vld2_lane_u32_ptr(ptr, &src, lane) - -//int8x8x2_t vld2_lane_s8(__transfersize(2) int8_t const * ptr, int8x8x2_t src, __constrange(0,7) int lane);// VLD2.8 {d0[0], d1[0]}, [r0] -int8x8x2_t vld2_lane_s8_ptr(__transfersize(2) int8_t const * ptr, int8x8x2_t * src, __constrange(0,7) int lane); // VLD2.8 {d0[0], d1[0]}, [r0] -#define vld2_lane_s8(ptr, src, lane) vld2_lane_u8(( uint8_t*) ptr, src, lane) - -//int16x4x2_t vld2_lane_s16(__transfersize(2) int16_t const * ptr, int16x4x2_t src, __constrange(0,3) int lane);// VLD2.16 {d0[0], d1[0]}, [r0] -int16x4x2_t vld2_lane_s16_ptr(__transfersize(2) int16_t const * ptr, int16x4x2_t * src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -#define vld2_lane_s16(ptr, src, lane) vld2_lane_u16(( uint16_t*) ptr, src, lane) - -//int32x2x2_t vld2_lane_s32(__transfersize(2) int32_t const * ptr, int32x2x2_t src, __constrange(0,1) int lane);// VLD2.32 {d0[0], d1[0]}, [r0] -int32x2x2_t vld2_lane_s32_ptr(__transfersize(2) int32_t const * ptr, int32x2x2_t * src, __constrange(0,1) int lane); // VLD2.32 {d0[0], d1[0]}, [r0] -#define vld2_lane_s32(ptr, src, lane) vld2_lane_u32(( uint32_t*) ptr, src, lane) - -//float16x4x2_t vld2_lane_f16(__transfersize(2) __fp16 const * ptr, float16x4x2_t src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -//current IA SIMD doesn't support float16 - -float32x2x2_t vld2_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x2x2_t * src,__constrange(0,1) int lane); // VLD2.32 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE float32x2x2_t vld2_lane_f32_ptr(__transfersize(2) float32_t const * ptr, float32x2x2_t * src,__constrange(0,1) int lane) -{ - float32x2x2_t v; - v.val[0] = vld1_lane_f32(ptr, src->val[0], lane); - v.val[1] = vld1_lane_f32((ptr + 1), src->val[1], lane); - return v; -} -#define vld2_lane_f32(ptr, src, lane) vld2_lane_f32_ptr(ptr, &src, lane) - -//poly8x8x2_t vld2_lane_p8(__transfersize(2) poly8_t const * ptr, poly8x8x2_t src, __constrange(0,7) int lane);// VLD2.8 {d0[0], d1[0]}, [r0] -poly8x8x2_t vld2_lane_p8_ptr(__transfersize(2) poly8_t const * ptr, poly8x8x2_t * src, __constrange(0,7) int lane); // VLD2.8 {d0[0], d1[0]}, [r0] -#define vld2_lane_p8 vld2_lane_u8 - -//poly16x4x2_t vld2_lane_p16(__transfersize(2) poly16_t const * ptr, poly16x4x2_t src, __constrange(0,3)int lane);// VLD2.16 {d0[0], d1[0]}, [r0] -poly16x4x2_t vld2_lane_p16_ptr(__transfersize(2) poly16_t const * ptr, poly16x4x2_t * src, __constrange(0,3) int lane); // VLD2.16 {d0[0], d1[0]}, [r0] -#define vld2_lane_p16 vld2_lane_u16 - -//*********** Lane triplets ********************** -//************************************************* -//does vld1_lane_xx ptr[0] to src->val[0], ptr[1] to src->val[1] and ptr[2] to src->val[2] at lane positon -//we assume src is 16 bit aligned - -//uint16x8x3_t vld3q_lane_u16(__transfersize(3) uint16_t const * ptr, uint16x8x3_t src,__constrange(0,7) int lane);// VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE uint16x8x3_t vld3q_lane_u16_ptr(__transfersize(3) uint16_t const * ptr, uint16x8x3_t* src,__constrange(0,7) int lane) // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -{ - uint16x8x3_t v; - v.val[0] = _MM_INSERT_EPI16 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI16 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI16 ( src->val[2], ptr[2], lane); - return v; -} -#define vld3q_lane_u16(ptr, src, lane) vld3q_lane_u16_ptr(ptr, &src, lane) - -//uint32x4x3_t vld3q_lane_u32(__transfersize(3) uint32_t const * ptr, uint32x4x3_t src,__constrange(0,3) int lane);// VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE uint32x4x3_t vld3q_lane_u32_ptr(__transfersize(3) uint32_t const * ptr, uint32x4x3_t* src,__constrange(0,3) int lane) // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -{ - uint32x4x3_t v; - v.val[0] = _MM_INSERT_EPI32 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI32 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI32 ( src->val[2], ptr[2], lane); - return v; -} -#define vld3q_lane_u32(ptr, src, lane) vld3q_lane_u32_ptr(ptr, &src, lane) - -//int16x8x3_t vld3q_lane_s16(__transfersize(3) int16_t const * ptr, int16x8x3_t src, __constrange(0,7)int lane);// VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE int16x8x3_t vld3q_lane_s16_ptr(__transfersize(3) int16_t const * ptr, int16x8x3_t* src, __constrange(0,7) int lane) // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -{ - int16x8x3_t v; - v.val[0] = _MM_INSERT_EPI16 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI16 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI16 ( src->val[2], ptr[2], lane); - return v; -} -#define vld3q_lane_s16(ptr, src, lane) vld3q_lane_s16_ptr(ptr, &src, lane) - -//int32x4x3_t vld3q_lane_s32(__transfersize(3) int32_t const * ptr, int32x4x3_t src, __constrange(0,3)int lane);// VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE int32x4x3_t vld3q_lane_s32_ptr(__transfersize(3) int32_t const * ptr, int32x4x3_t* src, __constrange(0,3) int lane) // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -{ - int32x4x3_t v; - v.val[0] = _MM_INSERT_EPI32 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI32 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI32 ( src->val[2], ptr[2], lane); - return v; -} -#define vld3q_lane_s32(ptr, src, lane) vld3q_lane_s32_ptr(ptr, &src, lane) - -float16x8x3_t vld3q_lane_f16_ptr(__transfersize(3) __fp16 const * ptr, float16x8x3_t * src, __constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -//current IA SIMD doesn't support float16 -#define vld3q_lane_f16(ptr, src, lane) vld3q_lane_f16_ptr(ptr, &src, lane) - - -//float32x4x3_t vld3q_lane_f32(__transfersize(3) float32_t const * ptr, float32x4x3_t src,__constrange(0,3) int lane);// VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE float32x4x3_t vld3q_lane_f32_ptr(__transfersize(3) float32_t const * ptr, float32x4x3_t* src,__constrange(0,3) int lane) // VLD3.32 {d0[0], d2[0], d4[0]}, [r0] -{ - float32x4x3_t v; - v.val[0] = vld1q_lane_f32(&ptr[0], src->val[0], lane); - v.val[1] = vld1q_lane_f32(&ptr[1], src->val[1], lane); - v.val[2] = vld1q_lane_f32(&ptr[2], src->val[2], lane); - return v; -} -#define vld3q_lane_f32(ptr,src,lane) vld3q_lane_f32_ptr(ptr,&src,lane) - -poly16x8x3_t vld3q_lane_p16_ptr(__transfersize(3) poly16_t const * ptr, poly16x8x3_t * src,__constrange(0,7) int lane); // VLD3.16 {d0[0], d2[0], d4[0]}, [r0] -#define vld3q_lane_p16 vld3q_lane_u16 - -//uint8x8x3_t vld3_lane_u8(__transfersize(3) uint8_t const * ptr, uint8x8x3_t src, __constrange(0,7) int lane);// VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE uint8x8x3_t vld3_lane_u8_ptr(__transfersize(3) uint8_t const * ptr, uint8x8x3_t* src, __constrange(0,7) int lane) // VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -{ - uint8x8x3_t v; - v.val[0] = vld1_lane_u8(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u8((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_u8((ptr + 2), src->val[2], lane); - return v; -} -#define vld3_lane_u8(ptr, src, lane) vld3_lane_u8_ptr(ptr, &src, lane) - -//uint16x4x3_t vld3_lane_u16(__transfersize(3) uint16_t const * ptr, uint16x4x3_t src, __constrange(0,3)int lane);// VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE uint16x4x3_t vld3_lane_u16_ptr(__transfersize(3) uint16_t const * ptr, uint16x4x3_t* src, __constrange(0,3) int lane) // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -{ - uint16x4x3_t v; - v.val[0] = vld1_lane_u16(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u16((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_u16((ptr + 2), src->val[2], lane); - return v; -} -#define vld3_lane_u16(ptr, src, lane) vld3_lane_u16_ptr(ptr, &src, lane) - -//uint32x2x3_t vld3_lane_u32(__transfersize(3) uint32_t const * ptr, uint32x2x3_t src, __constrange(0,1)int lane);// VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE uint32x2x3_t vld3_lane_u32_ptr(__transfersize(3) uint32_t const * ptr, uint32x2x3_t* src, __constrange(0,1) int lane) // VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -{ - //need to merge into 128 bit anyway - uint32x2x3_t v; - v.val[0] = vld1_lane_u32(ptr, src->val[0], lane);; - v.val[1] = vld1_lane_u32((ptr + 1), src->val[1], lane);; - v.val[2] = vld1_lane_u32((ptr + 2), src->val[2], lane);; - return v; -} -#define vld3_lane_u32(ptr, src, lane) vld3_lane_u32_ptr(ptr, &src, lane) - -int8x8x3_t vld3_lane_s8_ptr(__transfersize(3) int8_t const * ptr, int8x8x3_t * src, __constrange(0,7) int lane); // VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -#define vld3_lane_s8(ptr, src, lane) vld3_lane_u8_ptr(( uint8_t*) ptr, &src, lane) - -int16x4x3_t vld3_lane_s16_ptr(__transfersize(3) int16_t const * ptr, int16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -#define vld3_lane_s16(ptr, src, lane) vld3_lane_u16_ptr(( uint16_t*) ptr, &src, lane) - -int32x2x3_t vld3_lane_s32_ptr(__transfersize(3) int32_t const * ptr, int32x2x3_t * src, __constrange(0,1) int lane); // VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -#define vld3_lane_s32(ptr, src, lane) vld3_lane_u32_ptr(( uint32_t*) ptr, &src, lane) - -float16x4x3_t vld3_lane_f16_ptr(__transfersize(3) __fp16 const * ptr, float16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -//current IA SIMD doesn't support float16 - -//float32x2x3_t vld3_lane_f32(__transfersize(3) float32_t const * ptr, float32x2x3_t src,__constrange(0,1) int lane);// VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE float32x2x3_t vld3_lane_f32_ptr(__transfersize(3) float32_t const * ptr, float32x2x3_t* src,__constrange(0,1) int lane) // VLD3.32 {d0[0], d1[0], d2[0]}, [r0] -{ - float32x2x3_t v; - v.val[0] = vld1_lane_f32(ptr, src->val[0], lane); - v.val[1] = vld1_lane_f32((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_f32((ptr + 2), src->val[2], lane); - return v; -} -#define vld3_lane_f32(ptr,src,lane) vld3_lane_f32_ptr(ptr,&src,lane) - -//poly8x8x3_t vld3_lane_p8_ptr(__transfersize(3) poly8_t const * ptr, poly8x8x3_t * src, __constrange(0,7) int lane); // VLD3.8 {d0[0], d1[0], d2[0]}, [r0] -#define vld3_lane_p8 vld3_lane_u8 - -//poly16x4x3_t vld3_lane_p16(__transfersize(3) poly16_t const * ptr, poly16x4x3_t * src, __constrange(0,3) int lane); // VLD3.16 {d0[0], d1[0], d2[0]}, [r0] -#define vld3_lane_p16 vld3_lane_u16 - -//******************* Lane Quadruples load *************************** -//********************************************************************* -//does vld1_lane_xx ptr[0] to src->val[0], ptr[1] to src->val[1], ptr[2] to src->val[2] and ptr[3] to src->val[3] at lane positon -//we assume src is 16 bit aligned - -//uint16x8x4_t vld4q_lane_u16(__transfersize(4) uint16_t const * ptr, uint16x8x4_t src,__constrange(0,7) int lane)// VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE uint16x8x4_t vld4q_lane_u16_ptr(__transfersize(4) uint16_t const * ptr, uint16x8x4_t* src,__constrange(0,7) int lane) -{ - uint16x8x4_t v; - v.val[0] = _MM_INSERT_EPI16 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI16 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI16 ( src->val[2], ptr[2], lane); - v.val[3] = _MM_INSERT_EPI16 ( src->val[3], ptr[3], lane); - return v; -} -#define vld4q_lane_u16(ptr, src, lane) vld4q_lane_u16_ptr(ptr, &src, lane) - -//uint32x4x4_t vld4q_lane_u32(__transfersize(4) uint32_t const * ptr, uint32x4x4_t src,__constrange(0,3) int lane)// VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE uint32x4x4_t vld4q_lane_u32_ptr(__transfersize(4) uint32_t const * ptr, uint32x4x4_t* src,__constrange(0,3) int lane) -{ - uint32x4x4_t v; - v.val[0] = _MM_INSERT_EPI32 ( src->val[0], ptr[0], lane); - v.val[1] = _MM_INSERT_EPI32 ( src->val[1], ptr[1], lane); - v.val[2] = _MM_INSERT_EPI32 ( src->val[2], ptr[2], lane); - v.val[3] = _MM_INSERT_EPI32 ( src->val[3], ptr[3], lane); - return v; -} -#define vld4q_lane_u32(ptr, src, lane) vld4q_lane_u32_ptr(ptr, &src, lane) - -//int16x8x4_t vld4q_lane_s16(__transfersize(4) int16_t const * ptr, int16x8x4_t src, __constrange(0,7)int lane);// VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -int16x8x4_t vld4q_lane_s16_ptr(__transfersize(4) int16_t const * ptr, int16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -#define vld4q_lane_s16(ptr, src, lane) vld4q_lane_u16(( uint16_t*) ptr, src, lane) - -//int32x4x4_t vld4q_lane_s32(__transfersize(4) int32_t const * ptr, int32x4x4_t src, __constrange(0,3)int lane);// VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -int32x4x4_t vld4q_lane_s32_ptr(__transfersize(4) int32_t const * ptr, int32x4x4_t * src, __constrange(0,3) int lane); // VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -#define vld4q_lane_s32(ptr, src, lane) vld4q_lane_u32(( uint32_t*) ptr, src, lane) - -//float16x8x4_t vld4q_lane_f16(__transfersize(4) __fp16 const * ptr, float16x8x4_t src, __constrange(0,7)int lane);// VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -float16x8x4_t vld4q_lane_f16_ptr(__transfersize(4) __fp16 const * ptr, float16x8x4_t * src, __constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -//current IA SIMD doesn't support float16 - -//float32x4x4_t vld4q_lane_f32(__transfersize(4) float32_t const * ptr, float32x4x4_t src,__constrange(0,3) int lane)// VLD4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE float32x4x4_t vld4q_lane_f32_ptr(__transfersize(4) float32_t const * ptr, float32x4x4_t* src,__constrange(0,3) int lane) -{ - float32x4x4_t v; - v.val[0] = vld1q_lane_f32(&ptr[0], src->val[0], lane); - v.val[1] = vld1q_lane_f32(&ptr[1], src->val[1], lane); - v.val[2] = vld1q_lane_f32(&ptr[2], src->val[2], lane); - v.val[3] = vld1q_lane_f32(&ptr[3], src->val[3], lane); - return v; -} -#define vld4q_lane_f32(ptr,val,lane) vld4q_lane_f32_ptr(ptr,&val,lane) - -//poly16x8x4_t vld4q_lane_p16(__transfersize(4) poly16_t const * ptr, poly16x8x4_t src,__constrange(0,7) int lane);// VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -poly16x8x4_t vld4q_lane_p16_ptr(__transfersize(4) poly16_t const * ptr, poly16x8x4_t * src,__constrange(0,7) int lane); // VLD4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -#define vld4q_lane_p16 vld4q_lane_u16 - -//uint8x8x4_t vld4_lane_u8(__transfersize(4) uint8_t const * ptr, uint8x8x4_t src, __constrange(0,7) int lane)// VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE uint8x8x4_t vld4_lane_u8_ptr(__transfersize(4) uint8_t const * ptr, uint8x8x4_t* src, __constrange(0,7) int lane) -{ - uint8x8x4_t v; - v.val[0] = vld1_lane_u8(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u8((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_u8((ptr + 2), src->val[2], lane); - v.val[3] = vld1_lane_u8((ptr + 3), src->val[3], lane); - return v; -} -#define vld4_lane_u8(ptr, src, lane) vld4_lane_u8_ptr(ptr, &src, lane) - -//uint16x4x4_t vld4_lane_u16(__transfersize(4) uint16_t const * ptr, uint16x4x4_t src, __constrange(0,3)int lane)// VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE uint16x4x4_t vld4_lane_u16_ptr(__transfersize(4) uint16_t const * ptr, uint16x4x4_t* src, __constrange(0,3) int lane) -{ - uint16x4x4_t v; - v.val[0] = vld1_lane_u16(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u16((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_u16((ptr + 2), src->val[2], lane); - v.val[3] = vld1_lane_u16((ptr + 3), src->val[3], lane); - return v; -} -#define vld4_lane_u16(ptr, src, lane) vld4_lane_u16_ptr(ptr, &src, lane) - -//uint32x2x4_t vld4_lane_u32(__transfersize(4) uint32_t const * ptr, uint32x2x4_t src, __constrange(0,1)int lane)// VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE uint32x2x4_t vld4_lane_u32_ptr(__transfersize(4) uint32_t const * ptr, uint32x2x4_t* src, __constrange(0,1) int lane) -{ - uint32x2x4_t v; - v.val[0] = vld1_lane_u32(ptr, src->val[0], lane); - v.val[1] = vld1_lane_u32((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_u32((ptr + 2), src->val[2], lane); - v.val[3] = vld1_lane_u32((ptr + 3), src->val[3], lane); - return v; -} -#define vld4_lane_u32(ptr, src, lane) vld4_lane_u32_ptr(ptr, &src, lane) - -//int8x8x4_t vld4_lane_s8(__transfersize(4) int8_t const * ptr, int8x8x4_t src, __constrange(0,7) int lane);// VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int8x8x4_t vld4_lane_s8_ptr(__transfersize(4) int8_t const * ptr, int8x8x4_t * src, __constrange(0,7) int lane); -#define vld4_lane_s8(ptr,src,lane) vld4_lane_u8((uint8_t*)ptr,src,lane) - -//int16x4x4_t vld4_lane_s16(__transfersize(4) int16_t const * ptr, int16x4x4_t src, __constrange(0,3) int lane);// VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int16x4x4_t vld4_lane_s16_ptr(__transfersize(4) int16_t const * ptr, int16x4x4_t * src, __constrange(0,3) int lane); -#define vld4_lane_s16(ptr,src,lane) vld4_lane_u16((uint16_t*)ptr,src,lane) - -//int32x2x4_t vld4_lane_s32(__transfersize(4) int32_t const * ptr, int32x2x4_t src, __constrange(0,1) int lane);// VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -int32x2x4_t vld4_lane_s32_ptr(__transfersize(4) int32_t const * ptr, int32x2x4_t * src, __constrange(0,1) int lane); -#define vld4_lane_s32(ptr,src,lane) vld4_lane_u32((uint32_t*)ptr,src,lane) - -//float16x4x4_t vld4_lane_f16(__transfersize(4) __fp16 const * ptr, float16x4x4_t src, __constrange(0,3)int lane);// VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -float16x4x4_t vld4_lane_f16_ptr(__transfersize(4) __fp16 const * ptr, float16x4x4_t * src, __constrange(0,3) int lane); -//current IA SIMD doesn't support float16 - -//float32x2x4_t vld4_lane_f32(__transfersize(4) float32_t const * ptr, float32x2x4_t src,__constrange(0,1) int lane)// VLD4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE float32x2x4_t vld4_lane_f32_ptr(__transfersize(4) float32_t const * ptr, float32x2x4_t* src,__constrange(0,1) int lane) -{ - //serial solution may be faster - float32x2x4_t v; - v.val[0] = vld1_lane_f32(ptr, src->val[0], lane); - v.val[1] = vld1_lane_f32((ptr + 1), src->val[1], lane); - v.val[2] = vld1_lane_f32((ptr + 2), src->val[2], lane); - v.val[3] = vld1_lane_f32((ptr + 3), src->val[3], lane); - return v; -} -#define vld4_lane_f32(ptr,src,lane) vld4_lane_f32_ptr(ptr,&src,lane) - -//poly8x8x4_t vld4_lane_p8(__transfersize(4) poly8_t const * ptr, poly8x8x4_t src, __constrange(0,7) int lane);// VLD4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -poly8x8x4_t vld4_lane_p8_ptr(__transfersize(4) poly8_t const * ptr, poly8x8x4_t * src, __constrange(0,7) int lane); -#define vld4_lane_p8 vld4_lane_u8 - -//poly16x4x4_t vld4_lane_p16(__transfersize(4) poly16_t const * ptr, poly16x4x4_t src, __constrange(0,3)int lane);// VLD4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -poly16x4x4_t vld4_lane_p16_ptr(__transfersize(4) poly16_t const * ptr, poly16x4x4_t * src, __constrange(0,3) int lane); -#define vld4_lane_p16 vld4_lane_u16 - -//******************* Store duplets ********************************************* -//******************************************************************************** -//here we assume the ptr is 16bit aligned. If not we need to use _mm_storeu_si128 like shown in vst1q_u8 function -//If necessary you need to modify all store functions accordingly. See more comments to "Store single" functions -//void vst2q_u8(__transfersize(32) uint8_t * ptr, uint8x16x2_t val)// VST2.8 {d0, d2}, [r0] -_NEON2SSE_INLINE void vst2q_u8_ptr(__transfersize(32) uint8_t * ptr, uint8x16x2_t* val) -{ - uint8x16x2_t v; - v.val[0] = _mm_unpacklo_epi8(val->val[0], val->val[1]); - v.val[1] = _mm_unpackhi_epi8(val->val[0], val->val[1]); - vst1q_u8 (ptr, v.val[0]); - vst1q_u8 ((ptr + 16), v.val[1]); -} -#define vst2q_u8(ptr, val) vst2q_u8_ptr(ptr, &val) - -//void vst2q_u16(__transfersize(16) uint16_t * ptr, uint16x8x2_t val)// VST2.16 {d0, d2}, [r0] -_NEON2SSE_INLINE void vst2q_u16_ptr(__transfersize(16) uint16_t * ptr, uint16x8x2_t* val) -{ - uint16x8x2_t v; - v.val[0] = _mm_unpacklo_epi16(val->val[0], val->val[1]); - v.val[1] = _mm_unpackhi_epi16(val->val[0], val->val[1]); - vst1q_u16 (ptr, v.val[0]); - vst1q_u16 ((ptr + 8), v.val[1]); -} -#define vst2q_u16(ptr, val) vst2q_u16_ptr(ptr, &val) - -//void vst2q_u32(__transfersize(8) uint32_t * ptr, uint32x4x2_t val)// VST2.32 {d0, d2}, [r0] -_NEON2SSE_INLINE void vst2q_u32_ptr(__transfersize(8) uint32_t* ptr, uint32x4x2_t* val) -{ - uint32x4x2_t v; - v.val[0] = _mm_unpacklo_epi32(val->val[0], val->val[1]); - v.val[1] = _mm_unpackhi_epi32(val->val[0], val->val[1]); - vst1q_u32 (ptr, v.val[0]); - vst1q_u32 ((ptr + 4), v.val[1]); -} -#define vst2q_u32(ptr, val) vst2q_u32_ptr(ptr, &val) - -//void vst2q_s8(__transfersize(32) int8_t * ptr, int8x16x2_t val); // VST2.8 {d0, d2}, [r0] -void vst2q_s8_ptr(__transfersize(32) int8_t * ptr, int8x16x2_t * val); -#define vst2q_s8(ptr, val) vst2q_u8((uint8_t*)(ptr), val) - -//void vst2q_s16(__transfersize(16) int16_t * ptr, int16x8x2_t val);// VST2.16 {d0, d2}, [r0] -void vst2q_s16_ptr(__transfersize(16) int16_t * ptr, int16x8x2_t * val); -#define vst2q_s16(ptr, val) vst2q_u16((uint16_t*)(ptr), val) - -//void vst2q_s32(__transfersize(8) int32_t * ptr, int32x4x2_t val);// VST2.32 {d0, d2}, [r0] -void vst2q_s32_ptr(__transfersize(8) int32_t * ptr, int32x4x2_t * val); -#define vst2q_s32(ptr, val) vst2q_u32((uint32_t*)(ptr), val) - -//void vst2q_f16(__transfersize(16) __fp16 * ptr, float16x8x2_t val);// VST2.16 {d0, d2}, [r0] -void vst2q_f16_ptr(__transfersize(16) __fp16 * ptr, float16x8x2_t * val); -// IA32 SIMD doesn't work with 16bit floats currently - -//void vst2q_f32(__transfersize(8) float32_t * ptr, float32x4x2_t val)// VST2.32 {d0, d2}, [r0] -_NEON2SSE_INLINE void vst2q_f32_ptr(__transfersize(8) float32_t* ptr, float32x4x2_t* val) -{ - float32x4x2_t v; - v.val[0] = _mm_unpacklo_ps(val->val[0], val->val[1]); - v.val[1] = _mm_unpackhi_ps(val->val[0], val->val[1]); - vst1q_f32 (ptr, v.val[0]); - vst1q_f32 ((ptr + 4), v.val[1]); -} -#define vst2q_f32(ptr, val) vst2q_f32_ptr(ptr, &val) - -//void vst2q_p8(__transfersize(32) poly8_t * ptr, poly8x16x2_t val);// VST2.8 {d0, d2}, [r0] -void vst2q_p8_ptr(__transfersize(32) poly8_t * ptr, poly8x16x2_t * val); -#define vst2q_p8 vst2q_u8 - -//void vst2q_p16(__transfersize(16) poly16_t * ptr, poly16x8x2_t val);// VST2.16 {d0, d2}, [r0] -void vst2q_p16_ptr(__transfersize(16) poly16_t * ptr, poly16x8x2_t * val); -#define vst2q_p16 vst2q_u16 - -//void vst2_u8(__transfersize(16) uint8_t * ptr, uint8x8x2_t val);// VST2.8 {d0, d1}, [r0] -_NEON2SSE_INLINE void vst2_u8_ptr(__transfersize(16) uint8_t * ptr, uint8x8x2_t* val) -{ - __m128i v0; - v0 = _mm_unpacklo_epi8(_pM128i(val->val[0]), _pM128i(val->val[1])); - vst1q_u8 (ptr, v0); -} -#define vst2_u8(ptr, val) vst2_u8_ptr(ptr, &val) - -//void vst2_u16(__transfersize(8) uint16_t * ptr, uint16x4x2_t val);// VST2.16 {d0, d1}, [r0] -_NEON2SSE_INLINE void vst2_u16_ptr(__transfersize(8) uint16_t * ptr, uint16x4x2_t* val) -{ - __m128i v0; - v0 = _mm_unpacklo_epi16(_pM128i(val->val[0]), _pM128i(val->val[1])); - vst1q_u16 (ptr, v0); -} -#define vst2_u16(ptr, val) vst2_u16_ptr(ptr, &val) - -//void vst2_u32(__transfersize(4) uint32_t * ptr, uint32x2x2_t val);// VST2.32 {d0, d1}, [r0] -_NEON2SSE_INLINE void vst2_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x2x2_t* val) -{ - __m128i v0; - v0 = _mm_unpacklo_epi32(_pM128i(val->val[0]), _pM128i(val->val[1])); - vst1q_u32 (ptr, v0); -} -#define vst2_u32(ptr, val) vst2_u32_ptr(ptr, &val) - - -//void vst2_u64(__transfersize(2) uint64_t * ptr, uint64x1x2_t val);// VST1.64 {d0, d1}, [r0] -void vst2_u64_ptr(__transfersize(2) uint64_t * ptr, uint64x1x2_t * val); -_NEON2SSE_INLINE void vst2_u64_ptr(__transfersize(2) uint64_t * ptr, uint64x1x2_t* val) -{ - *(ptr) = val->val[0].m64_u64[0]; - *(ptr + 1) = val->val[1].m64_u64[0]; -} -#define vst2_u64(ptr, val) vst2_u64_ptr(ptr, &val) - -//void vst2_s8(__transfersize(16) int8_t * ptr, int8x8x2_t val);// VST2.8 {d0, d1}, [r0] -#define vst2_s8(ptr, val) vst2_u8((uint8_t*) ptr, val) - -//void vst2_s16(__transfersize(8) int16_t * ptr, int16x4x2_t val); // VST2.16 {d0, d1}, [r0] -#define vst2_s16(ptr,val) vst2_u16((uint16_t*) ptr, val) - -//void vst2_s32(__transfersize(4) int32_t * ptr, int32x2x2_t val); // VST2.32 {d0, d1}, [r0] -#define vst2_s32(ptr,val) vst2_u32((uint32_t*) ptr, val) - -//void vst2_s64(__transfersize(2) int64_t * ptr, int64x1x2_t val); -#define vst2_s64(ptr,val) vst2_u64((uint64_t*) ptr,val) - -//void vst2_f16(__transfersize(8) __fp16 * ptr, float16x4x2_t val); // VST2.16 {d0, d1}, [r0] -//current IA SIMD doesn't support float16 - -//void vst2_f32(__transfersize(4) float32_t * ptr, float32x2x2_t val); // VST2.32 {d0, d1}, [r0] -_NEON2SSE_INLINE void vst2_f32_ptr(__transfersize(4) float32_t* ptr, float32x2x2_t* val) -{ - *(ptr) = val->val[0].m64_f32[0]; - *(ptr + 1) = val->val[1].m64_f32[0]; - *(ptr + 2) = val->val[0].m64_f32[1]; - *(ptr + 3) = val->val[1].m64_f32[1]; -} -#define vst2_f32(ptr, val) vst2_f32_ptr(ptr, &val) - -//void vst2_p8_ptr(__transfersize(16) poly8_t * ptr, poly8x8x2_t * val); // VST2.8 {d0, d1}, [r0] -#define vst2_p8 vst2_u8 - -//void vst2_p16_ptr(__transfersize(8) poly16_t * ptr, poly16x4x2_t * val); // VST2.16 {d0, d1}, [r0] -#define vst2_p16 vst2_u16 - -//******************** Triplets store ***************************************** -//****************************************************************************** -//void vst3q_u8(__transfersize(48) uint8_t * ptr, uint8x16x3_t val)// VST3.8 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE void vst3q_u8_ptr(__transfersize(48) uint8_t * ptr, uint8x16x3_t* val) -{ - uint8x16x3_t v; - __m128i v0,v1,v2, cff, bldmask; - _NEON2SSE_ALIGN_16 uint8_t mask0[16] = {0, 1, 0xff, 2, 3,0xff, 4, 5,0xff, 6,7,0xff, 8,9,0xff, 10}; - _NEON2SSE_ALIGN_16 uint8_t mask1[16] = {0, 0xff, 1, 2, 0xff, 3, 4, 0xff, 5, 6, 0xff, 7,8,0xff, 9,10}; - _NEON2SSE_ALIGN_16 uint8_t mask2[16] = {0xff, 6, 7, 0xff, 8, 9,0xff, 10, 11,0xff, 12,13,0xff, 14,15,0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2lo[16] = {0xff,0xff, 0, 0xff,0xff, 1, 0xff,0xff, 2, 0xff,0xff, 3, 0xff,0xff, 4, 0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2med[16] = {0xff, 5, 0xff, 0xff, 6, 0xff,0xff, 7, 0xff,0xff, 8, 0xff,0xff, 9, 0xff, 0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2hi[16] = {10, 0xff,0xff, 11, 0xff,0xff, 12, 0xff,0xff, 13, 0xff,0xff, 14, 0xff, 0xff, 15}; - - v0 = _mm_unpacklo_epi8(val->val[0], val->val[1]); //0,1, 3,4, 6,7, 9,10, 12,13, 15,16, 18,19, 21,22 - v2 = _mm_unpackhi_epi8(val->val[0], val->val[1]); //24,25, 27,28, 30,31, 33,34, 36,37, 39,40, 42,43, 45,46 - v1 = _mm_alignr_epi8(v2, v0, 11); //12,13, 15,16, 18,19, 21,22, 24,25, 27,28, 30,31, 33,34 - v.val[0] = _mm_shuffle_epi8(v0, *(__m128i*)mask0); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2lo); //make plugs for the v.val[2] data embedding - cff = _mm_cmpeq_epi8(v0, v0); //all ff - bldmask = _mm_cmpeq_epi8(*(__m128i*)mask0, cff); - v.val[0] = _MM_BLENDV_EPI8(v.val[0], v.val[2], bldmask); - vst1q_u8(ptr, v.val[0]); - v.val[0] = _mm_shuffle_epi8(v1, *(__m128i*)mask1); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2med); //make plugs for the v.val[2] data embedding - bldmask = _mm_cmpeq_epi8(*(__m128i*)mask1, cff); - v.val[1] = _MM_BLENDV_EPI8(v.val[0],v.val[2], bldmask); - vst1q_u8((ptr + 16), v.val[1]); - v.val[0] = _mm_shuffle_epi8(v2, *(__m128i*)mask2); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2hi); //make plugs for the v.val[2] data embedding - bldmask = _mm_cmpeq_epi8(*(__m128i*)mask2, cff); - v.val[2] = _MM_BLENDV_EPI8(v.val[0],v.val[2], bldmask ); - vst1q_u8((ptr + 32), v.val[2]); -} -#define vst3q_u8(ptr, val) vst3q_u8_ptr(ptr, &val) - -//void vst3q_u16(__transfersize(24) uint16_t * ptr, uint16x8x3_t val)// VST3.16 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE void vst3q_u16_ptr(__transfersize(24) uint16_t * ptr, uint16x8x3_t* val) -{ - uint16x8x3_t v; - __m128i v0,v1,v2, cff, bldmask; - _NEON2SSE_ALIGN_16 uint8_t mask0[16] = {0,1, 2,3, 0xff,0xff, 4,5, 6,7,0xff,0xff, 8,9,10,11}; - _NEON2SSE_ALIGN_16 uint8_t mask1[16] = {0xff, 0xff, 0,1, 2,3, 0xff,0xff, 4,5, 6,7, 0xff,0xff, 8,9}; - _NEON2SSE_ALIGN_16 uint8_t mask2[16] = {6,7,0xff,0xff, 8,9,10,11, 0xff, 0xff, 12,13,14,15, 0xff, 0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2lo[16] = {0xff,0xff, 0xff,0xff, 0,1, 0xff,0xff, 0xff,0xff, 2,3, 0xff,0xff, 0xff,0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2med[16] = {4,5, 0xff,0xff,0xff,0xff, 6,7, 0xff, 0xff,0xff,0xff, 8,9, 0xff, 0xff}; - _NEON2SSE_ALIGN_16 uint8_t mask2hi[16] = {0xff, 0xff, 10,11, 0xff, 0xff, 0xff, 0xff, 12,13, 0xff, 0xff, 0xff, 0xff,14,15}; - - v0 = _mm_unpacklo_epi16(val->val[0], val->val[1]); //0,1, 3,4, 6,7, 9,10 - v2 = _mm_unpackhi_epi16(val->val[0], val->val[1]); //12,13, 15,16, 18,19, 21,22, - v1 = _mm_alignr_epi8(v2, v0, 12); //9,10, 12,13, 15,16, 18,19 - v.val[0] = _mm_shuffle_epi8(v0, *(__m128i*)mask0); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2lo); //make plugs for the v.val[2] data embedding - cff = _mm_cmpeq_epi16(v0, v0); //all ff - bldmask = _mm_cmpeq_epi16(*(__m128i*)mask0, cff); - v.val[0] = _MM_BLENDV_EPI8(v.val[0], v.val[2], bldmask); - vst1q_u16(ptr, v.val[0]); - v.val[0] = _mm_shuffle_epi8(v1, *(__m128i*)mask1); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2med); //make plugs for the v.val[2] data embedding - bldmask = _mm_cmpeq_epi16(*(__m128i*)mask1, cff); - v.val[1] = _MM_BLENDV_EPI8(v.val[0],v.val[2], bldmask); - vst1q_u16((ptr + 8), v.val[1]); - v.val[0] = _mm_shuffle_epi8(v2, *(__m128i*)mask2); //make holes for the v.val[2] data embedding - v.val[2] = _mm_shuffle_epi8(val->val[2], *(__m128i*)mask2hi); //make plugs for the v.val[2] data embedding - bldmask = _mm_cmpeq_epi16(*(__m128i*)mask2, cff); - v.val[2] = _MM_BLENDV_EPI8(v.val[0],v.val[2], bldmask ); - vst1q_u16((ptr + 16), v.val[2]); -} -#define vst3q_u16(ptr, val) vst3q_u16_ptr(ptr, &val) - -//void vst3q_u32(__transfersize(12) uint32_t * ptr, uint32x4x3_t val)// VST3.32 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE void vst3q_u32_ptr(__transfersize(12) uint32_t * ptr, uint32x4x3_t* val) -{ - //a0,a1,a2,a3, b0,b1,b2,b3, c0,c1,c2,c3 -> a0,b0,c0,a1, b1,c1,a2,b2, c2,a3,b3,c3 - uint32x4x3_t v; - __m128i tmp0, tmp1,tmp2; - tmp0 = _mm_unpacklo_epi32(val->val[0], val->val[1]); //a0,b0,a1,b1 - tmp1 = _mm_unpackhi_epi32(val->val[0], val->val[1]); //a2,b2,a3,b3 - tmp2 = _mm_unpacklo_epi32(val->val[1], val->val[2]); //b0,c0,b1,c1 - v.val[1] = _mm_castps_si128(_mm_shuffle_ps(_mm_castsi128_ps(tmp2),_mm_castsi128_ps(tmp1), _MM_SHUFFLE(1,0,3,2))); //b1,c1,a2,b2, - v.val[2] = _mm_unpackhi_epi64(tmp1, val->val[2]); //a3,b3, c2,c3 - v.val[2] = _mm_shuffle_epi32(v.val[2], 2 | (0 << 2) | (1 << 4) | (3 << 6)); //c2,a3,b3,c3 - tmp1 = _mm_unpacklo_epi32(tmp2,val->val[0]); //b0,a0,c0,a1 - v.val[0] = _mm_castps_si128(_mm_shuffle_ps(_mm_castsi128_ps(tmp0),_mm_castsi128_ps(tmp1), _MM_SHUFFLE(3,2,1,0))); //a0,b0,c0,a1, - - vst1q_u32(ptr, v.val[0]); - vst1q_u32((ptr + 4), v.val[1]); - vst1q_u32((ptr + 8), v.val[2]); -} -#define vst3q_u32(ptr, val) vst3q_u32_ptr(ptr, &val) - -//void vst3q_s8(__transfersize(48) int8_t * ptr, int8x16x3_t val); -void vst3q_s8_ptr(__transfersize(48) int8_t * ptr, int8x16x3_t * val); -#define vst3q_s8(ptr, val) vst3q_u8((uint8_t*)(ptr), val) - -//void vst3q_s16(__transfersize(24) int16_t * ptr, int16x8x3_t val); -void vst3q_s16_ptr(__transfersize(24) int16_t * ptr, int16x8x3_t * val); -#define vst3q_s16(ptr, val) vst3q_u16((uint16_t*)(ptr), val) - -//void vst3q_s32(__transfersize(12) int32_t * ptr, int32x4x3_t val); -void vst3q_s32_ptr(__transfersize(12) int32_t * ptr, int32x4x3_t * val); -#define vst3q_s32(ptr, val) vst3q_u32((uint32_t*)(ptr), val) - -//void vst3q_f16(__transfersize(24) __fp16 * ptr, float16x8x3_t val);// VST3.16 {d0, d2, d4}, [r0] -void vst3q_f16_ptr(__transfersize(24) __fp16 * ptr, float16x8x3_t * val); -// IA32 SIMD doesn't work with 16bit floats currently - -//void vst3q_f32(__transfersize(12) float32_t * ptr, float32x4x3_t val)// VST3.32 {d0, d2, d4}, [r0] -_NEON2SSE_INLINE void vst3q_f32_ptr(__transfersize(12) float32_t * ptr, float32x4x3_t* val) -{ - float32x4x3_t v; - __m128 tmp0, tmp1,tmp2; - tmp0 = _mm_unpacklo_ps(val->val[0], val->val[1]); //a0,b0,a1,b1 - tmp1 = _mm_unpackhi_ps(val->val[0], val->val[1]); //a2,b2,a3,b3 - tmp2 = _mm_unpacklo_ps(val->val[1], val->val[2]); //b0,c0,b1,c1 - v.val[1] = _mm_shuffle_ps(tmp2,tmp1, _MM_SHUFFLE(1,0,3,2)); //b1,c1,a2,b2, - v.val[2] = _mm_movehl_ps(val->val[2],tmp1); //a3,b3, c2,c3 - v.val[2] = _mm_shuffle_ps(v.val[2],v.val[2], _MM_SHUFFLE(3,1,0,2)); //c2,a3,b3,c3 - tmp1 = _mm_unpacklo_ps(tmp2,val->val[0]); //b0,a0,c0,a1 - v.val[0] = _mm_shuffle_ps(tmp0,tmp1, _MM_SHUFFLE(3,2,1,0)); //a0,b0,c0,a1, - - vst1q_f32( ptr, v.val[0]); - vst1q_f32( (ptr + 4), v.val[1]); - vst1q_f32( (ptr + 8), v.val[2]); -} -#define vst3q_f32(ptr, val) vst3q_f32_ptr(ptr, &val) - -//void vst3q_p8(__transfersize(48) poly8_t * ptr, poly8x16x3_t val);// VST3.8 {d0, d2, d4}, [r0] -void vst3q_p8_ptr(__transfersize(48) poly8_t * ptr, poly8x16x3_t * val); -#define vst3q_p8 vst3q_u8 - -//void vst3q_p16(__transfersize(24) poly16_t * ptr, poly16x8x3_t val);// VST3.16 {d0, d2, d4}, [r0] -void vst3q_p16_ptr(__transfersize(24) poly16_t * ptr, poly16x8x3_t * val); -#define vst3q_p16 vst3q_u16 - -//void vst3_u8(__transfersize(24) uint8_t * ptr, uint8x8x3_t val)// VST3.8 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE void vst3_u8_ptr(__transfersize(24) uint8_t * ptr, uint8x8x3_t* val) -{ - __m128i tmp, sh0, sh1, val0, val2; - _NEON2SSE_ALIGN_16 int8_t mask0[16] = { 0, 8, 16, 1, 9, 17, 2, 10, 18, 3, 11, 19, 4, 12, 20, 5}; - _NEON2SSE_ALIGN_16 int8_t mask1[16] = {13, 21, 6, 14, 22, 7, 15, 23, 0,0,0,0,0,0,0,0}; - _NEON2SSE_ALIGN_16 int8_t mask0_sel[16] = {0, 0, 0xff, 0, 0, 0xff, 0, 0, 0xff, 0, 0, 0xff, 0, 0, 0xff, 0}; - _NEON2SSE_ALIGN_16 int8_t mask1_sel[16] = {0, 0xff, 0, 0, 0xff, 0, 0, 0xff, 0,0,0,0,0,0,0,0}; - tmp = _mm_unpacklo_epi64(_pM128i(val->val[0]), _pM128i(val->val[1]) ); - sh0 = _mm_shuffle_epi8(tmp, *(__m128i*)mask0); //for bi>15 bi is wrapped (bi-=15) - val2 = _pM128i(val->val[2]); - sh1 = _mm_shuffle_epi8(val2, *(__m128i*)mask0); - val0 = _MM_BLENDV_EPI8(sh0, sh1, *(__m128i*)mask0_sel); - vst1q_u8(ptr, val0); //store as 128 bit structure - sh0 = _mm_shuffle_epi8(tmp, *(__m128i*)mask1); //for bi>15 bi is wrapped (bi-=15) - sh1 = _mm_shuffle_epi8(val2, *(__m128i*)mask1); - val2 = _MM_BLENDV_EPI8(sh0, sh1, *(__m128i*)mask1_sel); - _M64((*(__m64_128*)(ptr + 16)), val2); //need it to fit into *ptr memory -} -#define vst3_u8(ptr, val) vst3_u8_ptr(ptr, &val) - -//void vst3_u16(__transfersize(12) uint16_t * ptr, uint16x4x3_t val)// VST3.16 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE void vst3_u16_ptr(__transfersize(12) uint16_t * ptr, uint16x4x3_t* val) -{ - __m128i tmp, val0, val1, val2; - _NEON2SSE_ALIGN_16 int8_t mask0[16] = {0,1, 8,9, 16,17, 2,3, 10,11, 18,19, 4,5, 12,13}; - _NEON2SSE_ALIGN_16 int8_t mask1[16] = {20,21, 6,7, 14,15, 22,23, 0,0,0,0,0,0,0,0}; - _NEON2SSE_ALIGN_16 uint16_t mask0f[8] = {0xffff, 0xffff, 0, 0xffff, 0xffff, 0, 0xffff, 0xffff}; //if all ones we take the result from v.val[0] otherwise from v.val[1] - _NEON2SSE_ALIGN_16 uint16_t mask1f[8] = {0xffff, 0, 0, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff}; //if all ones we take the result from v.val[1] otherwise from v.val[0] - tmp = _mm_unpacklo_epi64(_pM128i(val->val[0]), _pM128i(val->val[1])); - val0 = _mm_shuffle_epi8(tmp, *(__m128i*)mask0); - val2 = _pM128i(val->val[2]); - val1 = _mm_shuffle_epi8(val2, *(__m128i*)mask0); - val0 = _MM_BLENDV_EPI8(val1, val0, *(__m128i*)mask0f); - vst1q_u16(ptr, val0); //store as 128 bit structure - val0 = _mm_shuffle_epi8(tmp, *(__m128i*)mask1); - val1 = _mm_shuffle_epi8(val2, *(__m128i*)mask1); - val1 = _MM_BLENDV_EPI8(val0, val1, *(__m128i*)mask1f); //change the operands order - _M64((*(__m64_128*)(ptr + 8)), val1); //need it to fit into *ptr memory -} -#define vst3_u16(ptr, val) vst3_u16_ptr(ptr, &val) - -//void vst3_u32(__transfersize(6) uint32_t * ptr, uint32x2x3_t val)// VST3.32 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE void vst3_u32_ptr(__transfersize(6) uint32_t * ptr, uint32x2x3_t* val) -{ - //val->val[0]:0,3,val->val[1]:1,4; val->val[2]:2,5,x,x; - __m128i val0, val1; - val0 = _mm_unpacklo_epi64(_pM128i(val->val[1]), _pM128i(val->val[2])); //val[0]: 1,4,2,5 - val0 = _mm_shuffle_epi32(val0, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //1,2,4,5 - val1 = _mm_srli_si128(val0, 8); //4,5, x,x - _M64((*(__m64_128*)(ptr + 4)), val1); - val0 = _mm_unpacklo_epi32(_pM128i(val->val[0]), val0); //0,1,3,2 - val0 = _mm_shuffle_epi32(val0, 0 | (1 << 2) | (3 << 4) | (2 << 6)); //0,1,2, 3 - vst1q_u32(ptr, val0); //store as 128 bit structure -} -#define vst3_u32(ptr, val) vst3_u32_ptr(ptr, &val) - -//void vst3_u64(__transfersize(3) uint64_t * ptr, uint64x1x3_t val)// VST1.64 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE void vst3_u64_ptr(__transfersize(3) uint64_t * ptr, uint64x1x3_t* val) -{ - *(ptr) = val->val[0].m64_u64[0]; - *(ptr + 1) = val->val[1].m64_u64[0]; - *(ptr + 2) = val->val[2].m64_u64[0]; -} -#define vst3_u64(ptr, val) vst3_u64_ptr(ptr, &val) - -//void vst3_s8(__transfersize(24) int8_t * ptr, int8x8x3_t val) // VST3.8 {d0, d1, d2}, [r0] -#define vst3_s8(ptr, val) vst3_u8_ptr((uint8_t*)ptr, &val) - -//void vst3_s16(__transfersize(12) int16_t * ptr, int16x4x3_t val) // VST3.16 {d0, d1, d2}, [r0] -#define vst3_s16(ptr, val) vst3_u16_ptr((uint16_t*)ptr, &val) - -//void vst3_s32(__transfersize(6) int32_t * ptr, int32x2x3_t val); // VST3.32 {d0, d1, d2}, [r0] -#define vst3_s32(ptr, val) vst3_u32_ptr((uint32_t*)ptr, &val) - -//void vst3_s64(__transfersize(3) int64_t * ptr, int64x1x3_t val) // VST1.64 {d0, d1, d2}, [r0] -#define vst3_s64(ptr, val) vst3_u64_ptr((uint64_t*)ptr, &val) - -//void vst3_f16(__transfersize(12) __fp16 * ptr, float16x4x3_t val);// VST3.16 {d0, d1, d2}, [r0] -void vst3_f16_ptr(__transfersize(12) __fp16 * ptr, float16x4x3_t * val); // VST3.16 {d0, d1, d2}, [r0] -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -//void vst3_f32(__transfersize(6) float32_t * ptr, float32x2x3_t val)// VST3.32 {d0, d1, d2}, [r0] -_NEON2SSE_INLINE void vst3_f32_ptr(__transfersize(6) float32_t * ptr, float32x2x3_t* val) -{ - //val->val[0]:0,3,val->val[1]:1,4; val->val[2]:2,5,x,x; -> 0,2, 4,1, 3,5 - *(ptr) = val->val[0].m64_f32[0]; - *(ptr + 1) = val->val[1].m64_f32[0]; - *(ptr + 2) = val->val[2].m64_f32[0]; - *(ptr + 3) = val->val[0].m64_f32[1]; - *(ptr + 4) = val->val[1].m64_f32[1]; - *(ptr + 5) = val->val[2].m64_f32[1]; -} -#define vst3_f32(ptr, val) vst3_f32_ptr(ptr, &val) - -//void vst3_p8(__transfersize(24) poly8_t * ptr, poly8x8x3_t val);// VST3.8 {d0, d1, d2}, [r0] -void vst3_p8_ptr(__transfersize(24) poly8_t * ptr, poly8x8x3_t * val); -#define vst3_p8 vst3_u8 - -//void vst3_p16(__transfersize(12) poly16_t * ptr, poly16x4x3_t val);// VST3.16 {d0, d1, d2}, [r0] -void vst3_p16_ptr(__transfersize(12) poly16_t * ptr, poly16x4x3_t * val); -#define vst3_p16 vst3_s16 - -//*************** Quadruples store ******************************** -//********************************************************************* -//void vst4q_u8(__transfersize(64) uint8_t * ptr, uint8x16x4_t val)// VST4.8 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE void vst4q_u8_ptr(__transfersize(64) uint8_t * ptr, uint8x16x4_t* val) -{ - __m128i tmp1, tmp2, res; - tmp1 = _mm_unpacklo_epi8(val->val[0], val->val[1]); // 0,1, 4,5, 8,9, 12,13, 16,17, 20,21, 24,25, 28,29 - tmp2 = _mm_unpacklo_epi8(val->val[2], val->val[3]); // 2,3, 6,7, 10,11, 14,15, 18,19, 22,23, 26,27, 30,31 - res = _mm_unpacklo_epi16(tmp1, tmp2); //0,1, 2,3, 4,5, 6,7, 8,9, 10,11, 12,13, 14,15 - vst1q_u8(ptr, res); - res = _mm_unpackhi_epi16(tmp1, tmp2); //16,17, 18,19, 20,21, 22,23, 24,25, 26,27, 28,29, 30,31 - vst1q_u8((ptr + 16), res); - tmp1 = _mm_unpackhi_epi8(val->val[0], val->val[1]); // - tmp2 = _mm_unpackhi_epi8(val->val[2], val->val[3]); // - res = _mm_unpacklo_epi16(tmp1, tmp2); // - vst1q_u8((ptr + 32), res); - res = _mm_unpackhi_epi16(tmp1, tmp2); // - vst1q_u8((ptr + 48), res); -} -#define vst4q_u8(ptr, val) vst4q_u8_ptr(ptr, &val) - -//void vst4q_u16(__transfersize(32) uint16_t * ptr, uint16x8x4_t val)// VST4.16 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE void vst4q_u16_ptr(__transfersize(32) uint16_t * ptr, uint16x8x4_t* val) -{ - uint16x8x4_t v; - __m128i tmp1, tmp2; - tmp1 = _mm_unpacklo_epi16(val->val[0], val->val[1]); //0,1, 4,5, 8,9, 12,13 - tmp2 = _mm_unpacklo_epi16(val->val[2], val->val[3]); //2,3, 6,7 , 10,11, 14,15 - v.val[0] = _mm_unpacklo_epi32(tmp1, tmp2); - v.val[1] = _mm_unpackhi_epi32(tmp1, tmp2); - tmp1 = _mm_unpackhi_epi16(val->val[0], val->val[1]); //0,1, 4,5, 8,9, 12,13 - tmp2 = _mm_unpackhi_epi16(val->val[2], val->val[3]); //2,3, 6,7 , 10,11, 14,15 - v.val[2] = _mm_unpacklo_epi32(tmp1, tmp2); - v.val[3] = _mm_unpackhi_epi32(tmp1, tmp2); - vst1q_u16(ptr, v.val[0]); - vst1q_u16((ptr + 8), v.val[1]); - vst1q_u16((ptr + 16),v.val[2]); - vst1q_u16((ptr + 24), v.val[3]); -} -#define vst4q_u16(ptr, val) vst4q_u16_ptr(ptr, &val) - -//void vst4q_u32(__transfersize(16) uint32_t * ptr, uint32x4x4_t val)// VST4.32 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE void vst4q_u32_ptr(__transfersize(16) uint32_t * ptr, uint32x4x4_t* val) -{ - uint16x8x4_t v; - __m128i tmp1, tmp2; - tmp1 = _mm_unpacklo_epi32(val->val[0], val->val[1]); //0,1, 4,5, 8,9, 12,13 - tmp2 = _mm_unpacklo_epi32(val->val[2], val->val[3]); //2,3, 6,7 , 10,11, 14,15 - v.val[0] = _mm_unpacklo_epi64(tmp1, tmp2); - v.val[1] = _mm_unpackhi_epi64(tmp1, tmp2); - tmp1 = _mm_unpackhi_epi32(val->val[0], val->val[1]); //0,1, 4,5, 8,9, 12,13 - tmp2 = _mm_unpackhi_epi32(val->val[2], val->val[3]); //2,3, 6,7 , 10,11, 14,15 - v.val[2] = _mm_unpacklo_epi64(tmp1, tmp2); - v.val[3] = _mm_unpackhi_epi64(tmp1, tmp2); - vst1q_u32(ptr, v.val[0]); - vst1q_u32((ptr + 4), v.val[1]); - vst1q_u32((ptr + 8), v.val[2]); - vst1q_u32((ptr + 12), v.val[3]); -} -#define vst4q_u32(ptr, val) vst4q_u32_ptr(ptr, &val) - -//void vst4q_s8(__transfersize(64) int8_t * ptr, int8x16x4_t val); -void vst4q_s8_ptr(__transfersize(64) int8_t * ptr, int8x16x4_t * val); -#define vst4q_s8(ptr, val) vst4q_u8((uint8_t*)(ptr), val) - -//void vst4q_s16(__transfersize(32) int16_t * ptr, int16x8x4_t val); -void vst4q_s16_ptr(__transfersize(32) int16_t * ptr, int16x8x4_t * val); -#define vst4q_s16(ptr, val) vst4q_u16((uint16_t*)(ptr), val) - -//void vst4q_s32(__transfersize(16) int32_t * ptr, int32x4x4_t val); -void vst4q_s32_ptr(__transfersize(16) int32_t * ptr, int32x4x4_t * val); -#define vst4q_s32(ptr, val) vst4q_u32((uint32_t*)(ptr), val) - -//void vst4q_f16(__transfersize(32) __fp16 * ptr, float16x8x4_t val);// VST4.16 {d0, d2, d4, d6}, [r0] -void vst4q_f16_ptr(__transfersize(32) __fp16 * ptr, float16x8x4_t * val); -// IA32 SIMD doesn't work with 16bit floats currently - -//void vst4q_f32(__transfersize(16) float32_t * ptr, float32x4x4_t val)// VST4.32 {d0, d2, d4, d6}, [r0] -_NEON2SSE_INLINE void vst4q_f32_ptr(__transfersize(16) float32_t * ptr, float32x4x4_t* val) -{ - __m128 tmp3, tmp2, tmp1, tmp0; - float32x4x4_t v; - tmp0 = _mm_unpacklo_ps(val->val[0], val->val[1]); - tmp2 = _mm_unpacklo_ps(val->val[2], val->val[3]); - tmp1 = _mm_unpackhi_ps(val->val[0], val->val[1]); - tmp3 = _mm_unpackhi_ps(val->val[2], val->val[3]); - v.val[0] = _mm_movelh_ps(tmp0, tmp2); - v.val[1] = _mm_movehl_ps(tmp2, tmp0); - v.val[2] = _mm_movelh_ps(tmp1, tmp3); - v.val[3] = _mm_movehl_ps(tmp3, tmp1); - vst1q_f32(ptr, v.val[0]); - vst1q_f32((ptr + 4), v.val[1]); - vst1q_f32((ptr + 8), v.val[2]); - vst1q_f32((ptr + 12), v.val[3]); -} -#define vst4q_f32(ptr, val) vst4q_f32_ptr(ptr, &val) - -//void vst4q_p8(__transfersize(64) poly8_t * ptr, poly8x16x4_t val);// VST4.8 {d0, d2, d4, d6}, [r0] -void vst4q_p8_ptr(__transfersize(64) poly8_t * ptr, poly8x16x4_t * val); -#define vst4q_p8 vst4q_u8 - -//void vst4q_p16(__transfersize(32) poly16_t * ptr, poly16x8x4_t val);// VST4.16 {d0, d2, d4, d6}, [r0] -void vst4q_p16_ptr(__transfersize(32) poly16_t * ptr, poly16x8x4_t * val); -#define vst4q_p16 vst4q_s16 - -//void vst4_u8(__transfersize(32) uint8_t * ptr, uint8x8x4_t val)// VST4.8 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE void vst4_u8_ptr(__transfersize(32) uint8_t * ptr, uint8x8x4_t* val) -{ - __m128i sh0, sh1, val0, val2; - sh0 = _mm_unpacklo_epi8(_pM128i(val->val[0]),_pM128i(val->val[1])); // a0,b0,a1,b1,a2,b2,a3,b3,a4,b4,a5,b5, a6,b6,a7,b7, - sh1 = _mm_unpacklo_epi8(_pM128i(val->val[2]),_pM128i(val->val[3])); // c0,d0,c1,d1,c2,d2,c3,d3, c4,d4,c5,d5,c6,d6,c7,d7 - val0 = _mm_unpacklo_epi16(sh0,sh1); // a0,b0,c0,d0,a1,b1,c1,d1,a2,b2,c2,d2,a3,b3,c3,d3, - val2 = _mm_unpackhi_epi16(sh0,sh1); //a4,b4,c4,d4,a5,b5,c5,d5, a6,b6,c6,d6,a7,b7,c7,d7 - vst1q_u8(ptr, val0); - vst1q_u8((ptr + 16), val2); -} -#define vst4_u8(ptr, val) vst4_u8_ptr(ptr, &val) - -//void vst4_u16(__transfersize(16) uint16_t * ptr, uint16x4x4_t val)// VST4.16 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE void vst4_u16_ptr(__transfersize(16) uint16_t * ptr, uint16x4x4_t* val) -{ - __m128i sh0, sh1, val0, val2; - sh0 = _mm_unpacklo_epi16(_pM128i(val->val[0]),_pM128i(val->val[1])); //a0,a1,b0,b1,c0,c1,d0,d1, - sh1 = _mm_unpacklo_epi16(_pM128i(val->val[2]),_pM128i(val->val[3])); //a2,a3,b2,b3,c2,c3,d2,d3 - val0 = _mm_unpacklo_epi32(sh0,sh1); // a0,a1,a2,a3,b0,b1,b2,b3 - val2 = _mm_unpackhi_epi32(sh0,sh1); // c0,c1,c2,c3,d0,d1,d2,d3 - vst1q_u16(ptr, val0); //store as 128 bit structure - vst1q_u16((ptr + 8), val2); -} -#define vst4_u16(ptr, val) vst4_u16_ptr(ptr, &val) - -//void vst4_u32(__transfersize(8) uint32_t * ptr, uint32x2x4_t val)// VST4.32 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE void vst4_u32_ptr(__transfersize(8) uint32_t * ptr, uint32x2x4_t* val) -{ - //0,4, 1,5, 2,6, 3,7 - __m128i sh0, sh1, val0, val1; - sh0 = _mm_unpacklo_epi32(_pM128i(val->val[0]), _pM128i(val->val[1])); //0,1,4,5 - sh1 = _mm_unpacklo_epi32(_pM128i(val->val[2]), _pM128i(val->val[3])); //2,3,6,7 - val0 = _mm_unpacklo_epi64(sh0,sh1); // - val1 = _mm_unpackhi_epi64(sh0,sh1); // - vst1q_u32(ptr, val0); //store as 128 bit structure - vst1q_u32((ptr + 4), val1); -} -#define vst4_u32(ptr, val) vst4_u32_ptr(ptr, &val) - -//void vst4_u64(__transfersize(4) uint64_t * ptr, uint64x1x4_t val)// VST1.64 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE void vst4_u64_ptr(__transfersize(4) uint64_t * ptr, uint64x1x4_t* val) -{ - *(ptr) = val->val[0].m64_u64[0]; - *(ptr + 1) = val->val[1].m64_u64[0]; - *(ptr + 2) = val->val[2].m64_u64[0]; - *(ptr + 3) = val->val[3].m64_u64[0]; -} -#define vst4_u64(ptr, val) vst4_u64_ptr(ptr, &val) - -//void vst4_s8(__transfersize(32) int8_t * ptr, int8x8x4_t val) //VST4.8 {d0, d1, d2, d3}, [r0] -#define vst4_s8(ptr, val) vst4_u8((uint8_t*)ptr, val) - -//void vst4_s16(__transfersize(16) int16_t * ptr, int16x4x4_t val) // VST4.16 {d0, d1, d2, d3}, [r0] -#define vst4_s16(ptr, val) vst4_u16((uint16_t*)ptr, val) - -//void vst4_s32(__transfersize(8) int32_t * ptr, int32x2x4_t val) // VST4.32 {d0, d1, d2, d3}, [r0] -#define vst4_s32(ptr, val) vst4_u32((uint32_t*)ptr, val) - -//void vst4_s64(__transfersize(4) int64_t * ptr, int64x1x4_t val); // VST1.64 {d0, d1, d2, d3}, [r0] -void vst4_s64_ptr(__transfersize(4) int64_t * ptr, int64x1x4_t * val); -#define vst4_s64(ptr, val) vst4_u64((uint64_t*)ptr, val) - -//void vst4_f16(__transfersize(16) __fp16 * ptr, float16x4x4_t val);// VST4.16 {d0, d1, d2, d3}, [r0] -void vst4_f16_ptr(__transfersize(16) __fp16 * ptr, float16x4x4_t * val); -// IA32 SIMD doesn't work with 16bit floats currently, so need to go to 32 bit and then work with two 128bit registers. See vld1q_f16 for example - -//void vst4_f32(__transfersize(8) float32_t * ptr, float32x2x4_t val)// VST4.32 {d0, d1, d2, d3}, [r0] -_NEON2SSE_INLINE void vst4_f32_ptr(__transfersize(8) float32_t * ptr, float32x2x4_t* val) -{ - //0,4, 1,5, 2,6, 3,7 -> 0,1, 2,3, 4,5, 6,7 - *(ptr) = val->val[0].m64_f32[0]; - *(ptr + 1) = val->val[1].m64_f32[0]; - *(ptr + 2) = val->val[2].m64_f32[0]; - *(ptr + 3) = val->val[3].m64_f32[0]; - *(ptr + 4) = val->val[0].m64_f32[1]; - *(ptr + 5) = val->val[1].m64_f32[1]; - *(ptr + 6) = val->val[2].m64_f32[1]; - *(ptr + 7) = val->val[3].m64_f32[1]; -} -#define vst4_f32(ptr, val) vst4_f32_ptr(ptr, &val) - -//void vst4_p8(__transfersize(32) poly8_t * ptr, poly8x8x4_t val);// VST4.8 {d0, d1, d2, d3}, [r0] -void vst4_p8_ptr(__transfersize(32) poly8_t * ptr, poly8x8x4_t * val); -#define vst4_p8 vst4_u8 - -//void vst4_p16(__transfersize(16) poly16_t * ptr, poly16x4x4_t val);// VST4.16 {d0, d1, d2, d3}, [r0] -void vst4_p16_ptr(__transfersize(16) poly16_t * ptr, poly16x4x4_t * val); -#define vst4_p16 vst4_u16 - -//*********** Store a lane of a vector into memory (extract given lane) for a couple of vectors ********************* -//******************************************************************************************************************** -//void vst2q_lane_u16(__transfersize(2) uint16_t * ptr, uint16x8x2_t val, __constrange(0,7) int lane)// VST2.16 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst2q_lane_u16_ptr(__transfersize(2) uint16_t * ptr, uint16x8x2_t* val, __constrange(0,7) int lane) -{ - vst1q_lane_s16(ptr, val->val[0], lane); - vst1q_lane_s16((ptr + 1), val->val[1], lane); -} -#define vst2q_lane_u16(ptr, val, lane) vst2q_lane_u16_ptr(ptr, &val, lane) - -//void vst2q_lane_u32(__transfersize(2) uint32_t * ptr, uint32x4x2_t val, __constrange(0,3) int lane)// VST2.32 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst2q_lane_u32_ptr(__transfersize(2) uint32_t* ptr, uint32x4x2_t* val, __constrange(0,3) int lane) -{ - vst1q_lane_u32(ptr, val->val[0], lane); - vst1q_lane_u32((ptr + 1), val->val[1], lane); -} -#define vst2q_lane_u32(ptr, val, lane) vst2q_lane_u32_ptr(ptr, &val, lane) - -//void vst2q_lane_s16(__transfersize(2) int16_t * ptr, int16x8x2_t val, __constrange(0,7) int lane);// VST2.16 {d0[0], d2[0]}, [r0] -void vst2q_lane_s16_ptr(__transfersize(2) int16_t * ptr, int16x8x2_t * val, __constrange(0,7) int lane); -#define vst2q_lane_s16(ptr, val, lane) vst2q_lane_u16((uint16_t*)ptr, val, lane) - -//void vst2q_lane_s32(__transfersize(2) int32_t * ptr, int32x4x2_t val, __constrange(0,3) int lane);// VST2.32 {d0[0], d2[0]}, [r0] -void vst2q_lane_s32_ptr(__transfersize(2) int32_t * ptr, int32x4x2_t * val, __constrange(0,3) int lane); -#define vst2q_lane_s32(ptr, val, lane) vst2q_lane_u32((uint32_t*)ptr, val, lane) - -//void vst2q_lane_f16(__transfersize(2) __fp16 * ptr, float16x8x2_t val, __constrange(0,7) int lane);// VST2.16 {d0[0], d2[0]}, [r0] -void vst2q_lane_f16_ptr(__transfersize(2) __fp16 * ptr, float16x8x2_t * val, __constrange(0,7) int lane); -//current IA SIMD doesn't support float16 - -//void vst2q_lane_f32(__transfersize(2) float32_t * ptr, float32x4x2_t val, __constrange(0,3) int lane)// VST2.32 {d0[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst2q_lane_f32_ptr(__transfersize(2) float32_t* ptr, float32x4x2_t* val, __constrange(0,3) int lane) -{ - vst1q_lane_f32(ptr, val->val[0], lane); - vst1q_lane_f32((ptr + 1), val->val[1], lane); -} -#define vst2q_lane_f32(ptr,src,lane) vst2q_lane_f32_ptr(ptr,&src,lane) - -//void vst2q_lane_p16(__transfersize(2) poly16_t * ptr, poly16x8x2_t val, __constrange(0,7) int lane);// VST2.16 {d0[0], d2[0]}, [r0] -void vst2q_lane_p16_ptr(__transfersize(2) poly16_t * ptr, poly16x8x2_t * val, __constrange(0,7) int lane); -#define vst2q_lane_p16 vst2q_lane_s16 - -//void vst2_lane_u8(__transfersize(2) uint8_t * ptr, uint8x8x2_t val, __constrange(0,7) int lane);// VST2.8 {d0[0], d1[0]}, [r0] -void vst2_lane_u8_ptr(__transfersize(2) uint8_t * ptr, uint8x8x2_t * val, __constrange(0,7) int lane); // VST2.8 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE void vst2_lane_u8_ptr(__transfersize(2) uint8_t * ptr, uint8x8x2_t* val, __constrange(0,7) int lane) // VST2.8 {d0[0], d1[0]}, [r0] -{ - *(ptr) = val->val[0].m64_u8[lane]; - *(ptr + 1) = val->val[1].m64_u8[lane]; -} -#define vst2_lane_u8(ptr, val, lane) vst2_lane_u8_ptr(ptr, &val, lane) - -//void vst2_lane_u16(__transfersize(2) uint16_t * ptr, uint16x4x2_t val, __constrange(0,3) int lane);// VST2.16 {d0[0], d1[0]}, [r0] -void vst2_lane_u16_ptr(__transfersize(2) uint16_t * ptr, uint16x4x2_t * val, __constrange(0,3) int lane); // VST2.16 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE void vst2_lane_u16_ptr(__transfersize(2) uint16_t * ptr, uint16x4x2_t * val, __constrange(0,3) int lane) -{ - *(ptr) = val->val[0].m64_u16[lane]; - *(ptr + 1) = val->val[1].m64_u16[lane]; -} -#define vst2_lane_u16(ptr, val, lane) vst2_lane_u16_ptr(ptr, &val, lane) - -//void vst2_lane_u32(__transfersize(2) uint32_t * ptr, uint32x2x2_t val, __constrange(0,1) int lane);// VST2.32 {d0[0], d1[0]}, [r0] -void vst2_lane_u32_ptr(__transfersize(2) uint32_t * ptr, uint32x2x2_t * val, __constrange(0,1) int lane); // VST2.32 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE void vst2_lane_u32_ptr(__transfersize(2) uint32_t * ptr, uint32x2x2_t * val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_u32[lane]; - *(ptr + 1) = val->val[1].m64_u32[lane]; -} -#define vst2_lane_u32(ptr, val, lane) vst2_lane_u32_ptr(ptr, &val, lane) - -//void vst2_lane_s8(__transfersize(2) int8_t * ptr, int8x8x2_t val, __constrange(0,7) int lane);// VST2.8 {d0[0], d1[0]}, [r0] -void vst2_lane_s8_ptr(__transfersize(2) int8_t * ptr, int8x8x2_t * val, __constrange(0,7) int lane); -#define vst2_lane_s8(ptr, val, lane) vst2_lane_u8((uint8_t*)ptr, val, lane) - -//void vst2_lane_s16(__transfersize(2) int16_t * ptr, int16x4x2_t val, __constrange(0,3) int lane);// VST2.16 {d0[0], d1[0]}, [r0] -void vst2_lane_s16_ptr(__transfersize(2) int16_t * ptr, int16x4x2_t * val, __constrange(0,3) int lane); -#define vst2_lane_s16(ptr, val, lane) vst2_lane_u16((uint16_t*)ptr, val, lane) - -//void vst2_lane_s32(__transfersize(2) int32_t * ptr, int32x2x2_t val, __constrange(0,1) int lane);// VST2.32 {d0[0], d1[0]}, [r0] -void vst2_lane_s32_ptr(__transfersize(2) int32_t * ptr, int32x2x2_t * val, __constrange(0,1) int lane); -#define vst2_lane_s32(ptr, val, lane) vst2_lane_u32((uint32_t*)ptr, val, lane) - -//void vst2_lane_f16(__transfersize(2) __fp16 * ptr, float16x4x2_t val, __constrange(0,3) int lane); // VST2.16 {d0[0], d1[0]}, [r0] -//current IA SIMD doesn't support float16 - -void vst2_lane_f32_ptr(__transfersize(2) float32_t * ptr, float32x2x2_t * val, __constrange(0,1) int lane); // VST2.32 {d0[0], d1[0]}, [r0] -_NEON2SSE_INLINE void vst2_lane_f32_ptr(__transfersize(2) float32_t * ptr, float32x2x2_t * val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_f32[lane]; - *(ptr + 1) = val->val[1].m64_f32[lane]; -} -#define vst2_lane_f32(ptr,src,lane) vst2_lane_f32_ptr(ptr,&src,lane) - -//void vst2_lane_p8(__transfersize(2) poly8_t * ptr, poly8x8x2_t val, __constrange(0,7) int lane);// VST2.8 {d0[0], d1[0]}, [r0] -#define vst2_lane_p8 vst2_lane_u8 - -//void vst2_lane_p16(__transfersize(2) poly16_t * ptr, poly16x4x2_t val, __constrange(0,3) int lane);// VST2.16 {d0[0], d1[0]}, [r0] -#define vst2_lane_p16 vst2_lane_u16 - -//************************* Triple lanes stores ******************************************************* -//******************************************************************************************************* -//void vst3q_lane_u16(__transfersize(3) uint16_t * ptr, uint16x8x3_t val, __constrange(0,7) int lane)// VST3.16 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE void vst3q_lane_u16_ptr(__transfersize(3) uint16_t * ptr, uint16x8x3_t* val, __constrange(0,7) int lane) -{ - vst2q_lane_u16_ptr(ptr, (uint16x8x2_t*)val, lane); - vst1q_lane_u16((ptr + 2), val->val[2], lane); -} -#define vst3q_lane_u16(ptr, val, lane) vst3q_lane_u16_ptr(ptr, &val, lane) - -//void vst3q_lane_u32(__transfersize(3) uint32_t * ptr, uint32x4x3_t val, __constrange(0,3) int lane)// VST3.32 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE void vst3q_lane_u32_ptr(__transfersize(3) uint32_t * ptr, uint32x4x3_t* val, __constrange(0,3) int lane) -{ - vst2q_lane_u32_ptr(ptr, (uint32x4x2_t*)val, lane); - vst1q_lane_u32((ptr + 2), val->val[2], lane); -} -#define vst3q_lane_u32(ptr, val, lane) vst3q_lane_u32_ptr(ptr, &val, lane) - -//void vst3q_lane_s16(__transfersize(3) int16_t * ptr, int16x8x3_t val, __constrange(0,7) int lane);// VST3.16 {d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_s16_ptr(__transfersize(3) int16_t * ptr, int16x8x3_t * val, __constrange(0,7) int lane); -#define vst3q_lane_s16(ptr, val, lane) vst3q_lane_u16((uint16_t *)ptr, val, lane) - -//void vst3q_lane_s32(__transfersize(3) int32_t * ptr, int32x4x3_t val, __constrange(0,3) int lane);// VST3.32 {d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_s32_ptr(__transfersize(3) int32_t * ptr, int32x4x3_t * val, __constrange(0,3) int lane); -#define vst3q_lane_s32(ptr, val, lane) vst3q_lane_u32((uint32_t *)ptr, val, lane) - -//void vst3q_lane_f16(__transfersize(3) __fp16 * ptr, float16x8x3_t val, __constrange(0,7) int lane);// VST3.16 {d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_f16_ptr(__transfersize(3) __fp16 * ptr, float16x8x3_t * val, __constrange(0,7) int lane); -//current IA SIMD doesn't support float16 - -//void vst3q_lane_f32(__transfersize(3) float32_t * ptr, float32x4x3_t val, __constrange(0,3) int lane)// VST3.32 {d0[0], d2[0], d4[0]}, [r0] -_NEON2SSE_INLINE void vst3q_lane_f32_ptr(__transfersize(3) float32_t * ptr, float32x4x3_t* val, __constrange(0,3) int lane) -{ - vst1q_lane_f32(ptr, val->val[0], lane); - vst1q_lane_f32((ptr + 1), val->val[1], lane); - vst1q_lane_f32((ptr + 2), val->val[2], lane); -} -#define vst3q_lane_f32(ptr,val,lane) vst3q_lane_f32_ptr(ptr,&val,lane) - -//void vst3q_lane_p16(__transfersize(3) poly16_t * ptr, poly16x8x3_t val, __constrange(0,7) int lane);// VST3.16 {d0[0], d2[0], d4[0]}, [r0] -void vst3q_lane_p16_ptr(__transfersize(3) poly16_t * ptr, poly16x8x3_t * val, __constrange(0,7) int lane); -#define vst3q_lane_p16 vst3q_lane_s16 - -//void vst3_lane_u8(__transfersize(3) uint8_t * ptr, uint8x8x3_t val, __constrange(0,7) int lane)// VST3.8 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst3_lane_u8_ptr(__transfersize(3) uint8_t * ptr, uint8x8x3_t* val, __constrange(0,7) int lane) -{ - *(ptr) = val->val[0].m64_u8[lane]; - *(ptr + 1) = val->val[1].m64_u8[lane]; - *(ptr + 2) = val->val[2].m64_u8[lane]; -} -#define vst3_lane_u8(ptr, val, lane) vst3_lane_u8_ptr(ptr, &val, lane) - -//void vst3_lane_u16(__transfersize(3) uint16_t * ptr, uint16x4x3_t val, __constrange(0,3) int lane)// VST3.16 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst3_lane_u16_ptr(__transfersize(3) uint16_t * ptr, uint16x4x3_t* val, __constrange(0,3) int lane) -{ - *(ptr) = val->val[0].m64_u16[lane]; - *(ptr + 1) = val->val[1].m64_u16[lane]; - *(ptr + 2) = val->val[2].m64_u16[lane]; -} -#define vst3_lane_u16(ptr, val, lane) vst3_lane_u16_ptr(ptr, &val, lane) - -//void vst3_lane_u32(__transfersize(3) uint32_t * ptr, uint32x2x3_t val, __constrange(0,1) int lane)// VST3.32 {d0[0], d1[0], d2[0]}, [r0] -_NEON2SSE_INLINE void vst3_lane_u32_ptr(__transfersize(3) uint32_t * ptr, uint32x2x3_t* val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_u32[lane]; - *(ptr + 1) = val->val[1].m64_u32[lane]; - *(ptr + 2) = val->val[2].m64_u32[lane]; -} -#define vst3_lane_u32(ptr, val, lane) vst3_lane_u32_ptr(ptr, &val, lane) - -//void vst3_lane_s8(__transfersize(3) int8_t * ptr, int8x8x3_t val, __constrange(0,7) int lane);// VST3.8 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_s8_ptr(__transfersize(3) int8_t * ptr, int8x8x3_t * val, __constrange(0,7) int lane); -#define vst3_lane_s8(ptr, val, lane) vst3_lane_u8((uint8_t *)ptr, val, lane) - -//void vst3_lane_s16(__transfersize(3) int16_t * ptr, int16x4x3_t val, __constrange(0,3) int lane);// VST3.16 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_s16_ptr(__transfersize(3) int16_t * ptr, int16x4x3_t * val, __constrange(0,3) int lane); -#define vst3_lane_s16(ptr, val, lane) vst3_lane_u16((uint16_t *)ptr, val, lane) - -//void vst3_lane_s32(__transfersize(3) int32_t * ptr, int32x2x3_t val, __constrange(0,1) int lane);// VST3.32 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_s32_ptr(__transfersize(3) int32_t * ptr, int32x2x3_t * val, __constrange(0,1) int lane); -#define vst3_lane_s32(ptr, val, lane) vst3_lane_u32((uint32_t *)ptr, val, lane) - -//void vst3_lane_f16(__transfersize(3) __fp16 * ptr, float16x4x3_t val, __constrange(0,3) int lane);// VST3.16 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_f16_ptr(__transfersize(3) __fp16 * ptr, float16x4x3_t * val, __constrange(0,3) int lane); -//current IA SIMD doesn't support float16 - -//void vst3_lane_f32(__transfersize(3) float32_t * ptr, float32x2x3_t val, __constrange(0,1) int lane)// VST3.32 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_f32_ptr(__transfersize(3) float32_t * ptr, float32x2x3_t * val, __constrange(0,1) int lane); -_NEON2SSE_INLINE void vst3_lane_f32_ptr(__transfersize(3) float32_t * ptr, float32x2x3_t * val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_f32[lane]; - *(ptr + 1) = val->val[1].m64_f32[lane]; - *(ptr + 2) = val->val[2].m64_f32[lane]; -} -#define vst3_lane_f32(ptr,val,lane) vst3_lane_f32_ptr(ptr,&val,lane) - -//void vst3_lane_p8(__transfersize(3) poly8_t * ptr, poly8x8x3_t val, __constrange(0,7) int lane);// VST3.8 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_p8_ptr(__transfersize(3) poly8_t * ptr, poly8x8x3_t * val, __constrange(0,7) int lane); -#define vst3_lane_p8 vst3_lane_u8 - -//void vst3_lane_p16(__transfersize(3) poly16_t * ptr, poly16x4x3_t val, __constrange(0,3) int lane);// VST3.16 {d0[0], d1[0], d2[0]}, [r0] -void vst3_lane_p16_ptr(__transfersize(3) poly16_t * ptr, poly16x4x3_t * val, __constrange(0,3) int lane); -#define vst3_lane_p16 vst3_lane_s16 - -//******************************** Quadruple lanes stores *********************************************** -//******************************************************************************************************* -//void vst4q_lane_u16(__transfersize(4) uint16_t * ptr, uint16x8x4_t val, __constrange(0,7) int lane)// VST4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE void vst4q_lane_u16_ptr(__transfersize(4) uint16_t * ptr, uint16x8x4_t* val4, __constrange(0,7) int lane) -{ - vst2q_lane_u16_ptr(ptr, (uint16x8x2_t*)val4->val, lane); - vst2q_lane_u16_ptr((ptr + 2),((uint16x8x2_t*)val4->val + 1), lane); -} -#define vst4q_lane_u16(ptr, val, lane) vst4q_lane_u16_ptr(ptr, &val, lane) - -//void vst4q_lane_u32(__transfersize(4) uint32_t * ptr, uint32x4x4_t val, __constrange(0,3) int lane)// VST4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE void vst4q_lane_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x4x4_t* val4, __constrange(0,3) int lane) -{ - vst2q_lane_u32_ptr(ptr, (uint32x4x2_t*)val4->val, lane); - vst2q_lane_u32_ptr((ptr + 2), ((uint32x4x2_t*)val4->val + 1), lane); -} -#define vst4q_lane_u32(ptr, val, lane) vst4q_lane_u32_ptr(ptr, &val, lane) - -//void vst4q_lane_s16(__transfersize(4) int16_t * ptr, int16x8x4_t val, __constrange(0,7) int lane);// VST4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_s16_ptr(__transfersize(4) int16_t * ptr, int16x8x4_t * val, __constrange(0,7) int lane); -#define vst4q_lane_s16(ptr,val,lane) vst4q_lane_u16((uint16_t *)ptr,val,lane) - -//void vst4q_lane_s32(__transfersize(4) int32_t * ptr, int32x4x4_t val, __constrange(0,3) int lane);// VST4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_s32_ptr(__transfersize(4) int32_t * ptr, int32x4x4_t * val, __constrange(0,3) int lane); -#define vst4q_lane_s32(ptr,val,lane) vst4q_lane_u32((uint32_t *)ptr,val,lane) - -//void vst4q_lane_f16(__transfersize(4) __fp16 * ptr, float16x8x4_t val, __constrange(0,7) int lane);// VST4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_f16_ptr(__transfersize(4) __fp16 * ptr, float16x8x4_t * val, __constrange(0,7) int lane); -//current IA SIMD doesn't support float16 - -//void vst4q_lane_f32(__transfersize(4) float32_t * ptr, float32x4x4_t val, __constrange(0,3) int lane)// VST4.32 {d0[0], d2[0], d4[0], d6[0]}, [r0] -_NEON2SSE_INLINE void vst4q_lane_f32_ptr(__transfersize(4) float32_t * ptr, float32x4x4_t* val, __constrange(0,3) int lane) -{ - vst1q_lane_f32(ptr, val->val[0], lane); - vst1q_lane_f32((ptr + 1), val->val[1], lane); - vst1q_lane_f32((ptr + 2), val->val[2], lane); - vst1q_lane_f32((ptr + 3), val->val[3], lane); -} -#define vst4q_lane_f32(ptr,val,lane) vst4q_lane_f32_ptr(ptr,&val,lane) - -//void vst4q_lane_p16(__transfersize(4) poly16_t * ptr, poly16x8x4_t val, __constrange(0,7) int lane);// VST4.16 {d0[0], d2[0], d4[0], d6[0]}, [r0] -void vst4q_lane_p16_ptr(__transfersize(4) poly16_t * ptr, poly16x8x4_t * val, __constrange(0,7) int lane); -#define vst4q_lane_p16 vst4q_lane_u16 - -//void vst4_lane_u8(__transfersize(4) uint8_t * ptr, uint8x8x4_t val, __constrange(0,7) int lane)// VST4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE void vst4_lane_u8_ptr(__transfersize(4) uint8_t * ptr, uint8x8x4_t* val, __constrange(0,7) int lane) -{ - *(ptr) = val->val[0].m64_u8[lane]; - *(ptr + 1) = val->val[1].m64_u8[lane]; - *(ptr + 2) = val->val[2].m64_u8[lane]; - *(ptr + 3) = val->val[3].m64_u8[lane]; -} -#define vst4_lane_u8(ptr, val, lane) vst4_lane_u8_ptr(ptr, &val, lane) - -//void vst4_lane_u16(__transfersize(4) uint16_t * ptr, uint16x4x4_t val, __constrange(0,3) int lane)// VST4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE void vst4_lane_u16_ptr(__transfersize(4) uint16_t * ptr, uint16x4x4_t* val, __constrange(0,3) int lane) -{ - *(ptr) = val->val[0].m64_u16[lane]; - *(ptr + 1) = val->val[1].m64_u16[lane]; - *(ptr + 2) = val->val[2].m64_u16[lane]; - *(ptr + 3) = val->val[3].m64_u16[lane]; -} -#define vst4_lane_u16(ptr, val, lane) vst4_lane_u16_ptr(ptr, &val, lane) - -//void vst4_lane_u32(__transfersize(4) uint32_t * ptr, uint32x2x4_t val, __constrange(0,1) int lane)// VST4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE void vst4_lane_u32_ptr(__transfersize(4) uint32_t * ptr, uint32x2x4_t* val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_u32[lane]; - *(ptr + 1) = val->val[1].m64_u32[lane]; - *(ptr + 2) = val->val[2].m64_u32[lane]; - *(ptr + 3) = val->val[3].m64_u32[lane]; -} -#define vst4_lane_u32(ptr, val, lane) vst4_lane_u32_ptr(ptr, &val, lane) - -//void vst4_lane_s8(__transfersize(4) int8_t * ptr, int8x8x4_t val, __constrange(0,7) int lane)// VST4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -#define vst4_lane_s8(ptr, val, lane) vst4_lane_u8((uint8_t*)ptr, val, lane) - -//void vst4_lane_s16(__transfersize(4) int16_t * ptr, int16x4x4_t val, __constrange(0,3) int lane)// VST4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -#define vst4_lane_s16(ptr, val, lane) vst4_lane_u16((uint16_t*)ptr, val, lane) - -//void vst4_lane_s32(__transfersize(4) int32_t * ptr, int32x2x4_t val, __constrange(0,1) int lane)// VST4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -#define vst4_lane_s32(ptr, val, lane) vst4_lane_u32((uint32_t*)ptr, val, lane) - -//void vst4_lane_f16(__transfersize(4) __fp16 * ptr, float16x4x4_t val, __constrange(0,3) int lane);// VST4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_f16_ptr(__transfersize(4) __fp16 * ptr, float16x4x4_t * val, __constrange(0,3) int lane); -//current IA SIMD doesn't support float16 - -void vst4_lane_f32_ptr(__transfersize(4) float32_t * ptr, float32x2x4_t * val, __constrange(0,1) int lane); // VST4.32 {d0[0], d1[0], d2[0], d3[0]}, [r0] -_NEON2SSE_INLINE void vst4_lane_f32_ptr(__transfersize(4) float32_t * ptr, float32x2x4_t* val, __constrange(0,1) int lane) -{ - *(ptr) = val->val[0].m64_f32[lane]; - *(ptr + 1) = val->val[1].m64_f32[lane]; - *(ptr + 2) = val->val[2].m64_f32[lane]; - *(ptr + 3) = val->val[3].m64_f32[lane]; -} -#define vst4_lane_f32(ptr,val,lane) vst4_lane_f32_ptr(ptr,&val,lane) - -//void vst4_lane_p8(__transfersize(4) poly8_t * ptr, poly8x8x4_t val, __constrange(0,7) int lane);// VST4.8 {d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_p8_ptr(__transfersize(4) poly8_t * ptr, poly8x8x4_t * val, __constrange(0,7) int lane); -#define vst4_lane_p8 vst4_lane_u8 - -//void vst4_lane_p16(__transfersize(4) poly16_t * ptr, poly16x4x4_t val, __constrange(0,3) int lane);// VST4.16 {d0[0], d1[0], d2[0], d3[0]}, [r0] -void vst4_lane_p16_ptr(__transfersize(4) poly16_t * ptr, poly16x4x4_t * val, __constrange(0,3) int lane); -#define vst4_lane_p16 vst4_lane_u16 - -//************************************************************************************************** -//************************ Extract lanes from a vector ******************************************** -//************************************************************************************************** -//These intrinsics extract a single lane (element) from a vector. -uint8_t vget_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VMOV.U8 r0, d0[0] -#define vget_lane_u8(vec, lane) vec.m64_u8[lane] - -uint16_t vget_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VMOV.s16 r0, d0[0] -#define vget_lane_u16(vec, lane) vec.m64_u16[lane] - - -uint32_t vget_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -#define vget_lane_u32(vec, lane) vec.m64_u32[lane] - -int8_t vget_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VMOV.S8 r0, d0[0] -#define vget_lane_s8(vec, lane) vec.m64_i8[lane] - -int16_t vget_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VMOV.S16 r0, d0[0] -#define vget_lane_s16(vec, lane) vec.m64_i16[lane] - -int32_t vget_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -#define vget_lane_s32(vec, lane) vec.m64_i32[lane] - -poly8_t vget_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VMOV.U8 r0, d0[0] -#define vget_lane_p8 vget_lane_u8 - -poly16_t vget_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VMOV.s16 r0, d0[0] -#define vget_lane_p16 vget_lane_u16 - -float32_t vget_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VMOV.32 r0, d0[0] -#define vget_lane_f32(vec, lane) vec.m64_f32[lane] - -uint8_t vgetq_lane_u8(uint8x16_t vec, __constrange(0,15) int lane); // VMOV.U8 r0, d0[0] -#define vgetq_lane_u8 _MM_EXTRACT_EPI8 - -uint16_t vgetq_lane_u16(uint16x8_t vec, __constrange(0,7) int lane); // VMOV.s16 r0, d0[0] -#define vgetq_lane_u16 _MM_EXTRACT_EPI16 - -uint32_t vgetq_lane_u32(uint32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -#define vgetq_lane_u32 _MM_EXTRACT_EPI32 - -int8_t vgetq_lane_s8(int8x16_t vec, __constrange(0,15) int lane); // VMOV.S8 r0, d0[0] -#define vgetq_lane_s8 vgetq_lane_u8 - -int16_t vgetq_lane_s16(int16x8_t vec, __constrange(0,7) int lane); // VMOV.S16 r0, d0[0] -#define vgetq_lane_s16 vgetq_lane_u16 - -int32_t vgetq_lane_s32(int32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -#define vgetq_lane_s32 vgetq_lane_u32 - -poly8_t vgetq_lane_p8(poly8x16_t vec, __constrange(0,15) int lane); // VMOV.U8 r0, d0[0] -#define vgetq_lane_p8 vgetq_lane_u8 - -poly16_t vgetq_lane_p16(poly16x8_t vec, __constrange(0,7) int lane); // VMOV.s16 r0, d0[0] -#define vgetq_lane_p16 vgetq_lane_u16 - -float32_t vgetq_lane_f32(float32x4_t vec, __constrange(0,3) int lane); // VMOV.32 r0, d0[0] -_NEON2SSE_INLINE float32_t vgetq_lane_f32(float32x4_t vec, __constrange(0,3) int lane) -{ - int32_t ilane; - ilane = _MM_EXTRACT_PS(vec,lane); - return *(float*)&ilane; -} - -int64_t vget_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV r0,r0,d0 -#define vget_lane_s64(vec, lane) vec.m64_i64[0] - -uint64_t vget_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV r0,r0,d0 -#define vget_lane_u64(vec, lane) vec.m64_u64[0] - - -int64_t vgetq_lane_s64(int64x2_t vec, __constrange(0,1) int lane); // VMOV r0,r0,d0 -#define vgetq_lane_s64 (int64_t) vgetq_lane_u64 - -uint64_t vgetq_lane_u64(uint64x2_t vec, __constrange(0,1) int lane); // VMOV r0,r0,d0 -#define vgetq_lane_u64 _MM_EXTRACT_EPI64 - -// ***************** Set lanes within a vector ******************************************** -// ************************************************************************************** -//These intrinsics set a single lane (element) within a vector. -//same functions as vld1_lane_xx ones, but take the value to be set directly. - -uint8x8_t vset_lane_u8(uint8_t value, uint8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -_NEON2SSE_INLINE uint8x8_t vset_lane_u8(uint8_t value, uint8x8_t vec, __constrange(0,7) int lane) -{ - uint8_t val; - val = value; - return vld1_lane_u8(&val, vec, lane); -} - -uint16x4_t vset_lane_u16(uint16_t value, uint16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -_NEON2SSE_INLINE uint16x4_t vset_lane_u16(uint16_t value, uint16x4_t vec, __constrange(0,3) int lane) -{ - uint16_t val; - val = value; - return vld1_lane_u16(&val, vec, lane); -} - -uint32x2_t vset_lane_u32(uint32_t value, uint32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE uint32x2_t vset_lane_u32(uint32_t value, uint32x2_t vec, __constrange(0,1) int lane) -{ - uint32_t val; - val = value; - return vld1_lane_u32(&val, vec, lane); -} - -int8x8_t vset_lane_s8(int8_t value, int8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -_NEON2SSE_INLINE int8x8_t vset_lane_s8(int8_t value, int8x8_t vec, __constrange(0,7) int lane) -{ - int8_t val; - val = value; - return vld1_lane_s8(&val, vec, lane); -} - -int16x4_t vset_lane_s16(int16_t value, int16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -_NEON2SSE_INLINE int16x4_t vset_lane_s16(int16_t value, int16x4_t vec, __constrange(0,3) int lane) -{ - int16_t val; - val = value; - return vld1_lane_s16(&val, vec, lane); -} - -int32x2_t vset_lane_s32(int32_t value, int32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE int32x2_t vset_lane_s32(int32_t value, int32x2_t vec, __constrange(0,1) int lane) -{ - int32_t val; - val = value; - return vld1_lane_s32(&val, vec, lane); -} - -poly8x8_t vset_lane_p8(poly8_t value, poly8x8_t vec, __constrange(0,7) int lane); // VMOV.8 d0[0],r0 -#define vset_lane_p8 vset_lane_u8 - -poly16x4_t vset_lane_p16(poly16_t value, poly16x4_t vec, __constrange(0,3) int lane); // VMOV.16 d0[0],r0 -#define vset_lane_p16 vset_lane_u16 - -float32x2_t vset_lane_f32(float32_t value, float32x2_t vec, __constrange(0,1) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE float32x2_t vset_lane_f32(float32_t value, float32x2_t vec, __constrange(0,1) int lane) -{ - float32_t val; - val = value; - return vld1_lane_f32(&val, vec, lane); -} - -uint8x16_t vsetq_lane_u8(uint8_t value, uint8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -_NEON2SSE_INLINE uint8x16_t vsetq_lane_u8(uint8_t value, uint8x16_t vec, __constrange(0,15) int lane) -{ - uint8_t val; - val = value; - return vld1q_lane_u8(&val, vec, lane); -} - -uint16x8_t vsetq_lane_u16(uint16_t value, uint16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -_NEON2SSE_INLINE uint16x8_t vsetq_lane_u16(uint16_t value, uint16x8_t vec, __constrange(0,7) int lane) -{ - uint16_t val; - val = value; - return vld1q_lane_u16(&val, vec, lane); -} - -uint32x4_t vsetq_lane_u32(uint32_t value, uint32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE uint32x4_t vsetq_lane_u32(uint32_t value, uint32x4_t vec, __constrange(0,3) int lane) -{ - uint32_t val; - val = value; - return vld1q_lane_u32(&val, vec, lane); -} - -int8x16_t vsetq_lane_s8(int8_t value, int8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -_NEON2SSE_INLINE int8x16_t vsetq_lane_s8(int8_t value, int8x16_t vec, __constrange(0,15) int lane) -{ - int8_t val; - val = value; - return vld1q_lane_s8(&val, vec, lane); -} - -int16x8_t vsetq_lane_s16(int16_t value, int16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -_NEON2SSE_INLINE int16x8_t vsetq_lane_s16(int16_t value, int16x8_t vec, __constrange(0,7) int lane) -{ - int16_t val; - val = value; - return vld1q_lane_s16(&val, vec, lane); -} - -int32x4_t vsetq_lane_s32(int32_t value, int32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE int32x4_t vsetq_lane_s32(int32_t value, int32x4_t vec, __constrange(0,3) int lane) -{ - int32_t val; - val = value; - return vld1q_lane_s32(&val, vec, lane); -} - -poly8x16_t vsetq_lane_p8(poly8_t value, poly8x16_t vec, __constrange(0,15) int lane); // VMOV.8 d0[0],r0 -#define vsetq_lane_p8 vsetq_lane_u8 - -poly16x8_t vsetq_lane_p16(poly16_t value, poly16x8_t vec, __constrange(0,7) int lane); // VMOV.16 d0[0],r0 -#define vsetq_lane_p16 vsetq_lane_u16 - -float32x4_t vsetq_lane_f32(float32_t value, float32x4_t vec, __constrange(0,3) int lane); // VMOV.32 d0[0],r0 -_NEON2SSE_INLINE float32x4_t vsetq_lane_f32(float32_t value, float32x4_t vec, __constrange(0,3) int lane) -{ - float32_t val; - val = value; - return vld1q_lane_f32(&val, vec, lane); -} - -int64x1_t vset_lane_s64(int64_t value, int64x1_t vec, __constrange(0,0) int lane); // VMOV d0,r0,r0 -_NEON2SSE_INLINE int64x1_t vset_lane_s64(int64_t value, int64x1_t vec, __constrange(0,0) int lane) -{ - int64_t val; - val = value; - return vld1_lane_s64(&val, vec, lane); -} - -uint64x1_t vset_lane_u64(uint64_t value, uint64x1_t vec, __constrange(0,0) int lane); // VMOV d0,r0,r0 -_NEON2SSE_INLINE uint64x1_t vset_lane_u64(uint64_t value, uint64x1_t vec, __constrange(0,0) int lane) -{ - uint64_t val; - val = value; - return vld1_lane_u64(&val, vec, lane); -} - -int64x2_t vsetq_lane_s64(int64_t value, int64x2_t vec, __constrange(0,1) int lane); // VMOV d0,r0,r0 -_NEON2SSE_INLINE int64x2_t vsetq_lane_s64(int64_t value, int64x2_t vec, __constrange(0,1) int lane) -{ - uint64_t val; - val = value; - return vld1q_lane_s64(&val, vec, lane); -} - -uint64x2_t vsetq_lane_u64(uint64_t value, uint64x2_t vec, __constrange(0,1) int lane); // VMOV d0,r0,r0 -#define vsetq_lane_u64 vsetq_lane_s64 - -// ******************************************************************************* -// **************** Initialize a vector from bit pattern *************************** -// ******************************************************************************* -//These intrinsics create a vector from a literal bit pattern. -int8x8_t vcreate_s8(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_s8(a) (*(__m64_128*)&(a)) - - -int16x4_t vcreate_s16(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_s16 vcreate_s8 - -int32x2_t vcreate_s32(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_s32 vcreate_s8 - -float16x4_t vcreate_f16(uint64_t a); // VMOV d0,r0,r0 -//no IA32 SIMD avalilable - -float32x2_t vcreate_f32(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_f32(a) (*(__m64_128*)&(a)) - -uint8x8_t vcreate_u8(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_u8 vcreate_s8 - -uint16x4_t vcreate_u16(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_u16 vcreate_s16 - -uint32x2_t vcreate_u32(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_u32 vcreate_s32 - -uint64x1_t vcreate_u64(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_u64 vcreate_s8 - - -poly8x8_t vcreate_p8(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_p8 vcreate_u8 - -poly16x4_t vcreate_p16(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_p16 vcreate_u16 - -int64x1_t vcreate_s64(uint64_t a); // VMOV d0,r0,r0 -#define vcreate_s64 vcreate_u64 - -//********************* Set all lanes to same value ******************************** -//********************************************************************************* -//These intrinsics set all lanes to the same value. -uint8x8_t vdup_n_u8(uint8_t value); // VDUP.8 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint8x8_t vdup_n_u8(uint8_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint8x8_t res; - int i; - for (i = 0; i<8; i++) { - res.m64_u8[i] = value; - } - return res; -} - -uint16x4_t vdup_n_u16(uint16_t value); // VDUP.16 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint16x4_t vdup_n_u16(uint16_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint16x4_t res; - int i; - for (i = 0; i<4; i++) { - res.m64_u16[i] = value; - } - return res; -} - -uint32x2_t vdup_n_u32(uint32_t value); // VDUP.32 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(uint32x2_t vdup_n_u32(uint32_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - uint32x2_t res; - res.m64_u32[0] = value; - res.m64_u32[1] = value; - return res; -} - -int8x8_t vdup_n_s8(int8_t value); // VDUP.8 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vdup_n_s8(int8_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int8x8_t res; - int i; - for (i = 0; i<8; i++) { - res.m64_i8[i] = value; - } - return res; -} - -int16x4_t vdup_n_s16(int16_t value); // VDUP.16 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int16x4_t vdup_n_s16(int16_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int16x4_t res; - int i; - for (i = 0; i<4; i++) { - res.m64_i16[i] = value; - } - return res; -} - -int32x2_t vdup_n_s32(int32_t value); // VDUP.32 d0,r0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vdup_n_s32(int32_t value), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32x2_t res; - res.m64_i32[0] = value; - res.m64_i32[1] = value; - return res; -} - -poly8x8_t vdup_n_p8(poly8_t value); // VDUP.8 d0,r0 -#define vdup_n_p8 vdup_n_u8 - -poly16x4_t vdup_n_p16(poly16_t value); // VDUP.16 d0,r0 -#define vdup_n_p16 vdup_n_s16 - -float32x2_t vdup_n_f32(float32_t value); // VDUP.32 d0,r0 -_NEON2SSE_INLINE float32x2_t vdup_n_f32(float32_t value) -{ - float32x2_t res; - res.m64_f32[0] = value; - res.m64_f32[1] = value; - return res; -} - -uint8x16_t vdupq_n_u8(uint8_t value); // VDUP.8 q0,r0 -#define vdupq_n_u8(value) _mm_set1_epi8((uint8_t) (value)) - -uint16x8_t vdupq_n_u16(uint16_t value); // VDUP.16 q0,r0 -#define vdupq_n_u16(value) _mm_set1_epi16((uint16_t) (value)) - -uint32x4_t vdupq_n_u32(uint32_t value); // VDUP.32 q0,r0 -#define vdupq_n_u32(value) _mm_set1_epi32((uint32_t) (value)) - -int8x16_t vdupq_n_s8(int8_t value); // VDUP.8 q0,r0 -#define vdupq_n_s8 _mm_set1_epi8 - -int16x8_t vdupq_n_s16(int16_t value); // VDUP.16 q0,r0 -#define vdupq_n_s16 _mm_set1_epi16 - -int32x4_t vdupq_n_s32(int32_t value); // VDUP.32 q0,r0 -#define vdupq_n_s32 _mm_set1_epi32 - -poly8x16_t vdupq_n_p8(poly8_t value); // VDUP.8 q0,r0 -#define vdupq_n_p8 vdupq_n_u8 - -poly16x8_t vdupq_n_p16(poly16_t value); // VDUP.16 q0,r0 -#define vdupq_n_p16 vdupq_n_u16 - -float32x4_t vdupq_n_f32(float32_t value); // VDUP.32 q0,r0 -#define vdupq_n_f32 _mm_set1_ps - -int64x1_t vdup_n_s64(int64_t value); // VMOV d0,r0,r0 -_NEON2SSE_INLINE int64x1_t vdup_n_s64(int64_t value) -{ - int64x1_t res; - res.m64_i64[0] = value; - return res; -} - -uint64x1_t vdup_n_u64(uint64_t value); // VMOV d0,r0,r0 -_NEON2SSE_INLINE uint64x1_t vdup_n_u64(uint64_t value) -{ - uint64x1_t res; - res.m64_u64[0] = value; - return res; -} - -int64x2_t vdupq_n_s64(int64_t value); // VMOV d0,r0,r0 -_NEON2SSE_INLINE int64x2_t vdupq_n_s64(int64_t value) -{ - _NEON2SSE_ALIGN_16 int64_t value2[2] = {value, value}; //value may be an immediate - return LOAD_SI128(value2); -} - -uint64x2_t vdupq_n_u64(uint64_t value); // VMOV d0,r0,r0 -_NEON2SSE_INLINE uint64x2_t vdupq_n_u64(uint64_t value) -{ - _NEON2SSE_ALIGN_16 uint64_t val[2] = {value, value}; //value may be an immediate - return LOAD_SI128(val); -} - -//**** Set all lanes to same value ************************ -//Same functions as above - just aliaces.******************** -//Probably they reflect the fact that 128-bit functions versions use VMOV instruction ********** -uint8x8_t vmov_n_u8(uint8_t value); // VDUP.8 d0,r0 -#define vmov_n_u8 vdup_n_s8 - -uint16x4_t vmov_n_u16(uint16_t value); // VDUP.16 d0,r0 -#define vmov_n_u16 vdup_n_s16 - -uint32x2_t vmov_n_u32(uint32_t value); // VDUP.32 d0,r0 -#define vmov_n_u32 vdup_n_u32 - -int8x8_t vmov_n_s8(int8_t value); // VDUP.8 d0,r0 -#define vmov_n_s8 vdup_n_s8 - -int16x4_t vmov_n_s16(int16_t value); // VDUP.16 d0,r0 -#define vmov_n_s16 vdup_n_s16 - -int32x2_t vmov_n_s32(int32_t value); // VDUP.32 d0,r0 -#define vmov_n_s32 vdup_n_s32 - -poly8x8_t vmov_n_p8(poly8_t value); // VDUP.8 d0,r0 -#define vmov_n_p8 vdup_n_u8 - -poly16x4_t vmov_n_p16(poly16_t value); // VDUP.16 d0,r0 -#define vmov_n_p16 vdup_n_s16 - -float32x2_t vmov_n_f32(float32_t value); // VDUP.32 d0,r0 -#define vmov_n_f32 vdup_n_f32 - -uint8x16_t vmovq_n_u8(uint8_t value); // VDUP.8 q0,r0 -#define vmovq_n_u8 vdupq_n_u8 - -uint16x8_t vmovq_n_u16(uint16_t value); // VDUP.16 q0,r0 -#define vmovq_n_u16 vdupq_n_s16 - -uint32x4_t vmovq_n_u32(uint32_t value); // VDUP.32 q0,r0 -#define vmovq_n_u32 vdupq_n_u32 - -int8x16_t vmovq_n_s8(int8_t value); // VDUP.8 q0,r0 -#define vmovq_n_s8 vdupq_n_s8 - -int16x8_t vmovq_n_s16(int16_t value); // VDUP.16 q0,r0 -#define vmovq_n_s16 vdupq_n_s16 - -int32x4_t vmovq_n_s32(int32_t value); // VDUP.32 q0,r0 -#define vmovq_n_s32 vdupq_n_s32 - -poly8x16_t vmovq_n_p8(poly8_t value); // VDUP.8 q0,r0 -#define vmovq_n_p8 vdupq_n_u8 - -poly16x8_t vmovq_n_p16(poly16_t value); // VDUP.16 q0,r0 -#define vmovq_n_p16 vdupq_n_s16 - -float32x4_t vmovq_n_f32(float32_t value); // VDUP.32 q0,r0 -#define vmovq_n_f32 vdupq_n_f32 - -int64x1_t vmov_n_s64(int64_t value); // VMOV d0,r0,r0 -#define vmov_n_s64 vdup_n_s64 - -uint64x1_t vmov_n_u64(uint64_t value); // VMOV d0,r0,r0 -#define vmov_n_u64 vdup_n_u64 - -int64x2_t vmovq_n_s64(int64_t value); // VMOV d0,r0,r0 -#define vmovq_n_s64 vdupq_n_s64 - -uint64x2_t vmovq_n_u64(uint64_t value); // VMOV d0,r0,r0 -#define vmovq_n_u64 vdupq_n_u64 - -//**************Set all lanes to the value of one lane of a vector ************* -//**************************************************************************** -//here shuffle is better solution than lane extraction followed by set1 function -uint8x8_t vdup_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -_NEON2SSE_INLINE uint8x8_t vdup_lane_u8(uint8x8_t vec, __constrange(0,7) int lane) -{ - uint8x8_t res; - uint8_t valane; - int i = 0; - valane = vec.m64_u8[lane]; - for (i = 0; i<8; i++) { - res.m64_u8[i] = valane; - } - return res; -} - -uint16x4_t vdup_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -_NEON2SSE_INLINE uint16x4_t vdup_lane_u16(uint16x4_t vec, __constrange(0,3) int lane) -{ - uint16x4_t res; - uint16_t valane; - valane = vec.m64_u16[lane]; - res.m64_u16[0] = valane; - res.m64_u16[1] = valane; - res.m64_u16[2] = valane; - res.m64_u16[3] = valane; - return res; -} - -uint32x2_t vdup_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -_NEON2SSE_INLINE uint32x2_t vdup_lane_u32(uint32x2_t vec, __constrange(0,1) int lane) -{ - uint32x2_t res; - res.m64_u32[0] = vec.m64_u32[lane]; - res.m64_u32[1] = res.m64_u32[0]; - return res; -} - -int8x8_t vdup_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -#define vdup_lane_s8 vdup_lane_u8 - -int16x4_t vdup_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -#define vdup_lane_s16 vdup_lane_u16 - -int32x2_t vdup_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -#define vdup_lane_s32 vdup_lane_u32 - -poly8x8_t vdup_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VDUP.8 d0,d0[0] -#define vdup_lane_p8 vdup_lane_u8 - -poly16x4_t vdup_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VDUP.16 d0,d0[0] -#define vdup_lane_p16 vdup_lane_s16 - -float32x2_t vdup_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VDUP.32 d0,d0[0] -_NEON2SSE_INLINE float32x2_t vdup_lane_f32(float32x2_t vec, __constrange(0,1) int lane) -{ - float32x2_t res; - res.m64_f32[0] = vec.m64_f32[lane]; - res.m64_f32[1] = res.m64_f32[0]; - return res; -} - -uint8x16_t vdupq_lane_u8(uint8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -_NEON2SSE_INLINE uint8x16_t vdupq_lane_u8(uint8x8_t vec, __constrange(0,7) int lane) // VDUP.8 q0,d0[0] -{ - _NEON2SSE_ALIGN_16 int8_t lanemask8[16] = {lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane, lane}; - return _mm_shuffle_epi8 (_pM128i(vec), *(__m128i*) lanemask8); -} - -uint16x8_t vdupq_lane_u16(uint16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -_NEON2SSE_INLINE uint16x8_t vdupq_lane_u16(uint16x4_t vec, __constrange(0,3) int lane) // VDUP.16 q0,d0[0] -{ - //we could use 8bit shuffle for 16 bit as well - const int8_t lane16 = ((int8_t) lane) << 1; - _NEON2SSE_ALIGN_16 int8_t lanemask_e16[16] = {lane16, lane16 + 1, lane16, lane16 + 1, lane16, lane16 + 1, lane16, lane16 + 1, - lane16, lane16 + 1, lane16, lane16 + 1, lane16, lane16 + 1, lane16, lane16 + 1}; - return _mm_shuffle_epi8 (_pM128i(vec), *(__m128i*)lanemask_e16); -} - -uint32x4_t vdupq_lane_u32(uint32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -#define vdupq_lane_u32(vec, lane) _mm_shuffle_epi32 (_pM128i(vec), lane | (lane << 2) | (lane << 4) | (lane << 6)) - -int8x16_t vdupq_lane_s8(int8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -#define vdupq_lane_s8 vdupq_lane_u8 - -int16x8_t vdupq_lane_s16(int16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -#define vdupq_lane_s16 vdupq_lane_u16 - -int32x4_t vdupq_lane_s32(int32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -#define vdupq_lane_s32 vdupq_lane_u32 - -poly8x16_t vdupq_lane_p8(poly8x8_t vec, __constrange(0,7) int lane); // VDUP.8 q0,d0[0] -#define vdupq_lane_p8 vdupq_lane_u8 - -poly16x8_t vdupq_lane_p16(poly16x4_t vec, __constrange(0,3) int lane); // VDUP.16 q0,d0[0] -#define vdupq_lane_p16 vdupq_lane_s16 - -float32x4_t vdupq_lane_f32(float32x2_t vec, __constrange(0,1) int lane); // VDUP.32 q0,d0[0] -#define vdupq_lane_f32(vec, lane) _mm_load1_ps((vec.m64_f32 + lane)) - -int64x1_t vdup_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV d0,d0 -#define vdup_lane_s64(vec,lane) vec - -uint64x1_t vdup_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV d0,d0 -#define vdup_lane_u64(vec,lane) vec - -int64x2_t vdupq_lane_s64(int64x1_t vec, __constrange(0,0) int lane); // VMOV q0,q0 -_NEON2SSE_INLINE int64x2_t vdupq_lane_s64(int64x1_t vec, __constrange(0,0) int lane) -{ - __m128i vec128; - vec128 = _pM128i(vec); - return _mm_unpacklo_epi64(vec128,vec128); -} - -uint64x2_t vdupq_lane_u64(uint64x1_t vec, __constrange(0,0) int lane); // VMOV q0,q0 -#define vdupq_lane_u64 vdupq_lane_s64 - -// ******************************************************************** -// ******************** Combining vectors ***************************** -// ******************************************************************** -//These intrinsics join two 64 bit vectors into a single 128bit vector. -int8x16_t vcombine_s8(int8x8_t low, int8x8_t high); // VMOV d0,d0 -#define vcombine_s8(low, high) _mm_unpacklo_epi64 (_pM128i(low), _pM128i(high) ) - -int16x8_t vcombine_s16(int16x4_t low, int16x4_t high); // VMOV d0,d0 -#define vcombine_s16(low, high) _mm_unpacklo_epi64 (_pM128i(low), _pM128i(high) ) - -int32x4_t vcombine_s32(int32x2_t low, int32x2_t high); // VMOV d0,d0 -#define vcombine_s32(low, high) _mm_unpacklo_epi64 (_pM128i(low), _pM128i(high) ) - -int64x2_t vcombine_s64(int64x1_t low, int64x1_t high); // VMOV d0,d0 -#define vcombine_s64(low, high) _mm_unpacklo_epi64 (_pM128i(low), _pM128i(high) ) - -float16x8_t vcombine_f16(float16x4_t low, float16x4_t high); // VMOV d0,d0 -//current IA SIMD doesn't support float16 - -float32x4_t vcombine_f32(float32x2_t low, float32x2_t high); // VMOV d0,d0 -_NEON2SSE_INLINE float32x4_t vcombine_f32(float32x2_t low, float32x2_t high) -{ - __m128i res; - res = _mm_unpacklo_epi64(_pM128i(low), _pM128i(high) ); - return _M128(res); -} - -uint8x16_t vcombine_u8(uint8x8_t low, uint8x8_t high); // VMOV d0,d0 -#define vcombine_u8 vcombine_s8 - -uint16x8_t vcombine_u16(uint16x4_t low, uint16x4_t high); // VMOV d0,d0 -#define vcombine_u16 vcombine_s16 - -uint32x4_t vcombine_u32(uint32x2_t low, uint32x2_t high); // VMOV d0,d0 -#define vcombine_u32 vcombine_s32 - -uint64x2_t vcombine_u64(uint64x1_t low, uint64x1_t high); // VMOV d0,d0 -#define vcombine_u64 vcombine_s64 - -poly8x16_t vcombine_p8(poly8x8_t low, poly8x8_t high); // VMOV d0,d0 -#define vcombine_p8 vcombine_u8 - -poly16x8_t vcombine_p16(poly16x4_t low, poly16x4_t high); // VMOV d0,d0 -#define vcombine_p16 vcombine_u16 - -//********************************************************************** -//************************* Splitting vectors ************************** -//********************************************************************** -//**************** Get high part ****************************************** -//These intrinsics split a 128 bit vector into 2 component 64 bit vectors -int8x8_t vget_high_s8(int8x16_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int8x8_t vget_high_s8(int8x16_t a) -{ - int8x8_t res64; - __m128i res; - res = _mm_unpackhi_epi64(a,a); //SSE2 - return64(res); -} - -int16x4_t vget_high_s16(int16x8_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int16x4_t vget_high_s16(int16x8_t a) -{ - int16x4_t res64; - __m128i res; - res = _mm_unpackhi_epi64(a,a); //SSE2 - return64(res); -} - -int32x2_t vget_high_s32(int32x4_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int32x2_t vget_high_s32(int32x4_t a) -{ - int32x2_t res64; - __m128i res; - res = _mm_unpackhi_epi64(a,a); //SSE2 - return64(res); -} - -int64x1_t vget_high_s64(int64x2_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int64x1_t vget_high_s64(int64x2_t a) -{ - int64x1_t res64; - __m128i res; - res = _mm_unpackhi_epi64(a,a); //SSE2 - return64(res); -} - -float16x4_t vget_high_f16(float16x8_t a); // VMOV d0,d0 -// IA32 SIMD doesn't work with 16bit floats currently - -float32x2_t vget_high_f32(float32x4_t a); // VMOV d0,d0 -_NEON2SSE_INLINE float32x2_t vget_high_f32(float32x4_t a) -{ - __m128i res; - __m64_128 res64; - res = _mm_unpackhi_epi64(_M128i(a),_M128i(a)); - return64(res); -} - -uint8x8_t vget_high_u8(uint8x16_t a); // VMOV d0,d0 -#define vget_high_u8 vget_high_s8 - -uint16x4_t vget_high_u16(uint16x8_t a); // VMOV d0,d0 -#define vget_high_u16 vget_high_s16 - -uint32x2_t vget_high_u32(uint32x4_t a); // VMOV d0,d0 -#define vget_high_u32 vget_high_s32 - -uint64x1_t vget_high_u64(uint64x2_t a); // VMOV d0,d0 -#define vget_high_u64 vget_high_s64 - -poly8x8_t vget_high_p8(poly8x16_t a); // VMOV d0,d0 -#define vget_high_p8 vget_high_u8 - -poly16x4_t vget_high_p16(poly16x8_t a); // VMOV d0,d0 -#define vget_high_p16 vget_high_u16 - -//********************** Get low part ********************** -//********************************************************** -int8x8_t vget_low_s8(int8x16_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int8x8_t vget_low_s8(int8x16_t a) // VMOV d0,d0 -{ - int16x4_t res64; - return64(a); -} - -int16x4_t vget_low_s16(int16x8_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int16x4_t vget_low_s16(int16x8_t a) // VMOV d0,d0 -{ - int16x4_t res64; - return64(a); -} - -int32x2_t vget_low_s32(int32x4_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int32x2_t vget_low_s32(int32x4_t a) // VMOV d0,d0 -{ - int32x2_t res64; - return64(a); -} - -int64x1_t vget_low_s64(int64x2_t a); // VMOV d0,d0 -_NEON2SSE_INLINE int64x1_t vget_low_s64(int64x2_t a) // VMOV d0,d0 -{ - int64x1_t res64; - return64 (a); -} - -float16x4_t vget_low_f16(float16x8_t a); // VMOV d0,d0 -// IA32 SIMD doesn't work with 16bit floats currently - -float32x2_t vget_low_f32(float32x4_t a); // VMOV d0,d0 -_NEON2SSE_INLINE float32x2_t vget_low_f32(float32x4_t a) -{ - float32x2_t res64; - _M64f(res64, a); - return res64; -} - -uint8x8_t vget_low_u8(uint8x16_t a); // VMOV d0,d0 -#define vget_low_u8 vget_low_s8 - -uint16x4_t vget_low_u16(uint16x8_t a); // VMOV d0,d0 -#define vget_low_u16 vget_low_s16 - -uint32x2_t vget_low_u32(uint32x4_t a); // VMOV d0,d0 -#define vget_low_u32 vget_low_s32 - -uint64x1_t vget_low_u64(uint64x2_t a); // VMOV d0,d0 -#define vget_low_u64 vget_low_s64 - -poly8x8_t vget_low_p8(poly8x16_t a); // VMOV d0,d0 -#define vget_low_p8 vget_low_u8 - -poly16x4_t vget_low_p16(poly16x8_t a); // VMOV d0,d0 -#define vget_low_p16 vget_low_s16 - -//************************************************************************** -//************************ Converting vectors ********************************** -//************************************************************************** -//************* Convert from float *************************************** -// need to set _MM_SET_ROUNDING_MODE ( x) accordingly -int32x2_t vcvt_s32_f32(float32x2_t a); // VCVT.S32.F32 d0, d0 -_NEON2SSE_INLINE int32x2_t vcvt_s32_f32(float32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = _mm_cvttps_epi32(_pM128(a)); //use low 64 bits of result only - return64(res); -} - -uint32x2_t vcvt_u32_f32(float32x2_t a); // VCVT.U32.F32 d0, d0 -_NEON2SSE_INLINE uint32x2_t vcvt_u32_f32(float32x2_t a) -{ - //may be not effective compared with a serial SIMD solution - uint32x2_t res64; - __m128i res; - res = vcvtq_u32_f32(_pM128(a)); - return64(res); -} - -int32x4_t vcvtq_s32_f32(float32x4_t a); // VCVT.S32.F32 q0, q0 -#define vcvtq_s32_f32 _mm_cvttps_epi32 - -uint32x4_t vcvtq_u32_f32(float32x4_t a); // VCVT.U32.F32 q0, q0 -_NEON2SSE_INLINE uint32x4_t vcvtq_u32_f32(float32x4_t a) // VCVT.U32.F32 q0, q0 -{ - //No single instruction SSE solution but we could implement it as following: - __m128i resi; - __m128 zero, mask, a_pos, mask_f_max_si, res; - _NEON2SSE_ALIGN_16 int32_t c7fffffff[4] = {0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff}; - zero = _mm_setzero_ps(); - mask = _mm_cmpgt_ps(a, zero); - a_pos = _mm_and_ps(a, mask); - mask_f_max_si = _mm_cmpgt_ps(a_pos,*(__m128*)c7fffffff); - res = _mm_sub_ps(a_pos, mask_f_max_si); //if the input fits to signed we don't subtract anything - resi = _mm_cvttps_epi32(res); - return _mm_add_epi32(resi, *(__m128i*)&mask_f_max_si); -} - -// ***** Convert to the fixed point with the number of fraction bits specified by b *********** -//************************************************************************************************* -int32x2_t vcvt_n_s32_f32(float32x2_t a, __constrange(1,32) int b); // VCVT.S32.F32 d0, d0, #32 -_NEON2SSE_INLINE int32x2_t vcvt_n_s32_f32(float32x2_t a, __constrange(1,32) int b) -{ - int32x2_t res64; - return64(vcvtq_n_s32_f32(_pM128(a),b)); -} - -uint32x2_t vcvt_n_u32_f32(float32x2_t a, __constrange(1,32) int b); // VCVT.U32.F32 d0, d0, #32 -_NEON2SSE_INLINE uint32x2_t vcvt_n_u32_f32(float32x2_t a, __constrange(1,32) int b) -{ - uint32x2_t res; - float convconst; - convconst = (float)((uint32_t)1 << b); - res.m64_u32[0] = (uint32_t) (a.m64_f32[0] * convconst); - res.m64_u32[1] = (uint32_t) (a.m64_f32[1] * convconst); - return res; -} - -int32x4_t vcvtq_n_s32_f32(float32x4_t a, __constrange(1,32) int b); // VCVT.S32.F32 q0, q0, #32 -_NEON2SSE_INLINE int32x4_t vcvtq_n_s32_f32(float32x4_t a, __constrange(1,32) int b) -{ - float convconst; - _NEON2SSE_ALIGN_16 uint32_t cmask[] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - __m128 cconst128; - __m128i mask, res; - convconst = (float)(1 << b); - cconst128 = vdupq_n_f32(convconst); - res = _mm_cvttps_epi32(_mm_mul_ps(a,cconst128)); - mask = _mm_cmpeq_epi32 (res, *(__m128i*)cmask); - return _mm_xor_si128 (res, mask); //res saturated for 0x80000000 -} - -uint32x4_t vcvtq_n_u32_f32(float32x4_t a, __constrange(1,32) int b); // VCVT.U32.F32 q0, q0, #32 -_NEON2SSE_INLINE uint32x4_t vcvtq_n_u32_f32(float32x4_t a, __constrange(1,32) int b) -{ - float convconst; - __m128 cconst128; - convconst = (float)(1 << b); - cconst128 = vdupq_n_f32(convconst); - return vcvtq_u32_f32(_mm_mul_ps(a,cconst128)); -} - -//***************** Convert to float ************************* -//************************************************************* -float32x2_t vcvt_f32_s32(int32x2_t a); // VCVT.F32.S32 d0, d0 -_NEON2SSE_INLINE float32x2_t vcvt_f32_s32(int32x2_t a) //use low 64 bits -{ - float32x2_t res; - res.m64_f32[0] = (float) a.m64_i32[0]; - res.m64_f32[1] = (float) a.m64_i32[1]; - return res; -} - -float32x2_t vcvt_f32_u32(uint32x2_t a); // VCVT.F32.U32 d0, d0 -_NEON2SSE_INLINE float32x2_t vcvt_f32_u32(uint32x2_t a) -{ - float32x2_t res; - res.m64_f32[0] = (float) a.m64_u32[0]; - res.m64_f32[1] = (float) a.m64_u32[1]; - return res; -} - -float32x4_t vcvtq_f32_s32(int32x4_t a); // VCVT.F32.S32 q0, q0 -#define vcvtq_f32_s32(a) _mm_cvtepi32_ps(a) - -float32x4_t vcvtq_f32_u32(uint32x4_t a); // VCVT.F32.U32 q0, q0 -_NEON2SSE_INLINE float32x4_t vcvtq_f32_u32(uint32x4_t a) // VCVT.F32.U32 q0, q0 -{ - //solution may be not optimal - __m128 two16, fHi, fLo; - __m128i hi, lo; - two16 = _mm_set1_ps((float)0x10000); //2^16 - // Avoid double rounding by doing two exact conversions - // of high and low 16-bit segments - hi = _mm_srli_epi32(a, 16); - lo = _mm_srli_epi32(_mm_slli_epi32(a, 16), 16); - fHi = _mm_mul_ps(_mm_cvtepi32_ps(hi), two16); - fLo = _mm_cvtepi32_ps(lo); - // do single rounding according to current rounding mode - return _mm_add_ps(fHi, fLo); -} - -// ***** Convert to the float from fixed point with the number of fraction bits specified by b *********** -float32x2_t vcvt_n_f32_s32(int32x2_t a, __constrange(1,32) int b); // VCVT.F32.S32 d0, d0, #32 -_NEON2SSE_INLINE float32x2_t vcvt_n_f32_s32(int32x2_t a, __constrange(1,32) int b) -{ - float32x2_t res; - float convconst; - convconst = (float)(1. / ((uint32_t)1 << b)); - res.m64_f32[0] = a.m64_i32[0] * convconst; - res.m64_f32[1] = a.m64_i32[1] * convconst; - return res; -} - -float32x2_t vcvt_n_f32_u32(uint32x2_t a, __constrange(1,32) int b); // VCVT.F32.U32 d0, d0, #32 -_NEON2SSE_INLINE float32x2_t vcvt_n_f32_u32(uint32x2_t a, __constrange(1,32) int b) // VCVT.F32.U32 d0, d0, #32 -{ - float32x2_t res; - float convconst; - convconst = (float)(1. / ((uint32_t)1 << b)); - res.m64_f32[0] = a.m64_u32[0] * convconst; - res.m64_f32[1] = a.m64_u32[1] * convconst; - return res; -} - -float32x4_t vcvtq_n_f32_s32(int32x4_t a, __constrange(1,32) int b); // VCVT.F32.S32 q0, q0, #32 -_NEON2SSE_INLINE float32x4_t vcvtq_n_f32_s32(int32x4_t a, __constrange(1,32) int b) -{ - float convconst; - __m128 cconst128, af; - convconst = (float)(1. / ((uint32_t)1 << b)); - af = _mm_cvtepi32_ps(a); - cconst128 = vdupq_n_f32(convconst); - return _mm_mul_ps(af,cconst128); -} - -float32x4_t vcvtq_n_f32_u32(uint32x4_t a, __constrange(1,32) int b); // VCVT.F32.U32 q0, q0, #32 -_NEON2SSE_INLINE float32x4_t vcvtq_n_f32_u32(uint32x4_t a, __constrange(1,32) int b) -{ - float convconst; - __m128 cconst128, af; - convconst = (float)(1. / (1 << b)); - af = vcvtq_f32_u32(a); - cconst128 = vdupq_n_f32(convconst); - return _mm_mul_ps(af,cconst128); -} - -//**************Convert between floats *********************** -//************************************************************ -float16x4_t vcvt_f16_f32(float32x4_t a); // VCVT.F16.F32 d0, q0 -//Intel SIMD doesn't support 16bits floats curently - -float32x4_t vcvt_f32_f16(float16x4_t a); // VCVT.F32.F16 q0, d0 -//Intel SIMD doesn't support 16bits floats curently, the only solution is to store 16bit floats and load as 32 bits - -//************Vector narrow integer conversion (truncation) ****************** -//**************************************************************************** -int8x8_t vmovn_s16(int16x8_t a); // VMOVN.I16 d0,q0 -_NEON2SSE_INLINE int8x8_t vmovn_s16(int16x8_t a) // VMOVN.I16 d0,q0 -{ - int8x8_t res64; - __m128i res; - _NEON2SSE_ALIGN_16 int8_t mask8_16_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3, 5, 7, 9, 11, 13, 15 }; - res = _mm_shuffle_epi8 (a, *(__m128i*) mask8_16_even_odd); //use 64 low bits only - return64(res); -} - -int16x4_t vmovn_s32(int32x4_t a); // VMOVN.I32 d0,q0 -_NEON2SSE_INLINE int16x4_t vmovn_s32(int32x4_t a) // VMOVN.I32 d0,q0 -{ - int16x4_t res64; - __m128i res; - _NEON2SSE_ALIGN_16 int8_t mask8_32_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7,10,11,14,15}; - res = _mm_shuffle_epi8 (a, *(__m128i*) mask8_32_even_odd); //use 64 low bits only - return64(res); -} - -int32x2_t vmovn_s64(int64x2_t a); // VMOVN.I64 d0,q0 -_NEON2SSE_INLINE int32x2_t vmovn_s64(int64x2_t a) -{ - //may be not effective compared with a serial implementation - int32x2_t res64; - __m128i res; - res = _mm_shuffle_epi32 (a, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //use 64 low bits only, _MM_SHUFFLE(3, 1, 2, 0) - return64(res); -} - -uint8x8_t vmovn_u16(uint16x8_t a); // VMOVN.I16 d0,q0 -#define vmovn_u16 vmovn_s16 - -uint16x4_t vmovn_u32(uint32x4_t a); // VMOVN.I32 d0,q0 -#define vmovn_u32 vmovn_s32 - -uint32x2_t vmovn_u64(uint64x2_t a); // VMOVN.I64 d0,q0 -#define vmovn_u64 vmovn_s64 - -//**************** Vector long move *********************** -//*********************************************************** -int16x8_t vmovl_s8(int8x8_t a); // VMOVL.S8 q0,d0 -#define vmovl_s8(a) _MM_CVTEPI8_EPI16(_pM128i(a)) //SSE4.1 - -int32x4_t vmovl_s16(int16x4_t a); // VMOVL.S16 q0,d0 -#define vmovl_s16(a) _MM_CVTEPI16_EPI32(_pM128i(a)) //SSE4.1 - -int64x2_t vmovl_s32(int32x2_t a); // VMOVL.S32 q0,d0 -#define vmovl_s32(a) _MM_CVTEPI32_EPI64(_pM128i(a)) //SSE4.1 - -uint16x8_t vmovl_u8(uint8x8_t a); // VMOVL.U8 q0,d0 -#define vmovl_u8(a) _MM_CVTEPU8_EPI16(_pM128i(a)) //SSE4.1 - -uint32x4_t vmovl_u16(uint16x4_t a); // VMOVL.s16 q0,d0 -#define vmovl_u16(a) _MM_CVTEPU16_EPI32(_pM128i(a)) //SSE4.1 - -uint64x2_t vmovl_u32(uint32x2_t a); // VMOVL.U32 q0,d0 -#define vmovl_u32(a) _MM_CVTEPU32_EPI64(_pM128i(a)) //SSE4.1 - -//*************Vector saturating narrow integer***************** -//************************************************************** -int8x8_t vqmovn_s16(int16x8_t a); // VQMOVN.S16 d0,q0 -_NEON2SSE_INLINE int8x8_t vqmovn_s16(int16x8_t a) -{ - int8x8_t res64; - __m128i res; - res = _mm_packs_epi16(a, a); - return64(res); -} - -int16x4_t vqmovn_s32(int32x4_t a); // VQMOVN.S32 d0,q0 -_NEON2SSE_INLINE int16x4_t vqmovn_s32(int32x4_t a) -{ - int16x4_t res64; - __m128i res; - res = _mm_packs_epi32(a, a); - return64(res); -} - -int32x2_t vqmovn_s64(int64x2_t a); // VQMOVN.S64 d0,q0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqmovn_s64(int64x2_t a),_NEON2SSE_REASON_SLOW_SERIAL) //no effective SIMD solution -{ - int32x2_t res; - _NEON2SSE_ALIGN_16 int64_t atmp[2]; - _mm_store_si128((__m128i*)atmp, a); - if(atmp[0]>SINT_MAX) atmp[0] = SINT_MAX; - if(atmp[0]<SINT_MIN) atmp[0] = SINT_MIN; - if(atmp[1]>SINT_MAX) atmp[1] = SINT_MAX; - if(atmp[1]<SINT_MIN) atmp[1] = SINT_MIN; - res.m64_i32[0] = (int32_t)atmp[0]; - res.m64_i32[1] = (int32_t)atmp[1]; - return res; -} - -uint8x8_t vqmovn_u16(uint16x8_t a); // VQMOVN.s16 d0,q0 -_NEON2SSE_INLINE uint8x8_t vqmovn_u16(uint16x8_t a) // VQMOVN.s16 d0,q0 -{ - //no uint16 to uint8 conversion in SSE, need truncate to max signed first - uint8x8_t res64; - __m128i c7fff, a_trunc; - c7fff = _mm_set1_epi16 (0x7fff); // 15-th bit set to zero - a_trunc = _mm_and_si128(a, c7fff); // a truncated to max signed - a_trunc = _mm_packus_epi16 (a_trunc, a_trunc); //use low 64bits only - return64(a_trunc); -} - -uint16x4_t vqmovn_u32(uint32x4_t a); // VQMOVN.U32 d0,q0 -_NEON2SSE_INLINE uint16x4_t vqmovn_u32(uint32x4_t a) // VQMOVN.U32 d0,q0 -{ - //no uint32 to uint16 conversion in SSE, need truncate to max signed first - uint16x4_t res64; - __m128i c7fffffff, a_trunc; - c7fffffff = _mm_set1_epi32((uint32_t)0x7fffffff); // 31-th bit set to zero - a_trunc = _mm_and_si128(a, c7fffffff); // a truncated to max signed - a_trunc = _MM_PACKUS1_EPI32 (a_trunc); //use low 64bits only - return64(a_trunc); -} - -uint32x2_t vqmovn_u64(uint64x2_t a); // VQMOVN.U64 d0,q0 -_NEON2SSE_INLINE uint32x2_t vqmovn_u64(uint64x2_t a) -{ - //serial solution may be faster - uint32x2_t res64; - __m128i res_hi, mask; - mask = _mm_setzero_si128(); - res_hi = _mm_srli_epi64(a, 32); - res_hi = _mm_cmpeq_epi32(res_hi, mask); - mask = _mm_cmpeq_epi32(mask,mask); //all fff - mask = _mm_andnot_si128(res_hi,mask); //inverst res_hi to get >32 bits numbers - res_hi = _mm_or_si128(a, mask); - res_hi = _mm_shuffle_epi32(res_hi, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(res_hi); -} -//************* Vector saturating narrow integer signed->unsigned ************** -//***************************************************************************** -uint8x8_t vqmovun_s16(int16x8_t a); // VQMOVUN.S16 d0,q0 -_NEON2SSE_INLINE uint8x8_t vqmovun_s16(int16x8_t a) -{ - uint8x8_t res64; - __m128i res; - res = _mm_packus_epi16(a, a); //use low 64bits only - return64(res); -} - -uint16x4_t vqmovun_s32(int32x4_t a); // VQMOVUN.S32 d0,q0 -_NEON2SSE_INLINE uint16x4_t vqmovun_s32(int32x4_t a) -{ - uint16x4_t res64; - __m128i res; - res = _MM_PACKUS1_EPI32(a); //use low 64bits only - return64(res); -} - -uint32x2_t vqmovun_s64(int64x2_t a); // VQMOVUN.S64 d0,q0 -_NEON2SSE_INLINE uint32x2_t vqmovun_s64(int64x2_t a) -{ - uint32x2_t res64; - __m128i res_hi,res_lo, zero, cmp; - zero = _mm_setzero_si128(); - res_hi = _mm_srli_epi64(a, 32); - cmp = _mm_cmpgt_epi32(zero, res_hi); //if cmp<0 the result should be zero - res_lo = _mm_andnot_si128(cmp,a); //if cmp zero - do nothing, otherwise cmp <0 and the result is 0 - cmp = _mm_cmpgt_epi32(res_hi,zero); //if cmp positive - res_lo = _mm_or_si128(res_lo, cmp); //if cmp positive we are out of 32bits need to saturaate to 0xffffffff - res_lo = _mm_shuffle_epi32(res_lo, 0 | (2 << 2) | (1 << 4) | (3 << 6)); //shuffle the data to get 2 32-bits - return64(res_lo); -} - -// ******************************************************** -// **************** Table look up ************************** -// ******************************************************** -//VTBL (Vector Table Lookup) uses byte indexes in a control vector to look up byte values -//in a table and generate a new vector. Indexes out of range return 0. -//for Intel SIMD we need to set the MSB to 1 for zero return -uint8x8_t vtbl1_u8(uint8x8_t a, uint8x8_t b); // VTBL.8 d0, {d0}, d0 -_NEON2SSE_INLINE uint8x8_t vtbl1_u8(uint8x8_t a, uint8x8_t b) -{ - uint8x8_t res64; - __m128i c7, maskgt, bmask, b128; - c7 = _mm_set1_epi8 (7); - b128 = _pM128i(b); - maskgt = _mm_cmpgt_epi8(b128,c7); - bmask = _mm_or_si128(b128,maskgt); - bmask = _mm_shuffle_epi8(_pM128i(a),bmask); - return64(bmask); -} - -int8x8_t vtbl1_s8(int8x8_t a, int8x8_t b); // VTBL.8 d0, {d0}, d0 -#define vtbl1_s8 vtbl1_u8 - -poly8x8_t vtbl1_p8(poly8x8_t a, uint8x8_t b); // VTBL.8 d0, {d0}, d0 -#define vtbl1_p8 vtbl1_u8 - -//Special trick to avoid __declspec(align('8')) won't be aligned" error -//uint8x8_t vtbl2_u8(uint8x8x2_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -uint8x8_t vtbl2_u8_ptr(uint8x8x2_t* a, uint8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -_NEON2SSE_INLINE uint8x8_t vtbl2_u8_ptr(uint8x8x2_t* a, uint8x8_t b) -{ - uint8x8_t res64; - __m128i c15, a01, maskgt15, bmask, b128; - c15 = _mm_set1_epi8 (15); - b128 = _pM128i(b); - maskgt15 = _mm_cmpgt_epi8(b128,c15); - bmask = _mm_or_si128(b128, maskgt15); - a01 = _mm_unpacklo_epi64(_pM128i(a->val[0]), _pM128i(a->val[1])); - a01 = _mm_shuffle_epi8(a01, bmask); - return64(a01); -} -#define vtbl2_u8(a, b) vtbl2_u8_ptr(&a, b) - -//int8x8_t vtbl2_s8(int8x8x2_t a, int8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -#define vtbl2_s8 vtbl2_u8 - -//poly8x8_t vtbl2_p8(poly8x8x2_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1}, d0 -#define vtbl2_p8 vtbl2_u8 - -//Special trick to avoid __declspec(align('16')) won't be aligned" error -//uint8x8_t vtbl3_u8(uint8x8x3_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -_NEON2SSE_INLINE uint8x8_t vtbl3_u8_ptr(uint8x8x3_t* a, uint8x8_t b) -{ - //solution may be not optimal - uint8x8_t res64; - __m128i c15, c23, maskgt23, bmask, maskgt15, sh0, sh1, a01, b128; - c15 = _mm_set1_epi8 (15); - c23 = _mm_set1_epi8 (23); - b128 = _pM128i(b); - maskgt23 = _mm_cmpgt_epi8(b128,c23); - bmask = _mm_or_si128(b128, maskgt23); - maskgt15 = _mm_cmpgt_epi8(b128,c15); - a01 = _mm_unpacklo_epi64(_pM128i(a->val[0]),_pM128i(a->val[1])); - sh0 = _mm_shuffle_epi8(a01, bmask); - sh1 = _mm_shuffle_epi8(_pM128i(a->val[2]), bmask); //for bi>15 bi is wrapped (bi-=15) - sh0 = _MM_BLENDV_EPI8(sh0, sh1, maskgt15); //SSE4.1 - return64(sh0); -} -#define vtbl3_u8(a,b) vtbl3_u8_ptr(&a,b) - -//int8x8_t vtbl3_s8(int8x8x3_t a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -int8x8_t vtbl3_s8_ptr(int8x8x3_t* a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -#define vtbl3_s8 vtbl3_u8 - -//poly8x8_t vtbl3_p8(poly8x8x3_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -poly8x8_t vtbl3_p8_ptr(poly8x8x3_t* a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2}, d0 -#define vtbl3_p8 vtbl3_u8 - -//uint8x8_t vtbl4_u8(uint8x8x4_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -_NEON2SSE_INLINE uint8x8_t vtbl4_u8_ptr(uint8x8x4_t* a, uint8x8_t b) -{ - //solution may be not optimal - uint8x8_t res64; - __m128i c15, c31, maskgt31, bmask, maskgt15, sh0, sh1, a01, a23, b128; - c15 = _mm_set1_epi8 (15); - c31 = _mm_set1_epi8 (31); - b128 = _pM128i(b); - maskgt31 = _mm_cmpgt_epi8(b128,c31); - bmask = _mm_or_si128(b128, maskgt31); - maskgt15 = _mm_cmpgt_epi8(b128,c15); - a01 = _mm_unpacklo_epi64(_pM128i(a->val[0]),_pM128i(a->val[1])); - a23 = _mm_unpacklo_epi64(_pM128i(a->val[2]),_pM128i(a->val[3])); - sh0 = _mm_shuffle_epi8(a01, bmask); - sh1 = _mm_shuffle_epi8(a23, bmask); //for bi>15 bi is wrapped (bi-=15) - sh0 = _MM_BLENDV_EPI8 (sh0, sh1, maskgt15); //SSE4.1 - return64(sh0); -} -#define vtbl4_u8(a,b) vtbl4_u8_ptr(&a,b) - -//int8x8_t vtbl4_s8(int8x8x4_t a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -int8x8_t vtbl4_s8_ptr(int8x8x4_t* a, int8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -#define vtbl4_s8 vtbl4_u8 - -//poly8x8_t vtbl4_p8(poly8x8x4_t a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -poly8x8_t vtbl4_p8_ptr(poly8x8x4_t* a, uint8x8_t b); // VTBL.8 d0, {d0, d1, d2, d3}, d0 -#define vtbl4_p8 vtbl4_u8 - -//****************** Extended table look up intrinsics *************************** -//********************************************************************************** -//VTBX (Vector Table Extension) works in the same way as VTBL do, -// except that indexes out of range leave the destination element unchanged. - -uint8x8_t vtbx1_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VTBX.8 d0, {d0}, d0 -_NEON2SSE_INLINE uint8x8_t vtbx1_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c) -{ - uint8x8_t res64; - __m128i c7, maskgt, sh, c128; - c7 = _mm_set1_epi8 (7); - c128 = _pM128i(c); - maskgt = _mm_cmpgt_epi8(c128,c7); - c7 = _mm_and_si128(maskgt,_pM128i(a)); - sh = _mm_shuffle_epi8(_pM128i(b),c128); - sh = _mm_andnot_si128(maskgt,sh); - sh = _mm_or_si128(sh,c7); - return64(sh); -} - -int8x8_t vtbx1_s8(int8x8_t a, int8x8_t b, int8x8_t c); // VTBX.8 d0, {d0}, d0 -#define vtbx1_s8 vtbx1_u8 - -poly8x8_t vtbx1_p8(poly8x8_t a, poly8x8_t b, uint8x8_t c); // VTBX.8 d0, {d0}, d0 -#define vtbx1_p8 vtbx1_u8 - -//Special trick to avoid __declspec(align('8')) won't be aligned" error -//uint8x8_t vtbx2_u8(uint8x8_t a, uint8x8x2_t b, uint8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -uint8x8_t vtbx2_u8_ptr(uint8x8_t a, uint8x8x2_t* b, uint8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -_NEON2SSE_INLINE uint8x8_t vtbx2_u8_ptr(uint8x8_t a, uint8x8x2_t* b, uint8x8_t c) -{ - uint8x8_t res64; - __m128i c15, b01, maskgt15, sh, c128; - c15 = _mm_set1_epi8 (15); - c128 = _pM128i(c); - maskgt15 = _mm_cmpgt_epi8(c128, c15); - c15 = _mm_and_si128(maskgt15, _pM128i(a)); - b01 = _mm_unpacklo_epi64(_pM128i(b->val[0]), _pM128i(b->val[1])); - sh = _mm_shuffle_epi8(b01, c128); - sh = _mm_andnot_si128(maskgt15, sh); - sh = _mm_or_si128(sh,c15); - return64(sh); -} -#define vtbx2_u8(a, b, c) vtbx2_u8_ptr(a, &b, c) - -//int8x8_t vtbx2_s8(int8x8_t a, int8x8x2_t b, int8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -#define vtbx2_s8 vtbx2_u8 - -//poly8x8_t vtbx2_p8(poly8x8_t a, poly8x8x2_t b, uint8x8_t c); // VTBX.8 d0, {d0, d1}, d0 -#define vtbx2_p8 vtbx2_u8 - -//uint8x8_t vtbx3_u8(uint8x8_t a, uint8x8x3_t b, uint8x8_t c) // VTBX.8 d0, {d0, d1, d2}, d0 -_NEON2SSE_INLINE uint8x8_t vtbx3_u8_ptr(uint8x8_t a, uint8x8x3_t* b, uint8x8_t c) -{ - //solution may be not optimal - uint8x8_t res64; - __m128i c15, c23, maskgt15, maskgt23, sh0, sh1, b01, c128; - c15 = _mm_set1_epi8 (15); - c23 = _mm_set1_epi8 (23); - c128 = _pM128i(c); - maskgt15 = _mm_cmpgt_epi8(c128,c15); - maskgt23 = _mm_cmpgt_epi8(c128,c23); - c23 = _mm_and_si128(maskgt23, _pM128i(a)); - b01 = _mm_unpacklo_epi64(_pM128i(b->val[0]),_pM128i(b->val[1])); - sh0 = _mm_shuffle_epi8(b01, c128); - sh1 = _mm_shuffle_epi8(_pM128i(b->val[2]), c128); //for bi>15 bi is wrapped (bi-=15) - sh0 = _MM_BLENDV_EPI8(sh0, sh1, maskgt15); - sh0 = _mm_andnot_si128(maskgt23,sh0); - sh0 = _mm_or_si128(sh0,c23); - return64(sh0); -} -#define vtbx3_u8(a, b, c) vtbx3_u8_ptr(a, &b, c) - -//int8x8_t vtbx3_s8(int8x8_t a, int8x8x3_t b, int8x8_t c); // VTBX.8 d0, {d0, d1, d2}, d0 -int8x8_t vtbx3_s8_ptr(int8x8_t a, int8x8x3_t* b, int8x8_t c); -#define vtbx3_s8 vtbx3_u8 - -//poly8x8_t vtbx3_p8(poly8x8_t a, poly8x8x3_t b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2}, d0 -poly8x8_t vtbx3_p8_ptr(poly8x8_t a, poly8x8x3_t* b, uint8x8_t c); -#define vtbx3_p8 vtbx3_u8 - -//uint8x8_t vtbx4_u8(uint8x8_t a, uint8x8x4_t b, uint8x8_t c) // VTBX.8 d0, {d0, d1, d2, d3}, d0 -_NEON2SSE_INLINE uint8x8_t vtbx4_u8_ptr(uint8x8_t a, uint8x8x4_t* b, uint8x8_t c) -{ - //solution may be not optimal - uint8x8_t res64; - __m128i c15, c31, maskgt15, maskgt31, sh0, sh1, b01, b23, c128; - c15 = _mm_set1_epi8 (15); - c31 = _mm_set1_epi8 (31); - c128 = _pM128i(c); - maskgt15 = _mm_cmpgt_epi8(c128,c15); - maskgt31 = _mm_cmpgt_epi8(c128,c31); - c31 = _mm_and_si128(maskgt31, _pM128i(a)); - - b01 = _mm_unpacklo_epi64(_pM128i(b->val[0]),_pM128i(b->val[1])); - b23 = _mm_unpacklo_epi64(_pM128i(b->val[2]),_pM128i(b->val[3])); - sh0 = _mm_shuffle_epi8(b01, c128); - sh1 = _mm_shuffle_epi8(b23, c128); //for bi>15 bi is wrapped (bi-=15) - sh0 = _MM_BLENDV_EPI8(sh0, sh1, maskgt15); - sh0 = _mm_andnot_si128(maskgt31,sh0); - sh0 = _mm_or_si128(sh0,c31); - return64(sh0); -} -#define vtbx4_u8(a, b, c) vtbx4_u8_ptr(a, &b, c) - -//int8x8_t vtbx4_s8(int8x8_t a, int8x8x4_t b, int8x8_t c); // VTBX.8 d0, {d0, d1, d2, d3}, d0 -int8x8_t vtbx4_s8_ptr(int8x8_t a, int8x8x4_t* b, int8x8_t c); -#define vtbx4_s8 vtbx4_u8 - -//poly8x8_t vtbx4_p8(poly8x8_t a, poly8x8x4_t b, uint8x8_t c); // VTBX.8 d0, {d0, d1, d2, d3}, d0 -poly8x8_t vtbx4_p8_ptr(poly8x8_t a, poly8x8x4_t* b, uint8x8_t c); -#define vtbx4_p8 vtbx4_u8 - -//************************************************************************************************* -// *************************** Operations with a scalar value ********************************* -//************************************************************************************************* - -//******* Vector multiply accumulate by scalar ************************************************* -//********************************************************************************************** -int16x4_t vmla_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLA.I16 d0, d0, d0[0] -_NEON2SSE_INLINE int16x4_t vmla_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) // VMLA.I16 d0, d0, d0[0] -{ - int16_t c; - int16x4_t scalar; - c = vget_lane_s16(v, l); - scalar = vdup_n_s16(c); - return vmla_s16(a, b, scalar); -} - -int32x2_t vmla_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLA.I32 d0, d0, d0[0] -_NEON2SSE_INLINE int32x2_t vmla_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l) // VMLA.I32 d0, d0, d0[0] -{ - int32_t c; - int32x2_t scalar; - c = vget_lane_s32(v, l); - scalar = vdup_n_s32(c); - return vmla_s32(a, b, scalar); -} - -uint16x4_t vmla_lane_u16(uint16x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLA.I16 d0, d0, d0[0] -#define vmla_lane_u16 vmla_lane_s16 - - -uint32x2_t vmla_lane_u32(uint32x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLA.I32 d0, d0, d0[0] -#define vmla_lane_u32 vmla_lane_s32 - -float32x2_t vmla_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l); // VMLA.F32 d0, d0, d0[0] -_NEON2SSE_INLINE float32x2_t vmla_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l) -{ - float32_t vlane; - float32x2_t c; - vlane = vget_lane_f32(v, l); - c = vdup_n_f32(vlane); - return vmla_f32(a,b,c); -} - -int16x8_t vmlaq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l); // VMLA.I16 q0, q0, d0[0] -_NEON2SSE_INLINE int16x8_t vmlaq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l) // VMLA.I16 q0, q0, d0[0] -{ - int16_t vlane; - int16x8_t c; - vlane = vget_lane_s16(v, l); - c = vdupq_n_s16(vlane); - return vmlaq_s16(a,b,c); -} - -int32x4_t vmlaq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l); // VMLA.I32 q0, q0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlaq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l) // VMLA.I32 q0, q0, d0[0] -{ - int32_t vlane; - int32x4_t c; - vlane = vget_lane_s32(v, l); - c = vdupq_n_s32(vlane); - return vmlaq_s32(a,b,c); -} - -uint16x8_t vmlaq_lane_u16(uint16x8_t a, uint16x8_t b, uint16x4_t v, __constrange(0,3) int l); // VMLA.I16 q0, q0, d0[0] -#define vmlaq_lane_u16 vmlaq_lane_s16 - -uint32x4_t vmlaq_lane_u32(uint32x4_t a, uint32x4_t b, uint32x2_t v, __constrange(0,1) int l); // VMLA.I32 q0, q0, d0[0] -#define vmlaq_lane_u32 vmlaq_lane_s32 - -float32x4_t vmlaq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l); // VMLA.F32 q0, q0, d0[0] -_NEON2SSE_INLINE float32x4_t vmlaq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l) // VMLA.F32 q0, q0, d0[0] -{ - float32_t vlane; - float32x4_t c; - vlane = vget_lane_f32(v, l); - c = vdupq_n_f32(vlane); - return vmlaq_f32(a,b,c); -} - -//***************** Vector widening multiply accumulate by scalar ********************** -//*************************************************************************************** -int32x4_t vmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLAL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) // VMLAL.S16 q0, d0, d0[0] -{ - int16_t vlane; - int16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vmlal_s16(a, b, c); -} - -int64x2_t vmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLAL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE int64x2_t vmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l) // VMLAL.S32 q0, d0, d0[0] -{ - int32_t vlane; - int32x2_t c; - vlane = vget_lane_s32(v, l); - c = vdup_n_s32(vlane); - return vmlal_s32(a, b, c); -} - -uint32x4_t vmlal_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLAL.s16 q0, d0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlal_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l) // VMLAL.s16 q0, d0, d0[0] -{ - uint16_t vlane; - uint16x4_t c; - vlane = vget_lane_u16(v, l); - c = vdup_n_u16(vlane); - return vmlal_u16(a, b, c); -} - -uint64x2_t vmlal_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLAL.U32 q0, d0, d0[0] -_NEON2SSE_INLINE uint64x2_t vmlal_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l) // VMLAL.U32 q0, d0, d0[0] -{ - uint32_t vlane; - uint32x2_t c; - vlane = vget_lane_u32(v, l); - c = vdup_n_u32(vlane); - return vmlal_u32(a, b, c); -} - -// ******** Vector widening saturating doubling multiply accumulate by scalar ******************************* -// ************************************************************************************************ -int32x4_t vqdmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VQDMLAL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vqdmlal_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) -{ - int16_t vlane; - int16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vqdmlal_s16(a, b, c); -} - -int64x2_t vqdmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VQDMLAL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE int64x2_t vqdmlal_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l) -{ - int32_t vlane; - uint32x2_t c; - vlane = vget_lane_s32(v, l); - c = vdup_n_s32(vlane); - return vqdmlal_s32(a, b, c); -} - -// ****** Vector multiply subtract by scalar ***************** -// ************************************************************* -int16x4_t vmls_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLS.I16 d0, d0, d0[0] -_NEON2SSE_INLINE int16x4_t vmls_lane_s16(int16x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) // VMLS.I16 d0, d0, d0[0] -{ - int16_t vlane; - int16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vmls_s16(a, b, c); -} - -int32x2_t vmls_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLS.I32 d0, d0, d0[0] -_NEON2SSE_INLINE int32x2_t vmls_lane_s32(int32x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l) // VMLS.I32 d0, d0, d0[0] -{ - int32_t vlane; - int32x2_t c; - vlane = vget_lane_s32(v, l); - c = vdup_n_s32(vlane); - return vmls_s32(a, b, c); -} - -uint16x4_t vmls_lane_u16(uint16x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLS.I16 d0, d0, d0[0] -_NEON2SSE_INLINE uint16x4_t vmls_lane_u16(uint16x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l) // VMLS.I16 d0, d0, d0[0] -{ - uint16_t vlane; - uint16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vmls_s16(a, b, c); -} - -uint32x2_t vmls_lane_u32(uint32x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLS.I32 d0, d0, d0[0] -_NEON2SSE_INLINE uint32x2_t vmls_lane_u32(uint32x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l) // VMLS.I32 d0, d0, d0[0] -{ - uint32_t vlane; - uint32x2_t c; - vlane = vget_lane_u32(v, l); - c = vdup_n_u32(vlane); - return vmls_u32(a, b, c); -} - -float32x2_t vmls_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l); // VMLS.F32 d0, d0, d0[0] -_NEON2SSE_INLINE float32x2_t vmls_lane_f32(float32x2_t a, float32x2_t b, float32x2_t v, __constrange(0,1) int l) -{ - float32_t vlane; - float32x2_t c; - vlane = (float) vget_lane_f32(v, l); - c = vdup_n_f32(vlane); - return vmls_f32(a,b,c); -} - -int16x8_t vmlsq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l); // VMLS.I16 q0, q0, d0[0] -_NEON2SSE_INLINE int16x8_t vmlsq_lane_s16(int16x8_t a, int16x8_t b, int16x4_t v, __constrange(0,3) int l) // VMLS.I16 q0, q0, d0[0] -{ - int16_t vlane; - int16x8_t c; - vlane = vget_lane_s16(v, l); - c = vdupq_n_s16(vlane); - return vmlsq_s16(a, b,c); -} - -int32x4_t vmlsq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l); // VMLS.I32 q0, q0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlsq_lane_s32(int32x4_t a, int32x4_t b, int32x2_t v, __constrange(0,1) int l) // VMLS.I32 q0, q0, d0[0] -{ - int32_t vlane; - int32x4_t c; - vlane = vget_lane_s32(v, l); - c = vdupq_n_s32(vlane); - return vmlsq_s32(a,b,c); -} - -uint16x8_t vmlsq_lane_u16(uint16x8_t a, uint16x8_t b, uint16x4_t v, __constrange(0,3) int l); // VMLA.I16 q0, q0, d0[0] -_NEON2SSE_INLINE uint16x8_t vmlsq_lane_u16(uint16x8_t a, uint16x8_t b, uint16x4_t v, __constrange(0,3) int l) // VMLA.I16 q0, q0, d0[0] -{ - uint16_t vlane; - uint16x8_t c; - vlane = vget_lane_u16(v, l); - c = vdupq_n_u16(vlane); - return vmlsq_u16(a,b,c); -} - -uint32x4_t vmlsq_lane_u32(uint32x4_t a, uint32x4_t b, uint32x2_t v, __constrange(0,1) int l); // VMLA.I32 q0, q0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlsq_lane_u32(uint32x4_t a, uint32x4_t b, uint32x2_t v, __constrange(0,1) int l) // VMLA.I32 q0, q0, d0[0] -{ - uint32_t vlane; - uint32x4_t c; - vlane = vget_lane_u32(v, l); - c = vdupq_n_u32(vlane); - return vmlsq_u32(a,b,c); -} - -float32x4_t vmlsq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l); // VMLA.F32 q0, q0, d0[0] -_NEON2SSE_INLINE float32x4_t vmlsq_lane_f32(float32x4_t a, float32x4_t b, float32x2_t v, __constrange(0,1) int l) // VMLA.F32 q0, q0, d0[0] -{ - float32_t vlane; - float32x4_t c; - vlane = (float) vget_lane_f32(v, l); - c = vdupq_n_f32(vlane); - return vmlsq_f32(a,b,c); -} - -// **** Vector widening multiply subtract by scalar **** -// **************************************************** -int32x4_t vmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VMLAL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) // VMLAL.S16 q0, d0, d0[0] -{ - int16_t vlane; - int16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vmlsl_s16(a, b, c); -} - -int64x2_t vmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VMLAL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE int64x2_t vmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l) // VMLAL.S32 q0, d0, d0[0] -{ - int32_t vlane; - int32x2_t c; - vlane = vget_lane_s32(v, l); - c = vdup_n_s32(vlane); - return vmlsl_s32(a, b, c); -} - -uint32x4_t vmlsl_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l); // VMLAL.s16 q0, d0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlsl_lane_u16(uint32x4_t a, uint16x4_t b, uint16x4_t v, __constrange(0,3) int l) // VMLAL.s16 q0, d0, d0[0] -{ - uint16_t vlane; - uint16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vmlsl_s16(a, b, c); -} - -uint64x2_t vmlsl_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l); // VMLAL.U32 q0, d0, d0[0] -_NEON2SSE_INLINE uint64x2_t vmlsl_lane_u32(uint64x2_t a, uint32x2_t b, uint32x2_t v, __constrange(0,1) int l) // VMLAL.U32 q0, d0, d0[0] -{ - uint32_t vlane; - uint32x2_t c; - vlane = vget_lane_u32(v, l); - c = vdup_n_u32(vlane); - return vmlsl_u32(a, b, c); -} - -//********* Vector widening saturating doubling multiply subtract by scalar ************************** -//****************************************************************************************************** -int32x4_t vqdmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l); // VQDMLSL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vqdmlsl_lane_s16(int32x4_t a, int16x4_t b, int16x4_t v, __constrange(0,3) int l) -{ - int16_t vlane; - int16x4_t c; - vlane = vget_lane_s16(v, l); - c = vdup_n_s16(vlane); - return vqdmlsl_s16(a, b, c); -} - -int64x2_t vqdmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l); // VQDMLSL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmlsl_lane_s32(int64x2_t a, int32x2_t b, int32x2_t v, __constrange(0,1) int l), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32_t vlane; - int32x2_t c; - vlane = vget_lane_s32(v, l); - c = vdup_n_s32(vlane); - return vqdmlsl_s32(a, b, c); -} -//********** Vector multiply with scalar ***************************** -int16x4_t vmul_n_s16(int16x4_t a, int16_t b); // VMUL.I16 d0,d0,d0[0] -_NEON2SSE_INLINE int16x4_t vmul_n_s16(int16x4_t a, int16_t b) // VMUL.I16 d0,d0,d0[0] -{ - int16x4_t b16x4; - b16x4 = vdup_n_s16(b); - return vmul_s16(a, b16x4); -} - -int32x2_t vmul_n_s32(int32x2_t a, int32_t b); // VMUL.I32 d0,d0,d0[0] -_NEON2SSE_INLINE int32x2_t vmul_n_s32(int32x2_t a, int32_t b) // VMUL.I32 d0,d0,d0[0] -{ - //serial solution looks faster - int32x2_t b32x2; - b32x2 = vdup_n_s32(b); - return vmul_s32(a, b32x2); -} - -float32x2_t vmul_n_f32(float32x2_t a, float32_t b); // VMUL.F32 d0,d0,d0[0] -_NEON2SSE_INLINE float32x2_t vmul_n_f32(float32x2_t a, float32_t b) // VMUL.F32 d0,d0,d0[0] -{ - float32x2_t b32x2; - b32x2 = vdup_n_f32(b); - return vmul_f32(a, b32x2); -} - -uint16x4_t vmul_n_u16(uint16x4_t a, uint16_t b); // VMUL.I16 d0,d0,d0[0] -_NEON2SSE_INLINE uint16x4_t vmul_n_u16(uint16x4_t a, uint16_t b) // VMUL.I16 d0,d0,d0[0] -{ - uint16x4_t b16x4; - b16x4 = vdup_n_s16(b); - return vmul_s16(a, b16x4); -} - -uint32x2_t vmul_n_u32(uint32x2_t a, uint32_t b); // VMUL.I32 d0,d0,d0[0] -_NEON2SSE_INLINE uint32x2_t vmul_n_u32(uint32x2_t a, uint32_t b) // VMUL.I32 d0,d0,d0[0] -{ - //serial solution looks faster - uint32x2_t b32x2; - b32x2 = vdup_n_u32(b); - return vmul_u32(a, b32x2); -} - -int16x8_t vmulq_n_s16(int16x8_t a, int16_t b); // VMUL.I16 q0,q0,d0[0] -_NEON2SSE_INLINE int16x8_t vmulq_n_s16(int16x8_t a, int16_t b) // VMUL.I16 q0,q0,d0[0] -{ - int16x8_t b16x8; - b16x8 = vdupq_n_s16(b); - return vmulq_s16(a, b16x8); -} - -int32x4_t vmulq_n_s32(int32x4_t a, int32_t b); // VMUL.I32 q0,q0,d0[0] -_NEON2SSE_INLINE int32x4_t vmulq_n_s32(int32x4_t a, int32_t b) // VMUL.I32 q0,q0,d0[0] -{ - int32x4_t b32x4; - b32x4 = vdupq_n_s32(b); - return vmulq_s32(a, b32x4); -} - -float32x4_t vmulq_n_f32(float32x4_t a, float32_t b); // VMUL.F32 q0,q0,d0[0] -_NEON2SSE_INLINE float32x4_t vmulq_n_f32(float32x4_t a, float32_t b) // VMUL.F32 q0,q0,d0[0] -{ - float32x4_t b32x4; - b32x4 = vdupq_n_f32(b); - return vmulq_f32(a, b32x4); -} - -uint16x8_t vmulq_n_u16(uint16x8_t a, uint16_t b); // VMUL.I16 q0,q0,d0[0] -_NEON2SSE_INLINE uint16x8_t vmulq_n_u16(uint16x8_t a, uint16_t b) // VMUL.I16 q0,q0,d0[0] -{ - uint16x8_t b16x8; - b16x8 = vdupq_n_s16(b); - return vmulq_s16(a, b16x8); -} - -uint32x4_t vmulq_n_u32(uint32x4_t a, uint32_t b); // VMUL.I32 q0,q0,d0[0] -_NEON2SSE_INLINE uint32x4_t vmulq_n_u32(uint32x4_t a, uint32_t b) // VMUL.I32 q0,q0,d0[0] -{ - uint32x4_t b32x4; - b32x4 = vdupq_n_u32(b); - return vmulq_u32(a, b32x4); -} - -//********** Vector multiply lane ***************************** -int16x4_t vmul_lane_s16 (int16x4_t a, int16x4_t b, __constrange(0,3) int c); -_NEON2SSE_INLINE int16x4_t vmul_lane_s16 (int16x4_t a, int16x4_t b, __constrange(0,3) int c) -{ - int16x4_t b16x4; - int16_t vlane; - vlane = vget_lane_s16(b, c); - b16x4 = vdup_n_s16(vlane); - return vmul_s16(a, b16x4); -} - -int32x2_t vmul_lane_s32 (int32x2_t a, int32x2_t b, __constrange(0,1) int c); -_NEON2SSE_INLINE int32x2_t vmul_lane_s32 (int32x2_t a, int32x2_t b, __constrange(0,1) int c) -{ - int32x2_t b32x2; - int32_t vlane; - vlane = vget_lane_s32(b, c); - b32x2 = vdup_n_s32(vlane); - return vmul_s32(a, b32x2); -} - -float32x2_t vmul_lane_f32 (float32x2_t a, float32x2_t b, __constrange(0,1) int c); -_NEON2SSE_INLINE float32x2_t vmul_lane_f32 (float32x2_t a, float32x2_t b, __constrange(0,1) int c) -{ - float32x2_t b32x2; - float32_t vlane; - vlane = vget_lane_f32(b, c); - b32x2 = vdup_n_f32(vlane); - return vmul_f32(a, b32x2); -} - -uint16x4_t vmul_lane_u16 (uint16x4_t a, uint16x4_t b, __constrange(0,3) int c); -#define vmul_lane_u16 vmul_lane_s16 - -uint32x2_t vmul_lane_u32 (uint32x2_t a, uint32x2_t b, __constrange(0,1) int c); -#define vmul_lane_u32 vmul_lane_s32 - -int16x8_t vmulq_lane_s16(int16x8_t a, int16x4_t b, __constrange(0,3) int c); -_NEON2SSE_INLINE int16x8_t vmulq_lane_s16 (int16x8_t a, int16x4_t b, __constrange(0,3) int c) -{ - int16x8_t b16x8; - int16_t vlane; - vlane = vget_lane_s16(b, c); - b16x8 = vdupq_n_s16(vlane); - return vmulq_s16(a, b16x8); -} - -int32x4_t vmulq_lane_s32 (int32x4_t a, int32x2_t b, __constrange(0,1) int c); -_NEON2SSE_INLINE int32x4_t vmulq_lane_s32 (int32x4_t a, int32x2_t b, __constrange(0,1) int c) -{ - int32x4_t b32x4; - int32_t vlane; - vlane = vget_lane_s32(b, c); - b32x4 = vdupq_n_s32(vlane); - return vmulq_s32(a, b32x4); -} - -float32x4_t vmulq_lane_f32 (float32x4_t a, float32x2_t b, __constrange(0,1) int c); -_NEON2SSE_INLINE float32x4_t vmulq_lane_f32 (float32x4_t a, float32x2_t b, __constrange(0,1) int c) -{ - float32x4_t b32x4; - float32_t vlane; - vlane = vget_lane_f32(b, c); - b32x4 = vdupq_n_f32(vlane); - return vmulq_f32(a, b32x4); -} - -uint16x8_t vmulq_lane_u16 (uint16x8_t a, uint16x4_t b, __constrange(0,3) int c); -#define vmulq_lane_u16 vmulq_lane_s16 - -uint32x4_t vmulq_lane_u32 (uint32x4_t a, uint32x2_t b, __constrange(0,1) int c); -#define vmulq_lane_u32 vmulq_lane_s32 - -//**** Vector long multiply with scalar ************ -int32x4_t vmull_n_s16(int16x4_t vec1, int16_t val2); // VMULL.S16 q0,d0,d0[0] -_NEON2SSE_INLINE int32x4_t vmull_n_s16(int16x4_t vec1, int16_t val2) // VMULL.S16 q0,d0,d0[0] -{ - int16x4_t b16x4; - b16x4 = vdup_n_s16(val2); - return vmull_s16(vec1, b16x4); -} - -int64x2_t vmull_n_s32(int32x2_t vec1, int32_t val2); // VMULL.S32 q0,d0,d0[0] -_NEON2SSE_INLINE int64x2_t vmull_n_s32(int32x2_t vec1, int32_t val2) // VMULL.S32 q0,d0,d0[0] -{ - int32x2_t b32x2; - b32x2 = vdup_n_s32(val2); - return vmull_s32(vec1, b32x2); -} - -uint32x4_t vmull_n_u16(uint16x4_t vec1, uint16_t val2); // VMULL.s16 q0,d0,d0[0] -_NEON2SSE_INLINE uint32x4_t vmull_n_u16(uint16x4_t vec1, uint16_t val2) // VMULL.s16 q0,d0,d0[0] -{ - uint16x4_t b16x4; - b16x4 = vdup_n_s16(val2); - return vmull_s16(vec1, b16x4); -} - -uint64x2_t vmull_n_u32(uint32x2_t vec1, uint32_t val2); // VMULL.U32 q0,d0,d0[0] -_NEON2SSE_INLINE uint64x2_t vmull_n_u32(uint32x2_t vec1, uint32_t val2) // VMULL.U32 q0,d0,d0[0] -{ - uint32x2_t b32x2; - b32x2 = vdup_n_u32(val2); - return vmull_u32(vec1, b32x2); -} - -//**** Vector long multiply by scalar **** -int32x4_t vmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VMULL.S16 q0,d0,d0[0] -_NEON2SSE_INLINE int32x4_t vmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3) // VMULL.S16 q0,d0,d0[0] -{ - int16_t vlane; - int16x4_t b; - vlane = vget_lane_s16(val2, val3); - b = vdup_n_s16(vlane); - return vmull_s16(vec1, b); -} - -int64x2_t vmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VMULL.S32 q0,d0,d0[0] -_NEON2SSE_INLINE int64x2_t vmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3) // VMULL.S32 q0,d0,d0[0] -{ - int32_t vlane; - int32x2_t b; - vlane = vget_lane_s32(val2, val3); - b = vdup_n_s32(vlane); - return vmull_s32(vec1, b); -} - -uint32x4_t vmull_lane_u16(uint16x4_t vec1, uint16x4_t val2, __constrange(0, 3) int val3); // VMULL.s16 q0,d0,d0[0] -_NEON2SSE_INLINE uint32x4_t vmull_lane_u16(uint16x4_t vec1, uint16x4_t val2, __constrange(0, 3) int val3) // VMULL.s16 q0,d0,d0[0] -{ - uint16_t vlane; - uint16x4_t b; - vlane = vget_lane_s16(val2, val3); - b = vdup_n_s16(vlane); - return vmull_s16(vec1, b); -} - -uint64x2_t vmull_lane_u32(uint32x2_t vec1, uint32x2_t val2, __constrange(0, 1) int val3); // VMULL.U32 q0,d0,d0[0] -_NEON2SSE_INLINE uint64x2_t vmull_lane_u32(uint32x2_t vec1, uint32x2_t val2, __constrange(0, 1) int val3) // VMULL.U32 q0,d0,d0[0] -{ - uint32_t vlane; - uint32x2_t b; - vlane = vget_lane_u32(val2, val3); - b = vdup_n_u32(vlane); - return vmull_u32(vec1, b); -} - -//********* Vector saturating doubling long multiply with scalar ******************* -int32x4_t vqdmull_n_s16(int16x4_t vec1, int16_t val2); // VQDMULL.S16 q0,d0,d0[0] -_NEON2SSE_INLINE int32x4_t vqdmull_n_s16(int16x4_t vec1, int16_t val2) -{ - //the serial soulution may be faster due to saturation - int16x4_t b; - b = vdup_n_s16(val2); - return vqdmull_s16(vec1, b); -} - -int64x2_t vqdmull_n_s32(int32x2_t vec1, int32_t val2); // VQDMULL.S32 q0,d0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmull_n_s32(int32x2_t vec1, int32_t val2), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32x2_t b; - b = vdup_n_s32(val2); - return vqdmull_s32(vec1,b); //slow serial function!!!! -} - -//************* Vector saturating doubling long multiply by scalar *********************************************** -int32x4_t vqdmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULL.S16 q0,d0,d0[0] -_NEON2SSE_INLINE int32x4_t vqdmull_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3) -{ - int16_t c; - int16x4_t scalar; - c = vget_lane_s16(val2, val3); - scalar = vdup_n_s16(c); - return vqdmull_s16(vec1, scalar); -} - - -int64x2_t vqdmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULL.S32 q0,d0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmull_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32_t c; - int32x2_t scalar; - c = vget_lane_s32(val2, val3); - scalar = vdup_n_s32(c); - return vqdmull_s32(vec1,scalar); //slow serial function!!!! -} - -// *****Vector saturating doubling multiply high with scalar ***** -int16x4_t vqdmulh_n_s16(int16x4_t vec1, int16_t val2); // VQDMULH.S16 d0,d0,d0[0] -_NEON2SSE_INLINE int16x4_t vqdmulh_n_s16(int16x4_t vec1, int16_t val2) -{ - int16x4_t res64; - return64(vqdmulhq_n_s16(_pM128i(vec1), val2)); -} - -int32x2_t vqdmulh_n_s32(int32x2_t vec1, int32_t val2); // VQDMULH.S32 d0,d0,d0[0] -_NEON2SSE_INLINE int32x2_t vqdmulh_n_s32(int32x2_t vec1, int32_t val2) -{ - int32x2_t res64; - return64(vqdmulhq_n_s32(_pM128i(vec1), val2)); -} - -int16x8_t vqdmulhq_n_s16(int16x8_t vec1, int16_t val2); // VQDMULH.S16 q0,q0,d0[0] -_NEON2SSE_INLINE int16x8_t vqdmulhq_n_s16(int16x8_t vec1, int16_t val2) // VQDMULH.S16 q0,q0,d0[0] -{ - //solution may be not optimal - int16x8_t scalar; - scalar = vdupq_n_s16(val2); - return vqdmulhq_s16(vec1, scalar); -} - -int32x4_t vqdmulhq_n_s32(int32x4_t vec1, int32_t val2); // VQDMULH.S32 q0,q0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqdmulhq_n_s32(int32x4_t vec1, int32_t val2), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - int32x4_t scalar; - scalar = vdupq_n_s32(val2); - return vqdmulhq_s32(vec1, scalar); -} - -//***** Vector saturating doubling multiply high by scalar **************** -int16x4_t vqdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULH.S16 d0,d0,d0[0] -_NEON2SSE_INLINE int16x4_t vqdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3) // VQDMULH.S16 d0,d0,d0[0] -{ - //solution may be not optimal - int16_t vlane; - int16x4_t scalar; - vlane = vget_lane_s16(val2, val3); - scalar = vdup_n_s16(vlane); - return vqdmulh_s16(vec1, scalar); -} - -int32x2_t vqdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULH.S32 d0,d0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - int32_t vlane; - int32x2_t scalar; - vlane = vget_lane_s32(val2, val3); - scalar = vdup_n_s32(vlane); - return vqdmulh_s32(vec1, scalar); -} - -int16x8_t vqdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQDMULH.S16 q0,q0,d0[0] -_NEON2SSE_INLINE int16x8_t vqdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3) // VQDMULH.S16 q0,q0,d0[0] -{ - //solution may be not optimal - int16_t vlane; - int16x8_t scalar; - vlane = vget_lane_s16(val2, val3); - scalar = vdupq_n_s16(vlane ); - return vqdmulhq_s16(vec1, scalar); -} - -int32x4_t vqdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQDMULH.S32 q0,q0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - //solution may be not optimal - int32_t vlane; - int32x4_t scalar; - vlane = vgetq_lane_s32(_pM128i(val2), val3); - scalar = vdupq_n_s32(vlane ); - return vqdmulhq_s32(vec1, scalar); -} - -//******** Vector saturating rounding doubling multiply high with scalar *** -int16x4_t vqrdmulh_n_s16(int16x4_t vec1, int16_t val2); // VQRDMULH.S16 d0,d0,d0[0] -_NEON2SSE_INLINE int16x4_t vqrdmulh_n_s16(int16x4_t vec1, int16_t val2) // VQRDMULH.S16 d0,d0,d0[0] -{ - //solution may be not optimal - int16x4_t scalar; - scalar = vdup_n_s16(val2); - return vqrdmulh_s16(vec1, scalar); -} - -int32x2_t vqrdmulh_n_s32(int32x2_t vec1, int32_t val2); // VQRDMULH.S32 d0,d0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqrdmulh_n_s32(int32x2_t vec1, int32_t val2), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - int32x2_t scalar; - scalar = vdup_n_s32(val2); - return vqrdmulh_s32(vec1, scalar); -} - -int16x8_t vqrdmulhq_n_s16(int16x8_t vec1, int16_t val2); // VQRDMULH.S16 q0,q0,d0[0] -_NEON2SSE_INLINE int16x8_t vqrdmulhq_n_s16(int16x8_t vec1, int16_t val2) // VQRDMULH.S16 q0,q0,d0[0] -{ - //solution may be not optimal - int16x8_t scalar; - scalar = vdupq_n_s16(val2); - return vqrdmulhq_s16(vec1, scalar); -} - -int32x4_t vqrdmulhq_n_s32(int32x4_t vec1, int32_t val2); // VQRDMULH.S32 q0,q0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqrdmulhq_n_s32(int32x4_t vec1, int32_t val2), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - int32x4_t scalar; - scalar = vdupq_n_s32(val2); - return vqrdmulhq_s32(vec1, scalar); -} - -//********* Vector rounding saturating doubling multiply high by scalar **** -int16x4_t vqrdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQRDMULH.S16 d0,d0,d0[0] -_NEON2SSE_INLINE int16x4_t vqrdmulh_lane_s16(int16x4_t vec1, int16x4_t val2, __constrange(0, 3) int val3) // VQRDMULH.S16 d0,d0,d0[0] -{ - //solution may be not optimal - int16_t vlane; - int16x4_t scalar; - vlane = vget_lane_s16(val2, val3); - scalar = vdup_n_s16(vlane); - return vqrdmulh_s16(vec1, scalar); -} - -int32x2_t vqrdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQRDMULH.S32 d0,d0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vqrdmulh_lane_s32(int32x2_t vec1, int32x2_t val2, __constrange(0, 1) int val3), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - int32_t vlane; - int32x2_t scalar; - vlane = vget_lane_s32(val2, val3); - scalar = vdup_n_s32(vlane); - return vqrdmulh_s32(vec1, scalar); -} - -int16x8_t vqrdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3); // VQRDMULH.S16 q0,q0,d0[0] -_NEON2SSE_INLINE int16x8_t vqrdmulhq_lane_s16(int16x8_t vec1, int16x4_t val2, __constrange(0, 3) int val3) // VQRDMULH.S16 q0,q0,d0[0] -{ - //solution may be not optimal - int16_t vlane; - int16x8_t scalar; - vlane = vget_lane_s16(val2, val3); - scalar = vdupq_n_s16(vlane); - return vqrdmulhq_s16(vec1, scalar); -} - -int32x4_t vqrdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3); // VQRDMULH.S32 q0,q0,d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x4_t vqrdmulhq_lane_s32(int32x4_t vec1, int32x2_t val2, __constrange(0, 1) int val3), _NEON2SSE_REASON_SLOW_UNEFFECTIVE) -{ - //solution may be not optimal - int32_t vlane; - int32x4_t scalar; - vlane = vgetq_lane_s32(_pM128i(val2), val3); - scalar = vdupq_n_s32(vlane ); - return vqrdmulhq_s32(vec1, scalar); -} - -//**************Vector multiply accumulate with scalar ******************* -int16x4_t vmla_n_s16(int16x4_t a, int16x4_t b, int16_t c); // VMLA.I16 d0, d0, d0[0] -_NEON2SSE_INLINE int16x4_t vmla_n_s16(int16x4_t a, int16x4_t b, int16_t c) // VMLA.I16 d0, d0, d0[0] -{ - int16x4_t scalar; - scalar = vdup_n_s16(c); - return vmla_s16(a, b, scalar); -} - -int32x2_t vmla_n_s32(int32x2_t a, int32x2_t b, int32_t c); // VMLA.I32 d0, d0, d0[0] -_NEON2SSE_INLINE int32x2_t vmla_n_s32(int32x2_t a, int32x2_t b, int32_t c) // VMLA.I32 d0, d0, d0[0] -{ - int32x2_t scalar; - scalar = vdup_n_s32(c); - return vmla_s32(a, b, scalar); -} - -uint16x4_t vmla_n_u16(uint16x4_t a, uint16x4_t b, uint16_t c); // VMLA.I16 d0, d0, d0[0] -#define vmla_n_u16 vmla_n_s16 - - -uint32x2_t vmla_n_u32(uint32x2_t a, uint32x2_t b, uint32_t c); // VMLA.I32 d0, d0, d0[0] -#define vmla_n_u32 vmla_n_s32 - - -float32x2_t vmla_n_f32(float32x2_t a, float32x2_t b, float32_t c); // VMLA.F32 d0, d0, d0[0] -_NEON2SSE_INLINE float32x2_t vmla_n_f32(float32x2_t a, float32x2_t b, float32_t c) // VMLA.F32 d0, d0, d0[0] -{ - float32x2_t scalar; - scalar = vdup_n_f32(c); - return vmla_f32(a, b, scalar); -} - -int16x8_t vmlaq_n_s16(int16x8_t a, int16x8_t b, int16_t c); // VMLA.I16 q0, q0, d0[0] -_NEON2SSE_INLINE int16x8_t vmlaq_n_s16(int16x8_t a, int16x8_t b, int16_t c) // VMLA.I16 q0, q0, d0[0] -{ - int16x8_t scalar; - scalar = vdupq_n_s16(c); - return vmlaq_s16(a,b,scalar); -} - -int32x4_t vmlaq_n_s32(int32x4_t a, int32x4_t b, int32_t c); // VMLA.I32 q0, q0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlaq_n_s32(int32x4_t a, int32x4_t b, int32_t c) // VMLA.I32 q0, q0, d0[0] -{ - int32x4_t scalar; - scalar = vdupq_n_s32(c); - return vmlaq_s32(a,b,scalar); -} - -uint16x8_t vmlaq_n_u16(uint16x8_t a, uint16x8_t b, uint16_t c); // VMLA.I16 q0, q0, d0[0] -#define vmlaq_n_u16 vmlaq_n_s16 - -uint32x4_t vmlaq_n_u32(uint32x4_t a, uint32x4_t b, uint32_t c); // VMLA.I32 q0, q0, d0[0] -#define vmlaq_n_u32 vmlaq_n_s32 - -float32x4_t vmlaq_n_f32(float32x4_t a, float32x4_t b, float32_t c); // VMLA.F32 q0, q0, d0[0] -_NEON2SSE_INLINE float32x4_t vmlaq_n_f32(float32x4_t a, float32x4_t b, float32_t c) // VMLA.F32 q0, q0, d0[0] -{ - float32x4_t scalar; - scalar = vdupq_n_f32(c); - return vmlaq_f32(a,b,scalar); -} - -//************Vector widening multiply accumulate with scalar**************************** -int32x4_t vmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VMLAL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c) // VMLAL.S16 q0, d0, d0[0] -{ - int16x4_t vc; - vc = vdup_n_s16(c); - return vmlal_s16(a, b, vc); -} - -int64x2_t vmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VMLAL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE int64x2_t vmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c) // VMLAL.S32 q0, d0, d0[0] -{ - int32x2_t vc; - vc = vdup_n_s32(c); - return vmlal_s32(a, b, vc); -} - -uint32x4_t vmlal_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c); // VMLAL.s16 q0, d0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlal_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c) // VMLAL.s16 q0, d0, d0[0] -{ - uint16x4_t vc; - vc = vdup_n_s16(c); - return vmlal_s16(a, b, vc); -} - -uint64x2_t vmlal_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c); // VMLAL.U32 q0, d0, d0[0] -_NEON2SSE_INLINE uint64x2_t vmlal_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c) // VMLAL.U32 q0, d0, d0[0] -{ - uint32x2_t vc; - vc = vdup_n_u32(c); - return vmlal_u32(a, b, vc); -} - -//************ Vector widening saturating doubling multiply accumulate with scalar ************** -int32x4_t vqdmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VQDMLAL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vqdmlal_n_s16(int32x4_t a, int16x4_t b, int16_t c) -{ - //not optimal SIMD soulution, serial may be faster - int16x4_t vc; - vc = vdup_n_s16(c); - return vqdmlal_s16(a, b, vc); -} - -int64x2_t vqdmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VQDMLAL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmlal_n_s32(int64x2_t a, int32x2_t b, int32_t c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32x2_t vc; - vc = vdup_n_s32(c); - return vqdmlal_s32(a, b, vc); -} - -//******** Vector multiply subtract with scalar ************** -int16x4_t vmls_n_s16(int16x4_t a, int16x4_t b, int16_t c); // VMLS.I16 d0, d0, d0[0] -_NEON2SSE_INLINE int16x4_t vmls_n_s16(int16x4_t a, int16x4_t b, int16_t c) // VMLS.I16 d0, d0, d0[0] -{ - int16x4_t vc; - vc = vdup_n_s16(c); - return vmls_s16(a, b, vc); -} - -int32x2_t vmls_n_s32(int32x2_t a, int32x2_t b, int32_t c); // VMLS.I32 d0, d0, d0[0] -_NEON2SSE_INLINE int32x2_t vmls_n_s32(int32x2_t a, int32x2_t b, int32_t c) // VMLS.I32 d0, d0, d0[0] -{ - int32x2_t vc; - vc = vdup_n_s32(c); - return vmls_s32(a, b, vc); -} - -uint16x4_t vmls_n_u16(uint16x4_t a, uint16x4_t b, uint16_t c); // VMLS.I16 d0, d0, d0[0] -_NEON2SSE_INLINE uint16x4_t vmls_n_u16(uint16x4_t a, uint16x4_t b, uint16_t c) // VMLS.I16 d0, d0, d0[0] -{ - uint16x4_t vc; - vc = vdup_n_s16(c); - return vmls_s16(a, b, vc); -} - -uint32x2_t vmls_n_u32(uint32x2_t a, uint32x2_t b, uint32_t c); // VMLS.I32 d0, d0, d0[0] -_NEON2SSE_INLINE uint32x2_t vmls_n_u32(uint32x2_t a, uint32x2_t b, uint32_t c) // VMLS.I32 d0, d0, d0[0] -{ - uint32x2_t vc; - vc = vdup_n_u32(c); - return vmls_u32(a, b, vc); -} - -float32x2_t vmls_n_f32(float32x2_t a, float32x2_t b, float32_t c); // VMLS.F32 d0, d0, d0[0] -_NEON2SSE_INLINE float32x2_t vmls_n_f32(float32x2_t a, float32x2_t b, float32_t c) -{ - float32x2_t res; - res.m64_f32[0] = a.m64_f32[0] - b.m64_f32[0] * c; - res.m64_f32[1] = a.m64_f32[1] - b.m64_f32[1] * c; - return res; -} - -int16x8_t vmlsq_n_s16(int16x8_t a, int16x8_t b, int16_t c); // VMLS.I16 q0, q0, d0[0] -_NEON2SSE_INLINE int16x8_t vmlsq_n_s16(int16x8_t a, int16x8_t b, int16_t c) // VMLS.I16 q0, q0, d0[0] -{ - int16x8_t vc; - vc = vdupq_n_s16(c); - return vmlsq_s16(a, b,vc); -} - -int32x4_t vmlsq_n_s32(int32x4_t a, int32x4_t b, int32_t c); // VMLS.I32 q0, q0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlsq_n_s32(int32x4_t a, int32x4_t b, int32_t c) // VMLS.I32 q0, q0, d0[0] -{ - int32x4_t vc; - vc = vdupq_n_s32(c); - return vmlsq_s32(a,b,vc); -} - -uint16x8_t vmlsq_n_u16(uint16x8_t a, uint16x8_t b, uint16_t c); // VMLS.I16 q0, q0, d0[0] -_NEON2SSE_INLINE uint16x8_t vmlsq_n_u16(uint16x8_t a, uint16x8_t b, uint16_t c) // VMLS.I16 q0, q0, d0[0] -{ - uint32x4_t vc; - vc = vdupq_n_u32(c); - return vmlsq_u32(a,b,vc); -} - -uint32x4_t vmlsq_n_u32(uint32x4_t a, uint32x4_t b, uint32_t c); // VMLS.I32 q0, q0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlsq_n_u32(uint32x4_t a, uint32x4_t b, uint32_t c) // VMLS.I32 q0, q0, d0[0] -{ - uint32x4_t vc; - vc = vdupq_n_u32(c); - return vmlsq_u32(a,b,vc); -} - -float32x4_t vmlsq_n_f32(float32x4_t a, float32x4_t b, float32_t c); // VMLS.F32 q0, q0, d0[0] -_NEON2SSE_INLINE float32x4_t vmlsq_n_f32(float32x4_t a, float32x4_t b, float32_t c) -{ - float32x4_t vc; - vc = vdupq_n_f32(c); - return vmlsq_f32(a,b,vc); -} - -//**** Vector widening multiply subtract with scalar ****** -int32x4_t vmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VMLSL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c) // VMLSL.S16 q0, d0, d0[0] -{ - int16x4_t vc; - vc = vdup_n_s16(c); - return vmlsl_s16(a, b, vc); -} - -int64x2_t vmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VMLSL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE int64x2_t vmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c) // VMLSL.S32 q0, d0, d0[0] -{ - int32x2_t vc; - vc = vdup_n_s32(c); - return vmlsl_s32(a, b, vc); -} - -uint32x4_t vmlsl_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c); // VMLSL.s16 q0, d0, d0[0] -_NEON2SSE_INLINE uint32x4_t vmlsl_n_u16(uint32x4_t a, uint16x4_t b, uint16_t c) // VMLSL.s16 q0, d0, d0[0] -{ - uint16x4_t vc; - vc = vdup_n_u16(c); - return vmlsl_u16(a, b, vc); -} - -uint64x2_t vmlsl_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c); // VMLSL.U32 q0, d0, d0[0] -_NEON2SSE_INLINE uint64x2_t vmlsl_n_u32(uint64x2_t a, uint32x2_t b, uint32_t c) // VMLSL.U32 q0, d0, d0[0] -{ - uint32x2_t vc; - vc = vdup_n_u32(c); - return vmlsl_u32(a, b, vc); -} - -//***** Vector widening saturating doubling multiply subtract with scalar ********* -//********************************************************************************** -int32x4_t vqdmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c); // VQDMLSL.S16 q0, d0, d0[0] -_NEON2SSE_INLINE int32x4_t vqdmlsl_n_s16(int32x4_t a, int16x4_t b, int16_t c) -{ - int16x4_t vc; - vc = vdup_n_s16(c); - return vqdmlsl_s16(a, b, vc); -} - -int64x2_t vqdmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c); // VQDMLSL.S32 q0, d0, d0[0] -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int64x2_t vqdmlsl_n_s32(int64x2_t a, int32x2_t b, int32_t c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32x2_t vc; - vc = vdup_n_s32(c); - return vqdmlsl_s32(a, b, vc); -} - -//******************* Vector extract *********************************************** -//************************************************************************************* -//VEXT (Vector Extract) extracts elements from the bottom end of the second operand -//vector and the top end of the first, concatenates them, and places the result in the destination vector -//c elements from the bottom end of the second operand and (8-c) from the top end of the first -int8x8_t vext_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int8x8_t vext_s8(int8x8_t a, int8x8_t b, __constrange(0,7) int c),_NEON2SSE_REASON_SLOW_SERIAL) -{ - int8x8_t res; - int i; - for (i = 0; i<8 - c; i++) { - res.m64_i8[i] = a.m64_i8[i + c]; - } - for(i = 0; i<c; i++) { - res.m64_i8[8 - c + i] = b.m64_i8[i]; - } - return res; -} - -uint8x8_t vext_u8(uint8x8_t a, uint8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -#define vext_u8 vext_s8 -//same result tested - -poly8x8_t vext_p8(poly8x8_t a, poly8x8_t b, __constrange(0,7) int c); // VEXT.8 d0,d0,d0,#0 -#define vext_p8 vext_u8 - -int16x4_t vext_s16(int16x4_t a, int16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -_NEON2SSE_INLINE int16x4_t _NEON2SSE_PERFORMANCE_WARNING (vext_s16(int16x4_t a, int16x4_t b, __constrange(0,3) int c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int16x4_t res; - int i; - for (i = 0; i<4 - c; i++) { - res.m64_i16[i] = a.m64_i16[i + c]; - } - for(i = 0; i<c; i++) { - res.m64_i16[4 - c + i] = b.m64_i16[i]; - } - return res; -} - -uint16x4_t vext_u16(uint16x4_t a, uint16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -#define vext_u16 vext_s16 - -poly16x4_t vext_p16(poly16x4_t a, poly16x4_t b, __constrange(0,3) int c); // VEXT.16 d0,d0,d0,#0 -#define vext_p16 vext_s16 - -int32x2_t vext_s32(int32x2_t a, int32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(int32x2_t vext_s32(int32x2_t a, int32x2_t b, __constrange(0,1) int c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - int32x2_t res; - if (c==0) { - res.m64_i32[0] = a.m64_i32[0]; - res.m64_i32[1] = a.m64_i32[1]; - } else { - res.m64_i32[0] = a.m64_i32[1]; - res.m64_i32[1] = b.m64_i32[0]; - } - return res; -} - -float32x2_t vext_f32(float32x2_t a, float32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -_NEON2SSE_INLINE _NEON2SSE_PERFORMANCE_WARNING(float32x2_t vext_f32(float32x2_t a, float32x2_t b, __constrange(0,1) int c), _NEON2SSE_REASON_SLOW_SERIAL) -{ - float32x2_t res; - if (c==0) { - res.m64_f32[0] = a.m64_f32[0]; - res.m64_f32[1] = a.m64_f32[1]; - } else { - res.m64_f32[0] = a.m64_f32[1]; - res.m64_f32[1] = b.m64_f32[0]; - } - return res; -} - -uint32x2_t vext_u32(uint32x2_t a, uint32x2_t b, __constrange(0,1) int c); // VEXT.32 d0,d0,d0,#0 -#define vext_u32 vext_s32 - - -int64x1_t vext_s64(int64x1_t a, int64x1_t b, __constrange(0,0) int c); // VEXT.64 d0,d0,d0,#0 -#define vext_s64(a,b,c) a - -uint64x1_t vext_u64(uint64x1_t a, uint64x1_t b, __constrange(0,0) int c); // VEXT.64 d0,d0,d0,#0 -#define vext_u64(a,b,c) a - -int8x16_t vextq_s8(int8x16_t a, int8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -#define vextq_s8(a,b,c) _MM_ALIGNR_EPI8 (b,a,c) - -uint8x16_t vextq_u8(uint8x16_t a, uint8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -#define vextq_u8(a,b,c) _MM_ALIGNR_EPI8 (b,a,c) - -poly8x16_t vextq_p8(poly8x16_t a, poly8x16_t b, __constrange(0,15) int c); // VEXT.8 q0,q0,q0,#0 -#define vextq_p8 vextq_s8 - -int16x8_t vextq_s16(int16x8_t a, int16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -#define vextq_s16(a,b,c) _MM_ALIGNR_EPI8 (b,a,c * 2) - -uint16x8_t vextq_u16(uint16x8_t a, uint16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -#define vextq_u16(a,b,c) _MM_ALIGNR_EPI8 (b,a,c * 2) - -poly16x8_t vextq_p16(poly16x8_t a, poly16x8_t b, __constrange(0,7) int c); // VEXT.16 q0,q0,q0,#0 -#define vextq_p16 vextq_s16 - -int32x4_t vextq_s32(int32x4_t a, int32x4_t b, __constrange(0,3) int c); // VEXT.32 q0,q0,q0,#0 -#define vextq_s32(a,b,c) _MM_ALIGNR_EPI8 (b,a,c * 4) - -uint32x4_t vextq_u32(uint32x4_t a, uint32x4_t b, __constrange(0,3) int c); // VEXT.32 q0,q0,q0,#0 -#define vextq_u32(a,b,c) _MM_ALIGNR_EPI8 (b,a,c * 4) - -float32x4_t vextq_f32(float32x4_t a, float32x4_t b, __constrange(0,3) float c); // VEXT.32 q0,q0,q0,#0 -#define vextq_f32(a,b,c) _M128(vextq_s32(_M128i(a),_M128i(b),c) ) - -int64x2_t vextq_s64(int64x2_t a, int64x2_t b, __constrange(0,1) int c); // VEXT.64 q0,q0,q0,#0 -#define vextq_s64(a,b,c) _MM_ALIGNR_EPI8(b,a,c * 8) - -uint64x2_t vextq_u64(uint64x2_t a, uint64x2_t b, __constrange(0,1) int c); // VEXT.64 q0,q0,q0,#0 -#define vextq_u64(a,b,c) _MM_ALIGNR_EPI8(b,a,c * 8) - -//************ Reverse vector elements (swap endianness)***************** -//************************************************************************* -//VREVn.m reverses the order of the m-bit lanes within a set that is n bits wide. -int8x8_t vrev64_s8(int8x8_t vec); // VREV64.8 d0,d0 -_NEON2SSE_INLINE int8x8_t vrev64_s8(int8x8_t vec) -{ - int8x8_t res64; - __m128i res; - res = vrev64q_s8(_pM128i(vec)); - return64(res); -} - -int16x4_t vrev64_s16(int16x4_t vec); // VREV64.16 d0,d0 -_NEON2SSE_INLINE int16x4_t vrev64_s16(int16x4_t vec) -{ - int16x4_t res64; - __m128i res; - res = vrev64q_s16(_pM128i(vec)); - return64(res); -} - -int32x2_t vrev64_s32(int32x2_t vec); // VREV64.32 d0,d0 -_NEON2SSE_INLINE int32x2_t vrev64_s32(int32x2_t vec) -{ - int32x2_t res; - res.m64_i32[0] = vec.m64_i32[1]; - res.m64_i32[1] = vec.m64_i32[0]; - return res; -} - -uint8x8_t vrev64_u8(uint8x8_t vec); // VREV64.8 d0,d0 -#define vrev64_u8 vrev64_s8 - -uint16x4_t vrev64_u16(uint16x4_t vec); // VREV64.16 d0,d0 -#define vrev64_u16 vrev64_s16 - -uint32x2_t vrev64_u32(uint32x2_t vec); // VREV64.32 d0,d0 -#define vrev64_u32 vrev64_s32 - -poly8x8_t vrev64_p8(poly8x8_t vec); // VREV64.8 d0,d0 -#define vrev64_p8 vrev64_u8 - -poly16x4_t vrev64_p16(poly16x4_t vec); // VREV64.16 d0,d0 -#define vrev64_p16 vrev64_u16 - -float32x2_t vrev64_f32(float32x2_t vec); // VREV64.32 d0,d0 -_NEON2SSE_INLINE float32x2_t vrev64_f32(float32x2_t vec) -{ - float32x2_t res; - res.m64_f32[0] = vec.m64_f32[1]; - res.m64_f32[1] = vec.m64_f32[0]; - return res; -} - -int8x16_t vrev64q_s8(int8x16_t vec); // VREV64.8 q0,q0 -_NEON2SSE_INLINE int8x16_t vrev64q_s8(int8x16_t vec) // VREV64.8 q0,q0 -{ - _NEON2SSE_ALIGN_16 int8_t mask_rev_e8[16] = {7,6,5,4,3,2,1,0, 15,14,13,12,11,10,9, 8}; - return _mm_shuffle_epi8 (vec, *(__m128i*) mask_rev_e8); -} - -int16x8_t vrev64q_s16(int16x8_t vec); // VREV64.16 q0,q0 -_NEON2SSE_INLINE int16x8_t vrev64q_s16(int16x8_t vec) // VREV64.16 q0,q0 -{ - //no _mm_shuffle_epi16, _mm_shuffle_epi8 to be used with the corresponding mask - _NEON2SSE_ALIGN_16 int8_t mask_rev_e16[16] = {6,7, 4,5,2,3,0,1,14,15,12,13,10,11,8,9}; - return _mm_shuffle_epi8 (vec, *(__m128i*)mask_rev_e16); -} - -int32x4_t vrev64q_s32(int32x4_t vec); // VREV64.32 q0,q0 -_NEON2SSE_INLINE int32x4_t vrev64q_s32(int32x4_t vec) // VREV64.32 q0,q0 -{ - return _mm_shuffle_epi32 (vec, 1 | (0 << 2) | (3 << 4) | (2 << 6) ); -} - -uint8x16_t vrev64q_u8(uint8x16_t vec); // VREV64.8 q0,q0 -#define vrev64q_u8 vrev64q_s8 - -uint16x8_t vrev64q_u16(uint16x8_t vec); // VREV64.16 q0,q0 -#define vrev64q_u16 vrev64q_s16 - -uint32x4_t vrev64q_u32(uint32x4_t vec); // VREV64.32 q0,q0 -#define vrev64q_u32 vrev64q_s32 - -poly8x16_t vrev64q_p8(poly8x16_t vec); // VREV64.8 q0,q0 -#define vrev64q_p8 vrev64q_u8 - -poly16x8_t vrev64q_p16(poly16x8_t vec); // VREV64.16 q0,q0 -#define vrev64q_p16 vrev64q_u16 - -float32x4_t vrev64q_f32(float32x4_t vec); // VREV64.32 q0,q0 -#define vrev64q_f32(vec) _mm_shuffle_ps (vec, vec, _MM_SHUFFLE(2,3, 0,1)) - -//******************** 32 bit shuffles ********************** -//************************************************************ -int8x8_t vrev32_s8(int8x8_t vec); // VREV32.8 d0,d0 -_NEON2SSE_INLINE int8x8_t vrev32_s8(int8x8_t vec) -{ - int8x8_t res64; - __m128i res; - res = vrev32q_s8(_pM128i(vec)); - return64(res); -} - -int16x4_t vrev32_s16(int16x4_t vec); // VREV32.16 d0,d0 -_NEON2SSE_INLINE int16x4_t vrev32_s16(int16x4_t vec) -{ - int16x4_t res64; - __m128i res; - res = vrev32q_s16(_pM128i(vec)); - return64(res); -} - -uint8x8_t vrev32_u8(uint8x8_t vec); // VREV32.8 d0,d0 -#define vrev32_u8 vrev32_s8 - -uint16x4_t vrev32_u16(uint16x4_t vec); // VREV32.16 d0,d0 -#define vrev32_u16 vrev32_s16 - -poly8x8_t vrev32_p8(poly8x8_t vec); // VREV32.8 d0,d0 -#define vrev32_p8 vrev32_u8 - -poly16x4_t vrev32_p16(poly16x4_t vec); // VREV32.16 d0,d0 -#define vrev32_p16 vrev32_u16 - -int8x16_t vrev32q_s8(int8x16_t vec); // VREV32.8 q0,q0 -_NEON2SSE_INLINE int8x16_t vrev32q_s8(int8x16_t vec) // VREV32.8 q0,q0 -{ - _NEON2SSE_ALIGN_16 int8_t mask_rev_e8[16] = {3,2,1,0, 7,6,5,4, 11,10,9,8, 15,14,13,12}; - return _mm_shuffle_epi8 (vec, *(__m128i*) mask_rev_e8); -} - -int16x8_t vrev32q_s16(int16x8_t vec); // VREV32.16 q0,q0 -_NEON2SSE_INLINE int16x8_t vrev32q_s16(int16x8_t vec) // VREV32.16 q0,q0 -{ - _NEON2SSE_ALIGN_16 int8_t mask_rev_e8[16] = {2,3,0,1, 6,7, 4,5, 10,11, 8,9, 14,15,12,13}; - return _mm_shuffle_epi8 (vec, *(__m128i*) mask_rev_e8); -} - -uint8x16_t vrev32q_u8(uint8x16_t vec); // VREV32.8 q0,q0 -#define vrev32q_u8 vrev32q_s8 - -uint16x8_t vrev32q_u16(uint16x8_t vec); // VREV32.16 q0,q0 -#define vrev32q_u16 vrev32q_s16 - -poly8x16_t vrev32q_p8(poly8x16_t vec); // VREV32.8 q0,q0 -#define vrev32q_p8 vrev32q_u8 - -poly16x8_t vrev32q_p16(poly16x8_t vec); // VREV32.16 q0,q0 -#define vrev32q_p16 vrev32q_u16 - -//************* 16 bit shuffles ********************** -//****************************************************** -int8x8_t vrev16_s8(int8x8_t vec); // VREV16.8 d0,d0 -_NEON2SSE_INLINE int8x8_t vrev16_s8(int8x8_t vec) -{ - int8x8_t res64; - __m128i res; - res = vrev16q_s8(_pM128i(vec)); - return64(res); -} - -uint8x8_t vrev16_u8(uint8x8_t vec); // VREV16.8 d0,d0 -#define vrev16_u8 vrev16_s8 - -poly8x8_t vrev16_p8(poly8x8_t vec); // VREV16.8 d0,d0 -#define vrev16_p8 vrev16_u8 - -int8x16_t vrev16q_s8(int8x16_t vec); // VREV16.8 q0,q0 -_NEON2SSE_INLINE int8x16_t vrev16q_s8(int8x16_t vec) // VREV16.8 q0,q0 -{ - _NEON2SSE_ALIGN_16 int8_t mask_rev8[16] = {1,0, 3,2, 5,4, 7,6, 9,8, 11, 10, 13, 12, 15, 14}; - return _mm_shuffle_epi8 (vec, *(__m128i*) mask_rev8); -} - -uint8x16_t vrev16q_u8(uint8x16_t vec); // VREV16.8 q0,q0 -#define vrev16q_u8 vrev16q_s8 - -poly8x16_t vrev16q_p8(poly8x16_t vec); // VREV16.8 q0,q0 -#define vrev16q_p8 vrev16q_u8 - -//********************************************************************* -//**************** Other single operand arithmetic ******************* -//********************************************************************* - -//*********** Absolute: Vd[i] = |Va[i]| ********************************** -//************************************************************************ -int8x8_t vabs_s8(int8x8_t a); // VABS.S8 d0,d0 -_NEON2SSE_INLINE int8x8_t vabs_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = _mm_abs_epi8(_pM128i(a)); - return64(res); -} - - -int16x4_t vabs_s16(int16x4_t a); // VABS.S16 d0,d0 -_NEON2SSE_INLINE int16x4_t vabs_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = _mm_abs_epi16(_pM128i(a)); - return64(res); -} - -int32x2_t vabs_s32(int32x2_t a); // VABS.S32 d0,d0 -_NEON2SSE_INLINE int32x2_t vabs_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = _mm_abs_epi32(_pM128i(a)); - return64(res); -} - -float32x2_t vabs_f32(float32x2_t a); // VABS.F32 d0,d0 -_NEON2SSE_INLINE float32x2_t vabs_f32(float32x2_t a) // VABS.F32 d0,d0 -{ - float32x4_t res; - __m64_128 res64; - _NEON2SSE_ALIGN_16 int32_t c7fffffff[4] = {0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff}; - res = _mm_and_ps (_pM128(a), *(__m128*)c7fffffff); //use 64 low bits only - _M64f(res64, res); - return res64; -} - -int8x16_t vabsq_s8(int8x16_t a); // VABS.S8 q0,q0 -#define vabsq_s8 _mm_abs_epi8 - -int16x8_t vabsq_s16(int16x8_t a); // VABS.S16 q0,q0 -#define vabsq_s16 _mm_abs_epi16 - -int32x4_t vabsq_s32(int32x4_t a); // VABS.S32 q0,q0 -#define vabsq_s32 _mm_abs_epi32 - -float32x4_t vabsq_f32(float32x4_t a); // VABS.F32 q0,q0 -_NEON2SSE_INLINE float32x4_t vabsq_f32(float32x4_t a) // VABS.F32 q0,q0 -{ - _NEON2SSE_ALIGN_16 int32_t c7fffffff[4] = {0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff}; - return _mm_and_ps (a, *(__m128*)c7fffffff); -} - -//****** Saturating absolute: Vd[i] = sat(|Va[i]|) ********************* -//********************************************************************** -//For signed-integer data types, the absolute value of the most negative value is not representable by the data type, saturation takes place -int8x8_t vqabs_s8(int8x8_t a); // VQABS.S8 d0,d0 -_NEON2SSE_INLINE int8x8_t vqabs_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vqabsq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vqabs_s16(int16x4_t a); // VQABS.S16 d0,d0 -_NEON2SSE_INLINE int16x4_t vqabs_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vqabsq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vqabs_s32(int32x2_t a); // VQABS.S32 d0,d0 -_NEON2SSE_INLINE int32x2_t vqabs_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vqabsq_s32(_pM128i(a)); - return64(res); -} - -int8x16_t vqabsq_s8(int8x16_t a); // VQABS.S8 q0,q0 -_NEON2SSE_INLINE int8x16_t vqabsq_s8(int8x16_t a) // VQABS.S8 q0,q0 -{ - __m128i c_128, abs, abs_cmp; - c_128 = _mm_set1_epi8 (0x80); //-128 - abs = _mm_abs_epi8 (a); - abs_cmp = _mm_cmpeq_epi8 (abs, c_128); - return _mm_xor_si128 (abs, abs_cmp); -} - -int16x8_t vqabsq_s16(int16x8_t a); // VQABS.S16 q0,q0 -_NEON2SSE_INLINE int16x8_t vqabsq_s16(int16x8_t a) // VQABS.S16 q0,q0 -{ - __m128i c_32768, abs, abs_cmp; - c_32768 = _mm_set1_epi16 (0x8000); //-32768 - abs = _mm_abs_epi16 (a); - abs_cmp = _mm_cmpeq_epi16 (abs, c_32768); - return _mm_xor_si128 (abs, abs_cmp); -} - -int32x4_t vqabsq_s32(int32x4_t a); // VQABS.S32 q0,q0 -_NEON2SSE_INLINE int32x4_t vqabsq_s32(int32x4_t a) // VQABS.S32 q0,q0 -{ - __m128i c80000000, abs, abs_cmp; - c80000000 = _mm_set1_epi32 (0x80000000); //most negative value - abs = _mm_abs_epi32 (a); - abs_cmp = _mm_cmpeq_epi32 (abs, c80000000); - return _mm_xor_si128 (abs, abs_cmp); -} - -//*************** Negate: Vd[i] = - Va[i] ************************************* -//***************************************************************************** -//several Negate implementations possible for SIMD. -//e.//function _mm_sign function(a, negative numbers vector), but the following one gives good performance: -int8x8_t vneg_s8(int8x8_t a); // VNE//d0,d0 -_NEON2SSE_INLINE int8x8_t vneg_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vnegq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vneg_s16(int16x4_t a); // VNE//d0,d0 -_NEON2SSE_INLINE int16x4_t vneg_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vnegq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vneg_s32(int32x2_t a); // VNE//d0,d0 -_NEON2SSE_INLINE int32x2_t vneg_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vnegq_s32(_pM128i(a)); - return64(res); -} - -float32x2_t vneg_f32(float32x2_t a); // VNE//d0,d0 -_NEON2SSE_INLINE float32x2_t vneg_f32(float32x2_t a) // VNE//d0,d0 -{ - float32x4_t res; - __m64_128 res64; - _NEON2SSE_ALIGN_16 int32_t c80000000[4] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - res = _mm_xor_ps (_pM128(a), *(__m128*) c80000000); //use low 64 bits - _M64f(res64, res); - return res64; -} - -int8x16_t vnegq_s8(int8x16_t a); // VNE//q0,q0 -_NEON2SSE_INLINE int8x16_t vnegq_s8(int8x16_t a) // VNE//q0,q0 -{ - __m128i zero; - zero = _mm_setzero_si128 (); - return _mm_sub_epi8 (zero, a); -} //or _mm_sign_epi8 (a, negative numbers vector) - -int16x8_t vnegq_s16(int16x8_t a); // VNE//q0,q0 -_NEON2SSE_INLINE int16x8_t vnegq_s16(int16x8_t a) // VNE//q0,q0 -{ - __m128i zero; - zero = _mm_setzero_si128 (); - return _mm_sub_epi16 (zero, a); -} //or _mm_sign_epi16 (a, negative numbers vector) - -int32x4_t vnegq_s32(int32x4_t a); // VNE//q0,q0 -_NEON2SSE_INLINE int32x4_t vnegq_s32(int32x4_t a) // VNE//q0,q0 -{ - __m128i zero; - zero = _mm_setzero_si128 (); - return _mm_sub_epi32 (zero, a); -} //or _mm_sign_epi32 (a, negative numbers vector) - -float32x4_t vnegq_f32(float32x4_t a); // VNE//q0,q0 -_NEON2SSE_INLINE float32x4_t vnegq_f32(float32x4_t a) // VNE//q0,q0 -{ - _NEON2SSE_ALIGN_16 int32_t c80000000[4] = {0x80000000, 0x80000000, 0x80000000, 0x80000000}; - return _mm_xor_ps (a, *(__m128*) c80000000); -} - -//************** Saturating Negate: sat(Vd[i] = - Va[i]) ************************** -//*************************************************************************************** -//For signed-integer data types, the negation of the most negative value can't be produced without saturation, while with saturation it is max positive -int8x8_t vqneg_s8(int8x8_t a); // VQNE//d0,d0 -_NEON2SSE_INLINE int8x8_t vqneg_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vqnegq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vqneg_s16(int16x4_t a); // VQNE//d0,d0 -_NEON2SSE_INLINE int16x4_t vqneg_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vqnegq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vqneg_s32(int32x2_t a); // VQNE//d0,d0 -_NEON2SSE_INLINE int32x2_t vqneg_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vqnegq_s32(_pM128i(a)); - return64(res); -} - -int8x16_t vqnegq_s8(int8x16_t a); // VQNE//q0,q0 -_NEON2SSE_INLINE int8x16_t vqnegq_s8(int8x16_t a) // VQNE//q0,q0 -{ - __m128i zero; - zero = _mm_setzero_si128 (); - return _mm_subs_epi8 (zero, a); //saturating substraction -} - -int16x8_t vqnegq_s16(int16x8_t a); // VQNE//q0,q0 -_NEON2SSE_INLINE int16x8_t vqnegq_s16(int16x8_t a) // VQNE//q0,q0 -{ - __m128i zero; - zero = _mm_setzero_si128 (); - return _mm_subs_epi16 (zero, a); //saturating substraction -} - -int32x4_t vqnegq_s32(int32x4_t a); // VQNE//q0,q0 -_NEON2SSE_INLINE int32x4_t vqnegq_s32(int32x4_t a) // VQNE//q0,q0 -{ - //solution may be not optimal compared with a serial - __m128i c80000000, zero, sub, cmp; - c80000000 = _mm_set1_epi32 (0x80000000); //most negative value - zero = _mm_setzero_si128 (); - sub = _mm_sub_epi32 (zero, a); //substraction - cmp = _mm_cmpeq_epi32 (a, c80000000); - return _mm_xor_si128 (sub, cmp); -} - -//****************** Count leading zeros ******************************** -//************************************************************************** -//no corresponding vector intrinsics in IA32, need to implement it. While the implementation is effective for 8 bits, it may be not for 16 and 32 bits -int8x8_t vclz_s8(int8x8_t a); // VCLZ.I8 d0,d0 -_NEON2SSE_INLINE int8x8_t vclz_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vclzq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vclz_s16(int16x4_t a); // VCLZ.I16 d0,d0 -_NEON2SSE_INLINE int16x4_t vclz_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vclzq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vclz_s32(int32x2_t a); // VCLZ.I32 d0,d0 -_NEON2SSE_INLINE int32x2_t vclz_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vclzq_s32(_pM128i(a)); - return64(res); -} - - -uint8x8_t vclz_u8(uint8x8_t a); // VCLZ.I8 d0,d0 -#define vclz_u8 vclz_s8 - -uint16x4_t vclz_u16(uint16x4_t a); // VCLZ.I16 d0,d0 -#define vclz_u16 vclz_s16 - -uint32x2_t vclz_u32(uint32x2_t a); // VCLZ.I32 d0,d0 -#define vclz_u32 vclz_s32 - -int8x16_t vclzq_s8(int8x16_t a); // VCLZ.I8 q0,q0 -_NEON2SSE_INLINE int8x16_t vclzq_s8(int8x16_t a) -{ - _NEON2SSE_ALIGN_16 int8_t mask_CLZ[16] = { /* 0 */ 4,/* 1 */ 3,/* 2 */ 2,/* 3 */ 2, - /* 4 */ 1,/* 5 */ 1,/* 6 */ 1,/* 7 */ 1, - /* 8 */ 0,/* 9 */ 0,/* a */ 0,/* b */ 0, - /* c */ 0,/* d */ 0,/* e */ 0,/* f */ 0 }; - __m128i maskLOW, c4, lowclz, mask, hiclz; - maskLOW = _mm_set1_epi8(0x0f); //low 4 bits, don't need masking low to avoid zero if MSB is set - it happens automatically - c4 = _mm_set1_epi8(4); - lowclz = _mm_shuffle_epi8( *(__m128i*)mask_CLZ, a); //uses low 4 bits anyway - mask = _mm_srli_epi16(a, 4); //get high 4 bits as low bits - mask = _mm_and_si128(mask, maskLOW); //low 4 bits, need masking to avoid zero if MSB is set - hiclz = _mm_shuffle_epi8( *(__m128i*) mask_CLZ, mask); //uses low 4 bits anyway - mask = _mm_cmpeq_epi8(hiclz, c4); // shows the need to add lowclz zeros - lowclz = _mm_and_si128(lowclz,mask); - return _mm_add_epi8(lowclz, hiclz); -} - -int16x8_t vclzq_s16(int16x8_t a); // VCLZ.I16 q0,q0 -_NEON2SSE_INLINE int16x8_t vclzq_s16(int16x8_t a) -{ - __m128i c7, res8x16, res8x16_swap; - _NEON2SSE_ALIGN_16 int8_t mask8_sab[16] = { 1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14}; - _NEON2SSE_ALIGN_16 uint16_t mask8bit[8] = {0x00ff, 0x00ff, 0x00ff, 0x00ff,0x00ff, 0x00ff, 0x00ff, 0x00ff}; - c7 = _mm_srli_epi16(*(__m128i*)mask8bit, 5); //7 - res8x16 = vclzq_s8(a); - res8x16_swap = _mm_shuffle_epi8 (res8x16, *(__m128i*) mask8_sab); //horisontal pairs swap - res8x16 = _mm_and_si128(res8x16, *(__m128i*)mask8bit); //lowclz - res8x16_swap = _mm_and_si128(res8x16_swap, *(__m128i*)mask8bit); //hiclz - c7 = _mm_cmpgt_epi16(res8x16_swap, c7); // shows the need to add lowclz zeros - res8x16 = _mm_and_si128(res8x16, c7); //lowclz - return _mm_add_epi16(res8x16_swap, res8x16); -} - -int32x4_t vclzq_s32(int32x4_t a); // VCLZ.I32 q0,q0 -_NEON2SSE_INLINE int32x4_t vclzq_s32(int32x4_t a) -{ - __m128i c55555555, c33333333, c0f0f0f0f, c3f, c32, tmp, tmp1, res; - c55555555 = _mm_set1_epi32(0x55555555); - c33333333 = _mm_set1_epi32(0x33333333); - c0f0f0f0f = _mm_set1_epi32(0x0f0f0f0f); - c3f = _mm_set1_epi32(0x3f); - c32 = _mm_set1_epi32(32); - tmp = _mm_srli_epi32(a, 1); - res = _mm_or_si128(tmp, a); //atmp[i] |= (atmp[i] >> 1); - tmp = _mm_srli_epi32(res, 2); - res = _mm_or_si128(tmp, res); //atmp[i] |= (atmp[i] >> 2); - tmp = _mm_srli_epi32(res, 4); - res = _mm_or_si128(tmp, res); //atmp[i] |= (atmp[i] >> 4); - tmp = _mm_srli_epi32(res, 8); - res = _mm_or_si128(tmp, res); //atmp[i] |= (atmp[i] >> 8); - tmp = _mm_srli_epi32(res, 16); - res = _mm_or_si128(tmp, res); //atmp[i] |= (atmp[i] >> 16); - - tmp = _mm_srli_epi32(res, 1); - tmp = _mm_and_si128(tmp, c55555555); - res = _mm_sub_epi32(res, tmp); //atmp[i] -= ((atmp[i] >> 1) & 0x55555555); - - tmp = _mm_srli_epi32(res, 2); - tmp = _mm_and_si128(tmp, c33333333); - tmp1 = _mm_and_si128(res, c33333333); - res = _mm_add_epi32(tmp, tmp1); //atmp[i] = (((atmp[i] >> 2) & 0x33333333) + (atmp[i] & 0x33333333)); - - tmp = _mm_srli_epi32(res, 4); - tmp = _mm_add_epi32(tmp, res); - res = _mm_and_si128(tmp, c0f0f0f0f); //atmp[i] = (((atmp[i] >> 4) + atmp[i]) & 0x0f0f0f0f); - - tmp = _mm_srli_epi32(res, 8); - res = _mm_add_epi32(tmp, res); //atmp[i] += (atmp[i] >> 8); - - tmp = _mm_srli_epi32(res, 16); - res = _mm_add_epi32(tmp, res); //atmp[i] += (atmp[i] >> 16); - - res = _mm_and_si128(res, c3f); //atmp[i] = atmp[i] & 0x0000003f; - - return _mm_sub_epi32(c32, res); //res[i] = 32 - atmp[i]; -} - -uint8x16_t vclzq_u8(uint8x16_t a); // VCLZ.I8 q0,q0 -#define vclzq_u8 vclzq_s8 - -uint16x8_t vclzq_u16(uint16x8_t a); // VCLZ.I16 q0,q0 -#define vclzq_u16 vclzq_s16 - -uint32x4_t vclzq_u32(uint32x4_t a); // VCLZ.I32 q0,q0 -#define vclzq_u32 vclzq_s32 - -//************** Count leading sign bits ************************** -//******************************************************************** -//VCLS (Vector Count Leading Sign bits) counts the number of consecutive bits following -// the topmost bit, that are the same as the topmost bit, in each element in a vector -//No corresponding vector intrinsics in IA32, need to implement it. -//While the implementation is effective for 8 bits, it may be not for 16 and 32 bits -int8x8_t vcls_s8(int8x8_t a); // VCLS.S8 d0,d0 -_NEON2SSE_INLINE int8x8_t vcls_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vclsq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vcls_s16(int16x4_t a); // VCLS.S16 d0,d0 -_NEON2SSE_INLINE int16x4_t vcls_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vclsq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vcls_s32(int32x2_t a); // VCLS.S32 d0,d0 -_NEON2SSE_INLINE int32x2_t vcls_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vclsq_s32(_pM128i(a)); - return64(res); -} - -int8x16_t vclsq_s8(int8x16_t a); // VCLS.S8 q0,q0 -_NEON2SSE_INLINE int8x16_t vclsq_s8(int8x16_t a) -{ - __m128i cff, c80, c1, a_mask, a_neg, a_pos, a_comb; - cff = _mm_cmpeq_epi8 (a,a); //0xff - c80 = _mm_set1_epi8(0x80); - c1 = _mm_set1_epi8(1); - a_mask = _mm_and_si128(a, c80); - a_mask = _mm_cmpeq_epi8(a_mask, c80); //0xff if negative input and 0 if positive - a_neg = _mm_xor_si128(a, cff); - a_neg = _mm_and_si128(a_mask, a_neg); - a_pos = _mm_andnot_si128(a_mask, a); - a_comb = _mm_or_si128(a_pos, a_neg); - a_comb = vclzq_s8(a_comb); - return _mm_sub_epi8(a_comb, c1); -} - -int16x8_t vclsq_s16(int16x8_t a); // VCLS.S16 q0,q0 -_NEON2SSE_INLINE int16x8_t vclsq_s16(int16x8_t a) -{ - __m128i cffff, c8000, c1, a_mask, a_neg, a_pos, a_comb; - cffff = _mm_cmpeq_epi16(a,a); - c8000 = _mm_slli_epi16(cffff, 15); //0x8000 - c1 = _mm_srli_epi16(cffff,15); //0x1 - a_mask = _mm_and_si128(a, c8000); - a_mask = _mm_cmpeq_epi16(a_mask, c8000); //0xffff if negative input and 0 if positive - a_neg = _mm_xor_si128(a, cffff); - a_neg = _mm_and_si128(a_mask, a_neg); - a_pos = _mm_andnot_si128(a_mask, a); - a_comb = _mm_or_si128(a_pos, a_neg); - a_comb = vclzq_s16(a_comb); - return _mm_sub_epi16(a_comb, c1); -} - -int32x4_t vclsq_s32(int32x4_t a); // VCLS.S32 q0,q0 -_NEON2SSE_INLINE int32x4_t vclsq_s32(int32x4_t a) -{ - __m128i cffffffff, c80000000, c1, a_mask, a_neg, a_pos, a_comb; - cffffffff = _mm_cmpeq_epi32(a,a); - c80000000 = _mm_slli_epi32(cffffffff, 31); //0x80000000 - c1 = _mm_srli_epi32(cffffffff,31); //0x1 - a_mask = _mm_and_si128(a, c80000000); - a_mask = _mm_cmpeq_epi32(a_mask, c80000000); //0xffffffff if negative input and 0 if positive - a_neg = _mm_xor_si128(a, cffffffff); - a_neg = _mm_and_si128(a_mask, a_neg); - a_pos = _mm_andnot_si128(a_mask, a); - a_comb = _mm_or_si128(a_pos, a_neg); - a_comb = vclzq_s32(a_comb); - return _mm_sub_epi32(a_comb, c1); -} - -//************************* Count number of set bits ******************************** -//************************************************************************************* -//No corresponding SIMD solution. One option is to get a elements, convert it to 32 bits and then use SSE4.2 _mm_popcnt__u32 (unsigned int v) for each element -//another option is to do the following algorithm: - -uint8x8_t vcnt_u8(uint8x8_t a); // VCNT.8 d0,d0 -_NEON2SSE_INLINE uint8x8_t vcnt_u8(uint8x8_t a) -{ - uint8x8_t res64; - __m128i res; - res = vcntq_u8(_pM128i(a)); - return64(res); -} - -int8x8_t vcnt_s8(int8x8_t a); // VCNT.8 d0,d0 -#define vcnt_s8 vcnt_u8 - -poly8x8_t vcnt_p8(poly8x8_t a); // VCNT.8 d0,d0 -#define vcnt_p8 vcnt_u8 - -uint8x16_t vcntq_u8(uint8x16_t a); // VCNT.8 q0,q0 -_NEON2SSE_INLINE uint8x16_t vcntq_u8(uint8x16_t a) -{ - _NEON2SSE_ALIGN_16 int8_t mask_POPCOUNT[16] = { /* 0 */ 0,/* 1 */ 1,/* 2 */ 1,/* 3 */ 2, - /* 4 */ 1,/* 5 */ 2,/* 6 */ 2,/* 7 */ 3, - /* 8 */ 1,/* 9 */ 2,/* a */ 2,/* b */ 3, - /* c */ 2,/* d */ 3,/* e */ 3,/* f */ 4 }; - __m128i maskLOW, mask, lowpopcnt, hipopcnt; - maskLOW = _mm_set1_epi8(0x0f); //low 4 bits, need masking to avoid zero if MSB is set - mask = _mm_and_si128(a, maskLOW); - lowpopcnt = _mm_shuffle_epi8( *(__m128i*)mask_POPCOUNT, mask); //uses low 4 bits anyway - mask = _mm_srli_epi16(a, 4); //get high 4 bits as low bits - mask = _mm_and_si128(mask, maskLOW); //low 4 bits, need masking to avoid zero if MSB is set - hipopcnt = _mm_shuffle_epi8( *(__m128i*) mask_POPCOUNT, mask); //uses low 4 bits anyway - return _mm_add_epi8(lowpopcnt, hipopcnt); -} - -int8x16_t vcntq_s8(int8x16_t a); // VCNT.8 q0,q0 -#define vcntq_s8 vcntq_u8 - -poly8x16_t vcntq_p8(poly8x16_t a); // VCNT.8 q0,q0 -#define vcntq_p8 vcntq_u8 - -//************************************************************************************** -//*********************** Logical operations **************************************** -//************************************************************************************** -//************************** Bitwise not *********************************** -//several Bitwise not implementations possible for SIMD. Eg "xor" with all ones, but the following one gives good performance -int8x8_t vmvn_s8(int8x8_t a); // VMVN d0,d0 -_NEON2SSE_INLINE int8x8_t vmvn_s8(int8x8_t a) -{ - int8x8_t res64; - __m128i res; - res = vmvnq_s8(_pM128i(a)); - return64(res); -} - -int16x4_t vmvn_s16(int16x4_t a); // VMVN d0,d0 -_NEON2SSE_INLINE int16x4_t vmvn_s16(int16x4_t a) -{ - int16x4_t res64; - __m128i res; - res = vmvnq_s16(_pM128i(a)); - return64(res); -} - -int32x2_t vmvn_s32(int32x2_t a); // VMVN d0,d0 -_NEON2SSE_INLINE int32x2_t vmvn_s32(int32x2_t a) -{ - int32x2_t res64; - __m128i res; - res = vmvnq_s32(_pM128i(a)); - return64(res); -} - -uint8x8_t vmvn_u8(uint8x8_t a); // VMVN d0,d0 -#define vmvn_u8 vmvn_s8 - -uint16x4_t vmvn_u16(uint16x4_t a); // VMVN d0,d0 -#define vmvn_u16 vmvn_s16 - -uint32x2_t vmvn_u32(uint32x2_t a); // VMVN d0,d0 -#define vmvn_u32 vmvn_s32 - -poly8x8_t vmvn_p8(poly8x8_t a); // VMVN d0,d0 -#define vmvn_p8 vmvn_u8 - -int8x16_t vmvnq_s8(int8x16_t a); // VMVN q0,q0 -_NEON2SSE_INLINE int8x16_t vmvnq_s8(int8x16_t a) // VMVN q0,q0 -{ - __m128i c1; - c1 = _mm_cmpeq_epi8 (a,a); //0xff - return _mm_andnot_si128 (a, c1); -} - -int16x8_t vmvnq_s16(int16x8_t a); // VMVN q0,q0 -_NEON2SSE_INLINE int16x8_t vmvnq_s16(int16x8_t a) // VMVN q0,q0 -{ - __m128i c1; - c1 = _mm_cmpeq_epi16 (a,a); //0xffff - return _mm_andnot_si128 (a, c1); -} - -int32x4_t vmvnq_s32(int32x4_t a); // VMVN q0,q0 -_NEON2SSE_INLINE int32x4_t vmvnq_s32(int32x4_t a) // VMVN q0,q0 -{ - __m128i c1; - c1 = _mm_cmpeq_epi32 (a,a); //0xffffffff - return _mm_andnot_si128 (a, c1); -} - -uint8x16_t vmvnq_u8(uint8x16_t a); // VMVN q0,q0 -#define vmvnq_u8 vmvnq_s8 - -uint16x8_t vmvnq_u16(uint16x8_t a); // VMVN q0,q0 -#define vmvnq_u16 vmvnq_s16 - -uint32x4_t vmvnq_u32(uint32x4_t a); // VMVN q0,q0 -#define vmvnq_u32 vmvnq_s32 - -poly8x16_t vmvnq_p8(poly8x16_t a); // VMVN q0,q0 -#define vmvnq_p8 vmvnq_u8 - -//****************** Bitwise and *********************** -//****************************************************** -int8x8_t vand_s8(int8x8_t a, int8x8_t b); // VAND d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vand_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_and_si128(_pM128i(a),_pM128i(b))); -} - -int16x4_t vand_s16(int16x4_t a, int16x4_t b); // VAND d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vand_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_and_si128(_pM128i(a),_pM128i(b))); -} - -int32x2_t vand_s32(int32x2_t a, int32x2_t b); // VAND d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vand_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_and_si128(_pM128i(a),_pM128i(b))); -} - - -int64x1_t vand_s64(int64x1_t a, int64x1_t b); // VAND d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vand_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res; - res.m64_i64[0] = a.m64_i64[0] & b.m64_i64[0]; - return res; -} - -uint8x8_t vand_u8(uint8x8_t a, uint8x8_t b); // VAND d0,d0,d0 -#define vand_u8 vand_s8 - -uint16x4_t vand_u16(uint16x4_t a, uint16x4_t b); // VAND d0,d0,d0 -#define vand_u16 vand_s16 - -uint32x2_t vand_u32(uint32x2_t a, uint32x2_t b); // VAND d0,d0,d0 -#define vand_u32 vand_s32 - -uint64x1_t vand_u64(uint64x1_t a, uint64x1_t b); // VAND d0,d0,d0 -#define vand_u64 vand_s64 - - -int8x16_t vandq_s8(int8x16_t a, int8x16_t b); // VAND q0,q0,q0 -#define vandq_s8 _mm_and_si128 - -int16x8_t vandq_s16(int16x8_t a, int16x8_t b); // VAND q0,q0,q0 -#define vandq_s16 _mm_and_si128 - -int32x4_t vandq_s32(int32x4_t a, int32x4_t b); // VAND q0,q0,q0 -#define vandq_s32 _mm_and_si128 - -int64x2_t vandq_s64(int64x2_t a, int64x2_t b); // VAND q0,q0,q0 -#define vandq_s64 _mm_and_si128 - -uint8x16_t vandq_u8(uint8x16_t a, uint8x16_t b); // VAND q0,q0,q0 -#define vandq_u8 _mm_and_si128 - -uint16x8_t vandq_u16(uint16x8_t a, uint16x8_t b); // VAND q0,q0,q0 -#define vandq_u16 _mm_and_si128 - -uint32x4_t vandq_u32(uint32x4_t a, uint32x4_t b); // VAND q0,q0,q0 -#define vandq_u32 _mm_and_si128 - -uint64x2_t vandq_u64(uint64x2_t a, uint64x2_t b); // VAND q0,q0,q0 -#define vandq_u64 _mm_and_si128 - -//******************** Bitwise or ********************************* -//****************************************************************** -int8x8_t vorr_s8(int8x8_t a, int8x8_t b); // VORR d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vorr_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_or_si128(_pM128i(a),_pM128i(b))); -} - - -int16x4_t vorr_s16(int16x4_t a, int16x4_t b); // VORR d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vorr_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(_mm_or_si128(_pM128i(a),_pM128i(b))); -} - - -int32x2_t vorr_s32(int32x2_t a, int32x2_t b); // VORR d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vorr_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(_mm_or_si128(_pM128i(a),_pM128i(b))); -} - - -int64x1_t vorr_s64(int64x1_t a, int64x1_t b); // VORR d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vorr_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res; - res.m64_i64[0] = a.m64_i64[0] | b.m64_i64[0]; - return res; -} - -uint8x8_t vorr_u8(uint8x8_t a, uint8x8_t b); // VORR d0,d0,d0 -#define vorr_u8 vorr_s8 - -uint16x4_t vorr_u16(uint16x4_t a, uint16x4_t b); // VORR d0,d0,d0 -#define vorr_u16 vorr_s16 - -uint32x2_t vorr_u32(uint32x2_t a, uint32x2_t b); // VORR d0,d0,d0 -#define vorr_u32 vorr_s32 - -uint64x1_t vorr_u64(uint64x1_t a, uint64x1_t b); // VORR d0,d0,d0 -#define vorr_u64 vorr_s64 - -int8x16_t vorrq_s8(int8x16_t a, int8x16_t b); // VORR q0,q0,q0 -#define vorrq_s8 _mm_or_si128 - -int16x8_t vorrq_s16(int16x8_t a, int16x8_t b); // VORR q0,q0,q0 -#define vorrq_s16 _mm_or_si128 - -int32x4_t vorrq_s32(int32x4_t a, int32x4_t b); // VORR q0,q0,q0 -#define vorrq_s32 _mm_or_si128 - -int64x2_t vorrq_s64(int64x2_t a, int64x2_t b); // VORR q0,q0,q0 -#define vorrq_s64 _mm_or_si128 - -uint8x16_t vorrq_u8(uint8x16_t a, uint8x16_t b); // VORR q0,q0,q0 -#define vorrq_u8 _mm_or_si128 - -uint16x8_t vorrq_u16(uint16x8_t a, uint16x8_t b); // VORR q0,q0,q0 -#define vorrq_u16 _mm_or_si128 - -uint32x4_t vorrq_u32(uint32x4_t a, uint32x4_t b); // VORR q0,q0,q0 -#define vorrq_u32 _mm_or_si128 - -uint64x2_t vorrq_u64(uint64x2_t a, uint64x2_t b); // VORR q0,q0,q0 -#define vorrq_u64 _mm_or_si128 - -//************* Bitwise exclusive or (EOR or XOR) ****************** -//******************************************************************* -int8x8_t veor_s8(int8x8_t a, int8x8_t b); // VEOR d0,d0,d0 -_NEON2SSE_INLINE int8x8_t veor_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_xor_si128(_pM128i(a),_pM128i(b))); -} - -int16x4_t veor_s16(int16x4_t a, int16x4_t b); // VEOR d0,d0,d0 -#define veor_s16 veor_s8 - -int32x2_t veor_s32(int32x2_t a, int32x2_t b); // VEOR d0,d0,d0 -#define veor_s32 veor_s8 - -int64x1_t veor_s64(int64x1_t a, int64x1_t b); // VEOR d0,d0,d0 -_NEON2SSE_INLINE int64x1_t veor_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res; - res.m64_i64[0] = a.m64_i64[0] ^ b.m64_i64[0]; - return res; -} - -uint8x8_t veor_u8(uint8x8_t a, uint8x8_t b); // VEOR d0,d0,d0 -#define veor_u8 veor_s8 - -uint16x4_t veor_u16(uint16x4_t a, uint16x4_t b); // VEOR d0,d0,d0 -#define veor_u16 veor_s16 - -uint32x2_t veor_u32(uint32x2_t a, uint32x2_t b); // VEOR d0,d0,d0 -#define veor_u32 veor_s32 - -uint64x1_t veor_u64(uint64x1_t a, uint64x1_t b); // VEOR d0,d0,d0 -#define veor_u64 veor_s64 - -int8x16_t veorq_s8(int8x16_t a, int8x16_t b); // VEOR q0,q0,q0 -#define veorq_s8 _mm_xor_si128 - -int16x8_t veorq_s16(int16x8_t a, int16x8_t b); // VEOR q0,q0,q0 -#define veorq_s16 _mm_xor_si128 - -int32x4_t veorq_s32(int32x4_t a, int32x4_t b); // VEOR q0,q0,q0 -#define veorq_s32 _mm_xor_si128 - -int64x2_t veorq_s64(int64x2_t a, int64x2_t b); // VEOR q0,q0,q0 -#define veorq_s64 _mm_xor_si128 - -uint8x16_t veorq_u8(uint8x16_t a, uint8x16_t b); // VEOR q0,q0,q0 -#define veorq_u8 _mm_xor_si128 - -uint16x8_t veorq_u16(uint16x8_t a, uint16x8_t b); // VEOR q0,q0,q0 -#define veorq_u16 _mm_xor_si128 - -uint32x4_t veorq_u32(uint32x4_t a, uint32x4_t b); // VEOR q0,q0,q0 -#define veorq_u32 _mm_xor_si128 - -uint64x2_t veorq_u64(uint64x2_t a, uint64x2_t b); // VEOR q0,q0,q0 -#define veorq_u64 _mm_xor_si128 - -//********************** Bit Clear ********************************** -//******************************************************************* -//Logical AND complement (AND negation or AND NOT) -int8x8_t vbic_s8(int8x8_t a, int8x8_t b); // VBIC d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vbic_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(_mm_andnot_si128(_pM128i(b),_pM128i(a))); //notice the arguments "swap" -} - -int16x4_t vbic_s16(int16x4_t a, int16x4_t b); // VBIC d0,d0,d0 -#define vbic_s16 vbic_s8 - -int32x2_t vbic_s32(int32x2_t a, int32x2_t b); // VBIC d0,d0,d0 -#define vbic_s32 vbic_s8 - -int64x1_t vbic_s64(int64x1_t a, int64x1_t b); // VBIC d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vbic_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res; - res.m64_i64[0] = a.m64_i64[0] & (~b.m64_i64[0]); - return res; -} - -uint8x8_t vbic_u8(uint8x8_t a, uint8x8_t b); // VBIC d0,d0,d0 -#define vbic_u8 vbic_s8 - -uint16x4_t vbic_u16(uint16x4_t a, uint16x4_t b); // VBIC d0,d0,d0 -#define vbic_u16 vbic_s16 - -uint32x2_t vbic_u32(uint32x2_t a, uint32x2_t b); // VBIC d0,d0,d0 -#define vbic_u32 vbic_s32 - -uint64x1_t vbic_u64(uint64x1_t a, uint64x1_t b); // VBIC d0,d0,d0 -#define vbic_u64 vbic_s64 - -int8x16_t vbicq_s8(int8x16_t a, int8x16_t b); // VBIC q0,q0,q0 -#define vbicq_s8(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -int16x8_t vbicq_s16(int16x8_t a, int16x8_t b); // VBIC q0,q0,q0 -#define vbicq_s16(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -int32x4_t vbicq_s32(int32x4_t a, int32x4_t b); // VBIC q0,q0,q0 -#define vbicq_s32(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -int64x2_t vbicq_s64(int64x2_t a, int64x2_t b); // VBIC q0,q0,q0 -#define vbicq_s64(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -uint8x16_t vbicq_u8(uint8x16_t a, uint8x16_t b); // VBIC q0,q0,q0 -#define vbicq_u8(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -uint16x8_t vbicq_u16(uint16x8_t a, uint16x8_t b); // VBIC q0,q0,q0 -#define vbicq_u16(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -uint32x4_t vbicq_u32(uint32x4_t a, uint32x4_t b); // VBIC q0,q0,q0 -#define vbicq_u32(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -uint64x2_t vbicq_u64(uint64x2_t a, uint64x2_t b); // VBIC q0,q0,q0 -#define vbicq_u64(a,b) _mm_andnot_si128 (b,a) //notice arguments "swap" - -//**************** Bitwise OR complement ******************************** -//**************************************** ******************************** -//no exact IA 32 match, need to implement it as following -int8x8_t vorn_s8(int8x8_t a, int8x8_t b); // VORN d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vorn_s8(int8x8_t a, int8x8_t b) -{ - int8x8_t res64; - return64(vornq_s8(_pM128i(a), _pM128i(b))); -} - - -int16x4_t vorn_s16(int16x4_t a, int16x4_t b); // VORN d0,d0,d0 -_NEON2SSE_INLINE int16x4_t vorn_s16(int16x4_t a, int16x4_t b) -{ - int16x4_t res64; - return64(vornq_s16(_pM128i(a), _pM128i(b))); -} - - -int32x2_t vorn_s32(int32x2_t a, int32x2_t b); // VORN d0,d0,d0 -_NEON2SSE_INLINE int32x2_t vorn_s32(int32x2_t a, int32x2_t b) -{ - int32x2_t res64; - return64(vornq_s32(_pM128i(a), _pM128i(b))); -} - - -int64x1_t vorn_s64(int64x1_t a, int64x1_t b); // VORN d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vorn_s64(int64x1_t a, int64x1_t b) -{ - int64x1_t res; - res.m64_i64[0] = a.m64_i64[0] | (~b.m64_i64[0]); - return res; -} - -uint8x8_t vorn_u8(uint8x8_t a, uint8x8_t b); // VORN d0,d0,d0 -#define vorn_u8 vorn_s8 - - -uint16x4_t vorn_u16(uint16x4_t a, uint16x4_t b); // VORN d0,d0,d0 -#define vorn_u16 vorn_s16 - -uint32x2_t vorn_u32(uint32x2_t a, uint32x2_t b); // VORN d0,d0,d0 -#define vorn_u32 vorn_s32 - -uint64x1_t vorn_u64(uint64x1_t a, uint64x1_t b); // VORN d0,d0,d0 -#define vorn_u64 vorn_s64 - - -int8x16_t vornq_s8(int8x16_t a, int8x16_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vornq_s8(int8x16_t a, int8x16_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_s8( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} - -int16x8_t vornq_s16(int16x8_t a, int16x8_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE int16x8_t vornq_s16(int16x8_t a, int16x8_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_s16( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} - -int32x4_t vornq_s32(int32x4_t a, int32x4_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE int32x4_t vornq_s32(int32x4_t a, int32x4_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_s32( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} - -int64x2_t vornq_s64(int64x2_t a, int64x2_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE int64x2_t vornq_s64(int64x2_t a, int64x2_t b) -{ - __m128i c1, b1; - c1 = _mm_cmpeq_epi8 (a, a); //all ones 0xfffffff...fffff - b1 = _mm_andnot_si128 (b, c1); - return _mm_or_si128 (a, b1); -} - -uint8x16_t vornq_u8(uint8x16_t a, uint8x16_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE uint8x16_t vornq_u8(uint8x16_t a, uint8x16_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_u8( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} - -uint16x8_t vornq_u16(uint16x8_t a, uint16x8_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE uint16x8_t vornq_u16(uint16x8_t a, uint16x8_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_s16( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} - -uint32x4_t vornq_u32(uint32x4_t a, uint32x4_t b); // VORN q0,q0,q0 -_NEON2SSE_INLINE uint32x4_t vornq_u32(uint32x4_t a, uint32x4_t b) // VORN q0,q0,q0 -{ - __m128i b1; - b1 = vmvnq_u32( b); //bitwise not for b - return _mm_or_si128 (a, b1); -} -uint64x2_t vornq_u64(uint64x2_t a, uint64x2_t b); // VORN q0,q0,q0 -#define vornq_u64 vornq_s64 - -//********************* Bitwise Select ***************************** -//****************************************************************** -//Note This intrinsic can compile to any of VBSL/VBIF/VBIT depending on register allocation.(?????????) - -//VBSL (Bitwise Select) selects each bit for the destination from the first operand if the -//corresponding bit of the destination is 1, or from the second operand if the corresponding bit of the destination is 0. - -//VBIF (Bitwise Insert if False) inserts each bit from the first operand into the destination -//if the corresponding bit of the second operand is 0, otherwise leaves the destination bit unchanged - -//VBIT (Bitwise Insert if True) inserts each bit from the first operand into the destination -//if the corresponding bit of the second operand is 1, otherwise leaves the destination bit unchanged. - -//VBSL only is implemented for SIMD -int8x8_t vbsl_s8(uint8x8_t a, int8x8_t b, int8x8_t c); // VBSL d0,d0,d0 -_NEON2SSE_INLINE int8x8_t vbsl_s8(uint8x8_t a, int8x8_t b, int8x8_t c) -{ - int8x8_t res64; - __m128i res; - res = vbslq_s8(_pM128i(a), _pM128i(b), _pM128i(c)); - return64(res); -} - -int16x4_t vbsl_s16(uint16x4_t a, int16x4_t b, int16x4_t c); // VBSL d0,d0,d0 -#define vbsl_s16 vbsl_s8 - -int32x2_t vbsl_s32(uint32x2_t a, int32x2_t b, int32x2_t c); // VBSL d0,d0,d0 -#define vbsl_s32 vbsl_s8 - -int64x1_t vbsl_s64(uint64x1_t a, int64x1_t b, int64x1_t c); // VBSL d0,d0,d0 -_NEON2SSE_INLINE int64x1_t vbsl_s64(uint64x1_t a, int64x1_t b, int64x1_t c) -{ - int64x1_t res; - res.m64_i64[0] = (a.m64_i64[0] & b.m64_i64[0]) | ( (~a.m64_i64[0]) & c.m64_i64[0]); - return res; -} - -uint8x8_t vbsl_u8(uint8x8_t a, uint8x8_t b, uint8x8_t c); // VBSL d0,d0,d0 -#define vbsl_u8 vbsl_s8 - -uint16x4_t vbsl_u16(uint16x4_t a, uint16x4_t b, uint16x4_t c); // VBSL d0,d0,d0 -#define vbsl_u16 vbsl_s8 - -uint32x2_t vbsl_u32(uint32x2_t a, uint32x2_t b, uint32x2_t c); // VBSL d0,d0,d0 -#define vbsl_u32 vbsl_s8 - -uint64x1_t vbsl_u64(uint64x1_t a, uint64x1_t b, uint64x1_t c); // VBSL d0,d0,d0 -#define vbsl_u64 vbsl_s64 - -float32x2_t vbsl_f32(uint32x2_t a, float32x2_t b, float32x2_t c); // VBSL d0,d0,d0 -_NEON2SSE_INLINE float32x2_t vbsl_f32(uint32x2_t a, float32x2_t b, float32x2_t c) -{ - __m128 sel1, sel2; - __m64_128 res64; - sel1 = _mm_and_ps (_pM128(a), _pM128(b)); - sel2 = _mm_andnot_ps (_pM128(a), _pM128(c)); - sel1 = _mm_or_ps (sel1, sel2); - _M64f(res64, sel1); - return res64; -} - -poly8x8_t vbsl_p8(uint8x8_t a, poly8x8_t b, poly8x8_t c); // VBSL d0,d0,d0 -#define vbsl_p8 vbsl_s8 - -poly16x4_t vbsl_p16(uint16x4_t a, poly16x4_t b, poly16x4_t c); // VBSL d0,d0,d0 -#define vbsl_p16 vbsl_s8 - -int8x16_t vbslq_s8(uint8x16_t a, int8x16_t b, int8x16_t c); // VBSL q0,q0,q0 -_NEON2SSE_INLINE int8x16_t vbslq_s8(uint8x16_t a, int8x16_t b, int8x16_t c) // VBSL q0,q0,q0 -{ - __m128i sel1, sel2; - sel1 = _mm_and_si128 (a, b); - sel2 = _mm_andnot_si128 (a, c); - return _mm_or_si128 (sel1, sel2); -} - -int16x8_t vbslq_s16(uint16x8_t a, int16x8_t b, int16x8_t c); // VBSL q0,q0,q0 -#define vbslq_s16 vbslq_s8 - -int32x4_t vbslq_s32(uint32x4_t a, int32x4_t b, int32x4_t c); // VBSL q0,q0,q0 -#define vbslq_s32 vbslq_s8 - -int64x2_t vbslq_s64(uint64x2_t a, int64x2_t b, int64x2_t c); // VBSL q0,q0,q0 -#define vbslq_s64 vbslq_s8 - -uint8x16_t vbslq_u8(uint8x16_t a, uint8x16_t b, uint8x16_t c); // VBSL q0,q0,q0 -#define vbslq_u8 vbslq_s8 - -uint16x8_t vbslq_u16(uint16x8_t a, uint16x8_t b, uint16x8_t c); // VBSL q0,q0,q0 -#define vbslq_u16 vbslq_s8 - -uint32x4_t vbslq_u32(uint32x4_t a, uint32x4_t b, uint32x4_t c); // VBSL q0,q0,q0 -#define vbslq_u32 vbslq_s8 - -uint64x2_t vbslq_u64(uint64x2_t a, uint64x2_t b, uint64x2_t c); // VBSL q0,q0,q0 -#define vbslq_u64 vbslq_s8 - -float32x4_t vbslq_f32(uint32x4_t a, float32x4_t b, float32x4_t c); // VBSL q0,q0,q0 -_NEON2SSE_INLINE float32x4_t vbslq_f32(uint32x4_t a, float32x4_t b, float32x4_t c) // VBSL q0,q0,q0 -{ - __m128 sel1, sel2; - sel1 = _mm_and_ps (*(__m128*)&a, b); - sel2 = _mm_andnot_ps (*(__m128*)&a, c); - return _mm_or_ps (sel1, sel2); -} - -poly8x16_t vbslq_p8(uint8x16_t a, poly8x16_t b, poly8x16_t c); // VBSL q0,q0,q0 -#define vbslq_p8 vbslq_u8 - -poly16x8_t vbslq_p16(uint16x8_t a, poly16x8_t b, poly16x8_t c); // VBSL q0,q0,q0 -#define vbslq_p16 vbslq_s8 - -//************************************************************************************ -//**************** Transposition operations **************************************** -//************************************************************************************ -//***************** Vector Transpose ************************************************ -//************************************************************************************ -//VTRN (Vector Transpose) treats the elements of its operand vectors as elements of 2 x 2 matrices, and transposes the matrices. -// making the result look as (a0, b0, a2, b2, a4, b4,....) (a1, b1, a3, b3, a5, b5,.....) -int8x8x2_t vtrn_s8(int8x8_t a, int8x8_t b); // VTRN.8 d0,d0 -_NEON2SSE_INLINE int8x8x2_t vtrn_s8(int8x8_t a, int8x8_t b) // VTRN.8 d0,d0 -{ - int8x8x2_t val; - __m128i tmp, val0; - _NEON2SSE_ALIGN_16 int8_t mask16_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7, 10,11, 14,15}; //mask8_trnsp - tmp = _mm_unpacklo_epi8(_pM128i(a), _pM128i(b)); //a0,b0,a1,b1,a2,b2,a3,b3,...,a7,b7 - val0 = _mm_shuffle_epi8 (tmp, *(__m128i*)mask16_even_odd); //(a0, b0, a2, b2, a4, b4, a6, b6), (a1,b1, a3,b3, a5,b5, a7,b7) - vst1q_s8 (val.val, val0); // _mm_shuffle_epi32 (val.val[0], _SWAP_HI_LOW32); //(a1,b1, a3,b3, a5,b5, a7,b7),(a0, b0, a2, b2, a4, b4, a6, b6), - return val; -} - -int16x4x2_t vtrn_s16(int16x4_t a, int16x4_t b); // VTRN.16 d0,d0 -_NEON2SSE_INLINE int16x4x2_t vtrn_s16(int16x4_t a, int16x4_t b) // VTRN.16 d0,d0 -{ - int16x4x2_t val; - __m128i tmp, val0; - _NEON2SSE_ALIGN_16 int8_t maskdlv16[16] = {0,1, 2,3, 8,9, 10,11, 4,5, 6,7, 12,13, 14, 15}; - tmp = _mm_unpacklo_epi16(_pM128i(a), _pM128i(b)); //a0,b0,a1,b1,a2,b2,a3,b3 - val0 = _mm_shuffle_epi8 (tmp, *(__m128i*)maskdlv16); //a0, b0, a2, b2, a1,b1, a3, b3 - vst1q_s16(val.val, val0); // _mm_shuffle_epi32 (val.val[0], _SWAP_HI_LOW32); //(a1,b1, a3,b3),(a0, b0, a2, b2), - return val; -} - -int32x2x2_t vtrn_s32(int32x2_t a, int32x2_t b); // VTRN.32 d0,d0 -_NEON2SSE_INLINE int32x2x2_t vtrn_s32(int32x2_t a, int32x2_t b) -{ - int32x2x2_t val; - __m128i val0; - val0 = _mm_unpacklo_epi32(_pM128i(a), _pM128i(b)); //a0,b0,a1,b1 - vst1q_s32(val.val, val0); // _mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); //a1,b1, a0,b0, - return val; -} - -uint8x8x2_t vtrn_u8(uint8x8_t a, uint8x8_t b); // VTRN.8 d0,d0 -#define vtrn_u8 vtrn_s8 - -uint16x4x2_t vtrn_u16(uint16x4_t a, uint16x4_t b); // VTRN.16 d0,d0 -#define vtrn_u16 vtrn_s16 - -uint32x2x2_t vtrn_u32(uint32x2_t a, uint32x2_t b); // VTRN.32 d0,d0 -#define vtrn_u32 vtrn_s32 - -float32x2x2_t vtrn_f32(float32x2_t a, float32x2_t b); // VTRN.32 d0,d0 -_NEON2SSE_INLINE float32x2x2_t vtrn_f32(float32x2_t a, float32x2_t b) -{ - float32x2x2_t val; - val.val[0].m64_f32[0] = a.m64_f32[0]; - val.val[0].m64_f32[1] = b.m64_f32[0]; - val.val[1].m64_f32[0] = a.m64_f32[1]; - val.val[1].m64_f32[1] = b.m64_f32[1]; - return val; //a0,b0,a1,b1 -} - -poly8x8x2_t vtrn_p8(poly8x8_t a, poly8x8_t b); // VTRN.8 d0,d0 -#define vtrn_p8 vtrn_u8 - -poly16x4x2_t vtrn_p16(poly16x4_t a, poly16x4_t b); // VTRN.16 d0,d0 -#define vtrn_p16 vtrn_s16 - -//int8x16x2_t vtrnq_s8(int8x16_t a, int8x16_t b); // VTRN.8 q0,q0 -_NEON2SSE_INLINE int8x16x2_t vtrnq_s8(int8x16_t a, int8x16_t b) // VTRN.8 q0,q0 -{ - int8x16x2_t r8x16; - __m128i a_sh, b_sh; - _NEON2SSE_ALIGN_16 int8_t mask8_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3,5, 7, 9, 11, 13, 15}; - a_sh = _mm_shuffle_epi8 (a, *(__m128i*)mask8_even_odd); //a0, a2, a4, a6, a8, a10, a12, a14, a1, a3, a5, a7, a9, a11, a13, a15 - b_sh = _mm_shuffle_epi8 (b, *(__m128i*)mask8_even_odd); //b0, b2, b4, b6, b8, b10, b12, b14, b1, b3, b5, b7, b9, b11, b13, b15 - - r8x16.val[0] = _mm_unpacklo_epi8(a_sh, b_sh); //(a0, b0, a2, b2, a4, b4, a6, b6, a8,b8, a10,b10, a12,b12, a14,b14) - r8x16.val[1] = _mm_unpackhi_epi8(a_sh, b_sh); // (a1, b1, a3, b3, a5, b5, a7, b7, a9,b9, a11,b11, a13,b13, a15,b15) - return r8x16; -} - -int16x8x2_t vtrnq_s16(int16x8_t a, int16x8_t b); // VTRN.16 q0,q0 -_NEON2SSE_INLINE int16x8x2_t vtrnq_s16(int16x8_t a, int16x8_t b) // VTRN.16 q0,q0 -{ - int16x8x2_t v16x8; - __m128i a_sh, b_sh; - _NEON2SSE_ALIGN_16 int8_t mask16_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7, 10,11, 14,15}; - a_sh = _mm_shuffle_epi8 (a, *(__m128i*)mask16_even_odd); //a0, a2, a4, a6, a1, a3, a5, a7 - b_sh = _mm_shuffle_epi8 (b, *(__m128i*)mask16_even_odd); //b0, b2, b4, b6, b1, b3, b5, b7 - v16x8.val[0] = _mm_unpacklo_epi16(a_sh, b_sh); //a0, b0, a2, b2, a4, b4, a6, b6 - v16x8.val[1] = _mm_unpackhi_epi16(a_sh, b_sh); //a1, b1, a3, b3, a5, b5, a7, b7 - return v16x8; -} - -int32x4x2_t vtrnq_s32(int32x4_t a, int32x4_t b); // VTRN.32 q0,q0 -_NEON2SSE_INLINE int32x4x2_t vtrnq_s32(int32x4_t a, int32x4_t b) // VTRN.32 q0,q0 -{ - //may be not optimal solution compared with serial - int32x4x2_t v32x4; - __m128i a_sh, b_sh; - a_sh = _mm_shuffle_epi32 (a, 216); //a0, a2, a1, a3 - b_sh = _mm_shuffle_epi32 (b, 216); //b0, b2, b1, b3 - - v32x4.val[0] = _mm_unpacklo_epi32(a_sh, b_sh); //a0, b0, a2, b2 - v32x4.val[1] = _mm_unpackhi_epi32(a_sh, b_sh); //a1, b1, a3, b3 - return v32x4; -} - -uint8x16x2_t vtrnq_u8(uint8x16_t a, uint8x16_t b); // VTRN.8 q0,q0 -#define vtrnq_u8 vtrnq_s8 - -uint16x8x2_t vtrnq_u16(uint16x8_t a, uint16x8_t b); // VTRN.16 q0,q0 -#define vtrnq_u16 vtrnq_s16 - -uint32x4x2_t vtrnq_u32(uint32x4_t a, uint32x4_t b); // VTRN.32 q0,q0 -#define vtrnq_u32 vtrnq_s32 - -float32x4x2_t vtrnq_f32(float32x4_t a, float32x4_t b); // VTRN.32 q0,q0 -_NEON2SSE_INLINE float32x4x2_t vtrnq_f32(float32x4_t a, float32x4_t b) // VTRN.32 q0,q0 -{ - //may be not optimal solution compared with serial - float32x4x2_t f32x4; - __m128 a_sh, b_sh; - a_sh = _mm_shuffle_ps (a, a, _MM_SHUFFLE(3,1, 2, 0)); //a0, a2, a1, a3, need to check endiness - b_sh = _mm_shuffle_ps (b, b, _MM_SHUFFLE(3,1, 2, 0)); //b0, b2, b1, b3, need to check endiness - - f32x4.val[0] = _mm_unpacklo_ps(a_sh, b_sh); //a0, b0, a2, b2 - f32x4.val[1] = _mm_unpackhi_ps(a_sh, b_sh); //a1, b1, a3, b3 - return f32x4; -} - -poly8x16x2_t vtrnq_p8(poly8x16_t a, poly8x16_t b); // VTRN.8 q0,q0 -#define vtrnq_p8 vtrnq_s8 - -poly16x8x2_t vtrnq_p16(poly16x8_t a, poly16x8_t b); // VTRN.16 q0,q0 -#define vtrnq_p16 vtrnq_s16 - -//***************** Interleave elements *************************** -//***************************************************************** -//output has (a0,b0,a1,b1, a2,b2,.....) -int8x8x2_t vzip_s8(int8x8_t a, int8x8_t b); // VZIP.8 d0,d0 -_NEON2SSE_INLINE int8x8x2_t vzip_s8(int8x8_t a, int8x8_t b) // VZIP.8 d0,d0 -{ - int8x8x2_t val; - __m128i val0; - val0 = _mm_unpacklo_epi8(_pM128i(a), _pM128i(b)); - vst1q_s8(val.val, val0); //_mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); - return val; -} - -int16x4x2_t vzip_s16(int16x4_t a, int16x4_t b); // VZIP.16 d0,d0 -_NEON2SSE_INLINE int16x4x2_t vzip_s16(int16x4_t a, int16x4_t b) // VZIP.16 d0,d0 -{ - int16x4x2_t val; - __m128i val0; - val0 = _mm_unpacklo_epi16(_pM128i(a), _pM128i(b)); - vst1q_s16(val.val, val0); // _mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); - return val; -} - -int32x2x2_t vzip_s32(int32x2_t a, int32x2_t b); // VZIP.32 d0,d0 -#define vzip_s32 vtrn_s32 - -uint8x8x2_t vzip_u8(uint8x8_t a, uint8x8_t b); // VZIP.8 d0,d0 -#define vzip_u8 vzip_s8 - -uint16x4x2_t vzip_u16(uint16x4_t a, uint16x4_t b); // VZIP.16 d0,d0 -#define vzip_u16 vzip_s16 - -uint32x2x2_t vzip_u32(uint32x2_t a, uint32x2_t b); // VZIP.32 d0,d0 -#define vzip_u32 vzip_s32 - -float32x2x2_t vzip_f32(float32x2_t a, float32x2_t b); // VZIP.32 d0,d0 -#define vzip_f32 vtrn_f32 - -poly8x8x2_t vzip_p8(poly8x8_t a, poly8x8_t b); // VZIP.8 d0,d0 -#define vzip_p8 vzip_u8 - -poly16x4x2_t vzip_p16(poly16x4_t a, poly16x4_t b); // VZIP.16 d0,d0 -#define vzip_p16 vzip_u16 - -int8x16x2_t vzipq_s8(int8x16_t a, int8x16_t b); // VZIP.8 q0,q0 -_NEON2SSE_INLINE int8x16x2_t vzipq_s8(int8x16_t a, int8x16_t b) // VZIP.8 q0,q0 -{ - int8x16x2_t r8x16; - r8x16.val[0] = _mm_unpacklo_epi8(a, b); - r8x16.val[1] = _mm_unpackhi_epi8(a, b); - return r8x16; -} - -int16x8x2_t vzipq_s16(int16x8_t a, int16x8_t b); // VZIP.16 q0,q0 -_NEON2SSE_INLINE int16x8x2_t vzipq_s16(int16x8_t a, int16x8_t b) // VZIP.16 q0,q0 -{ - int16x8x2_t r16x8; - r16x8.val[0] = _mm_unpacklo_epi16(a, b); - r16x8.val[1] = _mm_unpackhi_epi16(a, b); - return r16x8; -} - -int32x4x2_t vzipq_s32(int32x4_t a, int32x4_t b); // VZIP.32 q0,q0 -_NEON2SSE_INLINE int32x4x2_t vzipq_s32(int32x4_t a, int32x4_t b) // VZIP.32 q0,q0 -{ - int32x4x2_t r32x4; - r32x4.val[0] = _mm_unpacklo_epi32(a, b); - r32x4.val[1] = _mm_unpackhi_epi32(a, b); - return r32x4; -} - -uint8x16x2_t vzipq_u8(uint8x16_t a, uint8x16_t b); // VZIP.8 q0,q0 -#define vzipq_u8 vzipq_s8 - -uint16x8x2_t vzipq_u16(uint16x8_t a, uint16x8_t b); // VZIP.16 q0,q0 -#define vzipq_u16 vzipq_s16 - -uint32x4x2_t vzipq_u32(uint32x4_t a, uint32x4_t b); // VZIP.32 q0,q0 -#define vzipq_u32 vzipq_s32 - -float32x4x2_t vzipq_f32(float32x4_t a, float32x4_t b); // VZIP.32 q0,q0 -_NEON2SSE_INLINE float32x4x2_t vzipq_f32(float32x4_t a, float32x4_t b) // VZIP.32 q0,q0 -{ - float32x4x2_t f32x4; - f32x4.val[0] = _mm_unpacklo_ps ( a, b); - f32x4.val[1] = _mm_unpackhi_ps ( a, b); - return f32x4; -} - -poly8x16x2_t vzipq_p8(poly8x16_t a, poly8x16_t b); // VZIP.8 q0,q0 -#define vzipq_p8 vzipq_u8 - -poly16x8x2_t vzipq_p16(poly16x8_t a, poly16x8_t b); // VZIP.16 q0,q0 -#define vzipq_p16 vzipq_u16 - -//*********************** De-Interleave elements ************************* -//************************************************************************* -//As the result of these functions first val contains (a0,a2,a4,....,b0,b2, b4,...) and the second val (a1,a3,a5,....b1,b3,b5...) -//no such functions in IA32 SIMD, shuffle is required -int8x8x2_t vuzp_s8(int8x8_t a, int8x8_t b); // VUZP.8 d0,d0 -_NEON2SSE_INLINE int8x8x2_t vuzp_s8(int8x8_t a, int8x8_t b) // VUZP.8 d0,d0 -{ - int8x8x2_t val; - __m128i tmp, val0; - _NEON2SSE_ALIGN_16 int8_t maskdlv8[16] = { 0, 4, 8, 12, 1, 5, 9, 13, 2, 6, 10, 14, 3, 7, 11,15}; - tmp = _mm_unpacklo_epi8(_pM128i(a), _pM128i(b)); //a0,b0,a1,b1,a2,b2,a3,b3,...,a7,b7 - val0 = _mm_shuffle_epi8 (tmp, *(__m128i*)maskdlv8); //(a0, a2, a4, a6, b0, b2, b4, b6), (a1, a3, a5, a7, b1,b3, b5, b7) - vst1q_s8(val.val, val0); // _mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); - return val; -} - -int16x4x2_t vuzp_s16(int16x4_t a, int16x4_t b); // VUZP.16 d0,d0 -_NEON2SSE_INLINE int16x4x2_t vuzp_s16(int16x4_t a, int16x4_t b) // VUZP.16 d0,d0 -{ - int16x4x2_t val; - __m128i tmp, val0; - _NEON2SSE_ALIGN_16 int8_t maskdlv16[16] = {0,1, 8,9, 2,3, 10,11, 4,5, 12,13, 6,7, 14,15}; - tmp = _mm_unpacklo_epi16(_pM128i(a), _pM128i(b)); //a0,b0,a1,b1,a2,b2,a3,b3 - val0 = _mm_shuffle_epi8 (tmp, *(__m128i*)maskdlv16); //a0,a2, b0, b2, a1,a3, b1,b3 - vst1q_s16(val.val, val0); // _mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); - return val; -} - -int32x2x2_t vuzp_s32(int32x2_t a, int32x2_t b); // VUZP.32 d0,d0 -_NEON2SSE_INLINE int32x2x2_t vuzp_s32(int32x2_t a, int32x2_t b) // VUZP.32 d0,d0 -{ - int32x2x2_t val; - __m128i val0; - val0 = _mm_unpacklo_epi32(_pM128i(a), _pM128i(b)); //a0,b0, a1,b1 - vst1q_s32(val.val, val0); // _mm_shuffle_epi32(val.val[0], _SWAP_HI_LOW32); - return val; -} - -uint8x8x2_t vuzp_u8(uint8x8_t a, uint8x8_t b); // VUZP.8 d0,d0 -#define vuzp_u8 vuzp_s8 - -uint16x4x2_t vuzp_u16(uint16x4_t a, uint16x4_t b); // VUZP.16 d0,d0 -#define vuzp_u16 vuzp_s16 - -uint32x2x2_t vuzp_u32(uint32x2_t a, uint32x2_t b); // VUZP.32 d0,d0 -#define vuzp_u32 vuzp_s32 - -float32x2x2_t vuzp_f32(float32x2_t a, float32x2_t b); // VUZP.32 d0,d0 -#define vuzp_f32 vzip_f32 - -poly8x8x2_t vuzp_p8(poly8x8_t a, poly8x8_t b); // VUZP.8 d0,d0 -#define vuzp_p8 vuzp_u8 - -poly16x4x2_t vuzp_p16(poly16x4_t a, poly16x4_t b); // VUZP.16 d0,d0 -#define vuzp_p16 vuzp_u16 - -int8x16x2_t vuzpq_s8(int8x16_t a, int8x16_t b); // VUZP.8 q0,q0 -_NEON2SSE_INLINE int8x16x2_t vuzpq_s8(int8x16_t a, int8x16_t b) // VUZP.8 q0,q0 -{ - int8x16x2_t v8x16; - __m128i a_sh, b_sh; - _NEON2SSE_ALIGN_16 int8_t mask8_even_odd[16] = { 0, 2, 4, 6, 8, 10, 12, 14, 1, 3,5, 7, 9, 11, 13, 15}; - a_sh = _mm_shuffle_epi8 (a, *(__m128i*)mask8_even_odd); //a0, a2, a4, a6, a8, a10, a12, a14, a1, a3, a5, a7, a9, a11, a13, a15 - b_sh = _mm_shuffle_epi8 (b, *(__m128i*)mask8_even_odd); //b0, b2, b4, b6, b8, b10, b12, b14, b1, b3, b5, b7, b9, b11, b13, b15 - //we need unpack64 to combine lower (upper) 64 bits from a with lower (upper) 64 bits from b - v8x16.val[0] = _mm_unpacklo_epi64(a_sh, b_sh); ///a0, a2, a4, a6, a8, a10, a12, a14, b0, b2, b4, b6, b8, b10, b12, b14, - v8x16.val[1] = _mm_unpackhi_epi64(a_sh, b_sh); //a1, a3, a5, a7, a9, a11, a13, a15, b1, b3, b5, b7, b9, b11, b13, b15 - return v8x16; -} - -int16x8x2_t vuzpq_s16(int16x8_t a, int16x8_t b); // VUZP.16 q0,q0 -_NEON2SSE_INLINE int16x8x2_t vuzpq_s16(int16x8_t a, int16x8_t b) // VUZP.16 q0,q0 -{ - int16x8x2_t v16x8; - __m128i a_sh, b_sh; - _NEON2SSE_ALIGN_16 int8_t mask16_even_odd[16] = { 0,1, 4,5, 8,9, 12,13, 2,3, 6,7, 10,11, 14,15}; - a_sh = _mm_shuffle_epi8 (a, *(__m128i*)mask16_even_odd); //a0, a2, a4, a6, a1, a3, a5, a7 - b_sh = _mm_shuffle_epi8 (b, *(__m128i*)mask16_even_odd); //b0, b2, b4, b6, b1, b3, b5, b7 - v16x8.val[0] = _mm_unpacklo_epi64(a_sh, b_sh); //a0, a2, a4, a6, b0, b2, b4, b6 - v16x8.val[1] = _mm_unpackhi_epi64(a_sh, b_sh); //a1, a3, a5, a7, b1, b3, b5, b7 - return v16x8; -} - -int32x4x2_t vuzpq_s32(int32x4_t a, int32x4_t b); // VUZP.32 q0,q0 -_NEON2SSE_INLINE int32x4x2_t vuzpq_s32(int32x4_t a, int32x4_t b) // VUZP.32 q0,q0 -{ - //may be not optimal solution compared with serial - int32x4x2_t v32x4; - __m128i a_sh, b_sh; - a_sh = _mm_shuffle_epi32 (a, 216); //a0, a2, a1, a3 - b_sh = _mm_shuffle_epi32 (b, 216); //b0, b2, b1, b3 - - v32x4.val[0] = _mm_unpacklo_epi64(a_sh, b_sh); //a0, a2, b0, b2 - v32x4.val[1] = _mm_unpackhi_epi64(a_sh, b_sh); //a1, a3, b1, b3 - return v32x4; -} - -uint8x16x2_t vuzpq_u8(uint8x16_t a, uint8x16_t b); // VUZP.8 q0,q0 -#define vuzpq_u8 vuzpq_s8 - -uint16x8x2_t vuzpq_u16(uint16x8_t a, uint16x8_t b); // VUZP.16 q0,q0 -#define vuzpq_u16 vuzpq_s16 - -uint32x4x2_t vuzpq_u32(uint32x4_t a, uint32x4_t b); // VUZP.32 q0,q0 -#define vuzpq_u32 vuzpq_s32 - -float32x4x2_t vuzpq_f32(float32x4_t a, float32x4_t b); // VUZP.32 q0,q0 -_NEON2SSE_INLINE float32x4x2_t vuzpq_f32(float32x4_t a, float32x4_t b) // VUZP.32 q0,q0 -{ - float32x4x2_t v32x4; - v32x4.val[0] = _mm_shuffle_ps(a, b, _MM_SHUFFLE(2,0, 2, 0)); //a0, a2, b0, b2 , need to check endianess however - v32x4.val[1] = _mm_shuffle_ps(a, b, _MM_SHUFFLE(3,1, 3, 1)); //a1, a3, b1, b3, need to check endianess however - return v32x4; -} - -poly8x16x2_t vuzpq_p8(poly8x16_t a, poly8x16_t b); // VUZP.8 q0,q0 -#define vuzpq_p8 vuzpq_u8 - -poly16x8x2_t vuzpq_p16(poly16x8_t a, poly16x8_t b); // VUZP.16 q0,q0 -#define vuzpq_p16 vuzpq_u16 - -//############################################################################################## -//*********************** Reinterpret cast intrinsics.****************************************** -//############################################################################################## -// Not a part of oficial NEON instruction set but available in gcc compiler ********************* -poly8x8_t vreinterpret_p8_u32 (uint32x2_t t); -#define vreinterpret_p8_u32 - -poly8x8_t vreinterpret_p8_u16 (uint16x4_t t); -#define vreinterpret_p8_u16 - -poly8x8_t vreinterpret_p8_u8 (uint8x8_t t); -#define vreinterpret_p8_u8 - -poly8x8_t vreinterpret_p8_s32 (int32x2_t t); -#define vreinterpret_p8_s32 - -poly8x8_t vreinterpret_p8_s16 (int16x4_t t); -#define vreinterpret_p8_s16 - -poly8x8_t vreinterpret_p8_s8 (int8x8_t t); -#define vreinterpret_p8_s8 - -poly8x8_t vreinterpret_p8_u64 (uint64x1_t t); -#define vreinterpret_p8_u64 - -poly8x8_t vreinterpret_p8_s64 (int64x1_t t); -#define vreinterpret_p8_s64 - -poly8x8_t vreinterpret_p8_f32 (float32x2_t t); -#define vreinterpret_p8_f32 - -poly8x8_t vreinterpret_p8_p16 (poly16x4_t t); -#define vreinterpret_p8_p16 - -poly8x16_t vreinterpretq_p8_u32 (uint32x4_t t); -#define vreinterpretq_p8_u32 - -poly8x16_t vreinterpretq_p8_u16 (uint16x8_t t); -#define vreinterpretq_p8_u16 - -poly8x16_t vreinterpretq_p8_u8 (uint8x16_t t); -#define vreinterpretq_p8_u8 - -poly8x16_t vreinterpretq_p8_s32 (int32x4_t t); -#define vreinterpretq_p8_s32 - -poly8x16_t vreinterpretq_p8_s16 (int16x8_t t); -#define vreinterpretq_p8_s16 - -poly8x16_t vreinterpretq_p8_s8 (int8x16_t t); -#define vreinterpretq_p8_s8 - -poly8x16_t vreinterpretq_p8_u64 (uint64x2_t t); -#define vreinterpretq_p8_u64 - -poly8x16_t vreinterpretq_p8_s64 (int64x2_t t); -#define vreinterpretq_p8_s64 - -poly8x16_t vreinterpretq_p8_f32 (float32x4_t t); -#define vreinterpretq_p8_f32(t) _M128i(t) - -poly8x16_t vreinterpretq_p8_p16 (poly16x8_t t); -#define vreinterpretq_p8_p16 - -poly16x4_t vreinterpret_p16_u32 (uint32x2_t t); -#define vreinterpret_p16_u32 - -poly16x4_t vreinterpret_p16_u16 (uint16x4_t t); -#define vreinterpret_p16_u16 - -poly16x4_t vreinterpret_p16_u8 (uint8x8_t t); -#define vreinterpret_p16_u8 - -poly16x4_t vreinterpret_p16_s32 (int32x2_t t); -#define vreinterpret_p16_s32 - -poly16x4_t vreinterpret_p16_s16 (int16x4_t t); -#define vreinterpret_p16_s16 - -poly16x4_t vreinterpret_p16_s8 (int8x8_t t); -#define vreinterpret_p16_s8 - -poly16x4_t vreinterpret_p16_u64 (uint64x1_t t); -#define vreinterpret_p16_u64 - -poly16x4_t vreinterpret_p16_s64 (int64x1_t t); -#define vreinterpret_p16_s64 - -poly16x4_t vreinterpret_p16_f32 (float32x2_t t); -#define vreinterpret_p16_f32 - -poly16x4_t vreinterpret_p16_p8 (poly8x8_t t); -#define vreinterpret_p16_p8 - -poly16x8_t vreinterpretq_p16_u32 (uint32x4_t t); -#define vreinterpretq_p16_u32 - -poly16x8_t vreinterpretq_p16_u16 (uint16x8_t t); -#define vreinterpretq_p16_u16 - -poly16x8_t vreinterpretq_p16_s32 (int32x4_t t); -#define vreinterpretq_p16_s32 - -poly16x8_t vreinterpretq_p16_s16 (int16x8_t t); -#define vreinterpretq_p16_s16 - -poly16x8_t vreinterpretq_p16_s8 (int8x16_t t); -#define vreinterpretq_p16_s8 - -poly16x8_t vreinterpretq_p16_u64 (uint64x2_t t); -#define vreinterpretq_p16_u64 - -poly16x8_t vreinterpretq_p16_s64 (int64x2_t t); -#define vreinterpretq_p16_s64 - -poly16x8_t vreinterpretq_p16_f32 (float32x4_t t); -#define vreinterpretq_p16_f32(t) _M128i(t) - -poly16x8_t vreinterpretq_p16_p8 (poly8x16_t t); -#define vreinterpretq_p16_p8 vreinterpretq_s16_p8 - -//**** Integer to float ****** -float32x2_t vreinterpret_f32_u32 (uint32x2_t t); -#define vreinterpret_f32_u32(t) (*(__m64_128*)&(t)) - - -float32x2_t vreinterpret_f32_u16 (uint16x4_t t); -#define vreinterpret_f32_u16 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_u8 (uint8x8_t t); -#define vreinterpret_f32_u8 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_s32 (int32x2_t t); -#define vreinterpret_f32_s32 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_s16 (int16x4_t t); -#define vreinterpret_f32_s16 vreinterpret_f32_u32 - -float32x2_t vreinterpret_f32_s8 (int8x8_t t); -#define vreinterpret_f32_s8 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_u64(uint64x1_t t); -#define vreinterpret_f32_u64 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_s64 (int64x1_t t); -#define vreinterpret_f32_s64 vreinterpret_f32_u32 - - -float32x2_t vreinterpret_f32_p16 (poly16x4_t t); -#define vreinterpret_f32_p16 vreinterpret_f32_u32 - -float32x2_t vreinterpret_f32_p8 (poly8x8_t t); -#define vreinterpret_f32_p8 vreinterpret_f32_u32 - -float32x4_t vreinterpretq_f32_u32 (uint32x4_t t); -#define vreinterpretq_f32_u32(t) *(__m128*)&(t) - -float32x4_t vreinterpretq_f32_u16 (uint16x8_t t); -#define vreinterpretq_f32_u16 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_u8 (uint8x16_t t); -#define vreinterpretq_f32_u8 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_s32 (int32x4_t t); -#define vreinterpretq_f32_s32 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_s16 (int16x8_t t); -#define vreinterpretq_f32_s16 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_s8 (int8x16_t t); -#define vreinterpretq_f32_s8 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_u64 (uint64x2_t t); -#define vreinterpretq_f32_u64 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_s64 (int64x2_t t); -#define vreinterpretq_f32_s64 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_p16 (poly16x8_t t); -#define vreinterpretq_f32_p16 vreinterpretq_f32_u32 - -float32x4_t vreinterpretq_f32_p8 (poly8x16_t t); -#define vreinterpretq_f32_p8 vreinterpretq_f32_u32 - -//*** Integer type conversions ****************** -//no conversion necessary for the following functions because it is same data type -int64x1_t vreinterpret_s64_u32 (uint32x2_t t); -#define vreinterpret_s64_u32 - -int64x1_t vreinterpret_s64_u16 (uint16x4_t t); -#define vreinterpret_s64_u16 - -int64x1_t vreinterpret_s64_u8 (uint8x8_t t); -#define vreinterpret_s64_u8 - -int64x1_t vreinterpret_s64_s32 (int32x2_t t); -#define vreinterpret_s64_s32 - -int64x1_t vreinterpret_s64_s16 (int16x4_t t); -#define vreinterpret_s64_s16 - -int64x1_t vreinterpret_s64_s8 (int8x8_t t); -#define vreinterpret_s64_s8 - -int64x1_t vreinterpret_s64_u64 (uint64x1_t t); -#define vreinterpret_s64_u64 - -int64x1_t vreinterpret_s64_f32 (float32x2_t t); -#define vreinterpret_s64_f32 - -int64x1_t vreinterpret_s64_p16 (poly16x4_t t); -#define vreinterpret_s64_p16 - -int64x1_t vreinterpret_s64_p8 (poly8x8_t t); -#define vreinterpret_s64_p8 - -int64x2_t vreinterpretq_s64_u32 (uint32x4_t t); -#define vreinterpretq_s64_u32 - -int64x2_t vreinterpretq_s64_s16 (uint16x8_t t); -#define vreinterpretq_s64_s16 - -int64x2_t vreinterpretq_s64_u8 (uint8x16_t t); -#define vreinterpretq_s64_u8 - -int64x2_t vreinterpretq_s64_s32 (int32x4_t t); -#define vreinterpretq_s64_s32 - -int64x2_t vreinterpretq_s64_u16 (int16x8_t t); -#define vreinterpretq_s64_u16 - -int64x2_t vreinterpretq_s64_s8 (int8x16_t t); -#define vreinterpretq_s64_s8 - -int64x2_t vreinterpretq_s64_u64 (uint64x2_t t); -#define vreinterpretq_s64_u64 - -int64x2_t vreinterpretq_s64_f32 (float32x4_t t); -#define vreinterpretq_s64_f32(t) _M128i(t) - -int64x2_t vreinterpretq_s64_p16 (poly16x8_t t); -#define vreinterpretq_s64_p16 - -int64x2_t vreinterpretq_s64_p8 (poly8x16_t t); -#define vreinterpretq_s64_p8 - -uint64x1_t vreinterpret_u64_u32 (uint32x2_t t); -#define vreinterpret_u64_u32 - -uint64x1_t vreinterpret_u64_u16 (uint16x4_t t); -#define vreinterpret_u64_u16 - -uint64x1_t vreinterpret_u64_u8 (uint8x8_t t); -#define vreinterpret_u64_u8 - -uint64x1_t vreinterpret_u64_s32 (int32x2_t t); -#define vreinterpret_u64_s32 - -uint64x1_t vreinterpret_u64_s16 (int16x4_t t); -#define vreinterpret_u64_s16 - -uint64x1_t vreinterpret_u64_s8 (int8x8_t t); -#define vreinterpret_u64_s8 - -uint64x1_t vreinterpret_u64_s64 (int64x1_t t); -#define vreinterpret_u64_s64 - -uint64x1_t vreinterpret_u64_f32 (float32x2_t t); -#define vreinterpret_u64_f32 - -uint64x1_t vreinterpret_u64_p16 (poly16x4_t t); -#define vreinterpret_u64_p16 - -uint64x1_t vreinterpret_u64_p8 (poly8x8_t t); -#define vreinterpret_u64_p8 - -uint64x2_t vreinterpretq_u64_u32 (uint32x4_t t); -#define vreinterpretq_u64_u32 - -uint64x2_t vreinterpretq_u64_u16 (uint16x8_t t); -#define vreinterpretq_u64_u16 - -uint64x2_t vreinterpretq_u64_u8 (uint8x16_t t); -#define vreinterpretq_u64_u8 - -uint64x2_t vreinterpretq_u64_s32 (int32x4_t t); -#define vreinterpretq_u64_s32 - -uint64x2_t vreinterpretq_u64_s16 (int16x8_t t); -#define vreinterpretq_u64_s16 - -uint64x2_t vreinterpretq_u64_s8 (int8x16_t t); -#define vreinterpretq_u64_s8 - -uint64x2_t vreinterpretq_u64_s64 (int64x2_t t); -#define vreinterpretq_u64_s64 - -uint64x2_t vreinterpretq_u64_f32 (float32x4_t t); -#define vreinterpretq_u64_f32(t) _M128i(t) - -uint64x2_t vreinterpretq_u64_p16 (poly16x8_t t); -#define vreinterpretq_u64_p16 - -uint64x2_t vreinterpretq_u64_p8 (poly8x16_t t); -#define vreinterpretq_u64_p8 - -int8x8_t vreinterpret_s8_u32 (uint32x2_t t); -#define vreinterpret_s8_u32 - -int8x8_t vreinterpret_s8_u16 (uint16x4_t t); -#define vreinterpret_s8_u16 - -int8x8_t vreinterpret_s8_u8 (uint8x8_t t); -#define vreinterpret_s8_u8 - -int8x8_t vreinterpret_s8_s32 (int32x2_t t); -#define vreinterpret_s8_s32 - -int8x8_t vreinterpret_s8_s16 (int16x4_t t); -#define vreinterpret_s8_s16 - -int8x8_t vreinterpret_s8_u64 (uint64x1_t t); -#define vreinterpret_s8_u64 - -int8x8_t vreinterpret_s8_s64 (int64x1_t t); -#define vreinterpret_s8_s64 - -int8x8_t vreinterpret_s8_f32 (float32x2_t t); -#define vreinterpret_s8_f32 - -int8x8_t vreinterpret_s8_p16 (poly16x4_t t); -#define vreinterpret_s8_p16 - -int8x8_t vreinterpret_s8_p8 (poly8x8_t t); -#define vreinterpret_s8_p8 - -int8x16_t vreinterpretq_s8_u32 (uint32x4_t t); -#define vreinterpretq_s8_u32 - -int8x16_t vreinterpretq_s8_u16 (uint16x8_t t); -#define vreinterpretq_s8_u16 - -int8x16_t vreinterpretq_s8_u8 (uint8x16_t t); -#define vreinterpretq_s8_u8 - -int8x16_t vreinterpretq_s8_s32 (int32x4_t t); -#define vreinterpretq_s8_s32 - -int8x16_t vreinterpretq_s8_s16 (int16x8_t t); -#define vreinterpretq_s8_s16 - -int8x16_t vreinterpretq_s8_u64 (uint64x2_t t); -#define vreinterpretq_s8_u64 - -int8x16_t vreinterpretq_s8_s64 (int64x2_t t); -#define vreinterpretq_s8_s64 - -int8x16_t vreinterpretq_s8_f32 (float32x4_t t); -#define vreinterpretq_s8_f32(t) _M128i(t) - -int8x16_t vreinterpretq_s8_p16 (poly16x8_t t); -#define vreinterpretq_s8_p16 - -int8x16_t vreinterpretq_s8_p8 (poly8x16_t t); -#define vreinterpretq_s8_p8 - -int16x4_t vreinterpret_s16_u32 (uint32x2_t t); -#define vreinterpret_s16_u32 - -int16x4_t vreinterpret_s16_u16 (uint16x4_t t); -#define vreinterpret_s16_u16 - -int16x4_t vreinterpret_s16_u8 (uint8x8_t t); -#define vreinterpret_s16_u8 - -int16x4_t vreinterpret_s16_s32 (int32x2_t t); -#define vreinterpret_s16_s32 - -int16x4_t vreinterpret_s16_s8 (int8x8_t t); -#define vreinterpret_s16_s8 - -int16x4_t vreinterpret_s16_u64 (uint64x1_t t); -#define vreinterpret_s16_u64 - -int16x4_t vreinterpret_s16_s64 (int64x1_t t); -#define vreinterpret_s16_s64 - -int16x4_t vreinterpret_s16_f32 (float32x2_t t); -#define vreinterpret_s16_f32 - - -int16x4_t vreinterpret_s16_p16 (poly16x4_t t); -#define vreinterpret_s16_p16 - -int16x4_t vreinterpret_s16_p8 (poly8x8_t t); -#define vreinterpret_s16_p8 - -int16x8_t vreinterpretq_s16_u32 (uint32x4_t t); -#define vreinterpretq_s16_u32 - -int16x8_t vreinterpretq_s16_u16 (uint16x8_t t); -#define vreinterpretq_s16_u16 - -int16x8_t vreinterpretq_s16_u8 (uint8x16_t t); -#define vreinterpretq_s16_u8 - -int16x8_t vreinterpretq_s16_s32 (int32x4_t t); -#define vreinterpretq_s16_s32 - -int16x8_t vreinterpretq_s16_s8 (int8x16_t t); -#define vreinterpretq_s16_s8 - -int16x8_t vreinterpretq_s16_u64 (uint64x2_t t); -#define vreinterpretq_s16_u64 - -int16x8_t vreinterpretq_s16_s64 (int64x2_t t); -#define vreinterpretq_s16_s64 - -int16x8_t vreinterpretq_s16_f32 (float32x4_t t); -#define vreinterpretq_s16_f32(t) _M128i(t) - -int16x8_t vreinterpretq_s16_p16 (poly16x8_t t); -#define vreinterpretq_s16_p16 - -int16x8_t vreinterpretq_s16_p8 (poly8x16_t t); -#define vreinterpretq_s16_p8 - -int32x2_t vreinterpret_s32_u32 (uint32x2_t t); -#define vreinterpret_s32_u32 - -int32x2_t vreinterpret_s32_u16 (uint16x4_t t); -#define vreinterpret_s32_u16 - -int32x2_t vreinterpret_s32_u8 (uint8x8_t t); -#define vreinterpret_s32_u8 - -int32x2_t vreinterpret_s32_s16 (int16x4_t t); -#define vreinterpret_s32_s16 - -int32x2_t vreinterpret_s32_s8 (int8x8_t t); -#define vreinterpret_s32_s8 - -int32x2_t vreinterpret_s32_u64 (uint64x1_t t); -#define vreinterpret_s32_u64 - -int32x2_t vreinterpret_s32_s64 (int64x1_t t); -#define vreinterpret_s32_s64 - -int32x2_t vreinterpret_s32_f32 (float32x2_t t); -#define vreinterpret_s32_f32 - -int32x2_t vreinterpret_s32_p16 (poly16x4_t t); -#define vreinterpret_s32_p16 - -int32x2_t vreinterpret_s32_p8 (poly8x8_t t); -#define vreinterpret_s32_p8 - -int32x4_t vreinterpretq_s32_u32 (uint32x4_t t); -#define vreinterpretq_s32_u32 - -int32x4_t vreinterpretq_s32_u16 (uint16x8_t t); -#define vreinterpretq_s32_u16 - -int32x4_t vreinterpretq_s32_u8 (uint8x16_t t); -#define vreinterpretq_s32_u8 - -int32x4_t vreinterpretq_s32_s16 (int16x8_t t); -#define vreinterpretq_s32_s16 - -int32x4_t vreinterpretq_s32_s8 (int8x16_t t); -#define vreinterpretq_s32_s8 - -int32x4_t vreinterpretq_s32_u64 (uint64x2_t t); -#define vreinterpretq_s32_u64 - -int32x4_t vreinterpretq_s32_s64 (int64x2_t t); -#define vreinterpretq_s32_s64 - -int32x4_t vreinterpretq_s32_f32 (float32x4_t t); -#define vreinterpretq_s32_f32(t) _mm_castps_si128(t) //(*(__m128i*)&(t)) - -int32x4_t vreinterpretq_s32_p16 (poly16x8_t t); -#define vreinterpretq_s32_p16 - -int32x4_t vreinterpretq_s32_p8 (poly8x16_t t); -#define vreinterpretq_s32_p8 - -uint8x8_t vreinterpret_u8_u32 (uint32x2_t t); -#define vreinterpret_u8_u32 - -uint8x8_t vreinterpret_u8_u16 (uint16x4_t t); -#define vreinterpret_u8_u16 - -uint8x8_t vreinterpret_u8_s32 (int32x2_t t); -#define vreinterpret_u8_s32 - -uint8x8_t vreinterpret_u8_s16 (int16x4_t t); -#define vreinterpret_u8_s16 - -uint8x8_t vreinterpret_u8_s8 (int8x8_t t); -#define vreinterpret_u8_s8 - -uint8x8_t vreinterpret_u8_u64 (uint64x1_t t); -#define vreinterpret_u8_u64 - -uint8x8_t vreinterpret_u8_s64 (int64x1_t t); -#define vreinterpret_u8_s64 - -uint8x8_t vreinterpret_u8_f32 (float32x2_t t); -#define vreinterpret_u8_f32 - -uint8x8_t vreinterpret_u8_p16 (poly16x4_t t); -#define vreinterpret_u8_p16 - -uint8x8_t vreinterpret_u8_p8 (poly8x8_t t); -#define vreinterpret_u8_p8 - -uint8x16_t vreinterpretq_u8_u32 (uint32x4_t t); -#define vreinterpretq_u8_u32 - -uint8x16_t vreinterpretq_u8_u16 (uint16x8_t t); -#define vreinterpretq_u8_u16 - -uint8x16_t vreinterpretq_u8_s32 (int32x4_t t); -#define vreinterpretq_u8_s32 - -uint8x16_t vreinterpretq_u8_s16 (int16x8_t t); -#define vreinterpretq_u8_s16 - -uint8x16_t vreinterpretq_u8_s8 (int8x16_t t); -#define vreinterpretq_u8_s8 - -uint8x16_t vreinterpretq_u8_u64 (uint64x2_t t); -#define vreinterpretq_u8_u64 - -uint8x16_t vreinterpretq_u8_s64 (int64x2_t t); -#define vreinterpretq_u8_s64 - -uint8x16_t vreinterpretq_u8_f32 (float32x4_t t); -#define vreinterpretq_u8_f32(t) _M128i(t) - - -uint8x16_t vreinterpretq_u8_p16 (poly16x8_t t); -#define vreinterpretq_u8_p16 - -uint8x16_t vreinterpretq_u8_p8 (poly8x16_t t); -#define vreinterpretq_u8_p8 - -uint16x4_t vreinterpret_u16_u32 (uint32x2_t t); -#define vreinterpret_u16_u32 - -uint16x4_t vreinterpret_u16_u8 (uint8x8_t t); -#define vreinterpret_u16_u8 - -uint16x4_t vreinterpret_u16_s32 (int32x2_t t); -#define vreinterpret_u16_s32 - -uint16x4_t vreinterpret_u16_s16 (int16x4_t t); -#define vreinterpret_u16_s16 - -uint16x4_t vreinterpret_u16_s8 (int8x8_t t); -#define vreinterpret_u16_s8 - -uint16x4_t vreinterpret_u16_u64 (uint64x1_t t); -#define vreinterpret_u16_u64 - -uint16x4_t vreinterpret_u16_s64 (int64x1_t t); -#define vreinterpret_u16_s64 - -uint16x4_t vreinterpret_u16_f32 (float32x2_t t); -#define vreinterpret_u16_f32 - -uint16x4_t vreinterpret_u16_p16 (poly16x4_t t); -#define vreinterpret_u16_p16 - -uint16x4_t vreinterpret_u16_p8 (poly8x8_t t); -#define vreinterpret_u16_p8 - -uint16x8_t vreinterpretq_u16_u32 (uint32x4_t t); -#define vreinterpretq_u16_u32 - -uint16x8_t vreinterpretq_u16_u8 (uint8x16_t t); -#define vreinterpretq_u16_u8 - -uint16x8_t vreinterpretq_u16_s32 (int32x4_t t); -#define vreinterpretq_u16_s32 - -uint16x8_t vreinterpretq_u16_s16 (int16x8_t t); -#define vreinterpretq_u16_s16 - -uint16x8_t vreinterpretq_u16_s8 (int8x16_t t); -#define vreinterpretq_u16_s8 - -uint16x8_t vreinterpretq_u16_u64 (uint64x2_t t); -#define vreinterpretq_u16_u64 - -uint16x8_t vreinterpretq_u16_s64 (int64x2_t t); -#define vreinterpretq_u16_s64 - -uint16x8_t vreinterpretq_u16_f32 (float32x4_t t); -#define vreinterpretq_u16_f32(t) _M128i(t) - -uint16x8_t vreinterpretq_u16_p16 (poly16x8_t t); -#define vreinterpretq_u16_p16 - -uint16x8_t vreinterpretq_u16_p8 (poly8x16_t t); -#define vreinterpretq_u16_p8 - -uint32x2_t vreinterpret_u32_u16 (uint16x4_t t); -#define vreinterpret_u32_u16 - -uint32x2_t vreinterpret_u32_u8 (uint8x8_t t); -#define vreinterpret_u32_u8 - -uint32x2_t vreinterpret_u32_s32 (int32x2_t t); -#define vreinterpret_u32_s32 - -uint32x2_t vreinterpret_u32_s16 (int16x4_t t); -#define vreinterpret_u32_s16 - -uint32x2_t vreinterpret_u32_s8 (int8x8_t t); -#define vreinterpret_u32_s8 - -uint32x2_t vreinterpret_u32_u64 (uint64x1_t t); -#define vreinterpret_u32_u64 - -uint32x2_t vreinterpret_u32_s64 (int64x1_t t); -#define vreinterpret_u32_s64 - -uint32x2_t vreinterpret_u32_f32 (float32x2_t t); -#define vreinterpret_u32_f32 - -uint32x2_t vreinterpret_u32_p16 (poly16x4_t t); -#define vreinterpret_u32_p16 - -uint32x2_t vreinterpret_u32_p8 (poly8x8_t t); -#define vreinterpret_u32_p8 - -uint32x4_t vreinterpretq_u32_u16 (uint16x8_t t); -#define vreinterpretq_u32_u16 - -uint32x4_t vreinterpretq_u32_u8 (uint8x16_t t); -#define vreinterpretq_u32_u8 - -uint32x4_t vreinterpretq_u32_s32 (int32x4_t t); -#define vreinterpretq_u32_s32 - -uint32x4_t vreinterpretq_u32_s16 (int16x8_t t); -#define vreinterpretq_u32_s16 - -uint32x4_t vreinterpretq_u32_s8 (int8x16_t t); -#define vreinterpretq_u32_s8 - -uint32x4_t vreinterpretq_u32_u64 (uint64x2_t t); -#define vreinterpretq_u32_u64 - -uint32x4_t vreinterpretq_u32_s64 (int64x2_t t); -#define vreinterpretq_u32_s64 - -uint32x4_t vreinterpretq_u32_f32 (float32x4_t t); -#define vreinterpretq_u32_f32(t) _M128i(t) - -uint32x4_t vreinterpretq_u32_p16 (poly16x8_t t); -#define vreinterpretq_u32_p16 - -uint32x4_t vreinterpretq_u32_p8 (poly8x16_t t); -#define vreinterpretq_u32_p8 - -#endif /* NEON2SSE_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avx2intrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avx2intrin.h deleted file mode 100644 index d04c972..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avx2intrin.h +++ /dev/null @@ -1,1889 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -# error "Never use <avx2intrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVX2INTRIN_H_INCLUDED -#define _AVX2INTRIN_H_INCLUDED - -#ifndef __AVX2__ -#pragma GCC push_options -#pragma GCC target("avx2") -#define __DISABLE_AVX2__ -#endif /* __AVX2__ */ - -/* Sum absolute 8-bit integer difference of adjacent groups of 4 - byte integers in the first 2 operands. Starting offsets within - operands are determined by the 3rd mask operand. */ -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mpsadbw_epu8 (__m256i __X, __m256i __Y, const int __M) -{ - return (__m256i) __builtin_ia32_mpsadbw256 ((__v32qi)__X, - (__v32qi)__Y, __M); -} -#else -#define _mm256_mpsadbw_epu8(X, Y, M) \ - ((__m256i) __builtin_ia32_mpsadbw256 ((__v32qi)(__m256i)(X), \ - (__v32qi)(__m256i)(Y), (int)(M))) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_abs_epi8 (__m256i __A) -{ - return (__m256i)__builtin_ia32_pabsb256 ((__v32qi)__A); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_abs_epi16 (__m256i __A) -{ - return (__m256i)__builtin_ia32_pabsw256 ((__v16hi)__A); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_abs_epi32 (__m256i __A) -{ - return (__m256i)__builtin_ia32_pabsd256 ((__v8si)__A); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_packs_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_packssdw256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_packs_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_packsswb256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_packus_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_packusdw256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_packus_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_packuswb256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddd256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_adds_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddsb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_adds_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddsw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_adds_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddusb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_adds_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_paddusw256 ((__v16hi)__A, (__v16hi)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_alignr_epi8 (__m256i __A, __m256i __B, const int __N) -{ - return (__m256i) __builtin_ia32_palignr256 ((__v4di)__A, - (__v4di)__B, - __N * 8); -} -#else -/* In that case (__N*8) will be in vreg, and insn will not be matched. */ -/* Use define instead */ -#define _mm256_alignr_epi8(A, B, N) \ - ((__m256i) __builtin_ia32_palignr256 ((__v4di)(__m256i)(A), \ - (__v4di)(__m256i)(B), \ - (int)(N) * 8)) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_and_si256 (__m256i __A, __m256i __B) -{ - return (__m256i) __builtin_ia32_andsi256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_andnot_si256 (__m256i __A, __m256i __B) -{ - return (__m256i) __builtin_ia32_andnotsi256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_avg_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pavgb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_avg_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pavgw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blendv_epi8 (__m256i __X, __m256i __Y, __m256i __M) -{ - return (__m256i) __builtin_ia32_pblendvb256 ((__v32qi)__X, - (__v32qi)__Y, - (__v32qi)__M); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blend_epi16 (__m256i __X, __m256i __Y, const int __M) -{ - return (__m256i) __builtin_ia32_pblendw256 ((__v16hi)__X, - (__v16hi)__Y, - __M); -} -#else -#define _mm256_blend_epi16(X, Y, M) \ - ((__m256i) __builtin_ia32_pblendw256 ((__v16hi)(__m256i)(X), \ - (__v16hi)(__m256i)(Y), (int)(M))) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpeq_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpeqb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpeq_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpeqw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpeq_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpeqd256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpeq_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpeqq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpgt_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpgtb256 ((__v32qi)__A, - (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpgt_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpgtw256 ((__v16hi)__A, - (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpgt_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpgtd256 ((__v8si)__A, - (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmpgt_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pcmpgtq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hadd_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phaddw256 ((__v16hi)__X, - (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hadd_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phaddd256 ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hadds_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phaddsw256 ((__v16hi)__X, - (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hsub_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phsubw256 ((__v16hi)__X, - (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hsub_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phsubd256 ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hsubs_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_phsubsw256 ((__v16hi)__X, - (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maddubs_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_pmaddubsw256 ((__v32qi)__X, - (__v32qi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_madd_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaddwd256 ((__v16hi)__A, - (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxsb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxsw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxsd256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxub256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxuw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_epu32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmaxud256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminsb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminsw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminsd256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminub256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminuw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_epu32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pminud256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_movemask_epi8 (__m256i __A) -{ - return __builtin_ia32_pmovmskb256 ((__v32qi)__A); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi8_epi16 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxbw256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi8_epi32 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxbd256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi8_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxbq256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi16_epi32 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxwd256 ((__v8hi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi16_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxwq256 ((__v8hi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi32_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovsxdq256 ((__v4si)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu8_epi16 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxbw256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu8_epi32 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxbd256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu8_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxbq256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu16_epi32 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxwd256 ((__v8hi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu16_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxwq256 ((__v8hi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepu32_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pmovzxdq256 ((__v4si)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mul_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_pmuldq256 ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mulhrs_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_pmulhrsw256 ((__v16hi)__X, - (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mulhi_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmulhuw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mulhi_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmulhw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mullo_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmullw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mullo_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmulld256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mul_epu32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pmuludq256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_or_si256 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_por256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sad_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psadbw256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shuffle_epi8 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_pshufb256 ((__v32qi)__X, - (__v32qi)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shuffle_epi32 (__m256i __A, const int __mask) -{ - return (__m256i)__builtin_ia32_pshufd256 ((__v8si)__A, __mask); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shufflehi_epi16 (__m256i __A, const int __mask) -{ - return (__m256i)__builtin_ia32_pshufhw256 ((__v16hi)__A, __mask); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shufflelo_epi16 (__m256i __A, const int __mask) -{ - return (__m256i)__builtin_ia32_pshuflw256 ((__v16hi)__A, __mask); -} -#else -#define _mm256_shuffle_epi32(A, N) \ - ((__m256i)__builtin_ia32_pshufd256 ((__v8si)(__m256i)(A), (int)(N))) -#define _mm256_shufflehi_epi16(A, N) \ - ((__m256i)__builtin_ia32_pshufhw256 ((__v16hi)(__m256i)(A), (int)(N))) -#define _mm256_shufflelo_epi16(A, N) \ - ((__m256i)__builtin_ia32_pshuflw256 ((__v16hi)(__m256i)(A), (int)(N))) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sign_epi8 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psignb256 ((__v32qi)__X, (__v32qi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sign_epi16 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psignw256 ((__v16hi)__X, (__v16hi)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sign_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psignd256 ((__v8si)__X, (__v8si)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_slli_si256 (__m256i __A, const int __N) -{ - return (__m256i)__builtin_ia32_pslldqi256 (__A, __N * 8); -} -#else -#define _mm256_slli_si256(A, N) \ - ((__m256i)__builtin_ia32_pslldqi256 ((__m256i)(A), (int)(N) * 8)) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_slli_epi16 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psllwi256 ((__v16hi)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sll_epi16 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psllw256((__v16hi)__A, (__v8hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_slli_epi32 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_pslldi256 ((__v8si)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sll_epi32 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_pslld256((__v8si)__A, (__v4si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_slli_epi64 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psllqi256 ((__v4di)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sll_epi64 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psllq256((__v4di)__A, (__v2di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srai_epi16 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psrawi256 ((__v16hi)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sra_epi16 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psraw256 ((__v16hi)__A, (__v8hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srai_epi32 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psradi256 ((__v8si)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sra_epi32 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psrad256 ((__v8si)__A, (__v4si)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srli_si256 (__m256i __A, const int __N) -{ - return (__m256i)__builtin_ia32_psrldqi256 (__A, __N * 8); -} -#else -#define _mm256_srli_si256(A, N) \ - ((__m256i)__builtin_ia32_psrldqi256 ((__m256i)(A), (int)(N) * 8)) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srli_epi16 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psrlwi256 ((__v16hi)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srl_epi16 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psrlw256((__v16hi)__A, (__v8hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srli_epi32 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psrldi256 ((__v8si)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srl_epi32 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psrld256((__v8si)__A, (__v4si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srli_epi64 (__m256i __A, int __B) -{ - return (__m256i)__builtin_ia32_psrlqi256 ((__v4di)__A, __B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srl_epi64 (__m256i __A, __m128i __B) -{ - return (__m256i)__builtin_ia32_psrlq256((__v4di)__A, (__v2di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubd256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_subs_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubsb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_subs_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubsw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_subs_epu8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubusb256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_subs_epu16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_psubusw256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpckhbw256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpckhwd256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpckhdq256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpckhqdq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_epi8 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpcklbw256 ((__v32qi)__A, (__v32qi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_epi16 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpcklwd256 ((__v16hi)__A, (__v16hi)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_epi32 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpckldq256 ((__v8si)__A, (__v8si)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_epi64 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_punpcklqdq256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_xor_si256 (__m256i __A, __m256i __B) -{ - return (__m256i)__builtin_ia32_pxor256 ((__v4di)__A, (__v4di)__B); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_stream_load_si256 (__m256i const *__X) -{ - return (__m256i) __builtin_ia32_movntdqa256 ((__v4di *) __X); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcastss_ps (__m128 __X) -{ - return (__m128) __builtin_ia32_vbroadcastss_ps ((__v4sf)__X); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastss_ps (__m128 __X) -{ - return (__m256) __builtin_ia32_vbroadcastss_ps256 ((__v4sf)__X); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastsd_pd (__m128d __X) -{ - return (__m256d) __builtin_ia32_vbroadcastsd_pd256 ((__v2df)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastsi128_si256 (__m128i __X) -{ - return (__m256i) __builtin_ia32_vbroadcastsi256 ((__v2di)__X); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blend_epi32 (__m128i __X, __m128i __Y, const int __M) -{ - return (__m128i) __builtin_ia32_pblendd128 ((__v4si)__X, - (__v4si)__Y, - __M); -} -#else -#define _mm_blend_epi32(X, Y, M) \ - ((__m128i) __builtin_ia32_pblendd128 ((__v4si)(__m128i)(X), \ - (__v4si)(__m128i)(Y), (int)(M))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blend_epi32 (__m256i __X, __m256i __Y, const int __M) -{ - return (__m256i) __builtin_ia32_pblendd256 ((__v8si)__X, - (__v8si)__Y, - __M); -} -#else -#define _mm256_blend_epi32(X, Y, M) \ - ((__m256i) __builtin_ia32_pblendd256 ((__v8si)(__m256i)(X), \ - (__v8si)(__m256i)(Y), (int)(M))) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastb_epi8 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pbroadcastb256 ((__v16qi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastw_epi16 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pbroadcastw256 ((__v8hi)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastd_epi32 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pbroadcastd256 ((__v4si)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcastq_epi64 (__m128i __X) -{ - return (__m256i) __builtin_ia32_pbroadcastq256 ((__v2di)__X); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcastb_epi8 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pbroadcastb128 ((__v16qi)__X); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcastw_epi16 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pbroadcastw128 ((__v8hi)__X); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcastd_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pbroadcastd128 ((__v4si)__X); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcastq_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pbroadcastq128 ((__v2di)__X); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permutevar8x32_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_permvarsi256 ((__v8si)__X, (__v8si)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute4x64_pd (__m256d __X, const int __M) -{ - return (__m256d) __builtin_ia32_permdf256 ((__v4df)__X, __M); -} -#else -#define _mm256_permute4x64_pd(X, M) \ - ((__m256d) __builtin_ia32_permdf256 ((__v4df)(__m256d)(X), (int)(M))) -#endif - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permutevar8x32_ps (__m256 __X, __m256i __Y) -{ - return (__m256) __builtin_ia32_permvarsf256 ((__v8sf)__X, (__v8si)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute4x64_epi64 (__m256i __X, const int __M) -{ - return (__m256i) __builtin_ia32_permdi256 ((__v4di)__X, __M); -} -#else -#define _mm256_permute4x64_epi64(X, M) \ - ((__m256i) __builtin_ia32_permdi256 ((__v4di)(__m256i)(X), (int)(M))) -#endif - - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2x128_si256 (__m256i __X, __m256i __Y, const int __M) -{ - return (__m256i) __builtin_ia32_permti256 ((__v4di)__X, (__v4di)__Y, __M); -} -#else -#define _mm256_permute2x128_si256(X, Y, M) \ - ((__m256i) __builtin_ia32_permti256 ((__v4di)(__m256i)(X), (__v4di)(__m256i)(Y), (int)(M))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extracti128_si256 (__m256i __X, const int __M) -{ - return (__m128i) __builtin_ia32_extract128i256 ((__v4di)__X, __M); -} -#else -#define _mm256_extracti128_si256(X, M) \ - ((__m128i) __builtin_ia32_extract128i256 ((__v4di)(__m256i)(X), (int)(M))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_inserti128_si256 (__m256i __X, __m128i __Y, const int __M) -{ - return (__m256i) __builtin_ia32_insert128i256 ((__v4di)__X, (__v2di)__Y, __M); -} -#else -#define _mm256_inserti128_si256(X, Y, M) \ - ((__m256i) __builtin_ia32_insert128i256 ((__v4di)(__m256i)(X), \ - (__v2di)(__m128i)(Y), \ - (int)(M))) -#endif - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskload_epi32 (int const *__X, __m256i __M ) -{ - return (__m256i) __builtin_ia32_maskloadd256 ((const __v8si *)__X, - (__v8si)__M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskload_epi64 (long long const *__X, __m256i __M ) -{ - return (__m256i) __builtin_ia32_maskloadq256 ((const __v4di *)__X, - (__v4di)__M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskload_epi32 (int const *__X, __m128i __M ) -{ - return (__m128i) __builtin_ia32_maskloadd ((const __v4si *)__X, - (__v4si)__M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskload_epi64 (long long const *__X, __m128i __M ) -{ - return (__m128i) __builtin_ia32_maskloadq ((const __v2di *)__X, - (__v2di)__M); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskstore_epi32 (int *__X, __m256i __M, __m256i __Y ) -{ - __builtin_ia32_maskstored256 ((__v8si *)__X, (__v8si)__M, (__v8si)__Y); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskstore_epi64 (long long *__X, __m256i __M, __m256i __Y ) -{ - __builtin_ia32_maskstoreq256 ((__v4di *)__X, (__v4di)__M, (__v4di)__Y); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskstore_epi32 (int *__X, __m128i __M, __m128i __Y ) -{ - __builtin_ia32_maskstored ((__v4si *)__X, (__v4si)__M, (__v4si)__Y); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskstore_epi64 (long long *__X, __m128i __M, __m128i __Y ) -{ - __builtin_ia32_maskstoreq (( __v2di *)__X, (__v2di)__M, (__v2di)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sllv_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psllv8si ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sllv_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psllv4si ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sllv_epi64 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psllv4di ((__v4di)__X, (__v4di)__Y); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sllv_epi64 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psllv2di ((__v2di)__X, (__v2di)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srav_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psrav8si ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srav_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psrav4si ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srlv_epi32 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psrlv8si ((__v8si)__X, (__v8si)__Y); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srlv_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psrlv4si ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_srlv_epi64 (__m256i __X, __m256i __Y) -{ - return (__m256i) __builtin_ia32_psrlv4di ((__v4di)__X, (__v4di)__Y); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srlv_epi64 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psrlv2di ((__v2di)__X, (__v2di)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i32gather_pd (double const *base, __m128i index, const int scale) -{ - __v2df zero = _mm_setzero_pd (); - __v2df mask = _mm_cmpeq_pd (zero, zero); - - return (__m128d) __builtin_ia32_gathersiv2df (_mm_undefined_pd (), - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i32gather_pd (__m128d src, double const *base, __m128i index, - __m128d mask, const int scale) -{ - return (__m128d) __builtin_ia32_gathersiv2df ((__v2df)src, - base, - (__v4si)index, - (__v2df)mask, - scale); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i32gather_pd (double const *base, __m128i index, const int scale) -{ - __v4df zero = _mm256_setzero_pd (); - __v4df mask = _mm256_cmp_pd (zero, zero, _CMP_EQ_OQ); - - return (__m256d) __builtin_ia32_gathersiv4df (_mm256_undefined_pd (), - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i32gather_pd (__m256d src, double const *base, - __m128i index, __m256d mask, const int scale) -{ - return (__m256d) __builtin_ia32_gathersiv4df ((__v4df)src, - base, - (__v4si)index, - (__v4df)mask, - scale); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i64gather_pd (double const *base, __m128i index, const int scale) -{ - __v2df src = _mm_setzero_pd (); - __v2df mask = _mm_cmpeq_pd (src, src); - - return (__m128d) __builtin_ia32_gatherdiv2df (src, - base, - (__v2di)index, - mask, - scale); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i64gather_pd (__m128d src, double const *base, __m128i index, - __m128d mask, const int scale) -{ - return (__m128d) __builtin_ia32_gatherdiv2df ((__v2df)src, - base, - (__v2di)index, - (__v2df)mask, - scale); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i64gather_pd (double const *base, __m256i index, const int scale) -{ - __v4df src = _mm256_setzero_pd (); - __v4df mask = _mm256_cmp_pd (src, src, _CMP_EQ_OQ); - - return (__m256d) __builtin_ia32_gatherdiv4df (src, - base, - (__v4di)index, - mask, - scale); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i64gather_pd (__m256d src, double const *base, - __m256i index, __m256d mask, const int scale) -{ - return (__m256d) __builtin_ia32_gatherdiv4df ((__v4df)src, - base, - (__v4di)index, - (__v4df)mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i32gather_ps (float const *base, __m128i index, const int scale) -{ - __v4sf src = _mm_setzero_ps (); - __v4sf mask = _mm_cmpeq_ps (src, src); - - return (__m128) __builtin_ia32_gathersiv4sf (src, - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i32gather_ps (__m128 src, float const *base, __m128i index, - __m128 mask, const int scale) -{ - return (__m128) __builtin_ia32_gathersiv4sf ((__v4sf)src, - base, - (__v4si)index, - (__v4sf)mask, - scale); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i32gather_ps (float const *base, __m256i index, const int scale) -{ - __v8sf src = _mm256_setzero_ps (); - __v8sf mask = _mm256_cmp_ps (src, src, _CMP_EQ_OQ); - - return (__m256) __builtin_ia32_gathersiv8sf (src, - base, - (__v8si)index, - mask, - scale); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i32gather_ps (__m256 src, float const *base, - __m256i index, __m256 mask, const int scale) -{ - return (__m256) __builtin_ia32_gathersiv8sf ((__v8sf)src, - base, - (__v8si)index, - (__v8sf)mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i64gather_ps (float const *base, __m128i index, const int scale) -{ - __v4sf src = _mm_setzero_ps (); - __v4sf mask = _mm_cmpeq_ps (src, src); - - return (__m128) __builtin_ia32_gatherdiv4sf (src, - base, - (__v2di)index, - mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i64gather_ps (__m128 src, float const *base, __m128i index, - __m128 mask, const int scale) -{ - return (__m128) __builtin_ia32_gatherdiv4sf ((__v4sf)src, - base, - (__v2di)index, - (__v4sf)mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i64gather_ps (float const *base, __m256i index, const int scale) -{ - __v4sf src = _mm_setzero_ps (); - __v4sf mask = _mm_cmpeq_ps (src, src); - - return (__m128) __builtin_ia32_gatherdiv4sf256 (src, - base, - (__v4di)index, - mask, - scale); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i64gather_ps (__m128 src, float const *base, - __m256i index, __m128 mask, const int scale) -{ - return (__m128) __builtin_ia32_gatherdiv4sf256 ((__v4sf)src, - base, - (__v4di)index, - (__v4sf)mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i32gather_epi64 (long long int const *base, - __m128i index, const int scale) -{ - __v2di src = __extension__ (__v2di){ 0, 0 }; - __v2di mask = __extension__ (__v2di){ ~0, ~0 }; - - return (__m128i) __builtin_ia32_gathersiv2di (src, - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i32gather_epi64 (__m128i src, long long int const *base, - __m128i index, __m128i mask, const int scale) -{ - return (__m128i) __builtin_ia32_gathersiv2di ((__v2di)src, - base, - (__v4si)index, - (__v2di)mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i32gather_epi64 (long long int const *base, - __m128i index, const int scale) -{ - __v4di src = __extension__ (__v4di){ 0, 0, 0, 0 }; - __v4di mask = __extension__ (__v4di){ ~0, ~0, ~0, ~0 }; - - return (__m256i) __builtin_ia32_gathersiv4di (src, - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i32gather_epi64 (__m256i src, long long int const *base, - __m128i index, __m256i mask, const int scale) -{ - return (__m256i) __builtin_ia32_gathersiv4di ((__v4di)src, - base, - (__v4si)index, - (__v4di)mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i64gather_epi64 (long long int const *base, - __m128i index, const int scale) -{ - __v2di src = __extension__ (__v2di){ 0, 0 }; - __v2di mask = __extension__ (__v2di){ ~0, ~0 }; - - return (__m128i) __builtin_ia32_gatherdiv2di (src, - base, - (__v2di)index, - mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i64gather_epi64 (__m128i src, long long int const *base, __m128i index, - __m128i mask, const int scale) -{ - return (__m128i) __builtin_ia32_gatherdiv2di ((__v2di)src, - base, - (__v2di)index, - (__v2di)mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i64gather_epi64 (long long int const *base, - __m256i index, const int scale) -{ - __v4di src = __extension__ (__v4di){ 0, 0, 0, 0 }; - __v4di mask = __extension__ (__v4di){ ~0, ~0, ~0, ~0 }; - - return (__m256i) __builtin_ia32_gatherdiv4di (src, - base, - (__v4di)index, - mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i64gather_epi64 (__m256i src, long long int const *base, - __m256i index, __m256i mask, const int scale) -{ - return (__m256i) __builtin_ia32_gatherdiv4di ((__v4di)src, - base, - (__v4di)index, - (__v4di)mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i32gather_epi32 (int const *base, __m128i index, const int scale) -{ - __v4si src = __extension__ (__v4si){ 0, 0, 0, 0 }; - __v4si mask = __extension__ (__v4si){ ~0, ~0, ~0, ~0 }; - - return (__m128i) __builtin_ia32_gathersiv4si (src, - base, - (__v4si)index, - mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i32gather_epi32 (__m128i src, int const *base, __m128i index, - __m128i mask, const int scale) -{ - return (__m128i) __builtin_ia32_gathersiv4si ((__v4si)src, - base, - (__v4si)index, - (__v4si)mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i32gather_epi32 (int const *base, __m256i index, const int scale) -{ - __v8si src = __extension__ (__v8si){ 0, 0, 0, 0, 0, 0, 0, 0 }; - __v8si mask = __extension__ (__v8si){ ~0, ~0, ~0, ~0, ~0, ~0, ~0, ~0 }; - - return (__m256i) __builtin_ia32_gathersiv8si (src, - base, - (__v8si)index, - mask, - scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i32gather_epi32 (__m256i src, int const *base, - __m256i index, __m256i mask, const int scale) -{ - return (__m256i) __builtin_ia32_gathersiv8si ((__v8si)src, - base, - (__v8si)index, - (__v8si)mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_i64gather_epi32 (int const *base, __m128i index, const int scale) -{ - __v4si src = __extension__ (__v4si){ 0, 0, 0, 0 }; - __v4si mask = __extension__ (__v4si){ ~0, ~0, ~0, ~0 }; - - return (__m128i) __builtin_ia32_gatherdiv4si (src, - base, - (__v2di)index, - mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_i64gather_epi32 (__m128i src, int const *base, __m128i index, - __m128i mask, const int scale) -{ - return (__m128i) __builtin_ia32_gatherdiv4si ((__v4si)src, - base, - (__v2di)index, - (__v4si)mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_i64gather_epi32 (int const *base, __m256i index, const int scale) -{ - __v4si src = __extension__ (__v4si){ 0, 0, 0, 0 }; - __v4si mask = __extension__ (__v4si){ ~0, ~0, ~0, ~0 }; - - return (__m128i) __builtin_ia32_gatherdiv4si256 (src, - base, - (__v4di)index, - mask, - scale); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mask_i64gather_epi32 (__m128i src, int const *base, - __m256i index, __m128i mask, const int scale) -{ - return (__m128i) __builtin_ia32_gatherdiv4si256 ((__v4si)src, - base, - (__v4di)index, - (__v4si)mask, - scale); -} -#else /* __OPTIMIZE__ */ -#define _mm_i32gather_pd(BASE, INDEX, SCALE) \ - (__m128d) __builtin_ia32_gathersiv2df ((__v2df) _mm_setzero_pd (), \ - (double const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v2df)_mm_set1_pd( \ - (double)(long long int) -1), \ - (int)SCALE) - -#define _mm_mask_i32gather_pd(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128d) __builtin_ia32_gathersiv2df ((__v2df)(__m128d)SRC, \ - (double const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v2df)(__m128d)MASK, \ - (int)SCALE) - -#define _mm256_i32gather_pd(BASE, INDEX, SCALE) \ - (__m256d) __builtin_ia32_gathersiv4df ((__v4df) _mm256_setzero_pd (), \ - (double const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4df)_mm256_set1_pd( \ - (double)(long long int) -1), \ - (int)SCALE) - -#define _mm256_mask_i32gather_pd(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256d) __builtin_ia32_gathersiv4df ((__v4df)(__m256d)SRC, \ - (double const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4df)(__m256d)MASK, \ - (int)SCALE) - -#define _mm_i64gather_pd(BASE, INDEX, SCALE) \ - (__m128d) __builtin_ia32_gatherdiv2df ((__v2df) _mm_setzero_pd (), \ - (double const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v2df)_mm_set1_pd( \ - (double)(long long int) -1), \ - (int)SCALE) - -#define _mm_mask_i64gather_pd(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128d) __builtin_ia32_gatherdiv2df ((__v2df)(__m128d)SRC, \ - (double const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v2df)(__m128d)MASK, \ - (int)SCALE) - -#define _mm256_i64gather_pd(BASE, INDEX, SCALE) \ - (__m256d) __builtin_ia32_gatherdiv4df ((__v4df) _mm256_setzero_pd (), \ - (double const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4df)_mm256_set1_pd( \ - (double)(long long int) -1), \ - (int)SCALE) - -#define _mm256_mask_i64gather_pd(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256d) __builtin_ia32_gatherdiv4df ((__v4df)(__m256d)SRC, \ - (double const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4df)(__m256d)MASK, \ - (int)SCALE) - -#define _mm_i32gather_ps(BASE, INDEX, SCALE) \ - (__m128) __builtin_ia32_gathersiv4sf ((__v4sf) _mm_setzero_ps (), \ - (float const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - _mm_set1_ps ((float)(int) -1), \ - (int)SCALE) - -#define _mm_mask_i32gather_ps(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128) __builtin_ia32_gathersiv4sf ((__v4sf)(__m128d)SRC, \ - (float const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4sf)(__m128d)MASK, \ - (int)SCALE) - -#define _mm256_i32gather_ps(BASE, INDEX, SCALE) \ - (__m256) __builtin_ia32_gathersiv8sf ((__v8sf) _mm256_setzero_ps (), \ - (float const *)BASE, \ - (__v8si)(__m256i)INDEX, \ - (__v8sf)_mm256_set1_ps ( \ - (float)(int) -1), \ - (int)SCALE) - -#define _mm256_mask_i32gather_ps(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256) __builtin_ia32_gathersiv8sf ((__v8sf)(__m256)SRC, \ - (float const *)BASE, \ - (__v8si)(__m256i)INDEX, \ - (__v8sf)(__m256d)MASK, \ - (int)SCALE) - -#define _mm_i64gather_ps(BASE, INDEX, SCALE) \ - (__m128) __builtin_ia32_gatherdiv4sf ((__v4sf) _mm_setzero_pd (), \ - (float const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v4sf)_mm_set1_ps ( \ - (float)(int) -1), \ - (int)SCALE) - -#define _mm_mask_i64gather_ps(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128) __builtin_ia32_gatherdiv4sf ((__v4sf)(__m128)SRC, \ - (float const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v4sf)(__m128d)MASK, \ - (int)SCALE) - -#define _mm256_i64gather_ps(BASE, INDEX, SCALE) \ - (__m128) __builtin_ia32_gatherdiv4sf256 ((__v4sf) _mm_setzero_ps (), \ - (float const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4sf)_mm_set1_ps( \ - (float)(int) -1), \ - (int)SCALE) - -#define _mm256_mask_i64gather_ps(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128) __builtin_ia32_gatherdiv4sf256 ((__v4sf)(__m128)SRC, \ - (float const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4sf)(__m128)MASK, \ - (int)SCALE) - -#define _mm_i32gather_epi64(BASE, INDEX, SCALE) \ - (__m128i) __builtin_ia32_gathersiv2di ((__v2di) _mm_setzero_si128 (), \ - (long long const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v2di)_mm_set1_epi64x (-1), \ - (int)SCALE) - -#define _mm_mask_i32gather_epi64(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128i) __builtin_ia32_gathersiv2di ((__v2di)(__m128i)SRC, \ - (long long const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v2di)(__m128i)MASK, \ - (int)SCALE) - -#define _mm256_i32gather_epi64(BASE, INDEX, SCALE) \ - (__m256i) __builtin_ia32_gathersiv4di ((__v4di) _mm256_setzero_si256 (), \ - (long long const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4di)_mm256_set1_epi64x (-1), \ - (int)SCALE) - -#define _mm256_mask_i32gather_epi64(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256i) __builtin_ia32_gathersiv4di ((__v4di)(__m256i)SRC, \ - (long long const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4di)(__m256i)MASK, \ - (int)SCALE) - -#define _mm_i64gather_epi64(BASE, INDEX, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv2di ((__v2di) _mm_setzero_si128 (), \ - (long long const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v2di)_mm_set1_epi64x (-1), \ - (int)SCALE) - -#define _mm_mask_i64gather_epi64(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv2di ((__v2di)(__m128i)SRC, \ - (long long const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v2di)(__m128i)MASK, \ - (int)SCALE) - -#define _mm256_i64gather_epi64(BASE, INDEX, SCALE) \ - (__m256i) __builtin_ia32_gatherdiv4di ((__v4di) _mm256_setzero_si256 (), \ - (long long const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4di)_mm256_set1_epi64x (-1), \ - (int)SCALE) - -#define _mm256_mask_i64gather_epi64(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256i) __builtin_ia32_gatherdiv4di ((__v4di)(__m256i)SRC, \ - (long long const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4di)(__m256i)MASK, \ - (int)SCALE) - -#define _mm_i32gather_epi32(BASE, INDEX, SCALE) \ - (__m128i) __builtin_ia32_gathersiv4si ((__v4si) _mm_setzero_si128 (), \ - (int const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4si)_mm_set1_epi32 (-1), \ - (int)SCALE) - -#define _mm_mask_i32gather_epi32(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128i) __builtin_ia32_gathersiv4si ((__v4si)(__m128i)SRC, \ - (int const *)BASE, \ - (__v4si)(__m128i)INDEX, \ - (__v4si)(__m128i)MASK, \ - (int)SCALE) - -#define _mm256_i32gather_epi32(BASE, INDEX, SCALE) \ - (__m256i) __builtin_ia32_gathersiv8si ((__v8si) _mm256_setzero_si256 (), \ - (int const *)BASE, \ - (__v8si)(__m256i)INDEX, \ - (__v8si)_mm256_set1_epi32 (-1), \ - (int)SCALE) - -#define _mm256_mask_i32gather_epi32(SRC, BASE, INDEX, MASK, SCALE) \ - (__m256i) __builtin_ia32_gathersiv8si ((__v8si)(__m256i)SRC, \ - (int const *)BASE, \ - (__v8si)(__m256i)INDEX, \ - (__v8si)(__m256i)MASK, \ - (int)SCALE) - -#define _mm_i64gather_epi32(BASE, INDEX, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv4si ((__v4si) _mm_setzero_si128 (), \ - (int const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v4si)_mm_set1_epi32 (-1), \ - (int)SCALE) - -#define _mm_mask_i64gather_epi32(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv4si ((__v4si)(__m128i)SRC, \ - (int const *)BASE, \ - (__v2di)(__m128i)INDEX, \ - (__v4si)(__m128i)MASK, \ - (int)SCALE) - -#define _mm256_i64gather_epi32(BASE, INDEX, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv4si256 ((__v4si) _mm_setzero_si128 (), \ - (int const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4si)_mm_set1_epi32(-1), \ - (int)SCALE) - -#define _mm256_mask_i64gather_epi32(SRC, BASE, INDEX, MASK, SCALE) \ - (__m128i) __builtin_ia32_gatherdiv4si256 ((__v4si)(__m128i)SRC, \ - (int const *)BASE, \ - (__v4di)(__m256i)INDEX, \ - (__v4si)(__m128i)MASK, \ - (int)SCALE) -#endif /* __OPTIMIZE__ */ - -#ifdef __DISABLE_AVX2__ -#undef __DISABLE_AVX2__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX2__ */ - -#endif /* _AVX2INTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512cdintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avx512cdintrin.h deleted file mode 100644 index a4939f7..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512cdintrin.h +++ /dev/null @@ -1,184 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#error "Never use <avx512cdintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVX512CDINTRIN_H_INCLUDED -#define _AVX512CDINTRIN_H_INCLUDED - -#ifndef __AVX512CD__ -#pragma GCC push_options -#pragma GCC target("avx512cd") -#define __DISABLE_AVX512CD__ -#endif /* __AVX512CD__ */ - -/* Internal data types for implementing the intrinsics. */ -typedef long long __v8di __attribute__ ((__vector_size__ (64))); -typedef int __v16si __attribute__ ((__vector_size__ (64))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef long long __m512i __attribute__ ((__vector_size__ (64), __may_alias__)); -typedef double __m512d __attribute__ ((__vector_size__ (64), __may_alias__)); - -typedef unsigned char __mmask8; -typedef unsigned short __mmask16; - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_conflict_epi32 (__m512i __A) -{ - return (__m512i) - __builtin_ia32_vpconflictsi_512_mask ((__v16si) __A, - (__v16si) _mm512_setzero_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_conflict_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_vpconflictsi_512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_conflict_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) - __builtin_ia32_vpconflictsi_512_mask ((__v16si) __A, - (__v16si) _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_conflict_epi64 (__m512i __A) -{ - return (__m512i) - __builtin_ia32_vpconflictdi_512_mask ((__v8di) __A, - (__v8di) _mm512_setzero_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_conflict_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_vpconflictdi_512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_conflict_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) - __builtin_ia32_vpconflictdi_512_mask ((__v8di) __A, - (__v8di) _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_lzcnt_epi64 (__m512i __A) -{ - return (__m512i) - __builtin_ia32_vplzcntq_512_mask ((__v8di) __A, - (__v8di) _mm512_setzero_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_lzcnt_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_vplzcntq_512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_lzcnt_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) - __builtin_ia32_vplzcntq_512_mask ((__v8di) __A, - (__v8di) _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_lzcnt_epi32 (__m512i __A) -{ - return (__m512i) - __builtin_ia32_vplzcntd_512_mask ((__v16si) __A, - (__v16si) _mm512_setzero_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_lzcnt_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_vplzcntd_512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_lzcnt_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) - __builtin_ia32_vplzcntd_512_mask ((__v16si) __A, - (__v16si) _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastmb_epi64 (__mmask8 __A) -{ - return (__m512i) __builtin_ia32_broadcastmb512 (__A); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastmw_epi32 (__mmask16 __A) -{ - return (__m512i) __builtin_ia32_broadcastmw512 (__A); -} - -#ifdef __DISABLE_AVX512CD__ -#undef __DISABLE_AVX512CD__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX512CD__ */ - -#endif /* _AVX512CDINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512erintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avx512erintrin.h deleted file mode 100644 index f6870a5..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512erintrin.h +++ /dev/null @@ -1,394 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#error "Never use <avx512erintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVX512ERINTRIN_H_INCLUDED -#define _AVX512ERINTRIN_H_INCLUDED - -#ifndef __AVX512ER__ -#pragma GCC push_options -#pragma GCC target("avx512er") -#define __DISABLE_AVX512ER__ -#endif /* __AVX512ER__ */ - -/* Internal data types for implementing the intrinsics. */ -typedef double __v8df __attribute__ ((__vector_size__ (64))); -typedef float __v16sf __attribute__ ((__vector_size__ (64))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef float __m512 __attribute__ ((__vector_size__ (64), __may_alias__)); -typedef double __m512d __attribute__ ((__vector_size__ (64), __may_alias__)); - -typedef unsigned char __mmask8; -typedef unsigned short __mmask16; - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_exp2a23_round_pd (__m512d __A, int __R) -{ - __m512d __W; - return (__m512d) __builtin_ia32_exp2pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_exp2a23_round_pd (__m512d __W, __mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_exp2pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_exp2a23_round_pd (__mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_exp2pd_mask ((__v8df) __A, - (__v8df) _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_exp2a23_round_ps (__m512 __A, int __R) -{ - __m512 __W; - return (__m512) __builtin_ia32_exp2ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_exp2a23_round_ps (__m512 __W, __mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_exp2ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_exp2a23_round_ps (__mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_exp2ps_mask ((__v16sf) __A, - (__v16sf) _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rcp28_round_pd (__m512d __A, int __R) -{ - __m512d __W; - return (__m512d) __builtin_ia32_rcp28pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rcp28_round_pd (__m512d __W, __mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_rcp28pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rcp28_round_pd (__mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_rcp28pd_mask ((__v8df) __A, - (__v8df) _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rcp28_round_ps (__m512 __A, int __R) -{ - __m512 __W; - return (__m512) __builtin_ia32_rcp28ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rcp28_round_ps (__m512 __W, __mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_rcp28ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rcp28_round_ps (__mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_rcp28ps_mask ((__v16sf) __A, - (__v16sf) _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp28_round_sd (__m128d __A, __m128d __B, int __R) -{ - return (__m128d) __builtin_ia32_rcp28sd_round ((__v2df) __B, - (__v2df) __A, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp28_round_ss (__m128 __A, __m128 __B, int __R) -{ - return (__m128) __builtin_ia32_rcp28ss_round ((__v4sf) __B, - (__v4sf) __A, - __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rsqrt28_round_pd (__m512d __A, int __R) -{ - __m512d __W; - return (__m512d) __builtin_ia32_rsqrt28pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rsqrt28_round_pd (__m512d __W, __mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_rsqrt28pd_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rsqrt28_round_pd (__mmask8 __U, __m512d __A, int __R) -{ - return (__m512d) __builtin_ia32_rsqrt28pd_mask ((__v8df) __A, - (__v8df) _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rsqrt28_round_ps (__m512 __A, int __R) -{ - __m512 __W; - return (__m512) __builtin_ia32_rsqrt28ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rsqrt28_round_ps (__m512 __W, __mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_rsqrt28ps_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rsqrt28_round_ps (__mmask16 __U, __m512 __A, int __R) -{ - return (__m512) __builtin_ia32_rsqrt28ps_mask ((__v16sf) __A, - (__v16sf) _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt28_round_sd (__m128d __A, __m128d __B, int __R) -{ - return (__m128d) __builtin_ia32_rsqrt28sd_round ((__v2df) __B, - (__v2df) __A, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt28_round_ss (__m128 __A, __m128 __B, int __R) -{ - return (__m128) __builtin_ia32_rsqrt28ss_round ((__v4sf) __B, - (__v4sf) __A, - __R); -} - -#else -#define _mm512_exp2a23_round_pd(A, C) \ - __builtin_ia32_exp2pd_mask(A, (__v8df)_mm512_setzero_pd(), -1, C) - -#define _mm512_mask_exp2a23_round_pd(W, U, A, C) \ - __builtin_ia32_exp2pd_mask(A, W, U, C) - -#define _mm512_maskz_exp2a23_round_pd(U, A, C) \ - __builtin_ia32_exp2pd_mask(A, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_exp2a23_round_ps(A, C) \ - __builtin_ia32_exp2ps_mask(A, (__v16sf)_mm512_setzero_ps(), -1, C) - -#define _mm512_mask_exp2a23_round_ps(W, U, A, C) \ - __builtin_ia32_exp2ps_mask(A, W, U, C) - -#define _mm512_maskz_exp2a23_round_ps(U, A, C) \ - __builtin_ia32_exp2ps_mask(A, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm512_rcp28_round_pd(A, C) \ - __builtin_ia32_rcp28pd_mask(A, (__v8df)_mm512_setzero_pd(), -1, C) - -#define _mm512_mask_rcp28_round_pd(W, U, A, C) \ - __builtin_ia32_rcp28pd_mask(A, W, U, C) - -#define _mm512_maskz_rcp28_round_pd(U, A, C) \ - __builtin_ia32_rcp28pd_mask(A, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_rcp28_round_ps(A, C) \ - __builtin_ia32_rcp28ps_mask(A, (__v16sf)_mm512_setzero_ps(), -1, C) - -#define _mm512_mask_rcp28_round_ps(W, U, A, C) \ - __builtin_ia32_rcp28ps_mask(A, W, U, C) - -#define _mm512_maskz_rcp28_round_ps(U, A, C) \ - __builtin_ia32_rcp28ps_mask(A, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm512_rsqrt28_round_pd(A, C) \ - __builtin_ia32_rsqrt28pd_mask(A, (__v8df)_mm512_setzero_pd(), -1, C) - -#define _mm512_mask_rsqrt28_round_pd(W, U, A, C) \ - __builtin_ia32_rsqrt28pd_mask(A, W, U, C) - -#define _mm512_maskz_rsqrt28_round_pd(U, A, C) \ - __builtin_ia32_rsqrt28pd_mask(A, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_rsqrt28_round_ps(A, C) \ - __builtin_ia32_rsqrt28ps_mask(A, (__v16sf)_mm512_setzero_ps(), -1, C) - -#define _mm512_mask_rsqrt28_round_ps(W, U, A, C) \ - __builtin_ia32_rsqrt28ps_mask(A, W, U, C) - -#define _mm512_maskz_rsqrt28_round_ps(U, A, C) \ - __builtin_ia32_rsqrt28ps_mask(A, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm_rcp28_round_sd(A, B, R) \ - __builtin_ia32_rcp28sd_round(A, B, R) - -#define _mm_rcp28_round_ss(A, B, R) \ - __builtin_ia32_rcp28ss_round(A, B, R) - -#define _mm_rsqrt28_round_sd(A, B, R) \ - __builtin_ia32_rsqrt28sd_round(A, B, R) - -#define _mm_rsqrt28_round_ss(A, B, R) \ - __builtin_ia32_rsqrt28ss_round(A, B, R) - -#endif - -#define _mm512_exp2a23_pd(A) \ - _mm512_exp2a23_round_pd(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_exp2a23_pd(W, U, A) \ - _mm512_mask_exp2a23_round_pd(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_exp2a23_pd(U, A) \ - _mm512_maskz_exp2a23_round_pd(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_exp2a23_ps(A) \ - _mm512_exp2a23_round_ps(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_exp2a23_ps(W, U, A) \ - _mm512_mask_exp2a23_round_ps(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_exp2a23_ps(U, A) \ - _mm512_maskz_exp2a23_round_ps(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_rcp28_pd(A) \ - _mm512_rcp28_round_pd(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_rcp28_pd(W, U, A) \ - _mm512_mask_rcp28_round_pd(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_rcp28_pd(U, A) \ - _mm512_maskz_rcp28_round_pd(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_rcp28_ps(A) \ - _mm512_rcp28_round_ps(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_rcp28_ps(W, U, A) \ - _mm512_mask_rcp28_round_ps(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_rcp28_ps(U, A) \ - _mm512_maskz_rcp28_round_ps(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_rsqrt28_pd(A) \ - _mm512_rsqrt28_round_pd(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_rsqrt28_pd(W, U, A) \ - _mm512_mask_rsqrt28_round_pd(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_rsqrt28_pd(U, A) \ - _mm512_maskz_rsqrt28_round_pd(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_rsqrt28_ps(A) \ - _mm512_rsqrt28_round_ps(A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_mask_rsqrt28_ps(W, U, A) \ - _mm512_mask_rsqrt28_round_ps(W, U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm512_maskz_rsqrt28_ps(U, A) \ - _mm512_maskz_rsqrt28_round_ps(U, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm_rcp28_sd(A, B) \ - __builtin_ia32_rcp28sd_round(B, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm_rcp28_ss(A, B) \ - __builtin_ia32_rcp28ss_round(B, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm_rsqrt28_sd(A, B) \ - __builtin_ia32_rsqrt28sd_round(B, A, _MM_FROUND_CUR_DIRECTION) - -#define _mm_rsqrt28_ss(A, B) \ - __builtin_ia32_rsqrt28ss_round(B, A, _MM_FROUND_CUR_DIRECTION) - -#ifdef __DISABLE_AVX512ER__ -#undef __DISABLE_AVX512ER__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX512ER__ */ - -#endif /* _AVX512ERINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512fintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avx512fintrin.h deleted file mode 100644 index c4caa5a..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512fintrin.h +++ /dev/null @@ -1,12915 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#error "Never use <avx512fintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVX512FINTRIN_H_INCLUDED -#define _AVX512FINTRIN_H_INCLUDED - -#ifndef __AVX512F__ -#pragma GCC push_options -#pragma GCC target("avx512f") -#define __DISABLE_AVX512F__ -#endif /* __AVX512F__ */ - -/* Internal data types for implementing the intrinsics. */ -typedef double __v8df __attribute__ ((__vector_size__ (64))); -typedef float __v16sf __attribute__ ((__vector_size__ (64))); -typedef long long __v8di __attribute__ ((__vector_size__ (64))); -typedef int __v16si __attribute__ ((__vector_size__ (64))); -typedef short __v32hi __attribute__ ((__vector_size__ (64))); -typedef char __v64qi __attribute__ ((__vector_size__ (64))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef float __m512 __attribute__ ((__vector_size__ (64), __may_alias__)); -typedef long long __m512i __attribute__ ((__vector_size__ (64), __may_alias__)); -typedef double __m512d __attribute__ ((__vector_size__ (64), __may_alias__)); - -typedef unsigned char __mmask8; -typedef unsigned short __mmask16; - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set_epi64 (long long __A, long long __B, long long __C, - long long __D, long long __E, long long __F, - long long __G, long long __H) -{ - return __extension__ (__m512i) (__v8di) - { __H, __G, __F, __E, __D, __C, __B, __A }; -} - -/* Create the vector [A B C D E F G H I J K L M N O P]. */ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set_epi32 (int __A, int __B, int __C, int __D, - int __E, int __F, int __G, int __H, - int __I, int __J, int __K, int __L, - int __M, int __N, int __O, int __P) -{ - return __extension__ (__m512i)(__v16si) - { __P, __O, __N, __M, __L, __K, __J, __I, - __H, __G, __F, __E, __D, __C, __B, __A }; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set_pd (double __A, double __B, double __C, double __D, - double __E, double __F, double __G, double __H) -{ - return __extension__ (__m512d) - { __H, __G, __F, __E, __D, __C, __B, __A }; -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set_ps (float __A, float __B, float __C, float __D, - float __E, float __F, float __G, float __H, - float __I, float __J, float __K, float __L, - float __M, float __N, float __O, float __P) -{ - return __extension__ (__m512) - { __P, __O, __N, __M, __L, __K, __J, __I, - __H, __G, __F, __E, __D, __C, __B, __A }; -} - -#define _mm512_setr_epi64(e0,e1,e2,e3,e4,e5,e6,e7) \ - _mm512_set_epi64(e7,e6,e5,e4,e3,e2,e1,e0) - -#define _mm512_setr_epi32(e0,e1,e2,e3,e4,e5,e6,e7, \ - e8,e9,e10,e11,e12,e13,e14,e15) \ - _mm512_set_epi32(e15,e14,e13,e12,e11,e10,e9,e8,e7,e6,e5,e4,e3,e2,e1,e0) - -#define _mm512_setr_pd(e0,e1,e2,e3,e4,e5,e6,e7) \ - _mm512_set_pd(e7,e6,e5,e4,e3,e2,e1,e0) - -#define _mm512_setr_ps(e0,e1,e2,e3,e4,e5,e6,e7,e8,e9,e10,e11,e12,e13,e14,e15) \ - _mm512_set_ps(e15,e14,e13,e12,e11,e10,e9,e8,e7,e6,e5,e4,e3,e2,e1,e0) - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_undefined_ps (void) -{ - __m512 __Y = __Y; - return __Y; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_undefined_pd (void) -{ - __m512d __Y = __Y; - return __Y; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_undefined_si512 (void) -{ - __m512i __Y = __Y; - return __Y; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_epi8 (char __A) -{ - return __extension__ (__m512i)(__v64qi) - { __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A }; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_epi16 (short __A) -{ - return __extension__ (__m512i)(__v32hi) - { __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A }; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_pd (double __A) -{ - return (__m512d) __builtin_ia32_broadcastsd512 (__extension__ - (__v2df) { __A, }, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_ps (float __A) -{ - return (__m512) __builtin_ia32_broadcastss512 (__extension__ - (__v4sf) { __A, }, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -/* Create the vector [A B C D A B C D A B C D A B C D]. */ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set4_epi32 (int __A, int __B, int __C, int __D) -{ - return __extension__ (__m512i)(__v16si) - { __D, __C, __B, __A, __D, __C, __B, __A, - __D, __C, __B, __A, __D, __C, __B, __A }; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set4_epi64 (long long __A, long long __B, long long __C, - long long __D) -{ - return __extension__ (__m512i) (__v8di) - { __D, __C, __B, __A, __D, __C, __B, __A }; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set4_pd (double __A, double __B, double __C, double __D) -{ - return __extension__ (__m512d) - { __D, __C, __B, __A, __D, __C, __B, __A }; -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set4_ps (float __A, float __B, float __C, float __D) -{ - return __extension__ (__m512) - { __D, __C, __B, __A, __D, __C, __B, __A, - __D, __C, __B, __A, __D, __C, __B, __A }; -} - -#define _mm512_setr4_epi64(e0,e1,e2,e3) \ - _mm512_set4_epi64(e3,e2,e1,e0) - -#define _mm512_setr4_epi32(e0,e1,e2,e3) \ - _mm512_set4_epi32(e3,e2,e1,e0) - -#define _mm512_setr4_pd(e0,e1,e2,e3) \ - _mm512_set4_pd(e3,e2,e1,e0) - -#define _mm512_setr4_ps(e0,e1,e2,e3) \ - _mm512_set4_ps(e3,e2,e1,e0) - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_setzero_ps (void) -{ - return __extension__ (__m512){ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, - 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 }; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_setzero_pd (void) -{ - return __extension__ (__m512d) { 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 }; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_setzero_epi32 (void) -{ - return __extension__ (__m512i)(__v8di){ 0, 0, 0, 0, 0, 0, 0, 0 }; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_setzero_si512 (void) -{ - return __extension__ (__m512i)(__v8di){ 0, 0, 0, 0, 0, 0, 0, 0 }; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mov_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_movapd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mov_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_movapd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mov_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movaps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mov_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movaps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_load_pd (void const *__P) -{ - return *(__m512d *) __P; -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_load_pd (__m512d __W, __mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_loadapd512_mask ((const __v8df *) __P, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_load_pd (__mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_loadapd512_mask ((const __v8df *) __P, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_store_pd (void *__P, __m512d __A) -{ - *(__m512d *) __P = __A; -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_store_pd (void *__P, __mmask8 __U, __m512d __A) -{ - __builtin_ia32_storeapd512_mask ((__v8df *) __P, (__v8df) __A, - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_load_ps (void const *__P) -{ - return *(__m512 *) __P; -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_load_ps (__m512 __W, __mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_loadaps512_mask ((const __v16sf *) __P, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_load_ps (__mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_loadaps512_mask ((const __v16sf *) __P, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_store_ps (void *__P, __m512 __A) -{ - *(__m512 *) __P = __A; -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_store_ps (void *__P, __mmask16 __U, __m512 __A) -{ - __builtin_ia32_storeaps512_mask ((__v16sf *) __P, (__v16sf) __A, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mov_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_movdqa64_512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mov_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_movdqa64_512_mask ((__v8di) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_load_epi64 (void const *__P) -{ - return *(__m512i *) __P; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_load_epi64 (__m512i __W, __mmask8 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_movdqa64load512_mask ((const __v8di *) __P, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_load_epi64 (__mmask8 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_movdqa64load512_mask ((const __v8di *) __P, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_store_epi64 (void *__P, __m512i __A) -{ - *(__m512i *) __P = __A; -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_store_epi64 (void *__P, __mmask8 __U, __m512i __A) -{ - __builtin_ia32_movdqa64store512_mask ((__v8di *) __P, (__v8di) __A, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mov_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_movdqa32_512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mov_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_movdqa32_512_mask ((__v16si) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_load_si512 (void const *__P) -{ - return *(__m512i *) __P; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_load_epi32 (void const *__P) -{ - return *(__m512i *) __P; -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_load_epi32 (__m512i __W, __mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_movdqa32load512_mask ((const __v16si *) __P, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_load_epi32 (__mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_movdqa32load512_mask ((const __v16si *) __P, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_store_si512 (void *__P, __m512i __A) -{ - *(__m512i *) __P = __A; -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_store_epi32 (void *__P, __m512i __A) -{ - *(__m512i *) __P = __A; -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_store_epi32 (void *__P, __mmask16 __U, __m512i __A) -{ - __builtin_ia32_movdqa32store512_mask ((__v16si *) __P, (__v16si) __A, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mullo_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmulld512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mullo_epi32 (__mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmulld512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mullo_epi32 (__m512i __W, __mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmulld512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sllv_epi32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sllv_epi32 (__m512i __W, __mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sllv_epi32 (__mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srav_epi32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srav_epi32 (__m512i __W, __mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srav_epi32 (__mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srlv_epi32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srlv_epi32 (__m512i __W, __mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srlv_epi32 (__mmask16 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv16si_mask ((__v16si) __X, - (__v16si) __Y, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sllv_epi64 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sllv_epi64 (__m512i __W, __mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sllv_epi64 (__mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psllv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srav_epi64 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srav_epi64 (__m512i __W, __mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srav_epi64 (__mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrav8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srlv_epi64 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srlv_epi64 (__m512i __W, __mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srlv_epi64 (__mmask8 __U, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_psrlv8di_mask ((__v8di) __X, - (__v8di) __Y, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_paddd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_epi32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuldq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_epi32 (__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuldq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_epi32 (__mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuldq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_psubd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_epu32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuludq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_epu32 (__m512i __W, __mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuludq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_epu32 (__mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_pmuludq512_mask ((__v16si) __X, - (__v16si) __Y, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_slli_epi64 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psllqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_slli_epi64 (__m512i __W, __mmask8 __U, __m512i __A, - unsigned int __B) -{ - return (__m512i) __builtin_ia32_psllqi512_mask ((__v8di) __A, __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_slli_epi64 (__mmask8 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psllqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} -#else -#define _mm512_slli_epi64(X, C) \ - ((__m512i) __builtin_ia32_psllqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_undefined_si512 (),\ - (__mmask8)-1)) - -#define _mm512_mask_slli_epi64(W, U, X, C) \ - ((__m512i) __builtin_ia32_psllqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_slli_epi64(U, X, C) \ - ((__m512i) __builtin_ia32_psllqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_setzero_si512 (),\ - (__mmask8)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sll_epi64 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psllq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sll_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psllq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sll_epi64 (__mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psllq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srli_epi64 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrlqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srli_epi64 (__m512i __W, __mmask8 __U, - __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrlqi512_mask ((__v8di) __A, __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srli_epi64 (__mmask8 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrlqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} -#else -#define _mm512_srli_epi64(X, C) \ - ((__m512i) __builtin_ia32_psrlqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_undefined_si512 (),\ - (__mmask8)-1)) - -#define _mm512_mask_srli_epi64(W, U, X, C) \ - ((__m512i) __builtin_ia32_psrlqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_srli_epi64(U, X, C) \ - ((__m512i) __builtin_ia32_psrlqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_setzero_si512 (),\ - (__mmask8)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srl_epi64 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrlq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srl_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrlq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srl_epi64 (__mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrlq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srai_epi64 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psraqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srai_epi64 (__m512i __W, __mmask8 __U, __m512i __A, - unsigned int __B) -{ - return (__m512i) __builtin_ia32_psraqi512_mask ((__v8di) __A, __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srai_epi64 (__mmask8 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psraqi512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} -#else -#define _mm512_srai_epi64(X, C) \ - ((__m512i) __builtin_ia32_psraqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_undefined_si512 (),\ - (__mmask8)-1)) - -#define _mm512_mask_srai_epi64(W, U, X, C) \ - ((__m512i) __builtin_ia32_psraqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_srai_epi64(U, X, C) \ - ((__m512i) __builtin_ia32_psraqi512_mask ((__v8di)(__m512i)(X), (int)(C),\ - (__v8di)(__m512i)_mm512_setzero_si512 (),\ - (__mmask8)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sra_epi64 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psraq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sra_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psraq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sra_epi64 (__mmask8 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psraq512_mask ((__v8di) __A, - (__v2di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_slli_epi32 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_pslldi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_slli_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - unsigned int __B) -{ - return (__m512i) __builtin_ia32_pslldi512_mask ((__v16si) __A, __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_slli_epi32 (__mmask16 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_pslldi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} -#else -#define _mm512_slli_epi32(X, C) \ - ((__m512i) __builtin_ia32_pslldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_slli_epi32(W, U, X, C) \ - ((__m512i) __builtin_ia32_pslldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_slli_epi32(U, X, C) \ - ((__m512i) __builtin_ia32_pslldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_setzero_si512 (),\ - (__mmask16)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sll_epi32 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_pslld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sll_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_pslld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sll_epi32 (__mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_pslld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srli_epi32 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrldi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srli_epi32 (__m512i __W, __mmask16 __U, - __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrldi512_mask ((__v16si) __A, __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srli_epi32 (__mmask16 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psrldi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} -#else -#define _mm512_srli_epi32(X, C) \ - ((__m512i) __builtin_ia32_psrldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_srli_epi32(W, U, X, C) \ - ((__m512i) __builtin_ia32_psrldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_srli_epi32(U, X, C) \ - ((__m512i) __builtin_ia32_psrldi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_setzero_si512 (),\ - (__mmask16)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srl_epi32 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srl_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srl_epi32 (__mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrld512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_srai_epi32 (__m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psradi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_srai_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - unsigned int __B) -{ - return (__m512i) __builtin_ia32_psradi512_mask ((__v16si) __A, __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_srai_epi32 (__mmask16 __U, __m512i __A, unsigned int __B) -{ - return (__m512i) __builtin_ia32_psradi512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} -#else -#define _mm512_srai_epi32(X, C) \ - ((__m512i) __builtin_ia32_psradi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_srai_epi32(W, U, X, C) \ - ((__m512i) __builtin_ia32_psradi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_srai_epi32(U, X, C) \ - ((__m512i) __builtin_ia32_psradi512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_setzero_si512 (),\ - (__mmask16)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sra_epi32 (__m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrad512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sra_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrad512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sra_epi32 (__mmask16 __U, __m512i __A, __m128i __B) -{ - return (__m512i) __builtin_ia32_psrad512_mask ((__v16si) __A, - (__v4si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_addsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_addss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_subsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_subss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -#else -#define _mm_add_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_addsd_round(A, B, C) - -#define _mm_add_round_ss(A, B, C) \ - (__m128)__builtin_ia32_addss_round(A, B, C) - -#define _mm_sub_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_subsd_round(A, B, C) - -#define _mm_sub_round_ss(A, B, C) \ - (__m128)__builtin_ia32_subss_round(A, B, C) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ternarylogic_epi64 (__m512i __A, __m512i __B, __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __C, imm, - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ternarylogic_epi64 (__m512i __A, __mmask8 __U, __m512i __B, - __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __C, imm, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_ternarylogic_epi64 (__mmask8 __U, __m512i __A, __m512i __B, - __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogq512_maskz ((__v8di) __A, - (__v8di) __B, - (__v8di) __C, - imm, (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ternarylogic_epi32 (__m512i __A, __m512i __B, __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __C, - imm, (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ternarylogic_epi32 (__m512i __A, __mmask16 __U, __m512i __B, - __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __C, - imm, (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_ternarylogic_epi32 (__mmask16 __U, __m512i __A, __m512i __B, - __m512i __C, const int imm) -{ - return (__m512i) __builtin_ia32_pternlogd512_maskz ((__v16si) __A, - (__v16si) __B, - (__v16si) __C, - imm, (__mmask16) __U); -} -#else -#define _mm512_ternarylogic_epi64(A, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogq512_mask ((__v8di)(__m512i)(A), \ - (__v8di)(__m512i)(B), (__v8di)(__m512i)(C), (int)(I), (__mmask8)-1)) -#define _mm512_mask_ternarylogic_epi64(A, U, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogq512_mask ((__v8di)(__m512i)(A), \ - (__v8di)(__m512i)(B), (__v8di)(__m512i)(C), (int)(I), (__mmask8)(U))) -#define _mm512_maskz_ternarylogic_epi64(U, A, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogq512_maskz ((__v8di)(__m512i)(A), \ - (__v8di)(__m512i)(B), (__v8di)(__m512i)(C), (int)(I), (__mmask8)(U))) -#define _mm512_ternarylogic_epi32(A, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogd512_mask ((__v16si)(__m512i)(A), \ - (__v16si)(__m512i)(B), (__v16si)(__m512i)(C), (int)(I), \ - (__mmask16)-1)) -#define _mm512_mask_ternarylogic_epi32(A, U, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogd512_mask ((__v16si)(__m512i)(A), \ - (__v16si)(__m512i)(B), (__v16si)(__m512i)(C), (int)(I), \ - (__mmask16)(U))) -#define _mm512_maskz_ternarylogic_epi32(U, A, B, C, I) \ - ((__m512i) __builtin_ia32_pternlogd512_maskz ((__v16si)(__m512i)(A), \ - (__v16si)(__m512i)(B), (__v16si)(__m512i)(C), (int)(I), \ - (__mmask16)(U))) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rcp14_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_rcp14pd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rcp14_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rcp14pd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rcp14_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rcp14pd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rcp14_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_rcp14ps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rcp14_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rcp14ps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rcp14_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rcp14ps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp14_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_rcp14sd ((__v2df) __B, - (__v2df) __A); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp14_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_rcp14ss ((__v4sf) __B, - (__v4sf) __A); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rsqrt14_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_rsqrt14pd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rsqrt14_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rsqrt14pd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rsqrt14_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rsqrt14pd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rsqrt14_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_rsqrt14ps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rsqrt14_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rsqrt14ps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rsqrt14_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rsqrt14ps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt14_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_rsqrt14sd ((__v2df) __B, - (__v2df) __A); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt14_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_rsqrt14ss ((__v4sf) __B, - (__v4sf) __A); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sqrt_round_pd (__m512d __A, const int __R) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sqrt_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sqrt_round_pd (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sqrt_round_ps (__m512 __A, const int __R) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sqrt_round_ps (__m512 __W, __mmask16 __U, __m512 __A, const int __R) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sqrt_round_ps (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_sqrtsd_round ((__v2df) __B, - (__v2df) __A, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_sqrtss_round ((__v4sf) __B, - (__v4sf) __A, - __R); -} -#else -#define _mm512_sqrt_round_pd(A, C) \ - (__m512d)__builtin_ia32_sqrtpd512_mask(A, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_sqrt_round_pd(W, U, A, C) \ - (__m512d)__builtin_ia32_sqrtpd512_mask(A, W, U, C) - -#define _mm512_maskz_sqrt_round_pd(U, A, C) \ - (__m512d)__builtin_ia32_sqrtpd512_mask(A, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_sqrt_round_ps(A, C) \ - (__m512)__builtin_ia32_sqrtps512_mask(A, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_sqrt_round_ps(W, U, A, C) \ - (__m512)__builtin_ia32_sqrtps512_mask(A, W, U, C) - -#define _mm512_maskz_sqrt_round_ps(U, A, C) \ - (__m512)__builtin_ia32_sqrtps512_mask(A, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm_sqrt_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_sqrtsd_round(A, B, C) - -#define _mm_sqrt_round_ss(A, B, C) \ - (__m128)__builtin_ia32_sqrtss_round(A, B, C) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi8_epi32 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbd512_mask ((__v16qi) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi8_epi32 (__m512i __W, __mmask16 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbd512_mask ((__v16qi) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi8_epi32 (__mmask16 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbd512_mask ((__v16qi) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi8_epi64 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbq512_mask ((__v16qi) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi8_epi64 (__m512i __W, __mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbq512_mask ((__v16qi) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi8_epi64 (__mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxbq512_mask ((__v16qi) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi16_epi32 (__m256i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwd512_mask ((__v16hi) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi16_epi32 (__m512i __W, __mmask16 __U, __m256i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwd512_mask ((__v16hi) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi16_epi32 (__mmask16 __U, __m256i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwd512_mask ((__v16hi) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi16_epi64 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwq512_mask ((__v8hi) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi16_epi64 (__m512i __W, __mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwq512_mask ((__v8hi) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi16_epi64 (__mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovsxwq512_mask ((__v8hi) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi32_epi64 (__m256i __X) -{ - return (__m512i) __builtin_ia32_pmovsxdq512_mask ((__v8si) __X, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_epi64 (__m512i __W, __mmask8 __U, __m256i __X) -{ - return (__m512i) __builtin_ia32_pmovsxdq512_mask ((__v8si) __X, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi32_epi64 (__mmask8 __U, __m256i __X) -{ - return (__m512i) __builtin_ia32_pmovsxdq512_mask ((__v8si) __X, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu8_epi32 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbd512_mask ((__v16qi) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu8_epi32 (__m512i __W, __mmask16 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbd512_mask ((__v16qi) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu8_epi32 (__mmask16 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbd512_mask ((__v16qi) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu8_epi64 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbq512_mask ((__v16qi) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu8_epi64 (__m512i __W, __mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbq512_mask ((__v16qi) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu8_epi64 (__mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxbq512_mask ((__v16qi) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu16_epi32 (__m256i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwd512_mask ((__v16hi) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu16_epi32 (__m512i __W, __mmask16 __U, __m256i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwd512_mask ((__v16hi) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu16_epi32 (__mmask16 __U, __m256i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwd512_mask ((__v16hi) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu16_epi64 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwq512_mask ((__v8hi) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu16_epi64 (__m512i __W, __mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwq512_mask ((__v8hi) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu16_epi64 (__mmask8 __U, __m128i __A) -{ - return (__m512i) __builtin_ia32_pmovzxwq512_mask ((__v8hi) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu32_epi64 (__m256i __X) -{ - return (__m512i) __builtin_ia32_pmovzxdq512_mask ((__v8si) __X, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu32_epi64 (__m512i __W, __mmask8 __U, __m256i __X) -{ - return (__m512i) __builtin_ia32_pmovzxdq512_mask ((__v8si) __X, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu32_epi64 (__mmask8 __U, __m256i __X) -{ - return (__m512i) __builtin_ia32_pmovzxdq512_mask ((__v8si) __X, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} -#else -#define _mm512_add_round_pd(A, B, C) \ - (__m512d)__builtin_ia32_addpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_add_round_pd(W, U, A, B, C) \ - (__m512d)__builtin_ia32_addpd512_mask(A, B, W, U, C) - -#define _mm512_maskz_add_round_pd(U, A, B, C) \ - (__m512d)__builtin_ia32_addpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_add_round_ps(A, B, C) \ - (__m512)__builtin_ia32_addps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_add_round_ps(W, U, A, B, C) \ - (__m512)__builtin_ia32_addps512_mask(A, B, W, U, C) - -#define _mm512_maskz_add_round_ps(U, A, B, C) \ - (__m512)__builtin_ia32_addps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm512_sub_round_pd(A, B, C) \ - (__m512d)__builtin_ia32_subpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_sub_round_pd(W, U, A, B, C) \ - (__m512d)__builtin_ia32_subpd512_mask(A, B, W, U, C) - -#define _mm512_maskz_sub_round_pd(U, A, B, C) \ - (__m512d)__builtin_ia32_subpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_sub_round_ps(A, B, C) \ - (__m512)__builtin_ia32_subps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_sub_round_ps(W, U, A, B, C) \ - (__m512)__builtin_ia32_subps512_mask(A, B, W, U, C) - -#define _mm512_maskz_sub_round_ps(U, A, B, C) \ - (__m512)__builtin_ia32_subps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, C) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_div_round_pd (__m512d __M, __m512d __V, const int __R) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_div_round_pd (__m512d __W, __mmask8 __U, __m512d __M, - __m512d __V, const int __R) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_div_round_pd (__mmask8 __U, __m512d __M, __m512d __V, - const int __R) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_div_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_div_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_div_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_mulsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_mulss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_divsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_divss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -#else -#define _mm512_mul_round_pd(A, B, C) \ - (__m512d)__builtin_ia32_mulpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_mul_round_pd(W, U, A, B, C) \ - (__m512d)__builtin_ia32_mulpd512_mask(A, B, W, U, C) - -#define _mm512_maskz_mul_round_pd(U, A, B, C) \ - (__m512d)__builtin_ia32_mulpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_mul_round_ps(A, B, C) \ - (__m512)__builtin_ia32_mulps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_mul_round_ps(W, U, A, B, C) \ - (__m512)__builtin_ia32_mulps512_mask(A, B, W, U, C) - -#define _mm512_maskz_mul_round_ps(U, A, B, C) \ - (__m512)__builtin_ia32_mulps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm512_div_round_pd(A, B, C) \ - (__m512d)__builtin_ia32_divpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_div_round_pd(W, U, A, B, C) \ - (__m512d)__builtin_ia32_divpd512_mask(A, B, W, U, C) - -#define _mm512_maskz_div_round_pd(U, A, B, C) \ - (__m512d)__builtin_ia32_divpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_div_round_ps(A, B, C) \ - (__m512)__builtin_ia32_divps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_div_round_ps(W, U, A, B, C) \ - (__m512)__builtin_ia32_divps512_mask(A, B, W, U, C) - -#define _mm512_maskz_div_round_ps(U, A, B, C) \ - (__m512)__builtin_ia32_divps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm_mul_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_mulsd_round(A, B, C) - -#define _mm_mul_round_ss(A, B, C) \ - (__m128)__builtin_ia32_mulss_round(A, B, C) - -#define _mm_div_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_divsd_round(A, B, C) - -#define _mm_div_round_ss(A, B, C) \ - (__m128)__builtin_ia32_divss_round(A, B, C) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_round_ps (__mmask16 __U, __m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} -#else -#define _mm512_max_round_pd(A, B, R) \ - (__m512d)__builtin_ia32_maxpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, R) - -#define _mm512_mask_max_round_pd(W, U, A, B, R) \ - (__m512d)__builtin_ia32_maxpd512_mask(A, B, W, U, R) - -#define _mm512_maskz_max_round_pd(U, A, B, R) \ - (__m512d)__builtin_ia32_maxpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, R) - -#define _mm512_max_round_ps(A, B, R) \ - (__m512)__builtin_ia32_maxps512_mask(A, B, (__v16sf)_mm512_undefined_pd(), -1, R) - -#define _mm512_mask_max_round_ps(W, U, A, B, R) \ - (__m512)__builtin_ia32_maxps512_mask(A, B, W, U, R) - -#define _mm512_maskz_max_round_ps(U, A, B, R) \ - (__m512)__builtin_ia32_maxps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, R) - -#define _mm512_min_round_pd(A, B, R) \ - (__m512d)__builtin_ia32_minpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, R) - -#define _mm512_mask_min_round_pd(W, U, A, B, R) \ - (__m512d)__builtin_ia32_minpd512_mask(A, B, W, U, R) - -#define _mm512_maskz_min_round_pd(U, A, B, R) \ - (__m512d)__builtin_ia32_minpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, R) - -#define _mm512_min_round_ps(A, B, R) \ - (__m512)__builtin_ia32_minps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, R) - -#define _mm512_mask_min_round_ps(W, U, A, B, R) \ - (__m512)__builtin_ia32_minps512_mask(A, B, W, U, R) - -#define _mm512_maskz_min_round_ps(U, A, B, R) \ - (__m512)__builtin_ia32_minps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, R) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_scalef_round_pd (__m512d __A, __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_scalef_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __R) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_scalef_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - const int __R) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_scalef_round_ps (__m512 __A, __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_scalef_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __R) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_scalef_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - const int __R) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_scalef_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_scalefsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_scalef_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_scalefss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} -#else -#define _mm512_scalef_round_pd(A, B, C) \ - (__m512d)__builtin_ia32_scalefpd512_mask(A, B, (__v8df)_mm512_undefined_pd(), -1, C) - -#define _mm512_mask_scalef_round_pd(W, U, A, B, C) \ - (__m512d)__builtin_ia32_scalefpd512_mask(A, B, W, U, C) - -#define _mm512_maskz_scalef_round_pd(U, A, B, C) \ - (__m512d)__builtin_ia32_scalefpd512_mask(A, B, (__v8df)_mm512_setzero_pd(), U, C) - -#define _mm512_scalef_round_ps(A, B, C) \ - (__m512)__builtin_ia32_scalefps512_mask(A, B, (__v16sf)_mm512_undefined_ps(), -1, C) - -#define _mm512_mask_scalef_round_ps(W, U, A, B, C) \ - (__m512)__builtin_ia32_scalefps512_mask(A, B, W, U, C) - -#define _mm512_maskz_scalef_round_ps(U, A, B, C) \ - (__m512)__builtin_ia32_scalefps512_mask(A, B, (__v16sf)_mm512_setzero_ps(), U, C) - -#define _mm_scalef_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_scalefsd_round(A, B, C) - -#define _mm_scalef_round_ss(A, B, C) \ - (__m128)__builtin_ia32_scalefss_round(A, B, C) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmadd_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmadd_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmadd_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmadd_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmadd_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmadd_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmadd_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmadd_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsub_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsub_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsub_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfmsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsub_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsub_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsub_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsub_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfmsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsub_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmaddsub_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmaddsub_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmaddsub_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmaddsub_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmaddsub_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmaddsub_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmaddsub_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmaddsub_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsubadd_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsubadd_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsubadd_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfmsubaddpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsubadd_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_maskz ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsubadd_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsubadd_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsubadd_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfmsubaddps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsubadd_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_maskz ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmadd_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmadd_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfnmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmadd_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask3 (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmadd_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmadd_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmadd_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfnmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmadd_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask3 (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmadd_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmsub_round_pd (__m512d __A, __m512d __B, __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask (-(__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmsub_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfnmsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmsub_round_pd (__m512d __A, __m512d __B, __m512d __C, - __mmask8 __U, const int __R) -{ - return (__m512d) __builtin_ia32_vfnmsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmsub_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512d __C, const int __R) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz (-(__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmsub_round_ps (__m512 __A, __m512 __B, __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask (-(__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmsub_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfnmsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmsub_round_ps (__m512 __A, __m512 __B, __m512 __C, - __mmask16 __U, const int __R) -{ - return (__m512) __builtin_ia32_vfnmsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmsub_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512 __C, const int __R) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz (-(__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, __R); -} -#else -#define _mm512_fmadd_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(A, B, C, -1, R) - -#define _mm512_mask_fmadd_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(A, B, C, U, R) - -#define _mm512_mask3_fmadd_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmadd_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_maskz(A, B, C, U, R) - -#define _mm512_fmadd_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(A, B, C, -1, R) - -#define _mm512_mask_fmadd_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(A, B, C, U, R) - -#define _mm512_mask3_fmadd_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmadd_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_maskz(A, B, C, U, R) - -#define _mm512_fmsub_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(A, B, -(C), -1, R) - -#define _mm512_mask_fmsub_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(A, B, -(C), U, R) - -#define _mm512_mask3_fmsub_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfmsubpd512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmsub_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_maskz(A, B, -(C), U, R) - -#define _mm512_fmsub_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(A, B, -(C), -1, R) - -#define _mm512_mask_fmsub_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(A, B, -(C), U, R) - -#define _mm512_mask3_fmsub_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfmsubps512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmsub_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_maskz(A, B, -(C), U, R) - -#define _mm512_fmaddsub_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_mask(A, B, C, -1, R) - -#define _mm512_mask_fmaddsub_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(A, B, C, U, R) - -#define _mm512_mask3_fmaddsub_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmaddsub_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_maskz(A, B, C, U, R) - -#define _mm512_fmaddsub_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_mask(A, B, C, -1, R) - -#define _mm512_mask_fmaddsub_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_mask(A, B, C, U, R) - -#define _mm512_mask3_fmaddsub_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmaddsub_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_maskz(A, B, C, U, R) - -#define _mm512_fmsubadd_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_mask(A, B, -(C), -1, R) - -#define _mm512_mask_fmsubadd_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_mask(A, B, -(C), U, R) - -#define _mm512_mask3_fmsubadd_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfmsubaddpd512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmsubadd_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddsubpd512_maskz(A, B, -(C), U, R) - -#define _mm512_fmsubadd_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_mask(A, B, -(C), -1, R) - -#define _mm512_mask_fmsubadd_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_mask(A, B, -(C), U, R) - -#define _mm512_mask3_fmsubadd_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfmsubaddps512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fmsubadd_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddsubps512_maskz(A, B, -(C), U, R) - -#define _mm512_fnmadd_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(-(A), B, C, -1, R) - -#define _mm512_mask_fnmadd_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfnmaddpd512_mask(-(A), B, C, U, R) - -#define _mm512_mask3_fnmadd_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask3(-(A), B, C, U, R) - -#define _mm512_maskz_fnmadd_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_maskz(-(A), B, C, U, R) - -#define _mm512_fnmadd_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(-(A), B, C, -1, R) - -#define _mm512_mask_fnmadd_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfnmaddps512_mask(-(A), B, C, U, R) - -#define _mm512_mask3_fnmadd_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask3(-(A), B, C, U, R) - -#define _mm512_maskz_fnmadd_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_maskz(-(A), B, C, U, R) - -#define _mm512_fnmsub_round_pd(A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_mask(-(A), B, -(C), -1, R) - -#define _mm512_mask_fnmsub_round_pd(A, U, B, C, R) \ - (__m512d)__builtin_ia32_vfnmsubpd512_mask(A, B, C, U, R) - -#define _mm512_mask3_fnmsub_round_pd(A, B, C, U, R) \ - (__m512d)__builtin_ia32_vfnmsubpd512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fnmsub_round_pd(U, A, B, C, R) \ - (__m512d)__builtin_ia32_vfmaddpd512_maskz(-(A), B, -(C), U, R) - -#define _mm512_fnmsub_round_ps(A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_mask(-(A), B, -(C), -1, R) - -#define _mm512_mask_fnmsub_round_ps(A, U, B, C, R) \ - (__m512)__builtin_ia32_vfnmsubps512_mask(A, B, C, U, R) - -#define _mm512_mask3_fnmsub_round_ps(A, B, C, U, R) \ - (__m512)__builtin_ia32_vfnmsubps512_mask3(A, B, C, U, R) - -#define _mm512_maskz_fnmsub_round_ps(U, A, B, C, R) \ - (__m512)__builtin_ia32_vfmaddps512_maskz(-(A), B, -(C), U, R) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_abs_epi64 (__m512i __A) -{ - return (__m512i) __builtin_ia32_pabsq512_mask ((__v8di) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_abs_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_pabsq512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_abs_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_pabsq512_mask ((__v8di) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_abs_epi32 (__m512i __A) -{ - return (__m512i) __builtin_ia32_pabsd512_mask ((__v16si) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_abs_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_pabsd512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_abs_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_pabsd512_mask ((__v16si) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastss_ps (__m128 __A) -{ - return (__m512) __builtin_ia32_broadcastss512 ((__v4sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcastss_ps (__m512 __O, __mmask16 __M, __m128 __A) -{ - return (__m512) __builtin_ia32_broadcastss512 ((__v4sf) __A, - (__v16sf) __O, __M); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcastss_ps (__mmask16 __M, __m128 __A) -{ - return (__m512) __builtin_ia32_broadcastss512 ((__v4sf) __A, - (__v16sf) - _mm512_setzero_ps (), - __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastsd_pd (__m128d __A) -{ - return (__m512d) __builtin_ia32_broadcastsd512 ((__v2df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcastsd_pd (__m512d __O, __mmask8 __M, __m128d __A) -{ - return (__m512d) __builtin_ia32_broadcastsd512 ((__v2df) __A, - (__v8df) __O, __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcastsd_pd (__mmask8 __M, __m128d __A) -{ - return (__m512d) __builtin_ia32_broadcastsd512 ((__v2df) __A, - (__v8df) - _mm512_setzero_pd (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastd_epi32 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastd512 ((__v4si) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcastd_epi32 (__m512i __O, __mmask16 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastd512 ((__v4si) __A, - (__v16si) __O, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcastd_epi32 (__mmask16 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastd512 ((__v4si) __A, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_epi32 (int __A) -{ - return (__m512i) __builtin_ia32_pbroadcastd512_gpr_mask (__A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16)(-1)); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_set1_epi32 (__m512i __O, __mmask16 __M, int __A) -{ - return (__m512i) __builtin_ia32_pbroadcastd512_gpr_mask (__A, (__v16si) __O, - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_set1_epi32 (__mmask16 __M, int __A) -{ - return (__m512i) - __builtin_ia32_pbroadcastd512_gpr_mask (__A, - (__v16si) _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcastq_epi64 (__m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastq512 ((__v2di) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcastq_epi64 (__m512i __O, __mmask8 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastq512 ((__v2di) __A, - (__v8di) __O, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcastq_epi64 (__mmask8 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_pbroadcastq512 ((__v2di) __A, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_set1_epi64 (long long __A) -{ -#ifdef TARGET_64BIT - return (__m512i) __builtin_ia32_pbroadcastq512_gpr_mask (__A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8)(-1)); -#else - return (__m512i) __builtin_ia32_pbroadcastq512_mem_mask (__A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8)(-1)); -#endif -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_set1_epi64 (__m512i __O, __mmask8 __M, long long __A) -{ -#ifdef TARGET_64BIT - return (__m512i) __builtin_ia32_pbroadcastq512_gpr_mask (__A, (__v8di) __O, - __M); -#else - return (__m512i) __builtin_ia32_pbroadcastq512_mem_mask (__A, (__v8di) __O, - __M); -#endif -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_set1_epi64 (__mmask8 __M, long long __A) -{ -#ifdef TARGET_64BIT - return (__m512i) - __builtin_ia32_pbroadcastq512_gpr_mask (__A, - (__v8di) _mm512_setzero_si512 (), - __M); -#else - return (__m512i) - __builtin_ia32_pbroadcastq512_mem_mask (__A, - (__v8di) _mm512_setzero_si512 (), - __M); -#endif -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcast_f32x4 (__m128 __A) -{ - return (__m512) __builtin_ia32_broadcastf32x4_512 ((__v4sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcast_f32x4 (__m512 __O, __mmask16 __M, __m128 __A) -{ - return (__m512) __builtin_ia32_broadcastf32x4_512 ((__v4sf) __A, - (__v16sf) __O, - __M); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcast_f32x4 (__mmask16 __M, __m128 __A) -{ - return (__m512) __builtin_ia32_broadcastf32x4_512 ((__v4sf) __A, - (__v16sf) - _mm512_setzero_ps (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcast_i32x4 (__m128i __A) -{ - return (__m512i) __builtin_ia32_broadcasti32x4_512 ((__v4si) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcast_i32x4 (__m512i __O, __mmask16 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_broadcasti32x4_512 ((__v4si) __A, - (__v16si) __O, - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcast_i32x4 (__mmask16 __M, __m128i __A) -{ - return (__m512i) __builtin_ia32_broadcasti32x4_512 ((__v4si) __A, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcast_f64x4 (__m256d __A) -{ - return (__m512d) __builtin_ia32_broadcastf64x4_512 ((__v4df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcast_f64x4 (__m512d __O, __mmask8 __M, __m256d __A) -{ - return (__m512d) __builtin_ia32_broadcastf64x4_512 ((__v4df) __A, - (__v8df) __O, - __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcast_f64x4 (__mmask8 __M, __m256d __A) -{ - return (__m512d) __builtin_ia32_broadcastf64x4_512 ((__v4df) __A, - (__v8df) - _mm512_setzero_pd (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_broadcast_i64x4 (__m256i __A) -{ - return (__m512i) __builtin_ia32_broadcasti64x4_512 ((__v4di) __A, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_broadcast_i64x4 (__m512i __O, __mmask8 __M, __m256i __A) -{ - return (__m512i) __builtin_ia32_broadcasti64x4_512 ((__v4di) __A, - (__v8di) __O, - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_broadcast_i64x4 (__mmask8 __M, __m256i __A) -{ - return (__m512i) __builtin_ia32_broadcasti64x4_512 ((__v4di) __A, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -typedef enum -{ - _MM_PERM_AAAA = 0x00, _MM_PERM_AAAB = 0x01, _MM_PERM_AAAC = 0x02, - _MM_PERM_AAAD = 0x03, _MM_PERM_AABA = 0x04, _MM_PERM_AABB = 0x05, - _MM_PERM_AABC = 0x06, _MM_PERM_AABD = 0x07, _MM_PERM_AACA = 0x08, - _MM_PERM_AACB = 0x09, _MM_PERM_AACC = 0x0A, _MM_PERM_AACD = 0x0B, - _MM_PERM_AADA = 0x0C, _MM_PERM_AADB = 0x0D, _MM_PERM_AADC = 0x0E, - _MM_PERM_AADD = 0x0F, _MM_PERM_ABAA = 0x10, _MM_PERM_ABAB = 0x11, - _MM_PERM_ABAC = 0x12, _MM_PERM_ABAD = 0x13, _MM_PERM_ABBA = 0x14, - _MM_PERM_ABBB = 0x15, _MM_PERM_ABBC = 0x16, _MM_PERM_ABBD = 0x17, - _MM_PERM_ABCA = 0x18, _MM_PERM_ABCB = 0x19, _MM_PERM_ABCC = 0x1A, - _MM_PERM_ABCD = 0x1B, _MM_PERM_ABDA = 0x1C, _MM_PERM_ABDB = 0x1D, - _MM_PERM_ABDC = 0x1E, _MM_PERM_ABDD = 0x1F, _MM_PERM_ACAA = 0x20, - _MM_PERM_ACAB = 0x21, _MM_PERM_ACAC = 0x22, _MM_PERM_ACAD = 0x23, - _MM_PERM_ACBA = 0x24, _MM_PERM_ACBB = 0x25, _MM_PERM_ACBC = 0x26, - _MM_PERM_ACBD = 0x27, _MM_PERM_ACCA = 0x28, _MM_PERM_ACCB = 0x29, - _MM_PERM_ACCC = 0x2A, _MM_PERM_ACCD = 0x2B, _MM_PERM_ACDA = 0x2C, - _MM_PERM_ACDB = 0x2D, _MM_PERM_ACDC = 0x2E, _MM_PERM_ACDD = 0x2F, - _MM_PERM_ADAA = 0x30, _MM_PERM_ADAB = 0x31, _MM_PERM_ADAC = 0x32, - _MM_PERM_ADAD = 0x33, _MM_PERM_ADBA = 0x34, _MM_PERM_ADBB = 0x35, - _MM_PERM_ADBC = 0x36, _MM_PERM_ADBD = 0x37, _MM_PERM_ADCA = 0x38, - _MM_PERM_ADCB = 0x39, _MM_PERM_ADCC = 0x3A, _MM_PERM_ADCD = 0x3B, - _MM_PERM_ADDA = 0x3C, _MM_PERM_ADDB = 0x3D, _MM_PERM_ADDC = 0x3E, - _MM_PERM_ADDD = 0x3F, _MM_PERM_BAAA = 0x40, _MM_PERM_BAAB = 0x41, - _MM_PERM_BAAC = 0x42, _MM_PERM_BAAD = 0x43, _MM_PERM_BABA = 0x44, - _MM_PERM_BABB = 0x45, _MM_PERM_BABC = 0x46, _MM_PERM_BABD = 0x47, - _MM_PERM_BACA = 0x48, _MM_PERM_BACB = 0x49, _MM_PERM_BACC = 0x4A, - _MM_PERM_BACD = 0x4B, _MM_PERM_BADA = 0x4C, _MM_PERM_BADB = 0x4D, - _MM_PERM_BADC = 0x4E, _MM_PERM_BADD = 0x4F, _MM_PERM_BBAA = 0x50, - _MM_PERM_BBAB = 0x51, _MM_PERM_BBAC = 0x52, _MM_PERM_BBAD = 0x53, - _MM_PERM_BBBA = 0x54, _MM_PERM_BBBB = 0x55, _MM_PERM_BBBC = 0x56, - _MM_PERM_BBBD = 0x57, _MM_PERM_BBCA = 0x58, _MM_PERM_BBCB = 0x59, - _MM_PERM_BBCC = 0x5A, _MM_PERM_BBCD = 0x5B, _MM_PERM_BBDA = 0x5C, - _MM_PERM_BBDB = 0x5D, _MM_PERM_BBDC = 0x5E, _MM_PERM_BBDD = 0x5F, - _MM_PERM_BCAA = 0x60, _MM_PERM_BCAB = 0x61, _MM_PERM_BCAC = 0x62, - _MM_PERM_BCAD = 0x63, _MM_PERM_BCBA = 0x64, _MM_PERM_BCBB = 0x65, - _MM_PERM_BCBC = 0x66, _MM_PERM_BCBD = 0x67, _MM_PERM_BCCA = 0x68, - _MM_PERM_BCCB = 0x69, _MM_PERM_BCCC = 0x6A, _MM_PERM_BCCD = 0x6B, - _MM_PERM_BCDA = 0x6C, _MM_PERM_BCDB = 0x6D, _MM_PERM_BCDC = 0x6E, - _MM_PERM_BCDD = 0x6F, _MM_PERM_BDAA = 0x70, _MM_PERM_BDAB = 0x71, - _MM_PERM_BDAC = 0x72, _MM_PERM_BDAD = 0x73, _MM_PERM_BDBA = 0x74, - _MM_PERM_BDBB = 0x75, _MM_PERM_BDBC = 0x76, _MM_PERM_BDBD = 0x77, - _MM_PERM_BDCA = 0x78, _MM_PERM_BDCB = 0x79, _MM_PERM_BDCC = 0x7A, - _MM_PERM_BDCD = 0x7B, _MM_PERM_BDDA = 0x7C, _MM_PERM_BDDB = 0x7D, - _MM_PERM_BDDC = 0x7E, _MM_PERM_BDDD = 0x7F, _MM_PERM_CAAA = 0x80, - _MM_PERM_CAAB = 0x81, _MM_PERM_CAAC = 0x82, _MM_PERM_CAAD = 0x83, - _MM_PERM_CABA = 0x84, _MM_PERM_CABB = 0x85, _MM_PERM_CABC = 0x86, - _MM_PERM_CABD = 0x87, _MM_PERM_CACA = 0x88, _MM_PERM_CACB = 0x89, - _MM_PERM_CACC = 0x8A, _MM_PERM_CACD = 0x8B, _MM_PERM_CADA = 0x8C, - _MM_PERM_CADB = 0x8D, _MM_PERM_CADC = 0x8E, _MM_PERM_CADD = 0x8F, - _MM_PERM_CBAA = 0x90, _MM_PERM_CBAB = 0x91, _MM_PERM_CBAC = 0x92, - _MM_PERM_CBAD = 0x93, _MM_PERM_CBBA = 0x94, _MM_PERM_CBBB = 0x95, - _MM_PERM_CBBC = 0x96, _MM_PERM_CBBD = 0x97, _MM_PERM_CBCA = 0x98, - _MM_PERM_CBCB = 0x99, _MM_PERM_CBCC = 0x9A, _MM_PERM_CBCD = 0x9B, - _MM_PERM_CBDA = 0x9C, _MM_PERM_CBDB = 0x9D, _MM_PERM_CBDC = 0x9E, - _MM_PERM_CBDD = 0x9F, _MM_PERM_CCAA = 0xA0, _MM_PERM_CCAB = 0xA1, - _MM_PERM_CCAC = 0xA2, _MM_PERM_CCAD = 0xA3, _MM_PERM_CCBA = 0xA4, - _MM_PERM_CCBB = 0xA5, _MM_PERM_CCBC = 0xA6, _MM_PERM_CCBD = 0xA7, - _MM_PERM_CCCA = 0xA8, _MM_PERM_CCCB = 0xA9, _MM_PERM_CCCC = 0xAA, - _MM_PERM_CCCD = 0xAB, _MM_PERM_CCDA = 0xAC, _MM_PERM_CCDB = 0xAD, - _MM_PERM_CCDC = 0xAE, _MM_PERM_CCDD = 0xAF, _MM_PERM_CDAA = 0xB0, - _MM_PERM_CDAB = 0xB1, _MM_PERM_CDAC = 0xB2, _MM_PERM_CDAD = 0xB3, - _MM_PERM_CDBA = 0xB4, _MM_PERM_CDBB = 0xB5, _MM_PERM_CDBC = 0xB6, - _MM_PERM_CDBD = 0xB7, _MM_PERM_CDCA = 0xB8, _MM_PERM_CDCB = 0xB9, - _MM_PERM_CDCC = 0xBA, _MM_PERM_CDCD = 0xBB, _MM_PERM_CDDA = 0xBC, - _MM_PERM_CDDB = 0xBD, _MM_PERM_CDDC = 0xBE, _MM_PERM_CDDD = 0xBF, - _MM_PERM_DAAA = 0xC0, _MM_PERM_DAAB = 0xC1, _MM_PERM_DAAC = 0xC2, - _MM_PERM_DAAD = 0xC3, _MM_PERM_DABA = 0xC4, _MM_PERM_DABB = 0xC5, - _MM_PERM_DABC = 0xC6, _MM_PERM_DABD = 0xC7, _MM_PERM_DACA = 0xC8, - _MM_PERM_DACB = 0xC9, _MM_PERM_DACC = 0xCA, _MM_PERM_DACD = 0xCB, - _MM_PERM_DADA = 0xCC, _MM_PERM_DADB = 0xCD, _MM_PERM_DADC = 0xCE, - _MM_PERM_DADD = 0xCF, _MM_PERM_DBAA = 0xD0, _MM_PERM_DBAB = 0xD1, - _MM_PERM_DBAC = 0xD2, _MM_PERM_DBAD = 0xD3, _MM_PERM_DBBA = 0xD4, - _MM_PERM_DBBB = 0xD5, _MM_PERM_DBBC = 0xD6, _MM_PERM_DBBD = 0xD7, - _MM_PERM_DBCA = 0xD8, _MM_PERM_DBCB = 0xD9, _MM_PERM_DBCC = 0xDA, - _MM_PERM_DBCD = 0xDB, _MM_PERM_DBDA = 0xDC, _MM_PERM_DBDB = 0xDD, - _MM_PERM_DBDC = 0xDE, _MM_PERM_DBDD = 0xDF, _MM_PERM_DCAA = 0xE0, - _MM_PERM_DCAB = 0xE1, _MM_PERM_DCAC = 0xE2, _MM_PERM_DCAD = 0xE3, - _MM_PERM_DCBA = 0xE4, _MM_PERM_DCBB = 0xE5, _MM_PERM_DCBC = 0xE6, - _MM_PERM_DCBD = 0xE7, _MM_PERM_DCCA = 0xE8, _MM_PERM_DCCB = 0xE9, - _MM_PERM_DCCC = 0xEA, _MM_PERM_DCCD = 0xEB, _MM_PERM_DCDA = 0xEC, - _MM_PERM_DCDB = 0xED, _MM_PERM_DCDC = 0xEE, _MM_PERM_DCDD = 0xEF, - _MM_PERM_DDAA = 0xF0, _MM_PERM_DDAB = 0xF1, _MM_PERM_DDAC = 0xF2, - _MM_PERM_DDAD = 0xF3, _MM_PERM_DDBA = 0xF4, _MM_PERM_DDBB = 0xF5, - _MM_PERM_DDBC = 0xF6, _MM_PERM_DDBD = 0xF7, _MM_PERM_DDCA = 0xF8, - _MM_PERM_DDCB = 0xF9, _MM_PERM_DDCC = 0xFA, _MM_PERM_DDCD = 0xFB, - _MM_PERM_DDDA = 0xFC, _MM_PERM_DDDB = 0xFD, _MM_PERM_DDDC = 0xFE, - _MM_PERM_DDDD = 0xFF -} _MM_PERM_ENUM; - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_epi32 (__m512i __A, _MM_PERM_ENUM __mask) -{ - return (__m512i) __builtin_ia32_pshufd512_mask ((__v16si) __A, - __mask, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - _MM_PERM_ENUM __mask) -{ - return (__m512i) __builtin_ia32_pshufd512_mask ((__v16si) __A, - __mask, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_epi32 (__mmask16 __U, __m512i __A, _MM_PERM_ENUM __mask) -{ - return (__m512i) __builtin_ia32_pshufd512_mask ((__v16si) __A, - __mask, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_i64x2 (__m512i __A, __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_i64x2 (__m512i __W, __mmask8 __U, __m512i __A, - __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_i64x2 (__mmask8 __U, __m512i __A, __m512i __B, - const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_i32x4 (__m512i __A, __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si) __A, - (__v16si) __B, - __imm, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_i32x4 (__m512i __W, __mmask16 __U, __m512i __A, - __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si) __A, - (__v16si) __B, - __imm, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_i32x4 (__mmask16 __U, __m512i __A, __m512i __B, - const int __imm) -{ - return (__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si) __A, - (__v16si) __B, - __imm, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_f64x2 (__m512d __A, __m512d __B, const int __imm) -{ - return (__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df) __A, - (__v8df) __B, __imm, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_f64x2 (__m512d __W, __mmask8 __U, __m512d __A, - __m512d __B, const int __imm) -{ - return (__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df) __A, - (__v8df) __B, __imm, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_f64x2 (__mmask8 __U, __m512d __A, __m512d __B, - const int __imm) -{ - return (__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df) __A, - (__v8df) __B, __imm, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_f32x4 (__m512 __A, __m512 __B, const int __imm) -{ - return (__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf) __A, - (__v16sf) __B, __imm, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_f32x4 (__m512 __W, __mmask16 __U, __m512 __A, - __m512 __B, const int __imm) -{ - return (__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf) __A, - (__v16sf) __B, __imm, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_f32x4 (__mmask16 __U, __m512 __A, __m512 __B, - const int __imm) -{ - return (__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf) __A, - (__v16sf) __B, __imm, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -#else -#define _mm512_shuffle_epi32(X, C) \ - ((__m512i) __builtin_ia32_pshufd512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_shuffle_epi32(W, U, X, C) \ - ((__m512i) __builtin_ia32_pshufd512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_shuffle_epi32(U, X, C) \ - ((__m512i) __builtin_ia32_pshufd512_mask ((__v16si)(__m512i)(X), (int)(C),\ - (__v16si)(__m512i)_mm512_setzero_si512 (),\ - (__mmask16)(U))) - -#define _mm512_shuffle_i64x2(X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C),\ - (__v8di)(__m512i)_mm512_undefined_si512 (),\ - (__mmask8)-1)) - -#define _mm512_mask_shuffle_i64x2(W, U, X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C),\ - (__v8di)(__m512i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_shuffle_i64x2(U, X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i64x2_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C),\ - (__v8di)(__m512i)_mm512_setzero_si512 (),\ - (__mmask8)(U))) - -#define _mm512_shuffle_i32x4(X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C),\ - (__v16si)(__m512i)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_shuffle_i32x4(W, U, X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C),\ - (__v16si)(__m512i)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_shuffle_i32x4(U, X, Y, C) \ - ((__m512i) __builtin_ia32_shuf_i32x4_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C),\ - (__v16si)(__m512i)_mm512_setzero_si512 (),\ - (__mmask16)(U))) - -#define _mm512_shuffle_f64x2(X, Y, C) \ - ((__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)_mm512_undefined_pd(),\ - (__mmask8)-1)) - -#define _mm512_mask_shuffle_f64x2(W, U, X, Y, C) \ - ((__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_shuffle_f64x2(U, X, Y, C) \ - ((__m512d) __builtin_ia32_shuf_f64x2_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)_mm512_setzero_pd(),\ - (__mmask8)(U))) - -#define _mm512_shuffle_f32x4(X, Y, C) \ - ((__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)_mm512_undefined_ps(),\ - (__mmask16)-1)) - -#define _mm512_mask_shuffle_f32x4(W, U, X, Y, C) \ - ((__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_shuffle_f32x4(U, X, Y, C) \ - ((__m512) __builtin_ia32_shuf_f32x4_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)_mm512_setzero_ps(),\ - (__mmask16)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rolv_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rolv_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rolv_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rorv_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rorv_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rorv_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rolv_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rolv_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rolv_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prolvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rorv_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rorv_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rorv_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_prorvq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtt_roundpd_epi32 (__m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtt_roundpd_epi32 (__m256i __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtt_roundpd_epi32 (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtt_roundpd_epu32 (__m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtt_roundpd_epu32 (__m256i __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtt_roundpd_epu32 (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, __R); -} -#else -#define _mm512_cvtt_roundpd_epi32(A, B) \ - ((__m256i)__builtin_ia32_cvttpd2dq512_mask(A, (__v8si)_mm256_undefined_si256(), -1, B)) - -#define _mm512_mask_cvtt_roundpd_epi32(W, U, A, B) \ - ((__m256i)__builtin_ia32_cvttpd2dq512_mask(A, (__v8si)(W), U, B)) - -#define _mm512_maskz_cvtt_roundpd_epi32(U, A, B) \ - ((__m256i)__builtin_ia32_cvttpd2dq512_mask(A, (__v8si)_mm256_setzero_si256(), U, B)) - -#define _mm512_cvtt_roundpd_epu32(A, B) \ - ((__m256i)__builtin_ia32_cvttpd2udq512_mask(A, (__v8si)_mm256_undefined_si256(), -1, B)) - -#define _mm512_mask_cvtt_roundpd_epu32(W, U, A, B) \ - ((__m256i)__builtin_ia32_cvttpd2udq512_mask(A, (__v8si)(W), U, B)) - -#define _mm512_maskz_cvtt_roundpd_epu32(U, A, B) \ - ((__m256i)__builtin_ia32_cvttpd2udq512_mask(A, (__v8si)_mm256_setzero_si256(), U, B)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundpd_epi32 (__m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundpd_epi32 (__m256i __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundpd_epi32 (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundpd_epu32 (__m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundpd_epu32 (__m256i __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundpd_epu32 (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, __R); -} -#else -#define _mm512_cvt_roundpd_epi32(A, B) \ - ((__m256i)__builtin_ia32_cvtpd2dq512_mask(A, (__v8si)_mm256_undefined_si256(), -1, B)) - -#define _mm512_mask_cvt_roundpd_epi32(W, U, A, B) \ - ((__m256i)__builtin_ia32_cvtpd2dq512_mask(A, (__v8si)(W), U, B)) - -#define _mm512_maskz_cvt_roundpd_epi32(U, A, B) \ - ((__m256i)__builtin_ia32_cvtpd2dq512_mask(A, (__v8si)_mm256_setzero_si256(), U, B)) - -#define _mm512_cvt_roundpd_epu32(A, B) \ - ((__m256i)__builtin_ia32_cvtpd2udq512_mask(A, (__v8si)_mm256_undefined_si256(), -1, B)) - -#define _mm512_mask_cvt_roundpd_epu32(W, U, A, B) \ - ((__m256i)__builtin_ia32_cvtpd2udq512_mask(A, (__v8si)(W), U, B)) - -#define _mm512_maskz_cvt_roundpd_epu32(U, A, B) \ - ((__m256i)__builtin_ia32_cvtpd2udq512_mask(A, (__v8si)_mm256_setzero_si256(), U, B)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtt_roundps_epi32 (__m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtt_roundps_epi32 (__m512i __W, __mmask16 __U, __m512 __A, - const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtt_roundps_epi32 (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtt_roundps_epu32 (__m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtt_roundps_epu32 (__m512i __W, __mmask16 __U, __m512 __A, - const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtt_roundps_epu32 (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, __R); -} -#else -#define _mm512_cvtt_roundps_epi32(A, B) \ - ((__m512i)__builtin_ia32_cvttps2dq512_mask(A, (__v16si)_mm512_undefined_si512 (), -1, B)) - -#define _mm512_mask_cvtt_roundps_epi32(W, U, A, B) \ - ((__m512i)__builtin_ia32_cvttps2dq512_mask(A, (__v16si)(W), U, B)) - -#define _mm512_maskz_cvtt_roundps_epi32(U, A, B) \ - ((__m512i)__builtin_ia32_cvttps2dq512_mask(A, (__v16si)_mm512_setzero_si512 (), U, B)) - -#define _mm512_cvtt_roundps_epu32(A, B) \ - ((__m512i)__builtin_ia32_cvttps2udq512_mask(A, (__v16si)_mm512_undefined_si512 (), -1, B)) - -#define _mm512_mask_cvtt_roundps_epu32(W, U, A, B) \ - ((__m512i)__builtin_ia32_cvttps2udq512_mask(A, (__v16si)(W), U, B)) - -#define _mm512_maskz_cvtt_roundps_epu32(U, A, B) \ - ((__m512i)__builtin_ia32_cvttps2udq512_mask(A, (__v16si)_mm512_setzero_si512 (), U, B)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundps_epi32 (__m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundps_epi32 (__m512i __W, __mmask16 __U, __m512 __A, - const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundps_epi32 (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundps_epu32 (__m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundps_epu32 (__m512i __W, __mmask16 __U, __m512 __A, - const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundps_epu32 (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, __R); -} -#else -#define _mm512_cvt_roundps_epi32(A, B) \ - ((__m512i)__builtin_ia32_cvtps2dq512_mask(A, (__v16si)_mm512_undefined_si512 (), -1, B)) - -#define _mm512_mask_cvt_roundps_epi32(W, U, A, B) \ - ((__m512i)__builtin_ia32_cvtps2dq512_mask(A, (__v16si)(W), U, B)) - -#define _mm512_maskz_cvt_roundps_epi32(U, A, B) \ - ((__m512i)__builtin_ia32_cvtps2dq512_mask(A, (__v16si)_mm512_setzero_si512 (), U, B)) - -#define _mm512_cvt_roundps_epu32(A, B) \ - ((__m512i)__builtin_ia32_cvtps2udq512_mask(A, (__v16si)_mm512_undefined_si512 (), -1, B)) - -#define _mm512_mask_cvt_roundps_epu32(W, U, A, B) \ - ((__m512i)__builtin_ia32_cvtps2udq512_mask(A, (__v16si)(W), U, B)) - -#define _mm512_maskz_cvt_roundps_epu32(U, A, B) \ - ((__m512i)__builtin_ia32_cvtps2udq512_mask(A, (__v16si)_mm512_setzero_si512 (), U, B)) -#endif - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtu32_sd (__m128d __A, unsigned __B) -{ - return (__m128d) __builtin_ia32_cvtusi2sd32 ((__v2df) __A, __B); -} - -#ifdef __x86_64__ -#ifdef __OPTIMIZE__ -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundu64_sd (__m128d __A, unsigned long long __B, const int __R) -{ - return (__m128d) __builtin_ia32_cvtusi2sd64 ((__v2df) __A, __B, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundi64_sd (__m128d __A, long long __B, const int __R) -{ - return (__m128d) __builtin_ia32_cvtsi2sd64 ((__v2df) __A, __B, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsi64_sd (__m128d __A, long long __B, const int __R) -{ - return (__m128d) __builtin_ia32_cvtsi2sd64 ((__v2df) __A, __B, __R); -} -#else -#define _mm_cvt_roundu64_sd(A, B, C) \ - (__m128d)__builtin_ia32_cvtusi2sd64(A, B, C) - -#define _mm_cvt_roundi64_sd(A, B, C) \ - (__m128d)__builtin_ia32_cvtsi2sd64(A, B, C) - -#define _mm_cvt_roundsi64_sd(A, B, C) \ - (__m128d)__builtin_ia32_cvtsi2sd64(A, B, C) -#endif - -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundu32_ss (__m128 __A, unsigned __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtusi2ss32 ((__v4sf) __A, __B, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsi32_ss (__m128 __A, int __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtsi2ss32 ((__v4sf) __A, __B, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundi32_ss (__m128 __A, int __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtsi2ss32 ((__v4sf) __A, __B, __R); -} -#else -#define _mm_cvt_roundu32_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtusi2ss32(A, B, C) - -#define _mm_cvt_roundi32_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtsi2ss32(A, B, C) - -#define _mm_cvt_roundsi32_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtsi2ss32(A, B, C) -#endif - -#ifdef __x86_64__ -#ifdef __OPTIMIZE__ -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundu64_ss (__m128 __A, unsigned long long __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtusi2ss64 ((__v4sf) __A, __B, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsi64_ss (__m128 __A, long long __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtsi2ss64 ((__v4sf) __A, __B, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundi64_ss (__m128 __A, long long __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtsi2ss64 ((__v4sf) __A, __B, __R); -} -#else -#define _mm_cvt_roundu64_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtusi2ss64(A, B, C) - -#define _mm_cvt_roundi64_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtsi2ss64(A, B, C) - -#define _mm_cvt_roundsi64_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtsi2ss64(A, B, C) -#endif - -#endif - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi32_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovdb512_mask ((__v16si) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_storeu_epi8 (void * __P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovdb512mem_mask ((__v16qi *) __P, (__v16si) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_epi8 (__m128i __O, __mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovdb512_mask ((__v16si) __A, - (__v16qi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi32_epi8 (__mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovdb512_mask ((__v16si) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtsepi32_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsdb512_mask ((__v16si) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi32_storeu_epi8 (void * __P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovsdb512mem_mask ((__v16qi *) __P, (__v16si) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi32_epi8 (__m128i __O, __mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsdb512_mask ((__v16si) __A, - (__v16qi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtsepi32_epi8 (__mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsdb512_mask ((__v16si) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtusepi32_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusdb512_mask ((__v16si) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi32_storeu_epi8 (void * __P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovusdb512mem_mask ((__v16qi *) __P, (__v16si) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi32_epi8 (__m128i __O, __mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusdb512_mask ((__v16si) __A, - (__v16qi) __O, - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtusepi32_epi8 (__mmask16 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusdb512_mask ((__v16si) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi32_epi16 (__m512i __A) -{ - return (__m256i) __builtin_ia32_pmovdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_undefined_si256 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_storeu_epi16 (void * __P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovdw512mem_mask ((__v16hi *) __P, (__v16si) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_epi16 (__m256i __O, __mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovdw512_mask ((__v16si) __A, - (__v16hi) __O, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi32_epi16 (__mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtsepi32_epi16 (__m512i __A) -{ - return (__m256i) __builtin_ia32_pmovsdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_undefined_si256 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi32_storeu_epi16 (void *__P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovsdw512mem_mask ((__v16hi*) __P, (__v16si) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi32_epi16 (__m256i __O, __mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovsdw512_mask ((__v16si) __A, - (__v16hi) __O, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtsepi32_epi16 (__mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovsdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtusepi32_epi16 (__m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_undefined_si256 (), - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi32_storeu_epi16 (void *__P, __mmask16 __M, __m512i __A) -{ - __builtin_ia32_pmovusdw512mem_mask ((__v16hi*) __P, (__v16si) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi32_epi16 (__m256i __O, __mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusdw512_mask ((__v16si) __A, - (__v16hi) __O, - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtusepi32_epi16 (__mmask16 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusdw512_mask ((__v16si) __A, - (__v16hi) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi64_epi32 (__m512i __A) -{ - return (__m256i) __builtin_ia32_pmovqd512_mask ((__v8di) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_storeu_epi32 (void* __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovqd512mem_mask ((__v8si *) __P, (__v8di) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_epi32 (__m256i __O, __mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovqd512_mask ((__v8di) __A, - (__v8si) __O, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi64_epi32 (__mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovqd512_mask ((__v8di) __A, - (__v8si) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtsepi64_epi32 (__m512i __A) -{ - __v8si __O; - return (__m256i) __builtin_ia32_pmovsqd512_mask ((__v8di) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_storeu_epi32 (void *__P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovsqd512mem_mask ((__v8si *) __P, (__v8di) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_epi32 (__m256i __O, __mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovsqd512_mask ((__v8di) __A, - (__v8si) __O, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtsepi64_epi32 (__mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovsqd512_mask ((__v8di) __A, - (__v8si) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtusepi64_epi32 (__m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusqd512_mask ((__v8di) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_storeu_epi32 (void* __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovusqd512mem_mask ((__v8si*) __P, (__v8di) __A, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_epi32 (__m256i __O, __mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusqd512_mask ((__v8di) __A, - (__v8si) __O, __M); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtusepi64_epi32 (__mmask8 __M, __m512i __A) -{ - return (__m256i) __builtin_ia32_pmovusqd512_mask ((__v8di) __A, - (__v8si) - _mm256_setzero_si256 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi64_epi16 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqw512_mask ((__v8di) __A, - (__v8hi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_storeu_epi16 (void *__P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovqw512mem_mask ((__v8hi *) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_epi16 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqw512_mask ((__v8di) __A, - (__v8hi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi64_epi16 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqw512_mask ((__v8di) __A, - (__v8hi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtsepi64_epi16 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqw512_mask ((__v8di) __A, - (__v8hi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_storeu_epi16 (void * __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovsqw512mem_mask ((__v8hi *) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_epi16 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqw512_mask ((__v8di) __A, - (__v8hi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtsepi64_epi16 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqw512_mask ((__v8di) __A, - (__v8hi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtusepi64_epi16 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqw512_mask ((__v8di) __A, - (__v8hi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_storeu_epi16 (void *__P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovusqw512mem_mask ((__v8hi*) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_epi16 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqw512_mask ((__v8di) __A, - (__v8hi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtusepi64_epi16 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqw512_mask ((__v8di) __A, - (__v8hi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi64_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqb512_mask ((__v8di) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_storeu_epi8 (void * __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovqb512mem_mask ((__v16qi *) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi64_epi8 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqb512_mask ((__v8di) __A, - (__v16qi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi64_epi8 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovqb512_mask ((__v8di) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtsepi64_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqb512_mask ((__v8di) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_storeu_epi8 (void * __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovsqb512mem_mask ((__v16qi *) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtsepi64_epi8 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqb512_mask ((__v8di) __A, - (__v16qi) __O, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtsepi64_epi8 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovsqb512_mask ((__v8di) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtusepi64_epi8 (__m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqb512_mask ((__v8di) __A, - (__v16qi) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_storeu_epi8 (void * __P, __mmask8 __M, __m512i __A) -{ - __builtin_ia32_pmovusqb512mem_mask ((__v16qi *) __P, (__v8di) __A, __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtusepi64_epi8 (__m128i __O, __mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqb512_mask ((__v8di) __A, - (__v16qi) __O, - __M); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtusepi64_epi8 (__mmask8 __M, __m512i __A) -{ - return (__m128i) __builtin_ia32_pmovusqb512_mask ((__v8di) __A, - (__v16qi) - _mm_setzero_si128 (), - __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi32_pd (__m256i __A) -{ - return (__m512d) __builtin_ia32_cvtdq2pd512_mask ((__v8si) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_pd (__m512d __W, __mmask8 __U, __m256i __A) -{ - return (__m512d) __builtin_ia32_cvtdq2pd512_mask ((__v8si) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi32_pd (__mmask8 __U, __m256i __A) -{ - return (__m512d) __builtin_ia32_cvtdq2pd512_mask ((__v8si) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu32_pd (__m256i __A) -{ - return (__m512d) __builtin_ia32_cvtudq2pd512_mask ((__v8si) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu32_pd (__m512d __W, __mmask8 __U, __m256i __A) -{ - return (__m512d) __builtin_ia32_cvtudq2pd512_mask ((__v8si) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu32_pd (__mmask8 __U, __m256i __A) -{ - return (__m512d) __builtin_ia32_cvtudq2pd512_mask ((__v8si) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundepi32_ps (__m512i __A, const int __R) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundepi32_ps (__m512 __W, __mmask16 __U, __m512i __A, - const int __R) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundepi32_ps (__mmask16 __U, __m512i __A, const int __R) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundepu32_ps (__m512i __A, const int __R) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundepu32_ps (__m512 __W, __mmask16 __U, __m512i __A, - const int __R) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundepu32_ps (__mmask16 __U, __m512i __A, const int __R) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -#else -#define _mm512_cvt_roundepi32_ps(A, B) \ - (__m512)__builtin_ia32_cvtdq2ps512_mask((__v16si)(A), (__v16sf)_mm512_undefined_ps(), -1, B) - -#define _mm512_mask_cvt_roundepi32_ps(W, U, A, B) \ - (__m512)__builtin_ia32_cvtdq2ps512_mask((__v16si)(A), W, U, B) - -#define _mm512_maskz_cvt_roundepi32_ps(U, A, B) \ - (__m512)__builtin_ia32_cvtdq2ps512_mask((__v16si)(A), (__v16sf)_mm512_setzero_ps(), U, B) - -#define _mm512_cvt_roundepu32_ps(A, B) \ - (__m512)__builtin_ia32_cvtudq2ps512_mask((__v16si)(A), (__v16sf)_mm512_undefined_ps(), -1, B) - -#define _mm512_mask_cvt_roundepu32_ps(W, U, A, B) \ - (__m512)__builtin_ia32_cvtudq2ps512_mask((__v16si)(A), W, U, B) - -#define _mm512_maskz_cvt_roundepu32_ps(U, A, B) \ - (__m512)__builtin_ia32_cvtudq2ps512_mask((__v16si)(A), (__v16sf)_mm512_setzero_ps(), U, B) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_extractf64x4_pd (__m512d __A, const int __imm) -{ - return (__m256d) __builtin_ia32_extractf64x4_mask ((__v8df) __A, - __imm, - (__v4df) - _mm256_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_extractf64x4_pd (__m256d __W, __mmask8 __U, __m512d __A, - const int __imm) -{ - return (__m256d) __builtin_ia32_extractf64x4_mask ((__v8df) __A, - __imm, - (__v4df) __W, - (__mmask8) __U); -} - -extern __inline __m256d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_extractf64x4_pd (__mmask8 __U, __m512d __A, const int __imm) -{ - return (__m256d) __builtin_ia32_extractf64x4_mask ((__v8df) __A, - __imm, - (__v4df) - _mm256_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_extractf32x4_ps (__m512 __A, const int __imm) -{ - return (__m128) __builtin_ia32_extractf32x4_mask ((__v16sf) __A, - __imm, - (__v4sf) - _mm_undefined_ps (), - (__mmask8) -1); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_extractf32x4_ps (__m128 __W, __mmask8 __U, __m512 __A, - const int __imm) -{ - return (__m128) __builtin_ia32_extractf32x4_mask ((__v16sf) __A, - __imm, - (__v4sf) __W, - (__mmask8) __U); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_extractf32x4_ps (__mmask8 __U, __m512 __A, const int __imm) -{ - return (__m128) __builtin_ia32_extractf32x4_mask ((__v16sf) __A, - __imm, - (__v4sf) - _mm_setzero_ps (), - (__mmask8) __U); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_extracti64x4_epi64 (__m512i __A, const int __imm) -{ - return (__m256i) __builtin_ia32_extracti64x4_mask ((__v8di) __A, - __imm, - (__v4di) - _mm256_undefined_si256 (), - (__mmask8) -1); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_extracti64x4_epi64 (__m256i __W, __mmask8 __U, __m512i __A, - const int __imm) -{ - return (__m256i) __builtin_ia32_extracti64x4_mask ((__v8di) __A, - __imm, - (__v4di) __W, - (__mmask8) __U); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_extracti64x4_epi64 (__mmask8 __U, __m512i __A, const int __imm) -{ - return (__m256i) __builtin_ia32_extracti64x4_mask ((__v8di) __A, - __imm, - (__v4di) - _mm256_setzero_si256 (), - (__mmask8) __U); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_extracti32x4_epi32 (__m512i __A, const int __imm) -{ - return (__m128i) __builtin_ia32_extracti32x4_mask ((__v16si) __A, - __imm, - (__v4si) - _mm_undefined_si128 (), - (__mmask8) -1); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_extracti32x4_epi32 (__m128i __W, __mmask8 __U, __m512i __A, - const int __imm) -{ - return (__m128i) __builtin_ia32_extracti32x4_mask ((__v16si) __A, - __imm, - (__v4si) __W, - (__mmask8) __U); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_extracti32x4_epi32 (__mmask8 __U, __m512i __A, const int __imm) -{ - return (__m128i) __builtin_ia32_extracti32x4_mask ((__v16si) __A, - __imm, - (__v4si) - _mm_setzero_si128 (), - (__mmask8) __U); -} -#else - -#define _mm512_extractf64x4_pd(X, C) \ - ((__m256d) __builtin_ia32_extractf64x4_mask ((__v8df)(__m512d) (X), \ - (int) (C),\ - (__v4df)(__m256d)_mm256_undefined_pd(),\ - (__mmask8)-1)) - -#define _mm512_mask_extractf64x4_pd(W, U, X, C) \ - ((__m256d) __builtin_ia32_extractf64x4_mask ((__v8df)(__m512d) (X), \ - (int) (C),\ - (__v4df)(__m256d)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_extractf64x4_pd(U, X, C) \ - ((__m256d) __builtin_ia32_extractf64x4_mask ((__v8df)(__m512d) (X), \ - (int) (C),\ - (__v4df)(__m256d)_mm256_setzero_pd(),\ - (__mmask8)(U))) - -#define _mm512_extractf32x4_ps(X, C) \ - ((__m128) __builtin_ia32_extractf32x4_mask ((__v16sf)(__m512) (X), \ - (int) (C),\ - (__v4sf)(__m128)_mm_undefined_ps(),\ - (__mmask8)-1)) - -#define _mm512_mask_extractf32x4_ps(W, U, X, C) \ - ((__m128) __builtin_ia32_extractf32x4_mask ((__v16sf)(__m512) (X), \ - (int) (C),\ - (__v4sf)(__m128)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_extractf32x4_ps(U, X, C) \ - ((__m128) __builtin_ia32_extractf32x4_mask ((__v16sf)(__m512) (X), \ - (int) (C),\ - (__v4sf)(__m128)_mm_setzero_ps(),\ - (__mmask8)(U))) - -#define _mm512_extracti64x4_epi64(X, C) \ - ((__m256i) __builtin_ia32_extracti64x4_mask ((__v8di)(__m512i) (X), \ - (int) (C),\ - (__v4di)(__m256i)_mm256_undefined_si256 (),\ - (__mmask8)-1)) - -#define _mm512_mask_extracti64x4_epi64(W, U, X, C) \ - ((__m256i) __builtin_ia32_extracti64x4_mask ((__v8di)(__m512i) (X), \ - (int) (C),\ - (__v4di)(__m256i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_extracti64x4_epi64(U, X, C) \ - ((__m256i) __builtin_ia32_extracti64x4_mask ((__v8di)(__m512i) (X), \ - (int) (C),\ - (__v4di)(__m256i)_mm256_setzero_si256 (),\ - (__mmask8)(U))) - -#define _mm512_extracti32x4_epi32(X, C) \ - ((__m128i) __builtin_ia32_extracti32x4_mask ((__v16si)(__m512i) (X), \ - (int) (C),\ - (__v4si)(__m128i)_mm_undefined_si128 (),\ - (__mmask8)-1)) - -#define _mm512_mask_extracti32x4_epi32(W, U, X, C) \ - ((__m128i) __builtin_ia32_extracti32x4_mask ((__v16si)(__m512i) (X), \ - (int) (C),\ - (__v4si)(__m128i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_extracti32x4_epi32(U, X, C) \ - ((__m128i) __builtin_ia32_extracti32x4_mask ((__v16si)(__m512i) (X), \ - (int) (C),\ - (__v4si)(__m128i)_mm_setzero_si128 (),\ - (__mmask8)(U))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_inserti32x4 (__m512i __A, __m128i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_inserti32x4_mask ((__v16si) __A, - (__v4si) __B, - __imm, - (__v16si) __A, -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_insertf32x4 (__m512 __A, __m128 __B, const int __imm) -{ - return (__m512) __builtin_ia32_insertf32x4_mask ((__v16sf) __A, - (__v4sf) __B, - __imm, - (__v16sf) __A, -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_inserti64x4 (__m512i __A, __m256i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_inserti64x4_mask ((__v8di) __A, - (__v4di) __B, - __imm, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_inserti64x4 (__m512i __W, __mmask8 __U, __m512i __A, - __m256i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_inserti64x4_mask ((__v8di) __A, - (__v4di) __B, - __imm, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_inserti64x4 (__mmask8 __U, __m512i __A, __m256i __B, - const int __imm) -{ - return (__m512i) __builtin_ia32_inserti64x4_mask ((__v8di) __A, - (__v4di) __B, - __imm, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_insertf64x4 (__m512d __A, __m256d __B, const int __imm) -{ - return (__m512d) __builtin_ia32_insertf64x4_mask ((__v8df) __A, - (__v4df) __B, - __imm, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_insertf64x4 (__m512d __W, __mmask8 __U, __m512d __A, - __m256d __B, const int __imm) -{ - return (__m512d) __builtin_ia32_insertf64x4_mask ((__v8df) __A, - (__v4df) __B, - __imm, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_insertf64x4 (__mmask8 __U, __m512d __A, __m256d __B, - const int __imm) -{ - return (__m512d) __builtin_ia32_insertf64x4_mask ((__v8df) __A, - (__v4df) __B, - __imm, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} -#else -#define _mm512_insertf32x4(X, Y, C) \ - ((__m512) __builtin_ia32_insertf32x4_mask ((__v16sf)(__m512) (X), \ - (__v4sf)(__m128) (Y), (int) (C), (__v16sf)(__m512) (X), (__mmask16)(-1))) - -#define _mm512_inserti32x4(X, Y, C) \ - ((__m512i) __builtin_ia32_inserti32x4_mask ((__v16si)(__m512i) (X), \ - (__v4si)(__m128i) (Y), (int) (C), (__v16si)(__m512i) (X), (__mmask16)(-1))) - -#define _mm512_insertf64x4(X, Y, C) \ - ((__m512d) __builtin_ia32_insertf64x4_mask ((__v8df)(__m512d) (X), \ - (__v4df)(__m256d) (Y), (int) (C), \ - (__v8df)(__m512d)_mm512_undefined_pd(), \ - (__mmask8)-1)) - -#define _mm512_mask_insertf64x4(W, U, X, Y, C) \ - ((__m512d) __builtin_ia32_insertf64x4_mask ((__v8df)(__m512d) (X), \ - (__v4df)(__m256d) (Y), (int) (C), \ - (__v8df)(__m512d)(W), \ - (__mmask8)(U))) - -#define _mm512_maskz_insertf64x4(U, X, Y, C) \ - ((__m512d) __builtin_ia32_insertf64x4_mask ((__v8df)(__m512d) (X), \ - (__v4df)(__m256d) (Y), (int) (C), \ - (__v8df)(__m512d)_mm512_setzero_pd(), \ - (__mmask8)(U))) - -#define _mm512_inserti64x4(X, Y, C) \ - ((__m512i) __builtin_ia32_inserti64x4_mask ((__v8di)(__m512i) (X), \ - (__v4di)(__m256i) (Y), (int) (C), \ - (__v8di)(__m512i)_mm512_undefined_si512 (), \ - (__mmask8)-1)) - -#define _mm512_mask_inserti64x4(W, U, X, Y, C) \ - ((__m512i) __builtin_ia32_inserti64x4_mask ((__v8di)(__m512i) (X), \ - (__v4di)(__m256i) (Y), (int) (C),\ - (__v8di)(__m512i)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_inserti64x4(U, X, Y, C) \ - ((__m512i) __builtin_ia32_inserti64x4_mask ((__v8di)(__m512i) (X), \ - (__v4di)(__m256i) (Y), (int) (C), \ - (__v8di)(__m512i)_mm512_setzero_si512 (), \ - (__mmask8)(U))) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_loadu_pd (void const *__P) -{ - return (__m512d) __builtin_ia32_loadupd512_mask ((const __v8df *) __P, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_loadu_pd (__m512d __W, __mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_loadupd512_mask ((const __v8df *) __P, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_loadu_pd (__mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_loadupd512_mask ((const __v8df *) __P, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_storeu_pd (void *__P, __m512d __A) -{ - __builtin_ia32_storeupd512_mask ((__v8df *) __P, (__v8df) __A, - (__mmask8) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_storeu_pd (void *__P, __mmask8 __U, __m512d __A) -{ - __builtin_ia32_storeupd512_mask ((__v8df *) __P, (__v8df) __A, - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_loadu_ps (void const *__P) -{ - return (__m512) __builtin_ia32_loadups512_mask ((const __v16sf *) __P, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_loadu_ps (__m512 __W, __mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_loadups512_mask ((const __v16sf *) __P, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_loadu_ps (__mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_loadups512_mask ((const __v16sf *) __P, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_storeu_ps (void *__P, __m512 __A) -{ - __builtin_ia32_storeups512_mask ((__v16sf *) __P, (__v16sf) __A, - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_storeu_ps (void *__P, __mmask16 __U, __m512 __A) -{ - __builtin_ia32_storeups512_mask ((__v16sf *) __P, (__v16sf) __A, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_loadu_epi64 (__m512i __W, __mmask8 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_loaddqudi512_mask ((const __v8di *) __P, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_loadu_epi64 (__mmask8 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_loaddqudi512_mask ((const __v8di *) __P, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_storeu_epi64 (void *__P, __mmask8 __U, __m512i __A) -{ - __builtin_ia32_storedqudi512_mask ((__v8di *) __P, (__v8di) __A, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_loadu_si512 (void const *__P) -{ - return (__m512i) __builtin_ia32_loaddqusi512_mask ((const __v16si *) __P, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_loadu_epi32 (__m512i __W, __mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_loaddqusi512_mask ((const __v16si *) __P, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_loadu_epi32 (__mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_loaddqusi512_mask ((const __v16si *) __P, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_storeu_si512 (void *__P, __m512i __A) -{ - __builtin_ia32_storedqusi512_mask ((__v16si *) __P, (__v16si) __A, - (__mmask16) -1); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_storeu_epi32 (void *__P, __mmask16 __U, __m512i __A) -{ - __builtin_ia32_storedqusi512_mask ((__v16si *) __P, (__v16si) __A, - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutevar_pd (__m512d __A, __m512i __C) -{ - return (__m512d) __builtin_ia32_vpermilvarpd512_mask ((__v8df) __A, - (__v8di) __C, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutevar_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512i __C) -{ - return (__m512d) __builtin_ia32_vpermilvarpd512_mask ((__v8df) __A, - (__v8di) __C, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutevar_pd (__mmask8 __U, __m512d __A, __m512i __C) -{ - return (__m512d) __builtin_ia32_vpermilvarpd512_mask ((__v8df) __A, - (__v8di) __C, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutevar_ps (__m512 __A, __m512i __C) -{ - return (__m512) __builtin_ia32_vpermilvarps512_mask ((__v16sf) __A, - (__v16si) __C, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutevar_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512i __C) -{ - return (__m512) __builtin_ia32_vpermilvarps512_mask ((__v16sf) __A, - (__v16si) __C, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutevar_ps (__mmask16 __U, __m512 __A, __m512i __C) -{ - return (__m512) __builtin_ia32_vpermilvarps512_mask ((__v16sf) __A, - (__v16si) __C, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex2var_epi64 (__m512i __A, __m512i __I, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2varq512_mask ((__v8di) __I - /* idx */ , - (__v8di) __A, - (__v8di) __B, - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex2var_epi64 (__m512i __A, __mmask8 __U, __m512i __I, - __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2varq512_mask ((__v8di) __I - /* idx */ , - (__v8di) __A, - (__v8di) __B, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask2_permutex2var_epi64 (__m512i __A, __m512i __I, - __mmask8 __U, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermi2varq512_mask ((__v8di) __A, - (__v8di) __I - /* idx */ , - (__v8di) __B, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex2var_epi64 (__mmask8 __U, __m512i __A, - __m512i __I, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2varq512_maskz ((__v8di) __I - /* idx */ , - (__v8di) __A, - (__v8di) __B, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex2var_epi32 (__m512i __A, __m512i __I, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2vard512_mask ((__v16si) __I - /* idx */ , - (__v16si) __A, - (__v16si) __B, - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex2var_epi32 (__m512i __A, __mmask16 __U, - __m512i __I, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2vard512_mask ((__v16si) __I - /* idx */ , - (__v16si) __A, - (__v16si) __B, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask2_permutex2var_epi32 (__m512i __A, __m512i __I, - __mmask16 __U, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermi2vard512_mask ((__v16si) __A, - (__v16si) __I - /* idx */ , - (__v16si) __B, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex2var_epi32 (__mmask16 __U, __m512i __A, - __m512i __I, __m512i __B) -{ - return (__m512i) __builtin_ia32_vpermt2vard512_maskz ((__v16si) __I - /* idx */ , - (__v16si) __A, - (__v16si) __B, - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex2var_pd (__m512d __A, __m512i __I, __m512d __B) -{ - return (__m512d) __builtin_ia32_vpermt2varpd512_mask ((__v8di) __I - /* idx */ , - (__v8df) __A, - (__v8df) __B, - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex2var_pd (__m512d __A, __mmask8 __U, __m512i __I, - __m512d __B) -{ - return (__m512d) __builtin_ia32_vpermt2varpd512_mask ((__v8di) __I - /* idx */ , - (__v8df) __A, - (__v8df) __B, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask2_permutex2var_pd (__m512d __A, __m512i __I, __mmask8 __U, - __m512d __B) -{ - return (__m512d) __builtin_ia32_vpermi2varpd512_mask ((__v8df) __A, - (__v8di) __I - /* idx */ , - (__v8df) __B, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex2var_pd (__mmask8 __U, __m512d __A, __m512i __I, - __m512d __B) -{ - return (__m512d) __builtin_ia32_vpermt2varpd512_maskz ((__v8di) __I - /* idx */ , - (__v8df) __A, - (__v8df) __B, - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex2var_ps (__m512 __A, __m512i __I, __m512 __B) -{ - return (__m512) __builtin_ia32_vpermt2varps512_mask ((__v16si) __I - /* idx */ , - (__v16sf) __A, - (__v16sf) __B, - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex2var_ps (__m512 __A, __mmask16 __U, __m512i __I, __m512 __B) -{ - return (__m512) __builtin_ia32_vpermt2varps512_mask ((__v16si) __I - /* idx */ , - (__v16sf) __A, - (__v16sf) __B, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask2_permutex2var_ps (__m512 __A, __m512i __I, __mmask16 __U, - __m512 __B) -{ - return (__m512) __builtin_ia32_vpermi2varps512_mask ((__v16sf) __A, - (__v16si) __I - /* idx */ , - (__v16sf) __B, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex2var_ps (__mmask16 __U, __m512 __A, __m512i __I, - __m512 __B) -{ - return (__m512) __builtin_ia32_vpermt2varps512_maskz ((__v16si) __I - /* idx */ , - (__v16sf) __A, - (__v16sf) __B, - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permute_pd (__m512d __X, const int __C) -{ - return (__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df) __X, __C, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permute_pd (__m512d __W, __mmask8 __U, __m512d __X, const int __C) -{ - return (__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df) __X, __C, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permute_pd (__mmask8 __U, __m512d __X, const int __C) -{ - return (__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df) __X, __C, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permute_ps (__m512 __X, const int __C) -{ - return (__m512) __builtin_ia32_vpermilps512_mask ((__v16sf) __X, __C, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permute_ps (__m512 __W, __mmask16 __U, __m512 __X, const int __C) -{ - return (__m512) __builtin_ia32_vpermilps512_mask ((__v16sf) __X, __C, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permute_ps (__mmask16 __U, __m512 __X, const int __C) -{ - return (__m512) __builtin_ia32_vpermilps512_mask ((__v16sf) __X, __C, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} -#else -#define _mm512_permute_pd(X, C) \ - ((__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df)(__m512d)(X), (int)(C), \ - (__v8df)(__m512d)_mm512_undefined_pd(),\ - (__mmask8)(-1))) - -#define _mm512_mask_permute_pd(W, U, X, C) \ - ((__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df)(__m512d)(X), (int)(C), \ - (__v8df)(__m512d)(W), \ - (__mmask8)(U))) - -#define _mm512_maskz_permute_pd(U, X, C) \ - ((__m512d) __builtin_ia32_vpermilpd512_mask ((__v8df)(__m512d)(X), (int)(C), \ - (__v8df)(__m512d)_mm512_setzero_pd(), \ - (__mmask8)(U))) - -#define _mm512_permute_ps(X, C) \ - ((__m512) __builtin_ia32_vpermilps512_mask ((__v16sf)(__m512)(X), (int)(C), \ - (__v16sf)(__m512)_mm512_undefined_ps(),\ - (__mmask16)(-1))) - -#define _mm512_mask_permute_ps(W, U, X, C) \ - ((__m512) __builtin_ia32_vpermilps512_mask ((__v16sf)(__m512)(X), (int)(C), \ - (__v16sf)(__m512)(W), \ - (__mmask16)(U))) - -#define _mm512_maskz_permute_ps(U, X, C) \ - ((__m512) __builtin_ia32_vpermilps512_mask ((__v16sf)(__m512)(X), (int)(C), \ - (__v16sf)(__m512)_mm512_setzero_ps(), \ - (__mmask16)(U))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex_epi64 (__m512i __X, const int __I) -{ - return (__m512i) __builtin_ia32_permdi512_mask ((__v8di) __X, __I, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) (-1)); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex_epi64 (__m512i __W, __mmask8 __M, - __m512i __X, const int __I) -{ - return (__m512i) __builtin_ia32_permdi512_mask ((__v8di) __X, __I, - (__v8di) __W, - (__mmask8) __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex_epi64 (__mmask8 __M, __m512i __X, const int __I) -{ - return (__m512i) __builtin_ia32_permdi512_mask ((__v8di) __X, __I, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutex_pd (__m512d __X, const int __M) -{ - return (__m512d) __builtin_ia32_permdf512_mask ((__v8df) __X, __M, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutex_pd (__m512d __W, __mmask8 __U, __m512d __X, const int __M) -{ - return (__m512d) __builtin_ia32_permdf512_mask ((__v8df) __X, __M, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutex_pd (__mmask8 __U, __m512d __X, const int __M) -{ - return (__m512d) __builtin_ia32_permdf512_mask ((__v8df) __X, __M, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} -#else -#define _mm512_permutex_pd(X, M) \ - ((__m512d) __builtin_ia32_permdf512_mask ((__v8df)(__m512d)(X), (int)(M), \ - (__v8df)(__m512d)_mm512_undefined_pd(),\ - (__mmask8)-1)) - -#define _mm512_mask_permutex_pd(W, U, X, M) \ - ((__m512d) __builtin_ia32_permdf512_mask ((__v8df)(__m512d)(X), (int)(M), \ - (__v8df)(__m512d)(W), (__mmask8)(U))) - -#define _mm512_maskz_permutex_pd(U, X, M) \ - ((__m512d) __builtin_ia32_permdf512_mask ((__v8df)(__m512d)(X), (int)(M), \ - (__v8df)(__m512d)_mm512_setzero_pd(),\ - (__mmask8)(U))) - -#define _mm512_permutex_epi64(X, I) \ - ((__m512i) __builtin_ia32_permdi512_mask ((__v8di)(__m512i)(X), \ - (int)(I), \ - (__v8di)(__m512i) \ - (_mm512_undefined_si512 ()),\ - (__mmask8)(-1))) - -#define _mm512_maskz_permutex_epi64(M, X, I) \ - ((__m512i) __builtin_ia32_permdi512_mask ((__v8di)(__m512i)(X), \ - (int)(I), \ - (__v8di)(__m512i) \ - (_mm512_setzero_si512 ()),\ - (__mmask8)(M))) - -#define _mm512_mask_permutex_epi64(W, M, X, I) \ - ((__m512i) __builtin_ia32_permdi512_mask ((__v8di)(__m512i)(X), \ - (int)(I), \ - (__v8di)(__m512i)(W), \ - (__mmask8)(M))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutexvar_epi64 (__mmask8 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvardi512_mask ((__v8di) __Y, - (__v8di) __X, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutexvar_epi64 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvardi512_mask ((__v8di) __Y, - (__v8di) __X, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutexvar_epi64 (__m512i __W, __mmask8 __M, __m512i __X, - __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvardi512_mask ((__v8di) __Y, - (__v8di) __X, - (__v8di) __W, - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutexvar_epi32 (__mmask16 __M, __m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvarsi512_mask ((__v16si) __Y, - (__v16si) __X, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutexvar_epi32 (__m512i __X, __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvarsi512_mask ((__v16si) __Y, - (__v16si) __X, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutexvar_epi32 (__m512i __W, __mmask16 __M, __m512i __X, - __m512i __Y) -{ - return (__m512i) __builtin_ia32_permvarsi512_mask ((__v16si) __Y, - (__v16si) __X, - (__v16si) __W, - __M); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutexvar_pd (__m512i __X, __m512d __Y) -{ - return (__m512d) __builtin_ia32_permvardf512_mask ((__v8df) __Y, - (__v8di) __X, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutexvar_pd (__m512d __W, __mmask8 __U, __m512i __X, __m512d __Y) -{ - return (__m512d) __builtin_ia32_permvardf512_mask ((__v8df) __Y, - (__v8di) __X, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutexvar_pd (__mmask8 __U, __m512i __X, __m512d __Y) -{ - return (__m512d) __builtin_ia32_permvardf512_mask ((__v8df) __Y, - (__v8di) __X, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_permutexvar_ps (__m512i __X, __m512 __Y) -{ - return (__m512) __builtin_ia32_permvarsf512_mask ((__v16sf) __Y, - (__v16si) __X, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_permutexvar_ps (__m512 __W, __mmask16 __U, __m512i __X, __m512 __Y) -{ - return (__m512) __builtin_ia32_permvarsf512_mask ((__v16sf) __Y, - (__v16si) __X, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_permutexvar_ps (__mmask16 __U, __m512i __X, __m512 __Y) -{ - return (__m512) __builtin_ia32_permvarsf512_mask ((__v16sf) __Y, - (__v16si) __X, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_ps (__m512 __M, __m512 __V, const int __imm) -{ - return (__m512) __builtin_ia32_shufps512_mask ((__v16sf) __M, - (__v16sf) __V, __imm, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_ps (__m512 __W, __mmask16 __U, __m512 __M, - __m512 __V, const int __imm) -{ - return (__m512) __builtin_ia32_shufps512_mask ((__v16sf) __M, - (__v16sf) __V, __imm, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_ps (__mmask16 __U, __m512 __M, __m512 __V, const int __imm) -{ - return (__m512) __builtin_ia32_shufps512_mask ((__v16sf) __M, - (__v16sf) __V, __imm, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_shuffle_pd (__m512d __M, __m512d __V, const int __imm) -{ - return (__m512d) __builtin_ia32_shufpd512_mask ((__v8df) __M, - (__v8df) __V, __imm, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_shuffle_pd (__m512d __W, __mmask8 __U, __m512d __M, - __m512d __V, const int __imm) -{ - return (__m512d) __builtin_ia32_shufpd512_mask ((__v8df) __M, - (__v8df) __V, __imm, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_shuffle_pd (__mmask8 __U, __m512d __M, __m512d __V, - const int __imm) -{ - return (__m512d) __builtin_ia32_shufpd512_mask ((__v8df) __M, - (__v8df) __V, __imm, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fixupimm_round_pd (__m512d __A, __m512d __B, __m512i __C, - const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fixupimm_round_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512i __C, const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fixupimm_round_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512i __C, const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fixupimm_round_ps (__m512 __A, __m512 __B, __m512i __C, - const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_fixupimmps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fixupimm_round_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512i __C, const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_fixupimmps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fixupimm_round_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512i __C, const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_fixupimmps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fixupimm_round_sd (__m128d __A, __m128d __B, __m128i __C, - const int __imm, const int __R) -{ - return (__m128d) __builtin_ia32_fixupimmsd_mask ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, __imm, - (__mmask8) -1, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_fixupimm_round_sd (__m128d __A, __mmask8 __U, __m128d __B, - __m128i __C, const int __imm, const int __R) -{ - return (__m128d) __builtin_ia32_fixupimmsd_mask ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, __imm, - (__mmask8) __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskz_fixupimm_round_sd (__mmask8 __U, __m128d __A, __m128d __B, - __m128i __C, const int __imm, const int __R) -{ - return (__m128d) __builtin_ia32_fixupimmsd_maskz ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, - __imm, - (__mmask8) __U, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fixupimm_round_ss (__m128 __A, __m128 __B, __m128i __C, - const int __imm, const int __R) -{ - return (__m128) __builtin_ia32_fixupimmss_mask ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) -1, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_fixupimm_round_ss (__m128 __A, __mmask8 __U, __m128 __B, - __m128i __C, const int __imm, const int __R) -{ - return (__m128) __builtin_ia32_fixupimmss_mask ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) __U, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskz_fixupimm_round_ss (__mmask8 __U, __m128 __A, __m128 __B, - __m128i __C, const int __imm, const int __R) -{ - return (__m128) __builtin_ia32_fixupimmss_maskz ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) __U, __R); -} - -#else -#define _mm512_shuffle_pd(X, Y, C) \ - ((__m512d)__builtin_ia32_shufpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)_mm512_undefined_pd(),\ - (__mmask8)-1)) - -#define _mm512_mask_shuffle_pd(W, U, X, Y, C) \ - ((__m512d)__builtin_ia32_shufpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)(W),\ - (__mmask8)(U))) - -#define _mm512_maskz_shuffle_pd(U, X, Y, C) \ - ((__m512d)__builtin_ia32_shufpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(C),\ - (__v8df)(__m512d)_mm512_setzero_pd(),\ - (__mmask8)(U))) - -#define _mm512_shuffle_ps(X, Y, C) \ - ((__m512)__builtin_ia32_shufps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)_mm512_undefined_ps(),\ - (__mmask16)-1)) - -#define _mm512_mask_shuffle_ps(W, U, X, Y, C) \ - ((__m512)__builtin_ia32_shufps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)(W),\ - (__mmask16)(U))) - -#define _mm512_maskz_shuffle_ps(U, X, Y, C) \ - ((__m512)__builtin_ia32_shufps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(C),\ - (__v16sf)(__m512)_mm512_setzero_ps(),\ - (__mmask16)(U))) - -#define _mm512_fixupimm_round_pd(X, Y, Z, C, R) \ - ((__m512d)__builtin_ia32_fixupimmpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(-1), (R))) - -#define _mm512_mask_fixupimm_round_pd(X, U, Y, Z, C, R) \ - ((__m512d)__builtin_ia32_fixupimmpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(U), (R))) - -#define _mm512_maskz_fixupimm_round_pd(U, X, Y, Z, C, R) \ - ((__m512d)__builtin_ia32_fixupimmpd512_maskz ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(U), (R))) - -#define _mm512_fixupimm_round_ps(X, Y, Z, C, R) \ - ((__m512)__builtin_ia32_fixupimmps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(-1), (R))) - -#define _mm512_mask_fixupimm_round_ps(X, U, Y, Z, C, R) \ - ((__m512)__builtin_ia32_fixupimmps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(U), (R))) - -#define _mm512_maskz_fixupimm_round_ps(U, X, Y, Z, C, R) \ - ((__m512)__builtin_ia32_fixupimmps512_maskz ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(U), (R))) - -#define _mm_fixupimm_round_sd(X, Y, Z, C, R) \ - ((__m128d)__builtin_ia32_fixupimmsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(-1), (R))) - -#define _mm_mask_fixupimm_round_sd(X, U, Y, Z, C, R) \ - ((__m128d)__builtin_ia32_fixupimmsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), (R))) - -#define _mm_maskz_fixupimm_round_sd(U, X, Y, Z, C, R) \ - ((__m128d)__builtin_ia32_fixupimmsd_maskz ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), (R))) - -#define _mm_fixupimm_round_ss(X, Y, Z, C, R) \ - ((__m128)__builtin_ia32_fixupimmss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(-1), (R))) - -#define _mm_mask_fixupimm_round_ss(X, U, Y, Z, C, R) \ - ((__m128)__builtin_ia32_fixupimmss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), (R))) - -#define _mm_maskz_fixupimm_round_ss(U, X, Y, Z, C, R) \ - ((__m128)__builtin_ia32_fixupimmss_maskz ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), (R))) -#endif - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_movehdup_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_movshdup512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_movehdup_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movshdup512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_movehdup_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movshdup512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_moveldup_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_movsldup512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_moveldup_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movsldup512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_moveldup_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_movsldup512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_or_si512 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_or_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_or_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_or_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_or_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_porq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_or_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_porq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_or_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_porq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_xor_si512 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_xor_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_xor_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_xor_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxord512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_xor_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxorq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_xor_epi64 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxorq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_xor_epi64 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pxorq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rol_epi32 (__m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prold512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rol_epi32 (__m512i __W, __mmask16 __U, __m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prold512_mask ((__v16si) __A, __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rol_epi32 (__mmask16 __U, __m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prold512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ror_epi32 (__m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prord512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ror_epi32 (__m512i __W, __mmask16 __U, __m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prord512_mask ((__v16si) __A, __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_ror_epi32 (__mmask16 __U, __m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prord512_mask ((__v16si) __A, __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_rol_epi64 (__m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prolq512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_rol_epi64 (__m512i __W, __mmask8 __U, __m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prolq512_mask ((__v8di) __A, __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_rol_epi64 (__mmask8 __U, __m512i __A, const int __B) -{ - return (__m512i) __builtin_ia32_prolq512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ror_epi64 (__m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prorq512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ror_epi64 (__m512i __W, __mmask8 __U, __m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prorq512_mask ((__v8di) __A, __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_ror_epi64 (__mmask8 __U, __m512i __A, int __B) -{ - return (__m512i) __builtin_ia32_prorq512_mask ((__v8di) __A, __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#else -#define _mm512_rol_epi32(A, B) \ - ((__m512i)__builtin_ia32_prold512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)_mm512_undefined_si512 (), \ - (__mmask16)(-1))) -#define _mm512_mask_rol_epi32(W, U, A, B) \ - ((__m512i)__builtin_ia32_prold512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)(__m512i)(W), \ - (__mmask16)(U))) -#define _mm512_maskz_rol_epi32(U, A, B) \ - ((__m512i)__builtin_ia32_prold512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)_mm512_setzero_si512 (), \ - (__mmask16)(U))) -#define _mm512_ror_epi32(A, B) \ - ((__m512i)__builtin_ia32_prord512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)_mm512_undefined_si512 (), \ - (__mmask16)(-1))) -#define _mm512_mask_ror_epi32(W, U, A, B) \ - ((__m512i)__builtin_ia32_prord512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)(__m512i)(W), \ - (__mmask16)(U))) -#define _mm512_maskz_ror_epi32(U, A, B) \ - ((__m512i)__builtin_ia32_prord512_mask ((__v16si)(__m512i)(A), \ - (int)(B), \ - (__v16si)_mm512_setzero_si512 (), \ - (__mmask16)(U))) -#define _mm512_rol_epi64(A, B) \ - ((__m512i)__builtin_ia32_prolq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)_mm512_undefined_si512 (), \ - (__mmask8)(-1))) -#define _mm512_mask_rol_epi64(W, U, A, B) \ - ((__m512i)__builtin_ia32_prolq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)(__m512i)(W), \ - (__mmask8)(U))) -#define _mm512_maskz_rol_epi64(U, A, B) \ - ((__m512i)__builtin_ia32_prolq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)_mm512_setzero_si512 (), \ - (__mmask8)(U))) - -#define _mm512_ror_epi64(A, B) \ - ((__m512i)__builtin_ia32_prorq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)_mm512_undefined_si512 (), \ - (__mmask8)(-1))) -#define _mm512_mask_ror_epi64(W, U, A, B) \ - ((__m512i)__builtin_ia32_prorq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)(__m512i)(W), \ - (__mmask8)(U))) -#define _mm512_maskz_ror_epi64(U, A, B) \ - ((__m512i)__builtin_ia32_prorq512_mask ((__v8di)(__m512i)(A), \ - (int)(B), \ - (__v8di)_mm512_setzero_si512 (), \ - (__mmask8)(U))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_and_si512 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_and_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_and_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_and_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_and_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_and_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_and_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_pd (), - __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_andnot_si512 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_andnot_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_andnot_epi32 (__m512i __W, __mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_andnot_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_andnot_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_andnot_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_andnot_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pandnq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_pd (), - __U); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_test_epi32_mask (__m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_ptestmd512 ((__v16si) __A, - (__v16si) __B, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_test_epi32_mask (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_ptestmd512 ((__v16si) __A, - (__v16si) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_test_epi64_mask (__m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_ptestmq512 ((__v8di) __A, - (__v8di) __B, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_test_epi64_mask (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_ptestmq512 ((__v8di) __A, (__v8di) __B, __U); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_testn_epi32_mask (__m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_ptestnmd512 ((__v16si) __A, - (__v16si) __B, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_testn_epi32_mask (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_ptestnmd512 ((__v16si) __A, - (__v16si) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_testn_epi64_mask (__m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_ptestnmq512 ((__v8di) __A, - (__v8di) __B, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_testn_epi64_mask (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_ptestnmq512 ((__v8di) __A, - (__v8di) __B, __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpackhi_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhdq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpackhi_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhdq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpackhi_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhdq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpackhi_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpackhi_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpackhi_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckhqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpacklo_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckldq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpacklo_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckldq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpacklo_epi32 (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpckldq512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpacklo_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpcklqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpacklo_epi64 (__m512i __W, __mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpcklqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpacklo_epi64 (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_punpcklqdq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -#ifdef __x86_64__ -#ifdef __OPTIMIZE__ -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_u64 (__m128 __A, const int __R) -{ - return (unsigned long long) __builtin_ia32_vcvtss2usi64 ((__v4sf) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_si64 (__m128 __A, const int __R) -{ - return (long long) __builtin_ia32_vcvtss2si64 ((__v4sf) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_i64 (__m128 __A, const int __R) -{ - return (long long) __builtin_ia32_vcvtss2si64 ((__v4sf) __A, __R); -} - -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_u64 (__m128 __A, const int __R) -{ - return (unsigned long long) __builtin_ia32_vcvttss2usi64 ((__v4sf) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_i64 (__m128 __A, const int __R) -{ - return (long long) __builtin_ia32_vcvttss2si64 ((__v4sf) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_si64 (__m128 __A, const int __R) -{ - return (long long) __builtin_ia32_vcvttss2si64 ((__v4sf) __A, __R); -} -#else -#define _mm_cvt_roundss_u64(A, B) \ - ((unsigned long long)__builtin_ia32_vcvtss2usi64(A, B)) - -#define _mm_cvt_roundss_si64(A, B) \ - ((long long)__builtin_ia32_vcvtss2si64(A, B)) - -#define _mm_cvt_roundss_i64(A, B) \ - ((long long)__builtin_ia32_vcvtss2si64(A, B)) - -#define _mm_cvtt_roundss_u64(A, B) \ - ((unsigned long long)__builtin_ia32_vcvttss2usi64(A, B)) - -#define _mm_cvtt_roundss_i64(A, B) \ - ((long long)__builtin_ia32_vcvttss2si64(A, B)) - -#define _mm_cvtt_roundss_si64(A, B) \ - ((long long)__builtin_ia32_vcvttss2si64(A, B)) -#endif -#endif - -#ifdef __OPTIMIZE__ -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_u32 (__m128 __A, const int __R) -{ - return (unsigned) __builtin_ia32_vcvtss2usi32 ((__v4sf) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_si32 (__m128 __A, const int __R) -{ - return (int) __builtin_ia32_vcvtss2si32 ((__v4sf) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_i32 (__m128 __A, const int __R) -{ - return (int) __builtin_ia32_vcvtss2si32 ((__v4sf) __A, __R); -} - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_u32 (__m128 __A, const int __R) -{ - return (unsigned) __builtin_ia32_vcvttss2usi32 ((__v4sf) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_i32 (__m128 __A, const int __R) -{ - return (int) __builtin_ia32_vcvttss2si32 ((__v4sf) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundss_si32 (__m128 __A, const int __R) -{ - return (int) __builtin_ia32_vcvttss2si32 ((__v4sf) __A, __R); -} -#else -#define _mm_cvt_roundss_u32(A, B) \ - ((unsigned)__builtin_ia32_vcvtss2usi32(A, B)) - -#define _mm_cvt_roundss_si32(A, B) \ - ((int)__builtin_ia32_vcvtss2si32(A, B)) - -#define _mm_cvt_roundss_i32(A, B) \ - ((int)__builtin_ia32_vcvtss2si32(A, B)) - -#define _mm_cvtt_roundss_u32(A, B) \ - ((unsigned)__builtin_ia32_vcvttss2usi32(A, B)) - -#define _mm_cvtt_roundss_si32(A, B) \ - ((int)__builtin_ia32_vcvttss2si32(A, B)) - -#define _mm_cvtt_roundss_i32(A, B) \ - ((int)__builtin_ia32_vcvttss2si32(A, B)) -#endif - -#ifdef __x86_64__ -#ifdef __OPTIMIZE__ -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_u64 (__m128d __A, const int __R) -{ - return (unsigned long long) __builtin_ia32_vcvtsd2usi64 ((__v2df) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_si64 (__m128d __A, const int __R) -{ - return (long long) __builtin_ia32_vcvtsd2si64 ((__v2df) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_i64 (__m128d __A, const int __R) -{ - return (long long) __builtin_ia32_vcvtsd2si64 ((__v2df) __A, __R); -} - -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_u64 (__m128d __A, const int __R) -{ - return (unsigned long long) __builtin_ia32_vcvttsd2usi64 ((__v2df) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_si64 (__m128d __A, const int __R) -{ - return (long long) __builtin_ia32_vcvttsd2si64 ((__v2df) __A, __R); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_i64 (__m128d __A, const int __R) -{ - return (long long) __builtin_ia32_vcvttsd2si64 ((__v2df) __A, __R); -} -#else -#define _mm_cvt_roundsd_u64(A, B) \ - ((unsigned long long)__builtin_ia32_vcvtsd2usi64(A, B)) - -#define _mm_cvt_roundsd_si64(A, B) \ - ((long long)__builtin_ia32_vcvtsd2si64(A, B)) - -#define _mm_cvt_roundsd_i64(A, B) \ - ((long long)__builtin_ia32_vcvtsd2si64(A, B)) - -#define _mm_cvtt_roundsd_u64(A, B) \ - ((unsigned long long)__builtin_ia32_vcvttsd2usi64(A, B)) - -#define _mm_cvtt_roundsd_si64(A, B) \ - ((long long)__builtin_ia32_vcvttsd2si64(A, B)) - -#define _mm_cvtt_roundsd_i64(A, B) \ - ((long long)__builtin_ia32_vcvttsd2si64(A, B)) -#endif -#endif - -#ifdef __OPTIMIZE__ -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_u32 (__m128d __A, const int __R) -{ - return (unsigned) __builtin_ia32_vcvtsd2usi32 ((__v2df) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_si32 (__m128d __A, const int __R) -{ - return (int) __builtin_ia32_vcvtsd2si32 ((__v2df) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_i32 (__m128d __A, const int __R) -{ - return (int) __builtin_ia32_vcvtsd2si32 ((__v2df) __A, __R); -} - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_u32 (__m128d __A, const int __R) -{ - return (unsigned) __builtin_ia32_vcvttsd2usi32 ((__v2df) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_i32 (__m128d __A, const int __R) -{ - return (int) __builtin_ia32_vcvttsd2si32 ((__v2df) __A, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_roundsd_si32 (__m128d __A, const int __R) -{ - return (int) __builtin_ia32_vcvttsd2si32 ((__v2df) __A, __R); -} -#else -#define _mm_cvt_roundsd_u32(A, B) \ - ((unsigned)__builtin_ia32_vcvtsd2usi32(A, B)) - -#define _mm_cvt_roundsd_si32(A, B) \ - ((int)__builtin_ia32_vcvtsd2si32(A, B)) - -#define _mm_cvt_roundsd_i32(A, B) \ - ((int)__builtin_ia32_vcvtsd2si32(A, B)) - -#define _mm_cvtt_roundsd_u32(A, B) \ - ((unsigned)__builtin_ia32_vcvttsd2usi32(A, B)) - -#define _mm_cvtt_roundsd_si32(A, B) \ - ((int)__builtin_ia32_vcvttsd2si32(A, B)) - -#define _mm_cvtt_roundsd_i32(A, B) \ - ((int)__builtin_ia32_vcvttsd2si32(A, B)) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_movedup_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_movddup512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_movedup_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_movddup512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_movedup_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_movddup512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpacklo_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpcklpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpacklo_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpcklpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpacklo_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpcklpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpackhi_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpckhpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpackhi_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpckhpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpackhi_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_unpckhpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpackhi_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpckhps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpackhi_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpckhps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpackhi_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpckhps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundps_pd (__m256 __A, const int __R) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundps_pd (__m512d __W, __mmask8 __U, __m256 __A, - const int __R) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundps_pd (__mmask8 __U, __m256 __A, const int __R) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundph_ps (__m256i __A, const int __R) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundph_ps (__m512 __W, __mmask16 __U, __m256i __A, - const int __R) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundph_ps (__mmask16 __U, __m256i __A, const int __R) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundps_ph (__m512 __A, const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) - _mm256_undefined_si256 (), - -1); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtps_ph (__m512 __A, const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) - _mm256_undefined_si256 (), - -1); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundps_ph (__m256i __U, __mmask16 __W, __m512 __A, - const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) __U, - (__mmask16) __W); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtps_ph (__m256i __U, __mmask16 __W, __m512 __A, const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) __U, - (__mmask16) __W); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundps_ph (__mmask16 __W, __m512 __A, const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) - _mm256_setzero_si256 (), - (__mmask16) __W); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtps_ph (__mmask16 __W, __m512 __A, const int __I) -{ - return (__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf) __A, - __I, - (__v16hi) - _mm256_setzero_si256 (), - (__mmask16) __W); -} -#else -#define _mm512_cvt_roundps_pd(A, B) \ - (__m512d)__builtin_ia32_cvtps2pd512_mask(A, (__v8df)_mm512_undefined_pd(), -1, B) - -#define _mm512_mask_cvt_roundps_pd(W, U, A, B) \ - (__m512d)__builtin_ia32_cvtps2pd512_mask(A, (__v8df)(W), U, B) - -#define _mm512_maskz_cvt_roundps_pd(U, A, B) \ - (__m512d)__builtin_ia32_cvtps2pd512_mask(A, (__v8df)_mm512_setzero_pd(), U, B) - -#define _mm512_cvt_roundph_ps(A, B) \ - (__m512)__builtin_ia32_vcvtph2ps512_mask((__v16hi)(A), (__v16sf)_mm512_undefined_ps(), -1, B) - -#define _mm512_mask_cvt_roundph_ps(W, U, A, B) \ - (__m512)__builtin_ia32_vcvtph2ps512_mask((__v16hi)(A), (__v16sf)(W), U, B) - -#define _mm512_maskz_cvt_roundph_ps(U, A, B) \ - (__m512)__builtin_ia32_vcvtph2ps512_mask((__v16hi)(A), (__v16sf)_mm512_setzero_ps(), U, B) - -#define _mm512_cvt_roundps_ph(A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)_mm256_undefined_si256 (), -1)) -#define _mm512_cvtps_ph(A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)_mm256_undefined_si256 (), -1)) -#define _mm512_mask_cvt_roundps_ph(U, W, A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)(__m256i)(U), (__mmask16) (W))) -#define _mm512_mask_cvtps_ph(U, W, A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)(__m256i)(U), (__mmask16) (W))) -#define _mm512_maskz_cvt_roundps_ph(W, A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)_mm256_setzero_si256 (), (__mmask16) (W))) -#define _mm512_maskz_cvtps_ph(W, A, I) \ - ((__m256i) __builtin_ia32_vcvtps2ph512_mask ((__v16sf)(__m512) A, (int) (I),\ - (__v16hi)_mm256_setzero_si256 (), (__mmask16) (W))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvt_roundpd_ps (__m512d __A, const int __R) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) - _mm256_undefined_ps (), - (__mmask8) -1, __R); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvt_roundpd_ps (__m256 __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) __W, - (__mmask8) __U, __R); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvt_roundpd_ps (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) - _mm256_setzero_ps (), - (__mmask8) __U, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundsd_ss (__m128 __A, __m128d __B, const int __R) -{ - return (__m128) __builtin_ia32_cvtsd2ss_round ((__v4sf) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_roundss_sd (__m128d __A, __m128 __B, const int __R) -{ - return (__m128d) __builtin_ia32_cvtss2sd_round ((__v2df) __A, - (__v4sf) __B, - __R); -} -#else -#define _mm512_cvt_roundpd_ps(A, B) \ - (__m256)__builtin_ia32_cvtpd2ps512_mask(A, (__v8sf)_mm256_undefined_ps(), -1, B) - -#define _mm512_mask_cvt_roundpd_ps(W, U, A, B) \ - (__m256)__builtin_ia32_cvtpd2ps512_mask(A, (__v8sf)(W), U, B) - -#define _mm512_maskz_cvt_roundpd_ps(U, A, B) \ - (__m256)__builtin_ia32_cvtpd2ps512_mask(A, (__v8sf)_mm256_setzero_ps(), U, B) - -#define _mm_cvt_roundsd_ss(A, B, C) \ - (__m128)__builtin_ia32_cvtsd2ss_round(A, B, C) - -#define _mm_cvt_roundss_sd(A, B, C) \ - (__m128d)__builtin_ia32_cvtss2sd_round(A, B, C) -#endif - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_stream_si512 (__m512i * __P, __m512i __A) -{ - __builtin_ia32_movntdq512 ((__v8di *) __P, (__v8di) __A); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_stream_ps (float *__P, __m512 __A) -{ - __builtin_ia32_movntps512 (__P, (__v16sf) __A); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_stream_pd (double *__P, __m512d __A) -{ - __builtin_ia32_movntpd512 (__P, (__v8df) __A); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_stream_load_si512 (void *__P) -{ - return __builtin_ia32_movntdqa512 ((__v8di *)__P); -} - -/* Constants for mantissa extraction */ -typedef enum -{ - _MM_MANT_NORM_1_2, /* interval [1, 2) */ - _MM_MANT_NORM_p5_2, /* interval [0.5, 2) */ - _MM_MANT_NORM_p5_1, /* interval [0.5, 1) */ - _MM_MANT_NORM_p75_1p5 /* interval [0.75, 1.5) */ -} _MM_MANTISSA_NORM_ENUM; - -typedef enum -{ - _MM_MANT_SIGN_src, /* sign = sign(SRC) */ - _MM_MANT_SIGN_zero, /* sign = 0 */ - _MM_MANT_SIGN_nan /* DEST = NaN if sign(SRC) = 1 */ -} _MM_MANTISSA_SIGN_ENUM; - -#ifdef __OPTIMIZE__ -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getexp_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_getexpss128_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getexp_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_getexpsd128_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getexp_round_ps (__m512 __A, const int __R) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getexp_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - const int __R) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getexp_round_ps (__mmask16 __U, __m512 __A, const int __R) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getexp_round_pd (__m512d __A, const int __R) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getexp_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - const int __R) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getexp_round_pd (__mmask8 __U, __m512d __A, const int __R) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getmant_round_pd (__m512d __A, _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - _mm512_undefined_pd (), - (__mmask8) -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getmant_round_pd (__m512d __W, __mmask8 __U, __m512d __A, - _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - (__v8df) __W, __U, - __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getmant_round_pd (__mmask8 __U, __m512d __A, - _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - (__v8df) - _mm512_setzero_pd (), - __U, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getmant_round_ps (__m512 __A, _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - _mm512_undefined_ps (), - (__mmask16) -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getmant_round_ps (__m512 __W, __mmask16 __U, __m512 __A, - _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - (__v16sf) __W, __U, - __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getmant_round_ps (__mmask16 __U, __m512 __A, - _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C, const int __R) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - (__v16sf) - _mm512_setzero_ps (), - __U, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getmant_round_sd (__m128d __A, __m128d __B, - _MM_MANTISSA_NORM_ENUM __C, - _MM_MANTISSA_SIGN_ENUM __D, const int __R) -{ - return (__m128d) __builtin_ia32_getmantsd_round ((__v2df) __A, - (__v2df) __B, - (__D << 2) | __C, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getmant_round_ss (__m128 __A, __m128 __B, - _MM_MANTISSA_NORM_ENUM __C, - _MM_MANTISSA_SIGN_ENUM __D, const int __R) -{ - return (__m128) __builtin_ia32_getmantss_round ((__v4sf) __A, - (__v4sf) __B, - (__D << 2) | __C, - __R); -} - -#else -#define _mm512_getmant_round_pd(X, B, C, R) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)(__m512d)_mm512_undefined_pd(), \ - (__mmask8)-1,\ - (R))) - -#define _mm512_mask_getmant_round_pd(W, U, X, B, C, R) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)(__m512d)(W), \ - (__mmask8)(U),\ - (R))) - -#define _mm512_maskz_getmant_round_pd(U, X, B, C, R) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)(__m512d)_mm512_setzero_pd(), \ - (__mmask8)(U),\ - (R))) -#define _mm512_getmant_round_ps(X, B, C, R) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)(__m512)_mm512_undefined_ps(), \ - (__mmask16)-1,\ - (R))) - -#define _mm512_mask_getmant_round_ps(W, U, X, B, C, R) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)(__m512)(W), \ - (__mmask16)(U),\ - (R))) - -#define _mm512_maskz_getmant_round_ps(U, X, B, C, R) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)(__m512)_mm512_setzero_ps(), \ - (__mmask16)(U),\ - (R))) -#define _mm_getmant_round_sd(X, Y, C, D, R) \ - ((__m128d)__builtin_ia32_getmantsd_round ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), \ - (int)(((D)<<2) | (C)), \ - (R))) - -#define _mm_getmant_round_ss(X, Y, C, D, R) \ - ((__m128)__builtin_ia32_getmantss_round ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), \ - (int)(((D)<<2) | (C)), \ - (R))) - -#define _mm_getexp_round_ss(A, B, R) \ - ((__m128)__builtin_ia32_getexpss128_round((__v4sf)(__m128)(A), (__v4sf)(__m128)(B), R)) - -#define _mm_getexp_round_sd(A, B, R) \ - ((__m128d)__builtin_ia32_getexpsd128_round((__v2df)(__m128d)(A), (__v2df)(__m128d)(B), R)) - -#define _mm512_getexp_round_ps(A, R) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)_mm512_undefined_ps(), (__mmask16)-1, R)) - -#define _mm512_mask_getexp_round_ps(W, U, A, R) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)(__m512)(W), (__mmask16)(U), R)) - -#define _mm512_maskz_getexp_round_ps(U, A, R) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)_mm512_setzero_ps(), (__mmask16)(U), R)) - -#define _mm512_getexp_round_pd(A, R) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)_mm512_undefined_pd(), (__mmask8)-1, R)) - -#define _mm512_mask_getexp_round_pd(W, U, A, R) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)(__m512d)(W), (__mmask8)(U), R)) - -#define _mm512_maskz_getexp_round_pd(U, A, R) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)_mm512_setzero_pd(), (__mmask8)(U), R)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_roundscale_round_ps (__m512 __A, const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, __imm, - (__v16sf) - _mm512_undefined_ps (), - -1, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_roundscale_round_ps (__m512 __A, __mmask16 __B, __m512 __C, - const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __C, __imm, - (__v16sf) __A, - (__mmask16) __B, __R); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_roundscale_round_ps (__mmask16 __A, __m512 __B, - const int __imm, const int __R) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __B, - __imm, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __A, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_roundscale_round_pd (__m512d __A, const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, __imm, - (__v8df) - _mm512_undefined_pd (), - -1, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_roundscale_round_pd (__m512d __A, __mmask8 __B, - __m512d __C, const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __C, __imm, - (__v8df) __A, - (__mmask8) __B, __R); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_roundscale_round_pd (__mmask8 __A, __m512d __B, - const int __imm, const int __R) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __B, - __imm, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __A, __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roundscale_round_ss (__m128 __A, __m128 __B, const int __imm, const int __R) -{ - return (__m128) __builtin_ia32_rndscaless_round ((__v4sf) __A, - (__v4sf) __B, __imm, __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roundscale_round_sd (__m128d __A, __m128d __B, const int __imm, - const int __R) -{ - return (__m128d) __builtin_ia32_rndscalesd_round ((__v2df) __A, - (__v2df) __B, __imm, __R); -} - -#else -#define _mm512_roundscale_round_ps(A, B, R) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(A), (int)(B),\ - (__v16sf)_mm512_undefined_ps(), (__mmask16)(-1), R)) -#define _mm512_mask_roundscale_round_ps(A, B, C, D, R) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(C), \ - (int)(D), \ - (__v16sf)(__m512)(A), \ - (__mmask16)(B), R)) -#define _mm512_maskz_roundscale_round_ps(A, B, C, R) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(B), \ - (int)(C), \ - (__v16sf)_mm512_setzero_ps(),\ - (__mmask16)(A), R)) -#define _mm512_roundscale_round_pd(A, B, R) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(A), (int)(B),\ - (__v8df)_mm512_undefined_pd(), (__mmask8)(-1), R)) -#define _mm512_mask_roundscale_round_pd(A, B, C, D, R) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(C), \ - (int)(D), \ - (__v8df)(__m512d)(A), \ - (__mmask8)(B), R)) -#define _mm512_maskz_roundscale_round_pd(A, B, C, R) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(B), \ - (int)(C), \ - (__v8df)_mm512_setzero_pd(),\ - (__mmask8)(A), R)) -#define _mm_roundscale_round_ss(A, B, C, R) \ - ((__m128) __builtin_ia32_rndscaless_round ((__v4sf)(__m128)(A), \ - (__v4sf)(__m128)(B), (int)(C), R)) -#define _mm_roundscale_round_sd(A, B, C, R) \ - ((__m128d) __builtin_ia32_rndscalesd_round ((__v2df)(__m128d)(A), \ - (__v2df)(__m128d)(B), (int)(C), R)) -#endif - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_floor_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, - _MM_FROUND_FLOOR, - (__v16sf) __A, -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_floor_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, - _MM_FROUND_FLOOR, - (__v8df) __A, -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ceil_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, - _MM_FROUND_CEIL, - (__v16sf) __A, -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_ceil_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, - _MM_FROUND_CEIL, - (__v8df) __A, -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_floor_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, - _MM_FROUND_FLOOR, - (__v16sf) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_floor_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, - _MM_FROUND_FLOOR, - (__v8df) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ceil_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, - _MM_FROUND_CEIL, - (__v16sf) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_ceil_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, - _MM_FROUND_CEIL, - (__v8df) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_alignr_epi32 (__m512i __A, __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_alignd512_mask ((__v16si) __A, - (__v16si) __B, __imm, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_alignr_epi32 (__m512i __W, __mmask16 __U, __m512i __A, - __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_alignd512_mask ((__v16si) __A, - (__v16si) __B, __imm, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_alignr_epi32 (__mmask16 __U, __m512i __A, __m512i __B, - const int __imm) -{ - return (__m512i) __builtin_ia32_alignd512_mask ((__v16si) __A, - (__v16si) __B, __imm, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_alignr_epi64 (__m512i __A, __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_alignq512_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_alignr_epi64 (__m512i __W, __mmask8 __U, __m512i __A, - __m512i __B, const int __imm) -{ - return (__m512i) __builtin_ia32_alignq512_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_alignr_epi64 (__mmask8 __U, __m512i __A, __m512i __B, - const int __imm) -{ - return (__m512i) __builtin_ia32_alignq512_mask ((__v8di) __A, - (__v8di) __B, __imm, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} -#else -#define _mm512_alignr_epi32(X, Y, C) \ - ((__m512i)__builtin_ia32_alignd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C), (__v16si)_mm512_undefined_si512 (),\ - (__mmask16)-1)) - -#define _mm512_mask_alignr_epi32(W, U, X, Y, C) \ - ((__m512i)__builtin_ia32_alignd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C), (__v16si)(__m512i)(W), \ - (__mmask16)(U))) - -#define _mm512_maskz_alignr_epi32(U, X, Y, C) \ - ((__m512i)__builtin_ia32_alignd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(C), (__v16si)_mm512_setzero_si512 (),\ - (__mmask16)(U))) - -#define _mm512_alignr_epi64(X, Y, C) \ - ((__m512i)__builtin_ia32_alignq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C), (__v8di)_mm512_undefined_si512 (), \ - (__mmask8)-1)) - -#define _mm512_mask_alignr_epi64(W, U, X, Y, C) \ - ((__m512i)__builtin_ia32_alignq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C), (__v8di)(__m512i)(W), (__mmask8)(U))) - -#define _mm512_maskz_alignr_epi64(U, X, Y, C) \ - ((__m512i)__builtin_ia32_alignq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(C), (__v8di)_mm512_setzero_si512 (),\ - (__mmask8)(U))) -#endif - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpeq_epi32_mask (__m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_pcmpeqd512_mask ((__v16si) __A, - (__v16si) __B, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmpeq_epi32_mask (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_pcmpeqd512_mask ((__v16si) __A, - (__v16si) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmpeq_epi64_mask (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_pcmpeqq512_mask ((__v8di) __A, - (__v8di) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpeq_epi64_mask (__m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_pcmpeqq512_mask ((__v8di) __A, - (__v8di) __B, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpgt_epi32_mask (__m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_pcmpgtd512_mask ((__v16si) __A, - (__v16si) __B, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmpgt_epi32_mask (__mmask16 __U, __m512i __A, __m512i __B) -{ - return (__mmask16) __builtin_ia32_pcmpgtd512_mask ((__v16si) __A, - (__v16si) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmpgt_epi64_mask (__mmask8 __U, __m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_pcmpgtq512_mask ((__v8di) __A, - (__v8di) __B, __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpgt_epi64_mask (__m512i __A, __m512i __B) -{ - return (__mmask8) __builtin_ia32_pcmpgtq512_mask ((__v8di) __A, - (__v8di) __B, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpge_epi32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, 5, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpge_epu32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, 5, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpge_epi64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, 5, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpge_epu64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, 5, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmple_epi32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, 2, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmple_epu32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, 2, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmple_epi64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, 2, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmple_epu64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, 2, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmplt_epi32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, 1, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmplt_epu32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, 1, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmplt_epi64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, 1, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmplt_epu64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, 1, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpneq_epi32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, 4, - (__mmask16) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpneq_epu32_mask (__m512i __X, __m512i __Y) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, 4, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpneq_epi64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, 4, - (__mmask8) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmpneq_epu64_mask (__m512i __X, __m512i __Y) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, 4, - (__mmask8) -1); -} - -#define _MM_CMPINT_EQ 0x0 -#define _MM_CMPINT_LT 0x1 -#define _MM_CMPINT_LE 0x2 -#define _MM_CMPINT_UNUSED 0x3 -#define _MM_CMPINT_NE 0x4 -#define _MM_CMPINT_NLT 0x5 -#define _MM_CMPINT_GE 0x5 -#define _MM_CMPINT_NLE 0x6 -#define _MM_CMPINT_GT 0x6 - -#ifdef __OPTIMIZE__ -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_epi64_mask (__m512i __X, __m512i __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, __P, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_epi32_mask (__m512i __X, __m512i __Y, const int __P) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, __P, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_epu64_mask (__m512i __X, __m512i __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, __P, - (__mmask8) -1); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_epu32_mask (__m512i __X, __m512i __Y, const int __P) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, __P, - (__mmask16) -1); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_round_pd_mask (__m512d __X, __m512d __Y, const int __P, - const int __R) -{ - return (__mmask8) __builtin_ia32_cmppd512_mask ((__v8df) __X, - (__v8df) __Y, __P, - (__mmask8) -1, __R); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_round_ps_mask (__m512 __X, __m512 __Y, const int __P, const int __R) -{ - return (__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf) __X, - (__v16sf) __Y, __P, - (__mmask16) -1, __R); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_epi64_mask (__mmask8 __U, __m512i __X, __m512i __Y, - const int __P) -{ - return (__mmask8) __builtin_ia32_cmpq512_mask ((__v8di) __X, - (__v8di) __Y, __P, - (__mmask8) __U); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_epi32_mask (__mmask16 __U, __m512i __X, __m512i __Y, - const int __P) -{ - return (__mmask16) __builtin_ia32_cmpd512_mask ((__v16si) __X, - (__v16si) __Y, __P, - (__mmask16) __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_epu64_mask (__mmask8 __U, __m512i __X, __m512i __Y, - const int __P) -{ - return (__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di) __X, - (__v8di) __Y, __P, - (__mmask8) __U); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_epu32_mask (__mmask16 __U, __m512i __X, __m512i __Y, - const int __P) -{ - return (__mmask16) __builtin_ia32_ucmpd512_mask ((__v16si) __X, - (__v16si) __Y, __P, - (__mmask16) __U); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_round_pd_mask (__mmask8 __U, __m512d __X, __m512d __Y, - const int __P, const int __R) -{ - return (__mmask8) __builtin_ia32_cmppd512_mask ((__v8df) __X, - (__v8df) __Y, __P, - (__mmask8) __U, __R); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_round_ps_mask (__mmask16 __U, __m512 __X, __m512 __Y, - const int __P, const int __R) -{ - return (__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf) __X, - (__v16sf) __Y, __P, - (__mmask16) __U, __R); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_round_sd_mask (__m128d __X, __m128d __Y, const int __P, const int __R) -{ - return (__mmask8) __builtin_ia32_cmpsd_mask ((__v2df) __X, - (__v2df) __Y, __P, - (__mmask8) -1, __R); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_cmp_round_sd_mask (__mmask8 __M, __m128d __X, __m128d __Y, - const int __P, const int __R) -{ - return (__mmask8) __builtin_ia32_cmpsd_mask ((__v2df) __X, - (__v2df) __Y, __P, - (__mmask8) __M, __R); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_round_ss_mask (__m128 __X, __m128 __Y, const int __P, const int __R) -{ - return (__mmask8) __builtin_ia32_cmpss_mask ((__v4sf) __X, - (__v4sf) __Y, __P, - (__mmask8) -1, __R); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_cmp_round_ss_mask (__mmask8 __M, __m128 __X, __m128 __Y, - const int __P, const int __R) -{ - return (__mmask8) __builtin_ia32_cmpss_mask ((__v4sf) __X, - (__v4sf) __Y, __P, - (__mmask8) __M, __R); -} - -#else -#define _mm512_cmp_epi64_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(P),\ - (__mmask8)-1)) - -#define _mm512_cmp_epi32_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(P),\ - (__mmask16)-1)) - -#define _mm512_cmp_epu64_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(P),\ - (__mmask8)-1)) - -#define _mm512_cmp_epu32_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_ucmpd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(P),\ - (__mmask16)-1)) - -#define _mm512_cmp_round_pd_mask(X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmppd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(P),\ - (__mmask8)-1, R)) - -#define _mm512_cmp_round_ps_mask(X, Y, P, R) \ - ((__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(P),\ - (__mmask16)-1, R)) - -#define _mm512_mask_cmp_epi64_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(P),\ - (__mmask8)M)) - -#define _mm512_mask_cmp_epi32_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(P),\ - (__mmask16)M)) - -#define _mm512_mask_cmp_epu64_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_ucmpq512_mask ((__v8di)(__m512i)(X), \ - (__v8di)(__m512i)(Y), (int)(P),\ - (__mmask8)M)) - -#define _mm512_mask_cmp_epu32_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_ucmpd512_mask ((__v16si)(__m512i)(X), \ - (__v16si)(__m512i)(Y), (int)(P),\ - (__mmask16)M)) - -#define _mm512_mask_cmp_round_pd_mask(M, X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmppd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(P),\ - (__mmask8)M, R)) - -#define _mm512_mask_cmp_round_ps_mask(M, X, Y, P, R) \ - ((__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(P),\ - (__mmask16)M, R)) - -#define _mm_cmp_round_sd_mask(X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmpsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P),\ - (__mmask8)-1, R)) - -#define _mm_mask_cmp_round_sd_mask(M, X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmpsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P),\ - (M), R)) - -#define _mm_cmp_round_ss_mask(X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmpss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P), \ - (__mmask8)-1, R)) - -#define _mm_mask_cmp_round_ss_mask(M, X, Y, P, R) \ - ((__mmask8) __builtin_ia32_cmpss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P), \ - (M), R)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32gather_ps (__m512i __index, float const *__addr, int __scale) -{ - __m512 v1_old = _mm512_undefined_ps (); - __mmask16 mask = 0xFFFF; - - return (__m512) __builtin_ia32_gathersiv16sf ((__v16sf) v1_old, - __addr, - (__v16si) __index, - mask, __scale); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32gather_ps (__m512 v1_old, __mmask16 __mask, - __m512i __index, float const *__addr, int __scale) -{ - return (__m512) __builtin_ia32_gathersiv16sf ((__v16sf) v1_old, - __addr, - (__v16si) __index, - __mask, __scale); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32gather_pd (__m256i __index, double const *__addr, int __scale) -{ - __m512d v1_old = _mm512_undefined_pd (); - __mmask8 mask = 0xFF; - - return (__m512d) __builtin_ia32_gathersiv8df ((__v8df) v1_old, - __addr, - (__v8si) __index, mask, - __scale); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32gather_pd (__m512d __v1_old, __mmask8 __mask, - __m256i __index, double const *__addr, int __scale) -{ - return (__m512d) __builtin_ia32_gathersiv8df ((__v8df) __v1_old, - __addr, - (__v8si) __index, - __mask, __scale); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64gather_ps (__m512i __index, float const *__addr, int __scale) -{ - __m256 v1_old = _mm256_undefined_ps (); - __mmask8 mask = 0xFF; - - return (__m256) __builtin_ia32_gatherdiv16sf ((__v8sf) v1_old, - __addr, - (__v8di) __index, mask, - __scale); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64gather_ps (__m256 __v1_old, __mmask8 __mask, - __m512i __index, float const *__addr, int __scale) -{ - return (__m256) __builtin_ia32_gatherdiv16sf ((__v8sf) __v1_old, - __addr, - (__v8di) __index, - __mask, __scale); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64gather_pd (__m512i __index, double const *__addr, int __scale) -{ - __m512d v1_old = _mm512_undefined_pd (); - __mmask8 mask = 0xFF; - - return (__m512d) __builtin_ia32_gatherdiv8df ((__v8df) v1_old, - __addr, - (__v8di) __index, mask, - __scale); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64gather_pd (__m512d __v1_old, __mmask8 __mask, - __m512i __index, double const *__addr, int __scale) -{ - return (__m512d) __builtin_ia32_gatherdiv8df ((__v8df) __v1_old, - __addr, - (__v8di) __index, - __mask, __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32gather_epi32 (__m512i __index, int const *__addr, int __scale) -{ - __m512i v1_old = _mm512_undefined_si512 (); - __mmask16 mask = 0xFFFF; - - return (__m512i) __builtin_ia32_gathersiv16si ((__v16si) v1_old, - __addr, - (__v16si) __index, - mask, __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32gather_epi32 (__m512i __v1_old, __mmask16 __mask, - __m512i __index, int const *__addr, int __scale) -{ - return (__m512i) __builtin_ia32_gathersiv16si ((__v16si) __v1_old, - __addr, - (__v16si) __index, - __mask, __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32gather_epi64 (__m256i __index, long long const *__addr, int __scale) -{ - __m512i v1_old = _mm512_undefined_si512 (); - __mmask8 mask = 0xFF; - - return (__m512i) __builtin_ia32_gathersiv8di ((__v8di) v1_old, - __addr, - (__v8si) __index, mask, - __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32gather_epi64 (__m512i __v1_old, __mmask8 __mask, - __m256i __index, long long const *__addr, - int __scale) -{ - return (__m512i) __builtin_ia32_gathersiv8di ((__v8di) __v1_old, - __addr, - (__v8si) __index, - __mask, __scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64gather_epi32 (__m512i __index, int const *__addr, int __scale) -{ - __m256i v1_old = _mm256_undefined_si256 (); - __mmask8 mask = 0xFF; - - return (__m256i) __builtin_ia32_gatherdiv16si ((__v8si) v1_old, - __addr, - (__v8di) __index, - mask, __scale); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64gather_epi32 (__m256i __v1_old, __mmask8 __mask, - __m512i __index, int const *__addr, int __scale) -{ - return (__m256i) __builtin_ia32_gatherdiv16si ((__v8si) __v1_old, - __addr, - (__v8di) __index, - __mask, __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64gather_epi64 (__m512i __index, long long const *__addr, int __scale) -{ - __m512i v1_old = _mm512_undefined_si512 (); - __mmask8 mask = 0xFF; - - return (__m512i) __builtin_ia32_gatherdiv8di ((__v8di) v1_old, - __addr, - (__v8di) __index, mask, - __scale); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64gather_epi64 (__m512i __v1_old, __mmask8 __mask, - __m512i __index, long long const *__addr, - int __scale) -{ - return (__m512i) __builtin_ia32_gatherdiv8di ((__v8di) __v1_old, - __addr, - (__v8di) __index, - __mask, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32scatter_ps (float *__addr, __m512i __index, __m512 __v1, int __scale) -{ - __builtin_ia32_scattersiv16sf (__addr, (__mmask16) 0xFFFF, - (__v16si) __index, (__v16sf) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32scatter_ps (float *__addr, __mmask16 __mask, - __m512i __index, __m512 __v1, int __scale) -{ - __builtin_ia32_scattersiv16sf (__addr, __mask, (__v16si) __index, - (__v16sf) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32scatter_pd (double *__addr, __m256i __index, __m512d __v1, - int __scale) -{ - __builtin_ia32_scattersiv8df (__addr, (__mmask8) 0xFF, - (__v8si) __index, (__v8df) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32scatter_pd (double *__addr, __mmask8 __mask, - __m256i __index, __m512d __v1, int __scale) -{ - __builtin_ia32_scattersiv8df (__addr, __mask, (__v8si) __index, - (__v8df) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64scatter_ps (float *__addr, __m512i __index, __m256 __v1, int __scale) -{ - __builtin_ia32_scatterdiv16sf (__addr, (__mmask8) 0xFF, - (__v8di) __index, (__v8sf) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64scatter_ps (float *__addr, __mmask8 __mask, - __m512i __index, __m256 __v1, int __scale) -{ - __builtin_ia32_scatterdiv16sf (__addr, __mask, (__v8di) __index, - (__v8sf) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64scatter_pd (double *__addr, __m512i __index, __m512d __v1, - int __scale) -{ - __builtin_ia32_scatterdiv8df (__addr, (__mmask8) 0xFF, - (__v8di) __index, (__v8df) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64scatter_pd (double *__addr, __mmask8 __mask, - __m512i __index, __m512d __v1, int __scale) -{ - __builtin_ia32_scatterdiv8df (__addr, __mask, (__v8di) __index, - (__v8df) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32scatter_epi32 (int *__addr, __m512i __index, - __m512i __v1, int __scale) -{ - __builtin_ia32_scattersiv16si (__addr, (__mmask16) 0xFFFF, - (__v16si) __index, (__v16si) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32scatter_epi32 (int *__addr, __mmask16 __mask, - __m512i __index, __m512i __v1, int __scale) -{ - __builtin_ia32_scattersiv16si (__addr, __mask, (__v16si) __index, - (__v16si) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i32scatter_epi64 (long long *__addr, __m256i __index, - __m512i __v1, int __scale) -{ - __builtin_ia32_scattersiv8di (__addr, (__mmask8) 0xFF, - (__v8si) __index, (__v8di) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i32scatter_epi64 (long long *__addr, __mmask8 __mask, - __m256i __index, __m512i __v1, int __scale) -{ - __builtin_ia32_scattersiv8di (__addr, __mask, (__v8si) __index, - (__v8di) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64scatter_epi32 (int *__addr, __m512i __index, - __m256i __v1, int __scale) -{ - __builtin_ia32_scatterdiv16si (__addr, (__mmask8) 0xFF, - (__v8di) __index, (__v8si) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64scatter_epi32 (int *__addr, __mmask8 __mask, - __m512i __index, __m256i __v1, int __scale) -{ - __builtin_ia32_scatterdiv16si (__addr, __mask, (__v8di) __index, - (__v8si) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_i64scatter_epi64 (long long *__addr, __m512i __index, - __m512i __v1, int __scale) -{ - __builtin_ia32_scatterdiv8di (__addr, (__mmask8) 0xFF, - (__v8di) __index, (__v8di) __v1, __scale); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_i64scatter_epi64 (long long *__addr, __mmask8 __mask, - __m512i __index, __m512i __v1, int __scale) -{ - __builtin_ia32_scatterdiv8di (__addr, __mask, (__v8di) __index, - (__v8di) __v1, __scale); -} -#else -#define _mm512_i32gather_ps(INDEX, ADDR, SCALE) \ - (__m512) __builtin_ia32_gathersiv16sf ((__v16sf)_mm512_undefined_ps(),\ - (float const *)ADDR, \ - (__v16si)(__m512i)INDEX, \ - (__mmask16)0xFFFF, (int)SCALE) - -#define _mm512_mask_i32gather_ps(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512) __builtin_ia32_gathersiv16sf ((__v16sf)(__m512)V1OLD, \ - (float const *)ADDR, \ - (__v16si)(__m512i)INDEX, \ - (__mmask16)MASK, (int)SCALE) - -#define _mm512_i32gather_pd(INDEX, ADDR, SCALE) \ - (__m512d) __builtin_ia32_gathersiv8df ((__v8df)_mm512_undefined_pd(), \ - (double const *)ADDR, \ - (__v8si)(__m256i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i32gather_pd(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512d) __builtin_ia32_gathersiv8df ((__v8df)(__m512d)V1OLD, \ - (double const *)ADDR, \ - (__v8si)(__m256i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i64gather_ps(INDEX, ADDR, SCALE) \ - (__m256) __builtin_ia32_gatherdiv16sf ((__v8sf)_mm256_undefined_ps(), \ - (float const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i64gather_ps(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m256) __builtin_ia32_gatherdiv16sf ((__v8sf)(__m256)V1OLD, \ - (float const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i64gather_pd(INDEX, ADDR, SCALE) \ - (__m512d) __builtin_ia32_gatherdiv8df ((__v8df)_mm512_undefined_pd(), \ - (double const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i64gather_pd(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512d) __builtin_ia32_gatherdiv8df ((__v8df)(__m512d)V1OLD, \ - (double const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i32gather_epi32(INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gathersiv16si ((__v16si)_mm512_undefined_si512 (), \ - (int const *)ADDR, \ - (__v16si)(__m512i)INDEX, \ - (__mmask16)0xFFFF, (int)SCALE) - -#define _mm512_mask_i32gather_epi32(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gathersiv16si ((__v16si)(__m512i)V1OLD, \ - (int const *)ADDR, \ - (__v16si)(__m512i)INDEX, \ - (__mmask16)MASK, (int)SCALE) - -#define _mm512_i32gather_epi64(INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gathersiv8di ((__v8di)_mm512_undefined_si512 (), \ - (long long const *)ADDR, \ - (__v8si)(__m256i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i32gather_epi64(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gathersiv8di ((__v8di)(__m512i)V1OLD, \ - (long long const *)ADDR, \ - (__v8si)(__m256i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i64gather_epi32(INDEX, ADDR, SCALE) \ - (__m256i) __builtin_ia32_gatherdiv16si ((__v8si)_mm256_undefined_si256(), \ - (int const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i64gather_epi32(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m256i) __builtin_ia32_gatherdiv16si ((__v8si)(__m256i)V1OLD, \ - (int const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i64gather_epi64(INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gatherdiv8di ((__v8di)_mm512_undefined_si512 (), \ - (long long const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)0xFF, (int)SCALE) - -#define _mm512_mask_i64gather_epi64(V1OLD, MASK, INDEX, ADDR, SCALE) \ - (__m512i) __builtin_ia32_gatherdiv8di ((__v8di)(__m512i)V1OLD, \ - (long long const *)ADDR, \ - (__v8di)(__m512i)INDEX, \ - (__mmask8)MASK, (int)SCALE) - -#define _mm512_i32scatter_ps(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv16sf ((float *)ADDR, (__mmask16)0xFFFF, \ - (__v16si)(__m512i)INDEX, \ - (__v16sf)(__m512)V1, (int)SCALE) - -#define _mm512_mask_i32scatter_ps(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv16sf ((float *)ADDR, (__mmask16)MASK, \ - (__v16si)(__m512i)INDEX, \ - (__v16sf)(__m512)V1, (int)SCALE) - -#define _mm512_i32scatter_pd(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv8df ((double *)ADDR, (__mmask8)0xFF, \ - (__v8si)(__m256i)INDEX, \ - (__v8df)(__m512d)V1, (int)SCALE) - -#define _mm512_mask_i32scatter_pd(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv8df ((double *)ADDR, (__mmask8)MASK, \ - (__v8si)(__m256i)INDEX, \ - (__v8df)(__m512d)V1, (int)SCALE) - -#define _mm512_i64scatter_ps(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv16sf ((float *)ADDR, (__mmask8)0xFF, \ - (__v8di)(__m512i)INDEX, \ - (__v8sf)(__m256)V1, (int)SCALE) - -#define _mm512_mask_i64scatter_ps(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv16sf ((float *)ADDR, (__mmask16)MASK, \ - (__v8di)(__m512i)INDEX, \ - (__v8sf)(__m256)V1, (int)SCALE) - -#define _mm512_i64scatter_pd(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv8df ((double *)ADDR, (__mmask8)0xFF, \ - (__v8di)(__m512i)INDEX, \ - (__v8df)(__m512d)V1, (int)SCALE) - -#define _mm512_mask_i64scatter_pd(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv8df ((double *)ADDR, (__mmask8)MASK, \ - (__v8di)(__m512i)INDEX, \ - (__v8df)(__m512d)V1, (int)SCALE) - -#define _mm512_i32scatter_epi32(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv16si ((int *)ADDR, (__mmask16)0xFFFF, \ - (__v16si)(__m512i)INDEX, \ - (__v16si)(__m512i)V1, (int)SCALE) - -#define _mm512_mask_i32scatter_epi32(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv16si ((int *)ADDR, (__mmask16)MASK, \ - (__v16si)(__m512i)INDEX, \ - (__v16si)(__m512i)V1, (int)SCALE) - -#define _mm512_i32scatter_epi64(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv8di ((long long *)ADDR, (__mmask8)0xFF, \ - (__v8si)(__m256i)INDEX, \ - (__v8di)(__m512i)V1, (int)SCALE) - -#define _mm512_mask_i32scatter_epi64(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scattersiv8di ((long long *)ADDR, (__mmask8)MASK, \ - (__v8si)(__m256i)INDEX, \ - (__v8di)(__m512i)V1, (int)SCALE) - -#define _mm512_i64scatter_epi32(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv16si ((int *)ADDR, (__mmask8)0xFF, \ - (__v8di)(__m512i)INDEX, \ - (__v8si)(__m256i)V1, (int)SCALE) - -#define _mm512_mask_i64scatter_epi32(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv16si ((int *)ADDR, (__mmask8)MASK, \ - (__v8di)(__m512i)INDEX, \ - (__v8si)(__m256i)V1, (int)SCALE) - -#define _mm512_i64scatter_epi64(ADDR, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv8di ((long long *)ADDR, (__mmask8)0xFF, \ - (__v8di)(__m512i)INDEX, \ - (__v8di)(__m512i)V1, (int)SCALE) - -#define _mm512_mask_i64scatter_epi64(ADDR, MASK, INDEX, V1, SCALE) \ - __builtin_ia32_scatterdiv8di ((long long *)ADDR, (__mmask8)MASK, \ - (__v8di)(__m512i)INDEX, \ - (__v8di)(__m512i)V1, (int)SCALE) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compress_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_compressdf512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_compress_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_compressdf512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compressstoreu_pd (void *__P, __mmask8 __U, __m512d __A) -{ - __builtin_ia32_compressstoredf512_mask ((__v8df *) __P, (__v8df) __A, - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compress_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_compresssf512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_compress_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_compresssf512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compressstoreu_ps (void *__P, __mmask16 __U, __m512 __A) -{ - __builtin_ia32_compressstoresf512_mask ((__v16sf *) __P, (__v16sf) __A, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compress_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_compressdi512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_compress_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_compressdi512_mask ((__v8di) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compressstoreu_epi64 (void *__P, __mmask8 __U, __m512i __A) -{ - __builtin_ia32_compressstoredi512_mask ((__v8di *) __P, (__v8di) __A, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compress_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_compresssi512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_compress_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_compresssi512_mask ((__v16si) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_compressstoreu_epi32 (void *__P, __mmask16 __U, __m512i __A) -{ - __builtin_ia32_compressstoresi512_mask ((__v16si *) __P, (__v16si) __A, - (__mmask16) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expand_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_expanddf512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expand_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_expanddf512_maskz ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expandloadu_pd (__m512d __W, __mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_expandloaddf512_mask ((const __v8df *) __P, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expandloadu_pd (__mmask8 __U, void const *__P) -{ - return (__m512d) __builtin_ia32_expandloaddf512_maskz ((const __v8df *) __P, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expand_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_expandsf512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expand_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_expandsf512_maskz ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expandloadu_ps (__m512 __W, __mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_expandloadsf512_mask ((const __v16sf *) __P, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expandloadu_ps (__mmask16 __U, void const *__P) -{ - return (__m512) __builtin_ia32_expandloadsf512_maskz ((const __v16sf *) __P, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expand_epi64 (__m512i __W, __mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_expanddi512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expand_epi64 (__mmask8 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_expanddi512_maskz ((__v8di) __A, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expandloadu_epi64 (__m512i __W, __mmask8 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_expandloaddi512_mask ((const __v8di *) __P, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expandloadu_epi64 (__mmask8 __U, void const *__P) -{ - return (__m512i) - __builtin_ia32_expandloaddi512_maskz ((const __v8di *) __P, - (__v8di) - _mm512_setzero_si512 (), - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expand_epi32 (__m512i __W, __mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_expandsi512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expand_epi32 (__mmask16 __U, __m512i __A) -{ - return (__m512i) __builtin_ia32_expandsi512_maskz ((__v16si) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_expandloadu_epi32 (__m512i __W, __mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_expandloadsi512_mask ((const __v16si *) __P, - (__v16si) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_expandloadu_epi32 (__mmask16 __U, void const *__P) -{ - return (__m512i) __builtin_ia32_expandloadsi512_maskz ((const __v16si *) __P, - (__v16si) - _mm512_setzero_si512 - (), (__mmask16) __U); -} - -/* Mask arithmetic operations */ -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kand (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kandhi ((__mmask16) __A, (__mmask16) __B); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kandn (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kandnhi ((__mmask16) __A, (__mmask16) __B); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kor (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_korhi ((__mmask16) __A, (__mmask16) __B); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kortestz (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kortestzhi ((__mmask16) __A, - (__mmask16) __B); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kortestc (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kortestchi ((__mmask16) __A, - (__mmask16) __B); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kxnor (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kxnorhi ((__mmask16) __A, (__mmask16) __B); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kxor (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kxorhi ((__mmask16) __A, (__mmask16) __B); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_knot (__mmask16 __A) -{ - return (__mmask16) __builtin_ia32_knothi ((__mmask16) __A); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kunpackb (__mmask16 __A, __mmask16 __B) -{ - return (__mmask16) __builtin_ia32_kunpckhi ((__mmask16) __A, (__mmask16) __B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_inserti32x4 (__mmask16 __B, __m512i __C, __m128i __D, - const int __imm) -{ - return (__m512i) __builtin_ia32_inserti32x4_mask ((__v16si) __C, - (__v4si) __D, - __imm, - (__v16si) - _mm512_setzero_si512 (), - __B); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_insertf32x4 (__mmask16 __B, __m512 __C, __m128 __D, - const int __imm) -{ - return (__m512) __builtin_ia32_insertf32x4_mask ((__v16sf) __C, - (__v4sf) __D, - __imm, - (__v16sf) - _mm512_setzero_ps (), __B); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_inserti32x4 (__m512i __A, __mmask16 __B, __m512i __C, - __m128i __D, const int __imm) -{ - return (__m512i) __builtin_ia32_inserti32x4_mask ((__v16si) __C, - (__v4si) __D, - __imm, - (__v16si) __A, - __B); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_insertf32x4 (__m512 __A, __mmask16 __B, __m512 __C, - __m128 __D, const int __imm) -{ - return (__m512) __builtin_ia32_insertf32x4_mask ((__v16sf) __C, - (__v4sf) __D, - __imm, - (__v16sf) __A, __B); -} -#else -#define _mm512_maskz_insertf32x4(A, X, Y, C) \ - ((__m512) __builtin_ia32_insertf32x4_mask ((__v16sf)(__m512) (X), \ - (__v4sf)(__m128) (Y), (int) (C), (__v16sf)_mm512_setzero_ps(), \ - (__mmask8)(A))) - -#define _mm512_maskz_inserti32x4(A, X, Y, C) \ - ((__m512i) __builtin_ia32_inserti32x4_mask ((__v16si)(__m512i) (X), \ - (__v4si)(__m128i) (Y), (int) (C), (__v16si)_mm512_setzero_si512 (), \ - (__mmask8)(A))) - -#define _mm512_mask_insertf32x4(A, B, X, Y, C) \ - ((__m512) __builtin_ia32_insertf32x4_mask ((__v16sf)(__m512) (X), \ - (__v4sf)(__m128) (Y), (int) (C), (__v16sf)(__m512) (A), \ - (__mmask8)(B))) - -#define _mm512_mask_inserti32x4(A, B, X, Y, C) \ - ((__m512i) __builtin_ia32_inserti32x4_mask ((__v16si)(__m512i) (X), \ - (__v4si)(__m128i) (Y), (int) (C), (__v16si)(__m512i) (A), \ - (__mmask8)(B))) -#endif - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_epi64 (__mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_epi64 (__m512i __W, __mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_epi64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_epi64 (__m512i __W, __mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_epi64 (__mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_epu64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_epu64 (__mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_epu64 (__m512i __W, __mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_epu64 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_undefined_si512 (), - (__mmask8) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_epu64 (__m512i __W, __mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_epu64 (__mmask8 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminuq512_mask ((__v8di) __A, - (__v8di) __B, - (__v8di) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_epi32 (__mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_epi32 (__m512i __W, __mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_epi32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_epi32 (__mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_epi32 (__m512i __W, __mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminsd512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_epu32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_epu32 (__mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_epu32 (__m512i __W, __mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pmaxud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_epu32 (__m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_epu32 (__mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) - _mm512_setzero_si512 (), - __M); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_epu32 (__m512i __W, __mmask16 __M, __m512i __A, __m512i __B) -{ - return (__m512i) __builtin_ia32_pminud512_mask ((__v16si) __A, - (__v16si) __B, - (__v16si) __W, __M); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_unpacklo_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpcklps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_unpacklo_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpcklps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_unpacklo_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_unpcklps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_maxsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_maxss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_round_sd (__m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_minsd_round ((__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_round_ss (__m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_minss_round ((__v4sf) __A, - (__v4sf) __B, - __R); -} - -#else -#define _mm_max_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_addsd_round(A, B, C) - -#define _mm_max_round_ss(A, B, C) \ - (__m128)__builtin_ia32_addss_round(A, B, C) - -#define _mm_min_round_sd(A, B, C) \ - (__m128d)__builtin_ia32_subsd_round(A, B, C) - -#define _mm_min_round_ss(A, B, C) \ - (__m128)__builtin_ia32_subss_round(A, B, C) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_blend_pd (__mmask8 __U, __m512d __A, __m512d __W) -{ - return (__m512d) __builtin_ia32_blendmpd_512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_blend_ps (__mmask16 __U, __m512 __A, __m512 __W) -{ - return (__m512) __builtin_ia32_blendmps_512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_blend_epi64 (__mmask8 __U, __m512i __A, __m512i __W) -{ - return (__m512i) __builtin_ia32_blendmq_512_mask ((__v8di) __A, - (__v8di) __W, - (__mmask8) __U); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_blend_epi32 (__mmask16 __U, __m512i __A, __m512i __W) -{ - return (__m512i) __builtin_ia32_blendmd_512_mask ((__v16si) __A, - (__v16si) __W, - (__mmask16) __U); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_round_sd (__m128d __W, __m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_vfmaddsd3_round ((__v2df) __W, - (__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_round_ss (__m128 __W, __m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_vfmaddss3_round ((__v4sf) __W, - (__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_round_sd (__m128d __W, __m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_vfmaddsd3_round ((__v2df) __W, - (__v2df) __A, - -(__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_round_ss (__m128 __W, __m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_vfmaddss3_round ((__v4sf) __W, - (__v4sf) __A, - -(__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_round_sd (__m128d __W, __m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_vfmaddsd3_round ((__v2df) __W, - -(__v2df) __A, - (__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_round_ss (__m128 __W, __m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_vfmaddss3_round ((__v4sf) __W, - -(__v4sf) __A, - (__v4sf) __B, - __R); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_round_sd (__m128d __W, __m128d __A, __m128d __B, const int __R) -{ - return (__m128d) __builtin_ia32_vfmaddsd3_round ((__v2df) __W, - -(__v2df) __A, - -(__v2df) __B, - __R); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_round_ss (__m128 __W, __m128 __A, __m128 __B, const int __R) -{ - return (__m128) __builtin_ia32_vfmaddss3_round ((__v4sf) __W, - -(__v4sf) __A, - -(__v4sf) __B, - __R); -} -#else -#define _mm_fmadd_round_sd(A, B, C, R) \ - (__m128d)__builtin_ia32_vfmaddsd3_round(A, B, C, R) - -#define _mm_fmadd_round_ss(A, B, C, R) \ - (__m128)__builtin_ia32_vfmaddss3_round(A, B, C, R) - -#define _mm_fmsub_round_sd(A, B, C, R) \ - (__m128d)__builtin_ia32_vfmaddsd3_round(A, B, -(C), R) - -#define _mm_fmsub_round_ss(A, B, C, R) \ - (__m128)__builtin_ia32_vfmaddss3_round(A, B, -(C), R) - -#define _mm_fnmadd_round_sd(A, B, C, R) \ - (__m128d)__builtin_ia32_vfmaddsd3_round(A, -(B), C, R) - -#define _mm_fnmadd_round_ss(A, B, C, R) \ - (__m128)__builtin_ia32_vfmaddss3_round(A, -(B), C, R) - -#define _mm_fnmsub_round_sd(A, B, C, R) \ - (__m128d)__builtin_ia32_vfmaddsd3_round(A, -(B), -(C), R) - -#define _mm_fnmsub_round_ss(A, B, C, R) \ - (__m128)__builtin_ia32_vfmaddss3_round(A, -(B), -(C), R) -#endif - -#ifdef __OPTIMIZE__ -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comi_round_ss (__m128 __A, __m128 __B, const int __P, const int __R) -{ - return __builtin_ia32_vcomiss ((__v4sf) __A, (__v4sf) __B, __P, __R); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comi_round_sd (__m128d __A, __m128d __B, const int __P, const int __R) -{ - return __builtin_ia32_vcomisd ((__v2df) __A, (__v2df) __B, __P, __R); -} -#else -#define _mm_comi_round_ss(A, B, C, D)\ -__builtin_ia32_vcomiss(A, B, C, D) -#define _mm_comi_round_sd(A, B, C, D)\ -__builtin_ia32_vcomisd(A, B, C, D) -#endif - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sqrt_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sqrt_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sqrt_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_sqrtpd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sqrt_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sqrt_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sqrt_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_sqrtps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_addpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_add_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_add_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_add_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_addps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_subpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_sub_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_sub_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_sub_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_subps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_mulpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mul_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_mul_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_mul_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_mulps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_div_pd (__m512d __M, __m512d __V) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_div_pd (__m512d __W, __mmask8 __U, __m512d __M, __m512d __V) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_div_pd (__mmask8 __U, __m512d __M, __m512d __V) -{ - return (__m512d) __builtin_ia32_divpd512_mask ((__v8df) __M, - (__v8df) __V, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_div_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_div_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_div_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_divps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_maxpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_max_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_max_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_max_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_maxps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_minpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_min_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_min_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_min_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_minps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_scalef_pd (__m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_scalef_pd (__m512d __W, __mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_scalef_pd (__mmask8 __U, __m512d __A, __m512d __B) -{ - return (__m512d) __builtin_ia32_scalefpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_scalef_ps (__m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_scalef_ps (__m512 __W, __mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_scalef_ps (__mmask16 __U, __m512 __A, __m512 __B) -{ - return (__m512) __builtin_ia32_scalefps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_scalef_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_scalefsd_round ((__v2df) __A, - (__v2df) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_scalef_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_scalefss_round ((__v4sf) __A, - (__v4sf) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmadd_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmadd_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmadd_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmadd_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmadd_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmadd_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmadd_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmadd_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsub_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsub_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsub_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfmsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsub_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsub_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsub_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsub_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfmsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsub_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmaddsub_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmaddsub_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmaddsub_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmaddsub_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmaddsub_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmaddsub_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmaddsub_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmaddsub_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsubadd_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsubadd_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_mask ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsubadd_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfmsubaddpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsubadd_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddsubpd512_maskz ((__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fmsubadd_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fmsubadd_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fmsubadd_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfmsubaddps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fmsubadd_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddsubps512_maskz ((__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmadd_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmadd_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfnmaddpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmadd_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask3 (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmadd_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz (-(__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmadd_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmadd_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfnmaddps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmadd_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask3 (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmadd_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz (-(__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmsub_pd (__m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_mask (-(__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmsub_pd (__m512d __A, __mmask8 __U, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfnmsubpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmsub_pd (__m512d __A, __m512d __B, __m512d __C, __mmask8 __U) -{ - return (__m512d) __builtin_ia32_vfnmsubpd512_mask3 ((__v8df) __A, - (__v8df) __B, - (__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmsub_pd (__mmask8 __U, __m512d __A, __m512d __B, __m512d __C) -{ - return (__m512d) __builtin_ia32_vfmaddpd512_maskz (-(__v8df) __A, - (__v8df) __B, - -(__v8df) __C, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fnmsub_ps (__m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_mask (-(__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fnmsub_ps (__m512 __A, __mmask16 __U, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfnmsubps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask3_fnmsub_ps (__m512 __A, __m512 __B, __m512 __C, __mmask16 __U) -{ - return (__m512) __builtin_ia32_vfnmsubps512_mask3 ((__v16sf) __A, - (__v16sf) __B, - (__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fnmsub_ps (__mmask16 __U, __m512 __A, __m512 __B, __m512 __C) -{ - return (__m512) __builtin_ia32_vfmaddps512_maskz (-(__v16sf) __A, - (__v16sf) __B, - -(__v16sf) __C, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvttpd_epi32 (__m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvttpd_epi32 (__m256i __W, __mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvttpd_epi32 (__mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvttpd_epu32 (__m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvttpd_epu32 (__m256i __W, __mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvttpd_epu32 (__mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvttpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtpd_epi32 (__m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtpd_epi32 (__m256i __W, __mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtpd_epi32 (__mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2dq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtpd_epu32 (__m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_undefined_si256 (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtpd_epu32 (__m256i __W, __mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtpd_epu32 (__mmask8 __U, __m512d __A) -{ - return (__m256i) __builtin_ia32_cvtpd2udq512_mask ((__v8df) __A, - (__v8si) - _mm256_setzero_si256 (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvttps_epi32 (__m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvttps_epi32 (__m512i __W, __mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvttps_epi32 (__mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvttps_epu32 (__m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvttps_epu32 (__m512i __W, __mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvttps_epu32 (__mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvttps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtps_epi32 (__m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtps_epi32 (__m512i __W, __mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtps_epi32 (__mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2dq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtps_epu32 (__m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_undefined_si512 (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtps_epu32 (__m512i __W, __mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtps_epu32 (__mmask16 __U, __m512 __A) -{ - return (__m512i) __builtin_ia32_cvtps2udq512_mask ((__v16sf) __A, - (__v16si) - _mm512_setzero_si512 (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -#ifdef __x86_64__ -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtu64_ss (__m128 __A, unsigned long long __B) -{ - return (__m128) __builtin_ia32_cvtusi2ss64 ((__v4sf) __A, __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtu64_sd (__m128d __A, unsigned long long __B) -{ - return (__m128d) __builtin_ia32_cvtusi2sd64 ((__v2df) __A, __B, - _MM_FROUND_CUR_DIRECTION); -} -#endif - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtu32_ss (__m128 __A, unsigned __B) -{ - return (__m128) __builtin_ia32_cvtusi2ss32 ((__v4sf) __A, __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepi32_ps (__m512i __A) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepi32_ps (__m512 __W, __mmask16 __U, __m512i __A) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepi32_ps (__mmask16 __U, __m512i __A) -{ - return (__m512) __builtin_ia32_cvtdq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtepu32_ps (__m512i __A) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtepu32_ps (__m512 __W, __mmask16 __U, __m512i __A) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtepu32_ps (__mmask16 __U, __m512i __A) -{ - return (__m512) __builtin_ia32_cvtudq2ps512_mask ((__v16si) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fixupimm_pd (__m512d __A, __m512d __B, __m512i __C, const int __imm) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fixupimm_pd (__m512d __A, __mmask8 __U, __m512d __B, - __m512i __C, const int __imm) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_mask ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fixupimm_pd (__mmask8 __U, __m512d __A, __m512d __B, - __m512i __C, const int __imm) -{ - return (__m512d) __builtin_ia32_fixupimmpd512_maskz ((__v8df) __A, - (__v8df) __B, - (__v8di) __C, - __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_fixupimm_ps (__m512 __A, __m512 __B, __m512i __C, const int __imm) -{ - return (__m512) __builtin_ia32_fixupimmps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_fixupimm_ps (__m512 __A, __mmask16 __U, __m512 __B, - __m512i __C, const int __imm) -{ - return (__m512) __builtin_ia32_fixupimmps512_mask ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_fixupimm_ps (__mmask16 __U, __m512 __A, __m512 __B, - __m512i __C, const int __imm) -{ - return (__m512) __builtin_ia32_fixupimmps512_maskz ((__v16sf) __A, - (__v16sf) __B, - (__v16si) __C, - __imm, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fixupimm_sd (__m128d __A, __m128d __B, __m128i __C, const int __imm) -{ - return (__m128d) __builtin_ia32_fixupimmsd_mask ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, __imm, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_fixupimm_sd (__m128d __A, __mmask8 __U, __m128d __B, - __m128i __C, const int __imm) -{ - return (__m128d) __builtin_ia32_fixupimmsd_mask ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskz_fixupimm_sd (__mmask8 __U, __m128d __A, __m128d __B, - __m128i __C, const int __imm) -{ - return (__m128d) __builtin_ia32_fixupimmsd_maskz ((__v2df) __A, - (__v2df) __B, - (__v2di) __C, - __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fixupimm_ss (__m128 __A, __m128 __B, __m128i __C, const int __imm) -{ - return (__m128) __builtin_ia32_fixupimmss_mask ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_fixupimm_ss (__m128 __A, __mmask8 __U, __m128 __B, - __m128i __C, const int __imm) -{ - return (__m128) __builtin_ia32_fixupimmss_mask ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskz_fixupimm_ss (__mmask8 __U, __m128 __A, __m128 __B, - __m128i __C, const int __imm) -{ - return (__m128) __builtin_ia32_fixupimmss_maskz ((__v4sf) __A, - (__v4sf) __B, - (__v4si) __C, __imm, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} -#else -#define _mm512_fixupimm_pd(X, Y, Z, C) \ - ((__m512d)__builtin_ia32_fixupimmpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(-1), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_fixupimm_pd(X, U, Y, Z, C) \ - ((__m512d)__builtin_ia32_fixupimmpd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_fixupimm_pd(U, X, Y, Z, C) \ - ((__m512d)__builtin_ia32_fixupimmpd512_maskz ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (__v8di)(__m512i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_fixupimm_ps(X, Y, Z, C) \ - ((__m512)__builtin_ia32_fixupimmps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(-1), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_fixupimm_ps(X, U, Y, Z, C) \ - ((__m512)__builtin_ia32_fixupimmps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_fixupimm_ps(U, X, Y, Z, C) \ - ((__m512)__builtin_ia32_fixupimmps512_maskz ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (__v16si)(__m512i)(Z), (int)(C), \ - (__mmask16)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_fixupimm_sd(X, Y, Z, C) \ - ((__m128d)__builtin_ia32_fixupimmsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(-1), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_mask_fixupimm_sd(X, U, Y, Z, C) \ - ((__m128d)__builtin_ia32_fixupimmsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_maskz_fixupimm_sd(U, X, Y, Z, C) \ - ((__m128d)__builtin_ia32_fixupimmsd_maskz ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (__v2di)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_fixupimm_ss(X, Y, Z, C) \ - ((__m128)__builtin_ia32_fixupimmss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(-1), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_mask_fixupimm_ss(X, U, Y, Z, C) \ - ((__m128)__builtin_ia32_fixupimmss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm_maskz_fixupimm_ss(U, X, Y, Z, C) \ - ((__m128)__builtin_ia32_fixupimmss_maskz ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (__v4si)(__m128i)(Z), (int)(C), \ - (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) -#endif - -#ifdef __x86_64__ -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_u64 (__m128 __A) -{ - return (unsigned long long) __builtin_ia32_vcvtss2usi64 ((__v4sf) - __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_u64 (__m128 __A) -{ - return (unsigned long long) __builtin_ia32_vcvttss2usi64 ((__v4sf) - __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_i64 (__m128 __A) -{ - return (long long) __builtin_ia32_vcvttss2si64 ((__v4sf) __A, - _MM_FROUND_CUR_DIRECTION); -} -#endif /* __x86_64__ */ - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_u32 (__m128 __A) -{ - return (unsigned) __builtin_ia32_vcvtss2usi32 ((__v4sf) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_u32 (__m128 __A) -{ - return (unsigned) __builtin_ia32_vcvttss2usi32 ((__v4sf) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_i32 (__m128 __A) -{ - return (int) __builtin_ia32_vcvttss2si32 ((__v4sf) __A, - _MM_FROUND_CUR_DIRECTION); -} - -#ifdef __x86_64__ -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_u64 (__m128d __A) -{ - return (unsigned long long) __builtin_ia32_vcvtsd2usi64 ((__v2df) - __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline unsigned long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_u64 (__m128d __A) -{ - return (unsigned long long) __builtin_ia32_vcvttsd2usi64 ((__v2df) - __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline long long -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_i64 (__m128d __A) -{ - return (long long) __builtin_ia32_vcvttsd2si64 ((__v2df) __A, - _MM_FROUND_CUR_DIRECTION); -} -#endif /* __x86_64__ */ - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_u32 (__m128d __A) -{ - return (unsigned) __builtin_ia32_vcvtsd2usi32 ((__v2df) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline unsigned -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_u32 (__m128d __A) -{ - return (unsigned) __builtin_ia32_vcvttsd2usi32 ((__v2df) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline int -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_i32 (__m128d __A) -{ - return (int) __builtin_ia32_vcvttsd2si32 ((__v2df) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtps_pd (__m256 __A) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtps_pd (__m512d __W, __mmask8 __U, __m256 __A) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtps_pd (__mmask8 __U, __m256 __A) -{ - return (__m512d) __builtin_ia32_cvtps2pd512_mask ((__v8sf) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtph_ps (__m256i __A) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtph_ps (__m512 __W, __mmask16 __U, __m256i __A) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtph_ps (__mmask16 __U, __m256i __A) -{ - return (__m512) __builtin_ia32_vcvtph2ps512_mask ((__v16hi) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cvtpd_ps (__m512d __A) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) - _mm256_undefined_ps (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cvtpd_ps (__m256 __W, __mmask8 __U, __m512d __A) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m256 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_cvtpd_ps (__mmask8 __U, __m512d __A) -{ - return (__m256) __builtin_ia32_cvtpd2ps512_mask ((__v8df) __A, - (__v8sf) - _mm256_setzero_ps (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getexp_ps (__m512 __A) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getexp_ps (__m512 __W, __mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) __W, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getexp_ps (__mmask16 __U, __m512 __A) -{ - return (__m512) __builtin_ia32_getexpps512_mask ((__v16sf) __A, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getexp_pd (__m512d __A) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getexp_pd (__m512d __W, __mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) __W, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getexp_pd (__mmask8 __U, __m512d __A) -{ - return (__m512d) __builtin_ia32_getexppd512_mask ((__v8df) __A, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getexp_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_getexpss128_round ((__v4sf) __A, - (__v4sf) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getexp_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_getexpsd128_round ((__v2df) __A, - (__v2df) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getmant_pd (__m512d __A, _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - _mm512_undefined_pd (), - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getmant_pd (__m512d __W, __mmask8 __U, __m512d __A, - _MM_MANTISSA_NORM_ENUM __B, _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - (__v8df) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getmant_pd (__mmask8 __U, __m512d __A, - _MM_MANTISSA_NORM_ENUM __B, _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512d) __builtin_ia32_getmantpd512_mask ((__v8df) __A, - (__C << 2) | __B, - (__v8df) - _mm512_setzero_pd (), - __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_getmant_ps (__m512 __A, _MM_MANTISSA_NORM_ENUM __B, - _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - _mm512_undefined_ps (), - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_getmant_ps (__m512 __W, __mmask16 __U, __m512 __A, - _MM_MANTISSA_NORM_ENUM __B, _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - (__v16sf) __W, __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_getmant_ps (__mmask16 __U, __m512 __A, - _MM_MANTISSA_NORM_ENUM __B, _MM_MANTISSA_SIGN_ENUM __C) -{ - return (__m512) __builtin_ia32_getmantps512_mask ((__v16sf) __A, - (__C << 2) | __B, - (__v16sf) - _mm512_setzero_ps (), - __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getmant_sd (__m128d __A, __m128d __B, _MM_MANTISSA_NORM_ENUM __C, - _MM_MANTISSA_SIGN_ENUM __D) -{ - return (__m128d) __builtin_ia32_getmantsd_round ((__v2df) __A, - (__v2df) __B, - (__D << 2) | __C, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getmant_ss (__m128 __A, __m128 __B, _MM_MANTISSA_NORM_ENUM __C, - _MM_MANTISSA_SIGN_ENUM __D) -{ - return (__m128) __builtin_ia32_getmantss_round ((__v4sf) __A, - (__v4sf) __B, - (__D << 2) | __C, - _MM_FROUND_CUR_DIRECTION); -} - -#else -#define _mm512_getmant_pd(X, B, C) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)_mm512_undefined_pd(), \ - (__mmask8)-1,\ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_getmant_pd(W, U, X, B, C) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)(__m512d)(W), \ - (__mmask8)(U),\ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_getmant_pd(U, X, B, C) \ - ((__m512d)__builtin_ia32_getmantpd512_mask ((__v8df)(__m512d)(X), \ - (int)(((C)<<2) | (B)), \ - (__v8df)_mm512_setzero_pd(), \ - (__mmask8)(U),\ - _MM_FROUND_CUR_DIRECTION)) -#define _mm512_getmant_ps(X, B, C) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)_mm512_undefined_ps(), \ - (__mmask16)-1,\ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_getmant_ps(W, U, X, B, C) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)(__m512)(W), \ - (__mmask16)(U),\ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_getmant_ps(U, X, B, C) \ - ((__m512)__builtin_ia32_getmantps512_mask ((__v16sf)(__m512)(X), \ - (int)(((C)<<2) | (B)), \ - (__v16sf)_mm512_setzero_ps(), \ - (__mmask16)(U),\ - _MM_FROUND_CUR_DIRECTION)) -#define _mm_getmant_sd(X, Y, C, D) \ - ((__m128d)__builtin_ia32_getmantsd_round ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), \ - (int)(((D)<<2) | (C)), \ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm_getmant_ss(X, Y, C, D) \ - ((__m128)__builtin_ia32_getmantss_round ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), \ - (int)(((D)<<2) | (C)), \ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm_getexp_ss(A, B) \ - ((__m128)__builtin_ia32_getexpss128_mask((__v4sf)(__m128)(A), (__v4sf)(__m128)(B), \ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm_getexp_sd(A, B) \ - ((__m128d)__builtin_ia32_getexpsd128_mask((__v2df)(__m128d)(A), (__v2df)(__m128d)(B),\ - _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_getexp_ps(A) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)_mm512_undefined_ps(), (__mmask16)-1, _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_getexp_ps(W, U, A) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)(__m512)(W), (__mmask16)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_getexp_ps(U, A) \ - ((__m512)__builtin_ia32_getexpps512_mask((__v16sf)(__m512)(A), \ - (__v16sf)_mm512_setzero_ps(), (__mmask16)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_getexp_pd(A) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)_mm512_undefined_pd(), (__mmask8)-1, _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_getexp_pd(W, U, A) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)(__m512d)(W), (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_maskz_getexp_pd(U, A) \ - ((__m512d)__builtin_ia32_getexppd512_mask((__v8df)(__m512d)(A), \ - (__v8df)_mm512_setzero_pd(), (__mmask8)(U), _MM_FROUND_CUR_DIRECTION)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_roundscale_ps (__m512 __A, const int __imm) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __A, __imm, - (__v16sf) - _mm512_undefined_ps (), - -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_roundscale_ps (__m512 __A, __mmask16 __B, __m512 __C, - const int __imm) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __C, __imm, - (__v16sf) __A, - (__mmask16) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_roundscale_ps (__mmask16 __A, __m512 __B, const int __imm) -{ - return (__m512) __builtin_ia32_rndscaleps_mask ((__v16sf) __B, - __imm, - (__v16sf) - _mm512_setzero_ps (), - (__mmask16) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_roundscale_pd (__m512d __A, const int __imm) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __A, __imm, - (__v8df) - _mm512_undefined_pd (), - -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_roundscale_pd (__m512d __A, __mmask8 __B, __m512d __C, - const int __imm) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __C, __imm, - (__v8df) __A, - (__mmask8) __B, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m512d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_maskz_roundscale_pd (__mmask8 __A, __m512d __B, const int __imm) -{ - return (__m512d) __builtin_ia32_rndscalepd_mask ((__v8df) __B, - __imm, - (__v8df) - _mm512_setzero_pd (), - (__mmask8) __A, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roundscale_ss (__m128 __A, __m128 __B, const int __imm) -{ - return (__m128) __builtin_ia32_rndscaless_round ((__v4sf) __A, - (__v4sf) __B, __imm, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __m128d -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roundscale_sd (__m128d __A, __m128d __B, const int __imm) -{ - return (__m128d) __builtin_ia32_rndscalesd_round ((__v2df) __A, - (__v2df) __B, __imm, - _MM_FROUND_CUR_DIRECTION); -} - -#else -#define _mm512_roundscale_ps(A, B) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(A), (int)(B),\ - (__v16sf)_mm512_undefined_ps(), (__mmask16)(-1), _MM_FROUND_CUR_DIRECTION)) -#define _mm512_mask_roundscale_ps(A, B, C, D) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(C), \ - (int)(D), \ - (__v16sf)(__m512)(A), \ - (__mmask16)(B), _MM_FROUND_CUR_DIRECTION)) -#define _mm512_maskz_roundscale_ps(A, B, C) \ - ((__m512) __builtin_ia32_rndscaleps_mask ((__v16sf)(__m512)(B), \ - (int)(C), \ - (__v16sf)_mm512_setzero_ps(),\ - (__mmask16)(A), _MM_FROUND_CUR_DIRECTION)) -#define _mm512_roundscale_pd(A, B) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(A), (int)(B),\ - (__v8df)_mm512_undefined_pd(), (__mmask8)(-1), _MM_FROUND_CUR_DIRECTION)) -#define _mm512_mask_roundscale_pd(A, B, C, D) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(C), \ - (int)(D), \ - (__v8df)(__m512d)(A), \ - (__mmask8)(B), _MM_FROUND_CUR_DIRECTION)) -#define _mm512_maskz_roundscale_pd(A, B, C) \ - ((__m512d) __builtin_ia32_rndscalepd_mask ((__v8df)(__m512d)(B), \ - (int)(C), \ - (__v8df)_mm512_setzero_pd(),\ - (__mmask8)(A), _MM_FROUND_CUR_DIRECTION)) -#define _mm_roundscale_ss(A, B, C) \ - ((__m128) __builtin_ia32_rndscaless_round ((__v4sf)(__m128)(A), \ - (__v4sf)(__m128)(B), (int)(C), _MM_FROUND_CUR_DIRECTION)) -#define _mm_roundscale_sd(A, B, C) \ - ((__m128d) __builtin_ia32_rndscalesd_round ((__v2df)(__m128d)(A), \ - (__v2df)(__m128d)(B), (int)(C), _MM_FROUND_CUR_DIRECTION)) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_pd_mask (__m512d __X, __m512d __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmppd512_mask ((__v8df) __X, - (__v8df) __Y, __P, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_cmp_ps_mask (__m512 __X, __m512 __Y, const int __P) -{ - return (__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf) __X, - (__v16sf) __Y, __P, - (__mmask16) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_ps_mask (__mmask16 __U, __m512 __X, __m512 __Y, const int __P) -{ - return (__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf) __X, - (__v16sf) __Y, __P, - (__mmask16) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_cmp_pd_mask (__mmask8 __U, __m512d __X, __m512d __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmppd512_mask ((__v8df) __X, - (__v8df) __Y, __P, - (__mmask8) __U, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_sd_mask (__m128d __X, __m128d __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmpsd_mask ((__v2df) __X, - (__v2df) __Y, __P, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_cmp_sd_mask (__mmask8 __M, __m128d __X, __m128d __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmpsd_mask ((__v2df) __X, - (__v2df) __Y, __P, - (__mmask8) __M, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_ss_mask (__m128 __X, __m128 __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmpss_mask ((__v4sf) __X, - (__v4sf) __Y, __P, - (__mmask8) -1, - _MM_FROUND_CUR_DIRECTION); -} - -extern __inline __mmask8 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mask_cmp_ss_mask (__mmask8 __M, __m128 __X, __m128 __Y, const int __P) -{ - return (__mmask8) __builtin_ia32_cmpss_mask ((__v4sf) __X, - (__v4sf) __Y, __P, - (__mmask8) __M, - _MM_FROUND_CUR_DIRECTION); -} - -#else -#define _mm512_cmp_pd_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_cmppd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(P),\ - (__mmask8)-1,_MM_FROUND_CUR_DIRECTION)) - -#define _mm512_cmp_ps_mask(X, Y, P) \ - ((__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(P),\ - (__mmask16)-1,_MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_cmp_pd_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_cmppd512_mask ((__v8df)(__m512d)(X), \ - (__v8df)(__m512d)(Y), (int)(P),\ - (__mmask8)M, _MM_FROUND_CUR_DIRECTION)) - -#define _mm512_mask_cmp_ps_mask(M, X, Y, P) \ - ((__mmask16) __builtin_ia32_cmpps512_mask ((__v16sf)(__m512)(X), \ - (__v16sf)(__m512)(Y), (int)(P),\ - (__mmask16)M,_MM_FROUND_CUR_DIRECTION)) - -#define _mm_cmp_sd_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P),\ - (__mmask8)-1,_MM_FROUND_CUR_DIRECTION)) - -#define _mm_mask_cmp_sd_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpsd_mask ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P),\ - M,_MM_FROUND_CUR_DIRECTION)) - -#define _mm_cmp_ss_mask(X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P), \ - (__mmask8)-1,_MM_FROUND_CUR_DIRECTION)) - -#define _mm_mask_cmp_ss_mask(M, X, Y, P) \ - ((__mmask8) __builtin_ia32_cmpss_mask ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P), \ - M,_MM_FROUND_CUR_DIRECTION)) -#endif - -extern __inline __mmask16 -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_kmov (__mmask16 __A) -{ - return __builtin_ia32_kmov16 (__A); -} - -#ifdef __DISABLE_AVX512F__ -#undef __DISABLE_AVX512F__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX512F__ */ - -#endif /* _AVX512FINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512pfintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avx512pfintrin.h deleted file mode 100644 index bc7598e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avx512pfintrin.h +++ /dev/null @@ -1,212 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#error "Never use <avx512pfintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVX512PFINTRIN_H_INCLUDED -#define _AVX512PFINTRIN_H_INCLUDED - -#ifndef __AVX512PF__ -#pragma GCC push_options -#pragma GCC target("avx512pf") -#define __DISABLE_AVX512PF__ -#endif /* __AVX512PF__ */ - -/* Internal data types for implementing the intrinsics. */ -typedef long long __v8di __attribute__ ((__vector_size__ (64))); -typedef int __v16si __attribute__ ((__vector_size__ (64))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef long long __m512i __attribute__ ((__vector_size__ (64), __may_alias__)); - -typedef unsigned char __mmask8; -typedef unsigned short __mmask16; - -#ifdef __OPTIMIZE__ -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i32gather_pd (__m256i index, __mmask8 mask, - void *addr, int scale, int hint) -{ - __builtin_ia32_gatherpfdpd (mask, (__v8si) index, (long long const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i32gather_ps (__m512i index, __mmask16 mask, - void *addr, int scale, int hint) -{ - __builtin_ia32_gatherpfdps (mask, (__v16si) index, (int const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i64gather_pd (__m512i index, __mmask8 mask, - void *addr, int scale, int hint) -{ - __builtin_ia32_gatherpfqpd (mask, (__v8di) index, (long long const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i64gather_ps (__m512i index, __mmask8 mask, - void *addr, int scale, int hint) -{ - __builtin_ia32_gatherpfqps (mask, (__v8di) index, (int const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_prefetch_i32scatter_pd (void *addr, __m256i index, int scale, - int hint) -{ - __builtin_ia32_scatterpfdpd ((__mmask8) 0xFF, (__v8si) index, - (long long const *)addr, scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_prefetch_i32scatter_ps (void *addr, __m512i index, int scale, - int hint) -{ - __builtin_ia32_scatterpfdps ((__mmask16) 0xFFFF, (__v16si) index, (int const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i32scatter_pd (void *addr, __mmask8 mask, - __m256i index, int scale, int hint) -{ - __builtin_ia32_scatterpfdpd (mask, (__v8si) index, (long long const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i32scatter_ps (void *addr, __mmask16 mask, - __m512i index, int scale, int hint) -{ - __builtin_ia32_scatterpfdps (mask, (__v16si) index, (int const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_prefetch_i64scatter_pd (void *addr, __m512i index, int scale, - int hint) -{ - __builtin_ia32_scatterpfqpd ((__mmask8) 0xFF, (__v8di) index, (long long const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_prefetch_i64scatter_ps (void *addr, __m512i index, int scale, - int hint) -{ - __builtin_ia32_scatterpfqps ((__mmask8) 0xFF, (__v8di) index, (int const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i64scatter_pd (void *addr, __mmask16 mask, - __m512i index, int scale, int hint) -{ - __builtin_ia32_scatterpfqpd (mask, (__v8di) index, (long long const *) addr, - scale, hint); -} - -extern __inline void -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm512_mask_prefetch_i64scatter_ps (void *addr, __mmask16 mask, - __m512i index, int scale, int hint) -{ - __builtin_ia32_scatterpfqps (mask, (__v8di) index, (int const *) addr, - scale, hint); -} - -#else -#define _mm512_mask_prefetch_i32gather_pd(INDEX, MASK, ADDR, SCALE, HINT) \ - __builtin_ia32_gatherpfdpd ((__mmask8)MASK, (__v8si)(__m256i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i32gather_ps(INDEX, MASK, ADDR, SCALE, HINT) \ - __builtin_ia32_gatherpfdps ((__mmask16)MASK, (__v16si)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i64gather_pd(INDEX, MASK, ADDR, SCALE, HINT) \ - __builtin_ia32_gatherpfqpd ((__mmask8)MASK, (__v8di)(__m512i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i64gather_ps(INDEX, MASK, ADDR, SCALE, HINT) \ - __builtin_ia32_gatherpfqps ((__mmask8)MASK, (__v8di)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_prefetch_i32scatter_pd(ADDR, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfdpd ((__mmask8)0xFF, (__v8si)(__m256i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_prefetch_i32scatter_ps(ADDR, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfdps ((__mmask16)0xFFFF, (__v16si)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i32scatter_pd(ADDR, MASK, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfdpd ((__mmask8)MASK, (__v8si)(__m256i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i32scatter_ps(ADDR, MASK, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfdps ((__mmask16)MASK, (__v16si)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_prefetch_i64scatter_pd(ADDR, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfqpd ((__mmask8)0xFF, (__v8di)(__m512i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_prefetch_i64scatter_ps(ADDR, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfqps ((__mmask8)0xFF, (__v8di)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i64scatter_pd(ADDR, MASK, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfqpd ((__mmask8)MASK, (__v8di)(__m512i)INDEX, \ - (long long const *)ADDR, (int)SCALE, (int)HINT) - -#define _mm512_mask_prefetch_i64scatter_ps(ADDR, MASK, INDEX, SCALE, HINT) \ - __builtin_ia32_scatterpfqps ((__mmask8)MASK, (__v8di)(__m512i)INDEX, \ - (int const *)ADDR, (int)SCALE, (int)HINT) -#endif - -#ifdef __DISABLE_AVX512PF__ -#undef __DISABLE_AVX512PF__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX512PF__ */ - -#endif /* _AVX512PFINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/avxintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/avxintrin.h deleted file mode 100644 index 2ea327c..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/avxintrin.h +++ /dev/null @@ -1,1463 +0,0 @@ -/* Copyright (C) 2008-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 11.0. */ - -#ifndef _IMMINTRIN_H_INCLUDED -# error "Never use <avxintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _AVXINTRIN_H_INCLUDED -#define _AVXINTRIN_H_INCLUDED - -#ifndef __AVX__ -#pragma GCC push_options -#pragma GCC target("avx") -#define __DISABLE_AVX__ -#endif /* __AVX__ */ - -/* Internal data types for implementing the intrinsics. */ -typedef double __v4df __attribute__ ((__vector_size__ (32))); -typedef float __v8sf __attribute__ ((__vector_size__ (32))); -typedef long long __v4di __attribute__ ((__vector_size__ (32))); -typedef int __v8si __attribute__ ((__vector_size__ (32))); -typedef short __v16hi __attribute__ ((__vector_size__ (32))); -typedef char __v32qi __attribute__ ((__vector_size__ (32))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef float __m256 __attribute__ ((__vector_size__ (32), - __may_alias__)); -typedef long long __m256i __attribute__ ((__vector_size__ (32), - __may_alias__)); -typedef double __m256d __attribute__ ((__vector_size__ (32), - __may_alias__)); - -/* Compare predicates for scalar and packed compare intrinsics. */ - -/* Equal (ordered, non-signaling) */ -#define _CMP_EQ_OQ 0x00 -/* Less-than (ordered, signaling) */ -#define _CMP_LT_OS 0x01 -/* Less-than-or-equal (ordered, signaling) */ -#define _CMP_LE_OS 0x02 -/* Unordered (non-signaling) */ -#define _CMP_UNORD_Q 0x03 -/* Not-equal (unordered, non-signaling) */ -#define _CMP_NEQ_UQ 0x04 -/* Not-less-than (unordered, signaling) */ -#define _CMP_NLT_US 0x05 -/* Not-less-than-or-equal (unordered, signaling) */ -#define _CMP_NLE_US 0x06 -/* Ordered (nonsignaling) */ -#define _CMP_ORD_Q 0x07 -/* Equal (unordered, non-signaling) */ -#define _CMP_EQ_UQ 0x08 -/* Not-greater-than-or-equal (unordered, signaling) */ -#define _CMP_NGE_US 0x09 -/* Not-greater-than (unordered, signaling) */ -#define _CMP_NGT_US 0x0a -/* False (ordered, non-signaling) */ -#define _CMP_FALSE_OQ 0x0b -/* Not-equal (ordered, non-signaling) */ -#define _CMP_NEQ_OQ 0x0c -/* Greater-than-or-equal (ordered, signaling) */ -#define _CMP_GE_OS 0x0d -/* Greater-than (ordered, signaling) */ -#define _CMP_GT_OS 0x0e -/* True (unordered, non-signaling) */ -#define _CMP_TRUE_UQ 0x0f -/* Equal (ordered, signaling) */ -#define _CMP_EQ_OS 0x10 -/* Less-than (ordered, non-signaling) */ -#define _CMP_LT_OQ 0x11 -/* Less-than-or-equal (ordered, non-signaling) */ -#define _CMP_LE_OQ 0x12 -/* Unordered (signaling) */ -#define _CMP_UNORD_S 0x13 -/* Not-equal (unordered, signaling) */ -#define _CMP_NEQ_US 0x14 -/* Not-less-than (unordered, non-signaling) */ -#define _CMP_NLT_UQ 0x15 -/* Not-less-than-or-equal (unordered, non-signaling) */ -#define _CMP_NLE_UQ 0x16 -/* Ordered (signaling) */ -#define _CMP_ORD_S 0x17 -/* Equal (unordered, signaling) */ -#define _CMP_EQ_US 0x18 -/* Not-greater-than-or-equal (unordered, non-signaling) */ -#define _CMP_NGE_UQ 0x19 -/* Not-greater-than (unordered, non-signaling) */ -#define _CMP_NGT_UQ 0x1a -/* False (ordered, signaling) */ -#define _CMP_FALSE_OS 0x1b -/* Not-equal (ordered, signaling) */ -#define _CMP_NEQ_OS 0x1c -/* Greater-than-or-equal (ordered, non-signaling) */ -#define _CMP_GE_OQ 0x1d -/* Greater-than (ordered, non-signaling) */ -#define _CMP_GT_OQ 0x1e -/* True (unordered, signaling) */ -#define _CMP_TRUE_US 0x1f - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_addpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_add_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_addps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_addsub_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_addsubpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_addsub_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_addsubps256 ((__v8sf)__A, (__v8sf)__B); -} - - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_and_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_andpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_and_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_andps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_andnot_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_andnpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_andnot_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_andnps256 ((__v8sf)__A, (__v8sf)__B); -} - -/* Double/single precision floating point blend instructions - select - data from 2 sources using constant/variable mask. */ - -#ifdef __OPTIMIZE__ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blend_pd (__m256d __X, __m256d __Y, const int __M) -{ - return (__m256d) __builtin_ia32_blendpd256 ((__v4df)__X, - (__v4df)__Y, - __M); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blend_ps (__m256 __X, __m256 __Y, const int __M) -{ - return (__m256) __builtin_ia32_blendps256 ((__v8sf)__X, - (__v8sf)__Y, - __M); -} -#else -#define _mm256_blend_pd(X, Y, M) \ - ((__m256d) __builtin_ia32_blendpd256 ((__v4df)(__m256d)(X), \ - (__v4df)(__m256d)(Y), (int)(M))) - -#define _mm256_blend_ps(X, Y, M) \ - ((__m256) __builtin_ia32_blendps256 ((__v8sf)(__m256)(X), \ - (__v8sf)(__m256)(Y), (int)(M))) -#endif - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blendv_pd (__m256d __X, __m256d __Y, __m256d __M) -{ - return (__m256d) __builtin_ia32_blendvpd256 ((__v4df)__X, - (__v4df)__Y, - (__v4df)__M); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_blendv_ps (__m256 __X, __m256 __Y, __m256 __M) -{ - return (__m256) __builtin_ia32_blendvps256 ((__v8sf)__X, - (__v8sf)__Y, - (__v8sf)__M); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_div_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_divpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_div_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_divps256 ((__v8sf)__A, (__v8sf)__B); -} - -/* Dot product instructions with mask-defined summing and zeroing parts - of result. */ - -#ifdef __OPTIMIZE__ -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_dp_ps (__m256 __X, __m256 __Y, const int __M) -{ - return (__m256) __builtin_ia32_dpps256 ((__v8sf)__X, - (__v8sf)__Y, - __M); -} -#else -#define _mm256_dp_ps(X, Y, M) \ - ((__m256) __builtin_ia32_dpps256 ((__v8sf)(__m256)(X), \ - (__v8sf)(__m256)(Y), (int)(M))) -#endif - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hadd_pd (__m256d __X, __m256d __Y) -{ - return (__m256d) __builtin_ia32_haddpd256 ((__v4df)__X, (__v4df)__Y); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hadd_ps (__m256 __X, __m256 __Y) -{ - return (__m256) __builtin_ia32_haddps256 ((__v8sf)__X, (__v8sf)__Y); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hsub_pd (__m256d __X, __m256d __Y) -{ - return (__m256d) __builtin_ia32_hsubpd256 ((__v4df)__X, (__v4df)__Y); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_hsub_ps (__m256 __X, __m256 __Y) -{ - return (__m256) __builtin_ia32_hsubps256 ((__v8sf)__X, (__v8sf)__Y); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_maxpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_max_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_maxps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_minpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_min_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_minps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mul_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_mulpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_mul_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_mulps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_or_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_orpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_or_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_orps256 ((__v8sf)__A, (__v8sf)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shuffle_pd (__m256d __A, __m256d __B, const int __mask) -{ - return (__m256d) __builtin_ia32_shufpd256 ((__v4df)__A, (__v4df)__B, - __mask); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_shuffle_ps (__m256 __A, __m256 __B, const int __mask) -{ - return (__m256) __builtin_ia32_shufps256 ((__v8sf)__A, (__v8sf)__B, - __mask); -} -#else -#define _mm256_shuffle_pd(A, B, N) \ - ((__m256d)__builtin_ia32_shufpd256 ((__v4df)(__m256d)(A), \ - (__v4df)(__m256d)(B), (int)(N))) - -#define _mm256_shuffle_ps(A, B, N) \ - ((__m256) __builtin_ia32_shufps256 ((__v8sf)(__m256)(A), \ - (__v8sf)(__m256)(B), (int)(N))) -#endif - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_subpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sub_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_subps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_xor_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_xorpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_xor_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_xorps256 ((__v8sf)__A, (__v8sf)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_pd (__m128d __X, __m128d __Y, const int __P) -{ - return (__m128d) __builtin_ia32_cmppd ((__v2df)__X, (__v2df)__Y, __P); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_ps (__m128 __X, __m128 __Y, const int __P) -{ - return (__m128) __builtin_ia32_cmpps ((__v4sf)__X, (__v4sf)__Y, __P); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmp_pd (__m256d __X, __m256d __Y, const int __P) -{ - return (__m256d) __builtin_ia32_cmppd256 ((__v4df)__X, (__v4df)__Y, - __P); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cmp_ps (__m256 __X, __m256 __Y, const int __P) -{ - return (__m256) __builtin_ia32_cmpps256 ((__v8sf)__X, (__v8sf)__Y, - __P); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_sd (__m128d __X, __m128d __Y, const int __P) -{ - return (__m128d) __builtin_ia32_cmpsd ((__v2df)__X, (__v2df)__Y, __P); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmp_ss (__m128 __X, __m128 __Y, const int __P) -{ - return (__m128) __builtin_ia32_cmpss ((__v4sf)__X, (__v4sf)__Y, __P); -} -#else -#define _mm_cmp_pd(X, Y, P) \ - ((__m128d) __builtin_ia32_cmppd ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P))) - -#define _mm_cmp_ps(X, Y, P) \ - ((__m128) __builtin_ia32_cmpps ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P))) - -#define _mm256_cmp_pd(X, Y, P) \ - ((__m256d) __builtin_ia32_cmppd256 ((__v4df)(__m256d)(X), \ - (__v4df)(__m256d)(Y), (int)(P))) - -#define _mm256_cmp_ps(X, Y, P) \ - ((__m256) __builtin_ia32_cmpps256 ((__v8sf)(__m256)(X), \ - (__v8sf)(__m256)(Y), (int)(P))) - -#define _mm_cmp_sd(X, Y, P) \ - ((__m128d) __builtin_ia32_cmpsd ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(P))) - -#define _mm_cmp_ss(X, Y, P) \ - ((__m128) __builtin_ia32_cmpss ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(P))) -#endif - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi32_pd (__m128i __A) -{ - return (__m256d)__builtin_ia32_cvtdq2pd256 ((__v4si) __A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtepi32_ps (__m256i __A) -{ - return (__m256)__builtin_ia32_cvtdq2ps256 ((__v8si) __A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtpd_ps (__m256d __A) -{ - return (__m128)__builtin_ia32_cvtpd2ps256 ((__v4df) __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtps_epi32 (__m256 __A) -{ - return (__m256i)__builtin_ia32_cvtps2dq256 ((__v8sf) __A); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtps_pd (__m128 __A) -{ - return (__m256d)__builtin_ia32_cvtps2pd256 ((__v4sf) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvttpd_epi32 (__m256d __A) -{ - return (__m128i)__builtin_ia32_cvttpd2dq256 ((__v4df) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtpd_epi32 (__m256d __A) -{ - return (__m128i)__builtin_ia32_cvtpd2dq256 ((__v4df) __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvttps_epi32 (__m256 __A) -{ - return (__m256i)__builtin_ia32_cvttps2dq256 ((__v8sf) __A); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extractf128_pd (__m256d __X, const int __N) -{ - return (__m128d) __builtin_ia32_vextractf128_pd256 ((__v4df)__X, __N); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extractf128_ps (__m256 __X, const int __N) -{ - return (__m128) __builtin_ia32_vextractf128_ps256 ((__v8sf)__X, __N); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extractf128_si256 (__m256i __X, const int __N) -{ - return (__m128i) __builtin_ia32_vextractf128_si256 ((__v8si)__X, __N); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extract_epi32 (__m256i __X, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 2); - return _mm_extract_epi32 (__Y, __N % 4); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extract_epi16 (__m256i __X, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 3); - return _mm_extract_epi16 (__Y, __N % 8); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extract_epi8 (__m256i __X, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 4); - return _mm_extract_epi8 (__Y, __N % 16); -} - -#ifdef __x86_64__ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_extract_epi64 (__m256i __X, const int __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 1); - return _mm_extract_epi64 (__Y, __N % 2); -} -#endif -#else -#define _mm256_extractf128_pd(X, N) \ - ((__m128d) __builtin_ia32_vextractf128_pd256 ((__v4df)(__m256d)(X), \ - (int)(N))) - -#define _mm256_extractf128_ps(X, N) \ - ((__m128) __builtin_ia32_vextractf128_ps256 ((__v8sf)(__m256)(X), \ - (int)(N))) - -#define _mm256_extractf128_si256(X, N) \ - ((__m128i) __builtin_ia32_vextractf128_si256 ((__v8si)(__m256i)(X), \ - (int)(N))) - -#define _mm256_extract_epi32(X, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 2); \ - _mm_extract_epi32 (__Y, (N) % 4); \ - })) - -#define _mm256_extract_epi16(X, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 3); \ - _mm_extract_epi16 (__Y, (N) % 8); \ - })) - -#define _mm256_extract_epi8(X, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 4); \ - _mm_extract_epi8 (__Y, (N) % 16); \ - })) - -#ifdef __x86_64__ -#define _mm256_extract_epi64(X, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 1); \ - _mm_extract_epi64 (__Y, (N) % 2); \ - })) -#endif -#endif - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_zeroall (void) -{ - __builtin_ia32_vzeroall (); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_zeroupper (void) -{ - __builtin_ia32_vzeroupper (); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permutevar_pd (__m128d __A, __m128i __C) -{ - return (__m128d) __builtin_ia32_vpermilvarpd ((__v2df)__A, - (__v2di)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permutevar_pd (__m256d __A, __m256i __C) -{ - return (__m256d) __builtin_ia32_vpermilvarpd256 ((__v4df)__A, - (__v4di)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permutevar_ps (__m128 __A, __m128i __C) -{ - return (__m128) __builtin_ia32_vpermilvarps ((__v4sf)__A, - (__v4si)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permutevar_ps (__m256 __A, __m256i __C) -{ - return (__m256) __builtin_ia32_vpermilvarps256 ((__v8sf)__A, - (__v8si)__C); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permute_pd (__m128d __X, const int __C) -{ - return (__m128d) __builtin_ia32_vpermilpd ((__v2df)__X, __C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute_pd (__m256d __X, const int __C) -{ - return (__m256d) __builtin_ia32_vpermilpd256 ((__v4df)__X, __C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permute_ps (__m128 __X, const int __C) -{ - return (__m128) __builtin_ia32_vpermilps ((__v4sf)__X, __C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute_ps (__m256 __X, const int __C) -{ - return (__m256) __builtin_ia32_vpermilps256 ((__v8sf)__X, __C); -} -#else -#define _mm_permute_pd(X, C) \ - ((__m128d) __builtin_ia32_vpermilpd ((__v2df)(__m128d)(X), (int)(C))) - -#define _mm256_permute_pd(X, C) \ - ((__m256d) __builtin_ia32_vpermilpd256 ((__v4df)(__m256d)(X), (int)(C))) - -#define _mm_permute_ps(X, C) \ - ((__m128) __builtin_ia32_vpermilps ((__v4sf)(__m128)(X), (int)(C))) - -#define _mm256_permute_ps(X, C) \ - ((__m256) __builtin_ia32_vpermilps256 ((__v8sf)(__m256)(X), (int)(C))) -#endif - -#ifdef __OPTIMIZE__ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2f128_pd (__m256d __X, __m256d __Y, const int __C) -{ - return (__m256d) __builtin_ia32_vperm2f128_pd256 ((__v4df)__X, - (__v4df)__Y, - __C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2f128_ps (__m256 __X, __m256 __Y, const int __C) -{ - return (__m256) __builtin_ia32_vperm2f128_ps256 ((__v8sf)__X, - (__v8sf)__Y, - __C); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2f128_si256 (__m256i __X, __m256i __Y, const int __C) -{ - return (__m256i) __builtin_ia32_vperm2f128_si256 ((__v8si)__X, - (__v8si)__Y, - __C); -} -#else -#define _mm256_permute2f128_pd(X, Y, C) \ - ((__m256d) __builtin_ia32_vperm2f128_pd256 ((__v4df)(__m256d)(X), \ - (__v4df)(__m256d)(Y), \ - (int)(C))) - -#define _mm256_permute2f128_ps(X, Y, C) \ - ((__m256) __builtin_ia32_vperm2f128_ps256 ((__v8sf)(__m256)(X), \ - (__v8sf)(__m256)(Y), \ - (int)(C))) - -#define _mm256_permute2f128_si256(X, Y, C) \ - ((__m256i) __builtin_ia32_vperm2f128_si256 ((__v8si)(__m256i)(X), \ - (__v8si)(__m256i)(Y), \ - (int)(C))) -#endif - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_broadcast_ss (float const *__X) -{ - return (__m128) __builtin_ia32_vbroadcastss (__X); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcast_sd (double const *__X) -{ - return (__m256d) __builtin_ia32_vbroadcastsd256 (__X); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcast_ss (float const *__X) -{ - return (__m256) __builtin_ia32_vbroadcastss256 (__X); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcast_pd (__m128d const *__X) -{ - return (__m256d) __builtin_ia32_vbroadcastf128_pd256 (__X); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_broadcast_ps (__m128 const *__X) -{ - return (__m256) __builtin_ia32_vbroadcastf128_ps256 (__X); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insertf128_pd (__m256d __X, __m128d __Y, const int __O) -{ - return (__m256d) __builtin_ia32_vinsertf128_pd256 ((__v4df)__X, - (__v2df)__Y, - __O); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insertf128_ps (__m256 __X, __m128 __Y, const int __O) -{ - return (__m256) __builtin_ia32_vinsertf128_ps256 ((__v8sf)__X, - (__v4sf)__Y, - __O); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insertf128_si256 (__m256i __X, __m128i __Y, const int __O) -{ - return (__m256i) __builtin_ia32_vinsertf128_si256 ((__v8si)__X, - (__v4si)__Y, - __O); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insert_epi32 (__m256i __X, int __D, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 2); - __Y = _mm_insert_epi32 (__Y, __D, __N % 4); - return _mm256_insertf128_si256 (__X, __Y, __N >> 2); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insert_epi16 (__m256i __X, int __D, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 3); - __Y = _mm_insert_epi16 (__Y, __D, __N % 8); - return _mm256_insertf128_si256 (__X, __Y, __N >> 3); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insert_epi8 (__m256i __X, int __D, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 4); - __Y = _mm_insert_epi8 (__Y, __D, __N % 16); - return _mm256_insertf128_si256 (__X, __Y, __N >> 4); -} - -#ifdef __x86_64__ -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_insert_epi64 (__m256i __X, long long __D, int const __N) -{ - __m128i __Y = _mm256_extractf128_si256 (__X, __N >> 1); - __Y = _mm_insert_epi64 (__Y, __D, __N % 2); - return _mm256_insertf128_si256 (__X, __Y, __N >> 1); -} -#endif -#else -#define _mm256_insertf128_pd(X, Y, O) \ - ((__m256d) __builtin_ia32_vinsertf128_pd256 ((__v4df)(__m256d)(X), \ - (__v2df)(__m128d)(Y), \ - (int)(O))) - -#define _mm256_insertf128_ps(X, Y, O) \ - ((__m256) __builtin_ia32_vinsertf128_ps256 ((__v8sf)(__m256)(X), \ - (__v4sf)(__m128)(Y), \ - (int)(O))) - -#define _mm256_insertf128_si256(X, Y, O) \ - ((__m256i) __builtin_ia32_vinsertf128_si256 ((__v8si)(__m256i)(X), \ - (__v4si)(__m128i)(Y), \ - (int)(O))) - -#define _mm256_insert_epi32(X, D, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 2); \ - __Y = _mm_insert_epi32 (__Y, (D), (N) % 4); \ - _mm256_insertf128_si256 ((X), __Y, (N) >> 2); \ - })) - -#define _mm256_insert_epi16(X, D, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 3); \ - __Y = _mm_insert_epi16 (__Y, (D), (N) % 8); \ - _mm256_insertf128_si256 ((X), __Y, (N) >> 3); \ - })) - -#define _mm256_insert_epi8(X, D, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 4); \ - __Y = _mm_insert_epi8 (__Y, (D), (N) % 16); \ - _mm256_insertf128_si256 ((X), __Y, (N) >> 4); \ - })) - -#ifdef __x86_64__ -#define _mm256_insert_epi64(X, D, N) \ - (__extension__ \ - ({ \ - __m128i __Y = _mm256_extractf128_si256 ((X), (N) >> 1); \ - __Y = _mm_insert_epi64 (__Y, (D), (N) % 2); \ - _mm256_insertf128_si256 ((X), __Y, (N) >> 1); \ - })) -#endif -#endif - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_load_pd (double const *__P) -{ - return *(__m256d *)__P; -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_store_pd (double *__P, __m256d __A) -{ - *(__m256d *)__P = __A; -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_load_ps (float const *__P) -{ - return *(__m256 *)__P; -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_store_ps (float *__P, __m256 __A) -{ - *(__m256 *)__P = __A; -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_loadu_pd (double const *__P) -{ - return (__m256d) __builtin_ia32_loadupd256 (__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_storeu_pd (double *__P, __m256d __A) -{ - __builtin_ia32_storeupd256 (__P, (__v4df)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_loadu_ps (float const *__P) -{ - return (__m256) __builtin_ia32_loadups256 (__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_storeu_ps (float *__P, __m256 __A) -{ - __builtin_ia32_storeups256 (__P, (__v8sf)__A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_load_si256 (__m256i const *__P) -{ - return *__P; -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_store_si256 (__m256i *__P, __m256i __A) -{ - *__P = __A; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_loadu_si256 (__m256i const *__P) -{ - return (__m256i) __builtin_ia32_loaddqu256 ((char const *)__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_storeu_si256 (__m256i *__P, __m256i __A) -{ - __builtin_ia32_storedqu256 ((char *)__P, (__v32qi)__A); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskload_pd (double const *__P, __m128i __M) -{ - return (__m128d) __builtin_ia32_maskloadpd ((const __v2df *)__P, - (__v2di)__M); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskstore_pd (double *__P, __m128i __M, __m128d __A) -{ - __builtin_ia32_maskstorepd ((__v2df *)__P, (__v2di)__M, (__v2df)__A); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskload_pd (double const *__P, __m256i __M) -{ - return (__m256d) __builtin_ia32_maskloadpd256 ((const __v4df *)__P, - (__v4di)__M); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskstore_pd (double *__P, __m256i __M, __m256d __A) -{ - __builtin_ia32_maskstorepd256 ((__v4df *)__P, (__v4di)__M, (__v4df)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskload_ps (float const *__P, __m128i __M) -{ - return (__m128) __builtin_ia32_maskloadps ((const __v4sf *)__P, - (__v4si)__M); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskstore_ps (float *__P, __m128i __M, __m128 __A) -{ - __builtin_ia32_maskstoreps ((__v4sf *)__P, (__v4si)__M, (__v4sf)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskload_ps (float const *__P, __m256i __M) -{ - return (__m256) __builtin_ia32_maskloadps256 ((const __v8sf *)__P, - (__v8si)__M); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maskstore_ps (float *__P, __m256i __M, __m256 __A) -{ - __builtin_ia32_maskstoreps256 ((__v8sf *)__P, (__v8si)__M, (__v8sf)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_movehdup_ps (__m256 __X) -{ - return (__m256) __builtin_ia32_movshdup256 ((__v8sf)__X); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_moveldup_ps (__m256 __X) -{ - return (__m256) __builtin_ia32_movsldup256 ((__v8sf)__X); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_movedup_pd (__m256d __X) -{ - return (__m256d) __builtin_ia32_movddup256 ((__v4df)__X); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_lddqu_si256 (__m256i const *__P) -{ - return (__m256i) __builtin_ia32_lddqu256 ((char const *)__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_stream_si256 (__m256i *__A, __m256i __B) -{ - __builtin_ia32_movntdq256 ((__v4di *)__A, (__v4di)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_stream_pd (double *__A, __m256d __B) -{ - __builtin_ia32_movntpd256 (__A, (__v4df)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_stream_ps (float *__P, __m256 __A) -{ - __builtin_ia32_movntps256 (__P, (__v8sf)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_rcp_ps (__m256 __A) -{ - return (__m256) __builtin_ia32_rcpps256 ((__v8sf)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_rsqrt_ps (__m256 __A) -{ - return (__m256) __builtin_ia32_rsqrtps256 ((__v8sf)__A); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sqrt_pd (__m256d __A) -{ - return (__m256d) __builtin_ia32_sqrtpd256 ((__v4df)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_sqrt_ps (__m256 __A) -{ - return (__m256) __builtin_ia32_sqrtps256 ((__v8sf)__A); -} - -#ifdef __OPTIMIZE__ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_round_pd (__m256d __V, const int __M) -{ - return (__m256d) __builtin_ia32_roundpd256 ((__v4df)__V, __M); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_round_ps (__m256 __V, const int __M) -{ - return (__m256) __builtin_ia32_roundps256 ((__v8sf)__V, __M); -} -#else -#define _mm256_round_pd(V, M) \ - ((__m256d) __builtin_ia32_roundpd256 ((__v4df)(__m256d)(V), (int)(M))) - -#define _mm256_round_ps(V, M) \ - ((__m256) __builtin_ia32_roundps256 ((__v8sf)(__m256)(V), (int)(M))) -#endif - -#define _mm256_ceil_pd(V) _mm256_round_pd ((V), _MM_FROUND_CEIL) -#define _mm256_floor_pd(V) _mm256_round_pd ((V), _MM_FROUND_FLOOR) -#define _mm256_ceil_ps(V) _mm256_round_ps ((V), _MM_FROUND_CEIL) -#define _mm256_floor_ps(V) _mm256_round_ps ((V), _MM_FROUND_FLOOR) - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_unpckhpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_pd (__m256d __A, __m256d __B) -{ - return (__m256d) __builtin_ia32_unpcklpd256 ((__v4df)__A, (__v4df)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpackhi_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_unpckhps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_unpacklo_ps (__m256 __A, __m256 __B) -{ - return (__m256) __builtin_ia32_unpcklps256 ((__v8sf)__A, (__v8sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testz_pd (__m128d __M, __m128d __V) -{ - return __builtin_ia32_vtestzpd ((__v2df)__M, (__v2df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testc_pd (__m128d __M, __m128d __V) -{ - return __builtin_ia32_vtestcpd ((__v2df)__M, (__v2df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testnzc_pd (__m128d __M, __m128d __V) -{ - return __builtin_ia32_vtestnzcpd ((__v2df)__M, (__v2df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testz_ps (__m128 __M, __m128 __V) -{ - return __builtin_ia32_vtestzps ((__v4sf)__M, (__v4sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testc_ps (__m128 __M, __m128 __V) -{ - return __builtin_ia32_vtestcps ((__v4sf)__M, (__v4sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testnzc_ps (__m128 __M, __m128 __V) -{ - return __builtin_ia32_vtestnzcps ((__v4sf)__M, (__v4sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testz_pd (__m256d __M, __m256d __V) -{ - return __builtin_ia32_vtestzpd256 ((__v4df)__M, (__v4df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testc_pd (__m256d __M, __m256d __V) -{ - return __builtin_ia32_vtestcpd256 ((__v4df)__M, (__v4df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testnzc_pd (__m256d __M, __m256d __V) -{ - return __builtin_ia32_vtestnzcpd256 ((__v4df)__M, (__v4df)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testz_ps (__m256 __M, __m256 __V) -{ - return __builtin_ia32_vtestzps256 ((__v8sf)__M, (__v8sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testc_ps (__m256 __M, __m256 __V) -{ - return __builtin_ia32_vtestcps256 ((__v8sf)__M, (__v8sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testnzc_ps (__m256 __M, __m256 __V) -{ - return __builtin_ia32_vtestnzcps256 ((__v8sf)__M, (__v8sf)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testz_si256 (__m256i __M, __m256i __V) -{ - return __builtin_ia32_ptestz256 ((__v4di)__M, (__v4di)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testc_si256 (__m256i __M, __m256i __V) -{ - return __builtin_ia32_ptestc256 ((__v4di)__M, (__v4di)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_testnzc_si256 (__m256i __M, __m256i __V) -{ - return __builtin_ia32_ptestnzc256 ((__v4di)__M, (__v4di)__V); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_movemask_pd (__m256d __A) -{ - return __builtin_ia32_movmskpd256 ((__v4df)__A); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_movemask_ps (__m256 __A) -{ - return __builtin_ia32_movmskps256 ((__v8sf)__A); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_undefined_pd (void) -{ - __m256d __Y = __Y; - return __Y; -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_undefined_ps (void) -{ - __m256 __Y = __Y; - return __Y; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_undefined_si256 (void) -{ - __m256i __Y = __Y; - return __Y; -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setzero_pd (void) -{ - return __extension__ (__m256d){ 0.0, 0.0, 0.0, 0.0 }; -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setzero_ps (void) -{ - return __extension__ (__m256){ 0.0, 0.0, 0.0, 0.0, - 0.0, 0.0, 0.0, 0.0 }; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setzero_si256 (void) -{ - return __extension__ (__m256i)(__v4di){ 0, 0, 0, 0 }; -} - -/* Create the vector [A B C D]. */ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_pd (double __A, double __B, double __C, double __D) -{ - return __extension__ (__m256d){ __D, __C, __B, __A }; -} - -/* Create the vector [A B C D E F G H]. */ -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_ps (float __A, float __B, float __C, float __D, - float __E, float __F, float __G, float __H) -{ - return __extension__ (__m256){ __H, __G, __F, __E, - __D, __C, __B, __A }; -} - -/* Create the vector [A B C D E F G H]. */ -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_epi32 (int __A, int __B, int __C, int __D, - int __E, int __F, int __G, int __H) -{ - return __extension__ (__m256i)(__v8si){ __H, __G, __F, __E, - __D, __C, __B, __A }; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_epi16 (short __q15, short __q14, short __q13, short __q12, - short __q11, short __q10, short __q09, short __q08, - short __q07, short __q06, short __q05, short __q04, - short __q03, short __q02, short __q01, short __q00) -{ - return __extension__ (__m256i)(__v16hi){ - __q00, __q01, __q02, __q03, __q04, __q05, __q06, __q07, - __q08, __q09, __q10, __q11, __q12, __q13, __q14, __q15 - }; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_epi8 (char __q31, char __q30, char __q29, char __q28, - char __q27, char __q26, char __q25, char __q24, - char __q23, char __q22, char __q21, char __q20, - char __q19, char __q18, char __q17, char __q16, - char __q15, char __q14, char __q13, char __q12, - char __q11, char __q10, char __q09, char __q08, - char __q07, char __q06, char __q05, char __q04, - char __q03, char __q02, char __q01, char __q00) -{ - return __extension__ (__m256i)(__v32qi){ - __q00, __q01, __q02, __q03, __q04, __q05, __q06, __q07, - __q08, __q09, __q10, __q11, __q12, __q13, __q14, __q15, - __q16, __q17, __q18, __q19, __q20, __q21, __q22, __q23, - __q24, __q25, __q26, __q27, __q28, __q29, __q30, __q31 - }; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set_epi64x (long long __A, long long __B, long long __C, - long long __D) -{ - return __extension__ (__m256i)(__v4di){ __D, __C, __B, __A }; -} - -/* Create a vector with all elements equal to A. */ -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_pd (double __A) -{ - return __extension__ (__m256d){ __A, __A, __A, __A }; -} - -/* Create a vector with all elements equal to A. */ -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_ps (float __A) -{ - return __extension__ (__m256){ __A, __A, __A, __A, - __A, __A, __A, __A }; -} - -/* Create a vector with all elements equal to A. */ -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_epi32 (int __A) -{ - return __extension__ (__m256i)(__v8si){ __A, __A, __A, __A, - __A, __A, __A, __A }; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_epi16 (short __A) -{ - return _mm256_set_epi16 (__A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_epi8 (char __A) -{ - return _mm256_set_epi8 (__A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_set1_epi64x (long long __A) -{ - return __extension__ (__m256i)(__v4di){ __A, __A, __A, __A }; -} - -/* Create vectors of elements in the reversed order from the - _mm256_set_XXX functions. */ - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_pd (double __A, double __B, double __C, double __D) -{ - return _mm256_set_pd (__D, __C, __B, __A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_ps (float __A, float __B, float __C, float __D, - float __E, float __F, float __G, float __H) -{ - return _mm256_set_ps (__H, __G, __F, __E, __D, __C, __B, __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_epi32 (int __A, int __B, int __C, int __D, - int __E, int __F, int __G, int __H) -{ - return _mm256_set_epi32 (__H, __G, __F, __E, __D, __C, __B, __A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_epi16 (short __q15, short __q14, short __q13, short __q12, - short __q11, short __q10, short __q09, short __q08, - short __q07, short __q06, short __q05, short __q04, - short __q03, short __q02, short __q01, short __q00) -{ - return _mm256_set_epi16 (__q00, __q01, __q02, __q03, - __q04, __q05, __q06, __q07, - __q08, __q09, __q10, __q11, - __q12, __q13, __q14, __q15); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_epi8 (char __q31, char __q30, char __q29, char __q28, - char __q27, char __q26, char __q25, char __q24, - char __q23, char __q22, char __q21, char __q20, - char __q19, char __q18, char __q17, char __q16, - char __q15, char __q14, char __q13, char __q12, - char __q11, char __q10, char __q09, char __q08, - char __q07, char __q06, char __q05, char __q04, - char __q03, char __q02, char __q01, char __q00) -{ - return _mm256_set_epi8 (__q00, __q01, __q02, __q03, - __q04, __q05, __q06, __q07, - __q08, __q09, __q10, __q11, - __q12, __q13, __q14, __q15, - __q16, __q17, __q18, __q19, - __q20, __q21, __q22, __q23, - __q24, __q25, __q26, __q27, - __q28, __q29, __q30, __q31); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_setr_epi64x (long long __A, long long __B, long long __C, - long long __D) -{ - return _mm256_set_epi64x (__D, __C, __B, __A); -} - -/* Casts between various SP, DP, INT vector types. Note that these do no - conversion of values, they just change the type. */ -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castpd_ps (__m256d __A) -{ - return (__m256) __A; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castpd_si256 (__m256d __A) -{ - return (__m256i) __A; -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castps_pd (__m256 __A) -{ - return (__m256d) __A; -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castps_si256(__m256 __A) -{ - return (__m256i) __A; -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castsi256_ps (__m256i __A) -{ - return (__m256) __A; -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castsi256_pd (__m256i __A) -{ - return (__m256d) __A; -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castpd256_pd128 (__m256d __A) -{ - return (__m128d) __builtin_ia32_pd_pd256 ((__v4df)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castps256_ps128 (__m256 __A) -{ - return (__m128) __builtin_ia32_ps_ps256 ((__v8sf)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castsi256_si128 (__m256i __A) -{ - return (__m128i) __builtin_ia32_si_si256 ((__v8si)__A); -} - -/* When cast is done from a 128 to 256-bit type, the low 128 bits of - the 256-bit result contain source parameter value and the upper 128 - bits of the result are undefined. Those intrinsics shouldn't - generate any extra moves. */ - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castpd128_pd256 (__m128d __A) -{ - return (__m256d) __builtin_ia32_pd256_pd ((__v2df)__A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castps128_ps256 (__m128 __A) -{ - return (__m256) __builtin_ia32_ps256_ps ((__v4sf)__A); -} - -extern __inline __m256i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_castsi128_si256 (__m128i __A) -{ - return (__m256i) __builtin_ia32_si256_si ((__v4si)__A); -} - -#ifdef __DISABLE_AVX__ -#undef __DISABLE_AVX__ -#pragma GCC pop_options -#endif /* __DISABLE_AVX__ */ - -#endif /* _AVXINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/bmi2intrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/bmi2intrin.h deleted file mode 100644 index ff96296..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/bmi2intrin.h +++ /dev/null @@ -1,109 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED -# error "Never use <bmi2intrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _BMI2INTRIN_H_INCLUDED -#define _BMI2INTRIN_H_INCLUDED - -#ifndef __BMI2__ -#pragma GCC push_options -#pragma GCC target("bmi2") -#define __DISABLE_BMI2__ -#endif /* __BMI2__ */ - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_bzhi_u32 (unsigned int __X, unsigned int __Y) -{ - return __builtin_ia32_bzhi_si (__X, __Y); -} - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_pdep_u32 (unsigned int __X, unsigned int __Y) -{ - return __builtin_ia32_pdep_si (__X, __Y); -} - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_pext_u32 (unsigned int __X, unsigned int __Y) -{ - return __builtin_ia32_pext_si (__X, __Y); -} - -#ifdef __x86_64__ - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_bzhi_u64 (unsigned long long __X, unsigned long long __Y) -{ - return __builtin_ia32_bzhi_di (__X, __Y); -} - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_pdep_u64 (unsigned long long __X, unsigned long long __Y) -{ - return __builtin_ia32_pdep_di (__X, __Y); -} - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_pext_u64 (unsigned long long __X, unsigned long long __Y) -{ - return __builtin_ia32_pext_di (__X, __Y); -} - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mulx_u64 (unsigned long long __X, unsigned long long __Y, - unsigned long long *__P) -{ - unsigned __int128 __res = (unsigned __int128) __X * __Y; - *__P = (unsigned long long) (__res >> 64); - return (unsigned long long) __res; -} - -#else /* !__x86_64__ */ - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mulx_u32 (unsigned int __X, unsigned int __Y, unsigned int *__P) -{ - unsigned long long __res = (unsigned long long) __X * __Y; - *__P = (unsigned int) (__res >> 32); - return (unsigned int) __res; -} - -#endif /* !__x86_64__ */ - -#ifdef __DISABLE_BMI2__ -#undef __DISABLE_BMI2__ -#pragma GCC pop_options -#endif /* __DISABLE_BMI2__ */ - -#endif /* _BMI2INTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/bmiintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/bmiintrin.h deleted file mode 100644 index b2d7c60..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/bmiintrin.h +++ /dev/null @@ -1,184 +0,0 @@ -/* Copyright (C) 2010-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED -# error "Never use <bmiintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _BMIINTRIN_H_INCLUDED -#define _BMIINTRIN_H_INCLUDED - -#ifndef __BMI__ -#pragma GCC push_options -#pragma GCC target("bmi") -#define __DISABLE_BMI__ -#endif /* __BMI__ */ - -extern __inline unsigned short __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__tzcnt_u16 (unsigned short __X) -{ - return __builtin_ctzs (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__andn_u32 (unsigned int __X, unsigned int __Y) -{ - return ~__X & __Y; -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bextr_u32 (unsigned int __X, unsigned int __Y) -{ - return __builtin_ia32_bextr_u32 (__X, __Y); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_bextr_u32 (unsigned int __X, unsigned int __Y, unsigned __Z) -{ - return __builtin_ia32_bextr_u32 (__X, ((__Y & 0xff) | ((__Z & 0xff) << 8))); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsi_u32 (unsigned int __X) -{ - return __X & -__X; -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsi_u32 (unsigned int __X) -{ - return __blsi_u32 (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsmsk_u32 (unsigned int __X) -{ - return __X ^ (__X - 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsmsk_u32 (unsigned int __X) -{ - return __blsmsk_u32 (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsr_u32 (unsigned int __X) -{ - return __X & (__X - 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsr_u32 (unsigned int __X) -{ - return __blsr_u32 (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__tzcnt_u32 (unsigned int __X) -{ - return __builtin_ctz (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_tzcnt_u32 (unsigned int __X) -{ - return __builtin_ctz (__X); -} - - -#ifdef __x86_64__ -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__andn_u64 (unsigned long long __X, unsigned long long __Y) -{ - return ~__X & __Y; -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bextr_u64 (unsigned long long __X, unsigned long long __Y) -{ - return __builtin_ia32_bextr_u64 (__X, __Y); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_bextr_u64 (unsigned long long __X, unsigned int __Y, unsigned int __Z) -{ - return __builtin_ia32_bextr_u64 (__X, ((__Y & 0xff) | ((__Z & 0xff) << 8))); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsi_u64 (unsigned long long __X) -{ - return __X & -__X; -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsi_u64 (unsigned long long __X) -{ - return __blsi_u64 (__X); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsmsk_u64 (unsigned long long __X) -{ - return __X ^ (__X - 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsmsk_u64 (unsigned long long __X) -{ - return __blsmsk_u64 (__X); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsr_u64 (unsigned long long __X) -{ - return __X & (__X - 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_blsr_u64 (unsigned long long __X) -{ - return __blsr_u64 (__X); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__tzcnt_u64 (unsigned long long __X) -{ - return __builtin_ctzll (__X); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_tzcnt_u64 (unsigned long long __X) -{ - return __builtin_ctzll (__X); -} - -#endif /* __x86_64__ */ - -#ifdef __DISABLE_BMI__ -#undef __DISABLE_BMI__ -#pragma GCC pop_options -#endif /* __DISABLE_BMI__ */ - -#endif /* _BMIINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/bmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/bmmintrin.h deleted file mode 100644 index 24cf26e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/bmmintrin.h +++ /dev/null @@ -1,29 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _BMMINTRIN_H_INCLUDED -#define _BMMINTRIN_H_INCLUDED - -# error "SSE5 instruction set removed from compiler" - -#endif /* _BMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/cpuid.h b/lib/gcc/x86_64-linux-android/4.9.x/include/cpuid.h deleted file mode 100644 index 8c323ae..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/cpuid.h +++ /dev/null @@ -1,277 +0,0 @@ -/* - * Copyright (C) 2007-2014 Free Software Foundation, Inc. - * - * This file is free software; you can redistribute it and/or modify it - * under the terms of the GNU General Public License as published by the - * Free Software Foundation; either version 3, or (at your option) any - * later version. - * - * This file is distributed in the hope that it will be useful, but - * WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * General Public License for more details. - * - * Under Section 7 of GPL version 3, you are granted additional - * permissions described in the GCC Runtime Library Exception, version - * 3.1, as published by the Free Software Foundation. - * - * You should have received a copy of the GNU General Public License and - * a copy of the GCC Runtime Library Exception along with this program; - * see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - * <http://www.gnu.org/licenses/>. - */ - -/* %ecx */ -#define bit_SSE3 (1 << 0) -#define bit_PCLMUL (1 << 1) -#define bit_LZCNT (1 << 5) -#define bit_SSSE3 (1 << 9) -#define bit_FMA (1 << 12) -#define bit_CMPXCHG16B (1 << 13) -#define bit_SSE4_1 (1 << 19) -#define bit_SSE4_2 (1 << 20) -#define bit_MOVBE (1 << 22) -#define bit_POPCNT (1 << 23) -#define bit_AES (1 << 25) -#define bit_XSAVE (1 << 26) -#define bit_OSXSAVE (1 << 27) -#define bit_AVX (1 << 28) -#define bit_F16C (1 << 29) -#define bit_RDRND (1 << 30) - -/* %edx */ -#define bit_CMPXCHG8B (1 << 8) -#define bit_CMOV (1 << 15) -#define bit_MMX (1 << 23) -#define bit_FXSAVE (1 << 24) -#define bit_SSE (1 << 25) -#define bit_SSE2 (1 << 26) - -/* Extended Features */ -/* %ecx */ -#define bit_LAHF_LM (1 << 0) -#define bit_ABM (1 << 5) -#define bit_SSE4a (1 << 6) -#define bit_PRFCHW (1 << 8) -#define bit_XOP (1 << 11) -#define bit_LWP (1 << 15) -#define bit_FMA4 (1 << 16) -#define bit_TBM (1 << 21) - -/* %edx */ -#define bit_MMXEXT (1 << 22) -#define bit_LM (1 << 29) -#define bit_3DNOWP (1 << 30) -#define bit_3DNOW (1 << 31) - -/* Extended Features (%eax == 7) */ -/* %ebx */ -#define bit_FSGSBASE (1 << 0) -#define bit_BMI (1 << 3) -#define bit_HLE (1 << 4) -#define bit_AVX2 (1 << 5) -#define bit_BMI2 (1 << 8) -#define bit_RTM (1 << 11) -#define bit_AVX512F (1 << 16) -#define bit_RDSEED (1 << 18) -#define bit_ADX (1 << 19) -#define bit_AVX512PF (1 << 26) -#define bit_AVX512ER (1 << 27) -#define bit_AVX512CD (1 << 28) -#define bit_SHA (1 << 29) - -/* %ecx */ -#define bit_PREFETCHWT1 (1 << 0) - -/* Extended State Enumeration Sub-leaf (%eax == 13, %ecx == 1) */ -#define bit_XSAVEOPT (1 << 0) - -/* Signatures for different CPU implementations as returned in uses - of cpuid with level 0. */ -#define signature_AMD_ebx 0x68747541 -#define signature_AMD_ecx 0x444d4163 -#define signature_AMD_edx 0x69746e65 - -#define signature_CENTAUR_ebx 0x746e6543 -#define signature_CENTAUR_ecx 0x736c7561 -#define signature_CENTAUR_edx 0x48727561 - -#define signature_CYRIX_ebx 0x69727943 -#define signature_CYRIX_ecx 0x64616574 -#define signature_CYRIX_edx 0x736e4978 - -#define signature_INTEL_ebx 0x756e6547 -#define signature_INTEL_ecx 0x6c65746e -#define signature_INTEL_edx 0x49656e69 - -#define signature_TM1_ebx 0x6e617254 -#define signature_TM1_ecx 0x55504361 -#define signature_TM1_edx 0x74656d73 - -#define signature_TM2_ebx 0x756e6547 -#define signature_TM2_ecx 0x3638784d -#define signature_TM2_edx 0x54656e69 - -#define signature_NSC_ebx 0x646f6547 -#define signature_NSC_ecx 0x43534e20 -#define signature_NSC_edx 0x79622065 - -#define signature_NEXGEN_ebx 0x4778654e -#define signature_NEXGEN_ecx 0x6e657669 -#define signature_NEXGEN_edx 0x72446e65 - -#define signature_RISE_ebx 0x65736952 -#define signature_RISE_ecx 0x65736952 -#define signature_RISE_edx 0x65736952 - -#define signature_SIS_ebx 0x20536953 -#define signature_SIS_ecx 0x20536953 -#define signature_SIS_edx 0x20536953 - -#define signature_UMC_ebx 0x20434d55 -#define signature_UMC_ecx 0x20434d55 -#define signature_UMC_edx 0x20434d55 - -#define signature_VIA_ebx 0x20414956 -#define signature_VIA_ecx 0x20414956 -#define signature_VIA_edx 0x20414956 - -#define signature_VORTEX_ebx 0x74726f56 -#define signature_VORTEX_ecx 0x436f5320 -#define signature_VORTEX_edx 0x36387865 - -#if defined(__i386__) && defined(__PIC__) -/* %ebx may be the PIC register. */ -#if __GNUC__ >= 3 -#define __cpuid(level, a, b, c, d) \ - __asm__ ("xchg{l}\t{%%}ebx, %k1\n\t" \ - "cpuid\n\t" \ - "xchg{l}\t{%%}ebx, %k1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level)) - -#define __cpuid_count(level, count, a, b, c, d) \ - __asm__ ("xchg{l}\t{%%}ebx, %k1\n\t" \ - "cpuid\n\t" \ - "xchg{l}\t{%%}ebx, %k1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level), "2" (count)) -#else -/* Host GCCs older than 3.0 weren't supporting Intel asm syntax - nor alternatives in i386 code. */ -#define __cpuid(level, a, b, c, d) \ - __asm__ ("xchgl\t%%ebx, %k1\n\t" \ - "cpuid\n\t" \ - "xchgl\t%%ebx, %k1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level)) - -#define __cpuid_count(level, count, a, b, c, d) \ - __asm__ ("xchgl\t%%ebx, %k1\n\t" \ - "cpuid\n\t" \ - "xchgl\t%%ebx, %k1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level), "2" (count)) -#endif -#elif defined(__x86_64__) && (defined(__code_model_medium__) || defined(__code_model_large__)) && defined(__PIC__) -/* %rbx may be the PIC register. */ -#define __cpuid(level, a, b, c, d) \ - __asm__ ("xchg{q}\t{%%}rbx, %q1\n\t" \ - "cpuid\n\t" \ - "xchg{q}\t{%%}rbx, %q1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level)) - -#define __cpuid_count(level, count, a, b, c, d) \ - __asm__ ("xchg{q}\t{%%}rbx, %q1\n\t" \ - "cpuid\n\t" \ - "xchg{q}\t{%%}rbx, %q1\n\t" \ - : "=a" (a), "=&r" (b), "=c" (c), "=d" (d) \ - : "0" (level), "2" (count)) -#else -#define __cpuid(level, a, b, c, d) \ - __asm__ ("cpuid\n\t" \ - : "=a" (a), "=b" (b), "=c" (c), "=d" (d) \ - : "0" (level)) - -#define __cpuid_count(level, count, a, b, c, d) \ - __asm__ ("cpuid\n\t" \ - : "=a" (a), "=b" (b), "=c" (c), "=d" (d) \ - : "0" (level), "2" (count)) -#endif - -/* Return highest supported input value for cpuid instruction. ext can - be either 0x0 or 0x8000000 to return highest supported value for - basic or extended cpuid information. Function returns 0 if cpuid - is not supported or whatever cpuid returns in eax register. If sig - pointer is non-null, then first four bytes of the signature - (as found in ebx register) are returned in location pointed by sig. */ - -static __inline unsigned int -__get_cpuid_max (unsigned int __ext, unsigned int *__sig) -{ - unsigned int __eax, __ebx, __ecx, __edx; - -#ifndef __x86_64__ - /* See if we can use cpuid. On AMD64 we always can. */ -#if __GNUC__ >= 3 - __asm__ ("pushf{l|d}\n\t" - "pushf{l|d}\n\t" - "pop{l}\t%0\n\t" - "mov{l}\t{%0, %1|%1, %0}\n\t" - "xor{l}\t{%2, %0|%0, %2}\n\t" - "push{l}\t%0\n\t" - "popf{l|d}\n\t" - "pushf{l|d}\n\t" - "pop{l}\t%0\n\t" - "popf{l|d}\n\t" - : "=&r" (__eax), "=&r" (__ebx) - : "i" (0x00200000)); -#else -/* Host GCCs older than 3.0 weren't supporting Intel asm syntax - nor alternatives in i386 code. */ - __asm__ ("pushfl\n\t" - "pushfl\n\t" - "popl\t%0\n\t" - "movl\t%0, %1\n\t" - "xorl\t%2, %0\n\t" - "pushl\t%0\n\t" - "popfl\n\t" - "pushfl\n\t" - "popl\t%0\n\t" - "popfl\n\t" - : "=&r" (__eax), "=&r" (__ebx) - : "i" (0x00200000)); -#endif - - if (!((__eax ^ __ebx) & 0x00200000)) - return 0; -#endif - - /* Host supports cpuid. Return highest supported cpuid input value. */ - __cpuid (__ext, __eax, __ebx, __ecx, __edx); - - if (__sig) - *__sig = __ebx; - - return __eax; -} - -/* Return cpuid data for requested cpuid level, as found in returned - eax, ebx, ecx and edx registers. The function checks if cpuid is - supported and returns 1 for valid cpuid information or 0 for - unsupported cpuid level. All pointers are required to be non-null. */ - -static __inline int -__get_cpuid (unsigned int __level, - unsigned int *__eax, unsigned int *__ebx, - unsigned int *__ecx, unsigned int *__edx) -{ - unsigned int __ext = __level & 0x80000000; - - if (__get_cpuid_max (__ext, 0) < __level) - return 0; - - __cpuid (__level, *__eax, *__ebx, *__ecx, *__edx); - return 1; -} diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/cross-stdarg.h b/lib/gcc/x86_64-linux-android/4.9.x/include/cross-stdarg.h deleted file mode 100644 index d16cef8..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/cross-stdarg.h +++ /dev/null @@ -1,72 +0,0 @@ -/* Copyright (C) 2002-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef __CROSS_STDARG_H_INCLUDED -#define __CROSS_STDARG_H_INCLUDED - -/* Make sure that for non x64 targets cross builtins are defined. */ -#ifndef __x86_64__ -/* Call abi ms_abi. */ -#define __builtin_ms_va_list __builtin_va_list -#define __builtin_ms_va_copy __builtin_va_copy -#define __builtin_ms_va_start __builtin_va_start -#define __builtin_ms_va_end __builtin_va_end - -/* Call abi sysv_abi. */ -#define __builtin_sysv_va_list __builtin_va_list -#define __builtin_sysv_va_copy __builtin_va_copy -#define __builtin_sysv_va_start __builtin_va_start -#define __builtin_sysv_va_end __builtin_va_end -#endif - -#define __ms_va_copy(__d,__s) __builtin_ms_va_copy(__d,__s) -#define __ms_va_start(__v,__l) __builtin_ms_va_start(__v,__l) -#define __ms_va_arg(__v,__l) __builtin_va_arg(__v,__l) -#define __ms_va_end(__v) __builtin_ms_va_end(__v) - -#define __sysv_va_copy(__d,__s) __builtin_sysv_va_copy(__d,__s) -#define __sysv_va_start(__v,__l) __builtin_sysv_va_start(__v,__l) -#define __sysv_va_arg(__v,__l) __builtin_va_arg(__v,__l) -#define __sysv_va_end(__v) __builtin_sysv_va_end(__v) - -#ifndef __GNUC_SYSV_VA_LIST -#define __GNUC_SYSV_VA_LIST - typedef __builtin_sysv_va_list __gnuc_sysv_va_list; -#endif - -#ifndef _SYSV_VA_LIST_DEFINED -#define _SYSV_VA_LIST_DEFINED - typedef __gnuc_sysv_va_list sysv_va_list; -#endif - -#ifndef __GNUC_MS_VA_LIST -#define __GNUC_MS_VA_LIST - typedef __builtin_ms_va_list __gnuc_ms_va_list; -#endif - -#ifndef _MS_VA_LIST_DEFINED -#define _MS_VA_LIST_DEFINED - typedef __gnuc_ms_va_list ms_va_list; -#endif - -#endif /* __CROSS_STDARG_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/emmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/emmintrin.h deleted file mode 100644 index a2bdf0e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/emmintrin.h +++ /dev/null @@ -1,1541 +0,0 @@ -/* Copyright (C) 2003-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 9.0. */ - -#ifndef _EMMINTRIN_H_INCLUDED -#define _EMMINTRIN_H_INCLUDED - -/* We need definitions from the SSE header files*/ -#include <xmmintrin.h> - -#ifndef __SSE2__ -#pragma GCC push_options -#pragma GCC target("sse2") -#define __DISABLE_SSE2__ -#endif /* __SSE2__ */ - -/* SSE2 */ -typedef double __v2df __attribute__ ((__vector_size__ (16))); -typedef long long __v2di __attribute__ ((__vector_size__ (16))); -typedef int __v4si __attribute__ ((__vector_size__ (16))); -typedef short __v8hi __attribute__ ((__vector_size__ (16))); -typedef char __v16qi __attribute__ ((__vector_size__ (16))); - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef long long __m128i __attribute__ ((__vector_size__ (16), __may_alias__)); -typedef double __m128d __attribute__ ((__vector_size__ (16), __may_alias__)); - -/* Create a selector for use with the SHUFPD instruction. */ -#define _MM_SHUFFLE2(fp1,fp0) \ - (((fp1) << 1) | (fp0)) - -/* Create a vector with element 0 as F and the rest zero. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_sd (double __F) -{ - return __extension__ (__m128d){ __F, 0.0 }; -} - -/* Create a vector with both elements equal to F. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_pd (double __F) -{ - return __extension__ (__m128d){ __F, __F }; -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pd1 (double __F) -{ - return _mm_set1_pd (__F); -} - -/* Create a vector with the lower value X and upper value W. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pd (double __W, double __X) -{ - return __extension__ (__m128d){ __X, __W }; -} - -/* Create a vector with the lower value W and upper value X. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_pd (double __W, double __X) -{ - return __extension__ (__m128d){ __W, __X }; -} - -/* Create an undefined vector. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_undefined_pd (void) -{ - __m128d __Y = __Y; - return __Y; -} - -/* Create a vector of zeros. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setzero_pd (void) -{ - return __extension__ (__m128d){ 0.0, 0.0 }; -} - -/* Sets the low DPFP value of A from the low value of B. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_move_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df)__A, (__v2df)__B); -} - -/* Load two DPFP values from P. The address must be 16-byte aligned. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_pd (double const *__P) -{ - return *(__m128d *)__P; -} - -/* Load two DPFP values from P. The address need not be 16-byte aligned. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadu_pd (double const *__P) -{ - return __builtin_ia32_loadupd (__P); -} - -/* Create a vector with all two elements equal to *P. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load1_pd (double const *__P) -{ - return _mm_set1_pd (*__P); -} - -/* Create a vector with element 0 as *P and the rest zero. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_sd (double const *__P) -{ - return _mm_set_sd (*__P); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_pd1 (double const *__P) -{ - return _mm_load1_pd (__P); -} - -/* Load two DPFP values in reverse order. The address must be aligned. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadr_pd (double const *__P) -{ - __m128d __tmp = _mm_load_pd (__P); - return __builtin_ia32_shufpd (__tmp, __tmp, _MM_SHUFFLE2 (0,1)); -} - -/* Store two DPFP values. The address must be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_pd (double *__P, __m128d __A) -{ - *(__m128d *)__P = __A; -} - -/* Store two DPFP values. The address need not be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storeu_pd (double *__P, __m128d __A) -{ - __builtin_ia32_storeupd (__P, __A); -} - -/* Stores the lower DPFP value. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_sd (double *__P, __m128d __A) -{ - *__P = __builtin_ia32_vec_ext_v2df (__A, 0); -} - -extern __inline double __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_f64 (__m128d __A) -{ - return __builtin_ia32_vec_ext_v2df (__A, 0); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storel_pd (double *__P, __m128d __A) -{ - _mm_store_sd (__P, __A); -} - -/* Stores the upper DPFP value. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storeh_pd (double *__P, __m128d __A) -{ - *__P = __builtin_ia32_vec_ext_v2df (__A, 1); -} - -/* Store the lower DPFP value across two words. - The address must be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store1_pd (double *__P, __m128d __A) -{ - _mm_store_pd (__P, __builtin_ia32_shufpd (__A, __A, _MM_SHUFFLE2 (0,0))); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_pd1 (double *__P, __m128d __A) -{ - _mm_store1_pd (__P, __A); -} - -/* Store two DPFP values in reverse order. The address must be aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storer_pd (double *__P, __m128d __A) -{ - _mm_store_pd (__P, __builtin_ia32_shufpd (__A, __A, _MM_SHUFFLE2 (0,1))); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi128_si32 (__m128i __A) -{ - return __builtin_ia32_vec_ext_v4si ((__v4si)__A, 0); -} - -#ifdef __x86_64__ -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi128_si64 (__m128i __A) -{ - return __builtin_ia32_vec_ext_v2di ((__v2di)__A, 0); -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi128_si64x (__m128i __A) -{ - return __builtin_ia32_vec_ext_v2di ((__v2di)__A, 0); -} -#endif - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_addpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_addsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_subpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_subsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_mulpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_mulsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_divpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_divsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_pd (__m128d __A) -{ - return (__m128d)__builtin_ia32_sqrtpd ((__v2df)__A); -} - -/* Return pair {sqrt (A[0), B[1]}. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_sd (__m128d __A, __m128d __B) -{ - __v2df __tmp = __builtin_ia32_movsd ((__v2df)__A, (__v2df)__B); - return (__m128d)__builtin_ia32_sqrtsd ((__v2df)__tmp); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_minpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_minsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_maxpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_maxsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_and_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_andpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_andnot_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_andnpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_or_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_orpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_xor_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_xorpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpeqpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpltpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmple_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmplepd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpgtpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpge_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpgepd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpneq_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpneqpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnlt_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpnltpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnle_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpnlepd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpngt_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpngtpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnge_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpngepd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpord_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpordpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpunord_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpunordpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpeqsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpltsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmple_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmplesd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df) __A, - (__v2df) - __builtin_ia32_cmpltsd ((__v2df) __B, - (__v2df) - __A)); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpge_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df) __A, - (__v2df) - __builtin_ia32_cmplesd ((__v2df) __B, - (__v2df) - __A)); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpneq_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpneqsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnlt_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpnltsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnle_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpnlesd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpngt_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df) __A, - (__v2df) - __builtin_ia32_cmpnltsd ((__v2df) __B, - (__v2df) - __A)); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnge_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df) __A, - (__v2df) - __builtin_ia32_cmpnlesd ((__v2df) __B, - (__v2df) - __A)); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpord_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpordsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpunord_sd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_cmpunordsd ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comieq_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdeq ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comilt_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdlt ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comile_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdle ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comigt_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdgt ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comige_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdge ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comineq_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_comisdneq ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomieq_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdeq ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomilt_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdlt ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomile_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdle ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomigt_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdgt ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomige_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdge ((__v2df)__A, (__v2df)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomineq_sd (__m128d __A, __m128d __B) -{ - return __builtin_ia32_ucomisdneq ((__v2df)__A, (__v2df)__B); -} - -/* Create a vector of Qi, where i is the element number. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_epi64x (long long __q1, long long __q0) -{ - return __extension__ (__m128i)(__v2di){ __q0, __q1 }; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_epi64 (__m64 __q1, __m64 __q0) -{ - return _mm_set_epi64x ((long long)__q1, (long long)__q0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_epi32 (int __q3, int __q2, int __q1, int __q0) -{ - return __extension__ (__m128i)(__v4si){ __q0, __q1, __q2, __q3 }; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_epi16 (short __q7, short __q6, short __q5, short __q4, - short __q3, short __q2, short __q1, short __q0) -{ - return __extension__ (__m128i)(__v8hi){ - __q0, __q1, __q2, __q3, __q4, __q5, __q6, __q7 }; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_epi8 (char __q15, char __q14, char __q13, char __q12, - char __q11, char __q10, char __q09, char __q08, - char __q07, char __q06, char __q05, char __q04, - char __q03, char __q02, char __q01, char __q00) -{ - return __extension__ (__m128i)(__v16qi){ - __q00, __q01, __q02, __q03, __q04, __q05, __q06, __q07, - __q08, __q09, __q10, __q11, __q12, __q13, __q14, __q15 - }; -} - -/* Set all of the elements of the vector to A. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_epi64x (long long __A) -{ - return _mm_set_epi64x (__A, __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_epi64 (__m64 __A) -{ - return _mm_set_epi64 (__A, __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_epi32 (int __A) -{ - return _mm_set_epi32 (__A, __A, __A, __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_epi16 (short __A) -{ - return _mm_set_epi16 (__A, __A, __A, __A, __A, __A, __A, __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_epi8 (char __A) -{ - return _mm_set_epi8 (__A, __A, __A, __A, __A, __A, __A, __A, - __A, __A, __A, __A, __A, __A, __A, __A); -} - -/* Create a vector of Qi, where i is the element number. - The parameter order is reversed from the _mm_set_epi* functions. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_epi64 (__m64 __q0, __m64 __q1) -{ - return _mm_set_epi64 (__q1, __q0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_epi32 (int __q0, int __q1, int __q2, int __q3) -{ - return _mm_set_epi32 (__q3, __q2, __q1, __q0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_epi16 (short __q0, short __q1, short __q2, short __q3, - short __q4, short __q5, short __q6, short __q7) -{ - return _mm_set_epi16 (__q7, __q6, __q5, __q4, __q3, __q2, __q1, __q0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_epi8 (char __q00, char __q01, char __q02, char __q03, - char __q04, char __q05, char __q06, char __q07, - char __q08, char __q09, char __q10, char __q11, - char __q12, char __q13, char __q14, char __q15) -{ - return _mm_set_epi8 (__q15, __q14, __q13, __q12, __q11, __q10, __q09, __q08, - __q07, __q06, __q05, __q04, __q03, __q02, __q01, __q00); -} - -/* Create a vector with element 0 as *P and the rest zero. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_si128 (__m128i const *__P) -{ - return *__P; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadu_si128 (__m128i const *__P) -{ - return (__m128i) __builtin_ia32_loaddqu ((char const *)__P); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadl_epi64 (__m128i const *__P) -{ - return _mm_set_epi64 ((__m64)0LL, *(__m64 *)__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_si128 (__m128i *__P, __m128i __B) -{ - *__P = __B; -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storeu_si128 (__m128i *__P, __m128i __B) -{ - __builtin_ia32_storedqu ((char *)__P, (__v16qi)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storel_epi64 (__m128i *__P, __m128i __B) -{ - *(long long *)__P = __builtin_ia32_vec_ext_v2di ((__v2di)__B, 0); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movepi64_pi64 (__m128i __B) -{ - return (__m64) __builtin_ia32_vec_ext_v2di ((__v2di)__B, 0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movpi64_epi64 (__m64 __A) -{ - return _mm_set_epi64 ((__m64)0LL, __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_move_epi64 (__m128i __A) -{ - return (__m128i)__builtin_ia32_movq128 ((__v2di) __A); -} - -/* Create an undefined vector. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_undefined_si128 (void) -{ - __m128i __Y = __Y; - return __Y; -} - -/* Create a vector of zeros. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setzero_si128 (void) -{ - return __extension__ (__m128i)(__v4si){ 0, 0, 0, 0 }; -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi32_pd (__m128i __A) -{ - return (__m128d)__builtin_ia32_cvtdq2pd ((__v4si) __A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi32_ps (__m128i __A) -{ - return (__m128)__builtin_ia32_cvtdq2ps ((__v4si) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpd_epi32 (__m128d __A) -{ - return (__m128i)__builtin_ia32_cvtpd2dq ((__v2df) __A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpd_pi32 (__m128d __A) -{ - return (__m64)__builtin_ia32_cvtpd2pi ((__v2df) __A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpd_ps (__m128d __A) -{ - return (__m128)__builtin_ia32_cvtpd2ps ((__v2df) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttpd_epi32 (__m128d __A) -{ - return (__m128i)__builtin_ia32_cvttpd2dq ((__v2df) __A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttpd_pi32 (__m128d __A) -{ - return (__m64)__builtin_ia32_cvttpd2pi ((__v2df) __A); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpi32_pd (__m64 __A) -{ - return (__m128d)__builtin_ia32_cvtpi2pd ((__v2si) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_epi32 (__m128 __A) -{ - return (__m128i)__builtin_ia32_cvtps2dq ((__v4sf) __A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttps_epi32 (__m128 __A) -{ - return (__m128i)__builtin_ia32_cvttps2dq ((__v4sf) __A); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_pd (__m128 __A) -{ - return (__m128d)__builtin_ia32_cvtps2pd ((__v4sf) __A); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_si32 (__m128d __A) -{ - return __builtin_ia32_cvtsd2si ((__v2df) __A); -} - -#ifdef __x86_64__ -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_si64 (__m128d __A) -{ - return __builtin_ia32_cvtsd2si64 ((__v2df) __A); -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_si64x (__m128d __A) -{ - return __builtin_ia32_cvtsd2si64 ((__v2df) __A); -} -#endif - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_si32 (__m128d __A) -{ - return __builtin_ia32_cvttsd2si ((__v2df) __A); -} - -#ifdef __x86_64__ -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_si64 (__m128d __A) -{ - return __builtin_ia32_cvttsd2si64 ((__v2df) __A); -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttsd_si64x (__m128d __A) -{ - return __builtin_ia32_cvttsd2si64 ((__v2df) __A); -} -#endif - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsd_ss (__m128 __A, __m128d __B) -{ - return (__m128)__builtin_ia32_cvtsd2ss ((__v4sf) __A, (__v2df) __B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi32_sd (__m128d __A, int __B) -{ - return (__m128d)__builtin_ia32_cvtsi2sd ((__v2df) __A, __B); -} - -#ifdef __x86_64__ -/* Intel intrinsic. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_sd (__m128d __A, long long __B) -{ - return (__m128d)__builtin_ia32_cvtsi642sd ((__v2df) __A, __B); -} - -/* Microsoft intrinsic. */ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64x_sd (__m128d __A, long long __B) -{ - return (__m128d)__builtin_ia32_cvtsi642sd ((__v2df) __A, __B); -} -#endif - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_sd (__m128d __A, __m128 __B) -{ - return (__m128d)__builtin_ia32_cvtss2sd ((__v2df) __A, (__v4sf)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_pd(__m128d __A, __m128d __B, const int __mask) -{ - return (__m128d)__builtin_ia32_shufpd ((__v2df)__A, (__v2df)__B, __mask); -} -#else -#define _mm_shuffle_pd(A, B, N) \ - ((__m128d)__builtin_ia32_shufpd ((__v2df)(__m128d)(A), \ - (__v2df)(__m128d)(B), (int)(N))) -#endif - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_unpckhpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_pd (__m128d __A, __m128d __B) -{ - return (__m128d)__builtin_ia32_unpcklpd ((__v2df)__A, (__v2df)__B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadh_pd (__m128d __A, double const *__B) -{ - return (__m128d)__builtin_ia32_loadhpd ((__v2df)__A, __B); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadl_pd (__m128d __A, double const *__B) -{ - return (__m128d)__builtin_ia32_loadlpd ((__v2df)__A, __B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movemask_pd (__m128d __A) -{ - return __builtin_ia32_movmskpd ((__v2df)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packs_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_packsswb128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packs_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_packssdw128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packus_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_packuswb128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpckhbw128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpckhwd128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpckhdq128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpckhqdq128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpcklbw128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpcklwd128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpckldq128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_punpcklqdq128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddd128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddq128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddsb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddsw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddusb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_epu16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_paddusw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubd128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubq128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubsb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubsw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubusb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_epu16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psubusw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_madd_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmaddwd128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhi_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmulhw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mullo_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmullw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_su32 (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pmuludq ((__v2si)__A, (__v2si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmuludq128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_epi16 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psllwi128 ((__v8hi)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_epi32 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_pslldi128 ((__v4si)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_epi64 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psllqi128 ((__v2di)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srai_epi16 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psrawi128 ((__v8hi)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srai_epi32 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psradi128 ((__v4si)__A, __B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_si128 (__m128i __A, const int __N) -{ - return (__m128i)__builtin_ia32_psrldqi128 (__A, __N * 8); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_si128 (__m128i __A, const int __N) -{ - return (__m128i)__builtin_ia32_pslldqi128 (__A, __N * 8); -} -#else -#define _mm_srli_si128(A, N) \ - ((__m128i)__builtin_ia32_psrldqi128 ((__m128i)(A), (int)(N) * 8)) -#define _mm_slli_si128(A, N) \ - ((__m128i)__builtin_ia32_pslldqi128 ((__m128i)(A), (int)(N) * 8)) -#endif - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_epi16 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psrlwi128 ((__v8hi)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_epi32 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psrldi128 ((__v4si)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_epi64 (__m128i __A, int __B) -{ - return (__m128i)__builtin_ia32_psrlqi128 ((__v2di)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psllw128((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pslld128((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psllq128((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sra_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psraw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sra_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psrad128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psrlw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psrld128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_epi64 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psrlq128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_and_si128 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pand128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_andnot_si128 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pandn128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_or_si128 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_por128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_xor_si128 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pxor128 ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpeqb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpeqw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpeqd128 ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtb128 ((__v16qi)__B, (__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtw128 ((__v8hi)__B, (__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtd128 ((__v4si)__B, (__v4si)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_epi8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_epi32 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pcmpgtd128 ((__v4si)__A, (__v4si)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_epi16 (__m128i const __A, int const __N) -{ - return (unsigned short) __builtin_ia32_vec_ext_v8hi ((__v8hi)__A, __N); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_epi16 (__m128i const __A, int const __D, int const __N) -{ - return (__m128i) __builtin_ia32_vec_set_v8hi ((__v8hi)__A, __D, __N); -} -#else -#define _mm_extract_epi16(A, N) \ - ((int) (unsigned short) __builtin_ia32_vec_ext_v8hi ((__v8hi)(__m128i)(A), (int)(N))) -#define _mm_insert_epi16(A, D, N) \ - ((__m128i) __builtin_ia32_vec_set_v8hi ((__v8hi)(__m128i)(A), \ - (int)(D), (int)(N))) -#endif - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmaxsw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmaxub128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epi16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pminsw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pminub128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movemask_epi8 (__m128i __A) -{ - return __builtin_ia32_pmovmskb128 ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhi_epu16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pmulhuw128 ((__v8hi)__A, (__v8hi)__B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shufflehi_epi16 (__m128i __A, const int __mask) -{ - return (__m128i)__builtin_ia32_pshufhw ((__v8hi)__A, __mask); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shufflelo_epi16 (__m128i __A, const int __mask) -{ - return (__m128i)__builtin_ia32_pshuflw ((__v8hi)__A, __mask); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_epi32 (__m128i __A, const int __mask) -{ - return (__m128i)__builtin_ia32_pshufd ((__v4si)__A, __mask); -} -#else -#define _mm_shufflehi_epi16(A, N) \ - ((__m128i)__builtin_ia32_pshufhw ((__v8hi)(__m128i)(A), (int)(N))) -#define _mm_shufflelo_epi16(A, N) \ - ((__m128i)__builtin_ia32_pshuflw ((__v8hi)(__m128i)(A), (int)(N))) -#define _mm_shuffle_epi32(A, N) \ - ((__m128i)__builtin_ia32_pshufd ((__v4si)(__m128i)(A), (int)(N))) -#endif - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskmoveu_si128 (__m128i __A, __m128i __B, char *__C) -{ - __builtin_ia32_maskmovdqu ((__v16qi)__A, (__v16qi)__B, __C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_avg_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pavgb128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_avg_epu16 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_pavgw128 ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sad_epu8 (__m128i __A, __m128i __B) -{ - return (__m128i)__builtin_ia32_psadbw128 ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_si32 (int *__A, int __B) -{ - __builtin_ia32_movnti (__A, __B); -} - -#ifdef __x86_64__ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_si64 (long long int *__A, long long int __B) -{ - __builtin_ia32_movnti64 (__A, __B); -} -#endif - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_si128 (__m128i *__A, __m128i __B) -{ - __builtin_ia32_movntdq ((__v2di *)__A, (__v2di)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_pd (double *__A, __m128d __B) -{ - __builtin_ia32_movntpd (__A, (__v2df)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_clflush (void const *__A) -{ - __builtin_ia32_clflush (__A); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_lfence (void) -{ - __builtin_ia32_lfence (); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mfence (void) -{ - __builtin_ia32_mfence (); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi32_si128 (int __A) -{ - return _mm_set_epi32 (0, 0, 0, __A); -} - -#ifdef __x86_64__ -/* Intel intrinsic. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_si128 (long long __A) -{ - return _mm_set_epi64x (0, __A); -} - -/* Microsoft intrinsic. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64x_si128 (long long __A) -{ - return _mm_set_epi64x (0, __A); -} -#endif - -/* Casts between various SP, DP, INT vector types. Note that these do no - conversion of values, they just change the type. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castpd_ps(__m128d __A) -{ - return (__m128) __A; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castpd_si128(__m128d __A) -{ - return (__m128i) __A; -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castps_pd(__m128 __A) -{ - return (__m128d) __A; -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castps_si128(__m128 __A) -{ - return (__m128i) __A; -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castsi128_ps(__m128i __A) -{ - return (__m128) __A; -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_castsi128_pd(__m128i __A) -{ - return (__m128d) __A; -} - -#ifdef __DISABLE_SSE2__ -#undef __DISABLE_SSE2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE2__ */ - -#endif /* _EMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/f16cintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/f16cintrin.h deleted file mode 100644 index 1181f8b..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/f16cintrin.h +++ /dev/null @@ -1,98 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED -# error "Never use <f16intrin.h> directly; include <x86intrin.h> or <immintrin.h> instead." -#endif - -#ifndef _F16CINTRIN_H_INCLUDED -#define _F16CINTRIN_H_INCLUDED - -#ifndef __F16C__ -#pragma GCC push_options -#pragma GCC target("f16c") -#define __DISABLE_F16C__ -#endif /* __F16C__ */ - -extern __inline float __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_cvtsh_ss (unsigned short __S) -{ - __v8hi __H = __extension__ (__v8hi){ (short) __S, 0, 0, 0, 0, 0, 0, 0 }; - __v4sf __A = __builtin_ia32_vcvtph2ps (__H); - return __builtin_ia32_vec_ext_v4sf (__A, 0); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtph_ps (__m128i __A) -{ - return (__m128) __builtin_ia32_vcvtph2ps ((__v8hi) __A); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtph_ps (__m128i __A) -{ - return (__m256) __builtin_ia32_vcvtph2ps256 ((__v8hi) __A); -} - -#ifdef __OPTIMIZE__ -extern __inline unsigned short __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_cvtss_sh (float __F, const int __I) -{ - __v4sf __A = __extension__ (__v4sf){ __F, 0, 0, 0 }; - __v8hi __H = __builtin_ia32_vcvtps2ph (__A, __I); - return (unsigned short) __builtin_ia32_vec_ext_v8hi (__H, 0); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_ph (__m128 __A, const int __I) -{ - return (__m128i) __builtin_ia32_vcvtps2ph ((__v4sf) __A, __I); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_cvtps_ph (__m256 __A, const int __I) -{ - return (__m128i) __builtin_ia32_vcvtps2ph256 ((__v8sf) __A, __I); -} -#else -#define _cvtss_sh(__F, __I) \ - (__extension__ \ - ({ \ - __v4sf __A = __extension__ (__v4sf){ __F, 0, 0, 0 }; \ - __v8hi __H = __builtin_ia32_vcvtps2ph (__A, __I); \ - (unsigned short) __builtin_ia32_vec_ext_v8hi (__H, 0); \ - })) - -#define _mm_cvtps_ph(A, I) \ - ((__m128i) __builtin_ia32_vcvtps2ph ((__v4sf)(__m128) A, (int) (I))) - -#define _mm256_cvtps_ph(A, I) \ - ((__m128i) __builtin_ia32_vcvtps2ph256 ((__v8sf)(__m256) A, (int) (I))) -#endif /* __OPTIMIZE */ - -#ifdef __DISABLE_F16C__ -#undef __DISABLE_F16C__ -#pragma GCC pop_options -#endif /* __DISABLE_F16C__ */ - -#endif /* _F16CINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/float.h b/lib/gcc/x86_64-linux-android/4.9.x/include/float.h deleted file mode 100644 index a8e05bf..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/float.h +++ /dev/null @@ -1,277 +0,0 @@ -/* Copyright (C) 2002-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 5.2.4.2.2 Characteristics of floating types <float.h> - */ - -#ifndef _FLOAT_H___ -#define _FLOAT_H___ - -/* Radix of exponent representation, b. */ -#undef FLT_RADIX -#define FLT_RADIX __FLT_RADIX__ - -/* Number of base-FLT_RADIX digits in the significand, p. */ -#undef FLT_MANT_DIG -#undef DBL_MANT_DIG -#undef LDBL_MANT_DIG -#define FLT_MANT_DIG __FLT_MANT_DIG__ -#define DBL_MANT_DIG __DBL_MANT_DIG__ -#define LDBL_MANT_DIG __LDBL_MANT_DIG__ - -/* Number of decimal digits, q, such that any floating-point number with q - decimal digits can be rounded into a floating-point number with p radix b - digits and back again without change to the q decimal digits, - - p * log10(b) if b is a power of 10 - floor((p - 1) * log10(b)) otherwise -*/ -#undef FLT_DIG -#undef DBL_DIG -#undef LDBL_DIG -#define FLT_DIG __FLT_DIG__ -#define DBL_DIG __DBL_DIG__ -#define LDBL_DIG __LDBL_DIG__ - -/* Minimum int x such that FLT_RADIX**(x-1) is a normalized float, emin */ -#undef FLT_MIN_EXP -#undef DBL_MIN_EXP -#undef LDBL_MIN_EXP -#define FLT_MIN_EXP __FLT_MIN_EXP__ -#define DBL_MIN_EXP __DBL_MIN_EXP__ -#define LDBL_MIN_EXP __LDBL_MIN_EXP__ - -/* Minimum negative integer such that 10 raised to that power is in the - range of normalized floating-point numbers, - - ceil(log10(b) * (emin - 1)) -*/ -#undef FLT_MIN_10_EXP -#undef DBL_MIN_10_EXP -#undef LDBL_MIN_10_EXP -#define FLT_MIN_10_EXP __FLT_MIN_10_EXP__ -#define DBL_MIN_10_EXP __DBL_MIN_10_EXP__ -#define LDBL_MIN_10_EXP __LDBL_MIN_10_EXP__ - -/* Maximum int x such that FLT_RADIX**(x-1) is a representable float, emax. */ -#undef FLT_MAX_EXP -#undef DBL_MAX_EXP -#undef LDBL_MAX_EXP -#define FLT_MAX_EXP __FLT_MAX_EXP__ -#define DBL_MAX_EXP __DBL_MAX_EXP__ -#define LDBL_MAX_EXP __LDBL_MAX_EXP__ - -/* Maximum integer such that 10 raised to that power is in the range of - representable finite floating-point numbers, - - floor(log10((1 - b**-p) * b**emax)) -*/ -#undef FLT_MAX_10_EXP -#undef DBL_MAX_10_EXP -#undef LDBL_MAX_10_EXP -#define FLT_MAX_10_EXP __FLT_MAX_10_EXP__ -#define DBL_MAX_10_EXP __DBL_MAX_10_EXP__ -#define LDBL_MAX_10_EXP __LDBL_MAX_10_EXP__ - -/* Maximum representable finite floating-point number, - - (1 - b**-p) * b**emax -*/ -#undef FLT_MAX -#undef DBL_MAX -#undef LDBL_MAX -#define FLT_MAX __FLT_MAX__ -#define DBL_MAX __DBL_MAX__ -#define LDBL_MAX __LDBL_MAX__ - -/* The difference between 1 and the least value greater than 1 that is - representable in the given floating point type, b**1-p. */ -#undef FLT_EPSILON -#undef DBL_EPSILON -#undef LDBL_EPSILON -#define FLT_EPSILON __FLT_EPSILON__ -#define DBL_EPSILON __DBL_EPSILON__ -#define LDBL_EPSILON __LDBL_EPSILON__ - -/* Minimum normalized positive floating-point number, b**(emin - 1). */ -#undef FLT_MIN -#undef DBL_MIN -#undef LDBL_MIN -#define FLT_MIN __FLT_MIN__ -#define DBL_MIN __DBL_MIN__ -#define LDBL_MIN __LDBL_MIN__ - -/* Addition rounds to 0: zero, 1: nearest, 2: +inf, 3: -inf, -1: unknown. */ -/* ??? This is supposed to change with calls to fesetround in <fenv.h>. */ -#undef FLT_ROUNDS -#define FLT_ROUNDS 1 - -#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L -/* The floating-point expression evaluation method. - -1 indeterminate - 0 evaluate all operations and constants just to the range and - precision of the type - 1 evaluate operations and constants of type float and double - to the range and precision of the double type, evaluate - long double operations and constants to the range and - precision of the long double type - 2 evaluate all operations and constants to the range and - precision of the long double type - - ??? This ought to change with the setting of the fp control word; - the value provided by the compiler assumes the widest setting. */ -#undef FLT_EVAL_METHOD -#define FLT_EVAL_METHOD __FLT_EVAL_METHOD__ - -/* Number of decimal digits, n, such that any floating-point number in the - widest supported floating type with pmax radix b digits can be rounded - to a floating-point number with n decimal digits and back again without - change to the value, - - pmax * log10(b) if b is a power of 10 - ceil(1 + pmax * log10(b)) otherwise -*/ -#undef DECIMAL_DIG -#define DECIMAL_DIG __DECIMAL_DIG__ - -#endif /* C99 */ - -#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 201112L -/* Versions of DECIMAL_DIG for each floating-point type. */ -#undef FLT_DECIMAL_DIG -#undef DBL_DECIMAL_DIG -#undef LDBL_DECIMAL_DIG -#define FLT_DECIMAL_DIG __FLT_DECIMAL_DIG__ -#define DBL_DECIMAL_DIG __DBL_DECIMAL_DIG__ -#define LDBL_DECIMAL_DIG __DECIMAL_DIG__ - -/* Whether types support subnormal numbers. */ -#undef FLT_HAS_SUBNORM -#undef DBL_HAS_SUBNORM -#undef LDBL_HAS_SUBNORM -#define FLT_HAS_SUBNORM __FLT_HAS_DENORM__ -#define DBL_HAS_SUBNORM __DBL_HAS_DENORM__ -#define LDBL_HAS_SUBNORM __LDBL_HAS_DENORM__ - -/* Minimum positive values, including subnormals. */ -#undef FLT_TRUE_MIN -#undef DBL_TRUE_MIN -#undef LDBL_TRUE_MIN -#if __FLT_HAS_DENORM__ -#define FLT_TRUE_MIN __FLT_DENORM_MIN__ -#else -#define FLT_TRUE_MIN __FLT_MIN__ -#endif -#if __DBL_HAS_DENORM__ -#define DBL_TRUE_MIN __DBL_DENORM_MIN__ -#else -#define DBL_TRUE_MIN __DBL_MIN__ -#endif -#if __LDBL_HAS_DENORM__ -#define LDBL_TRUE_MIN __LDBL_DENORM_MIN__ -#else -#define LDBL_TRUE_MIN __LDBL_MIN__ -#endif - -#endif /* C11 */ - -#ifdef __STDC_WANT_DEC_FP__ -/* Draft Technical Report 24732, extension for decimal floating-point - arithmetic: Characteristic of decimal floating types <float.h>. */ - -/* Number of base-FLT_RADIX digits in the significand, p. */ -#undef DEC32_MANT_DIG -#undef DEC64_MANT_DIG -#undef DEC128_MANT_DIG -#define DEC32_MANT_DIG __DEC32_MANT_DIG__ -#define DEC64_MANT_DIG __DEC64_MANT_DIG__ -#define DEC128_MANT_DIG __DEC128_MANT_DIG__ - -/* Minimum exponent. */ -#undef DEC32_MIN_EXP -#undef DEC64_MIN_EXP -#undef DEC128_MIN_EXP -#define DEC32_MIN_EXP __DEC32_MIN_EXP__ -#define DEC64_MIN_EXP __DEC64_MIN_EXP__ -#define DEC128_MIN_EXP __DEC128_MIN_EXP__ - -/* Maximum exponent. */ -#undef DEC32_MAX_EXP -#undef DEC64_MAX_EXP -#undef DEC128_MAX_EXP -#define DEC32_MAX_EXP __DEC32_MAX_EXP__ -#define DEC64_MAX_EXP __DEC64_MAX_EXP__ -#define DEC128_MAX_EXP __DEC128_MAX_EXP__ - -/* Maximum representable finite decimal floating-point number - (there are 6, 15, and 33 9s after the decimal points respectively). */ -#undef DEC32_MAX -#undef DEC64_MAX -#undef DEC128_MAX -#define DEC32_MAX __DEC32_MAX__ -#define DEC64_MAX __DEC64_MAX__ -#define DEC128_MAX __DEC128_MAX__ - -/* The difference between 1 and the least value greater than 1 that is - representable in the given floating point type. */ -#undef DEC32_EPSILON -#undef DEC64_EPSILON -#undef DEC128_EPSILON -#define DEC32_EPSILON __DEC32_EPSILON__ -#define DEC64_EPSILON __DEC64_EPSILON__ -#define DEC128_EPSILON __DEC128_EPSILON__ - -/* Minimum normalized positive floating-point number. */ -#undef DEC32_MIN -#undef DEC64_MIN -#undef DEC128_MIN -#define DEC32_MIN __DEC32_MIN__ -#define DEC64_MIN __DEC64_MIN__ -#define DEC128_MIN __DEC128_MIN__ - -/* Minimum subnormal positive floating-point number. */ -#undef DEC32_SUBNORMAL_MIN -#undef DEC64_SUBNORMAL_MIN -#undef DEC128_SUBNORMAL_MIN -#define DEC32_SUBNORMAL_MIN __DEC32_SUBNORMAL_MIN__ -#define DEC64_SUBNORMAL_MIN __DEC64_SUBNORMAL_MIN__ -#define DEC128_SUBNORMAL_MIN __DEC128_SUBNORMAL_MIN__ - -/* The floating-point expression evaluation method. - -1 indeterminate - 0 evaluate all operations and constants just to the range and - precision of the type - 1 evaluate operations and constants of type _Decimal32 - and _Decimal64 to the range and precision of the _Decimal64 - type, evaluate _Decimal128 operations and constants to the - range and precision of the _Decimal128 type; - 2 evaluate all operations and constants to the range and - precision of the _Decimal128 type. */ - -#undef DEC_EVAL_METHOD -#define DEC_EVAL_METHOD __DEC_EVAL_METHOD__ - -#endif /* __STDC_WANT_DEC_FP__ */ - -#endif /* _FLOAT_H___ */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/fma4intrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/fma4intrin.h deleted file mode 100644 index e1bdef7..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/fma4intrin.h +++ /dev/null @@ -1,241 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -# error "Never use <fma4intrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _FMA4INTRIN_H_INCLUDED -#define _FMA4INTRIN_H_INCLUDED - -/* We need definitions from the SSE4A, SSE3, SSE2 and SSE header files. */ -#include <ammintrin.h> - -#ifndef __FMA4__ -#pragma GCC push_options -#pragma GCC target("fma4") -#define __DISABLE_FMA4__ -#endif /* __FMA4__ */ - -/* 128b Floating point multiply/add type instructions. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddps ((__v4sf)__A, (__v4sf)__B, (__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddpd ((__v2df)__A, (__v2df)__B, (__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddss ((__v4sf)__A, (__v4sf)__B, (__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsd ((__v2df)__A, (__v2df)__B, (__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msub_ps (__m128 __A, __m128 __B, __m128 __C) - -{ - return (__m128) __builtin_ia32_vfmaddps ((__v4sf)__A, (__v4sf)__B, -(__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddpd ((__v2df)__A, (__v2df)__B, -(__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msub_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddss ((__v4sf)__A, (__v4sf)__B, -(__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msub_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsd ((__v2df)__A, (__v2df)__B, -(__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmacc_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddps (-(__v4sf)__A, (__v4sf)__B, (__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmacc_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddpd (-(__v2df)__A, (__v2df)__B, (__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmacc_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddss (-(__v4sf)__A, (__v4sf)__B, (__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmacc_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsd (-(__v2df)__A, (__v2df)__B, (__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmsub_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddps (-(__v4sf)__A, (__v4sf)__B, -(__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmsub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddpd (-(__v2df)__A, (__v2df)__B, -(__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmsub_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddss (-(__v4sf)__A, (__v4sf)__B, -(__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_nmsub_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsd (-(__v2df)__A, (__v2df)__B, -(__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddsub_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddsubps ((__v4sf)__A, (__v4sf)__B, (__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddsub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsubpd ((__v2df)__A, (__v2df)__B, (__v2df)__C); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msubadd_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddsubps ((__v4sf)__A, (__v4sf)__B, -(__v4sf)__C); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_msubadd_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsubpd ((__v2df)__A, (__v2df)__B, -(__v2df)__C); -} - -/* 256b Floating point multiply/add type instructions. */ -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_macc_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256) __builtin_ia32_vfmaddps256 ((__v8sf)__A, (__v8sf)__B, (__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_macc_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddpd256 ((__v4df)__A, (__v4df)__B, (__v4df)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_msub_ps (__m256 __A, __m256 __B, __m256 __C) - -{ - return (__m256) __builtin_ia32_vfmaddps256 ((__v8sf)__A, (__v8sf)__B, -(__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_msub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddpd256 ((__v4df)__A, (__v4df)__B, -(__v4df)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_nmacc_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256) __builtin_ia32_vfmaddps256 (-(__v8sf)__A, (__v8sf)__B, (__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_nmacc_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddpd256 (-(__v4df)__A, (__v4df)__B, (__v4df)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_nmsub_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256) __builtin_ia32_vfmaddps256 (-(__v8sf)__A, (__v8sf)__B, -(__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_nmsub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddpd256 (-(__v4df)__A, (__v4df)__B, -(__v4df)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maddsub_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256) __builtin_ia32_vfmaddsubps256 ((__v8sf)__A, (__v8sf)__B, (__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_maddsub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddsubpd256 ((__v4df)__A, (__v4df)__B, (__v4df)__C); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_msubadd_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256) __builtin_ia32_vfmaddsubps256 ((__v8sf)__A, (__v8sf)__B, -(__v8sf)__C); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_msubadd_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d) __builtin_ia32_vfmaddsubpd256 ((__v4df)__A, (__v4df)__B, -(__v4df)__C); -} - -#ifdef __DISABLE_FMA4__ -#undef __DISABLE_FMA4__ -#pragma GCC pop_options -#endif /* __DISABLE_FMA4__ */ - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/fmaintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/fmaintrin.h deleted file mode 100644 index bfbb75d..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/fmaintrin.h +++ /dev/null @@ -1,302 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -# error "Never use <fmaintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _FMAINTRIN_H_INCLUDED -#define _FMAINTRIN_H_INCLUDED - -#ifndef __FMA__ -#pragma GCC push_options -#pragma GCC target("fma") -#define __DISABLE_FMA__ -#endif /* __FMA__ */ - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddpd ((__v2df)__A, (__v2df)__B, - (__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmadd_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddpd256 ((__v4df)__A, (__v4df)__B, - (__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddps ((__v4sf)__A, (__v4sf)__B, - (__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmadd_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddps256 ((__v8sf)__A, (__v8sf)__B, - (__v8sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d) __builtin_ia32_vfmaddsd3 ((__v2df)__A, (__v2df)__B, - (__v2df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmadd_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128) __builtin_ia32_vfmaddss3 ((__v4sf)__A, (__v4sf)__B, - (__v4sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddpd ((__v2df)__A, (__v2df)__B, - -(__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmsub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddpd256 ((__v4df)__A, (__v4df)__B, - -(__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddps ((__v4sf)__A, (__v4sf)__B, - -(__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmsub_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddps256 ((__v8sf)__A, (__v8sf)__B, - -(__v8sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddsd3 ((__v2df)__A, (__v2df)__B, - -(__v2df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsub_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddss3 ((__v4sf)__A, (__v4sf)__B, - -(__v4sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddpd (-(__v2df)__A, (__v2df)__B, - (__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fnmadd_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddpd256 (-(__v4df)__A, (__v4df)__B, - (__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddps (-(__v4sf)__A, (__v4sf)__B, - (__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fnmadd_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddps256 (-(__v8sf)__A, (__v8sf)__B, - (__v8sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddsd3 ((__v2df)__A, -(__v2df)__B, - (__v2df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmadd_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddss3 ((__v4sf)__A, -(__v4sf)__B, - (__v4sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddpd (-(__v2df)__A, (__v2df)__B, - -(__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fnmsub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddpd256 (-(__v4df)__A, (__v4df)__B, - -(__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddps (-(__v4sf)__A, (__v4sf)__B, - -(__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fnmsub_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddps256 (-(__v8sf)__A, (__v8sf)__B, - -(__v8sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_sd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddsd3 ((__v2df)__A, -(__v2df)__B, - -(__v2df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fnmsub_ss (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddss3 ((__v4sf)__A, -(__v4sf)__B, - -(__v4sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmaddsub_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddsubpd ((__v2df)__A, (__v2df)__B, - (__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmaddsub_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddsubpd256 ((__v4df)__A, - (__v4df)__B, - (__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmaddsub_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddsubps ((__v4sf)__A, (__v4sf)__B, - (__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmaddsub_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddsubps256 ((__v8sf)__A, - (__v8sf)__B, - (__v8sf)__C); -} - -extern __inline __m128d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsubadd_pd (__m128d __A, __m128d __B, __m128d __C) -{ - return (__m128d)__builtin_ia32_vfmaddsubpd ((__v2df)__A, (__v2df)__B, - -(__v2df)__C); -} - -extern __inline __m256d -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmsubadd_pd (__m256d __A, __m256d __B, __m256d __C) -{ - return (__m256d)__builtin_ia32_vfmaddsubpd256 ((__v4df)__A, - (__v4df)__B, - -(__v4df)__C); -} - -extern __inline __m128 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_fmsubadd_ps (__m128 __A, __m128 __B, __m128 __C) -{ - return (__m128)__builtin_ia32_vfmaddsubps ((__v4sf)__A, (__v4sf)__B, - -(__v4sf)__C); -} - -extern __inline __m256 -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_fmsubadd_ps (__m256 __A, __m256 __B, __m256 __C) -{ - return (__m256)__builtin_ia32_vfmaddsubps256 ((__v8sf)__A, - (__v8sf)__B, - -(__v8sf)__C); -} - -#ifdef __DISABLE_FMA__ -#undef __DISABLE_FMA__ -#pragma GCC pop_options -#endif /* __DISABLE_FMA__ */ - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/fxsrintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/fxsrintrin.h deleted file mode 100644 index 98e73ee..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/fxsrintrin.h +++ /dev/null @@ -1,73 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* #if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED */ -/* # error "Never use <fxsrintrin.h> directly; include <x86intrin.h> instead." */ -/* #endif */ - -#ifndef _FXSRINTRIN_H_INCLUDED -#define _FXSRINTRIN_H_INCLUDED - -#ifndef __FXSR__ -#pragma GCC push_options -#pragma GCC target("fxsr") -#define __DISABLE_FXSR__ -#endif /* __FXSR__ */ - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_fxsave (void *__P) -{ - return __builtin_ia32_fxsave (__P); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_fxrstor (void *__P) -{ - return __builtin_ia32_fxrstor (__P); -} - -#ifdef __x86_64__ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_fxsave64 (void *__P) -{ - return __builtin_ia32_fxsave64 (__P); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_fxrstor64 (void *__P) -{ - return __builtin_ia32_fxrstor64 (__P); -} -#endif - -#ifdef __DISABLE_FXSR__ -#undef __DISABLE_FXSR__ -#pragma GCC pop_options -#endif /* __DISABLE_FXSR__ */ - - -#endif /* _FXSRINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/ia32intrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/ia32intrin.h deleted file mode 100644 index 614b0fa..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/ia32intrin.h +++ /dev/null @@ -1,299 +0,0 @@ -/* Copyright (C) 2009-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -# error "Never use <ia32intrin.h> directly; include <x86intrin.h> instead." -#endif - -/* 32bit bsf */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bsfd (int __X) -{ - return __builtin_ctz (__X); -} - -/* 32bit bsr */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bsrd (int __X) -{ - return __builtin_ia32_bsrsi (__X); -} - -/* 32bit bswap */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bswapd (int __X) -{ - return __builtin_bswap32 (__X); -} - -#ifndef __SSE4_2__ -#pragma GCC push_options -#pragma GCC target("sse4.2") -#define __DISABLE_SSE4_2__ -#endif /* __SSE4_2__ */ - -/* 32bit accumulate CRC32 (polynomial 0x11EDC6F41) value. */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__crc32b (unsigned int __C, unsigned char __V) -{ - return __builtin_ia32_crc32qi (__C, __V); -} - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__crc32w (unsigned int __C, unsigned short __V) -{ - return __builtin_ia32_crc32hi (__C, __V); -} - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__crc32d (unsigned int __C, unsigned int __V) -{ - return __builtin_ia32_crc32si (__C, __V); -} - -#ifdef __DISABLE_SSE4_2__ -#undef __DISABLE_SSE4_2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_2__ */ - -/* 32bit popcnt */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__popcntd (unsigned int __X) -{ - return __builtin_popcount (__X); -} - -/* rdpmc */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rdpmc (int __S) -{ - return __builtin_ia32_rdpmc (__S); -} - -/* rdtsc */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rdtsc (void) -{ - return __builtin_ia32_rdtsc (); -} - -/* rdtscp */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rdtscp (unsigned int *__A) -{ - return __builtin_ia32_rdtscp (__A); -} - -/* 8bit rol */ -extern __inline unsigned char -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rolb (unsigned char __X, int __C) -{ - return __builtin_ia32_rolqi (__X, __C); -} - -/* 16bit rol */ -extern __inline unsigned short -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rolw (unsigned short __X, int __C) -{ - return __builtin_ia32_rolhi (__X, __C); -} - -/* 32bit rol */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rold (unsigned int __X, int __C) -{ - return (__X << __C) | (__X >> (32 - __C)); -} - -/* 8bit ror */ -extern __inline unsigned char -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rorb (unsigned char __X, int __C) -{ - return __builtin_ia32_rorqi (__X, __C); -} - -/* 16bit ror */ -extern __inline unsigned short -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rorw (unsigned short __X, int __C) -{ - return __builtin_ia32_rorhi (__X, __C); -} - -/* 32bit ror */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rord (unsigned int __X, int __C) -{ - return (__X >> __C) | (__X << (32 - __C)); -} - -/* Pause */ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__pause (void) -{ - __builtin_ia32_pause (); -} - -#ifdef __x86_64__ -/* 64bit bsf */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bsfq (long long __X) -{ - return __builtin_ctzll (__X); -} - -/* 64bit bsr */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bsrq (long long __X) -{ - return __builtin_ia32_bsrdi (__X); -} - -/* 64bit bswap */ -extern __inline long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bswapq (long long __X) -{ - return __builtin_bswap64 (__X); -} - -#ifndef __SSE4_2__ -#pragma GCC push_options -#pragma GCC target("sse4.2") -#define __DISABLE_SSE4_2__ -#endif /* __SSE4_2__ */ - -/* 64bit accumulate CRC32 (polynomial 0x11EDC6F41) value. */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__crc32q (unsigned long long __C, unsigned long long __V) -{ - return __builtin_ia32_crc32di (__C, __V); -} - -#ifdef __DISABLE_SSE4_2__ -#undef __DISABLE_SSE4_2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_2__ */ - -/* 64bit popcnt */ -extern __inline long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__popcntq (unsigned long long __X) -{ - return __builtin_popcountll (__X); -} - -/* 64bit rol */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rolq (unsigned long long __X, int __C) -{ - return (__X << __C) | (__X >> (64 - __C)); -} - -/* 64bit ror */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__rorq (unsigned long long __X, int __C) -{ - return (__X >> __C) | (__X << (64 - __C)); -} - -/* Read flags register */ -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__readeflags (void) -{ - return __builtin_ia32_readeflags_u64 (); -} - -/* Write flags register */ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__writeeflags (unsigned long long X) -{ - __builtin_ia32_writeeflags_u64 (X); -} - -#define _bswap64(a) __bswapq(a) -#define _popcnt64(a) __popcntq(a) -#else - -/* Read flags register */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__readeflags (void) -{ - return __builtin_ia32_readeflags_u32 (); -} - -/* Write flags register */ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__writeeflags (unsigned int X) -{ - __builtin_ia32_writeeflags_u32 (X); -} - -#endif - -/* On LP64 systems, longs are 64-bit. Use the appropriate rotate - * function. */ -#ifdef __LP64__ -#define _lrotl(a,b) __rolq((a), (b)) -#define _lrotr(a,b) __rorq((a), (b)) -#else -#define _lrotl(a,b) __rold((a), (b)) -#define _lrotr(a,b) __rord((a), (b)) -#endif - -#define _bit_scan_forward(a) __bsfd(a) -#define _bit_scan_reverse(a) __bsrd(a) -#define _bswap(a) __bswapd(a) -#define _popcnt32(a) __popcntd(a) -#define _rdpmc(a) __rdpmc(a) -#define _rdtsc() __rdtsc() -#define _rdtscp(a) __rdtscp(a) -#define _rotwl(a,b) __rolw((a), (b)) -#define _rotwr(a,b) __rorw((a), (b)) -#define _rotl(a,b) __rold((a), (b)) -#define _rotr(a,b) __rord((a), (b)) diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/immintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/immintrin.h deleted file mode 100644 index 73b4859..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/immintrin.h +++ /dev/null @@ -1,177 +0,0 @@ -/* Copyright (C) 2008-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#define _IMMINTRIN_H_INCLUDED - -#include <mmintrin.h> - -#include <xmmintrin.h> - -#include <emmintrin.h> - -#include <pmmintrin.h> - -#include <tmmintrin.h> - -#include <smmintrin.h> - -#include <wmmintrin.h> - -#include <avxintrin.h> - -#include <avx2intrin.h> - -#include <avx512fintrin.h> - -#include <avx512erintrin.h> - -#include <avx512pfintrin.h> - -#include <avx512cdintrin.h> - -#include <shaintrin.h> - -#include <lzcntintrin.h> - -#include <bmiintrin.h> - -#include <bmi2intrin.h> - -#include <fmaintrin.h> - -#include <f16cintrin.h> - -#include <rtmintrin.h> - -#include <xtestintrin.h> - -#ifndef __RDRND__ -#pragma GCC push_options -#pragma GCC target("rdrnd") -#define __DISABLE_RDRND__ -#endif /* __RDRND__ */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdrand16_step (unsigned short *__P) -{ - return __builtin_ia32_rdrand16_step (__P); -} - -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdrand32_step (unsigned int *__P) -{ - return __builtin_ia32_rdrand32_step (__P); -} -#ifdef __DISABLE_RDRND__ -#undef __DISABLE_RDRND__ -#pragma GCC pop_options -#endif /* __DISABLE_RDRND__ */ - -#ifdef __x86_64__ - -#ifndef __FSGSBASE__ -#pragma GCC push_options -#pragma GCC target("fsgsbase") -#define __DISABLE_FSGSBASE__ -#endif /* __FSGSBASE__ */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_readfsbase_u32 (void) -{ - return __builtin_ia32_rdfsbase32 (); -} - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_readfsbase_u64 (void) -{ - return __builtin_ia32_rdfsbase64 (); -} - -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_readgsbase_u32 (void) -{ - return __builtin_ia32_rdgsbase32 (); -} - -extern __inline unsigned long long -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_readgsbase_u64 (void) -{ - return __builtin_ia32_rdgsbase64 (); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_writefsbase_u32 (unsigned int __B) -{ - __builtin_ia32_wrfsbase32 (__B); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_writefsbase_u64 (unsigned long long __B) -{ - __builtin_ia32_wrfsbase64 (__B); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_writegsbase_u32 (unsigned int __B) -{ - __builtin_ia32_wrgsbase32 (__B); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_writegsbase_u64 (unsigned long long __B) -{ - __builtin_ia32_wrgsbase64 (__B); -} -#ifdef __DISABLE_FSGSBASE__ -#undef __DISABLE_FSGSBASE__ -#pragma GCC pop_options -#endif /* __DISABLE_FSGSBASE__ */ - -#ifndef __RDRND__ -#pragma GCC push_options -#pragma GCC target("rdrnd") -#define __DISABLE_RDRND__ -#endif /* __RDRND__ */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdrand64_step (unsigned long long *__P) -{ - return __builtin_ia32_rdrand64_step (__P); -} -#ifdef __DISABLE_RDRND__ -#undef __DISABLE_RDRND__ -#pragma GCC pop_options -#endif /* __DISABLE_RDRND__ */ - -#endif /* __x86_64__ */ - -#endif /* _IMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/iso646.h b/lib/gcc/x86_64-linux-android/4.9.x/include/iso646.h deleted file mode 100644 index 89bc8f4..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/iso646.h +++ /dev/null @@ -1,45 +0,0 @@ -/* Copyright (C) 1997-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 7.9 Alternative spellings <iso646.h> - */ - -#ifndef _ISO646_H -#define _ISO646_H - -#ifndef __cplusplus -#define and && -#define and_eq &= -#define bitand & -#define bitor | -#define compl ~ -#define not ! -#define not_eq != -#define or || -#define or_eq |= -#define xor ^ -#define xor_eq ^= -#endif - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/lwpintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/lwpintrin.h deleted file mode 100644 index 1cd046a..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/lwpintrin.h +++ /dev/null @@ -1,105 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -# error "Never use <lwpintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _LWPINTRIN_H_INCLUDED -#define _LWPINTRIN_H_INCLUDED - -#ifndef __LWP__ -#pragma GCC push_options -#pragma GCC target("lwp") -#define __DISABLE_LWP__ -#endif /* __LWP__ */ - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__llwpcb (void *pcbAddress) -{ - __builtin_ia32_llwpcb (pcbAddress); -} - -extern __inline void * __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__slwpcb (void) -{ - return __builtin_ia32_slwpcb (); -} - -#ifdef __OPTIMIZE__ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lwpval32 (unsigned int data2, unsigned int data1, unsigned int flags) -{ - __builtin_ia32_lwpval32 (data2, data1, flags); -} - -#ifdef __x86_64__ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lwpval64 (unsigned long long data2, unsigned int data1, unsigned int flags) -{ - __builtin_ia32_lwpval64 (data2, data1, flags); -} -#endif -#else -#define __lwpval32(D2, D1, F) \ - (__builtin_ia32_lwpval32 ((unsigned int) (D2), (unsigned int) (D1), \ - (unsigned int) (F))) -#ifdef __x86_64__ -#define __lwpval64(D2, D1, F) \ - (__builtin_ia32_lwpval64 ((unsigned long long) (D2), (unsigned int) (D1), \ - (unsigned int) (F))) -#endif -#endif - - -#ifdef __OPTIMIZE__ -extern __inline unsigned char __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lwpins32 (unsigned int data2, unsigned int data1, unsigned int flags) -{ - return __builtin_ia32_lwpins32 (data2, data1, flags); -} - -#ifdef __x86_64__ -extern __inline unsigned char __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lwpins64 (unsigned long long data2, unsigned int data1, unsigned int flags) -{ - return __builtin_ia32_lwpins64 (data2, data1, flags); -} -#endif -#else -#define __lwpins32(D2, D1, F) \ - (__builtin_ia32_lwpins32 ((unsigned int) (D2), (unsigned int) (D1), \ - (unsigned int) (F))) -#ifdef __x86_64__ -#define __lwpins64(D2, D1, F) \ - (__builtin_ia32_lwpins64 ((unsigned long long) (D2), (unsigned int) (D1), \ - (unsigned int) (F))) -#endif -#endif - -#ifdef __DISABLE_LWP__ -#undef __DISABLE_LWP__ -#pragma GCC pop_options -#endif /* __DISABLE_LWP__ */ - -#endif /* _LWPINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/lzcntintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/lzcntintrin.h deleted file mode 100644 index b680a35..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/lzcntintrin.h +++ /dev/null @@ -1,75 +0,0 @@ -/* Copyright (C) 2009-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED -# error "Never use <lzcntintrin.h> directly; include <x86intrin.h> instead." -#endif - - -#ifndef _LZCNTINTRIN_H_INCLUDED -#define _LZCNTINTRIN_H_INCLUDED - -#ifndef __LZCNT__ -#pragma GCC push_options -#pragma GCC target("lzcnt") -#define __DISABLE_LZCNT__ -#endif /* __LZCNT__ */ - -extern __inline unsigned short __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lzcnt16 (unsigned short __X) -{ - return __builtin_clzs (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lzcnt32 (unsigned int __X) -{ - return __builtin_clz (__X); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_lzcnt_u32 (unsigned int __X) -{ - return __builtin_clz (__X); -} - -#ifdef __x86_64__ -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__lzcnt64 (unsigned long long __X) -{ - return __builtin_clzll (__X); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_lzcnt_u64 (unsigned long long __X) -{ - return __builtin_clzll (__X); -} -#endif - -#ifdef __DISABLE_LZCNT__ -#undef __DISABLE_LZCNT__ -#pragma GCC pop_options -#endif /* __DISABLE_LZCNT__ */ - -#endif /* _LZCNTINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/mm3dnow.h b/lib/gcc/x86_64-linux-android/4.9.x/include/mm3dnow.h deleted file mode 100644 index bf847f9..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/mm3dnow.h +++ /dev/null @@ -1,218 +0,0 @@ -/* Copyright (C) 2004-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the mm3dnow.h (of supposedly AMD origin) included with - MSVC 7.1. */ - -#ifndef _MM3DNOW_H_INCLUDED -#define _MM3DNOW_H_INCLUDED - -#include <mmintrin.h> -#include <prfchwintrin.h> - -#ifndef __3dNOW__ -#pragma GCC push_options -#pragma GCC target("3dnow") -#define __DISABLE_3dNOW__ -#endif /* __3dNOW__ */ - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_femms (void) -{ - __builtin_ia32_femms(); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pavgusb (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pavgusb ((__v8qi)__A, (__v8qi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pf2id (__m64 __A) -{ - return (__m64)__builtin_ia32_pf2id ((__v2sf)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfacc (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfacc ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfadd (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfadd ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfcmpeq (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfcmpeq ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfcmpge (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfcmpge ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfcmpgt (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfcmpgt ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfmax (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfmax ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfmin (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfmin ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfmul (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfmul ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfrcp (__m64 __A) -{ - return (__m64)__builtin_ia32_pfrcp ((__v2sf)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfrcpit1 (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfrcpit1 ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfrcpit2 (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfrcpit2 ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfrsqrt (__m64 __A) -{ - return (__m64)__builtin_ia32_pfrsqrt ((__v2sf)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfrsqit1 (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfrsqit1 ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfsub (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfsub ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfsubr (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfsubr ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pi2fd (__m64 __A) -{ - return (__m64)__builtin_ia32_pi2fd ((__v2si)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmulhrw (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pmulhrw ((__v4hi)__A, (__v4hi)__B); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_prefetch (void *__P) -{ - __builtin_prefetch (__P, 0, 3 /* _MM_HINT_T0 */); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_from_float (float __A) -{ - return __extension__ (__m64)(__v2sf){ __A, 0.0f }; -} - -extern __inline float __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_to_float (__m64 __A) -{ - union { __v2sf v; float a[2]; } __tmp; - __tmp.v = (__v2sf)__A; - return __tmp.a[0]; -} - -#ifdef __3dNOW_A__ - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pf2iw (__m64 __A) -{ - return (__m64)__builtin_ia32_pf2iw ((__v2sf)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfnacc (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfnacc ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pfpnacc (__m64 __A, __m64 __B) -{ - return (__m64)__builtin_ia32_pfpnacc ((__v2sf)__A, (__v2sf)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pi2fw (__m64 __A) -{ - return (__m64)__builtin_ia32_pi2fw ((__v2si)__A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pswapd (__m64 __A) -{ - return (__m64)__builtin_ia32_pswapdsf ((__v2sf)__A); -} - -#endif /* __3dNOW_A__ */ - -#ifdef __DISABLE_3dNOW__ -#undef __DISABLE_3dNOW__ -#pragma GCC pop_options -#endif /* __DISABLE_3dNOW__ */ - -#endif /* _MM3DNOW_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/mm_malloc.h b/lib/gcc/x86_64-linux-android/4.9.x/include/mm_malloc.h deleted file mode 100644 index 4506dbc..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/mm_malloc.h +++ /dev/null @@ -1,67 +0,0 @@ -/* Copyright (C) 2004-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _MM_MALLOC_H_INCLUDED -#define _MM_MALLOC_H_INCLUDED - -#include <stdlib.h> - -#if !defined(__ANDROID__) || defined(HAVE_POSIX_MEMALIGN) -/* We can't depend on <stdlib.h> since the prototype of posix_memalign - may not be visible. */ -#ifndef __cplusplus -extern int posix_memalign (void **, size_t, size_t); -#else -#ifdef __GLIBC__ -extern "C" int posix_memalign (void **, size_t, size_t) throw (); -#else -extern "C" int posix_memalign (void **, size_t, size_t); -#endif /* __GLIBC__ */ -#endif /* __cplusplus */ -#endif /* !(__ANDROID__) || (HAVE_POSIX_MEMALIGN) */ - -static __inline void * -_mm_malloc (size_t size, size_t alignment) -{ - void *ptr; - if (alignment == 1) - return malloc (size); - if (alignment == 2 || (sizeof (void *) == 8 && alignment == 4)) - alignment = sizeof (void *); -#if !defined(__ANDROID__) || defined(HAVE_POSIX_MEMALIGN) - if (posix_memalign (&ptr, alignment, size) == 0) - return ptr; - else - return NULL; -#else - return memalign(alignment, size); -#endif -} - -static __inline void -_mm_free (void * ptr) -{ - free (ptr); -} - -#endif /* _MM_MALLOC_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/mmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/mmintrin.h deleted file mode 100644 index b351200..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/mmintrin.h +++ /dev/null @@ -1,942 +0,0 @@ -/* Copyright (C) 2002-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 9.0. */ - -#ifndef _MMINTRIN_H_INCLUDED -#define _MMINTRIN_H_INCLUDED - -#ifndef __MMX__ -#pragma GCC push_options -#pragma GCC target("mmx") -#define __DISABLE_MMX__ -#endif /* __MMX__ */ - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef int __m64 __attribute__ ((__vector_size__ (8), __may_alias__)); - -/* Internal data types for implementing the intrinsics. */ -typedef int __v2si __attribute__ ((__vector_size__ (8))); -typedef short __v4hi __attribute__ ((__vector_size__ (8))); -typedef char __v8qi __attribute__ ((__vector_size__ (8))); -typedef long long __v1di __attribute__ ((__vector_size__ (8))); -typedef float __v2sf __attribute__ ((__vector_size__ (8))); - -/* Empty the multimedia state. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_empty (void) -{ - __builtin_ia32_emms (); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_empty (void) -{ - _mm_empty (); -} - -/* Convert I to a __m64 object. The integer is zero-extended to 64-bits. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi32_si64 (int __i) -{ - return (__m64) __builtin_ia32_vec_init_v2si (__i, 0); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_from_int (int __i) -{ - return _mm_cvtsi32_si64 (__i); -} - -#ifdef __x86_64__ -/* Convert I to a __m64 object. */ - -/* Intel intrinsic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_from_int64 (long long __i) -{ - return (__m64) __i; -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_m64 (long long __i) -{ - return (__m64) __i; -} - -/* Microsoft intrinsic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64x_si64 (long long __i) -{ - return (__m64) __i; -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pi64x (long long __i) -{ - return (__m64) __i; -} -#endif - -/* Convert the lower 32 bits of the __m64 object into an integer. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_si32 (__m64 __i) -{ - return __builtin_ia32_vec_ext_v2si ((__v2si)__i, 0); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_to_int (__m64 __i) -{ - return _mm_cvtsi64_si32 (__i); -} - -#ifdef __x86_64__ -/* Convert the __m64 object to a 64bit integer. */ - -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_to_int64 (__m64 __i) -{ - return (long long)__i; -} - -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtm64_si64 (__m64 __i) -{ - return (long long)__i; -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_si64x (__m64 __i) -{ - return (long long)__i; -} -#endif - -/* Pack the four 16-bit values from M1 into the lower four 8-bit values of - the result, and the four 16-bit values from M2 into the upper four 8-bit - values of the result, all with signed saturation. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packs_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_packsswb ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_packsswb (__m64 __m1, __m64 __m2) -{ - return _mm_packs_pi16 (__m1, __m2); -} - -/* Pack the two 32-bit values from M1 in to the lower two 16-bit values of - the result, and the two 32-bit values from M2 into the upper two 16-bit - values of the result, all with signed saturation. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packs_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_packssdw ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_packssdw (__m64 __m1, __m64 __m2) -{ - return _mm_packs_pi32 (__m1, __m2); -} - -/* Pack the four 16-bit values from M1 into the lower four 8-bit values of - the result, and the four 16-bit values from M2 into the upper four 8-bit - values of the result, all with unsigned saturation. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packs_pu16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_packuswb ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_packuswb (__m64 __m1, __m64 __m2) -{ - return _mm_packs_pu16 (__m1, __m2); -} - -/* Interleave the four 8-bit values from the high half of M1 with the four - 8-bit values from the high half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpckhbw ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpckhbw (__m64 __m1, __m64 __m2) -{ - return _mm_unpackhi_pi8 (__m1, __m2); -} - -/* Interleave the two 16-bit values from the high half of M1 with the two - 16-bit values from the high half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpckhwd ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpckhwd (__m64 __m1, __m64 __m2) -{ - return _mm_unpackhi_pi16 (__m1, __m2); -} - -/* Interleave the 32-bit value from the high half of M1 with the 32-bit - value from the high half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpckhdq ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpckhdq (__m64 __m1, __m64 __m2) -{ - return _mm_unpackhi_pi32 (__m1, __m2); -} - -/* Interleave the four 8-bit values from the low half of M1 with the four - 8-bit values from the low half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpcklbw ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpcklbw (__m64 __m1, __m64 __m2) -{ - return _mm_unpacklo_pi8 (__m1, __m2); -} - -/* Interleave the two 16-bit values from the low half of M1 with the two - 16-bit values from the low half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpcklwd ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpcklwd (__m64 __m1, __m64 __m2) -{ - return _mm_unpacklo_pi16 (__m1, __m2); -} - -/* Interleave the 32-bit value from the low half of M1 with the 32-bit - value from the low half of M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_punpckldq ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_punpckldq (__m64 __m1, __m64 __m2) -{ - return _mm_unpacklo_pi32 (__m1, __m2); -} - -/* Add the 8-bit values in M1 to the 8-bit values in M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddb (__m64 __m1, __m64 __m2) -{ - return _mm_add_pi8 (__m1, __m2); -} - -/* Add the 16-bit values in M1 to the 16-bit values in M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddw (__m64 __m1, __m64 __m2) -{ - return _mm_add_pi16 (__m1, __m2); -} - -/* Add the 32-bit values in M1 to the 32-bit values in M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddd ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddd (__m64 __m1, __m64 __m2) -{ - return _mm_add_pi32 (__m1, __m2); -} - -/* Add the 64-bit values in M1 to the 64-bit values in M2. */ -#ifndef __SSE2__ -#pragma GCC push_options -#pragma GCC target("sse2") -#define __DISABLE_SSE2__ -#endif /* __SSE2__ */ - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_si64 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddq ((__v1di)__m1, (__v1di)__m2); -} -#ifdef __DISABLE_SSE2__ -#undef __DISABLE_SSE2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE2__ */ - -/* Add the 8-bit values in M1 to the 8-bit values in M2 using signed - saturated arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddsb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddsb (__m64 __m1, __m64 __m2) -{ - return _mm_adds_pi8 (__m1, __m2); -} - -/* Add the 16-bit values in M1 to the 16-bit values in M2 using signed - saturated arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddsw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddsw (__m64 __m1, __m64 __m2) -{ - return _mm_adds_pi16 (__m1, __m2); -} - -/* Add the 8-bit values in M1 to the 8-bit values in M2 using unsigned - saturated arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_pu8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddusb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddusb (__m64 __m1, __m64 __m2) -{ - return _mm_adds_pu8 (__m1, __m2); -} - -/* Add the 16-bit values in M1 to the 16-bit values in M2 using unsigned - saturated arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_adds_pu16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_paddusw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_paddusw (__m64 __m1, __m64 __m2) -{ - return _mm_adds_pu16 (__m1, __m2); -} - -/* Subtract the 8-bit values in M2 from the 8-bit values in M1. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubb (__m64 __m1, __m64 __m2) -{ - return _mm_sub_pi8 (__m1, __m2); -} - -/* Subtract the 16-bit values in M2 from the 16-bit values in M1. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubw (__m64 __m1, __m64 __m2) -{ - return _mm_sub_pi16 (__m1, __m2); -} - -/* Subtract the 32-bit values in M2 from the 32-bit values in M1. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubd ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubd (__m64 __m1, __m64 __m2) -{ - return _mm_sub_pi32 (__m1, __m2); -} - -/* Add the 64-bit values in M1 to the 64-bit values in M2. */ -#ifndef __SSE2__ -#pragma GCC push_options -#pragma GCC target("sse2") -#define __DISABLE_SSE2__ -#endif /* __SSE2__ */ - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_si64 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubq ((__v1di)__m1, (__v1di)__m2); -} -#ifdef __DISABLE_SSE2__ -#undef __DISABLE_SSE2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE2__ */ - -/* Subtract the 8-bit values in M2 from the 8-bit values in M1 using signed - saturating arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubsb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubsb (__m64 __m1, __m64 __m2) -{ - return _mm_subs_pi8 (__m1, __m2); -} - -/* Subtract the 16-bit values in M2 from the 16-bit values in M1 using - signed saturating arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubsw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubsw (__m64 __m1, __m64 __m2) -{ - return _mm_subs_pi16 (__m1, __m2); -} - -/* Subtract the 8-bit values in M2 from the 8-bit values in M1 using - unsigned saturating arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_pu8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubusb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubusb (__m64 __m1, __m64 __m2) -{ - return _mm_subs_pu8 (__m1, __m2); -} - -/* Subtract the 16-bit values in M2 from the 16-bit values in M1 using - unsigned saturating arithmetic. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_subs_pu16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_psubusw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psubusw (__m64 __m1, __m64 __m2) -{ - return _mm_subs_pu16 (__m1, __m2); -} - -/* Multiply four 16-bit values in M1 by four 16-bit values in M2 producing - four 32-bit intermediate results, which are then summed by pairs to - produce two 32-bit results. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_madd_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pmaddwd ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmaddwd (__m64 __m1, __m64 __m2) -{ - return _mm_madd_pi16 (__m1, __m2); -} - -/* Multiply four signed 16-bit values in M1 by four signed 16-bit values in - M2 and produce the high 16 bits of the 32-bit results. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhi_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pmulhw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmulhw (__m64 __m1, __m64 __m2) -{ - return _mm_mulhi_pi16 (__m1, __m2); -} - -/* Multiply four 16-bit values in M1 by four 16-bit values in M2 and produce - the low 16 bits of the results. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mullo_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pmullw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmullw (__m64 __m1, __m64 __m2) -{ - return _mm_mullo_pi16 (__m1, __m2); -} - -/* Shift four 16-bit values in M left by COUNT. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_pi16 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psllw ((__v4hi)__m, (__v4hi)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psllw (__m64 __m, __m64 __count) -{ - return _mm_sll_pi16 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_pi16 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psllwi ((__v4hi)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psllwi (__m64 __m, int __count) -{ - return _mm_slli_pi16 (__m, __count); -} - -/* Shift two 32-bit values in M left by COUNT. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_pi32 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_pslld ((__v2si)__m, (__v2si)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pslld (__m64 __m, __m64 __count) -{ - return _mm_sll_pi32 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_pi32 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_pslldi ((__v2si)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pslldi (__m64 __m, int __count) -{ - return _mm_slli_pi32 (__m, __count); -} - -/* Shift the 64-bit value in M left by COUNT. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sll_si64 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psllq ((__v1di)__m, (__v1di)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psllq (__m64 __m, __m64 __count) -{ - return _mm_sll_si64 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_slli_si64 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psllqi ((__v1di)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psllqi (__m64 __m, int __count) -{ - return _mm_slli_si64 (__m, __count); -} - -/* Shift four 16-bit values in M right by COUNT; shift in the sign bit. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sra_pi16 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psraw ((__v4hi)__m, (__v4hi)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psraw (__m64 __m, __m64 __count) -{ - return _mm_sra_pi16 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srai_pi16 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psrawi ((__v4hi)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrawi (__m64 __m, int __count) -{ - return _mm_srai_pi16 (__m, __count); -} - -/* Shift two 32-bit values in M right by COUNT; shift in the sign bit. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sra_pi32 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psrad ((__v2si)__m, (__v2si)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrad (__m64 __m, __m64 __count) -{ - return _mm_sra_pi32 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srai_pi32 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psradi ((__v2si)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psradi (__m64 __m, int __count) -{ - return _mm_srai_pi32 (__m, __count); -} - -/* Shift four 16-bit values in M right by COUNT; shift in zeros. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_pi16 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psrlw ((__v4hi)__m, (__v4hi)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrlw (__m64 __m, __m64 __count) -{ - return _mm_srl_pi16 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_pi16 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psrlwi ((__v4hi)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrlwi (__m64 __m, int __count) -{ - return _mm_srli_pi16 (__m, __count); -} - -/* Shift two 32-bit values in M right by COUNT; shift in zeros. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_pi32 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psrld ((__v2si)__m, (__v2si)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrld (__m64 __m, __m64 __count) -{ - return _mm_srl_pi32 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_pi32 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psrldi ((__v2si)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrldi (__m64 __m, int __count) -{ - return _mm_srli_pi32 (__m, __count); -} - -/* Shift the 64-bit value in M left by COUNT; shift in zeros. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srl_si64 (__m64 __m, __m64 __count) -{ - return (__m64) __builtin_ia32_psrlq ((__v1di)__m, (__v1di)__count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrlq (__m64 __m, __m64 __count) -{ - return _mm_srl_si64 (__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_srli_si64 (__m64 __m, int __count) -{ - return (__m64) __builtin_ia32_psrlqi ((__v1di)__m, __count); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psrlqi (__m64 __m, int __count) -{ - return _mm_srli_si64 (__m, __count); -} - -/* Bit-wise AND the 64-bit values in M1 and M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_and_si64 (__m64 __m1, __m64 __m2) -{ - return __builtin_ia32_pand (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pand (__m64 __m1, __m64 __m2) -{ - return _mm_and_si64 (__m1, __m2); -} - -/* Bit-wise complement the 64-bit value in M1 and bit-wise AND it with the - 64-bit value in M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_andnot_si64 (__m64 __m1, __m64 __m2) -{ - return __builtin_ia32_pandn (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pandn (__m64 __m1, __m64 __m2) -{ - return _mm_andnot_si64 (__m1, __m2); -} - -/* Bit-wise inclusive OR the 64-bit values in M1 and M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_or_si64 (__m64 __m1, __m64 __m2) -{ - return __builtin_ia32_por (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_por (__m64 __m1, __m64 __m2) -{ - return _mm_or_si64 (__m1, __m2); -} - -/* Bit-wise exclusive OR the 64-bit values in M1 and M2. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_xor_si64 (__m64 __m1, __m64 __m2) -{ - return __builtin_ia32_pxor (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pxor (__m64 __m1, __m64 __m2) -{ - return _mm_xor_si64 (__m1, __m2); -} - -/* Compare eight 8-bit values. The result of the comparison is 0xFF if the - test is true and zero if false. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpeqb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpeqb (__m64 __m1, __m64 __m2) -{ - return _mm_cmpeq_pi8 (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_pi8 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpgtb ((__v8qi)__m1, (__v8qi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpgtb (__m64 __m1, __m64 __m2) -{ - return _mm_cmpgt_pi8 (__m1, __m2); -} - -/* Compare four 16-bit values. The result of the comparison is 0xFFFF if - the test is true and zero if false. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpeqw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpeqw (__m64 __m1, __m64 __m2) -{ - return _mm_cmpeq_pi16 (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_pi16 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpgtw ((__v4hi)__m1, (__v4hi)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpgtw (__m64 __m1, __m64 __m2) -{ - return _mm_cmpgt_pi16 (__m1, __m2); -} - -/* Compare two 32-bit values. The result of the comparison is 0xFFFFFFFF if - the test is true and zero if false. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpeqd ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpeqd (__m64 __m1, __m64 __m2) -{ - return _mm_cmpeq_pi32 (__m1, __m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_pi32 (__m64 __m1, __m64 __m2) -{ - return (__m64) __builtin_ia32_pcmpgtd ((__v2si)__m1, (__v2si)__m2); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pcmpgtd (__m64 __m1, __m64 __m2) -{ - return _mm_cmpgt_pi32 (__m1, __m2); -} - -/* Creates a 64-bit zero. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setzero_si64 (void) -{ - return (__m64)0LL; -} - -/* Creates a vector of two 32-bit values; I0 is least significant. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pi32 (int __i1, int __i0) -{ - return (__m64) __builtin_ia32_vec_init_v2si (__i0, __i1); -} - -/* Creates a vector of four 16-bit values; W0 is least significant. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pi16 (short __w3, short __w2, short __w1, short __w0) -{ - return (__m64) __builtin_ia32_vec_init_v4hi (__w0, __w1, __w2, __w3); -} - -/* Creates a vector of eight 8-bit values; B0 is least significant. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_pi8 (char __b7, char __b6, char __b5, char __b4, - char __b3, char __b2, char __b1, char __b0) -{ - return (__m64) __builtin_ia32_vec_init_v8qi (__b0, __b1, __b2, __b3, - __b4, __b5, __b6, __b7); -} - -/* Similar, but with the arguments in reverse order. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_pi32 (int __i0, int __i1) -{ - return _mm_set_pi32 (__i1, __i0); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_pi16 (short __w0, short __w1, short __w2, short __w3) -{ - return _mm_set_pi16 (__w3, __w2, __w1, __w0); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_pi8 (char __b0, char __b1, char __b2, char __b3, - char __b4, char __b5, char __b6, char __b7) -{ - return _mm_set_pi8 (__b7, __b6, __b5, __b4, __b3, __b2, __b1, __b0); -} - -/* Creates a vector of two 32-bit values, both elements containing I. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_pi32 (int __i) -{ - return _mm_set_pi32 (__i, __i); -} - -/* Creates a vector of four 16-bit values, all elements containing W. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_pi16 (short __w) -{ - return _mm_set_pi16 (__w, __w, __w, __w); -} - -/* Creates a vector of eight 8-bit values, all elements containing B. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_pi8 (char __b) -{ - return _mm_set_pi8 (__b, __b, __b, __b, __b, __b, __b, __b); -} -#ifdef __DISABLE_MMX__ -#undef __DISABLE_MMX__ -#pragma GCC pop_options -#endif /* __DISABLE_MMX__ */ - -#endif /* _MMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/nmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/nmmintrin.h deleted file mode 100644 index 9fc7107..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/nmmintrin.h +++ /dev/null @@ -1,33 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 10.0. */ - -#ifndef _NMMINTRIN_H_INCLUDED -#define _NMMINTRIN_H_INCLUDED - -/* We just include SSE4.1 header file. */ -#include <smmintrin.h> - -#endif /* _NMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/omp.h b/lib/gcc/x86_64-linux-android/4.9.x/include/omp.h deleted file mode 100644 index b1824b5..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/omp.h +++ /dev/null @@ -1,127 +0,0 @@ -/* Copyright (C) 2005-2014 Free Software Foundation, Inc. - Contributed by Richard Henderson <rth@redhat.com>. - - This file is part of the GNU OpenMP Library (libgomp). - - Libgomp is free software; you can redistribute it and/or modify it - under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - Libgomp is distributed in the hope that it will be useful, but WITHOUT ANY - WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS - FOR A PARTICULAR PURPOSE. See the GNU General Public License for - more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _OMP_H -#define _OMP_H 1 - -#ifndef _LIBGOMP_OMP_LOCK_DEFINED -#define _LIBGOMP_OMP_LOCK_DEFINED 1 -/* These two structures get edited by the libgomp build process to - reflect the shape of the two types. Their internals are private - to the library. */ - -typedef struct -{ - unsigned char _x[4] - __attribute__((__aligned__(4))); -} omp_lock_t; - -typedef struct -{ - unsigned char _x[12] - __attribute__((__aligned__(4))); -} omp_nest_lock_t; -#endif - -typedef enum omp_sched_t -{ - omp_sched_static = 1, - omp_sched_dynamic = 2, - omp_sched_guided = 3, - omp_sched_auto = 4 -} omp_sched_t; - -typedef enum omp_proc_bind_t -{ - omp_proc_bind_false = 0, - omp_proc_bind_true = 1, - omp_proc_bind_master = 2, - omp_proc_bind_close = 3, - omp_proc_bind_spread = 4 -} omp_proc_bind_t; - -#ifdef __cplusplus -extern "C" { -# define __GOMP_NOTHROW throw () -#else -# define __GOMP_NOTHROW __attribute__((__nothrow__)) -#endif - -extern void omp_set_num_threads (int) __GOMP_NOTHROW; -extern int omp_get_num_threads (void) __GOMP_NOTHROW; -extern int omp_get_max_threads (void) __GOMP_NOTHROW; -extern int omp_get_thread_num (void) __GOMP_NOTHROW; -extern int omp_get_num_procs (void) __GOMP_NOTHROW; - -extern int omp_in_parallel (void) __GOMP_NOTHROW; - -extern void omp_set_dynamic (int) __GOMP_NOTHROW; -extern int omp_get_dynamic (void) __GOMP_NOTHROW; - -extern void omp_set_nested (int) __GOMP_NOTHROW; -extern int omp_get_nested (void) __GOMP_NOTHROW; - -extern void omp_init_lock (omp_lock_t *) __GOMP_NOTHROW; -extern void omp_destroy_lock (omp_lock_t *) __GOMP_NOTHROW; -extern void omp_set_lock (omp_lock_t *) __GOMP_NOTHROW; -extern void omp_unset_lock (omp_lock_t *) __GOMP_NOTHROW; -extern int omp_test_lock (omp_lock_t *) __GOMP_NOTHROW; - -extern void omp_init_nest_lock (omp_nest_lock_t *) __GOMP_NOTHROW; -extern void omp_destroy_nest_lock (omp_nest_lock_t *) __GOMP_NOTHROW; -extern void omp_set_nest_lock (omp_nest_lock_t *) __GOMP_NOTHROW; -extern void omp_unset_nest_lock (omp_nest_lock_t *) __GOMP_NOTHROW; -extern int omp_test_nest_lock (omp_nest_lock_t *) __GOMP_NOTHROW; - -extern double omp_get_wtime (void) __GOMP_NOTHROW; -extern double omp_get_wtick (void) __GOMP_NOTHROW; - -extern void omp_set_schedule (omp_sched_t, int) __GOMP_NOTHROW; -extern void omp_get_schedule (omp_sched_t *, int *) __GOMP_NOTHROW; -extern int omp_get_thread_limit (void) __GOMP_NOTHROW; -extern void omp_set_max_active_levels (int) __GOMP_NOTHROW; -extern int omp_get_max_active_levels (void) __GOMP_NOTHROW; -extern int omp_get_level (void) __GOMP_NOTHROW; -extern int omp_get_ancestor_thread_num (int) __GOMP_NOTHROW; -extern int omp_get_team_size (int) __GOMP_NOTHROW; -extern int omp_get_active_level (void) __GOMP_NOTHROW; - -extern int omp_in_final (void) __GOMP_NOTHROW; - -extern int omp_get_cancellation (void) __GOMP_NOTHROW; -extern omp_proc_bind_t omp_get_proc_bind (void) __GOMP_NOTHROW; - -extern void omp_set_default_device (int) __GOMP_NOTHROW; -extern int omp_get_default_device (void) __GOMP_NOTHROW; -extern int omp_get_num_devices (void) __GOMP_NOTHROW; -extern int omp_get_num_teams (void) __GOMP_NOTHROW; -extern int omp_get_team_num (void) __GOMP_NOTHROW; - -extern int omp_is_initial_device (void) __GOMP_NOTHROW; - -#ifdef __cplusplus -} -#endif - -#endif /* _OMP_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/pmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/pmmintrin.h deleted file mode 100644 index 6a79500..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/pmmintrin.h +++ /dev/null @@ -1,132 +0,0 @@ -/* Copyright (C) 2003-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 9.0. */ - -#ifndef _PMMINTRIN_H_INCLUDED -#define _PMMINTRIN_H_INCLUDED - -/* We need definitions from the SSE2 and SSE header files*/ -#include <emmintrin.h> - -#ifndef __SSE3__ -#pragma GCC push_options -#pragma GCC target("sse3") -#define __DISABLE_SSE3__ -#endif /* __SSE3__ */ - -/* Additional bits in the MXCSR. */ -#define _MM_DENORMALS_ZERO_MASK 0x0040 -#define _MM_DENORMALS_ZERO_ON 0x0040 -#define _MM_DENORMALS_ZERO_OFF 0x0000 - -#define _MM_SET_DENORMALS_ZERO_MODE(mode) \ - _mm_setcsr ((_mm_getcsr () & ~_MM_DENORMALS_ZERO_MASK) | (mode)) -#define _MM_GET_DENORMALS_ZERO_MODE() \ - (_mm_getcsr() & _MM_DENORMALS_ZERO_MASK) - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_addsub_ps (__m128 __X, __m128 __Y) -{ - return (__m128) __builtin_ia32_addsubps ((__v4sf)__X, (__v4sf)__Y); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_ps (__m128 __X, __m128 __Y) -{ - return (__m128) __builtin_ia32_haddps ((__v4sf)__X, (__v4sf)__Y); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_ps (__m128 __X, __m128 __Y) -{ - return (__m128) __builtin_ia32_hsubps ((__v4sf)__X, (__v4sf)__Y); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movehdup_ps (__m128 __X) -{ - return (__m128) __builtin_ia32_movshdup ((__v4sf)__X); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_moveldup_ps (__m128 __X) -{ - return (__m128) __builtin_ia32_movsldup ((__v4sf)__X); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_addsub_pd (__m128d __X, __m128d __Y) -{ - return (__m128d) __builtin_ia32_addsubpd ((__v2df)__X, (__v2df)__Y); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_pd (__m128d __X, __m128d __Y) -{ - return (__m128d) __builtin_ia32_haddpd ((__v2df)__X, (__v2df)__Y); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_pd (__m128d __X, __m128d __Y) -{ - return (__m128d) __builtin_ia32_hsubpd ((__v2df)__X, (__v2df)__Y); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loaddup_pd (double const *__P) -{ - return _mm_load1_pd (__P); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movedup_pd (__m128d __X) -{ - return _mm_shuffle_pd (__X, __X, _MM_SHUFFLE2 (0,0)); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_lddqu_si128 (__m128i const *__P) -{ - return (__m128i) __builtin_ia32_lddqu ((char const *)__P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_monitor (void const * __P, unsigned int __E, unsigned int __H) -{ - __builtin_ia32_monitor (__P, __E, __H); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mwait (unsigned int __E, unsigned int __H) -{ - __builtin_ia32_mwait (__E, __H); -} - -#ifdef __DISABLE_SSE3__ -#undef __DISABLE_SSE3__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE3__ */ - -#endif /* _PMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/popcntintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/popcntintrin.h deleted file mode 100644 index 41845d8..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/popcntintrin.h +++ /dev/null @@ -1,53 +0,0 @@ -/* Copyright (C) 2009-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _POPCNTINTRIN_H_INCLUDED -#define _POPCNTINTRIN_H_INCLUDED - -#ifndef __POPCNT__ -#pragma GCC push_options -#pragma GCC target("popcnt") -#define __DISABLE_POPCNT__ -#endif /* __POPCNT__ */ - -/* Calculate a number of bits set to 1. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_popcnt_u32 (unsigned int __X) -{ - return __builtin_popcount (__X); -} - -#ifdef __x86_64__ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_popcnt_u64 (unsigned long long __X) -{ - return __builtin_popcountll (__X); -} -#endif - -#ifdef __DISABLE_POPCNT__ -#undef __DISABLE_POPCNT__ -#pragma GCC pop_options -#endif /* __DISABLE_POPCNT__ */ - -#endif /* _POPCNTINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/prfchwintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/prfchwintrin.h deleted file mode 100644 index b2f5772..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/prfchwintrin.h +++ /dev/null @@ -1,37 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED && !defined _MM3DNOW_H_INCLUDED -# error "Never use <prfchwintrin.h> directly; include <x86intrin.h> or <mm3dnow.h> instead." -#endif - -#ifndef _PRFCHWINTRIN_H_INCLUDED -#define _PRFCHWINTRIN_H_INCLUDED - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_prefetchw (void *__P) -{ - __builtin_prefetch (__P, 1, 3 /* _MM_HINT_T0 */); -} - -#endif /* _PRFCHWINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath.h b/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath.h deleted file mode 100644 index aa9ef51..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath.h +++ /dev/null @@ -1,200 +0,0 @@ -/* GCC Quad-Precision Math Library - Copyright (C) 2010, 2011 Free Software Foundation, Inc. - Written by Francois-Xavier Coudert <fxcoudert@gcc.gnu.org> - -This file is part of the libquadmath library. -Libquadmath is free software; you can redistribute it and/or -modify it under the terms of the GNU Library General Public -License as published by the Free Software Foundation; either -version 2 of the License, or (at your option) any later version. - -Libquadmath is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -Library General Public License for more details. - -You should have received a copy of the GNU Library General Public -License along with libquadmath; see the file COPYING.LIB. If -not, write to the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, -Boston, MA 02110-1301, USA. */ - -#ifndef QUADMATH_H -#define QUADMATH_H - -#include <stdlib.h> - -#ifdef __cplusplus -extern "C" { -#endif - -/* Define the complex type corresponding to __float128 - ("_Complex __float128" is not allowed) */ -typedef _Complex float __attribute__((mode(TC))) __complex128; - -#ifdef __cplusplus -# define __quadmath_throw throw () -# define __quadmath_nth(fct) fct throw () -#else -# define __quadmath_throw __attribute__((__nothrow__)) -# define __quadmath_nth(fct) __attribute__((__nothrow__)) fct -#endif - -/* Prototypes for real functions */ -extern __float128 acosq (__float128) __quadmath_throw; -extern __float128 acoshq (__float128) __quadmath_throw; -extern __float128 asinq (__float128) __quadmath_throw; -extern __float128 asinhq (__float128) __quadmath_throw; -extern __float128 atanq (__float128) __quadmath_throw; -extern __float128 atanhq (__float128) __quadmath_throw; -extern __float128 atan2q (__float128, __float128) __quadmath_throw; -extern __float128 cbrtq (__float128) __quadmath_throw; -extern __float128 ceilq (__float128) __quadmath_throw; -extern __float128 copysignq (__float128, __float128) __quadmath_throw; -extern __float128 coshq (__float128) __quadmath_throw; -extern __float128 cosq (__float128) __quadmath_throw; -extern __float128 erfq (__float128) __quadmath_throw; -extern __float128 erfcq (__float128) __quadmath_throw; -extern __float128 expq (__float128) __quadmath_throw; -extern __float128 expm1q (__float128) __quadmath_throw; -extern __float128 fabsq (__float128) __quadmath_throw; -extern __float128 fdimq (__float128, __float128) __quadmath_throw; -extern int finiteq (__float128) __quadmath_throw; -extern __float128 floorq (__float128) __quadmath_throw; -extern __float128 fmaq (__float128, __float128, __float128) __quadmath_throw; -extern __float128 fmaxq (__float128, __float128) __quadmath_throw; -extern __float128 fminq (__float128, __float128) __quadmath_throw; -extern __float128 fmodq (__float128, __float128) __quadmath_throw; -extern __float128 frexpq (__float128, int *) __quadmath_throw; -extern __float128 hypotq (__float128, __float128) __quadmath_throw; -extern int isinfq (__float128) __quadmath_throw; -extern int ilogbq (__float128) __quadmath_throw; -extern int isnanq (__float128) __quadmath_throw; -extern __float128 j0q (__float128) __quadmath_throw; -extern __float128 j1q (__float128) __quadmath_throw; -extern __float128 jnq (int, __float128) __quadmath_throw; -extern __float128 ldexpq (__float128, int) __quadmath_throw; -extern __float128 lgammaq (__float128) __quadmath_throw; -extern long long int llrintq (__float128) __quadmath_throw; -extern long long int llroundq (__float128) __quadmath_throw; -extern __float128 logq (__float128) __quadmath_throw; -extern __float128 log10q (__float128) __quadmath_throw; -extern __float128 log2q (__float128) __quadmath_throw; -extern __float128 log1pq (__float128) __quadmath_throw; -extern long int lrintq (__float128) __quadmath_throw; -extern long int lroundq (__float128) __quadmath_throw; -extern __float128 modfq (__float128, __float128 *) __quadmath_throw; -extern __float128 nanq (const char *) __quadmath_throw; -extern __float128 nearbyintq (__float128) __quadmath_throw; -extern __float128 nextafterq (__float128, __float128) __quadmath_throw; -extern __float128 powq (__float128, __float128) __quadmath_throw; -extern __float128 remainderq (__float128, __float128) __quadmath_throw; -extern __float128 remquoq (__float128, __float128, int *) __quadmath_throw; -extern __float128 rintq (__float128) __quadmath_throw; -extern __float128 roundq (__float128) __quadmath_throw; -extern __float128 scalblnq (__float128, long int) __quadmath_throw; -extern __float128 scalbnq (__float128, int) __quadmath_throw; -extern int signbitq (__float128) __quadmath_throw; -extern void sincosq (__float128, __float128 *, __float128 *) __quadmath_throw; -extern __float128 sinhq (__float128) __quadmath_throw; -extern __float128 sinq (__float128) __quadmath_throw; -extern __float128 sqrtq (__float128) __quadmath_throw; -extern __float128 tanq (__float128) __quadmath_throw; -extern __float128 tanhq (__float128) __quadmath_throw; -extern __float128 tgammaq (__float128) __quadmath_throw; -extern __float128 truncq (__float128) __quadmath_throw; -extern __float128 y0q (__float128) __quadmath_throw; -extern __float128 y1q (__float128) __quadmath_throw; -extern __float128 ynq (int, __float128) __quadmath_throw; - - -/* Prototypes for complex functions */ -extern __float128 cabsq (__complex128) __quadmath_throw; -extern __float128 cargq (__complex128) __quadmath_throw; -extern __float128 cimagq (__complex128) __quadmath_throw; -extern __float128 crealq (__complex128) __quadmath_throw; -extern __complex128 cacosq (__complex128) __quadmath_throw; -extern __complex128 cacoshq (__complex128) __quadmath_throw; -extern __complex128 casinq (__complex128) __quadmath_throw; -extern __complex128 casinhq (__complex128) __quadmath_throw; -extern __complex128 catanq (__complex128) __quadmath_throw; -extern __complex128 catanhq (__complex128) __quadmath_throw; -extern __complex128 ccosq (__complex128) __quadmath_throw; -extern __complex128 ccoshq (__complex128) __quadmath_throw; -extern __complex128 cexpq (__complex128) __quadmath_throw; -extern __complex128 cexpiq (__float128) __quadmath_throw; -extern __complex128 clogq (__complex128) __quadmath_throw; -extern __complex128 clog10q (__complex128) __quadmath_throw; -extern __complex128 conjq (__complex128) __quadmath_throw; -extern __complex128 cpowq (__complex128, __complex128) __quadmath_throw; -extern __complex128 cprojq (__complex128) __quadmath_throw; -extern __complex128 csinq (__complex128) __quadmath_throw; -extern __complex128 csinhq (__complex128) __quadmath_throw; -extern __complex128 csqrtq (__complex128) __quadmath_throw; -extern __complex128 ctanq (__complex128) __quadmath_throw; -extern __complex128 ctanhq (__complex128) __quadmath_throw; - - -/* Prototypes for string <-> __float128 conversion functions */ -extern __float128 strtoflt128 (const char *, char **) __quadmath_throw; -extern int quadmath_snprintf (char *str, size_t size, - const char *format, ...) __quadmath_throw; - - -/* Macros */ -#define FLT128_MAX 1.18973149535723176508575932662800702e4932Q -#define FLT128_MIN 3.36210314311209350626267781732175260e-4932Q -#define FLT128_EPSILON 1.92592994438723585305597794258492732e-34Q -#define FLT128_DENORM_MIN 6.475175119438025110924438958227646552e-4966Q -#define FLT128_MANT_DIG 113 -#define FLT128_MIN_EXP (-16381) -#define FLT128_MAX_EXP 16384 -#define FLT128_DIG 33 -#define FLT128_MIN_10_EXP (-4931) -#define FLT128_MAX_10_EXP 4932 - - -#define HUGE_VALQ __builtin_huge_valq() -/* The following alternative is valid, but brings the warning: - (floating constant exceeds range of ‘__float128’) */ -/* #define HUGE_VALQ (__extension__ 0x1.0p32767Q) */ - -#define M_Eq 2.7182818284590452353602874713526625Q /* e */ -#define M_LOG2Eq 1.4426950408889634073599246810018921Q /* log_2 e */ -#define M_LOG10Eq 0.4342944819032518276511289189166051Q /* log_10 e */ -#define M_LN2q 0.6931471805599453094172321214581766Q /* log_e 2 */ -#define M_LN10q 2.3025850929940456840179914546843642Q /* log_e 10 */ -#define M_PIq 3.1415926535897932384626433832795029Q /* pi */ -#define M_PI_2q 1.5707963267948966192313216916397514Q /* pi/2 */ -#define M_PI_4q 0.7853981633974483096156608458198757Q /* pi/4 */ -#define M_1_PIq 0.3183098861837906715377675267450287Q /* 1/pi */ -#define M_2_PIq 0.6366197723675813430755350534900574Q /* 2/pi */ -#define M_2_SQRTPIq 1.1283791670955125738961589031215452Q /* 2/sqrt(pi) */ -#define M_SQRT2q 1.4142135623730950488016887242096981Q /* sqrt(2) */ -#define M_SQRT1_2q 0.7071067811865475244008443621048490Q /* 1/sqrt(2) */ - -#define __quadmath_extern_inline \ - extern inline __attribute__ ((__gnu_inline__)) - -__quadmath_extern_inline __float128 -__quadmath_nth (cimagq (__complex128 __z)) -{ - return __imag__ __z; -} - -__quadmath_extern_inline __float128 -__quadmath_nth (crealq (__complex128 __z)) -{ - return __real__ __z; -} - -__quadmath_extern_inline __complex128 -__quadmath_nth (conjq (__complex128 __z)) -{ - return __extension__ ~__z; -} - -#ifdef __cplusplus -} -#endif - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath_weak.h b/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath_weak.h deleted file mode 100644 index 986079a..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/quadmath_weak.h +++ /dev/null @@ -1,137 +0,0 @@ -/* GCC Quad-Precision Math Library - Copyright (C) 2010, 2011 Free Software Foundation, Inc. - Written by Tobias Burnus <burnus@net-b.de> - -This file is part of the libquadmath library. -Libquadmath is free software; you can redistribute it and/or -modify it under the terms of the GNU Library General Public -License as published by the Free Software Foundation; either -version 2 of the License, or (at your option) any later version. - -Libquadmath is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -Library General Public License for more details. - -You should have received a copy of the GNU Library General Public -License along with libquadmath; see the file COPYING.LIB. If -not, write to the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, -Boston, MA 02110-1301, USA. */ - -#ifndef QUADMATH_WEAK_H -#define QUADMATH_WEAK_H - -#include "quadmath.h" - -#if SUPPORTS_WEAK -# define __qmath2(name,name2,type) \ - static __typeof(type) name __attribute__ ((__weakref__(#name2))); -# define __qmath_(name) __qmath_ ## name -#else -# define __qmath2(name,name2,type) -# define __qmath_(name) name -#endif - -/* __qmath_foo is a weak reference to symbol foo. */ -#define __qmath3(name) __qmath2(__qmath_ ## name,name,name) - -/* Prototypes for real functions. */ -__qmath3 (acosq) -__qmath3 (acoshq) -__qmath3 (asinq) -__qmath3 (asinhq) -__qmath3 (atanq) -__qmath3 (atanhq) -__qmath3 (atan2q) -__qmath3 (cbrtq) -__qmath3 (ceilq) -__qmath3 (copysignq) -__qmath3 (coshq) -__qmath3 (cosq) -__qmath3 (erfq) -__qmath3 (erfcq) -__qmath3 (expq) -__qmath3 (expm1q) -__qmath3 (fabsq) -__qmath3 (fdimq) -__qmath3 (finiteq) -__qmath3 (floorq) -__qmath3 (fmaq) -__qmath3 (fmaxq) -__qmath3 (fminq) -__qmath3 (fmodq) -__qmath3 (frexpq) -__qmath3 (hypotq) -__qmath3 (ilogbq) -__qmath3 (isinfq) -__qmath3 (isnanq) -__qmath3 (j0q) -__qmath3 (j1q) -__qmath3 (jnq) -__qmath3 (ldexpq) -__qmath3 (lgammaq) -__qmath3 (llrintq) -__qmath3 (llroundq) -__qmath3 (logq) -__qmath3 (log10q) -__qmath3 (log1pq) -__qmath3 (log2q) -__qmath3 (lrintq) -__qmath3 (lroundq) -__qmath3 (modfq) -__qmath3 (nanq) -__qmath3 (nearbyintq) -__qmath3 (nextafterq) -__qmath3 (powq) -__qmath3 (remainderq) -__qmath3 (remquoq) -__qmath3 (rintq) -__qmath3 (roundq) -__qmath3 (scalblnq) -__qmath3 (scalbnq) -__qmath3 (signbitq) -__qmath3 (sincosq) -__qmath3 (sinhq) -__qmath3 (sinq) -__qmath3 (sqrtq) -__qmath3 (tanq) -__qmath3 (tanhq) -__qmath3 (tgammaq) -__qmath3 (truncq) -__qmath3 (y0q) -__qmath3 (y1q) -__qmath3 (ynq) - - -/* Prototypes for complex functions. */ -__qmath3 (cabsq) -__qmath3 (cargq) -__qmath3 (cimagq) -__qmath3 (crealq) -__qmath3 (cacosq) -__qmath3 (cacoshq) -__qmath3 (casinq) -__qmath3 (casinhq) -__qmath3 (catanq) -__qmath3 (catanhq) -__qmath3 (ccosq) -__qmath3 (ccoshq) -__qmath3 (cexpq) -__qmath3 (cexpiq) -__qmath3 (clogq) -__qmath3 (clog10q) -__qmath3 (conjq) -__qmath3 (cpowq) -__qmath3 (cprojq) -__qmath3 (csinq) -__qmath3 (csinhq) -__qmath3 (csqrtq) -__qmath3 (ctanq) -__qmath3 (ctanhq) - - -/* Prototypes for string <-> flt128 conversion functions. */ -__qmath3 (strtoflt128) -__qmath3 (quadmath_snprintf) - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/rdseedintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/rdseedintrin.h deleted file mode 100644 index 0ab18e5..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/rdseedintrin.h +++ /dev/null @@ -1,66 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#if !defined _X86INTRIN_H_INCLUDED -# error "Never use <rdseedintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _RDSEEDINTRIN_H_INCLUDED -#define _RDSEEDINTRIN_H_INCLUDED - -#ifndef __RDSEED__ -#pragma GCC push_options -#pragma GCC target("rdseed") -#define __DISABLE_RDSEED__ -#endif /* __RDSEED__ */ - - -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdseed16_step (unsigned short *p) -{ - return __builtin_ia32_rdseed_hi_step (p); -} - -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdseed32_step (unsigned int *p) -{ - return __builtin_ia32_rdseed_si_step (p); -} - -#ifdef __x86_64__ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_rdseed64_step (unsigned long long *p) -{ - return __builtin_ia32_rdseed_di_step (p); -} -#endif - -#ifdef __DISABLE_RDSEED__ -#undef __DISABLE_RDSEED__ -#pragma GCC pop_options -#endif /* __DISABLE_RDSEED__ */ - -#endif /* _RDSEEDINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/rtmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/rtmintrin.h deleted file mode 100644 index ac40d22..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/rtmintrin.h +++ /dev/null @@ -1,84 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -# error "Never use <rtmintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _RTMINTRIN_H_INCLUDED -#define _RTMINTRIN_H_INCLUDED - -#ifndef __RTM__ -#pragma GCC push_options -#pragma GCC target("rtm") -#define __DISABLE_RTM__ -#endif /* __RTM__ */ - -#define _XBEGIN_STARTED (~0u) -#define _XABORT_EXPLICIT (1 << 0) -#define _XABORT_RETRY (1 << 1) -#define _XABORT_CONFLICT (1 << 2) -#define _XABORT_CAPACITY (1 << 3) -#define _XABORT_DEBUG (1 << 4) -#define _XABORT_NESTED (1 << 5) -#define _XABORT_CODE(x) (((x) >> 24) & 0xFF) - -/* Start an RTM code region. Return _XBEGIN_STARTED on success and the - abort condition otherwise. */ -extern __inline unsigned int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xbegin (void) -{ - return __builtin_ia32_xbegin (); -} - -/* Specify the end of an RTM code region. If it corresponds to the - outermost transaction, then attempts the transaction commit. If the - commit fails, then control is transferred to the outermost transaction - fallback handler. */ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xend (void) -{ - __builtin_ia32_xend (); -} - -/* Force an RTM abort condition. The control is transferred to the - outermost transaction fallback handler with the abort condition IMM. */ -#ifdef __OPTIMIZE__ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xabort (const unsigned int imm) -{ - __builtin_ia32_xabort (imm); -} -#else -#define _xabort(N) __builtin_ia32_xabort (N) -#endif /* __OPTIMIZE__ */ - -#ifdef __DISABLE_RTM__ -#undef __DISABLE_RTM__ -#pragma GCC pop_options -#endif /* __DISABLE_RTM__ */ - -#endif /* _RTMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/shaintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/shaintrin.h deleted file mode 100644 index d8a3da3..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/shaintrin.h +++ /dev/null @@ -1,98 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -#error "Never use <shaintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _SHAINTRIN_H_INCLUDED -#define _SHAINTRIN_H_INCLUDED - -#ifndef __SHA__ -#pragma GCC push_options -#pragma GCC target("sha") -#define __DISABLE_SHA__ -#endif /* __SHA__ */ - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha1msg1_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_sha1msg1 ((__v4si) __A, (__v4si) __B); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha1msg2_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_sha1msg2 ((__v4si) __A, (__v4si) __B); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha1nexte_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_sha1nexte ((__v4si) __A, (__v4si) __B); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha1rnds4_epu32 (__m128i __A, __m128i __B, const int __I) -{ - return (__m128i) __builtin_ia32_sha1rnds4 ((__v4si) __A, (__v4si) __B, __I); -} -#else -#define _mm_sha1rnds4_epu32(A, B, I) \ - ((__m128i) __builtin_ia32_sha1rnds4 ((__v4si)(__m128i)A, \ - (__v4si)(__m128i)B, (int)I)) -#endif - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha256msg1_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_sha256msg1 ((__v4si) __A, (__v4si) __B); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha256msg2_epu32 (__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_sha256msg2 ((__v4si) __A, (__v4si) __B); -} - -extern __inline __m128i -__attribute__ ((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha256rnds2_epu32 (__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_sha256rnds2 ((__v4si) __A, (__v4si) __B, - (__v4si) __C); -} - -#ifdef __DISABLE_SHA__ -#undef __DISABLE_SHA__ -#pragma GCC pop_options -#endif /* __DISABLE_SHA__ */ - -#endif /* _SHAINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/smmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/smmintrin.h deleted file mode 100644 index 886ace4..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/smmintrin.h +++ /dev/null @@ -1,862 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 10.0. */ - -#ifndef _SMMINTRIN_H_INCLUDED -#define _SMMINTRIN_H_INCLUDED - -/* We need definitions from the SSSE3, SSE3, SSE2 and SSE header - files. */ -#include <tmmintrin.h> - -#ifndef __SSE4_1__ -#pragma GCC push_options -#pragma GCC target("sse4.1") -#define __DISABLE_SSE4_1__ -#endif /* __SSE4_1__ */ - -/* Rounding mode macros. */ -#define _MM_FROUND_TO_NEAREST_INT 0x00 -#define _MM_FROUND_TO_NEG_INF 0x01 -#define _MM_FROUND_TO_POS_INF 0x02 -#define _MM_FROUND_TO_ZERO 0x03 -#define _MM_FROUND_CUR_DIRECTION 0x04 - -#define _MM_FROUND_RAISE_EXC 0x00 -#define _MM_FROUND_NO_EXC 0x08 - -#define _MM_FROUND_NINT \ - (_MM_FROUND_TO_NEAREST_INT | _MM_FROUND_RAISE_EXC) -#define _MM_FROUND_FLOOR \ - (_MM_FROUND_TO_NEG_INF | _MM_FROUND_RAISE_EXC) -#define _MM_FROUND_CEIL \ - (_MM_FROUND_TO_POS_INF | _MM_FROUND_RAISE_EXC) -#define _MM_FROUND_TRUNC \ - (_MM_FROUND_TO_ZERO | _MM_FROUND_RAISE_EXC) -#define _MM_FROUND_RINT \ - (_MM_FROUND_CUR_DIRECTION | _MM_FROUND_RAISE_EXC) -#define _MM_FROUND_NEARBYINT \ - (_MM_FROUND_CUR_DIRECTION | _MM_FROUND_NO_EXC) - -/* Test Instruction */ -/* Packed integer 128-bit bitwise comparison. Return 1 if - (__V & __M) == 0. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testz_si128 (__m128i __M, __m128i __V) -{ - return __builtin_ia32_ptestz128 ((__v2di)__M, (__v2di)__V); -} - -/* Packed integer 128-bit bitwise comparison. Return 1 if - (__V & ~__M) == 0. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testc_si128 (__m128i __M, __m128i __V) -{ - return __builtin_ia32_ptestc128 ((__v2di)__M, (__v2di)__V); -} - -/* Packed integer 128-bit bitwise comparison. Return 1 if - (__V & __M) != 0 && (__V & ~__M) != 0. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_testnzc_si128 (__m128i __M, __m128i __V) -{ - return __builtin_ia32_ptestnzc128 ((__v2di)__M, (__v2di)__V); -} - -/* Macros for packed integer 128-bit comparison intrinsics. */ -#define _mm_test_all_zeros(M, V) _mm_testz_si128 ((M), (V)) - -#define _mm_test_all_ones(V) \ - _mm_testc_si128 ((V), _mm_cmpeq_epi32 ((V), (V))) - -#define _mm_test_mix_ones_zeros(M, V) _mm_testnzc_si128 ((M), (V)) - -/* Packed/scalar double precision floating point rounding. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_round_pd (__m128d __V, const int __M) -{ - return (__m128d) __builtin_ia32_roundpd ((__v2df)__V, __M); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_round_sd(__m128d __D, __m128d __V, const int __M) -{ - return (__m128d) __builtin_ia32_roundsd ((__v2df)__D, - (__v2df)__V, - __M); -} -#else -#define _mm_round_pd(V, M) \ - ((__m128d) __builtin_ia32_roundpd ((__v2df)(__m128d)(V), (int)(M))) - -#define _mm_round_sd(D, V, M) \ - ((__m128d) __builtin_ia32_roundsd ((__v2df)(__m128d)(D), \ - (__v2df)(__m128d)(V), (int)(M))) -#endif - -/* Packed/scalar single precision floating point rounding. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_round_ps (__m128 __V, const int __M) -{ - return (__m128) __builtin_ia32_roundps ((__v4sf)__V, __M); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_round_ss (__m128 __D, __m128 __V, const int __M) -{ - return (__m128) __builtin_ia32_roundss ((__v4sf)__D, - (__v4sf)__V, - __M); -} -#else -#define _mm_round_ps(V, M) \ - ((__m128) __builtin_ia32_roundps ((__v4sf)(__m128)(V), (int)(M))) - -#define _mm_round_ss(D, V, M) \ - ((__m128) __builtin_ia32_roundss ((__v4sf)(__m128)(D), \ - (__v4sf)(__m128)(V), (int)(M))) -#endif - -/* Macros for ceil/floor intrinsics. */ -#define _mm_ceil_pd(V) _mm_round_pd ((V), _MM_FROUND_CEIL) -#define _mm_ceil_sd(D, V) _mm_round_sd ((D), (V), _MM_FROUND_CEIL) - -#define _mm_floor_pd(V) _mm_round_pd((V), _MM_FROUND_FLOOR) -#define _mm_floor_sd(D, V) _mm_round_sd ((D), (V), _MM_FROUND_FLOOR) - -#define _mm_ceil_ps(V) _mm_round_ps ((V), _MM_FROUND_CEIL) -#define _mm_ceil_ss(D, V) _mm_round_ss ((D), (V), _MM_FROUND_CEIL) - -#define _mm_floor_ps(V) _mm_round_ps ((V), _MM_FROUND_FLOOR) -#define _mm_floor_ss(D, V) _mm_round_ss ((D), (V), _MM_FROUND_FLOOR) - -/* SSE4.1 */ - -/* Integer blend instructions - select data from 2 sources using - constant/variable mask. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blend_epi16 (__m128i __X, __m128i __Y, const int __M) -{ - return (__m128i) __builtin_ia32_pblendw128 ((__v8hi)__X, - (__v8hi)__Y, - __M); -} -#else -#define _mm_blend_epi16(X, Y, M) \ - ((__m128i) __builtin_ia32_pblendw128 ((__v8hi)(__m128i)(X), \ - (__v8hi)(__m128i)(Y), (int)(M))) -#endif - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blendv_epi8 (__m128i __X, __m128i __Y, __m128i __M) -{ - return (__m128i) __builtin_ia32_pblendvb128 ((__v16qi)__X, - (__v16qi)__Y, - (__v16qi)__M); -} - -/* Single precision floating point blend instructions - select data - from 2 sources using constant/variable mask. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blend_ps (__m128 __X, __m128 __Y, const int __M) -{ - return (__m128) __builtin_ia32_blendps ((__v4sf)__X, - (__v4sf)__Y, - __M); -} -#else -#define _mm_blend_ps(X, Y, M) \ - ((__m128) __builtin_ia32_blendps ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(M))) -#endif - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blendv_ps (__m128 __X, __m128 __Y, __m128 __M) -{ - return (__m128) __builtin_ia32_blendvps ((__v4sf)__X, - (__v4sf)__Y, - (__v4sf)__M); -} - -/* Double precision floating point blend instructions - select data - from 2 sources using constant/variable mask. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blend_pd (__m128d __X, __m128d __Y, const int __M) -{ - return (__m128d) __builtin_ia32_blendpd ((__v2df)__X, - (__v2df)__Y, - __M); -} -#else -#define _mm_blend_pd(X, Y, M) \ - ((__m128d) __builtin_ia32_blendpd ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(M))) -#endif - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_blendv_pd (__m128d __X, __m128d __Y, __m128d __M) -{ - return (__m128d) __builtin_ia32_blendvpd ((__v2df)__X, - (__v2df)__Y, - (__v2df)__M); -} - -/* Dot product instructions with mask-defined summing and zeroing parts - of result. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_dp_ps (__m128 __X, __m128 __Y, const int __M) -{ - return (__m128) __builtin_ia32_dpps ((__v4sf)__X, - (__v4sf)__Y, - __M); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_dp_pd (__m128d __X, __m128d __Y, const int __M) -{ - return (__m128d) __builtin_ia32_dppd ((__v2df)__X, - (__v2df)__Y, - __M); -} -#else -#define _mm_dp_ps(X, Y, M) \ - ((__m128) __builtin_ia32_dpps ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), (int)(M))) - -#define _mm_dp_pd(X, Y, M) \ - ((__m128d) __builtin_ia32_dppd ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), (int)(M))) -#endif - -/* Packed integer 64-bit comparison, zeroing or filling with ones - corresponding parts of result. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_epi64 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pcmpeqq ((__v2di)__X, (__v2di)__Y); -} - -/* Min/max packed integer instructions. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epi8 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pminsb128 ((__v16qi)__X, (__v16qi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epi8 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmaxsb128 ((__v16qi)__X, (__v16qi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epu16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pminuw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epu16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmaxuw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pminsd128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmaxsd128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_epu32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pminud128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_epu32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmaxud128 ((__v4si)__X, (__v4si)__Y); -} - -/* Packed integer 32-bit multiplication with truncation of upper - halves of results. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mullo_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmulld128 ((__v4si)__X, (__v4si)__Y); -} - -/* Packed integer 32-bit multiplication of 2 pairs of operands - with two 64-bit results. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmuldq128 ((__v4si)__X, (__v4si)__Y); -} - -/* Insert single precision float into packed single precision array - element selected by index N. The bits [7-6] of N define S - index, the bits [5-4] define D index, and bits [3-0] define - zeroing mask for D. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_ps (__m128 __D, __m128 __S, const int __N) -{ - return (__m128) __builtin_ia32_insertps128 ((__v4sf)__D, - (__v4sf)__S, - __N); -} -#else -#define _mm_insert_ps(D, S, N) \ - ((__m128) __builtin_ia32_insertps128 ((__v4sf)(__m128)(D), \ - (__v4sf)(__m128)(S), (int)(N))) -#endif - -/* Helper macro to create the N value for _mm_insert_ps. */ -#define _MM_MK_INSERTPS_NDX(S, D, M) (((S) << 6) | ((D) << 4) | (M)) - -/* Extract binary representation of single precision float from packed - single precision array element of X selected by index N. */ - -#ifdef __OPTIMIZE__ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_ps (__m128 __X, const int __N) -{ - union { int i; float f; } __tmp; - __tmp.f = __builtin_ia32_vec_ext_v4sf ((__v4sf)__X, __N); - return __tmp.i; -} -#else -#define _mm_extract_ps(X, N) \ - (__extension__ \ - ({ \ - union { int i; float f; } __tmp; \ - __tmp.f = __builtin_ia32_vec_ext_v4sf ((__v4sf)(__m128)(X), (int)(N)); \ - __tmp.i; \ - })) -#endif - -/* Extract binary representation of single precision float into - D from packed single precision array element of S selected - by index N. */ -#define _MM_EXTRACT_FLOAT(D, S, N) \ - { (D) = __builtin_ia32_vec_ext_v4sf ((__v4sf)(S), (N)); } - -/* Extract specified single precision float element into the lower - part of __m128. */ -#define _MM_PICK_OUT_PS(X, N) \ - _mm_insert_ps (_mm_setzero_ps (), (X), \ - _MM_MK_INSERTPS_NDX ((N), 0, 0x0e)) - -/* Insert integer, S, into packed integer array element of D - selected by index N. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_epi8 (__m128i __D, int __S, const int __N) -{ - return (__m128i) __builtin_ia32_vec_set_v16qi ((__v16qi)__D, - __S, __N); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_epi32 (__m128i __D, int __S, const int __N) -{ - return (__m128i) __builtin_ia32_vec_set_v4si ((__v4si)__D, - __S, __N); -} - -#ifdef __x86_64__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_epi64 (__m128i __D, long long __S, const int __N) -{ - return (__m128i) __builtin_ia32_vec_set_v2di ((__v2di)__D, - __S, __N); -} -#endif -#else -#define _mm_insert_epi8(D, S, N) \ - ((__m128i) __builtin_ia32_vec_set_v16qi ((__v16qi)(__m128i)(D), \ - (int)(S), (int)(N))) - -#define _mm_insert_epi32(D, S, N) \ - ((__m128i) __builtin_ia32_vec_set_v4si ((__v4si)(__m128i)(D), \ - (int)(S), (int)(N))) - -#ifdef __x86_64__ -#define _mm_insert_epi64(D, S, N) \ - ((__m128i) __builtin_ia32_vec_set_v2di ((__v2di)(__m128i)(D), \ - (long long)(S), (int)(N))) -#endif -#endif - -/* Extract integer from packed integer array element of X selected by - index N. */ - -#ifdef __OPTIMIZE__ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_epi8 (__m128i __X, const int __N) -{ - return (unsigned char) __builtin_ia32_vec_ext_v16qi ((__v16qi)__X, __N); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_epi32 (__m128i __X, const int __N) -{ - return __builtin_ia32_vec_ext_v4si ((__v4si)__X, __N); -} - -#ifdef __x86_64__ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_epi64 (__m128i __X, const int __N) -{ - return __builtin_ia32_vec_ext_v2di ((__v2di)__X, __N); -} -#endif -#else -#define _mm_extract_epi8(X, N) \ - ((int) (unsigned char) __builtin_ia32_vec_ext_v16qi ((__v16qi)(__m128i)(X), (int)(N))) -#define _mm_extract_epi32(X, N) \ - ((int) __builtin_ia32_vec_ext_v4si ((__v4si)(__m128i)(X), (int)(N))) - -#ifdef __x86_64__ -#define _mm_extract_epi64(X, N) \ - ((long long) __builtin_ia32_vec_ext_v2di ((__v2di)(__m128i)(X), (int)(N))) -#endif -#endif - -/* Return horizontal packed word minimum and its index in bits [15:0] - and bits [18:16] respectively. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_minpos_epu16 (__m128i __X) -{ - return (__m128i) __builtin_ia32_phminposuw128 ((__v8hi)__X); -} - -/* Packed integer sign-extension. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi8_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxbd128 ((__v16qi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi16_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxwd128 ((__v8hi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi8_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxbq128 ((__v16qi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi32_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxdq128 ((__v4si)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi16_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxwq128 ((__v8hi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepi8_epi16 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovsxbw128 ((__v16qi)__X); -} - -/* Packed integer zero-extension. */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu8_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxbd128 ((__v16qi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu16_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxwd128 ((__v8hi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu8_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxbq128 ((__v16qi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu32_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxdq128 ((__v4si)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu16_epi64 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxwq128 ((__v8hi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtepu8_epi16 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pmovzxbw128 ((__v16qi)__X); -} - -/* Pack 8 double words from 2 operands into 8 words of result with - unsigned saturation. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_packus_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_packusdw128 ((__v4si)__X, (__v4si)__Y); -} - -/* Sum absolute 8-bit integer difference of adjacent groups of 4 - byte integers in the first 2 operands. Starting offsets within - operands are determined by the 3rd mask operand. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mpsadbw_epu8 (__m128i __X, __m128i __Y, const int __M) -{ - return (__m128i) __builtin_ia32_mpsadbw128 ((__v16qi)__X, - (__v16qi)__Y, __M); -} -#else -#define _mm_mpsadbw_epu8(X, Y, M) \ - ((__m128i) __builtin_ia32_mpsadbw128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#endif - -/* Load double quadword using non-temporal aligned hint. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_load_si128 (__m128i *__X) -{ - return (__m128i) __builtin_ia32_movntdqa ((__v2di *) __X); -} - -#ifndef __SSE4_2__ -#pragma GCC push_options -#pragma GCC target("sse4.2") -#define __DISABLE_SSE4_2__ -#endif /* __SSE4_2__ */ - -/* These macros specify the source data format. */ -#define _SIDD_UBYTE_OPS 0x00 -#define _SIDD_UWORD_OPS 0x01 -#define _SIDD_SBYTE_OPS 0x02 -#define _SIDD_SWORD_OPS 0x03 - -/* These macros specify the comparison operation. */ -#define _SIDD_CMP_EQUAL_ANY 0x00 -#define _SIDD_CMP_RANGES 0x04 -#define _SIDD_CMP_EQUAL_EACH 0x08 -#define _SIDD_CMP_EQUAL_ORDERED 0x0c - -/* These macros specify the polarity. */ -#define _SIDD_POSITIVE_POLARITY 0x00 -#define _SIDD_NEGATIVE_POLARITY 0x10 -#define _SIDD_MASKED_POSITIVE_POLARITY 0x20 -#define _SIDD_MASKED_NEGATIVE_POLARITY 0x30 - -/* These macros specify the output selection in _mm_cmpXstri (). */ -#define _SIDD_LEAST_SIGNIFICANT 0x00 -#define _SIDD_MOST_SIGNIFICANT 0x40 - -/* These macros specify the output selection in _mm_cmpXstrm (). */ -#define _SIDD_BIT_MASK 0x00 -#define _SIDD_UNIT_MASK 0x40 - -/* Intrinsics for text/string processing. */ - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistrm (__m128i __X, __m128i __Y, const int __M) -{ - return (__m128i) __builtin_ia32_pcmpistrm128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistri (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistri128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestrm (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return (__m128i) __builtin_ia32_pcmpestrm128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestri (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestri128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} -#else -#define _mm_cmpistrm(X, Y, M) \ - ((__m128i) __builtin_ia32_pcmpistrm128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#define _mm_cmpistri(X, Y, M) \ - ((int) __builtin_ia32_pcmpistri128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) - -#define _mm_cmpestrm(X, LX, Y, LY, M) \ - ((__m128i) __builtin_ia32_pcmpestrm128 ((__v16qi)(__m128i)(X), \ - (int)(LX), (__v16qi)(__m128i)(Y), \ - (int)(LY), (int)(M))) -#define _mm_cmpestri(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestri128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#endif - -/* Intrinsics for text/string processing and reading values of - EFlags. */ - -#ifdef __OPTIMIZE__ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistra (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistria128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistrc (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistric128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistro (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistrio128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistrs (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistris128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpistrz (__m128i __X, __m128i __Y, const int __M) -{ - return __builtin_ia32_pcmpistriz128 ((__v16qi)__X, - (__v16qi)__Y, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestra (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestria128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestrc (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestric128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestro (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestrio128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestrs (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestris128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpestrz (__m128i __X, int __LX, __m128i __Y, int __LY, const int __M) -{ - return __builtin_ia32_pcmpestriz128 ((__v16qi)__X, __LX, - (__v16qi)__Y, __LY, - __M); -} -#else -#define _mm_cmpistra(X, Y, M) \ - ((int) __builtin_ia32_pcmpistria128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#define _mm_cmpistrc(X, Y, M) \ - ((int) __builtin_ia32_pcmpistric128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#define _mm_cmpistro(X, Y, M) \ - ((int) __builtin_ia32_pcmpistrio128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#define _mm_cmpistrs(X, Y, M) \ - ((int) __builtin_ia32_pcmpistris128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) -#define _mm_cmpistrz(X, Y, M) \ - ((int) __builtin_ia32_pcmpistriz128 ((__v16qi)(__m128i)(X), \ - (__v16qi)(__m128i)(Y), (int)(M))) - -#define _mm_cmpestra(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestria128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#define _mm_cmpestrc(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestric128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#define _mm_cmpestro(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestrio128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#define _mm_cmpestrs(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestris128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#define _mm_cmpestrz(X, LX, Y, LY, M) \ - ((int) __builtin_ia32_pcmpestriz128 ((__v16qi)(__m128i)(X), (int)(LX), \ - (__v16qi)(__m128i)(Y), (int)(LY), \ - (int)(M))) -#endif - -/* Packed integer 64-bit comparison, zeroing or filling with ones - corresponding parts of result. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_epi64 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pcmpgtq ((__v2di)__X, (__v2di)__Y); -} - -#ifdef __DISABLE_SSE4_2__ -#undef __DISABLE_SSE4_2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_2__ */ - -#ifdef __DISABLE_SSE4_1__ -#undef __DISABLE_SSE4_1__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_1__ */ - -#include <popcntintrin.h> - -#ifndef __SSE4_1__ -#pragma GCC push_options -#pragma GCC target("sse4.1") -#define __DISABLE_SSE4_1__ -#endif /* __SSE4_1__ */ - -#ifndef __SSE4_2__ -#pragma GCC push_options -#pragma GCC target("sse4.2") -#define __DISABLE_SSE4_2__ -#endif /* __SSE4_1__ */ - -/* Accumulate CRC32 (polynomial 0x11EDC6F41) value. */ -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_crc32_u8 (unsigned int __C, unsigned char __V) -{ - return __builtin_ia32_crc32qi (__C, __V); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_crc32_u16 (unsigned int __C, unsigned short __V) -{ - return __builtin_ia32_crc32hi (__C, __V); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_crc32_u32 (unsigned int __C, unsigned int __V) -{ - return __builtin_ia32_crc32si (__C, __V); -} - -#ifdef __x86_64__ -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_crc32_u64 (unsigned long long __C, unsigned long long __V) -{ - return __builtin_ia32_crc32di (__C, __V); -} -#endif - -#ifdef __DISABLE_SSE4_2__ -#undef __DISABLE_SSE4_2__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_2__ */ - -#ifdef __DISABLE_SSE4_1__ -#undef __DISABLE_SSE4_1__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE4_1__ */ - -#endif /* _SMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdalign.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdalign.h deleted file mode 100644 index ee2d81f..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdalign.h +++ /dev/null @@ -1,39 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* ISO C1X: 7.15 Alignment <stdalign.h>. */ - -#ifndef _STDALIGN_H -#define _STDALIGN_H - -#ifndef __cplusplus - -#define alignas _Alignas -#define alignof _Alignof - -#define __alignas_is_defined 1 -#define __alignof_is_defined 1 - -#endif - -#endif /* stdalign.h */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdarg.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdarg.h deleted file mode 100644 index 1d4418b..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdarg.h +++ /dev/null @@ -1,126 +0,0 @@ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 7.15 Variable arguments <stdarg.h> - */ - -#ifndef _STDARG_H -#ifndef _ANSI_STDARG_H_ -#ifndef __need___va_list -#define _STDARG_H -#define _ANSI_STDARG_H_ -#endif /* not __need___va_list */ -#undef __need___va_list - -/* Define __gnuc_va_list. */ - -#ifndef __GNUC_VA_LIST -#define __GNUC_VA_LIST -typedef __builtin_va_list __gnuc_va_list; -#endif - -/* Define the standard macros for the user, - if this invocation was from the user program. */ -#ifdef _STDARG_H - -#define va_start(v,l) __builtin_va_start(v,l) -#define va_end(v) __builtin_va_end(v) -#define va_arg(v,l) __builtin_va_arg(v,l) -#if !defined(__STRICT_ANSI__) || __STDC_VERSION__ + 0 >= 199900L || defined(__GXX_EXPERIMENTAL_CXX0X__) -#define va_copy(d,s) __builtin_va_copy(d,s) -#endif -#define __va_copy(d,s) __builtin_va_copy(d,s) - -/* Define va_list, if desired, from __gnuc_va_list. */ -/* We deliberately do not define va_list when called from - stdio.h, because ANSI C says that stdio.h is not supposed to define - va_list. stdio.h needs to have access to that data type, - but must not use that name. It should use the name __gnuc_va_list, - which is safe because it is reserved for the implementation. */ - -#ifdef _BSD_VA_LIST -#undef _BSD_VA_LIST -#endif - -#if defined(__svr4__) || (defined(_SCO_DS) && !defined(__VA_LIST)) -/* SVR4.2 uses _VA_LIST for an internal alias for va_list, - so we must avoid testing it and setting it here. - SVR4 uses _VA_LIST as a flag in stdarg.h, but we should - have no conflict with that. */ -#ifndef _VA_LIST_ -#define _VA_LIST_ -#ifdef __i860__ -#ifndef _VA_LIST -#define _VA_LIST va_list -#endif -#endif /* __i860__ */ -typedef __gnuc_va_list va_list; -#ifdef _SCO_DS -#define __VA_LIST -#endif -#endif /* _VA_LIST_ */ -#else /* not __svr4__ || _SCO_DS */ - -/* The macro _VA_LIST_ is the same thing used by this file in Ultrix. - But on BSD NET2 we must not test or define or undef it. - (Note that the comments in NET 2's ansi.h - are incorrect for _VA_LIST_--see stdio.h!) */ -#if !defined (_VA_LIST_) || defined (__BSD_NET2__) || defined (____386BSD____) || defined (__bsdi__) || defined (__sequent__) || defined (__FreeBSD__) || defined(WINNT) -/* The macro _VA_LIST_DEFINED is used in Windows NT 3.5 */ -#ifndef _VA_LIST_DEFINED -/* The macro _VA_LIST is used in SCO Unix 3.2. */ -#ifndef _VA_LIST -/* The macro _VA_LIST_T_H is used in the Bull dpx2 */ -#ifndef _VA_LIST_T_H -/* The macro __va_list__ is used by BeOS. */ -#ifndef __va_list__ -typedef __gnuc_va_list va_list; -#endif /* not __va_list__ */ -#endif /* not _VA_LIST_T_H */ -#endif /* not _VA_LIST */ -#endif /* not _VA_LIST_DEFINED */ -#if !(defined (__BSD_NET2__) || defined (____386BSD____) || defined (__bsdi__) || defined (__sequent__) || defined (__FreeBSD__)) -#define _VA_LIST_ -#endif -#ifndef _VA_LIST -#define _VA_LIST -#endif -#ifndef _VA_LIST_DEFINED -#define _VA_LIST_DEFINED -#endif -#ifndef _VA_LIST_T_H -#define _VA_LIST_T_H -#endif -#ifndef __va_list__ -#define __va_list__ -#endif - -#endif /* not _VA_LIST_, except on certain systems */ - -#endif /* not __svr4__ */ - -#endif /* _STDARG_H */ - -#endif /* not _ANSI_STDARG_H_ */ -#endif /* not _STDARG_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdatomic.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdatomic.h deleted file mode 100644 index 108259b..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdatomic.h +++ /dev/null @@ -1,252 +0,0 @@ -/* Copyright (C) 2013-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* ISO C11 Standard: 7.17 Atomics <stdatomic.h>. */ - -#ifndef _STDATOMIC_H -#define _STDATOMIC_H - -typedef enum - { - memory_order_relaxed = __ATOMIC_RELAXED, - memory_order_consume = __ATOMIC_CONSUME, - memory_order_acquire = __ATOMIC_ACQUIRE, - memory_order_release = __ATOMIC_RELEASE, - memory_order_acq_rel = __ATOMIC_ACQ_REL, - memory_order_seq_cst = __ATOMIC_SEQ_CST - } memory_order; - - -typedef _Atomic _Bool atomic_bool; -typedef _Atomic char atomic_char; -typedef _Atomic signed char atomic_schar; -typedef _Atomic unsigned char atomic_uchar; -typedef _Atomic short atomic_short; -typedef _Atomic unsigned short atomic_ushort; -typedef _Atomic int atomic_int; -typedef _Atomic unsigned int atomic_uint; -typedef _Atomic long atomic_long; -typedef _Atomic unsigned long atomic_ulong; -typedef _Atomic long long atomic_llong; -typedef _Atomic unsigned long long atomic_ullong; -typedef _Atomic __CHAR16_TYPE__ atomic_char16_t; -typedef _Atomic __CHAR32_TYPE__ atomic_char32_t; -typedef _Atomic __WCHAR_TYPE__ atomic_wchar_t; -typedef _Atomic __INT_LEAST8_TYPE__ atomic_int_least8_t; -typedef _Atomic __UINT_LEAST8_TYPE__ atomic_uint_least8_t; -typedef _Atomic __INT_LEAST16_TYPE__ atomic_int_least16_t; -typedef _Atomic __UINT_LEAST16_TYPE__ atomic_uint_least16_t; -typedef _Atomic __INT_LEAST32_TYPE__ atomic_int_least32_t; -typedef _Atomic __UINT_LEAST32_TYPE__ atomic_uint_least32_t; -typedef _Atomic __INT_LEAST64_TYPE__ atomic_int_least64_t; -typedef _Atomic __UINT_LEAST64_TYPE__ atomic_uint_least64_t; -typedef _Atomic __INT_FAST8_TYPE__ atomic_int_fast8_t; -typedef _Atomic __UINT_FAST8_TYPE__ atomic_uint_fast8_t; -typedef _Atomic __INT_FAST16_TYPE__ atomic_int_fast16_t; -typedef _Atomic __UINT_FAST16_TYPE__ atomic_uint_fast16_t; -typedef _Atomic __INT_FAST32_TYPE__ atomic_int_fast32_t; -typedef _Atomic __UINT_FAST32_TYPE__ atomic_uint_fast32_t; -typedef _Atomic __INT_FAST64_TYPE__ atomic_int_fast64_t; -typedef _Atomic __UINT_FAST64_TYPE__ atomic_uint_fast64_t; -typedef _Atomic __INTPTR_TYPE__ atomic_intptr_t; -typedef _Atomic __UINTPTR_TYPE__ atomic_uintptr_t; -typedef _Atomic __SIZE_TYPE__ atomic_size_t; -typedef _Atomic __PTRDIFF_TYPE__ atomic_ptrdiff_t; -typedef _Atomic __INTMAX_TYPE__ atomic_intmax_t; -typedef _Atomic __UINTMAX_TYPE__ atomic_uintmax_t; - - -#define ATOMIC_VAR_INIT(VALUE) (VALUE) -#define atomic_init(PTR, VAL) \ - do \ - { \ - *(PTR) = (VAL); \ - } \ - while (0) - -#define kill_dependency(Y) \ - __extension__ \ - ({ \ - __auto_type __kill_dependency_tmp = (Y); \ - __kill_dependency_tmp; \ - }) - -#define atomic_thread_fence(MO) __atomic_thread_fence (MO) -#define atomic_signal_fence(MO) __atomic_signal_fence (MO) -#define atomic_is_lock_free(OBJ) __atomic_is_lock_free (sizeof (*(OBJ)), (OBJ)) - -#define __atomic_type_lock_free(T) \ - (__atomic_always_lock_free (sizeof (T), (void *) 0) \ - ? 2 \ - : (__atomic_is_lock_free (sizeof (T), (void *) 0) ? 1 : 0)) -#define ATOMIC_BOOL_LOCK_FREE \ - __atomic_type_lock_free (atomic_bool) -#define ATOMIC_CHAR_LOCK_FREE \ - __atomic_type_lock_free (atomic_char) -#define ATOMIC_CHAR16_T_LOCK_FREE \ - __atomic_type_lock_free (atomic_char16_t) -#define ATOMIC_CHAR32_T_LOCK_FREE \ - __atomic_type_lock_free (atomic_char32_t) -#define ATOMIC_WCHAR_T_LOCK_FREE \ - __atomic_type_lock_free (atomic_wchar_t) -#define ATOMIC_SHORT_LOCK_FREE \ - __atomic_type_lock_free (atomic_short) -#define ATOMIC_INT_LOCK_FREE \ - __atomic_type_lock_free (atomic_int) -#define ATOMIC_LONG_LOCK_FREE \ - __atomic_type_lock_free (atomic_long) -#define ATOMIC_LLONG_LOCK_FREE \ - __atomic_type_lock_free (atomic_llong) -#define ATOMIC_POINTER_LOCK_FREE \ - __atomic_type_lock_free (void * _Atomic) - - -/* Note that these macros require __typeof__ and __auto_type to remove - _Atomic qualifiers (and const qualifiers, if those are valid on - macro operands). - - Also note that the header file uses the generic form of __atomic - builtins, which requires the address to be taken of the value - parameter, and then we pass that value on. This allows the macros - to work for any type, and the compiler is smart enough to convert - these to lock-free _N variants if possible, and throw away the - temps. */ - -#define atomic_store_explicit(PTR, VAL, MO) \ - __extension__ \ - ({ \ - __auto_type __atomic_store_ptr = (PTR); \ - __typeof__ (*__atomic_store_ptr) __atomic_store_tmp = (VAL); \ - __atomic_store (__atomic_store_ptr, &__atomic_store_tmp, (MO)); \ - }) - -#define atomic_store(PTR, VAL) \ - atomic_store_explicit (PTR, VAL, __ATOMIC_SEQ_CST) - - -#define atomic_load_explicit(PTR, MO) \ - __extension__ \ - ({ \ - __auto_type __atomic_load_ptr = (PTR); \ - __typeof__ (*__atomic_load_ptr) __atomic_load_tmp; \ - __atomic_load (__atomic_load_ptr, &__atomic_load_tmp, (MO)); \ - __atomic_load_tmp; \ - }) - -#define atomic_load(PTR) atomic_load_explicit (PTR, __ATOMIC_SEQ_CST) - - -#define atomic_exchange_explicit(PTR, VAL, MO) \ - __extension__ \ - ({ \ - __auto_type __atomic_exchange_ptr = (PTR); \ - __typeof__ (*__atomic_exchange_ptr) __atomic_exchange_val = (VAL); \ - __typeof__ (*__atomic_exchange_ptr) __atomic_exchange_tmp; \ - __atomic_exchange (__atomic_exchange_ptr, &__atomic_exchange_val, \ - &__atomic_exchange_tmp, (MO)); \ - __atomic_exchange_tmp; \ - }) - -#define atomic_exchange(PTR, VAL) \ - atomic_exchange_explicit (PTR, VAL, __ATOMIC_SEQ_CST) - - -#define atomic_compare_exchange_strong_explicit(PTR, VAL, DES, SUC, FAIL) \ - __extension__ \ - ({ \ - __auto_type __atomic_compare_exchange_ptr = (PTR); \ - __typeof__ (*__atomic_compare_exchange_ptr) __atomic_compare_exchange_tmp \ - = (DES); \ - __atomic_compare_exchange (__atomic_compare_exchange_ptr, (VAL), \ - &__atomic_compare_exchange_tmp, 0, \ - (SUC), (FAIL)); \ - }) - -#define atomic_compare_exchange_strong(PTR, VAL, DES) \ - atomic_compare_exchange_strong_explicit (PTR, VAL, DES, __ATOMIC_SEQ_CST, \ - __ATOMIC_SEQ_CST) - -#define atomic_compare_exchange_weak_explicit(PTR, VAL, DES, SUC, FAIL) \ - __extension__ \ - ({ \ - __auto_type __atomic_compare_exchange_ptr = (PTR); \ - __typeof__ (*__atomic_compare_exchange_ptr) __atomic_compare_exchange_tmp \ - = (DES); \ - __atomic_compare_exchange (__atomic_compare_exchange_ptr, (VAL), \ - &__atomic_compare_exchange_tmp, 1, \ - (SUC), (FAIL)); \ - }) - -#define atomic_compare_exchange_weak(PTR, VAL, DES) \ - atomic_compare_exchange_weak_explicit (PTR, VAL, DES, __ATOMIC_SEQ_CST, \ - __ATOMIC_SEQ_CST) - - - -#define atomic_fetch_add(PTR, VAL) __atomic_fetch_add ((PTR), (VAL), \ - __ATOMIC_SEQ_CST) -#define atomic_fetch_add_explicit(PTR, VAL, MO) \ - __atomic_fetch_add ((PTR), (VAL), (MO)) - -#define atomic_fetch_sub(PTR, VAL) __atomic_fetch_sub ((PTR), (VAL), \ - __ATOMIC_SEQ_CST) -#define atomic_fetch_sub_explicit(PTR, VAL, MO) \ - __atomic_fetch_sub ((PTR), (VAL), (MO)) - -#define atomic_fetch_or(PTR, VAL) __atomic_fetch_or ((PTR), (VAL), \ - __ATOMIC_SEQ_CST) -#define atomic_fetch_or_explicit(PTR, VAL, MO) \ - __atomic_fetch_or ((PTR), (VAL), (MO)) - -#define atomic_fetch_xor(PTR, VAL) __atomic_fetch_xor ((PTR), (VAL), \ - __ATOMIC_SEQ_CST) -#define atomic_fetch_xor_explicit(PTR, VAL, MO) \ - __atomic_fetch_xor ((PTR), (VAL), (MO)) - -#define atomic_fetch_and(PTR, VAL) __atomic_fetch_and ((PTR), (VAL), \ - __ATOMIC_SEQ_CST) -#define atomic_fetch_and_explicit(PTR, VAL, MO) \ - __atomic_fetch_and ((PTR), (VAL), (MO)) - - -typedef _Atomic struct -{ -#if __GCC_ATOMIC_TEST_AND_SET_TRUEVAL == 1 - _Bool __val; -#else - unsigned char __val; -#endif -} atomic_flag; - -#define ATOMIC_FLAG_INIT { 0 } - - -#define atomic_flag_test_and_set(PTR) \ - __atomic_test_and_set ((PTR), __ATOMIC_SEQ_CST) -#define atomic_flag_test_and_set_explicit(PTR, MO) \ - __atomic_test_and_set ((PTR), (MO)) - -#define atomic_flag_clear(PTR) __atomic_clear ((PTR), __ATOMIC_SEQ_CST) -#define atomic_flag_clear_explicit(PTR, MO) __atomic_clear ((PTR), (MO)) - -#endif /* _STDATOMIC_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdbool.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdbool.h deleted file mode 100644 index f4e802f..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdbool.h +++ /dev/null @@ -1,50 +0,0 @@ -/* Copyright (C) 1998-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 7.16 Boolean type and values <stdbool.h> - */ - -#ifndef _STDBOOL_H -#define _STDBOOL_H - -#ifndef __cplusplus - -#define bool _Bool -#define true 1 -#define false 0 - -#else /* __cplusplus */ - -/* Supporting <stdbool.h> in C++ is a GCC extension. */ -#define _Bool bool -#define bool bool -#define false false -#define true true - -#endif /* __cplusplus */ - -/* Signal that all the definitions are present. */ -#define __bool_true_false_are_defined 1 - -#endif /* stdbool.h */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stddef.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stddef.h deleted file mode 100644 index cfa8df3..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stddef.h +++ /dev/null @@ -1,439 +0,0 @@ -/* Copyright (C) 1989-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 7.17 Common definitions <stddef.h> - */ -#if (!defined(_STDDEF_H) && !defined(_STDDEF_H_) && !defined(_ANSI_STDDEF_H) \ - && !defined(__STDDEF_H__)) \ - || defined(__need_wchar_t) || defined(__need_size_t) \ - || defined(__need_ptrdiff_t) || defined(__need_NULL) \ - || defined(__need_wint_t) - -/* Any one of these symbols __need_* means that GNU libc - wants us just to define one data type. So don't define - the symbols that indicate this file's entire job has been done. */ -#if (!defined(__need_wchar_t) && !defined(__need_size_t) \ - && !defined(__need_ptrdiff_t) && !defined(__need_NULL) \ - && !defined(__need_wint_t)) -#define _STDDEF_H -#define _STDDEF_H_ -/* snaroff@next.com says the NeXT needs this. */ -#define _ANSI_STDDEF_H -#endif - -#ifndef __sys_stdtypes_h -/* This avoids lossage on SunOS but only if stdtypes.h comes first. - There's no way to win with the other order! Sun lossage. */ - -/* On 4.3bsd-net2, make sure ansi.h is included, so we have - one less case to deal with in the following. */ -#if defined (__BSD_NET2__) || defined (____386BSD____) || (defined (__FreeBSD__) && (__FreeBSD__ < 5)) || defined(__NetBSD__) -#include <machine/ansi.h> -#endif -/* On FreeBSD 5, machine/ansi.h does not exist anymore... */ -#if defined (__FreeBSD__) && (__FreeBSD__ >= 5) -#include <sys/_types.h> -#endif - -/* In 4.3bsd-net2, machine/ansi.h defines these symbols, which are - defined if the corresponding type is *not* defined. - FreeBSD-2.1 defines _MACHINE_ANSI_H_ instead of _ANSI_H_. - NetBSD defines _I386_ANSI_H_ and _X86_64_ANSI_H_ instead of _ANSI_H_ */ -#if defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_) -#if !defined(_SIZE_T_) && !defined(_BSD_SIZE_T_) -#define _SIZE_T -#endif -#if !defined(_PTRDIFF_T_) && !defined(_BSD_PTRDIFF_T_) -#define _PTRDIFF_T -#endif -/* On BSD/386 1.1, at least, machine/ansi.h defines _BSD_WCHAR_T_ - instead of _WCHAR_T_. */ -#if !defined(_WCHAR_T_) && !defined(_BSD_WCHAR_T_) -#ifndef _BSD_WCHAR_T_ -#define _WCHAR_T -#endif -#endif -/* Undef _FOO_T_ if we are supposed to define foo_t. */ -#if defined (__need_ptrdiff_t) || defined (_STDDEF_H_) -#undef _PTRDIFF_T_ -#undef _BSD_PTRDIFF_T_ -#endif -#if defined (__need_size_t) || defined (_STDDEF_H_) -#undef _SIZE_T_ -#undef _BSD_SIZE_T_ -#endif -#if defined (__need_wchar_t) || defined (_STDDEF_H_) -#undef _WCHAR_T_ -#undef _BSD_WCHAR_T_ -#endif -#endif /* defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_) */ - -/* Sequent's header files use _PTRDIFF_T_ in some conflicting way. - Just ignore it. */ -#if defined (__sequent__) && defined (_PTRDIFF_T_) -#undef _PTRDIFF_T_ -#endif - -/* On VxWorks, <type/vxTypesBase.h> may have defined macros like - _TYPE_size_t which will typedef size_t. fixincludes patched the - vxTypesBase.h so that this macro is only defined if _GCC_SIZE_T is - not defined, and so that defining this macro defines _GCC_SIZE_T. - If we find that the macros are still defined at this point, we must - invoke them so that the type is defined as expected. */ -#if defined (_TYPE_ptrdiff_t) && (defined (__need_ptrdiff_t) || defined (_STDDEF_H_)) -_TYPE_ptrdiff_t; -#undef _TYPE_ptrdiff_t -#endif -#if defined (_TYPE_size_t) && (defined (__need_size_t) || defined (_STDDEF_H_)) -_TYPE_size_t; -#undef _TYPE_size_t -#endif -#if defined (_TYPE_wchar_t) && (defined (__need_wchar_t) || defined (_STDDEF_H_)) -_TYPE_wchar_t; -#undef _TYPE_wchar_t -#endif - -/* In case nobody has defined these types, but we aren't running under - GCC 2.00, make sure that __PTRDIFF_TYPE__, __SIZE_TYPE__, and - __WCHAR_TYPE__ have reasonable values. This can happen if the - parts of GCC is compiled by an older compiler, that actually - include gstddef.h, such as collect2. */ - -/* Signed type of difference of two pointers. */ - -/* Define this type if we are doing the whole job, - or if we want this type in particular. */ -#if defined (_STDDEF_H) || defined (__need_ptrdiff_t) -#ifndef _PTRDIFF_T /* in case <sys/types.h> has defined it. */ -#ifndef _T_PTRDIFF_ -#ifndef _T_PTRDIFF -#ifndef __PTRDIFF_T -#ifndef _PTRDIFF_T_ -#ifndef _BSD_PTRDIFF_T_ -#ifndef ___int_ptrdiff_t_h -#ifndef _GCC_PTRDIFF_T -#define _PTRDIFF_T -#define _T_PTRDIFF_ -#define _T_PTRDIFF -#define __PTRDIFF_T -#define _PTRDIFF_T_ -#define _BSD_PTRDIFF_T_ -#define ___int_ptrdiff_t_h -#define _GCC_PTRDIFF_T -#ifndef __PTRDIFF_TYPE__ -#define __PTRDIFF_TYPE__ long int -#endif -typedef __PTRDIFF_TYPE__ ptrdiff_t; -#endif /* _GCC_PTRDIFF_T */ -#endif /* ___int_ptrdiff_t_h */ -#endif /* _BSD_PTRDIFF_T_ */ -#endif /* _PTRDIFF_T_ */ -#endif /* __PTRDIFF_T */ -#endif /* _T_PTRDIFF */ -#endif /* _T_PTRDIFF_ */ -#endif /* _PTRDIFF_T */ - -/* If this symbol has done its job, get rid of it. */ -#undef __need_ptrdiff_t - -#endif /* _STDDEF_H or __need_ptrdiff_t. */ - -/* Unsigned type of `sizeof' something. */ - -/* Define this type if we are doing the whole job, - or if we want this type in particular. */ -#if defined (_STDDEF_H) || defined (__need_size_t) -#ifndef __size_t__ /* BeOS */ -#ifndef __SIZE_T__ /* Cray Unicos/Mk */ -#ifndef _SIZE_T /* in case <sys/types.h> has defined it. */ -#ifndef _SYS_SIZE_T_H -#ifndef _T_SIZE_ -#ifndef _T_SIZE -#ifndef __SIZE_T -#ifndef _SIZE_T_ -#ifndef _BSD_SIZE_T_ -#ifndef _SIZE_T_DEFINED_ -#ifndef _SIZE_T_DEFINED -#ifndef _BSD_SIZE_T_DEFINED_ /* Darwin */ -#ifndef _SIZE_T_DECLARED /* FreeBSD 5 */ -#ifndef ___int_size_t_h -#ifndef _GCC_SIZE_T -#ifndef _SIZET_ -#ifndef __size_t -#define __size_t__ /* BeOS */ -#define __SIZE_T__ /* Cray Unicos/Mk */ -#define _SIZE_T -#define _SYS_SIZE_T_H -#define _T_SIZE_ -#define _T_SIZE -#define __SIZE_T -#define _SIZE_T_ -#define _BSD_SIZE_T_ -#define _SIZE_T_DEFINED_ -#define _SIZE_T_DEFINED -#define _BSD_SIZE_T_DEFINED_ /* Darwin */ -#define _SIZE_T_DECLARED /* FreeBSD 5 */ -#define ___int_size_t_h -#define _GCC_SIZE_T -#define _SIZET_ -#if (defined (__FreeBSD__) && (__FreeBSD__ >= 5)) \ - || defined(__FreeBSD_kernel__) -/* __size_t is a typedef on FreeBSD 5, must not trash it. */ -#elif defined (__VMS__) -/* __size_t is also a typedef on VMS. */ -#else -#define __size_t -#endif -#ifndef __SIZE_TYPE__ -#define __SIZE_TYPE__ long unsigned int -#endif -#if !(defined (__GNUG__) && defined (size_t)) -typedef __SIZE_TYPE__ size_t; -#ifdef __BEOS__ -typedef long ssize_t; -#endif /* __BEOS__ */ -#endif /* !(defined (__GNUG__) && defined (size_t)) */ -#endif /* __size_t */ -#endif /* _SIZET_ */ -#endif /* _GCC_SIZE_T */ -#endif /* ___int_size_t_h */ -#endif /* _SIZE_T_DECLARED */ -#endif /* _BSD_SIZE_T_DEFINED_ */ -#endif /* _SIZE_T_DEFINED */ -#endif /* _SIZE_T_DEFINED_ */ -#endif /* _BSD_SIZE_T_ */ -#endif /* _SIZE_T_ */ -#endif /* __SIZE_T */ -#endif /* _T_SIZE */ -#endif /* _T_SIZE_ */ -#endif /* _SYS_SIZE_T_H */ -#endif /* _SIZE_T */ -#endif /* __SIZE_T__ */ -#endif /* __size_t__ */ -#undef __need_size_t -#endif /* _STDDEF_H or __need_size_t. */ - - -/* Wide character type. - Locale-writers should change this as necessary to - be big enough to hold unique values not between 0 and 127, - and not (wchar_t) -1, for each defined multibyte character. */ - -/* Define this type if we are doing the whole job, - or if we want this type in particular. */ -#if defined (_STDDEF_H) || defined (__need_wchar_t) -#ifndef __wchar_t__ /* BeOS */ -#ifndef __WCHAR_T__ /* Cray Unicos/Mk */ -#ifndef _WCHAR_T -#ifndef _T_WCHAR_ -#ifndef _T_WCHAR -#ifndef __WCHAR_T -#ifndef _WCHAR_T_ -#ifndef _BSD_WCHAR_T_ -#ifndef _BSD_WCHAR_T_DEFINED_ /* Darwin */ -#ifndef _BSD_RUNE_T_DEFINED_ /* Darwin */ -#ifndef _WCHAR_T_DECLARED /* FreeBSD 5 */ -#ifndef _WCHAR_T_DEFINED_ -#ifndef _WCHAR_T_DEFINED -#ifndef _WCHAR_T_H -#ifndef ___int_wchar_t_h -#ifndef __INT_WCHAR_T_H -#ifndef _GCC_WCHAR_T -#define __wchar_t__ /* BeOS */ -#define __WCHAR_T__ /* Cray Unicos/Mk */ -#define _WCHAR_T -#define _T_WCHAR_ -#define _T_WCHAR -#define __WCHAR_T -#define _WCHAR_T_ -#define _BSD_WCHAR_T_ -#define _WCHAR_T_DEFINED_ -#define _WCHAR_T_DEFINED -#define _WCHAR_T_H -#define ___int_wchar_t_h -#define __INT_WCHAR_T_H -#define _GCC_WCHAR_T -#define _WCHAR_T_DECLARED - -/* On BSD/386 1.1, at least, machine/ansi.h defines _BSD_WCHAR_T_ - instead of _WCHAR_T_, and _BSD_RUNE_T_ (which, unlike the other - symbols in the _FOO_T_ family, stays defined even after its - corresponding type is defined). If we define wchar_t, then we - must undef _WCHAR_T_; for BSD/386 1.1 (and perhaps others), if - we undef _WCHAR_T_, then we must also define rune_t, since - headers like runetype.h assume that if machine/ansi.h is included, - and _BSD_WCHAR_T_ is not defined, then rune_t is available. - machine/ansi.h says, "Note that _WCHAR_T_ and _RUNE_T_ must be of - the same type." */ -#ifdef _BSD_WCHAR_T_ -#undef _BSD_WCHAR_T_ -#ifdef _BSD_RUNE_T_ -#if !defined (_ANSI_SOURCE) && !defined (_POSIX_SOURCE) -typedef _BSD_RUNE_T_ rune_t; -#define _BSD_WCHAR_T_DEFINED_ -#define _BSD_RUNE_T_DEFINED_ /* Darwin */ -#if defined (__FreeBSD__) && (__FreeBSD__ < 5) -/* Why is this file so hard to maintain properly? In contrast to - the comment above regarding BSD/386 1.1, on FreeBSD for as long - as the symbol has existed, _BSD_RUNE_T_ must not stay defined or - redundant typedefs will occur when stdlib.h is included after this file. */ -#undef _BSD_RUNE_T_ -#endif -#endif -#endif -#endif -/* FreeBSD 5 can't be handled well using "traditional" logic above - since it no longer defines _BSD_RUNE_T_ yet still desires to export - rune_t in some cases... */ -#if defined (__FreeBSD__) && (__FreeBSD__ >= 5) -#if !defined (_ANSI_SOURCE) && !defined (_POSIX_SOURCE) -#if __BSD_VISIBLE -#ifndef _RUNE_T_DECLARED -typedef __rune_t rune_t; -#define _RUNE_T_DECLARED -#endif -#endif -#endif -#endif - -#ifndef __WCHAR_TYPE__ -#define __WCHAR_TYPE__ int -#endif -#ifndef __cplusplus -typedef __WCHAR_TYPE__ wchar_t; -#endif -#endif -#endif -#endif -#endif -#endif -#endif -#endif /* _WCHAR_T_DECLARED */ -#endif /* _BSD_RUNE_T_DEFINED_ */ -#endif -#endif -#endif -#endif -#endif -#endif -#endif -#endif /* __WCHAR_T__ */ -#endif /* __wchar_t__ */ -#undef __need_wchar_t -#endif /* _STDDEF_H or __need_wchar_t. */ - -#if defined (__need_wint_t) -#ifndef _WINT_T -#define _WINT_T - -#ifndef __WINT_TYPE__ -#define __WINT_TYPE__ unsigned int -#endif -typedef __WINT_TYPE__ wint_t; -#endif -#undef __need_wint_t -#endif - -/* In 4.3bsd-net2, leave these undefined to indicate that size_t, etc. - are already defined. */ -/* BSD/OS 3.1 and FreeBSD [23].x require the MACHINE_ANSI_H check here. */ -/* NetBSD 5 requires the I386_ANSI_H and X86_64_ANSI_H checks here. */ -#if defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_) -/* The references to _GCC_PTRDIFF_T_, _GCC_SIZE_T_, and _GCC_WCHAR_T_ - are probably typos and should be removed before 2.8 is released. */ -#ifdef _GCC_PTRDIFF_T_ -#undef _PTRDIFF_T_ -#undef _BSD_PTRDIFF_T_ -#endif -#ifdef _GCC_SIZE_T_ -#undef _SIZE_T_ -#undef _BSD_SIZE_T_ -#endif -#ifdef _GCC_WCHAR_T_ -#undef _WCHAR_T_ -#undef _BSD_WCHAR_T_ -#endif -/* The following ones are the real ones. */ -#ifdef _GCC_PTRDIFF_T -#undef _PTRDIFF_T_ -#undef _BSD_PTRDIFF_T_ -#endif -#ifdef _GCC_SIZE_T -#undef _SIZE_T_ -#undef _BSD_SIZE_T_ -#endif -#ifdef _GCC_WCHAR_T -#undef _WCHAR_T_ -#undef _BSD_WCHAR_T_ -#endif -#endif /* _ANSI_H_ || _MACHINE_ANSI_H_ || _X86_64_ANSI_H_ || _I386_ANSI_H_ */ - -#endif /* __sys_stdtypes_h */ - -/* A null pointer constant. */ - -#if defined (_STDDEF_H) || defined (__need_NULL) -#undef NULL /* in case <stdio.h> has defined it. */ -#ifdef __GNUG__ -#define NULL __null -#else /* G++ */ -#ifndef __cplusplus -#define NULL ((void *)0) -#else /* C++ */ -#define NULL 0 -#endif /* C++ */ -#endif /* G++ */ -#endif /* NULL not defined and <stddef.h> or need NULL. */ -#undef __need_NULL - -#ifdef _STDDEF_H - -/* Offset of member MEMBER in a struct of type TYPE. */ -#define offsetof(TYPE, MEMBER) __builtin_offsetof (TYPE, MEMBER) - -#if (defined (__STDC_VERSION__) && __STDC_VERSION__ >= 201112L) \ - || (defined(__cplusplus) && __cplusplus >= 201103L) -#ifndef _GCC_MAX_ALIGN_T -#define _GCC_MAX_ALIGN_T -/* Type whose alignment is supported in every context and is at least - as great as that of any standard type not using alignment - specifiers. */ -typedef struct { - long long __max_align_ll __attribute__((__aligned__(__alignof__(long long)))); - long double __max_align_ld __attribute__((__aligned__(__alignof__(long double)))); -} max_align_t; -#endif -#endif /* C11 or C++11. */ - -#if defined(__cplusplus) && __cplusplus >= 201103L -#ifndef _GXX_NULLPTR_T -#define _GXX_NULLPTR_T - typedef decltype(nullptr) nullptr_t; -#endif -#endif /* C++11. */ - -#endif /* _STDDEF_H was defined this time */ - -#endif /* !_STDDEF_H && !_STDDEF_H_ && !_ANSI_STDDEF_H && !__STDDEF_H__ - || __need_XXX was not defined before */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdfix.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdfix.h deleted file mode 100644 index 93e759a..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdfix.h +++ /dev/null @@ -1,204 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* ISO/IEC JTC1 SC22 WG14 N1169 - * Date: 2006-04-04 - * ISO/IEC TR 18037 - * Programming languages - C - Extensions to support embedded processors - */ - -#ifndef _STDFIX_H -#define _STDFIX_H - -/* 7.18a.1 Introduction. */ - -#undef fract -#undef accum -#undef sat -#define fract _Fract -#define accum _Accum -#define sat _Sat - -/* 7.18a.3 Precision macros. */ - -#undef SFRACT_FBIT -#undef SFRACT_MIN -#undef SFRACT_MAX -#undef SFRACT_EPSILON -#define SFRACT_FBIT __SFRACT_FBIT__ -#define SFRACT_MIN __SFRACT_MIN__ -#define SFRACT_MAX __SFRACT_MAX__ -#define SFRACT_EPSILON __SFRACT_EPSILON__ - -#undef USFRACT_FBIT -#undef USFRACT_MIN -#undef USFRACT_MAX -#undef USFRACT_EPSILON -#define USFRACT_FBIT __USFRACT_FBIT__ -#define USFRACT_MIN __USFRACT_MIN__ /* GCC extension. */ -#define USFRACT_MAX __USFRACT_MAX__ -#define USFRACT_EPSILON __USFRACT_EPSILON__ - -#undef FRACT_FBIT -#undef FRACT_MIN -#undef FRACT_MAX -#undef FRACT_EPSILON -#define FRACT_FBIT __FRACT_FBIT__ -#define FRACT_MIN __FRACT_MIN__ -#define FRACT_MAX __FRACT_MAX__ -#define FRACT_EPSILON __FRACT_EPSILON__ - -#undef UFRACT_FBIT -#undef UFRACT_MIN -#undef UFRACT_MAX -#undef UFRACT_EPSILON -#define UFRACT_FBIT __UFRACT_FBIT__ -#define UFRACT_MIN __UFRACT_MIN__ /* GCC extension. */ -#define UFRACT_MAX __UFRACT_MAX__ -#define UFRACT_EPSILON __UFRACT_EPSILON__ - -#undef LFRACT_FBIT -#undef LFRACT_MIN -#undef LFRACT_MAX -#undef LFRACT_EPSILON -#define LFRACT_FBIT __LFRACT_FBIT__ -#define LFRACT_MIN __LFRACT_MIN__ -#define LFRACT_MAX __LFRACT_MAX__ -#define LFRACT_EPSILON __LFRACT_EPSILON__ - -#undef ULFRACT_FBIT -#undef ULFRACT_MIN -#undef ULFRACT_MAX -#undef ULFRACT_EPSILON -#define ULFRACT_FBIT __ULFRACT_FBIT__ -#define ULFRACT_MIN __ULFRACT_MIN__ /* GCC extension. */ -#define ULFRACT_MAX __ULFRACT_MAX__ -#define ULFRACT_EPSILON __ULFRACT_EPSILON__ - -#undef LLFRACT_FBIT -#undef LLFRACT_MIN -#undef LLFRACT_MAX -#undef LLFRACT_EPSILON -#define LLFRACT_FBIT __LLFRACT_FBIT__ /* GCC extension. */ -#define LLFRACT_MIN __LLFRACT_MIN__ /* GCC extension. */ -#define LLFRACT_MAX __LLFRACT_MAX__ /* GCC extension. */ -#define LLFRACT_EPSILON __LLFRACT_EPSILON__ /* GCC extension. */ - -#undef ULLFRACT_FBIT -#undef ULLFRACT_MIN -#undef ULLFRACT_MAX -#undef ULLFRACT_EPSILON -#define ULLFRACT_FBIT __ULLFRACT_FBIT__ /* GCC extension. */ -#define ULLFRACT_MIN __ULLFRACT_MIN__ /* GCC extension. */ -#define ULLFRACT_MAX __ULLFRACT_MAX__ /* GCC extension. */ -#define ULLFRACT_EPSILON __ULLFRACT_EPSILON__ /* GCC extension. */ - -#undef SACCUM_FBIT -#undef SACCUM_IBIT -#undef SACCUM_MIN -#undef SACCUM_MAX -#undef SACCUM_EPSILON -#define SACCUM_FBIT __SACCUM_FBIT__ -#define SACCUM_IBIT __SACCUM_IBIT__ -#define SACCUM_MIN __SACCUM_MIN__ -#define SACCUM_MAX __SACCUM_MAX__ -#define SACCUM_EPSILON __SACCUM_EPSILON__ - -#undef USACCUM_FBIT -#undef USACCUM_IBIT -#undef USACCUM_MIN -#undef USACCUM_MAX -#undef USACCUM_EPSILON -#define USACCUM_FBIT __USACCUM_FBIT__ -#define USACCUM_IBIT __USACCUM_IBIT__ -#define USACCUM_MIN __USACCUM_MIN__ /* GCC extension. */ -#define USACCUM_MAX __USACCUM_MAX__ -#define USACCUM_EPSILON __USACCUM_EPSILON__ - -#undef ACCUM_FBIT -#undef ACCUM_IBIT -#undef ACCUM_MIN -#undef ACCUM_MAX -#undef ACCUM_EPSILON -#define ACCUM_FBIT __ACCUM_FBIT__ -#define ACCUM_IBIT __ACCUM_IBIT__ -#define ACCUM_MIN __ACCUM_MIN__ -#define ACCUM_MAX __ACCUM_MAX__ -#define ACCUM_EPSILON __ACCUM_EPSILON__ - -#undef UACCUM_FBIT -#undef UACCUM_IBIT -#undef UACCUM_MIN -#undef UACCUM_MAX -#undef UACCUM_EPSILON -#define UACCUM_FBIT __UACCUM_FBIT__ -#define UACCUM_IBIT __UACCUM_IBIT__ -#define UACCUM_MIN __UACCUM_MIN__ /* GCC extension. */ -#define UACCUM_MAX __UACCUM_MAX__ -#define UACCUM_EPSILON __UACCUM_EPSILON__ - -#undef LACCUM_FBIT -#undef LACCUM_IBIT -#undef LACCUM_MIN -#undef LACCUM_MAX -#undef LACCUM_EPSILON -#define LACCUM_FBIT __LACCUM_FBIT__ -#define LACCUM_IBIT __LACCUM_IBIT__ -#define LACCUM_MIN __LACCUM_MIN__ -#define LACCUM_MAX __LACCUM_MAX__ -#define LACCUM_EPSILON __LACCUM_EPSILON__ - -#undef ULACCUM_FBIT -#undef ULACCUM_IBIT -#undef ULACCUM_MIN -#undef ULACCUM_MAX -#undef ULACCUM_EPSILON -#define ULACCUM_FBIT __ULACCUM_FBIT__ -#define ULACCUM_IBIT __ULACCUM_IBIT__ -#define ULACCUM_MIN __ULACCUM_MIN__ /* GCC extension. */ -#define ULACCUM_MAX __ULACCUM_MAX__ -#define ULACCUM_EPSILON __ULACCUM_EPSILON__ - -#undef LLACCUM_FBIT -#undef LLACCUM_IBIT -#undef LLACCUM_MIN -#undef LLACCUM_MAX -#undef LLACCUM_EPSILON -#define LLACCUM_FBIT __LLACCUM_FBIT__ /* GCC extension. */ -#define LLACCUM_IBIT __LLACCUM_IBIT__ /* GCC extension. */ -#define LLACCUM_MIN __LLACCUM_MIN__ /* GCC extension. */ -#define LLACCUM_MAX __LLACCUM_MAX__ /* GCC extension. */ -#define LLACCUM_EPSILON __LLACCUM_EPSILON__ /* GCC extension. */ - -#undef ULLACCUM_FBIT -#undef ULLACCUM_IBIT -#undef ULLACCUM_MIN -#undef ULLACCUM_MAX -#undef ULLACCUM_EPSILON -#define ULLACCUM_FBIT __ULLACCUM_FBIT__ /* GCC extension. */ -#define ULLACCUM_IBIT __ULLACCUM_IBIT__ /* GCC extension. */ -#define ULLACCUM_MIN __ULLACCUM_MIN__ /* GCC extension. */ -#define ULLACCUM_MAX __ULLACCUM_MAX__ /* GCC extension. */ -#define ULLACCUM_EPSILON __ULLACCUM_EPSILON__ /* GCC extension. */ - -#endif /* _STDFIX_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdint-gcc.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdint-gcc.h deleted file mode 100644 index 1470cea..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdint-gcc.h +++ /dev/null @@ -1,263 +0,0 @@ -/* Copyright (C) 2008-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* - * ISO C Standard: 7.18 Integer types <stdint.h> - */ - -#ifndef _GCC_STDINT_H -#define _GCC_STDINT_H - -/* 7.8.1.1 Exact-width integer types */ - -#ifdef __INT8_TYPE__ -typedef __INT8_TYPE__ int8_t; -#endif -#ifdef __INT16_TYPE__ -typedef __INT16_TYPE__ int16_t; -#endif -#ifdef __INT32_TYPE__ -typedef __INT32_TYPE__ int32_t; -#endif -#ifdef __INT64_TYPE__ -typedef __INT64_TYPE__ int64_t; -#endif -#ifdef __UINT8_TYPE__ -typedef __UINT8_TYPE__ uint8_t; -#endif -#ifdef __UINT16_TYPE__ -typedef __UINT16_TYPE__ uint16_t; -#endif -#ifdef __UINT32_TYPE__ -typedef __UINT32_TYPE__ uint32_t; -#endif -#ifdef __UINT64_TYPE__ -typedef __UINT64_TYPE__ uint64_t; -#endif - -/* 7.8.1.2 Minimum-width integer types */ - -typedef __INT_LEAST8_TYPE__ int_least8_t; -typedef __INT_LEAST16_TYPE__ int_least16_t; -typedef __INT_LEAST32_TYPE__ int_least32_t; -typedef __INT_LEAST64_TYPE__ int_least64_t; -typedef __UINT_LEAST8_TYPE__ uint_least8_t; -typedef __UINT_LEAST16_TYPE__ uint_least16_t; -typedef __UINT_LEAST32_TYPE__ uint_least32_t; -typedef __UINT_LEAST64_TYPE__ uint_least64_t; - -/* 7.8.1.3 Fastest minimum-width integer types */ - -typedef __INT_FAST8_TYPE__ int_fast8_t; -typedef __INT_FAST16_TYPE__ int_fast16_t; -typedef __INT_FAST32_TYPE__ int_fast32_t; -typedef __INT_FAST64_TYPE__ int_fast64_t; -typedef __UINT_FAST8_TYPE__ uint_fast8_t; -typedef __UINT_FAST16_TYPE__ uint_fast16_t; -typedef __UINT_FAST32_TYPE__ uint_fast32_t; -typedef __UINT_FAST64_TYPE__ uint_fast64_t; - -/* 7.8.1.4 Integer types capable of holding object pointers */ - -#ifdef __INTPTR_TYPE__ -typedef __INTPTR_TYPE__ intptr_t; -#endif -#ifdef __UINTPTR_TYPE__ -typedef __UINTPTR_TYPE__ uintptr_t; -#endif - -/* 7.8.1.5 Greatest-width integer types */ - -typedef __INTMAX_TYPE__ intmax_t; -typedef __UINTMAX_TYPE__ uintmax_t; - -#if (!defined __cplusplus || __cplusplus >= 201103L \ - || defined __STDC_LIMIT_MACROS) - -/* 7.18.2 Limits of specified-width integer types */ - -#ifdef __INT8_MAX__ -# undef INT8_MAX -# define INT8_MAX __INT8_MAX__ -# undef INT8_MIN -# define INT8_MIN (-INT8_MAX - 1) -#endif -#ifdef __UINT8_MAX__ -# undef UINT8_MAX -# define UINT8_MAX __UINT8_MAX__ -#endif -#ifdef __INT16_MAX__ -# undef INT16_MAX -# define INT16_MAX __INT16_MAX__ -# undef INT16_MIN -# define INT16_MIN (-INT16_MAX - 1) -#endif -#ifdef __UINT16_MAX__ -# undef UINT16_MAX -# define UINT16_MAX __UINT16_MAX__ -#endif -#ifdef __INT32_MAX__ -# undef INT32_MAX -# define INT32_MAX __INT32_MAX__ -# undef INT32_MIN -# define INT32_MIN (-INT32_MAX - 1) -#endif -#ifdef __UINT32_MAX__ -# undef UINT32_MAX -# define UINT32_MAX __UINT32_MAX__ -#endif -#ifdef __INT64_MAX__ -# undef INT64_MAX -# define INT64_MAX __INT64_MAX__ -# undef INT64_MIN -# define INT64_MIN (-INT64_MAX - 1) -#endif -#ifdef __UINT64_MAX__ -# undef UINT64_MAX -# define UINT64_MAX __UINT64_MAX__ -#endif - -#undef INT_LEAST8_MAX -#define INT_LEAST8_MAX __INT_LEAST8_MAX__ -#undef INT_LEAST8_MIN -#define INT_LEAST8_MIN (-INT_LEAST8_MAX - 1) -#undef UINT_LEAST8_MAX -#define UINT_LEAST8_MAX __UINT_LEAST8_MAX__ -#undef INT_LEAST16_MAX -#define INT_LEAST16_MAX __INT_LEAST16_MAX__ -#undef INT_LEAST16_MIN -#define INT_LEAST16_MIN (-INT_LEAST16_MAX - 1) -#undef UINT_LEAST16_MAX -#define UINT_LEAST16_MAX __UINT_LEAST16_MAX__ -#undef INT_LEAST32_MAX -#define INT_LEAST32_MAX __INT_LEAST32_MAX__ -#undef INT_LEAST32_MIN -#define INT_LEAST32_MIN (-INT_LEAST32_MAX - 1) -#undef UINT_LEAST32_MAX -#define UINT_LEAST32_MAX __UINT_LEAST32_MAX__ -#undef INT_LEAST64_MAX -#define INT_LEAST64_MAX __INT_LEAST64_MAX__ -#undef INT_LEAST64_MIN -#define INT_LEAST64_MIN (-INT_LEAST64_MAX - 1) -#undef UINT_LEAST64_MAX -#define UINT_LEAST64_MAX __UINT_LEAST64_MAX__ - -#undef INT_FAST8_MAX -#define INT_FAST8_MAX __INT_FAST8_MAX__ -#undef INT_FAST8_MIN -#define INT_FAST8_MIN (-INT_FAST8_MAX - 1) -#undef UINT_FAST8_MAX -#define UINT_FAST8_MAX __UINT_FAST8_MAX__ -#undef INT_FAST16_MAX -#define INT_FAST16_MAX __INT_FAST16_MAX__ -#undef INT_FAST16_MIN -#define INT_FAST16_MIN (-INT_FAST16_MAX - 1) -#undef UINT_FAST16_MAX -#define UINT_FAST16_MAX __UINT_FAST16_MAX__ -#undef INT_FAST32_MAX -#define INT_FAST32_MAX __INT_FAST32_MAX__ -#undef INT_FAST32_MIN -#define INT_FAST32_MIN (-INT_FAST32_MAX - 1) -#undef UINT_FAST32_MAX -#define UINT_FAST32_MAX __UINT_FAST32_MAX__ -#undef INT_FAST64_MAX -#define INT_FAST64_MAX __INT_FAST64_MAX__ -#undef INT_FAST64_MIN -#define INT_FAST64_MIN (-INT_FAST64_MAX - 1) -#undef UINT_FAST64_MAX -#define UINT_FAST64_MAX __UINT_FAST64_MAX__ - -#ifdef __INTPTR_MAX__ -# undef INTPTR_MAX -# define INTPTR_MAX __INTPTR_MAX__ -# undef INTPTR_MIN -# define INTPTR_MIN (-INTPTR_MAX - 1) -#endif -#ifdef __UINTPTR_MAX__ -# undef UINTPTR_MAX -# define UINTPTR_MAX __UINTPTR_MAX__ -#endif - -#undef INTMAX_MAX -#define INTMAX_MAX __INTMAX_MAX__ -#undef INTMAX_MIN -#define INTMAX_MIN (-INTMAX_MAX - 1) -#undef UINTMAX_MAX -#define UINTMAX_MAX __UINTMAX_MAX__ - -/* 7.18.3 Limits of other integer types */ - -#undef PTRDIFF_MAX -#define PTRDIFF_MAX __PTRDIFF_MAX__ -#undef PTRDIFF_MIN -#define PTRDIFF_MIN (-PTRDIFF_MAX - 1) - -#undef SIG_ATOMIC_MAX -#define SIG_ATOMIC_MAX __SIG_ATOMIC_MAX__ -#undef SIG_ATOMIC_MIN -#define SIG_ATOMIC_MIN __SIG_ATOMIC_MIN__ - -#undef SIZE_MAX -#define SIZE_MAX __SIZE_MAX__ - -#undef WCHAR_MAX -#define WCHAR_MAX __WCHAR_MAX__ -#undef WCHAR_MIN -#define WCHAR_MIN __WCHAR_MIN__ - -#undef WINT_MAX -#define WINT_MAX __WINT_MAX__ -#undef WINT_MIN -#define WINT_MIN __WINT_MIN__ - -#endif /* (!defined __cplusplus || __cplusplus >= 201103L - || defined __STDC_LIMIT_MACROS) */ - -#if (!defined __cplusplus || __cplusplus >= 201103L \ - || defined __STDC_CONSTANT_MACROS) - -#undef INT8_C -#define INT8_C(c) __INT8_C(c) -#undef INT16_C -#define INT16_C(c) __INT16_C(c) -#undef INT32_C -#define INT32_C(c) __INT32_C(c) -#undef INT64_C -#define INT64_C(c) __INT64_C(c) -#undef UINT8_C -#define UINT8_C(c) __UINT8_C(c) -#undef UINT16_C -#define UINT16_C(c) __UINT16_C(c) -#undef UINT32_C -#define UINT32_C(c) __UINT32_C(c) -#undef UINT64_C -#define UINT64_C(c) __UINT64_C(c) -#undef INTMAX_C -#define INTMAX_C(c) __INTMAX_C(c) -#undef UINTMAX_C -#define UINTMAX_C(c) __UINTMAX_C(c) - -#endif /* (!defined __cplusplus || __cplusplus >= 201103L - || defined __STDC_CONSTANT_MACROS) */ - -#endif /* _GCC_STDINT_H */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdint.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdint.h deleted file mode 100644 index 83b6f70..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdint.h +++ /dev/null @@ -1,14 +0,0 @@ -#ifndef _GCC_WRAP_STDINT_H -#if __STDC_HOSTED__ -# if defined __cplusplus && __cplusplus >= 201103L -# undef __STDC_LIMIT_MACROS -# define __STDC_LIMIT_MACROS -# undef __STDC_CONSTANT_MACROS -# define __STDC_CONSTANT_MACROS -# endif -# include_next <stdint.h> -#else -# include "stdint-gcc.h" -#endif -#define _GCC_WRAP_STDINT_H -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/stdnoreturn.h b/lib/gcc/x86_64-linux-android/4.9.x/include/stdnoreturn.h deleted file mode 100644 index 0134137..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/stdnoreturn.h +++ /dev/null @@ -1,35 +0,0 @@ -/* Copyright (C) 2011-2014 Free Software Foundation, Inc. - -This file is part of GCC. - -GCC is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 3, or (at your option) -any later version. - -GCC is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. - -Under Section 7 of GPL version 3, you are granted additional -permissions described in the GCC Runtime Library Exception, version -3.1, as published by the Free Software Foundation. - -You should have received a copy of the GNU General Public License and -a copy of the GCC Runtime Library Exception along with this program; -see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -<http://www.gnu.org/licenses/>. */ - -/* ISO C1X: 7.23 _Noreturn <stdnoreturn.h>. */ - -#ifndef _STDNORETURN_H -#define _STDNORETURN_H - -#ifndef __cplusplus - -#define noreturn _Noreturn - -#endif - -#endif /* stdnoreturn.h */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/tbmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/tbmintrin.h deleted file mode 100644 index 871f532..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/tbmintrin.h +++ /dev/null @@ -1,180 +0,0 @@ -/* Copyright (C) 2010-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -# error "Never use <tbmintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _TBMINTRIN_H_INCLUDED -#define _TBMINTRIN_H_INCLUDED - -#ifndef __TBM__ -#pragma GCC push_options -#pragma GCC target("tbm") -#define __DISABLE_TBM__ -#endif /* __TBM__ */ - -#ifdef __OPTIMIZE__ -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bextri_u32 (unsigned int __X, const unsigned int __I) -{ - return __builtin_ia32_bextri_u32 (__X, __I); -} -#else -#define __bextri_u32(X, I) \ - ((unsigned int)__builtin_ia32_bextri_u32 ((unsigned int)(X), \ - (unsigned int)(I))) -#endif /*__OPTIMIZE__ */ - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcfill_u32 (unsigned int __X) -{ - return __X & (__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blci_u32 (unsigned int __X) -{ - return __X | ~(__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcic_u32 (unsigned int __X) -{ - return ~__X & (__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcmsk_u32 (unsigned int __X) -{ - return __X ^ (__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcs_u32 (unsigned int __X) -{ - return __X | (__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsfill_u32 (unsigned int __X) -{ - return __X | (__X - 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsic_u32 (unsigned int __X) -{ - return ~__X | (__X - 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__t1mskc_u32 (unsigned int __X) -{ - return ~__X | (__X + 1); -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__tzmsk_u32 (unsigned int __X) -{ - return ~__X & (__X - 1); -} - - - -#ifdef __x86_64__ -#ifdef __OPTIMIZE__ -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__bextri_u64 (unsigned long long __X, const unsigned int __I) -{ - return __builtin_ia32_bextri_u64 (__X, __I); -} -#else -#define __bextri_u64(X, I) \ - ((unsigned long long)__builtin_ia32_bextri_u64 ((unsigned long long)(X), \ - (unsigned long long)(I))) -#endif /*__OPTIMIZE__ */ - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcfill_u64 (unsigned long long __X) -{ - return __X & (__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blci_u64 (unsigned long long __X) -{ - return __X | ~(__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcic_u64 (unsigned long long __X) -{ - return ~__X & (__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcmsk_u64 (unsigned long long __X) -{ - return __X ^ (__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blcs_u64 (unsigned long long __X) -{ - return __X | (__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsfill_u64 (unsigned long long __X) -{ - return __X | (__X - 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__blsic_u64 (unsigned long long __X) -{ - return ~__X | (__X - 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__t1mskc_u64 (unsigned long long __X) -{ - return ~__X | (__X + 1); -} - -extern __inline unsigned long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -__tzmsk_u64 (unsigned long long __X) -{ - return ~__X & (__X - 1); -} - - -#endif /* __x86_64__ */ - -#ifdef __DISABLE_TBM__ -#undef __DISABLE_TBM__ -#pragma GCC pop_options -#endif /* __DISABLE_TBM__ */ - -#endif /* _TBMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/tmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/tmmintrin.h deleted file mode 100644 index 89556d2..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/tmmintrin.h +++ /dev/null @@ -1,249 +0,0 @@ -/* Copyright (C) 2006-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 9.1. */ - -#ifndef _TMMINTRIN_H_INCLUDED -#define _TMMINTRIN_H_INCLUDED - -/* We need definitions from the SSE3, SSE2 and SSE header files*/ -#include <pmmintrin.h> - -#ifndef __SSSE3__ -#pragma GCC push_options -#pragma GCC target("ssse3") -#define __DISABLE_SSSE3__ -#endif /* __SSSE3__ */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phaddw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phaddd128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadds_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phaddsw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phaddw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadd_pi32 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phaddd ((__v2si)__X, (__v2si)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hadds_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phaddsw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phsubw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phsubd128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsubs_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_phsubsw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phsubw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsub_pi32 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phsubd ((__v2si)__X, (__v2si)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsubs_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_phsubsw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddubs_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmaddubsw128 ((__v16qi)__X, (__v16qi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddubs_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_pmaddubsw ((__v8qi)__X, (__v8qi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhrs_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pmulhrsw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhrs_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_pmulhrsw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_epi8 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_pshufb128 ((__v16qi)__X, (__v16qi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_pi8 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_pshufb ((__v8qi)__X, (__v8qi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_epi8 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psignb128 ((__v16qi)__X, (__v16qi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_epi16 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psignw128 ((__v8hi)__X, (__v8hi)__Y); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_epi32 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_psignd128 ((__v4si)__X, (__v4si)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_pi8 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_psignb ((__v8qi)__X, (__v8qi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_pi16 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_psignw ((__v4hi)__X, (__v4hi)__Y); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sign_pi32 (__m64 __X, __m64 __Y) -{ - return (__m64) __builtin_ia32_psignd ((__v2si)__X, (__v2si)__Y); -} - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_alignr_epi8(__m128i __X, __m128i __Y, const int __N) -{ - return (__m128i) __builtin_ia32_palignr128 ((__v2di)__X, - (__v2di)__Y, __N * 8); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_alignr_pi8(__m64 __X, __m64 __Y, const int __N) -{ - return (__m64) __builtin_ia32_palignr ((__v1di)__X, - (__v1di)__Y, __N * 8); -} -#else -#define _mm_alignr_epi8(X, Y, N) \ - ((__m128i) __builtin_ia32_palignr128 ((__v2di)(__m128i)(X), \ - (__v2di)(__m128i)(Y), \ - (int)(N) * 8)) -#define _mm_alignr_pi8(X, Y, N) \ - ((__m64) __builtin_ia32_palignr ((__v1di)(__m64)(X), \ - (__v1di)(__m64)(Y), \ - (int)(N) * 8)) -#endif - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_epi8 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pabsb128 ((__v16qi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_epi16 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pabsw128 ((__v8hi)__X); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_epi32 (__m128i __X) -{ - return (__m128i) __builtin_ia32_pabsd128 ((__v4si)__X); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_pi8 (__m64 __X) -{ - return (__m64) __builtin_ia32_pabsb ((__v8qi)__X); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_pi16 (__m64 __X) -{ - return (__m64) __builtin_ia32_pabsw ((__v4hi)__X); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_abs_pi32 (__m64 __X) -{ - return (__m64) __builtin_ia32_pabsd ((__v2si)__X); -} - -#ifdef __DISABLE_SSSE3__ -#undef __DISABLE_SSSE3__ -#pragma GCC pop_options -#endif /* __DISABLE_SSSE3__ */ - -#endif /* _TMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/unwind.h b/lib/gcc/x86_64-linux-android/4.9.x/include/unwind.h deleted file mode 100644 index d351fb9..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/unwind.h +++ /dev/null @@ -1,293 +0,0 @@ -/* Exception handling and frame unwind runtime interface routines. - Copyright (C) 2001-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify it - under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, but WITHOUT - ANY WARRANTY; without even the implied warranty of MERCHANTABILITY - or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public - License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* This is derived from the C++ ABI for IA-64. Where we diverge - for cross-architecture compatibility are noted with "@@@". */ - -#ifndef _UNWIND_H -#define _UNWIND_H - -#if defined (__SEH__) && !defined (__USING_SJLJ_EXCEPTIONS__) -/* Only for _GCC_specific_handler. */ -#include <windows.h> -#endif - -#ifndef HIDE_EXPORTS -#pragma GCC visibility push(default) -#endif - -#ifdef __cplusplus -extern "C" { -#endif - -/* Level 1: Base ABI */ - -/* @@@ The IA-64 ABI uses uint64 throughout. Most places this is - inefficient for 32-bit and smaller machines. */ -typedef unsigned _Unwind_Word __attribute__((__mode__(__unwind_word__))); -typedef signed _Unwind_Sword __attribute__((__mode__(__unwind_word__))); -#if defined(__ia64__) && defined(__hpux__) -typedef unsigned _Unwind_Ptr __attribute__((__mode__(__word__))); -#else -typedef unsigned _Unwind_Ptr __attribute__((__mode__(__pointer__))); -#endif -typedef unsigned _Unwind_Internal_Ptr __attribute__((__mode__(__pointer__))); - -/* @@@ The IA-64 ABI uses a 64-bit word to identify the producer and - consumer of an exception. We'll go along with this for now even on - 32-bit machines. We'll need to provide some other option for - 16-bit machines and for machines with > 8 bits per byte. */ -typedef unsigned _Unwind_Exception_Class __attribute__((__mode__(__DI__))); - -/* The unwind interface uses reason codes in several contexts to - identify the reasons for failures or other actions. */ -typedef enum -{ - _URC_NO_REASON = 0, - _URC_FOREIGN_EXCEPTION_CAUGHT = 1, - _URC_FATAL_PHASE2_ERROR = 2, - _URC_FATAL_PHASE1_ERROR = 3, - _URC_NORMAL_STOP = 4, - _URC_END_OF_STACK = 5, - _URC_HANDLER_FOUND = 6, - _URC_INSTALL_CONTEXT = 7, - _URC_CONTINUE_UNWIND = 8 -} _Unwind_Reason_Code; - - -/* The unwind interface uses a pointer to an exception header object - as its representation of an exception being thrown. In general, the - full representation of an exception object is language- and - implementation-specific, but it will be prefixed by a header - understood by the unwind interface. */ - -struct _Unwind_Exception; - -typedef void (*_Unwind_Exception_Cleanup_Fn) (_Unwind_Reason_Code, - struct _Unwind_Exception *); - -struct _Unwind_Exception -{ - _Unwind_Exception_Class exception_class; - _Unwind_Exception_Cleanup_Fn exception_cleanup; - -#if !defined (__USING_SJLJ_EXCEPTIONS__) && defined (__SEH__) - _Unwind_Word private_[6]; -#else - _Unwind_Word private_1; - _Unwind_Word private_2; -#endif - - /* @@@ The IA-64 ABI says that this structure must be double-word aligned. - Taking that literally does not make much sense generically. Instead we - provide the maximum alignment required by any type for the machine. */ -} __attribute__((__aligned__)); - - -/* The ACTIONS argument to the personality routine is a bitwise OR of one - or more of the following constants. */ -typedef int _Unwind_Action; - -#define _UA_SEARCH_PHASE 1 -#define _UA_CLEANUP_PHASE 2 -#define _UA_HANDLER_FRAME 4 -#define _UA_FORCE_UNWIND 8 -#define _UA_END_OF_STACK 16 - -/* The target can override this macro to define any back-end-specific - attributes required for the lowest-level stack frame. */ -#ifndef LIBGCC2_UNWIND_ATTRIBUTE -#define LIBGCC2_UNWIND_ATTRIBUTE -#endif - -/* This is an opaque type used to refer to a system-specific data - structure used by the system unwinder. This context is created and - destroyed by the system, and passed to the personality routine - during unwinding. */ -struct _Unwind_Context; - -/* Raise an exception, passing along the given exception object. */ -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_RaiseException (struct _Unwind_Exception *); - -/* Raise an exception for forced unwinding. */ - -typedef _Unwind_Reason_Code (*_Unwind_Stop_Fn) - (int, _Unwind_Action, _Unwind_Exception_Class, - struct _Unwind_Exception *, struct _Unwind_Context *, void *); - -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_ForcedUnwind (struct _Unwind_Exception *, _Unwind_Stop_Fn, void *); - -/* Helper to invoke the exception_cleanup routine. */ -extern void _Unwind_DeleteException (struct _Unwind_Exception *); - -/* Resume propagation of an existing exception. This is used after - e.g. executing cleanup code, and not to implement rethrowing. */ -extern void LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_Resume (struct _Unwind_Exception *); - -/* @@@ Resume propagation of a FORCE_UNWIND exception, or to rethrow - a normal exception that was handled. */ -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_Resume_or_Rethrow (struct _Unwind_Exception *); - -/* @@@ Use unwind data to perform a stack backtrace. The trace callback - is called for every stack frame in the call chain, but no cleanup - actions are performed. */ -typedef _Unwind_Reason_Code (*_Unwind_Trace_Fn) - (struct _Unwind_Context *, void *); - -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_Backtrace (_Unwind_Trace_Fn, void *); - -/* These functions are used for communicating information about the unwind - context (i.e. the unwind descriptors and the user register state) between - the unwind library and the personality routine and landing pad. Only - selected registers may be manipulated. */ - -extern _Unwind_Word _Unwind_GetGR (struct _Unwind_Context *, int); -extern void _Unwind_SetGR (struct _Unwind_Context *, int, _Unwind_Word); - -extern _Unwind_Ptr _Unwind_GetIP (struct _Unwind_Context *); -extern _Unwind_Ptr _Unwind_GetIPInfo (struct _Unwind_Context *, int *); -extern void _Unwind_SetIP (struct _Unwind_Context *, _Unwind_Ptr); - -/* @@@ Retrieve the CFA of the given context. */ -extern _Unwind_Word _Unwind_GetCFA (struct _Unwind_Context *); - -extern void *_Unwind_GetLanguageSpecificData (struct _Unwind_Context *); - -extern _Unwind_Ptr _Unwind_GetRegionStart (struct _Unwind_Context *); - - -/* The personality routine is the function in the C++ (or other language) - runtime library which serves as an interface between the system unwind - library and language-specific exception handling semantics. It is - specific to the code fragment described by an unwind info block, and - it is always referenced via the pointer in the unwind info block, and - hence it has no ABI-specified name. - - Note that this implies that two different C++ implementations can - use different names, and have different contents in the language - specific data area. Moreover, that the language specific data - area contains no version info because name of the function invoked - provides more effective versioning by detecting at link time the - lack of code to handle the different data format. */ - -typedef _Unwind_Reason_Code (*_Unwind_Personality_Fn) - (int, _Unwind_Action, _Unwind_Exception_Class, - struct _Unwind_Exception *, struct _Unwind_Context *); - -/* @@@ The following alternate entry points are for setjmp/longjmp - based unwinding. */ - -struct SjLj_Function_Context; -extern void _Unwind_SjLj_Register (struct SjLj_Function_Context *); -extern void _Unwind_SjLj_Unregister (struct SjLj_Function_Context *); - -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_SjLj_RaiseException (struct _Unwind_Exception *); -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_SjLj_ForcedUnwind (struct _Unwind_Exception *, _Unwind_Stop_Fn, void *); -extern void LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_SjLj_Resume (struct _Unwind_Exception *); -extern _Unwind_Reason_Code LIBGCC2_UNWIND_ATTRIBUTE -_Unwind_SjLj_Resume_or_Rethrow (struct _Unwind_Exception *); - -/* @@@ The following provide access to the base addresses for text - and data-relative addressing in the LDSA. In order to stay link - compatible with the standard ABI for IA-64, we inline these. */ - -#ifdef __ia64__ -#include <stdlib.h> - -static inline _Unwind_Ptr -_Unwind_GetDataRelBase (struct _Unwind_Context *_C) -{ - /* The GP is stored in R1. */ - return _Unwind_GetGR (_C, 1); -} - -static inline _Unwind_Ptr -_Unwind_GetTextRelBase (struct _Unwind_Context *_C __attribute__ ((__unused__))) -{ - abort (); - return 0; -} - -/* @@@ Retrieve the Backing Store Pointer of the given context. */ -extern _Unwind_Word _Unwind_GetBSP (struct _Unwind_Context *); -#else -extern _Unwind_Ptr _Unwind_GetDataRelBase (struct _Unwind_Context *); -extern _Unwind_Ptr _Unwind_GetTextRelBase (struct _Unwind_Context *); -#endif - -/* @@@ Given an address, return the entry point of the function that - contains it. */ -extern void * _Unwind_FindEnclosingFunction (void *pc); - -#ifndef __SIZEOF_LONG__ - #error "__SIZEOF_LONG__ macro not defined" -#endif - -#ifndef __SIZEOF_POINTER__ - #error "__SIZEOF_POINTER__ macro not defined" -#endif - - -/* leb128 type numbers have a potentially unlimited size. - The target of the following definitions of _sleb128_t and _uleb128_t - is to have efficient data types large enough to hold the leb128 type - numbers used in the unwind code. - Mostly these types will simply be defined to long and unsigned long - except when a unsigned long data type on the target machine is not - capable of storing a pointer. */ - -#if __SIZEOF_LONG__ >= __SIZEOF_POINTER__ - typedef long _sleb128_t; - typedef unsigned long _uleb128_t; -#elif __SIZEOF_LONG_LONG__ >= __SIZEOF_POINTER__ - typedef long long _sleb128_t; - typedef unsigned long long _uleb128_t; -#else -# error "What type shall we use for _sleb128_t?" -#endif - -#if defined (__SEH__) && !defined (__USING_SJLJ_EXCEPTIONS__) -/* Handles the mapping from SEH to GCC interfaces. */ -EXCEPTION_DISPOSITION _GCC_specific_handler (PEXCEPTION_RECORD, void *, - PCONTEXT, PDISPATCHER_CONTEXT, - _Unwind_Personality_Fn); -#endif - -#ifdef __cplusplus -} -#endif - -#ifndef HIDE_EXPORTS -#pragma GCC visibility pop -#endif - -#endif /* unwind.h */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/varargs.h b/lib/gcc/x86_64-linux-android/4.9.x/include/varargs.h deleted file mode 100644 index 4b9803e..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/varargs.h +++ /dev/null @@ -1,7 +0,0 @@ -#ifndef _VARARGS_H -#define _VARARGS_H - -#error "GCC no longer implements <varargs.h>." -#error "Revise your code to use <stdarg.h>." - -#endif diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/wmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/wmmintrin.h deleted file mode 100644 index 2002375..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/wmmintrin.h +++ /dev/null @@ -1,132 +0,0 @@ -/* Copyright (C) 2008-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 10.1. */ - -#ifndef _WMMINTRIN_H_INCLUDED -#define _WMMINTRIN_H_INCLUDED - -/* We need definitions from the SSE2 header file. */ -#include <emmintrin.h> - -/* AES */ - -#ifndef __AES__ -#pragma GCC push_options -#pragma GCC target("aes") -#define __DISABLE_AES__ -#endif /* __AES__ */ - -/* Performs 1 round of AES decryption of the first m128i using - the second m128i as a round key. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aesdec_si128 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_aesdec128 ((__v2di)__X, (__v2di)__Y); -} - -/* Performs the last round of AES decryption of the first m128i - using the second m128i as a round key. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aesdeclast_si128 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_aesdeclast128 ((__v2di)__X, - (__v2di)__Y); -} - -/* Performs 1 round of AES encryption of the first m128i using - the second m128i as a round key. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aesenc_si128 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_aesenc128 ((__v2di)__X, (__v2di)__Y); -} - -/* Performs the last round of AES encryption of the first m128i - using the second m128i as a round key. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aesenclast_si128 (__m128i __X, __m128i __Y) -{ - return (__m128i) __builtin_ia32_aesenclast128 ((__v2di)__X, (__v2di)__Y); -} - -/* Performs the InverseMixColumn operation on the source m128i - and stores the result into m128i destination. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aesimc_si128 (__m128i __X) -{ - return (__m128i) __builtin_ia32_aesimc128 ((__v2di)__X); -} - -/* Generates a m128i round key for the input m128i AES cipher key and - byte round constant. The second parameter must be a compile time - constant. */ -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_aeskeygenassist_si128 (__m128i __X, const int __C) -{ - return (__m128i) __builtin_ia32_aeskeygenassist128 ((__v2di)__X, __C); -} -#else -#define _mm_aeskeygenassist_si128(X, C) \ - ((__m128i) __builtin_ia32_aeskeygenassist128 ((__v2di)(__m128i)(X), \ - (int)(C))) -#endif - -#ifdef __DISABLE_AES__ -#undef __DISABLE_AES__ -#pragma GCC pop_options -#endif /* __DISABLE_AES__ */ - -/* PCLMUL */ - -#ifndef __PCLMUL__ -#pragma GCC push_options -#pragma GCC target("pclmul") -#define __DISABLE_PCLMUL__ -#endif /* __PCLMUL__ */ - -/* Performs carry-less integer multiplication of 64-bit halves of - 128-bit input operands. The third parameter inducates which 64-bit - haves of the input parameters v1 and v2 should be used. It must be - a compile time constant. */ -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_clmulepi64_si128 (__m128i __X, __m128i __Y, const int __I) -{ - return (__m128i) __builtin_ia32_pclmulqdq128 ((__v2di)__X, - (__v2di)__Y, __I); -} -#else -#define _mm_clmulepi64_si128(X, Y, I) \ - ((__m128i) __builtin_ia32_pclmulqdq128 ((__v2di)(__m128i)(X), \ - (__v2di)(__m128i)(Y), (int)(I))) -#endif - -#ifdef __DISABLE_PCLMUL__ -#undef __DISABLE_PCLMUL__ -#pragma GCC pop_options -#endif /* __DISABLE_PCLMUL__ */ - -#endif /* _WMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/x86intrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/x86intrin.h deleted file mode 100644 index 80e9e6f..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/x86intrin.h +++ /dev/null @@ -1,78 +0,0 @@ -/* Copyright (C) 2008-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -#define _X86INTRIN_H_INCLUDED - -#include <ia32intrin.h> - -#include <mmintrin.h> - -#include <xmmintrin.h> - -#include <emmintrin.h> - -#include <pmmintrin.h> - -#include <tmmintrin.h> - -#include <ammintrin.h> - -#include <smmintrin.h> - -#include <wmmintrin.h> - -/* For including AVX instructions */ -#include <immintrin.h> - -#include <mm3dnow.h> - -#include <fma4intrin.h> - -#include <xopintrin.h> - -#include <lwpintrin.h> - -#include <bmiintrin.h> - -#include <bmi2intrin.h> - -#include <tbmintrin.h> - -#include <lzcntintrin.h> - -#include <popcntintrin.h> - -#include <rdseedintrin.h> - -#include <prfchwintrin.h> - -#include <fxsrintrin.h> - -#include <xsaveintrin.h> - -#include <xsaveoptintrin.h> - -#include <adxintrin.h> - -#endif /* _X86INTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/xmmintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/xmmintrin.h deleted file mode 100644 index a3824e7..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/xmmintrin.h +++ /dev/null @@ -1,1265 +0,0 @@ -/* Copyright (C) 2002-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* Implemented from the specification included in the Intel C++ Compiler - User Guide and Reference, version 9.0. */ - -#ifndef _XMMINTRIN_H_INCLUDED -#define _XMMINTRIN_H_INCLUDED - -/* We need type definitions from the MMX header file. */ -#include <mmintrin.h> - -/* Get _mm_malloc () and _mm_free (). */ -#include <mm_malloc.h> - -/* Constants for use with _mm_prefetch. */ -enum _mm_hint -{ - /* _MM_HINT_ET is _MM_HINT_T with set 3rd bit. */ - _MM_HINT_ET0 = 7, - _MM_HINT_ET1 = 6, - _MM_HINT_T0 = 3, - _MM_HINT_T1 = 2, - _MM_HINT_T2 = 1, - _MM_HINT_NTA = 0 -}; - -/* Loads one cache line from address P to a location "closer" to the - processor. The selector I specifies the type of prefetch operation. */ -#ifdef __OPTIMIZE__ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_prefetch (const void *__P, enum _mm_hint __I) -{ - __builtin_prefetch (__P, (__I & 0x4) >> 2, __I & 0x3); -} -#else -#define _mm_prefetch(P, I) \ - __builtin_prefetch ((P), ((I & 0x4) >> 2), (I & 0x3)) -#endif - -#ifndef __SSE__ -#pragma GCC push_options -#pragma GCC target("sse") -#define __DISABLE_SSE__ -#endif /* __SSE__ */ - -/* The Intel API is flexible enough that we must allow aliasing with other - vector types, and their scalar components. */ -typedef float __m128 __attribute__ ((__vector_size__ (16), __may_alias__)); - -/* Internal data types for implementing the intrinsics. */ -typedef float __v4sf __attribute__ ((__vector_size__ (16))); - -/* Create a selector for use with the SHUFPS instruction. */ -#define _MM_SHUFFLE(fp3,fp2,fp1,fp0) \ - (((fp3) << 6) | ((fp2) << 4) | ((fp1) << 2) | (fp0)) - -/* Bits in the MXCSR. */ -#define _MM_EXCEPT_MASK 0x003f -#define _MM_EXCEPT_INVALID 0x0001 -#define _MM_EXCEPT_DENORM 0x0002 -#define _MM_EXCEPT_DIV_ZERO 0x0004 -#define _MM_EXCEPT_OVERFLOW 0x0008 -#define _MM_EXCEPT_UNDERFLOW 0x0010 -#define _MM_EXCEPT_INEXACT 0x0020 - -#define _MM_MASK_MASK 0x1f80 -#define _MM_MASK_INVALID 0x0080 -#define _MM_MASK_DENORM 0x0100 -#define _MM_MASK_DIV_ZERO 0x0200 -#define _MM_MASK_OVERFLOW 0x0400 -#define _MM_MASK_UNDERFLOW 0x0800 -#define _MM_MASK_INEXACT 0x1000 - -#define _MM_ROUND_MASK 0x6000 -#define _MM_ROUND_NEAREST 0x0000 -#define _MM_ROUND_DOWN 0x2000 -#define _MM_ROUND_UP 0x4000 -#define _MM_ROUND_TOWARD_ZERO 0x6000 - -#define _MM_FLUSH_ZERO_MASK 0x8000 -#define _MM_FLUSH_ZERO_ON 0x8000 -#define _MM_FLUSH_ZERO_OFF 0x0000 - -/* Create an undefined vector. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_undefined_ps (void) -{ - __m128 __Y = __Y; - return __Y; -} - -/* Create a vector of zeros. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setzero_ps (void) -{ - return __extension__ (__m128){ 0.0f, 0.0f, 0.0f, 0.0f }; -} - -/* Perform the respective operation on the lower SPFP (single-precision - floating-point) values of A and B; the upper three SPFP values are - passed through from A. */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_addss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_subss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_mulss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_divss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_ss (__m128 __A) -{ - return (__m128) __builtin_ia32_sqrtss ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp_ss (__m128 __A) -{ - return (__m128) __builtin_ia32_rcpss ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt_ss (__m128 __A) -{ - return (__m128) __builtin_ia32_rsqrtss ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_minss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_maxss ((__v4sf)__A, (__v4sf)__B); -} - -/* Perform the respective operation on the four SPFP values in A and B. */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_add_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_addps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sub_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_subps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mul_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_mulps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_div_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_divps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sqrt_ps (__m128 __A) -{ - return (__m128) __builtin_ia32_sqrtps ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rcp_ps (__m128 __A) -{ - return (__m128) __builtin_ia32_rcpps ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rsqrt_ps (__m128 __A) -{ - return (__m128) __builtin_ia32_rsqrtps ((__v4sf)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_minps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_maxps ((__v4sf)__A, (__v4sf)__B); -} - -/* Perform logical bit-wise operations on 128-bit values. */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_and_ps (__m128 __A, __m128 __B) -{ - return __builtin_ia32_andps (__A, __B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_andnot_ps (__m128 __A, __m128 __B) -{ - return __builtin_ia32_andnps (__A, __B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_or_ps (__m128 __A, __m128 __B) -{ - return __builtin_ia32_orps (__A, __B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_xor_ps (__m128 __A, __m128 __B) -{ - return __builtin_ia32_xorps (__A, __B); -} - -/* Perform a comparison on the lower SPFP values of A and B. If the - comparison is true, place a mask of all ones in the result, otherwise a - mask of zeros. The upper three SPFP values are passed through from A. */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpeqss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpltss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmple_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpless ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf) __A, - (__v4sf) - __builtin_ia32_cmpltss ((__v4sf) __B, - (__v4sf) - __A)); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpge_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf) __A, - (__v4sf) - __builtin_ia32_cmpless ((__v4sf) __B, - (__v4sf) - __A)); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpneq_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpneqss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnlt_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpnltss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnle_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpnless ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpngt_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf) __A, - (__v4sf) - __builtin_ia32_cmpnltss ((__v4sf) __B, - (__v4sf) - __A)); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnge_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf) __A, - (__v4sf) - __builtin_ia32_cmpnless ((__v4sf) __B, - (__v4sf) - __A)); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpord_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpordss ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpunord_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpunordss ((__v4sf)__A, (__v4sf)__B); -} - -/* Perform a comparison on the four SPFP values of A and B. For each - element, if the comparison is true, place a mask of all ones in the - result, otherwise a mask of zeros. */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpeq_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpeqps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmplt_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpltps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmple_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpleps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpgt_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpgtps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpge_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpgeps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpneq_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpneqps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnlt_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpnltps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnle_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpnleps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpngt_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpngtps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpnge_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpngeps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpord_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpordps ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmpunord_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_cmpunordps ((__v4sf)__A, (__v4sf)__B); -} - -/* Compare the lower SPFP values of A and B and return 1 if true - and 0 if false. */ - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comieq_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comieq ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comilt_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comilt ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comile_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comile ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comigt_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comigt ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comige_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comige ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comineq_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_comineq ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomieq_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomieq ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomilt_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomilt ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomile_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomile ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomigt_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomigt ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomige_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomige ((__v4sf)__A, (__v4sf)__B); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_ucomineq_ss (__m128 __A, __m128 __B) -{ - return __builtin_ia32_ucomineq ((__v4sf)__A, (__v4sf)__B); -} - -/* Convert the lower SPFP value to a 32-bit integer according to the current - rounding mode. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_si32 (__m128 __A) -{ - return __builtin_ia32_cvtss2si ((__v4sf) __A); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_ss2si (__m128 __A) -{ - return _mm_cvtss_si32 (__A); -} - -#ifdef __x86_64__ -/* Convert the lower SPFP value to a 32-bit integer according to the - current rounding mode. */ - -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_si64 (__m128 __A) -{ - return __builtin_ia32_cvtss2si64 ((__v4sf) __A); -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_si64x (__m128 __A) -{ - return __builtin_ia32_cvtss2si64 ((__v4sf) __A); -} -#endif - -/* Convert the two lower SPFP values to 32-bit integers according to the - current rounding mode. Return the integers in packed form. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_pi32 (__m128 __A) -{ - return (__m64) __builtin_ia32_cvtps2pi ((__v4sf) __A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_ps2pi (__m128 __A) -{ - return _mm_cvtps_pi32 (__A); -} - -/* Truncate the lower SPFP value to a 32-bit integer. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_si32 (__m128 __A) -{ - return __builtin_ia32_cvttss2si ((__v4sf) __A); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_ss2si (__m128 __A) -{ - return _mm_cvttss_si32 (__A); -} - -#ifdef __x86_64__ -/* Truncate the lower SPFP value to a 32-bit integer. */ - -/* Intel intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_si64 (__m128 __A) -{ - return __builtin_ia32_cvttss2si64 ((__v4sf) __A); -} - -/* Microsoft intrinsic. */ -extern __inline long long __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttss_si64x (__m128 __A) -{ - return __builtin_ia32_cvttss2si64 ((__v4sf) __A); -} -#endif - -/* Truncate the two lower SPFP values to 32-bit integers. Return the - integers in packed form. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvttps_pi32 (__m128 __A) -{ - return (__m64) __builtin_ia32_cvttps2pi ((__v4sf) __A); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtt_ps2pi (__m128 __A) -{ - return _mm_cvttps_pi32 (__A); -} - -/* Convert B to a SPFP value and insert it as element zero in A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi32_ss (__m128 __A, int __B) -{ - return (__m128) __builtin_ia32_cvtsi2ss ((__v4sf) __A, __B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_si2ss (__m128 __A, int __B) -{ - return _mm_cvtsi32_ss (__A, __B); -} - -#ifdef __x86_64__ -/* Convert B to a SPFP value and insert it as element zero in A. */ - -/* Intel intrinsic. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64_ss (__m128 __A, long long __B) -{ - return (__m128) __builtin_ia32_cvtsi642ss ((__v4sf) __A, __B); -} - -/* Microsoft intrinsic. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtsi64x_ss (__m128 __A, long long __B) -{ - return (__m128) __builtin_ia32_cvtsi642ss ((__v4sf) __A, __B); -} -#endif - -/* Convert the two 32-bit values in B to SPFP form and insert them - as the two lower elements in A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpi32_ps (__m128 __A, __m64 __B) -{ - return (__m128) __builtin_ia32_cvtpi2ps ((__v4sf) __A, (__v2si)__B); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvt_pi2ps (__m128 __A, __m64 __B) -{ - return _mm_cvtpi32_ps (__A, __B); -} - -/* Convert the four signed 16-bit values in A to SPFP form. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpi16_ps (__m64 __A) -{ - __v4hi __sign; - __v2si __hisi, __losi; - __v4sf __zero, __ra, __rb; - - /* This comparison against zero gives us a mask that can be used to - fill in the missing sign bits in the unpack operations below, so - that we get signed values after unpacking. */ - __sign = __builtin_ia32_pcmpgtw ((__v4hi)0LL, (__v4hi)__A); - - /* Convert the four words to doublewords. */ - __losi = (__v2si) __builtin_ia32_punpcklwd ((__v4hi)__A, __sign); - __hisi = (__v2si) __builtin_ia32_punpckhwd ((__v4hi)__A, __sign); - - /* Convert the doublewords to floating point two at a time. */ - __zero = (__v4sf) _mm_setzero_ps (); - __ra = __builtin_ia32_cvtpi2ps (__zero, __losi); - __rb = __builtin_ia32_cvtpi2ps (__ra, __hisi); - - return (__m128) __builtin_ia32_movlhps (__ra, __rb); -} - -/* Convert the four unsigned 16-bit values in A to SPFP form. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpu16_ps (__m64 __A) -{ - __v2si __hisi, __losi; - __v4sf __zero, __ra, __rb; - - /* Convert the four words to doublewords. */ - __losi = (__v2si) __builtin_ia32_punpcklwd ((__v4hi)__A, (__v4hi)0LL); - __hisi = (__v2si) __builtin_ia32_punpckhwd ((__v4hi)__A, (__v4hi)0LL); - - /* Convert the doublewords to floating point two at a time. */ - __zero = (__v4sf) _mm_setzero_ps (); - __ra = __builtin_ia32_cvtpi2ps (__zero, __losi); - __rb = __builtin_ia32_cvtpi2ps (__ra, __hisi); - - return (__m128) __builtin_ia32_movlhps (__ra, __rb); -} - -/* Convert the low four signed 8-bit values in A to SPFP form. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpi8_ps (__m64 __A) -{ - __v8qi __sign; - - /* This comparison against zero gives us a mask that can be used to - fill in the missing sign bits in the unpack operations below, so - that we get signed values after unpacking. */ - __sign = __builtin_ia32_pcmpgtb ((__v8qi)0LL, (__v8qi)__A); - - /* Convert the four low bytes to words. */ - __A = (__m64) __builtin_ia32_punpcklbw ((__v8qi)__A, __sign); - - return _mm_cvtpi16_ps(__A); -} - -/* Convert the low four unsigned 8-bit values in A to SPFP form. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpu8_ps(__m64 __A) -{ - __A = (__m64) __builtin_ia32_punpcklbw ((__v8qi)__A, (__v8qi)0LL); - return _mm_cvtpu16_ps(__A); -} - -/* Convert the four signed 32-bit values in A and B to SPFP form. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtpi32x2_ps(__m64 __A, __m64 __B) -{ - __v4sf __zero = (__v4sf) _mm_setzero_ps (); - __v4sf __sfa = __builtin_ia32_cvtpi2ps (__zero, (__v2si)__A); - __v4sf __sfb = __builtin_ia32_cvtpi2ps (__sfa, (__v2si)__B); - return (__m128) __builtin_ia32_movlhps (__sfa, __sfb); -} - -/* Convert the four SPFP values in A to four signed 16-bit integers. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_pi16(__m128 __A) -{ - __v4sf __hisf = (__v4sf)__A; - __v4sf __losf = __builtin_ia32_movhlps (__hisf, __hisf); - __v2si __hisi = __builtin_ia32_cvtps2pi (__hisf); - __v2si __losi = __builtin_ia32_cvtps2pi (__losf); - return (__m64) __builtin_ia32_packssdw (__hisi, __losi); -} - -/* Convert the four SPFP values in A to four signed 8-bit integers. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtps_pi8(__m128 __A) -{ - __v4hi __tmp = (__v4hi) _mm_cvtps_pi16 (__A); - return (__m64) __builtin_ia32_packsswb (__tmp, (__v4hi)0LL); -} - -/* Selects four specific SPFP values from A and B based on MASK. */ -#ifdef __OPTIMIZE__ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_ps (__m128 __A, __m128 __B, int const __mask) -{ - return (__m128) __builtin_ia32_shufps ((__v4sf)__A, (__v4sf)__B, __mask); -} -#else -#define _mm_shuffle_ps(A, B, MASK) \ - ((__m128) __builtin_ia32_shufps ((__v4sf)(__m128)(A), \ - (__v4sf)(__m128)(B), (int)(MASK))) -#endif - -/* Selects and interleaves the upper two SPFP values from A and B. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpackhi_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_unpckhps ((__v4sf)__A, (__v4sf)__B); -} - -/* Selects and interleaves the lower two SPFP values from A and B. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_unpacklo_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_unpcklps ((__v4sf)__A, (__v4sf)__B); -} - -/* Sets the upper two SPFP values with 64-bits of data loaded from P; - the lower two values are passed through from A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadh_pi (__m128 __A, __m64 const *__P) -{ - return (__m128) __builtin_ia32_loadhps ((__v4sf)__A, (const __v2sf *)__P); -} - -/* Stores the upper two SPFP values of A into P. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storeh_pi (__m64 *__P, __m128 __A) -{ - __builtin_ia32_storehps ((__v2sf *)__P, (__v4sf)__A); -} - -/* Moves the upper two values of B into the lower two values of A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movehl_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movhlps ((__v4sf)__A, (__v4sf)__B); -} - -/* Moves the lower two values of B into the upper two values of A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movelh_ps (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movlhps ((__v4sf)__A, (__v4sf)__B); -} - -/* Sets the lower two SPFP values with 64-bits of data loaded from P; - the upper two values are passed through from A. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadl_pi (__m128 __A, __m64 const *__P) -{ - return (__m128) __builtin_ia32_loadlps ((__v4sf)__A, (const __v2sf *)__P); -} - -/* Stores the lower two SPFP values of A into P. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storel_pi (__m64 *__P, __m128 __A) -{ - __builtin_ia32_storelps ((__v2sf *)__P, (__v4sf)__A); -} - -/* Creates a 4-bit mask from the most significant bits of the SPFP values. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movemask_ps (__m128 __A) -{ - return __builtin_ia32_movmskps ((__v4sf)__A); -} - -/* Return the contents of the control register. */ -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_getcsr (void) -{ - return __builtin_ia32_stmxcsr (); -} - -/* Read exception bits from the control register. */ -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_GET_EXCEPTION_STATE (void) -{ - return _mm_getcsr() & _MM_EXCEPT_MASK; -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_GET_EXCEPTION_MASK (void) -{ - return _mm_getcsr() & _MM_MASK_MASK; -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_GET_ROUNDING_MODE (void) -{ - return _mm_getcsr() & _MM_ROUND_MASK; -} - -extern __inline unsigned int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_GET_FLUSH_ZERO_MODE (void) -{ - return _mm_getcsr() & _MM_FLUSH_ZERO_MASK; -} - -/* Set the control register to I. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setcsr (unsigned int __I) -{ - __builtin_ia32_ldmxcsr (__I); -} - -/* Set exception bits in the control register. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_SET_EXCEPTION_STATE(unsigned int __mask) -{ - _mm_setcsr((_mm_getcsr() & ~_MM_EXCEPT_MASK) | __mask); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_SET_EXCEPTION_MASK (unsigned int __mask) -{ - _mm_setcsr((_mm_getcsr() & ~_MM_MASK_MASK) | __mask); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_SET_ROUNDING_MODE (unsigned int __mode) -{ - _mm_setcsr((_mm_getcsr() & ~_MM_ROUND_MASK) | __mode); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_MM_SET_FLUSH_ZERO_MODE (unsigned int __mode) -{ - _mm_setcsr((_mm_getcsr() & ~_MM_FLUSH_ZERO_MASK) | __mode); -} - -/* Create a vector with element 0 as F and the rest zero. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_ss (float __F) -{ - return __extension__ (__m128)(__v4sf){ __F, 0.0f, 0.0f, 0.0f }; -} - -/* Create a vector with all four elements equal to F. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set1_ps (float __F) -{ - return __extension__ (__m128)(__v4sf){ __F, __F, __F, __F }; -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_ps1 (float __F) -{ - return _mm_set1_ps (__F); -} - -/* Create a vector with element 0 as *P and the rest zero. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_ss (float const *__P) -{ - return _mm_set_ss (*__P); -} - -/* Create a vector with all four elements equal to *P. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load1_ps (float const *__P) -{ - return _mm_set1_ps (*__P); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_ps1 (float const *__P) -{ - return _mm_load1_ps (__P); -} - -/* Load four SPFP values from P. The address must be 16-byte aligned. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_load_ps (float const *__P) -{ - return (__m128) *(__v4sf *)__P; -} - -/* Load four SPFP values from P. The address need not be 16-byte aligned. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadu_ps (float const *__P) -{ - return (__m128) __builtin_ia32_loadups (__P); -} - -/* Load four SPFP values in reverse order. The address must be aligned. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_loadr_ps (float const *__P) -{ - __v4sf __tmp = *(__v4sf *)__P; - return (__m128) __builtin_ia32_shufps (__tmp, __tmp, _MM_SHUFFLE (0,1,2,3)); -} - -/* Create the vector [Z Y X W]. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_set_ps (const float __Z, const float __Y, const float __X, const float __W) -{ - return __extension__ (__m128)(__v4sf){ __W, __X, __Y, __Z }; -} - -/* Create the vector [W X Y Z]. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_setr_ps (float __Z, float __Y, float __X, float __W) -{ - return __extension__ (__m128)(__v4sf){ __Z, __Y, __X, __W }; -} - -/* Stores the lower SPFP value. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_ss (float *__P, __m128 __A) -{ - *__P = __builtin_ia32_vec_ext_v4sf ((__v4sf)__A, 0); -} - -extern __inline float __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cvtss_f32 (__m128 __A) -{ - return __builtin_ia32_vec_ext_v4sf ((__v4sf)__A, 0); -} - -/* Store four SPFP values. The address must be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_ps (float *__P, __m128 __A) -{ - *(__v4sf *)__P = (__v4sf)__A; -} - -/* Store four SPFP values. The address need not be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storeu_ps (float *__P, __m128 __A) -{ - __builtin_ia32_storeups (__P, (__v4sf)__A); -} - -/* Store the lower SPFP value across four words. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store1_ps (float *__P, __m128 __A) -{ - __v4sf __va = (__v4sf)__A; - __v4sf __tmp = __builtin_ia32_shufps (__va, __va, _MM_SHUFFLE (0,0,0,0)); - _mm_storeu_ps (__P, __tmp); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_store_ps1 (float *__P, __m128 __A) -{ - _mm_store1_ps (__P, __A); -} - -/* Store four SPFP values in reverse order. The address must be aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_storer_ps (float *__P, __m128 __A) -{ - __v4sf __va = (__v4sf)__A; - __v4sf __tmp = __builtin_ia32_shufps (__va, __va, _MM_SHUFFLE (0,1,2,3)); - _mm_store_ps (__P, __tmp); -} - -/* Sets the low SPFP value of A from the low value of B. */ -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_move_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf)__A, (__v4sf)__B); -} - -/* Extracts one of the four words of A. The selector N must be immediate. */ -#ifdef __OPTIMIZE__ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_extract_pi16 (__m64 const __A, int const __N) -{ - return __builtin_ia32_vec_ext_v4hi ((__v4hi)__A, __N); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pextrw (__m64 const __A, int const __N) -{ - return _mm_extract_pi16 (__A, __N); -} -#else -#define _mm_extract_pi16(A, N) \ - ((int) __builtin_ia32_vec_ext_v4hi ((__v4hi)(__m64)(A), (int)(N))) - -#define _m_pextrw(A, N) _mm_extract_pi16(A, N) -#endif - -/* Inserts word D into one of four words of A. The selector N must be - immediate. */ -#ifdef __OPTIMIZE__ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_insert_pi16 (__m64 const __A, int const __D, int const __N) -{ - return (__m64) __builtin_ia32_vec_set_v4hi ((__v4hi)__A, __D, __N); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pinsrw (__m64 const __A, int const __D, int const __N) -{ - return _mm_insert_pi16 (__A, __D, __N); -} -#else -#define _mm_insert_pi16(A, D, N) \ - ((__m64) __builtin_ia32_vec_set_v4hi ((__v4hi)(__m64)(A), \ - (int)(D), (int)(N))) - -#define _m_pinsrw(A, D, N) _mm_insert_pi16(A, D, N) -#endif - -/* Compute the element-wise maximum of signed 16-bit values. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_pi16 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pmaxsw ((__v4hi)__A, (__v4hi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmaxsw (__m64 __A, __m64 __B) -{ - return _mm_max_pi16 (__A, __B); -} - -/* Compute the element-wise maximum of unsigned 8-bit values. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_max_pu8 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pmaxub ((__v8qi)__A, (__v8qi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmaxub (__m64 __A, __m64 __B) -{ - return _mm_max_pu8 (__A, __B); -} - -/* Compute the element-wise minimum of signed 16-bit values. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_pi16 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pminsw ((__v4hi)__A, (__v4hi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pminsw (__m64 __A, __m64 __B) -{ - return _mm_min_pi16 (__A, __B); -} - -/* Compute the element-wise minimum of unsigned 8-bit values. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_min_pu8 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pminub ((__v8qi)__A, (__v8qi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pminub (__m64 __A, __m64 __B) -{ - return _mm_min_pu8 (__A, __B); -} - -/* Create an 8-bit mask of the signs of 8-bit values. */ -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_movemask_pi8 (__m64 __A) -{ - return __builtin_ia32_pmovmskb ((__v8qi)__A); -} - -extern __inline int __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmovmskb (__m64 __A) -{ - return _mm_movemask_pi8 (__A); -} - -/* Multiply four unsigned 16-bit values in A by four unsigned 16-bit values - in B and produce the high 16 bits of the 32-bit results. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_mulhi_pu16 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pmulhuw ((__v4hi)__A, (__v4hi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pmulhuw (__m64 __A, __m64 __B) -{ - return _mm_mulhi_pu16 (__A, __B); -} - -/* Return a combination of the four 16-bit values in A. The selector - must be an immediate. */ -#ifdef __OPTIMIZE__ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shuffle_pi16 (__m64 __A, int const __N) -{ - return (__m64) __builtin_ia32_pshufw ((__v4hi)__A, __N); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pshufw (__m64 __A, int const __N) -{ - return _mm_shuffle_pi16 (__A, __N); -} -#else -#define _mm_shuffle_pi16(A, N) \ - ((__m64) __builtin_ia32_pshufw ((__v4hi)(__m64)(A), (int)(N))) - -#define _m_pshufw(A, N) _mm_shuffle_pi16 (A, N) -#endif - -/* Conditionally store byte elements of A into P. The high bit of each - byte in the selector N determines whether the corresponding byte from - A is stored. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maskmove_si64 (__m64 __A, __m64 __N, char *__P) -{ - __builtin_ia32_maskmovq ((__v8qi)__A, (__v8qi)__N, __P); -} - -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_maskmovq (__m64 __A, __m64 __N, char *__P) -{ - _mm_maskmove_si64 (__A, __N, __P); -} - -/* Compute the rounded averages of the unsigned 8-bit values in A and B. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_avg_pu8 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pavgb ((__v8qi)__A, (__v8qi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pavgb (__m64 __A, __m64 __B) -{ - return _mm_avg_pu8 (__A, __B); -} - -/* Compute the rounded averages of the unsigned 16-bit values in A and B. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_avg_pu16 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_pavgw ((__v4hi)__A, (__v4hi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_pavgw (__m64 __A, __m64 __B) -{ - return _mm_avg_pu16 (__A, __B); -} - -/* Compute the sum of the absolute differences of the unsigned 8-bit - values in A and B. Return the value in the lower 16-bit word; the - upper words are cleared. */ -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sad_pu8 (__m64 __A, __m64 __B) -{ - return (__m64) __builtin_ia32_psadbw ((__v8qi)__A, (__v8qi)__B); -} - -extern __inline __m64 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_m_psadbw (__m64 __A, __m64 __B) -{ - return _mm_sad_pu8 (__A, __B); -} - -/* Stores the data in A to the address P without polluting the caches. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_pi (__m64 *__P, __m64 __A) -{ - __builtin_ia32_movntq ((unsigned long long *)__P, (unsigned long long)__A); -} - -/* Likewise. The address must be 16-byte aligned. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_stream_ps (float *__P, __m128 __A) -{ - __builtin_ia32_movntps (__P, (__v4sf)__A); -} - -/* Guarantees that every preceding store is globally visible before - any subsequent store. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sfence (void) -{ - __builtin_ia32_sfence (); -} - -/* The execution of the next instruction is delayed by an implementation - specific amount of time. The instruction does not modify the - architectural state. */ -extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_pause (void) -{ - __builtin_ia32_pause (); -} - -/* Transpose the 4x4 matrix composed of row[0-3]. */ -#define _MM_TRANSPOSE4_PS(row0, row1, row2, row3) \ -do { \ - __v4sf __r0 = (row0), __r1 = (row1), __r2 = (row2), __r3 = (row3); \ - __v4sf __t0 = __builtin_ia32_unpcklps (__r0, __r1); \ - __v4sf __t1 = __builtin_ia32_unpcklps (__r2, __r3); \ - __v4sf __t2 = __builtin_ia32_unpckhps (__r0, __r1); \ - __v4sf __t3 = __builtin_ia32_unpckhps (__r2, __r3); \ - (row0) = __builtin_ia32_movlhps (__t0, __t1); \ - (row1) = __builtin_ia32_movhlps (__t1, __t0); \ - (row2) = __builtin_ia32_movlhps (__t2, __t3); \ - (row3) = __builtin_ia32_movhlps (__t3, __t2); \ -} while (0) - -/* For backward source compatibility. */ -# include <emmintrin.h> - -#ifdef __DISABLE_SSE__ -#undef __DISABLE_SSE__ -#pragma GCC pop_options -#endif /* __DISABLE_SSE__ */ - -#endif /* _XMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/xopintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/xopintrin.h deleted file mode 100644 index cc82bc5..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/xopintrin.h +++ /dev/null @@ -1,844 +0,0 @@ -/* Copyright (C) 2007-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _X86INTRIN_H_INCLUDED -# error "Never use <xopintrin.h> directly; include <x86intrin.h> instead." -#endif - -#ifndef _XOPMMINTRIN_H_INCLUDED -#define _XOPMMINTRIN_H_INCLUDED - -#include <fma4intrin.h> - -#ifndef __XOP__ -#pragma GCC push_options -#pragma GCC target("xop") -#define __DISABLE_XOP__ -#endif /* __XOP__ */ - -/* Integer multiply/add intructions. */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccs_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacssww ((__v8hi)__A,(__v8hi)__B, (__v8hi)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacsww ((__v8hi)__A, (__v8hi)__B, (__v8hi)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccsd_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacsswd ((__v8hi)__A, (__v8hi)__B, (__v4si)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccd_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacswd ((__v8hi)__A, (__v8hi)__B, (__v4si)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccs_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacssdd ((__v4si)__A, (__v4si)__B, (__v4si)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macc_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacsdd ((__v4si)__A, (__v4si)__B, (__v4si)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccslo_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacssdql ((__v4si)__A, (__v4si)__B, (__v2di)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macclo_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacsdql ((__v4si)__A, (__v4si)__B, (__v2di)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maccshi_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacssdqh ((__v4si)__A, (__v4si)__B, (__v2di)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_macchi_epi32(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmacsdqh ((__v4si)__A, (__v4si)__B, (__v2di)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddsd_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmadcsswd ((__v8hi)__A,(__v8hi)__B,(__v4si)__C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_maddd_epi16(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpmadcswd ((__v8hi)__A,(__v8hi)__B,(__v4si)__C); -} - -/* Packed Integer Horizontal Add and Subtract */ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddw_epi8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddbw ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddd_epi8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddbd ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epi8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddbq ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddd_epi16(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddwd ((__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epi16(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddwq ((__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epi32(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphadddq ((__v4si)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddw_epu8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddubw ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddd_epu8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddubd ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epu8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddubq ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddd_epu16(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphadduwd ((__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epu16(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphadduwq ((__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_haddq_epu32(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphaddudq ((__v4si)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsubw_epi8(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphsubbw ((__v16qi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsubd_epi16(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphsubwd ((__v8hi)__A); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_hsubq_epi32(__m128i __A) -{ - return (__m128i) __builtin_ia32_vphsubdq ((__v4si)__A); -} - -/* Vector conditional move and permute */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_cmov_si128(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpcmov (__A, __B, __C); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_perm_epi8(__m128i __A, __m128i __B, __m128i __C) -{ - return (__m128i) __builtin_ia32_vpperm ((__v16qi)__A, (__v16qi)__B, (__v16qi)__C); -} - -/* Packed Integer Rotates and Shifts - Rotates - Non-Immediate form */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rot_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vprotb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rot_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vprotw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rot_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vprotd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_rot_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vprotq ((__v2di)__A, (__v2di)__B); -} - -/* Rotates - Immediate form */ - -#ifdef __OPTIMIZE__ -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roti_epi8(__m128i __A, const int __B) -{ - return (__m128i) __builtin_ia32_vprotbi ((__v16qi)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roti_epi16(__m128i __A, const int __B) -{ - return (__m128i) __builtin_ia32_vprotwi ((__v8hi)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roti_epi32(__m128i __A, const int __B) -{ - return (__m128i) __builtin_ia32_vprotdi ((__v4si)__A, __B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_roti_epi64(__m128i __A, const int __B) -{ - return (__m128i) __builtin_ia32_vprotqi ((__v2di)__A, __B); -} -#else -#define _mm_roti_epi8(A, N) \ - ((__m128i) __builtin_ia32_vprotbi ((__v16qi)(__m128i)(A), (int)(N))) -#define _mm_roti_epi16(A, N) \ - ((__m128i) __builtin_ia32_vprotwi ((__v8hi)(__m128i)(A), (int)(N))) -#define _mm_roti_epi32(A, N) \ - ((__m128i) __builtin_ia32_vprotdi ((__v4si)(__m128i)(A), (int)(N))) -#define _mm_roti_epi64(A, N) \ - ((__m128i) __builtin_ia32_vprotqi ((__v2di)(__m128i)(A), (int)(N))) -#endif - -/* Shifts */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shl_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshlb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shl_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshlw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shl_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshld ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_shl_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshlq ((__v2di)__A, (__v2di)__B); -} - - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshab ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshaw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshad ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_sha_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpshaq ((__v2di)__A, (__v2di)__B); -} - -/* Compare and Predicate Generation - pcom (integer, unsinged bytes) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltub ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleub ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtub ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeub ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomequb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomnequb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseub ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epu8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueub ((__v16qi)__A, (__v16qi)__B); -} - -/*pcom (integer, unsinged words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltuw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleuw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtuw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeuw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomequw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomnequw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseuw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epu16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueuw ((__v8hi)__A, (__v8hi)__B); -} - -/*pcom (integer, unsinged double words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltud ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleud ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtud ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeud ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomequd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomnequd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseud ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epu32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueud ((__v4si)__A, (__v4si)__B); -} - -/*pcom (integer, unsinged quad words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltuq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleuq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtuq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeuq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomequq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomnequq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseuq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epu64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueuq ((__v2di)__A, (__v2di)__B); -} - -/*pcom (integer, signed bytes) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomeqb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomneqb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseb ((__v16qi)__A, (__v16qi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epi8(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueb ((__v16qi)__A, (__v16qi)__B); -} - -/*pcom (integer, signed words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomlew ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgew ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomeqw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomneqw ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalsew ((__v8hi)__A, (__v8hi)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epi16(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtruew ((__v8hi)__A, (__v8hi)__B); -} - -/*pcom (integer, signed double words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomled ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomged ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomeqd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomneqd ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalsed ((__v4si)__A, (__v4si)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epi32(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrued ((__v4si)__A, (__v4si)__B); -} - -/*pcom (integer, signed quad words) */ - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comlt_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomltq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comle_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomleq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comgt_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgtq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comge_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomgeq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comeq_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomeqq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comneq_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomneqq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comfalse_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomfalseq ((__v2di)__A, (__v2di)__B); -} - -extern __inline __m128i __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_comtrue_epi64(__m128i __A, __m128i __B) -{ - return (__m128i) __builtin_ia32_vpcomtrueq ((__v2di)__A, (__v2di)__B); -} - -/* FRCZ */ - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_frcz_ps (__m128 __A) -{ - return (__m128) __builtin_ia32_vfrczps ((__v4sf)__A); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_frcz_pd (__m128d __A) -{ - return (__m128d) __builtin_ia32_vfrczpd ((__v2df)__A); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_frcz_ss (__m128 __A, __m128 __B) -{ - return (__m128) __builtin_ia32_movss ((__v4sf)__A, - (__v4sf) - __builtin_ia32_vfrczss ((__v4sf)__B)); -} - -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_frcz_sd (__m128d __A, __m128d __B) -{ - return (__m128d) __builtin_ia32_movsd ((__v2df)__A, - (__v2df) - __builtin_ia32_vfrczsd ((__v2df)__B)); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_frcz_ps (__m256 __A) -{ - return (__m256) __builtin_ia32_vfrczps256 ((__v8sf)__A); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_frcz_pd (__m256d __A) -{ - return (__m256d) __builtin_ia32_vfrczpd256 ((__v4df)__A); -} - -/* PERMIL2 */ - -#ifdef __OPTIMIZE__ -extern __inline __m128d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permute2_pd (__m128d __X, __m128d __Y, __m128i __C, const int __I) -{ - return (__m128d) __builtin_ia32_vpermil2pd ((__v2df)__X, - (__v2df)__Y, - (__v2di)__C, - __I); -} - -extern __inline __m256d __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2_pd (__m256d __X, __m256d __Y, __m256i __C, const int __I) -{ - return (__m256d) __builtin_ia32_vpermil2pd256 ((__v4df)__X, - (__v4df)__Y, - (__v4di)__C, - __I); -} - -extern __inline __m128 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm_permute2_ps (__m128 __X, __m128 __Y, __m128i __C, const int __I) -{ - return (__m128) __builtin_ia32_vpermil2ps ((__v4sf)__X, - (__v4sf)__Y, - (__v4si)__C, - __I); -} - -extern __inline __m256 __attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_mm256_permute2_ps (__m256 __X, __m256 __Y, __m256i __C, const int __I) -{ - return (__m256) __builtin_ia32_vpermil2ps256 ((__v8sf)__X, - (__v8sf)__Y, - (__v8si)__C, - __I); -} -#else -#define _mm_permute2_pd(X, Y, C, I) \ - ((__m128d) __builtin_ia32_vpermil2pd ((__v2df)(__m128d)(X), \ - (__v2df)(__m128d)(Y), \ - (__v2di)(__m128d)(C), \ - (int)(I))) - -#define _mm256_permute2_pd(X, Y, C, I) \ - ((__m256d) __builtin_ia32_vpermil2pd256 ((__v4df)(__m256d)(X), \ - (__v4df)(__m256d)(Y), \ - (__v4di)(__m256d)(C), \ - (int)(I))) - -#define _mm_permute2_ps(X, Y, C, I) \ - ((__m128) __builtin_ia32_vpermil2ps ((__v4sf)(__m128)(X), \ - (__v4sf)(__m128)(Y), \ - (__v4si)(__m128)(C), \ - (int)(I))) - -#define _mm256_permute2_ps(X, Y, C, I) \ - ((__m256) __builtin_ia32_vpermil2ps256 ((__v8sf)(__m256)(X), \ - (__v8sf)(__m256)(Y), \ - (__v8si)(__m256)(C), \ - (int)(I))) -#endif /* __OPTIMIZE__ */ - -#ifdef __DISABLE_XOP__ -#undef __DISABLE_XOP__ -#pragma GCC pop_options -#endif /* __DISABLE_XOP__ */ - -#endif /* _XOPMMINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveintrin.h deleted file mode 100644 index 47be25f..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveintrin.h +++ /dev/null @@ -1,72 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* #if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED */ -/* # error "Never use <xsaveintrin.h> directly; include <x86intrin.h> instead." */ -/* #endif */ - -#ifndef _XSAVEINTRIN_H_INCLUDED -#define _XSAVEINTRIN_H_INCLUDED - -#ifndef __XSAVE__ -#pragma GCC push_options -#pragma GCC target("xsave") -#define __DISABLE_XSAVE__ -#endif /* __XSAVE__ */ - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xsave (void *__P, long long __M) -{ - return __builtin_ia32_xsave (__P, __M); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xrstor (void *__P, long long __M) -{ - return __builtin_ia32_xrstor (__P, __M); -} - -#ifdef __x86_64__ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xsave64 (void *__P, long long __M) -{ - return __builtin_ia32_xsave64 (__P, __M); -} - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xrstor64 (void *__P, long long __M) -{ - return __builtin_ia32_xrstor64 (__P, __M); -} -#endif - -#ifdef __DISABLE_XSAVE__ -#undef __DISABLE_XSAVE__ -#pragma GCC pop_options -#endif /* __DISABLE_XSAVE__ */ - -#endif /* _XSAVEINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveoptintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveoptintrin.h deleted file mode 100644 index d7534b4..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/xsaveoptintrin.h +++ /dev/null @@ -1,58 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -/* #if !defined _X86INTRIN_H_INCLUDED && !defined _IMMINTRIN_H_INCLUDED */ -/* # error "Never use <xsaveoptintrin.h> directly; include <x86intrin.h> instead." */ -/* #endif */ - -#ifndef _XSAVEOPTINTRIN_H_INCLUDED -#define _XSAVEOPTINTRIN_H_INCLUDED - -#ifndef __XSAVEOPT__ -#pragma GCC push_options -#pragma GCC target("xsaveopt") -#define __DISABLE_XSAVEOPT__ -#endif /* __XSAVEOPT__ */ - -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xsaveopt (void *__P, long long __M) -{ - return __builtin_ia32_xsaveopt (__P, __M); -} - -#ifdef __x86_64__ -extern __inline void -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xsaveopt64 (void *__P, long long __M) -{ - return __builtin_ia32_xsaveopt64 (__P, __M); -} -#endif - -#ifdef __DISABLE_XSAVEOPT__ -#undef __DISABLE_XSAVEOPT__ -#pragma GCC pop_options -#endif /* __DISABLE_XSAVEOPT__ */ - -#endif /* _XSAVEOPTINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/include/xtestintrin.h b/lib/gcc/x86_64-linux-android/4.9.x/include/xtestintrin.h deleted file mode 100644 index ba79e5c..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/include/xtestintrin.h +++ /dev/null @@ -1,51 +0,0 @@ -/* Copyright (C) 2012-2014 Free Software Foundation, Inc. - - This file is part of GCC. - - GCC is free software; you can redistribute it and/or modify - it under the terms of the GNU General Public License as published by - the Free Software Foundation; either version 3, or (at your option) - any later version. - - GCC is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - Under Section 7 of GPL version 3, you are granted additional - permissions described in the GCC Runtime Library Exception, version - 3.1, as published by the Free Software Foundation. - - You should have received a copy of the GNU General Public License and - a copy of the GCC Runtime Library Exception along with this program; - see the files COPYING3 and COPYING.RUNTIME respectively. If not, see - <http://www.gnu.org/licenses/>. */ - -#ifndef _IMMINTRIN_H_INCLUDED -# error "Never use <xtestintrin.h> directly; include <immintrin.h> instead." -#endif - -#ifndef _XTESTINTRIN_H_INCLUDED -#define _XTESTINTRIN_H_INCLUDED - -#ifndef __RTM__ -#pragma GCC push_options -#pragma GCC target("rtm") -#define __DISABLE_RTM__ -#endif /* __RTM__ */ - -/* Return non-zero if the instruction executes inside an RTM or HLE code - region. Return zero otherwise. */ -extern __inline int -__attribute__((__gnu_inline__, __always_inline__, __artificial__)) -_xtest (void) -{ - return __builtin_ia32_xtest (); -} - -#ifdef __DISABLE_RTM__ -#undef __DISABLE_RTM__ -#pragma GCC pop_options -#endif /* __DISABLE_RTM__ */ - -#endif /* _XTESTINTRIN_H_INCLUDED */ diff --git a/lib/gcc/x86_64-linux-android/4.9.x/libgcc.a b/lib/gcc/x86_64-linux-android/4.9.x/libgcc.a Binary files differdeleted file mode 100644 index 93d6abb..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/libgcc.a +++ /dev/null diff --git a/lib/gcc/x86_64-linux-android/4.9.x/libgcov.a b/lib/gcc/x86_64-linux-android/4.9.x/libgcov.a Binary files differdeleted file mode 100644 index 5a55e41..0000000 --- a/lib/gcc/x86_64-linux-android/4.9.x/libgcov.a +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/cc1 b/libexec/gcc/x86_64-linux-android/4.9.x/cc1 Binary files differdeleted file mode 100755 index cd59c93..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/cc1 +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/cc1plus b/libexec/gcc/x86_64-linux-android/4.9.x/cc1plus Binary files differdeleted file mode 100755 index 6ba4a7a..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/cc1plus +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/collect2 b/libexec/gcc/x86_64-linux-android/4.9.x/collect2 Binary files differdeleted file mode 100755 index 30b15bb..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/collect2 +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.0.so b/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.0.so Binary files differdeleted file mode 100755 index a51608c..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.0.so +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.so b/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.so deleted file mode 120000 index 14c0289..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/libfunction_reordering_plugin.so +++ /dev/null @@ -1 +0,0 @@ -libfunction_reordering_plugin.0.so
\ No newline at end of file diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.0.so b/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.0.so Binary files differdeleted file mode 100755 index 03b9604..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.0.so +++ /dev/null diff --git a/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.so b/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.so deleted file mode 120000 index 3c0440e..0000000 --- a/libexec/gcc/x86_64-linux-android/4.9.x/liblto_plugin.so +++ /dev/null @@ -1 +0,0 @@ -liblto_plugin.0.so
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