/* Bison Grammar Scanner -*- C -*- Copyright (C) 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. This file is part of Bison, the GNU Compiler Compiler. 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 */ %option debug nodefault nounput noyywrap never-interactive %option prefix="gram_" outfile="lex.yy.c" %{ /* Work around a bug in flex 2.5.31. See Debian bug 333231 . */ #undef gram_wrap #define gram_wrap() 1 #include "system.h" #include #include #include "complain.h" #include "files.h" #include "getargs.h" #include "gram.h" #include "quotearg.h" #include "reader.h" #include "uniqstr.h" #define YY_USER_INIT \ do \ { \ scanner_cursor.file = current_file; \ scanner_cursor.line = 1; \ scanner_cursor.column = 1; \ code_start = scanner_cursor; \ } \ while (0) /* Pacify "gcc -Wmissing-prototypes" when flex 2.5.31 is used. */ int gram_get_lineno (void); FILE *gram_get_in (void); FILE *gram_get_out (void); int gram_get_leng (void); char *gram_get_text (void); void gram_set_lineno (int); void gram_set_in (FILE *); void gram_set_out (FILE *); int gram_get_debug (void); void gram_set_debug (int); int gram_lex_destroy (void); /* Location of scanner cursor. */ boundary scanner_cursor; static void adjust_location (location *, char const *, size_t); #define YY_USER_ACTION adjust_location (loc, yytext, yyleng); static size_t no_cr_read (FILE *, char *, size_t); #define YY_INPUT(buf, result, size) ((result) = no_cr_read (yyin, buf, size)) /* OBSTACK_FOR_STRING -- Used to store all the characters that we need to keep (to construct ID, STRINGS etc.). Use the following macros to use it. Use STRING_GROW to append what has just been matched, and STRING_FINISH to end the string (it puts the ending 0). STRING_FINISH also stores this string in LAST_STRING, which can be used, and which is used by STRING_FREE to free the last string. */ static struct obstack obstack_for_string; /* A string representing the most recently saved token. */ char *last_string; /* The location of the most recently saved token, if it was a BRACED_CODE token; otherwise, this has an unspecified value. */ location last_braced_code_loc; #define STRING_GROW \ obstack_grow (&obstack_for_string, yytext, yyleng) #define STRING_FINISH \ do { \ obstack_1grow (&obstack_for_string, '\0'); \ last_string = obstack_finish (&obstack_for_string); \ } while (0) #define STRING_FREE \ obstack_free (&obstack_for_string, last_string) void scanner_last_string_free (void) { STRING_FREE; } /* Within well-formed rules, RULE_LENGTH is the number of values in the current rule so far, which says where to find `$0' with respect to the top of the stack. It is not the same as the rule->length in the case of mid rule actions. Outside of well-formed rules, RULE_LENGTH has an undefined value. */ static int rule_length; static void rule_length_overflow (location) __attribute__ ((__noreturn__)); /* Increment the rule length by one, checking for overflow. */ static inline void increment_rule_length (location loc) { rule_length++; /* Don't allow rule_length == INT_MAX, since that might cause confusion with strtol if INT_MAX == LONG_MAX. */ if (rule_length == INT_MAX) rule_length_overflow (loc); } static void handle_dollar (int token_type, char *cp, location loc); static void handle_at (int token_type, char *cp, location loc); static void handle_syncline (char *, location); static unsigned long int scan_integer (char const *p, int base, location loc); static int convert_ucn_to_byte (char const *hex_text); static void unexpected_eof (boundary, char const *); static void unexpected_newline (boundary, char const *); %} %x SC_COMMENT SC_LINE_COMMENT SC_YACC_COMMENT %x SC_STRING SC_CHARACTER %x SC_AFTER_IDENTIFIER %x SC_ESCAPED_STRING SC_ESCAPED_CHARACTER %x SC_PRE_CODE SC_BRACED_CODE SC_PROLOGUE SC_EPILOGUE letter [.abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_] id {letter}({letter}|[0-9])* directive %{letter}({letter}|[0-9]|-)* int [0-9]+ /* POSIX says that a tag must be both an id and a C union member, but historically almost any character is allowed in a tag. We disallow NUL and newline, as this simplifies our implementation. */ tag [^\0\n>]+ /* Zero or more instances of backslash-newline. Following GCC, allow white space between the backslash and the newline. */ splice (\\[ \f\t\v]*\n)* %% %{ /* Nesting level of the current code in braces. */ int braces_level IF_LINT (= 0); /* Parent context state, when applicable. */ int context_state IF_LINT (= 0); /* Token type to return, when applicable. */ int token_type IF_LINT (= 0); /* Location of most recent identifier, when applicable. */ location id_loc IF_LINT (= empty_location); /* Where containing code started, when applicable. Its initial value is relevant only when yylex is invoked in the SC_EPILOGUE start condition. */ boundary code_start = scanner_cursor; /* Where containing comment or string or character literal started, when applicable. */ boundary token_start IF_LINT (= scanner_cursor); %} /*-----------------------. | Scanning white space. | `-----------------------*/ { /* Comments and white space. */ "," warn_at (*loc, _("stray `,' treated as white space")); [ \f\n\t\v] | "//".* ; "/*" { token_start = loc->start; context_state = YY_START; BEGIN SC_YACC_COMMENT; } /* #line directives are not documented, and may be withdrawn or modified in future versions of Bison. */ ^"#line "{int}" \"".*"\"\n" { handle_syncline (yytext + sizeof "#line " - 1, *loc); } } /*----------------------------. | Scanning Bison directives. | `----------------------------*/ { "%binary" return PERCENT_NONASSOC; "%debug" return PERCENT_DEBUG; "%default"[-_]"prec" return PERCENT_DEFAULT_PREC; "%define" return PERCENT_DEFINE; "%defines" return PERCENT_DEFINES; "%destructor" token_type = PERCENT_DESTRUCTOR; BEGIN SC_PRE_CODE; "%dprec" return PERCENT_DPREC; "%error"[-_]"verbose" return PERCENT_ERROR_VERBOSE; "%expect" return PERCENT_EXPECT; "%expect"[-_]"rr" return PERCENT_EXPECT_RR; "%file-prefix" return PERCENT_FILE_PREFIX; "%fixed"[-_]"output"[-_]"files" return PERCENT_YACC; "%initial-action" token_type = PERCENT_INITIAL_ACTION; BEGIN SC_PRE_CODE; "%glr-parser" return PERCENT_GLR_PARSER; "%left" return PERCENT_LEFT; "%lex-param" token_type = PERCENT_LEX_PARAM; BEGIN SC_PRE_CODE; "%locations" return PERCENT_LOCATIONS; "%merge" return PERCENT_MERGE; "%name"[-_]"prefix" return PERCENT_NAME_PREFIX; "%no"[-_]"default"[-_]"prec" return PERCENT_NO_DEFAULT_PREC; "%no"[-_]"lines" return PERCENT_NO_LINES; "%nonassoc" return PERCENT_NONASSOC; "%nondeterministic-parser" return PERCENT_NONDETERMINISTIC_PARSER; "%nterm" return PERCENT_NTERM; "%output" return PERCENT_OUTPUT; "%parse-param" token_type = PERCENT_PARSE_PARAM; BEGIN SC_PRE_CODE; "%prec" rule_length--; return PERCENT_PREC; "%printer" token_type = PERCENT_PRINTER; BEGIN SC_PRE_CODE; "%pure"[-_]"parser" return PERCENT_PURE_PARSER; "%require" return PERCENT_REQUIRE; "%right" return PERCENT_RIGHT; "%skeleton" return PERCENT_SKELETON; "%start" return PERCENT_START; "%term" return PERCENT_TOKEN; "%token" return PERCENT_TOKEN; "%token"[-_]"table" return PERCENT_TOKEN_TABLE; "%type" return PERCENT_TYPE; "%union" token_type = PERCENT_UNION; BEGIN SC_PRE_CODE; "%verbose" return PERCENT_VERBOSE; "%yacc" return PERCENT_YACC; {directive} { complain_at (*loc, _("invalid directive: %s"), quote (yytext)); } "=" return EQUAL; "|" rule_length = 0; return PIPE; ";" return SEMICOLON; {id} { val->symbol = symbol_get (yytext, *loc); id_loc = *loc; increment_rule_length (*loc); BEGIN SC_AFTER_IDENTIFIER; } {int} { val->integer = scan_integer (yytext, 10, *loc); return INT; } 0[xX][0-9abcdefABCDEF]+ { val->integer = scan_integer (yytext, 16, *loc); return INT; } /* Characters. We don't check there is only one. */ "'" STRING_GROW; token_start = loc->start; BEGIN SC_ESCAPED_CHARACTER; /* Strings. */ "\"" token_start = loc->start; BEGIN SC_ESCAPED_STRING; /* Prologue. */ "%{" code_start = loc->start; BEGIN SC_PROLOGUE; /* Code in between braces. */ "{" { if (current_rule && current_rule->action) grammar_midrule_action (); STRING_GROW; token_type = BRACED_CODE; braces_level = 0; code_start = loc->start; BEGIN SC_BRACED_CODE; } /* A type. */ "<"{tag}">" { obstack_grow (&obstack_for_string, yytext + 1, yyleng - 2); STRING_FINISH; val->uniqstr = uniqstr_new (last_string); STRING_FREE; return TYPE; } "%%" { static int percent_percent_count; if (++percent_percent_count == 2) BEGIN SC_EPILOGUE; return PERCENT_PERCENT; } . { complain_at (*loc, _("invalid character: %s"), quote (yytext)); } <> { loc->start = loc->end = scanner_cursor; yyterminate (); } } /*-----------------------------------------------------------------. | Scanning after an identifier, checking whether a colon is next. | `-----------------------------------------------------------------*/ { ":" { rule_length = 0; *loc = id_loc; BEGIN INITIAL; return ID_COLON; } . { scanner_cursor.column -= mbsnwidth (yytext, yyleng, 0); yyless (0); *loc = id_loc; BEGIN INITIAL; return ID; } <> { *loc = id_loc; BEGIN INITIAL; return ID; } } /*---------------------------------------------------------------. | Scanning a Yacc comment. The initial `/ *' is already eaten. | `---------------------------------------------------------------*/ { "*/" BEGIN context_state; .|\n ; <> unexpected_eof (token_start, "*/"); BEGIN context_state; } /*------------------------------------------------------------. | Scanning a C comment. The initial `/ *' is already eaten. | `------------------------------------------------------------*/ { "*"{splice}"/" STRING_GROW; BEGIN context_state; <> unexpected_eof (token_start, "*/"); BEGIN context_state; } /*--------------------------------------------------------------. | Scanning a line comment. The initial `//' is already eaten. | `--------------------------------------------------------------*/ { "\n" STRING_GROW; BEGIN context_state; {splice} STRING_GROW; <> BEGIN context_state; } /*------------------------------------------------. | Scanning a Bison string, including its escapes. | | The initial quote is already eaten. | `------------------------------------------------*/ { "\"" { STRING_FINISH; loc->start = token_start; val->chars = last_string; increment_rule_length (*loc); BEGIN INITIAL; return STRING; } \n unexpected_newline (token_start, "\""); BEGIN INITIAL; <> unexpected_eof (token_start, "\""); BEGIN INITIAL; } /*----------------------------------------------------------. | Scanning a Bison character literal, decoding its escapes. | | The initial quote is already eaten. | `----------------------------------------------------------*/ { "'" { unsigned char last_string_1; STRING_GROW; STRING_FINISH; loc->start = token_start; val->symbol = symbol_get (quotearg_style (escape_quoting_style, last_string), *loc); symbol_class_set (val->symbol, token_sym, *loc, false); last_string_1 = last_string[1]; symbol_user_token_number_set (val->symbol, last_string_1, *loc); STRING_FREE; increment_rule_length (*loc); BEGIN INITIAL; return ID; } \n unexpected_newline (token_start, "'"); BEGIN INITIAL; <> unexpected_eof (token_start, "'"); BEGIN INITIAL; } { \0 complain_at (*loc, _("invalid null character")); } /*----------------------------. | Decode escaped characters. | `----------------------------*/ { \\[0-7]{1,3} { unsigned long int c = strtoul (yytext + 1, NULL, 8); if (UCHAR_MAX < c) complain_at (*loc, _("invalid escape sequence: %s"), quote (yytext)); else if (! c) complain_at (*loc, _("invalid null character: %s"), quote (yytext)); else obstack_1grow (&obstack_for_string, c); } \\x[0-9abcdefABCDEF]+ { verify (UCHAR_MAX < ULONG_MAX); unsigned long int c = strtoul (yytext + 2, NULL, 16); if (UCHAR_MAX < c) complain_at (*loc, _("invalid escape sequence: %s"), quote (yytext)); else if (! c) complain_at (*loc, _("invalid null character: %s"), quote (yytext)); else obstack_1grow (&obstack_for_string, c); } \\a obstack_1grow (&obstack_for_string, '\a'); \\b obstack_1grow (&obstack_for_string, '\b'); \\f obstack_1grow (&obstack_for_string, '\f'); \\n obstack_1grow (&obstack_for_string, '\n'); \\r obstack_1grow (&obstack_for_string, '\r'); \\t obstack_1grow (&obstack_for_string, '\t'); \\v obstack_1grow (&obstack_for_string, '\v'); /* \\[\"\'?\\] would be shorter, but it confuses xgettext. */ \\("\""|"'"|"?"|"\\") obstack_1grow (&obstack_for_string, yytext[1]); \\(u|U[0-9abcdefABCDEF]{4})[0-9abcdefABCDEF]{4} { int c = convert_ucn_to_byte (yytext); if (c < 0) complain_at (*loc, _("invalid escape sequence: %s"), quote (yytext)); else if (! c) complain_at (*loc, _("invalid null character: %s"), quote (yytext)); else obstack_1grow (&obstack_for_string, c); } \\(.|\n) { complain_at (*loc, _("unrecognized escape sequence: %s"), quote (yytext)); STRING_GROW; } } /*--------------------------------------------. | Scanning user-code characters and strings. | `--------------------------------------------*/ { {splice}|\\{splice}[^\n$@\[\]] STRING_GROW; } { "'" STRING_GROW; BEGIN context_state; \n unexpected_newline (token_start, "'"); BEGIN context_state; <> unexpected_eof (token_start, "'"); BEGIN context_state; } { "\"" STRING_GROW; BEGIN context_state; \n unexpected_newline (token_start, "\""); BEGIN context_state; <> unexpected_eof (token_start, "\""); BEGIN context_state; } /*---------------------------------------------------. | Strings, comments etc. can be found in user code. | `---------------------------------------------------*/ { "'" { STRING_GROW; context_state = YY_START; token_start = loc->start; BEGIN SC_CHARACTER; } "\"" { STRING_GROW; context_state = YY_START; token_start = loc->start; BEGIN SC_STRING; } "/"{splice}"*" { STRING_GROW; context_state = YY_START; token_start = loc->start; BEGIN SC_COMMENT; } "/"{splice}"/" { STRING_GROW; context_state = YY_START; BEGIN SC_LINE_COMMENT; } } /*---------------------------------------------------------------. | Scanning after %union etc., possibly followed by white space. | | For %union only, allow arbitrary C code to appear before the | | following brace, as an extension to POSIX. | `---------------------------------------------------------------*/ { . { bool valid = yytext[0] == '{' || token_type == PERCENT_UNION; scanner_cursor.column -= mbsnwidth (yytext, yyleng, 0); yyless (0); if (valid) { braces_level = -1; code_start = loc->start; BEGIN SC_BRACED_CODE; } else { complain_at (*loc, _("missing `{' in %s"), token_name (token_type)); obstack_sgrow (&obstack_for_string, "{}"); STRING_FINISH; val->chars = last_string; BEGIN INITIAL; return token_type; } } <> unexpected_eof (scanner_cursor, "{}"); BEGIN INITIAL; } /*---------------------------------------------------------------. | Scanning some code in braces (%union and actions). The initial | | "{" is already eaten. | `---------------------------------------------------------------*/ { "{"|"<"{splice}"%" STRING_GROW; braces_level++; "%"{splice}">" STRING_GROW; braces_level--; "}" { bool outer_brace = --braces_level < 0; /* As an undocumented Bison extension, append `;' before the last brace in braced code, so that the user code can omit trailing `;'. But do not append `;' if emulating Yacc, since Yacc does not append one. FIXME: Bison should warn if a semicolon seems to be necessary here, and should omit the semicolon if it seems unnecessary (e.g., after ';', '{', or '}', each followed by comments or white space). Such a warning shouldn't depend on --yacc; it should depend on a new --pedantic option, which would cause Bison to warn if it detects an extension to POSIX. --pedantic should also diagnose other Bison extensions like %yacc. Perhaps there should also be a GCC-style --pedantic-errors option, so that such warnings are diagnosed as errors. */ if (outer_brace && token_type == BRACED_CODE && ! yacc_flag) obstack_1grow (&obstack_for_string, ';'); obstack_1grow (&obstack_for_string, '}'); if (outer_brace) { STRING_FINISH; loc->start = code_start; val->chars = last_string; increment_rule_length (*loc); last_braced_code_loc = *loc; BEGIN INITIAL; return token_type; } } /* Tokenize `<<%' correctly (as `<<' `%') rather than incorrrectly (as `<' `<%'). */ "<"{splice}"<" STRING_GROW; "$"("<"{tag}">")?(-?[0-9]+|"$") handle_dollar (token_type, yytext, *loc); "@"(-?[0-9]+|"$") handle_at (token_type, yytext, *loc); "$" { warn_at (*loc, _("stray `$'")); obstack_sgrow (&obstack_for_string, "$]["); } "@" { warn_at (*loc, _("stray `@'")); obstack_sgrow (&obstack_for_string, "@@"); } <> unexpected_eof (code_start, "}"); BEGIN INITIAL; } /*--------------------------------------------------------------. | Scanning some prologue: from "%{" (already scanned) to "%}". | `--------------------------------------------------------------*/ { "%}" { STRING_FINISH; loc->start = code_start; val->chars = last_string; BEGIN INITIAL; return PROLOGUE; } <> unexpected_eof (code_start, "%}"); BEGIN INITIAL; } /*---------------------------------------------------------------. | Scanning the epilogue (everything after the second "%%", which | | has already been eaten). | `---------------------------------------------------------------*/ { <> { STRING_FINISH; loc->start = code_start; val->chars = last_string; BEGIN INITIAL; return EPILOGUE; } } /*-----------------------------------------. | Escape M4 quoting characters in C code. | `-----------------------------------------*/ { \$ obstack_sgrow (&obstack_for_string, "$]["); \@ obstack_sgrow (&obstack_for_string, "@@"); \[ obstack_sgrow (&obstack_for_string, "@{"); \] obstack_sgrow (&obstack_for_string, "@}"); } /*-----------------------------------------------------. | By default, grow the string obstack with the input. | `-----------------------------------------------------*/ . | \n STRING_GROW; %% /* Keeps track of the maximum number of semantic values to the left of a handle (those referenced by $0, $-1, etc.) are required by the semantic actions of this grammar. */ int max_left_semantic_context = 0; /* If BUF is null, add BUFSIZE (which in this case must be less than INT_MAX) to COLUMN; otherwise, add mbsnwidth (BUF, BUFSIZE, 0) to COLUMN. If an overflow occurs, or might occur but is undetectable, return INT_MAX. Assume COLUMN is nonnegative. */ static inline int add_column_width (int column, char const *buf, size_t bufsize) { size_t width; unsigned int remaining_columns = INT_MAX - column; if (buf) { if (INT_MAX / 2 <= bufsize) return INT_MAX; width = mbsnwidth (buf, bufsize, 0); } else width = bufsize; return width <= remaining_columns ? column + width : INT_MAX; } /* Set *LOC and adjust scanner cursor to account for token TOKEN of size SIZE. */ static void adjust_location (location *loc, char const *token, size_t size) { int line = scanner_cursor.line; int column = scanner_cursor.column; char const *p0 = token; char const *p = token; char const *lim = token + size; loc->start = scanner_cursor; for (p = token; p < lim; p++) switch (*p) { case '\n': line += line < INT_MAX; column = 1; p0 = p + 1; break; case '\t': column = add_column_width (column, p0, p - p0); column = add_column_width (column, NULL, 8 - ((column - 1) & 7)); p0 = p + 1; break; default: break; } scanner_cursor.line = line; scanner_cursor.column = column = add_column_width (column, p0, p - p0); loc->end = scanner_cursor; if (line == INT_MAX && loc->start.line != INT_MAX) warn_at (*loc, _("line number overflow")); if (column == INT_MAX && loc->start.column != INT_MAX) warn_at (*loc, _("column number overflow")); } /* Read bytes from FP into buffer BUF of size SIZE. Return the number of bytes read. Remove '\r' from input, treating \r\n and isolated \r as \n. */ static size_t no_cr_read (FILE *fp, char *buf, size_t size) { size_t bytes_read = fread (buf, 1, size, fp); if (bytes_read) { char *w = memchr (buf, '\r', bytes_read); if (w) { char const *r = ++w; char const *lim = buf + bytes_read; for (;;) { /* Found an '\r'. Treat it like '\n', but ignore any '\n' that immediately follows. */ w[-1] = '\n'; if (r == lim) { int ch = getc (fp); if (ch != '\n' && ungetc (ch, fp) != ch) break; } else if (*r == '\n') r++; /* Copy until the next '\r'. */ do { if (r == lim) return w - buf; } while ((*w++ = *r++) != '\r'); } return w - buf; } } return bytes_read; } /*------------------------------------------------------------------. | TEXT is pointing to a wannabee semantic value (i.e., a `$'). | | | | Possible inputs: $[]($|integer) | | | | Output to OBSTACK_FOR_STRING a reference to this semantic value. | `------------------------------------------------------------------*/ static inline bool handle_action_dollar (char *text, location loc) { const char *type_name = NULL; char *cp = text + 1; if (! current_rule) return false; /* Get the type name if explicit. */ if (*cp == '<') { type_name = ++cp; while (*cp != '>') ++cp; *cp = '\0'; ++cp; } if (*cp == '$') { if (!type_name) type_name = symbol_list_n_type_name_get (current_rule, loc, 0); if (!type_name && typed) complain_at (loc, _("$$ of `%s' has no declared type"), current_rule->sym->tag); if (!type_name) type_name = ""; obstack_fgrow1 (&obstack_for_string, "]b4_lhs_value([%s])[", type_name); current_rule->used = true; } else { long int num = strtol (cp, NULL, 10); if (1 - INT_MAX + rule_length <= num && num <= rule_length) { int n = num; if (max_left_semantic_context < 1 - n) max_left_semantic_context = 1 - n; if (!type_name && 0 < n) type_name = symbol_list_n_type_name_get (current_rule, loc, n); if (!type_name && typed) complain_at (loc, _("$%d of `%s' has no declared type"), n, current_rule->sym->tag); if (!type_name) type_name = ""; obstack_fgrow3 (&obstack_for_string, "]b4_rhs_value(%d, %d, [%s])[", rule_length, n, type_name); symbol_list_n_used_set (current_rule, n, true); } else complain_at (loc, _("integer out of range: %s"), quote (text)); } return true; } /*----------------------------------------------------------------. | Map `$?' onto the proper M4 symbol, depending on its TOKEN_TYPE | | (are we in an action?). | `----------------------------------------------------------------*/ static void handle_dollar (int token_type, char *text, location loc) { switch (token_type) { case BRACED_CODE: if (handle_action_dollar (text, loc)) return; break; case PERCENT_DESTRUCTOR: case PERCENT_INITIAL_ACTION: case PERCENT_PRINTER: if (text[1] == '$') { obstack_sgrow (&obstack_for_string, "]b4_dollar_dollar["); return; } break; default: break; } complain_at (loc, _("invalid value: %s"), quote (text)); } /*------------------------------------------------------. | TEXT is a location token (i.e., a `@...'). Output to | | OBSTACK_FOR_STRING a reference to this location. | `------------------------------------------------------*/ static inline bool handle_action_at (char *text, location loc) { char *cp = text + 1; locations_flag = true; if (! current_rule) return false; if (*cp == '$') obstack_sgrow (&obstack_for_string, "]b4_lhs_location["); else { long int num = strtol (cp, NULL, 10); if (1 - INT_MAX + rule_length <= num && num <= rule_length) { int n = num; obstack_fgrow2 (&obstack_for_string, "]b4_rhs_location(%d, %d)[", rule_length, n); } else complain_at (loc, _("integer out of range: %s"), quote (text)); } return true; } /*----------------------------------------------------------------. | Map `@?' onto the proper M4 symbol, depending on its TOKEN_TYPE | | (are we in an action?). | `----------------------------------------------------------------*/ static void handle_at (int token_type, char *text, location loc) { switch (token_type) { case BRACED_CODE: handle_action_at (text, loc); return; case PERCENT_INITIAL_ACTION: case PERCENT_DESTRUCTOR: case PERCENT_PRINTER: if (text[1] == '$') { obstack_sgrow (&obstack_for_string, "]b4_at_dollar["); return; } break; default: break; } complain_at (loc, _("invalid value: %s"), quote (text)); } /*------------------------------------------------------. | Scan NUMBER for a base-BASE integer at location LOC. | `------------------------------------------------------*/ static unsigned long int scan_integer (char const *number, int base, location loc) { verify (INT_MAX < ULONG_MAX); unsigned long int num = strtoul (number, NULL, base); if (INT_MAX < num) { complain_at (loc, _("integer out of range: %s"), quote (number)); num = INT_MAX; } return num; } /*------------------------------------------------------------------. | Convert universal character name UCN to a single-byte character, | | and return that character. Return -1 if UCN does not correspond | | to a single-byte character. | `------------------------------------------------------------------*/ static int convert_ucn_to_byte (char const *ucn) { verify (UCHAR_MAX <= INT_MAX); unsigned long int code = strtoul (ucn + 2, NULL, 16); /* FIXME: Currently we assume Unicode-compatible unibyte characters on ASCII hosts (i.e., Latin-1 on hosts with 8-bit bytes). On non-ASCII hosts we support only the portable C character set. These limitations should be removed once we add support for multibyte characters. */ if (UCHAR_MAX < code) return -1; #if ! ('$' == 0x24 && '@' == 0x40 && '`' == 0x60 && '~' == 0x7e) { /* A non-ASCII host. Use CODE to index into a table of the C basic execution character set, which is guaranteed to exist on all Standard C platforms. This table also includes '$', '@', and '`', which are not in the basic execution character set but which are unibyte characters on all the platforms that we know about. */ static signed char const table[] = { '\0', -1, -1, -1, -1, -1, -1, '\a', '\b', '\t', '\n', '\v', '\f', '\r', -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, ' ', '!', '"', '#', '$', '%', '&', '\'', '(', ')', '*', '+', ',', '-', '.', '/', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ':', ';', '<', '=', '>', '?', '@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '[', '\\', ']', '^', '_', '`', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '{', '|', '}', '~' }; code = code < sizeof table ? table[code] : -1; } #endif return code; } /*----------------------------------------------------------------. | Handle `#line INT "FILE"'. ARGS has already skipped `#line '. | `----------------------------------------------------------------*/ static void handle_syncline (char *args, location loc) { char *after_num; unsigned long int lineno = strtoul (args, &after_num, 10); char *file = strchr (after_num, '"') + 1; *strchr (file, '"') = '\0'; if (INT_MAX <= lineno) { warn_at (loc, _("line number overflow")); lineno = INT_MAX; } scanner_cursor.file = current_file = uniqstr_new (file); scanner_cursor.line = lineno; scanner_cursor.column = 1; } /*---------------------------------. | Report a rule that is too long. | `---------------------------------*/ static void rule_length_overflow (location loc) { fatal_at (loc, _("rule is too long")); } /*----------------------------------------------------------------. | For a token or comment starting at START, report message MSGID, | | which should say that an end marker was found before | | the expected TOKEN_END. | `----------------------------------------------------------------*/ static void unexpected_end (boundary start, char const *msgid, char const *token_end) { location loc; loc.start = start; loc.end = scanner_cursor; complain_at (loc, _(msgid), token_end); } /*------------------------------------------------------------------------. | Report an unexpected EOF in a token or comment starting at START. | | An end of file was encountered and the expected TOKEN_END was missing. | `------------------------------------------------------------------------*/ static void unexpected_eof (boundary start, char const *token_end) { unexpected_end (start, N_("missing `%s' at end of file"), token_end); } /*----------------------------------------. | Likewise, but for unexpected newlines. | `----------------------------------------*/ static void unexpected_newline (boundary start, char const *token_end) { unexpected_end (start, N_("missing `%s' at end of line"), token_end); } /*-------------------------. | Initialize the scanner. | `-------------------------*/ void scanner_initialize (void) { obstack_init (&obstack_for_string); } /*-----------------------------------------------. | Free all the memory allocated to the scanner. | `-----------------------------------------------*/ void scanner_free (void) { obstack_free (&obstack_for_string, 0); /* Reclaim Flex's buffers. */ yy_delete_buffer (YY_CURRENT_BUFFER); }