X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=ir%2Fana%2Fexecution_frequency.c;h=8765c71649d7960fe8482e56518a17b7ea0fb92e;hb=413caa540c4f2d6456cf5cfba73eecffad4fd160;hp=bc8972fe3501bddaf0b0b40cb9ba0b1a6f5dd734;hpb=5ea9d0c93d64963b085ff10cde05f739e1c2606b;p=libfirm diff --git a/ir/ana/execution_frequency.c b/ir/ana/execution_frequency.c index bc8972fe3..8765c7164 100644 --- a/ir/ana/execution_frequency.c +++ b/ir/ana/execution_frequency.c @@ -1,24 +1,37 @@ /* - * Project: libFIRM - * File name: ir/ana/execution_frequency.c - * Purpose: Compute an estimate of basic block executions. - * Author: Goetz Lindenmaier - * Modified by: - * Created: 5.11.2004 - * CVS-ID: $Id$ - * Copyright: (c) 2004 Universität Karlsruhe - * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE. + * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved. + * + * This file is part of libFirm. + * + * This file may be distributed and/or modified under the terms of the + * GNU General Public License version 2 as published by the Free Software + * Foundation and appearing in the file LICENSE.GPL included in the + * packaging of this file. + * + * Licensees holding valid libFirm Professional Edition licenses may use + * this file in accordance with the libFirm Commercial License. + * Agreement provided with the Software. + * + * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE + * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR + * PURPOSE. + */ + +/** + * @file + * @brief Compute an estimate of basic block executions. + * @author Goetz Lindenmaier + * @date 5.11.2004 + * @version $Id$ */ -#ifdef HAVE_CONFIG_H #include "config.h" -#endif #include "execution_frequency.h" -#include "firm_common_t.h" #include "set.h" #include "pdeq.h" #include "hashptr.h" +#include "error.h" #include "irprog_t.h" #include "irgraph_t.h" @@ -44,24 +57,30 @@ typedef struct { /* We use this set for all nodes in all irgraphs. */ static set *exec_freq_set = NULL; -static int exec_freq_cmp(const void *e1, const void *e2, size_t size) { +static int exec_freq_cmp(const void *e1, const void *e2, size_t size) +{ reg_exec_freq *ef1 = (reg_exec_freq *)e1; reg_exec_freq *ef2 = (reg_exec_freq *)e2; + (void) size; + return (ef1->reg != ef2->reg); } -static INLINE unsigned int exec_freq_hash(reg_exec_freq *e) { +static inline unsigned int exec_freq_hash(reg_exec_freq *e) +{ return HASH_PTR(e->reg); } -static INLINE void set_region_exec_freq(void *reg, double freq) { +static inline void set_region_exec_freq(void *reg, double freq) +{ reg_exec_freq ef; ef.reg = reg; ef.freq = freq; set_insert(exec_freq_set, &ef, sizeof(ef), exec_freq_hash(&ef)); } -double get_region_exec_freq(void *reg) { +double get_region_exec_freq(void *reg) +{ reg_exec_freq ef, *found; ef.reg = reg; assert(exec_freq_set); @@ -76,11 +95,13 @@ double get_region_exec_freq(void *reg) { } /* Returns the number of times the block is executed. */ -double get_Block_exec_freq(ir_node *b) { +double get_Block_exec_freq(ir_node *b) +{ return get_region_exec_freq((void *)b); } -double get_irn_exec_freq(ir_node *n) { +double get_irn_exec_freq(ir_node *n) +{ if (!is_Block(n)) n = get_nodes_block(n); return get_Block_exec_freq(n); } @@ -110,14 +131,16 @@ static int just_passed_a_Raise = 0; static ir_node *Cond_list = NULL; /* We do not use an extra set, as Projs are not yet in the existing one. */ -void set_ProjX_probability(ir_node *n, Cond_prob prob) { +static void set_ProjX_probability(ir_node *n, Cond_prob prob) +{ reg_exec_freq ef; ef.reg = n; ef.prob = prob; set_insert(exec_freq_set, &ef, sizeof(ef), exec_freq_hash(&ef)); } -Cond_prob get_ProjX_probability(ir_node *n) { +static Cond_prob get_ProjX_probability(ir_node *n) +{ reg_exec_freq ef, *found; ef.reg = n; @@ -131,8 +154,8 @@ Cond_prob get_ProjX_probability(ir_node *n) { /* A walker that only visits the nodes we want to see. */ -static void -my_irg_walk_2_both(ir_node *node, irg_walk_func *pre, irg_walk_func *post, void * env) { +static void my_irg_walk_2_both(ir_node *node, irg_walk_func *pre, irg_walk_func *post, void * env) +{ int i; set_irn_visited(node, current_ir_graph->visited); @@ -166,20 +189,22 @@ my_irg_walk_2_both(ir_node *node, irg_walk_func *pre, irg_walk_func *post, void post(node, env); } -static void my_irg_walk_current_graph(irg_walk_func *pre, irg_walk_func *post, void *env) { +static void my_irg_walk_current_graph(irg_walk_func *pre, irg_walk_func *post, void *env) +{ inc_irg_visited(current_ir_graph); my_irg_walk_2_both(get_irg_end(current_ir_graph), pre, post, env); } -static void walk_pre(ir_node *n, void *env) { - - if (get_irn_op(n) == op_Raise) +static void walk_pre(ir_node *n, void *env) +{ + (void) env; + if (is_Raise(n)) just_passed_a_Raise = 1; - if ( (get_irn_op(n) == op_Proj) - && (get_irn_op(get_Proj_pred(n)) == op_Cond) - && (just_passed_a_Raise)) { + if (get_irn_op(n) == op_Proj && + is_Cond(get_Proj_pred(n)) && + just_passed_a_Raise) { ir_node *other_proj; ir_node *c = get_Proj_pred(n); @@ -197,21 +222,23 @@ static void walk_pre(ir_node *n, void *env) { } } - if (get_irn_op(n) == op_Cond) { + if (is_Cond(n)) { set_irn_link(n, Cond_list); Cond_list = n; } } -static void walk_post(ir_node *n, void *env) { - - if (get_irn_op(n) == op_Raise) +static void walk_post(ir_node *n, void *env) +{ + (void) env; + if (is_Raise(n)) just_passed_a_Raise = 0; - if ( (get_irn_op(n) == op_Proj) - && (get_irn_op(get_Proj_pred(n)) == op_Cond) - && ((get_ProjX_probability(n) == Cond_prob_exception_taken) || - (get_ProjX_probability(n) == Cond_prob_was_exception_taken) )) { + if (get_irn_op(n) == op_Proj && + is_Cond(get_Proj_pred(n)) && ( + get_ProjX_probability(n) == Cond_prob_exception_taken || + get_ProjX_probability(n) == Cond_prob_was_exception_taken + )) { just_passed_a_Raise = 1; } } @@ -219,7 +246,8 @@ static void walk_post(ir_node *n, void *env) { /** Precompute which Conds test for an exception. * * Operates on current_ir_graph. */ -void precompute_cond_evaluation(void) { +static void precompute_cond_evaluation(void) +{ ir_node *c; compute_irg_outs(current_ir_graph); @@ -238,10 +266,12 @@ void precompute_cond_evaluation(void) { /* both are exceptions */ if ((get_ProjX_probability(p0) == Cond_prob_exception_taken) && (get_ProjX_probability(p1) == Cond_prob_exception_taken) ) { - assert(0 && "I tried to avoid these!"); + panic("I tried to avoid these!"); +#if 0 /* It's a */ set_ProjX_probability(p0, Cond_prob_normal); set_ProjX_probability(p1, Cond_prob_normal); +#endif } /* p0 is exception */ @@ -262,7 +292,8 @@ void precompute_cond_evaluation(void) { } } -int is_fragile_Proj(ir_node *n) { +int is_fragile_Proj(ir_node *n) +{ return is_Proj(n) && (get_ProjX_probability(n) == Cond_prob_exception_taken); } @@ -277,7 +308,9 @@ int is_fragile_Proj(ir_node *n) { static double exception_prob = 0.001; -static INLINE int is_loop_head(ir_node *cond) { +static inline int is_loop_head(ir_node *cond) +{ + (void) cond; return 0; } @@ -285,7 +318,8 @@ static INLINE int is_loop_head(ir_node *cond) { * * Given all outs of the predecessor region, we can compute the weight of * this single edge. */ -static INLINE double get_weighted_region_exec_freq(void *reg, int pos) { +static inline double get_weighted_region_exec_freq(void *reg, int pos) +{ void *pred_reg = get_region_in(reg, pos); double res, full_freq = get_region_exec_freq (pred_reg); int n_outs = get_region_n_outs (pred_reg); @@ -294,7 +328,7 @@ static INLINE double get_weighted_region_exec_freq(void *reg, int pos) { ir_node *cfop; if (is_ir_node(reg)) { cfop = get_Block_cfgpred((ir_node *)reg, pos); - if (is_Proj(cfop) && (get_irn_op(get_Proj_pred(cfop)) != op_Cond)) + if (is_Proj(cfop) && !is_Cond(get_Proj_pred(cfop))) cfop = skip_Proj(cfop); } else { assert(is_ir_loop(reg)); @@ -312,7 +346,8 @@ static INLINE double get_weighted_region_exec_freq(void *reg, int pos) { return res; } -static INLINE void compute_region_freqency(void *reg, double head_weight) { +static inline void compute_region_freqency(void *reg, double head_weight) +{ int i, n_ins = get_region_n_ins(reg); double my_freq = 0; @@ -332,15 +367,18 @@ static INLINE void compute_region_freqency(void *reg, double head_weight) { set_region_exec_freq(reg, my_freq); } -static void check_proper_head(ir_loop *l, void *reg) { +static void check_proper_head(ir_loop *l, void *reg) +{ int i, n_ins = get_region_n_ins(reg); + (void) l; for (i = 0; i < n_ins; ++i) { assert(!get_region_in(reg, i)); } } /* Compute the ex freq for current_ir_graph */ -static void compute_frequency(int default_loop_weight) { +static void compute_frequency(int default_loop_weight) +{ ir_loop *outermost_l = get_irg_loop(current_ir_graph); pdeq *block_worklist = new_pdeq1(outermost_l); @@ -370,7 +408,8 @@ static void compute_frequency(int default_loop_weight) { * irg: The graph to be analyzed. * default_loop_weight: The number of executions of a loop. */ -void compute_execution_frequency(ir_graph *irg, int default_loop_weight, double exception_probability) { +void compute_execution_frequency(ir_graph *irg, int default_loop_weight, double exception_probability) +{ ir_graph *rem = current_ir_graph; current_ir_graph = irg; exception_prob = exception_probability; @@ -394,7 +433,8 @@ void compute_execution_frequency(ir_graph *irg, int default_loop_weight, double } -void compute_execution_frequencies(int default_loop_weight, double exception_probability) { +void compute_execution_frequencies(int default_loop_weight, double exception_probability) +{ int i, n_irgs = get_irp_n_irgs(); free_intervals(); for (i = 0; i < n_irgs; ++i) { @@ -404,7 +444,8 @@ void compute_execution_frequencies(int default_loop_weight, double exception_pro } /** free occupied memory, reset */ -void free_execution_frequency(void) { +void free_execution_frequency(void) +{ int i, n_irgs = get_irp_n_irgs(); free_intervals(); del_set(exec_freq_set); @@ -414,10 +455,12 @@ void free_execution_frequency(void) { set_irp_exec_freq_state(exec_freq_none); } -exec_freq_state get_irg_exec_freq_state(ir_graph *irg) { +exec_freq_state get_irg_exec_freq_state(ir_graph *irg) +{ return irg->execfreq_state; } -void set_irg_exec_freq_state(ir_graph *irg, exec_freq_state s) { +void set_irg_exec_freq_state(ir_graph *irg, exec_freq_state s) +{ if ((get_irp_exec_freq_state() == exec_freq_consistent && s != exec_freq_consistent) || (get_irp_exec_freq_state() == exec_freq_none && s != exec_freq_none)) irp->execfreq_state = exec_freq_inconsistent; @@ -425,21 +468,25 @@ void set_irg_exec_freq_state(ir_graph *irg, exec_freq_state s) { } /* Sets irg and irp exec freq state to inconsistent if it is set to consistent. */ -void set_irg_exec_freq_state_inconsistent(ir_graph *irg) { +void set_irg_exec_freq_state_inconsistent(ir_graph *irg) +{ if (get_irg_exec_freq_state(irg) == exec_freq_consistent) set_irg_exec_freq_state(irg, exec_freq_inconsistent); } -void set_irp_exec_freq_state(exec_freq_state s) { +void set_irp_exec_freq_state(exec_freq_state s) +{ irp->execfreq_state = s; } -exec_freq_state get_irp_exec_freq_state(void) { +exec_freq_state get_irp_exec_freq_state(void) +{ return irp->execfreq_state; } /* Sets irp and all irg exec freq states to inconsistent if it is set to consistent. */ -void set_irp_exec_freq_state_inconsistent(void) { +void set_irp_exec_freq_state_inconsistent(void) +{ if (get_irp_exec_freq_state() != exec_freq_none) { int i, n_irgs = get_irp_n_irgs(); set_irp_exec_freq_state(exec_freq_inconsistent);