/*--------------------------------------------------------------------*/ /*--- Callgrind ---*/ /*--- ct_jumps.c ---*/ /*--------------------------------------------------------------------*/ /* This file is part of Callgrind, a Valgrind tool for call tracing. Copyright (C) 2002-2007, Josef Weidendorfer (Josef.Weidendorfer@gmx.de) 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. The GNU General Public License is contained in the file COPYING. */ #include "global.h" #define N_JCC_INITIAL_ENTRIES 4437 /*------------------------------------------------------------*/ /*--- Jump Cost Center (JCC) operations, including Calls ---*/ /*------------------------------------------------------------*/ #define N_JCC_INITIAL_ENTRIES 4437 jcc_hash current_jccs; void CLG_(init_jcc_hash)(jcc_hash* jccs) { Int i; CLG_ASSERT(jccs != 0); jccs->size = N_JCC_INITIAL_ENTRIES; jccs->entries = 0; jccs->table = (jCC**) CLG_MALLOC(jccs->size * sizeof(jCC*)); jccs->spontaneous = 0; for (i = 0; i < jccs->size; i++) jccs->table[i] = 0; } void CLG_(copy_current_jcc_hash)(jcc_hash* dst) { CLG_ASSERT(dst != 0); dst->size = current_jccs.size; dst->entries = current_jccs.entries; dst->table = current_jccs.table; dst->spontaneous = current_jccs.spontaneous; } void CLG_(set_current_jcc_hash)(jcc_hash* h) { CLG_ASSERT(h != 0); current_jccs.size = h->size; current_jccs.entries = h->entries; current_jccs.table = h->table; current_jccs.spontaneous = h->spontaneous; } __inline__ static UInt jcc_hash_idx(BBCC* from, UInt jmp, BBCC* to, UInt size) { return (UInt) ( (UWord)from + 7* (UWord)to + 13*jmp) % size; } /* double size of jcc table */ static void resize_jcc_table(void) { Int i, new_size, conflicts1 = 0, conflicts2 = 0; jCC** new_table; UInt new_idx; jCC *curr_jcc, *next_jcc; new_size = 2* current_jccs.size +3; new_table = (jCC**) CLG_MALLOC(new_size * sizeof(jCC*)); if (!new_table) return; for (i = 0; i < new_size; i++) new_table[i] = NULL; for (i = 0; i < current_jccs.size; i++) { if (current_jccs.table[i] == NULL) continue; curr_jcc = current_jccs.table[i]; while (NULL != curr_jcc) { next_jcc = curr_jcc->next_hash; new_idx = jcc_hash_idx(curr_jcc->from, curr_jcc->jmp, curr_jcc->to, new_size); curr_jcc->next_hash = new_table[new_idx]; new_table[new_idx] = curr_jcc; if (curr_jcc->next_hash) { conflicts1++; if (curr_jcc->next_hash->next_hash) conflicts2++; } curr_jcc = next_jcc; } } VG_(free)(current_jccs.table); CLG_DEBUG(0, "Resize JCC Hash: %d => %d (entries %d, conflicts %d/%d)\n", current_jccs.size, new_size, current_jccs.entries, conflicts1, conflicts2); current_jccs.size = new_size; current_jccs.table = new_table; CLG_(stat).jcc_hash_resizes++; } /* new jCC structure: a call was done to a BB of a BBCC * for a spontaneous call, from is 0 (i.e. caller unknown) */ static jCC* new_jcc(BBCC* from, UInt jmp, BBCC* to) { jCC* new; UInt new_idx; /* check fill degree of jcc hash table and resize if needed (>80%) */ current_jccs.entries++; if (10 * current_jccs.entries / current_jccs.size > 8) resize_jcc_table(); new = (jCC*) CLG_MALLOC(sizeof(jCC)); new->from = from; new->jmp = jmp; new->to = to; new->jmpkind = Ijk_Call; new->call_counter = 0; new->cost = 0; /* insert into JCC chain of calling BBCC. * This list is only used at dumping time */ if (from) { new->next_from = from->jmp[jmp].jcc_list; from->jmp[jmp].jcc_list = new; } else { new->next_from = current_jccs.spontaneous; current_jccs.spontaneous = new; } /* insert into JCC hash table */ new_idx = jcc_hash_idx(from, jmp, to, current_jccs.size); new->next_hash = current_jccs.table[new_idx]; current_jccs.table[new_idx] = new; CLG_(stat).distinct_jccs++; CLG_DEBUGIF(3) { VG_(printf)(" new_jcc (now %d): %p\n", CLG_(stat).distinct_jccs, new); } return new; } /* get the jCC for a call arc (BBCC->BBCC) */ jCC* CLG_(get_jcc)(BBCC* from, UInt jmp, BBCC* to) { jCC* jcc; UInt idx; CLG_DEBUG(5, "+ get_jcc(bbcc %p/%d => bbcc %p)\n", from, jmp, to); /* first check last recently used JCC */ jcc = to->lru_to_jcc; if (jcc && (jcc->from == from) && (jcc->jmp == jmp)) { CLG_ASSERT(to == jcc->to); CLG_DEBUG(5,"- get_jcc: [LRU to] jcc %p\n", jcc); return jcc; } jcc = from->lru_from_jcc; if (jcc && (jcc->to == to) && (jcc->jmp == jmp)) { CLG_ASSERT(from == jcc->from); CLG_DEBUG(5, "- get_jcc: [LRU from] jcc %p\n", jcc); return jcc; } CLG_(stat).jcc_lru_misses++; idx = jcc_hash_idx(from, jmp, to, current_jccs.size); jcc = current_jccs.table[idx]; while(jcc) { if ((jcc->from == from) && (jcc->jmp == jmp) && (jcc->to == to)) break; jcc = jcc->next_hash; } if (!jcc) jcc = new_jcc(from, jmp, to); /* set LRU */ from->lru_from_jcc = jcc; to->lru_to_jcc = jcc; CLG_DEBUG(5, "- get_jcc(bbcc %p => bbcc %p)\n", from, to); return jcc; }