From b679b55b5eb8ea463af3459092c19ba05cde664b Mon Sep 17 00:00:00 2001 From: Jan Hubicka Date: Thu, 18 May 2017 16:14:10 +0000 Subject: [PATCH] Makefile.in: Add ipa-predicate.o and ipa-predicate.h * Makefile.in: Add ipa-predicate.o and ipa-predicate.h * ipa-inline-analysis.c (NUM_CONDITIONS): turn into predicate::num_conditions (IS_NOT_CONSTANT): turn into predicate::is_not_constant. (CHANGED): turn into predicate::changed. (agg_position_info): Move to ipa-predicate.h (add_condition, predicate::add_clause, predicate::operator &=, predicate::or_with, predicate::evaluate, predicate::probability, dump_condition, dump_clause, predicate::dump, predicate::remap_after_duplication, predicate::remap_after_inlining, predicate::stream_in, predicate::stream_out): Move to ipa-predicate.c (evaluate_conditions_for_known_args): Update. (set_cond_stmt_execution_predicate): Update. * ipa-inline.h: Include ipa-predicate.h (condition, inline_param_summary, conditions, agg_position_info, predicate): Move to ipa-predicate.h * ipa-predicate.c: New file. * ipa-predicate.h: New file. From-SVN: r248241 --- gcc/Makefile.in | 2 + gcc/ipa-inline-analysis.c | 570 +-------------------------------------------- gcc/ipa-inline.h | 196 +--------------- gcc/ipa-predicate.c | 573 ++++++++++++++++++++++++++++++++++++++++++++++ gcc/ipa-predicate.h | 232 +++++++++++++++++++ 5 files changed, 828 insertions(+), 745 deletions(-) create mode 100644 gcc/ipa-predicate.c create mode 100644 gcc/ipa-predicate.h diff --git a/gcc/Makefile.in b/gcc/Makefile.in index 8fa77e3..8ace3c2 100644 --- a/gcc/Makefile.in +++ b/gcc/Makefile.in @@ -1347,6 +1347,7 @@ OBJS = \ ipa-visibility.o \ ipa-inline-analysis.o \ ipa-inline-transform.o \ + ipa-predicate.o \ ipa-profile.o \ ipa-prop.o \ ipa-pure-const.o \ @@ -2505,6 +2506,7 @@ GTFILES = $(CPP_ID_DATA_H) $(srcdir)/input.h $(srcdir)/coretypes.h \ $(srcdir)/trans-mem.c \ $(srcdir)/lto-streamer.h \ $(srcdir)/target-globals.h \ + $(srcdir)/ipa-predicate.h \ $(srcdir)/ipa-inline.h \ $(srcdir)/vtable-verify.c \ $(srcdir)/asan.c \ diff --git a/gcc/ipa-inline-analysis.c b/gcc/ipa-inline-analysis.c index ee87444..15af015 100644 --- a/gcc/ipa-inline-analysis.c +++ b/gcc/ipa-inline-analysis.c @@ -86,19 +86,6 @@ along with GCC; see the file COPYING3. If not see #include "cfgexpand.h" #include "gimplify.h" -/* Number of bits in integer, but we really want to be stable across different - hosts. */ -#define NUM_CONDITIONS 32 - -/* Special condition code we use to represent test that operand is compile time - constant. */ -#define IS_NOT_CONSTANT ERROR_MARK -/* Special condition code we use to represent test that operand is not changed - across invocation of the function. When operand IS_NOT_CONSTANT it is always - CHANGED, however i.e. loop invariants can be NOT_CHANGED given percentage - of executions even when they are not compile time constants. */ -#define CHANGED IDENTIFIER_NODE - /* Holders of ipa cgraph hooks: */ static struct cgraph_2edge_hook_list *edge_duplication_hook_holder; static struct cgraph_edge_hook_list *edge_removal_hook_holder; @@ -117,396 +104,6 @@ vec edge_growth_cache; /* Edge predicates goes here. */ static object_allocator edge_predicate_pool ("edge predicates"); -/* Simple description of whether a memory load or a condition refers to a load - from an aggregate and if so, how and where from in the aggregate. - Individual fields have the same meaning like fields with the same name in - struct condition. */ - -struct agg_position_info -{ - HOST_WIDE_INT offset; - bool agg_contents; - bool by_ref; -}; - -/* Add condition to condition list SUMMARY. OPERAND_NUM, SIZE, CODE and VAL - correspond to fields of condition structure. AGGPOS describes whether the - used operand is loaded from an aggregate and where in the aggregate it is. - It can be NULL, which means this not a load from an aggregate. */ - -static predicate -add_condition (struct inline_summary *summary, int operand_num, - HOST_WIDE_INT size, struct agg_position_info *aggpos, - enum tree_code code, tree val) -{ - int i; - struct condition *c; - struct condition new_cond; - HOST_WIDE_INT offset; - bool agg_contents, by_ref; - - if (aggpos) - { - offset = aggpos->offset; - agg_contents = aggpos->agg_contents; - by_ref = aggpos->by_ref; - } - else - { - offset = 0; - agg_contents = false; - by_ref = false; - } - - gcc_checking_assert (operand_num >= 0); - for (i = 0; vec_safe_iterate (summary->conds, i, &c); i++) - { - if (c->operand_num == operand_num - && c->size == size - && c->code == code - && c->val == val - && c->agg_contents == agg_contents - && (!agg_contents || (c->offset == offset && c->by_ref == by_ref))) - return predicate::predicate_testing_cond (i); - } - /* Too many conditions. Give up and return constant true. */ - if (i == NUM_CONDITIONS - predicate::first_dynamic_condition) - return true; - - new_cond.operand_num = operand_num; - new_cond.code = code; - new_cond.val = val; - new_cond.agg_contents = agg_contents; - new_cond.by_ref = by_ref; - new_cond.offset = offset; - new_cond.size = size; - vec_safe_push (summary->conds, new_cond); - - return predicate::predicate_testing_cond (i); -} - - -/* Add clause CLAUSE into the predicate P. - When CONDITIONS is NULL do not perform checking whether NEW_CLAUSE - is obviously true. This is useful only when NEW_CLAUSE is known to be - sane. */ - -void -predicate::add_clause (conditions conditions, clause_t new_clause) -{ - int i; - int i2; - int insert_here = -1; - int c1, c2; - - /* True clause. */ - if (!new_clause) - return; - - /* False clause makes the whole predicate false. Kill the other variants. */ - if (new_clause == (1 << predicate::false_condition)) - { - *this = false; - return; - } - if (*this == false) - return; - - /* No one should be silly enough to add false into nontrivial clauses. */ - gcc_checking_assert (!(new_clause & (1 << predicate::false_condition))); - - /* Look where to insert the new_clause. At the same time prune out - new_clauses of P that are implied by the new new_clause and thus - redundant. */ - for (i = 0, i2 = 0; i <= max_clauses; i++) - { - m_clause[i2] = m_clause[i]; - - if (!m_clause[i]) - break; - - /* If m_clause[i] implies new_clause, there is nothing to add. */ - if ((m_clause[i] & new_clause) == m_clause[i]) - { - /* We had nothing to add, none of clauses should've become - redundant. */ - gcc_checking_assert (i == i2); - return; - } - - if (m_clause[i] < new_clause && insert_here < 0) - insert_here = i2; - - /* If new_clause implies clause[i], then clause[i] becomes redundant. - Otherwise the clause[i] has to stay. */ - if ((m_clause[i] & new_clause) != new_clause) - i2++; - } - - /* Look for clauses that are obviously true. I.e. - op0 == 5 || op0 != 5. */ - if (conditions) - for (c1 = predicate::first_dynamic_condition; c1 < NUM_CONDITIONS; c1++) - { - condition *cc1; - if (!(new_clause & (1 << c1))) - continue; - cc1 = &(*conditions)[c1 - predicate::first_dynamic_condition]; - /* We have no way to represent !CHANGED and !IS_NOT_CONSTANT - and thus there is no point for looking for them. */ - if (cc1->code == CHANGED || cc1->code == IS_NOT_CONSTANT) - continue; - for (c2 = c1 + 1; c2 < NUM_CONDITIONS; c2++) - if (new_clause & (1 << c2)) - { - condition *cc1 = - &(*conditions)[c1 - predicate::first_dynamic_condition]; - condition *cc2 = - &(*conditions)[c2 - predicate::first_dynamic_condition]; - if (cc1->operand_num == cc2->operand_num - && cc1->val == cc2->val - && cc2->code != IS_NOT_CONSTANT - && cc2->code != CHANGED - && cc1->code == invert_tree_comparison (cc2->code, - HONOR_NANS (cc1->val))) - return; - } - } - - - /* We run out of variants. Be conservative in positive direction. */ - if (i2 == max_clauses) - return; - /* Keep clauses in decreasing order. This makes equivalence testing easy. */ - m_clause[i2 + 1] = 0; - if (insert_here >= 0) - for (; i2 > insert_here; i2--) - m_clause[i2] = m_clause[i2 - 1]; - else - insert_here = i2; - m_clause[insert_here] = new_clause; -} - - -/* Do THIS &= P. */ - -predicate & -predicate::operator &= (const predicate &p) -{ - /* Avoid busy work. */ - if (p == false || *this == true) - { - *this = p; - return *this; - } - if (*this == false || p == true || this == &p) - return *this; - - int i; - - /* See how far predicates match. */ - for (i = 0; m_clause[i] && m_clause[i] == p.m_clause[i]; i++) - { - gcc_checking_assert (i < max_clauses); - } - - /* Combine the predicates rest. */ - for (; p.m_clause[i]; i++) - { - gcc_checking_assert (i < max_clauses); - add_clause (NULL, p.m_clause[i]); - } - return *this; -} - - - -/* Return THIS | P2. */ - -predicate -predicate::or_with (conditions conditions, - const predicate &p) const -{ - /* Avoid busy work. */ - if (p == false || *this == true || *this == p) - return *this; - if (*this == false || p == true) - return p; - - /* OK, combine the predicates. */ - predicate out = true; - - for (int i = 0; m_clause[i]; i++) - for (int j = 0; p.m_clause[j]; j++) - { - gcc_checking_assert (i < max_clauses && j < max_clauses); - out.add_clause (conditions, m_clause[i] | p.m_clause[j]); - } - return out; -} - - -/* Having partial truth assignment in POSSIBLE_TRUTHS, return false - if predicate P is known to be false. */ - -bool -predicate::evaluate (clause_t possible_truths) const -{ - int i; - - /* True remains true. */ - if (*this == true) - return true; - - gcc_assert (!(possible_truths & (1 << predicate::false_condition))); - - /* See if we can find clause we can disprove. */ - for (i = 0; m_clause[i]; i++) - { - gcc_checking_assert (i < max_clauses); - if (!(m_clause[i] & possible_truths)) - return false; - } - return true; -} - -/* Return the probability in range 0...REG_BR_PROB_BASE that the predicated - instruction will be recomputed per invocation of the inlined call. */ - -int -predicate::probability (conditions conds, - clause_t possible_truths, - vec inline_param_summary) const -{ - int i; - int combined_prob = REG_BR_PROB_BASE; - - /* True remains true. */ - if (*this == true) - return REG_BR_PROB_BASE; - - if (*this == false) - return 0; - - gcc_assert (!(possible_truths & (1 << predicate::false_condition))); - - /* See if we can find clause we can disprove. */ - for (i = 0; m_clause[i]; i++) - { - gcc_checking_assert (i < max_clauses); - if (!(m_clause[i] & possible_truths)) - return 0; - else - { - int this_prob = 0; - int i2; - if (!inline_param_summary.exists ()) - return REG_BR_PROB_BASE; - for (i2 = 0; i2 < NUM_CONDITIONS; i2++) - if ((m_clause[i] & possible_truths) & (1 << i2)) - { - if (i2 >= predicate::first_dynamic_condition) - { - condition *c = - &(*conds)[i2 - predicate::first_dynamic_condition]; - if (c->code == CHANGED - && (c->operand_num < - (int) inline_param_summary.length ())) - { - int iprob = - inline_param_summary[c->operand_num].change_prob; - this_prob = MAX (this_prob, iprob); - } - else - this_prob = REG_BR_PROB_BASE; - } - else - this_prob = REG_BR_PROB_BASE; - } - combined_prob = MIN (this_prob, combined_prob); - if (!combined_prob) - return 0; - } - } - return combined_prob; -} - - -/* Dump conditional COND. */ - -static void -dump_condition (FILE *f, conditions conditions, int cond) -{ - condition *c; - if (cond == predicate::false_condition) - fprintf (f, "false"); - else if (cond == predicate::not_inlined_condition) - fprintf (f, "not inlined"); - else - { - c = &(*conditions)[cond - predicate::first_dynamic_condition]; - fprintf (f, "op%i", c->operand_num); - if (c->agg_contents) - fprintf (f, "[%soffset: " HOST_WIDE_INT_PRINT_DEC "]", - c->by_ref ? "ref " : "", c->offset); - if (c->code == IS_NOT_CONSTANT) - { - fprintf (f, " not constant"); - return; - } - if (c->code == CHANGED) - { - fprintf (f, " changed"); - return; - } - fprintf (f, " %s ", op_symbol_code (c->code)); - print_generic_expr (f, c->val); - } -} - - -/* Dump clause CLAUSE. */ - -static void -dump_clause (FILE *f, conditions conds, clause_t clause) -{ - int i; - bool found = false; - fprintf (f, "("); - if (!clause) - fprintf (f, "true"); - for (i = 0; i < NUM_CONDITIONS; i++) - if (clause & (1 << i)) - { - if (found) - fprintf (f, " || "); - found = true; - dump_condition (f, conds, i); - } - fprintf (f, ")"); -} - - -/* Dump THIS to F. CONDS a vector of conditions used when evauating - predicats. When NL is true new line is output at the end of dump. */ - -void -predicate::dump (FILE *f, conditions conds, bool nl) const -{ - int i; - if (*this == true) - dump_clause (f, conds, 0); - else - for (i = 0; m_clause[i]; i++) - { - if (i) - fprintf (f, " && "); - dump_clause (f, conds, m_clause[i]); - } - if (nl) - fprintf (f, "\n"); -} - /* Dump inline hints. */ void @@ -770,7 +367,7 @@ evaluate_conditions_for_known_args (struct cgraph_node *node, { struct ipa_agg_jump_function *agg; - if (c->code == CHANGED + if (c->code == predicate::changed && !c->by_ref && (known_vals[c->operand_num] == error_mark_node)) continue; @@ -787,7 +384,7 @@ evaluate_conditions_for_known_args (struct cgraph_node *node, else { val = known_vals[c->operand_num]; - if (val == error_mark_node && c->code != CHANGED) + if (val == error_mark_node && c->code != predicate::changed) val = NULL_TREE; } @@ -797,7 +394,7 @@ evaluate_conditions_for_known_args (struct cgraph_node *node, nonspec_clause |= 1 << (i + predicate::first_dynamic_condition); continue; } - if (c->code == CHANGED) + if (c->code == predicate::changed) { nonspec_clause |= 1 << (i + predicate::first_dynamic_condition); continue; @@ -809,7 +406,7 @@ evaluate_conditions_for_known_args (struct cgraph_node *node, nonspec_clause |= 1 << (i + predicate::first_dynamic_condition); continue; } - if (c->code == IS_NOT_CONSTANT) + if (c->code == predicate::is_not_constant) { nonspec_clause |= 1 << (i + predicate::first_dynamic_condition); continue; @@ -1025,23 +622,6 @@ inline_summary_t::remove (cgraph_node *node, inline_summary *info) reset_inline_summary (node, info); } -/* Remap predicate THIS of former function to be predicate of duplicated function. - POSSIBLE_TRUTHS is clause of possible truths in the duplicated node, - INFO is inline summary of the duplicated node. */ - -predicate -predicate::remap_after_duplication (clause_t possible_truths) -{ - int j; - predicate out = true; - for (j = 0; m_clause[j]; j++) - if (!(possible_truths & m_clause[j])) - return false; - else - out.add_clause (NULL, possible_truths & m_clause[j]); - return out; -} - /* Same as remap_predicate_after_duplication but handle hint predicate *P. Additionally care about allocating new memory slot for updated predicate and set it to NULL when it becomes true or false (and thus uninteresting). @@ -1778,7 +1358,7 @@ set_cond_stmt_execution_predicate (struct ipa_func_body_info *fbi, FOR_EACH_EDGE (e, ei, bb->succs) if (e->flags & EDGE_FALSE_VALUE) { predicate p = add_condition (summary, index, size, &aggpos, - IS_NOT_CONSTANT, NULL_TREE); + predicate::is_not_constant, NULL_TREE); e->aux = edge_predicate_pool.allocate (); *(predicate *) e->aux = p; } @@ -1945,7 +1525,8 @@ will_be_nonconstant_expr_predicate (struct ipa_node_params *info, parm = unmodified_parm (NULL, expr, &size); if (parm && (index = ipa_get_param_decl_index (info, parm)) >= 0) - return add_condition (summary, index, size, NULL, CHANGED, NULL_TREE); + return add_condition (summary, index, size, NULL, predicate::changed, + NULL_TREE); if (is_gimple_min_invariant (expr)) return false; if (TREE_CODE (expr) == SSA_NAME) @@ -2058,7 +1639,8 @@ will_be_nonconstant_predicate (struct ipa_func_body_info *fbi, if (is_load) op_non_const = - add_condition (summary, base_index, size, &aggpos, CHANGED, NULL); + add_condition (summary, base_index, size, &aggpos, predicate::changed, + NULL); else op_non_const = false; FOR_EACH_SSA_TREE_OPERAND (use, stmt, iter, SSA_OP_USE) @@ -2070,7 +1652,8 @@ will_be_nonconstant_predicate (struct ipa_func_body_info *fbi, if (parm && (index = ipa_get_param_decl_index (fbi->info, parm)) >= 0) { if (index != base_index) - p = add_condition (summary, index, size, NULL, CHANGED, NULL_TREE); + p = add_condition (summary, index, size, NULL, predicate::changed, + NULL_TREE); else continue; } @@ -3357,101 +2940,6 @@ estimate_ipcp_clone_size_and_time (struct cgraph_node *node, ret_nonspec_time, hints, vNULL); } -/* Translate all conditions from callee representation into caller - representation and symbolically evaluate predicate THIS into new predicate. - - INFO is inline_summary of function we are adding predicate into, CALLEE_INFO - is summary of function predicate P is from. OPERAND_MAP is array giving - callee formal IDs the caller formal IDs. POSSSIBLE_TRUTHS is clausule of all - callee conditions that may be true in caller context. TOPLEV_PREDICATE is - predicate under which callee is executed. OFFSET_MAP is an array of of - offsets that need to be added to conditions, negative offset means that - conditions relying on values passed by reference have to be discarded - because they might not be preserved (and should be considered offset zero - for other purposes). */ - -predicate -predicate::remap_after_inlining (struct inline_summary *info, - struct inline_summary *callee_info, - vec operand_map, - vec offset_map, - clause_t possible_truths, - const predicate &toplev_predicate) -{ - int i; - predicate out = true; - - /* True predicate is easy. */ - if (*this == true) - return toplev_predicate; - for (i = 0; m_clause[i]; i++) - { - clause_t clause = m_clause[i]; - int cond; - predicate clause_predicate = false; - - gcc_assert (i < max_clauses); - - for (cond = 0; cond < NUM_CONDITIONS; cond++) - /* Do we have condition we can't disprove? */ - if (clause & possible_truths & (1 << cond)) - { - predicate cond_predicate; - /* Work out if the condition can translate to predicate in the - inlined function. */ - if (cond >= predicate::first_dynamic_condition) - { - struct condition *c; - - c = &(*callee_info->conds)[cond - - - predicate::first_dynamic_condition]; - /* See if we can remap condition operand to caller's operand. - Otherwise give up. */ - if (!operand_map.exists () - || (int) operand_map.length () <= c->operand_num - || operand_map[c->operand_num] == -1 - /* TODO: For non-aggregate conditions, adding an offset is - basically an arithmetic jump function processing which - we should support in future. */ - || ((!c->agg_contents || !c->by_ref) - && offset_map[c->operand_num] > 0) - || (c->agg_contents && c->by_ref - && offset_map[c->operand_num] < 0)) - cond_predicate = true; - else - { - struct agg_position_info ap; - HOST_WIDE_INT offset_delta = offset_map[c->operand_num]; - if (offset_delta < 0) - { - gcc_checking_assert (!c->agg_contents || !c->by_ref); - offset_delta = 0; - } - gcc_assert (!c->agg_contents - || c->by_ref || offset_delta == 0); - ap.offset = c->offset + offset_delta; - ap.agg_contents = c->agg_contents; - ap.by_ref = c->by_ref; - cond_predicate = add_condition (info, - operand_map[c->operand_num], - c->size, &ap, c->code, - c->val); - } - } - /* Fixed conditions remains same, construct single - condition predicate. */ - else - cond_predicate = predicate::predicate_testing_cond (cond); - clause_predicate = clause_predicate.or_with (info->conds, - cond_predicate); - } - out &= clause_predicate; - } - out &= toplev_predicate; - return out; -} - /* Update summary information of inline clones after inlining. Compute peak stack usage. */ @@ -4175,27 +3663,6 @@ inline_generate_summary (void) } -/* Read predicate from IB. */ - -void -predicate::stream_in (struct lto_input_block *ib) -{ - clause_t clause; - int k = 0; - - do - { - gcc_assert (k <= max_clauses); - clause = m_clause[k++] = streamer_read_uhwi (ib); - } - while (clause); - - /* Zero-initialize the remaining clauses in OUT. */ - while (k <= max_clauses) - m_clause[k++] = 0; -} - - /* Write inline summary for edge E to OB. */ static void @@ -4356,21 +3823,6 @@ inline_read_summary (void) } -/* Write predicate P to OB. */ - -void -predicate::stream_out (struct output_block *ob) -{ - int j; - for (j = 0; m_clause[j]; j++) - { - gcc_assert (j < max_clauses); - streamer_write_uhwi (ob, m_clause[j]); - } - streamer_write_uhwi (ob, 0); -} - - /* Write inline summary for edge E to OB. */ static void diff --git a/gcc/ipa-inline.h b/gcc/ipa-inline.h index 8a162e9..f7dd312 100644 --- a/gcc/ipa-inline.h +++ b/gcc/ipa-inline.h @@ -22,33 +22,9 @@ along with GCC; see the file COPYING3. If not see #define GCC_IPA_INLINE_H #include "sreal.h" +#include "ipa-predicate.h" -/* Representation of inline parameters that do depend on context function is - inlined into (i.e. known constant values of function parameters. - - Conditions that are interesting for function body are collected into CONDS - vector. They are of simple for function_param OP VAL, where VAL is - IPA invariant. The conditions are then referred by predicates. */ - -struct GTY(()) condition -{ - /* If agg_contents is set, this is the offset from which the used data was - loaded. */ - HOST_WIDE_INT offset; - /* Size of the access reading the data (or the PARM_DECL SSA_NAME). */ - HOST_WIDE_INT size; - tree val; - int operand_num; - ENUM_BITFIELD(tree_code) code : 16; - /* Set if the used data were loaded from an aggregate parameter or from - data received by reference. */ - unsigned agg_contents : 1; - /* If agg_contents is set, this differentiates between loads from data - passed by reference and by value. */ - unsigned by_ref : 1; -}; - /* Inline hints are reasons why inline heuristics should preffer inlining given function. They are represtented as bitmap of the following values. */ enum inline_hints_vals { @@ -78,171 +54,19 @@ enum inline_hints_vals { /* We know that the callee is hot by profile. */ INLINE_HINT_known_hot = 256 }; -typedef int inline_hints; - -/* Information kept about parameter of call site. */ -struct inline_param_summary -{ - /* REG_BR_PROB_BASE based probability that parameter will change in between - two invocation of the calls. - I.e. loop invariant parameters - REG_BR_PROB_BASE/estimated_iterations and regular - parameters REG_BR_PROB_BASE. - - Value 0 is reserved for compile time invariants. */ - int change_prob; -}; - -typedef vec *conditions; -/* Predicates are used to repesent function parameters (such as runtime) - which depend on a context function is called in. - - Predicates are logical formulas in conjunctive-disjunctive form consisting - of clauses which are bitmaps specifying a set of condition that must - be true for a clause to be satisfied. Physically they are represented as - array of clauses terminated by 0. - - In order to make predicate (possibly) true, all of its clauses must - be (possibly) true. To make clause (possibly) true, one of conditions - it mentions must be (possibly) true. +typedef int inline_hints; - There are fixed bounds on number of clauses and conditions and all the - manipulation functions are conservative in positive direction. I.e. we - may lose precision by thinking that predicate may be true even when it - is not. */ +/* Simple description of whether a memory load or a condition refers to a load + from an aggregate and if so, how and where from in the aggregate. + Individual fields have the same meaning like fields with the same name in + struct condition. */ -typedef uint32_t clause_t; -class predicate +struct agg_position_info { -public: - enum predicate_conditions - { - false_condition = 0, - not_inlined_condition = 1, - first_dynamic_condition = 2 - }; - - /* Initialize predicate either to true of false depending on P. */ - inline predicate (bool p = true) - { - if (p) - /* True predicate. */ - m_clause[0] = 0; - else - /* False predicate. */ - set_to_cond (false_condition); - } - - /* Sanity check that we do not mix pointers to predicates with predicates. */ - inline predicate (predicate *) - { - gcc_unreachable (); - } - - /* Return predicate testing condition I. */ - static inline predicate predicate_testing_cond (int i) - { - class predicate p; - p.set_to_cond (i + first_dynamic_condition); - return p; - } - - /* Return predicate testing that function was not inlined. */ - static predicate not_inlined (void) - { - class predicate p; - p.set_to_cond (not_inlined_condition); - return p; - } - - /* Compute logical and of predicates. */ - predicate & operator &= (const predicate &); - inline predicate operator &(const predicate &p) - { - predicate ret = *this; - ret &= p; - return ret; - } - - /* Compute logical or of predicates. This is not operator because - extra parameter CONDITIONS is needed */ - predicate or_with (conditions, const predicate &) const; - - /* Return true if predicates are known to be equal. */ - inline bool operator==(const predicate &p2) const - { - int i; - for (i = 0; m_clause[i]; i++) - { - gcc_checking_assert (i < max_clauses); - gcc_checking_assert (m_clause[i] > m_clause[i + 1]); - gcc_checking_assert (!p2.m_clause[i] - || p2.m_clause[i] > p2.m_clause[i + 1]); - if (m_clause[i] != p2.m_clause[i]) - return false; - } - return !p2.m_clause[i]; - } - - /* Return true if predicates are known to be true or false depending - on COND. */ - inline bool operator==(const bool cond) const - { - if (cond) - return !m_clause[0]; - if (m_clause[0] == (1 << false_condition)) - { - gcc_checking_assert (!m_clause[1] - && m_clause[0] == 1 - << false_condition); - return true; - } - return false; - } - - inline bool operator!=(const predicate &p2) const - { - return !(*this == p2); - } - - inline bool operator!=(const bool cond) const - { - return !(*this == cond); - } - - /* Evaluate if predicate is known to be false given the clause of possible - truths. */ - bool evaluate (clause_t) const; - - /* Estimate probability that predicate will be true in a given context. */ - int probability (conditions, clause_t, vec) const; - - /* Dump predicate to F. Output newline if nl. */ - void dump (FILE *f, conditions, bool nl=true) const; - - /* Return predicate equal to THIS after duplication. */ - predicate remap_after_duplication (clause_t); - - /* Return predicate equal to THIS after inlining. */ - predicate remap_after_inlining (struct inline_summary *, - struct inline_summary *, - vec, vec, clause_t, const predicate &); - - void stream_in (struct lto_input_block *); - void stream_out (struct output_block *); -private: - static const int max_clauses = 8; - clause_t m_clause[max_clauses + 1]; - - /* Initialize predicate to one testing single condition number COND. */ - inline void set_to_cond (int cond) - { - m_clause[0] = 1 << cond; - m_clause[1] = 0; - } - - void add_clause (conditions conditions, clause_t); + HOST_WIDE_INT offset; + bool agg_contents; + bool by_ref; }; /* Represnetation of function body size and time depending on the inline diff --git a/gcc/ipa-predicate.c b/gcc/ipa-predicate.c new file mode 100644 index 0000000..660e327 --- /dev/null +++ b/gcc/ipa-predicate.c @@ -0,0 +1,573 @@ +/* IPA predicates. + Copyright (C) 2003-2017 Free Software Foundation, Inc. + Contributed by Jan Hubicka + +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 +. */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "backend.h" +#include "tree.h" +#include "cgraph.h" +#include "tree-vrp.h" +#include "symbol-summary.h" +#include "alloc-pool.h" +#include "ipa-prop.h" +#include "ipa-inline.h" +#include "real.h" +#include "fold-const.h" +#include "tree-pretty-print.h" +#include "gimple.h" +#include "data-streamer.h" + + +/* Add clause CLAUSE into the predicate P. + When CONDITIONS is NULL do not perform checking whether NEW_CLAUSE + is obviously true. This is useful only when NEW_CLAUSE is known to be + sane. */ + +void +predicate::add_clause (conditions conditions, clause_t new_clause) +{ + int i; + int i2; + int insert_here = -1; + int c1, c2; + + /* True clause. */ + if (!new_clause) + return; + + /* False clause makes the whole predicate false. Kill the other variants. */ + if (new_clause == (1 << predicate::false_condition)) + { + *this = false; + return; + } + if (*this == false) + return; + + /* No one should be silly enough to add false into nontrivial clauses. */ + gcc_checking_assert (!(new_clause & (1 << predicate::false_condition))); + + /* Look where to insert the new_clause. At the same time prune out + new_clauses of P that are implied by the new new_clause and thus + redundant. */ + for (i = 0, i2 = 0; i <= max_clauses; i++) + { + m_clause[i2] = m_clause[i]; + + if (!m_clause[i]) + break; + + /* If m_clause[i] implies new_clause, there is nothing to add. */ + if ((m_clause[i] & new_clause) == m_clause[i]) + { + /* We had nothing to add, none of clauses should've become + redundant. */ + gcc_checking_assert (i == i2); + return; + } + + if (m_clause[i] < new_clause && insert_here < 0) + insert_here = i2; + + /* If new_clause implies clause[i], then clause[i] becomes redundant. + Otherwise the clause[i] has to stay. */ + if ((m_clause[i] & new_clause) != new_clause) + i2++; + } + + /* Look for clauses that are obviously true. I.e. + op0 == 5 || op0 != 5. */ + if (conditions) + for (c1 = predicate::first_dynamic_condition; + c1 < num_conditions; c1++) + { + condition *cc1; + if (!(new_clause & (1 << c1))) + continue; + cc1 = &(*conditions)[c1 - predicate::first_dynamic_condition]; + /* We have no way to represent !changed and !is_not_constant + and thus there is no point for looking for them. */ + if (cc1->code == changed || cc1->code == is_not_constant) + continue; + for (c2 = c1 + 1; c2 < num_conditions; c2++) + if (new_clause & (1 << c2)) + { + condition *cc1 = + &(*conditions)[c1 - predicate::first_dynamic_condition]; + condition *cc2 = + &(*conditions)[c2 - predicate::first_dynamic_condition]; + if (cc1->operand_num == cc2->operand_num + && cc1->val == cc2->val + && cc2->code != is_not_constant + && cc2->code != predicate::changed + && cc1->code == invert_tree_comparison (cc2->code, + HONOR_NANS (cc1->val))) + return; + } + } + + + /* We run out of variants. Be conservative in positive direction. */ + if (i2 == max_clauses) + return; + /* Keep clauses in decreasing order. This makes equivalence testing easy. */ + m_clause[i2 + 1] = 0; + if (insert_here >= 0) + for (; i2 > insert_here; i2--) + m_clause[i2] = m_clause[i2 - 1]; + else + insert_here = i2; + m_clause[insert_here] = new_clause; +} + + +/* Do THIS &= P. */ + +predicate & +predicate::operator &= (const predicate &p) +{ + /* Avoid busy work. */ + if (p == false || *this == true) + { + *this = p; + return *this; + } + if (*this == false || p == true || this == &p) + return *this; + + int i; + + /* See how far predicates match. */ + for (i = 0; m_clause[i] && m_clause[i] == p.m_clause[i]; i++) + { + gcc_checking_assert (i < max_clauses); + } + + /* Combine the predicates rest. */ + for (; p.m_clause[i]; i++) + { + gcc_checking_assert (i < max_clauses); + add_clause (NULL, p.m_clause[i]); + } + return *this; +} + + + +/* Return THIS | P2. */ + +predicate +predicate::or_with (conditions conditions, + const predicate &p) const +{ + /* Avoid busy work. */ + if (p == false || *this == true || *this == p) + return *this; + if (*this == false || p == true) + return p; + + /* OK, combine the predicates. */ + predicate out = true; + + for (int i = 0; m_clause[i]; i++) + for (int j = 0; p.m_clause[j]; j++) + { + gcc_checking_assert (i < max_clauses && j < max_clauses); + out.add_clause (conditions, m_clause[i] | p.m_clause[j]); + } + return out; +} + + +/* Having partial truth assignment in POSSIBLE_TRUTHS, return false + if predicate P is known to be false. */ + +bool +predicate::evaluate (clause_t possible_truths) const +{ + int i; + + /* True remains true. */ + if (*this == true) + return true; + + gcc_assert (!(possible_truths & (1 << predicate::false_condition))); + + /* See if we can find clause we can disprove. */ + for (i = 0; m_clause[i]; i++) + { + gcc_checking_assert (i < max_clauses); + if (!(m_clause[i] & possible_truths)) + return false; + } + return true; +} + +/* Return the probability in range 0...REG_BR_PROB_BASE that the predicated + instruction will be recomputed per invocation of the inlined call. */ + +int +predicate::probability (conditions conds, + clause_t possible_truths, + vec inline_param_summary) const +{ + int i; + int combined_prob = REG_BR_PROB_BASE; + + /* True remains true. */ + if (*this == true) + return REG_BR_PROB_BASE; + + if (*this == false) + return 0; + + gcc_assert (!(possible_truths & (1 << predicate::false_condition))); + + /* See if we can find clause we can disprove. */ + for (i = 0; m_clause[i]; i++) + { + gcc_checking_assert (i < max_clauses); + if (!(m_clause[i] & possible_truths)) + return 0; + else + { + int this_prob = 0; + int i2; + if (!inline_param_summary.exists ()) + return REG_BR_PROB_BASE; + for (i2 = 0; i2 < num_conditions; i2++) + if ((m_clause[i] & possible_truths) & (1 << i2)) + { + if (i2 >= predicate::first_dynamic_condition) + { + condition *c = + &(*conds)[i2 - predicate::first_dynamic_condition]; + if (c->code == predicate::changed + && (c->operand_num < + (int) inline_param_summary.length ())) + { + int iprob = + inline_param_summary[c->operand_num].change_prob; + this_prob = MAX (this_prob, iprob); + } + else + this_prob = REG_BR_PROB_BASE; + } + else + this_prob = REG_BR_PROB_BASE; + } + combined_prob = MIN (this_prob, combined_prob); + if (!combined_prob) + return 0; + } + } + return combined_prob; +} + + +/* Dump conditional COND. */ + +void +dump_condition (FILE *f, conditions conditions, int cond) +{ + condition *c; + if (cond == predicate::false_condition) + fprintf (f, "false"); + else if (cond == predicate::not_inlined_condition) + fprintf (f, "not inlined"); + else + { + c = &(*conditions)[cond - predicate::first_dynamic_condition]; + fprintf (f, "op%i", c->operand_num); + if (c->agg_contents) + fprintf (f, "[%soffset: " HOST_WIDE_INT_PRINT_DEC "]", + c->by_ref ? "ref " : "", c->offset); + if (c->code == predicate::is_not_constant) + { + fprintf (f, " not constant"); + return; + } + if (c->code == predicate::changed) + { + fprintf (f, " changed"); + return; + } + fprintf (f, " %s ", op_symbol_code (c->code)); + print_generic_expr (f, c->val); + } +} + + +/* Dump clause CLAUSE. */ + +static void +dump_clause (FILE *f, conditions conds, clause_t clause) +{ + int i; + bool found = false; + fprintf (f, "("); + if (!clause) + fprintf (f, "true"); + for (i = 0; i < predicate::num_conditions; i++) + if (clause & (1 << i)) + { + if (found) + fprintf (f, " || "); + found = true; + dump_condition (f, conds, i); + } + fprintf (f, ")"); +} + + +/* Dump THIS to F. CONDS a vector of conditions used when evauating + predicats. When NL is true new line is output at the end of dump. */ + +void +predicate::dump (FILE *f, conditions conds, bool nl) const +{ + int i; + if (*this == true) + dump_clause (f, conds, 0); + else + for (i = 0; m_clause[i]; i++) + { + if (i) + fprintf (f, " && "); + dump_clause (f, conds, m_clause[i]); + } + if (nl) + fprintf (f, "\n"); +} + + +void +predicate::debug (conditions conds) const +{ + dump (stderr, conds); +} + + +/* Remap predicate THIS of former function to be predicate of duplicated function. + POSSIBLE_TRUTHS is clause of possible truths in the duplicated node, + INFO is inline summary of the duplicated node. */ + +predicate +predicate::remap_after_duplication (clause_t possible_truths) +{ + int j; + predicate out = true; + for (j = 0; m_clause[j]; j++) + if (!(possible_truths & m_clause[j])) + return false; + else + out.add_clause (NULL, possible_truths & m_clause[j]); + return out; +} + + +/* Translate all conditions from callee representation into caller + representation and symbolically evaluate predicate THIS into new predicate. + + INFO is inline_summary of function we are adding predicate into, CALLEE_INFO + is summary of function predicate P is from. OPERAND_MAP is array giving + callee formal IDs the caller formal IDs. POSSSIBLE_TRUTHS is clausule of all + callee conditions that may be true in caller context. TOPLEV_PREDICATE is + predicate under which callee is executed. OFFSET_MAP is an array of of + offsets that need to be added to conditions, negative offset means that + conditions relying on values passed by reference have to be discarded + because they might not be preserved (and should be considered offset zero + for other purposes). */ + +predicate +predicate::remap_after_inlining (struct inline_summary *info, + struct inline_summary *callee_info, + vec operand_map, + vec offset_map, + clause_t possible_truths, + const predicate &toplev_predicate) +{ + int i; + predicate out = true; + + /* True predicate is easy. */ + if (*this == true) + return toplev_predicate; + for (i = 0; m_clause[i]; i++) + { + clause_t clause = m_clause[i]; + int cond; + predicate clause_predicate = false; + + gcc_assert (i < max_clauses); + + for (cond = 0; cond < num_conditions; cond++) + /* Do we have condition we can't disprove? */ + if (clause & possible_truths & (1 << cond)) + { + predicate cond_predicate; + /* Work out if the condition can translate to predicate in the + inlined function. */ + if (cond >= predicate::first_dynamic_condition) + { + struct condition *c; + + c = &(*callee_info->conds)[cond + - + predicate::first_dynamic_condition]; + /* See if we can remap condition operand to caller's operand. + Otherwise give up. */ + if (!operand_map.exists () + || (int) operand_map.length () <= c->operand_num + || operand_map[c->operand_num] == -1 + /* TODO: For non-aggregate conditions, adding an offset is + basically an arithmetic jump function processing which + we should support in future. */ + || ((!c->agg_contents || !c->by_ref) + && offset_map[c->operand_num] > 0) + || (c->agg_contents && c->by_ref + && offset_map[c->operand_num] < 0)) + cond_predicate = true; + else + { + struct agg_position_info ap; + HOST_WIDE_INT offset_delta = offset_map[c->operand_num]; + if (offset_delta < 0) + { + gcc_checking_assert (!c->agg_contents || !c->by_ref); + offset_delta = 0; + } + gcc_assert (!c->agg_contents + || c->by_ref || offset_delta == 0); + ap.offset = c->offset + offset_delta; + ap.agg_contents = c->agg_contents; + ap.by_ref = c->by_ref; + cond_predicate = add_condition (info, + operand_map[c->operand_num], + c->size, &ap, c->code, + c->val); + } + } + /* Fixed conditions remains same, construct single + condition predicate. */ + else + cond_predicate = predicate::predicate_testing_cond (cond); + clause_predicate = clause_predicate.or_with (info->conds, + cond_predicate); + } + out &= clause_predicate; + } + out &= toplev_predicate; + return out; +} + + +/* Read predicate from IB. */ + +void +predicate::stream_in (struct lto_input_block *ib) +{ + clause_t clause; + int k = 0; + + do + { + gcc_assert (k <= max_clauses); + clause = m_clause[k++] = streamer_read_uhwi (ib); + } + while (clause); + + /* Zero-initialize the remaining clauses in OUT. */ + while (k <= max_clauses) + m_clause[k++] = 0; +} + + +/* Write predicate P to OB. */ + +void +predicate::stream_out (struct output_block *ob) +{ + int j; + for (j = 0; m_clause[j]; j++) + { + gcc_assert (j < max_clauses); + streamer_write_uhwi (ob, m_clause[j]); + } + streamer_write_uhwi (ob, 0); +} + + +/* Add condition to condition list SUMMARY. OPERAND_NUM, SIZE, CODE and VAL + correspond to fields of condition structure. AGGPOS describes whether the + used operand is loaded from an aggregate and where in the aggregate it is. + It can be NULL, which means this not a load from an aggregate. */ + +predicate +add_condition (struct inline_summary *summary, int operand_num, + HOST_WIDE_INT size, struct agg_position_info *aggpos, + enum tree_code code, tree val) +{ + int i; + struct condition *c; + struct condition new_cond; + HOST_WIDE_INT offset; + bool agg_contents, by_ref; + + if (aggpos) + { + offset = aggpos->offset; + agg_contents = aggpos->agg_contents; + by_ref = aggpos->by_ref; + } + else + { + offset = 0; + agg_contents = false; + by_ref = false; + } + + gcc_checking_assert (operand_num >= 0); + for (i = 0; vec_safe_iterate (summary->conds, i, &c); i++) + { + if (c->operand_num == operand_num + && c->size == size + && c->code == code + && c->val == val + && c->agg_contents == agg_contents + && (!agg_contents || (c->offset == offset && c->by_ref == by_ref))) + return predicate::predicate_testing_cond (i); + } + /* Too many conditions. Give up and return constant true. */ + if (i == predicate::num_conditions - predicate::first_dynamic_condition) + return true; + + new_cond.operand_num = operand_num; + new_cond.code = code; + new_cond.val = val; + new_cond.agg_contents = agg_contents; + new_cond.by_ref = by_ref; + new_cond.offset = offset; + new_cond.size = size; + vec_safe_push (summary->conds, new_cond); + + return predicate::predicate_testing_cond (i); +} diff --git a/gcc/ipa-predicate.h b/gcc/ipa-predicate.h new file mode 100644 index 0000000..9557c3f --- /dev/null +++ b/gcc/ipa-predicate.h @@ -0,0 +1,232 @@ +/* IPA predicates. + Copyright (C) 2003-2017 Free Software Foundation, Inc. + Contributed by Jan Hubicka + +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 +. */ + +/* Representation of inline parameters that do depend on context function is + inlined into (i.e. known constant values of function parameters. + + Conditions that are interesting for function body are collected into CONDS + vector. They are of simple for function_param OP VAL, where VAL is + IPA invariant. The conditions are then referred by predicates. */ + +struct GTY(()) condition +{ + /* If agg_contents is set, this is the offset from which the used data was + loaded. */ + HOST_WIDE_INT offset; + /* Size of the access reading the data (or the PARM_DECL SSA_NAME). */ + HOST_WIDE_INT size; + tree val; + int operand_num; + ENUM_BITFIELD(tree_code) code : 16; + /* Set if the used data were loaded from an aggregate parameter or from + data received by reference. */ + unsigned agg_contents : 1; + /* If agg_contents is set, this differentiates between loads from data + passed by reference and by value. */ + unsigned by_ref : 1; +}; + +/* Information kept about parameter of call site. */ +struct inline_param_summary +{ + /* REG_BR_PROB_BASE based probability that parameter will change in between + two invocation of the calls. + I.e. loop invariant parameters + REG_BR_PROB_BASE/estimated_iterations and regular + parameters REG_BR_PROB_BASE. + + Value 0 is reserved for compile time invariants. */ + int change_prob; +}; + +typedef vec *conditions; + +/* Predicates are used to repesent function parameters (such as runtime) + which depend on a context function is called in. + + Predicates are logical formulas in conjunctive-disjunctive form consisting + of clauses which are bitmaps specifying a set of condition that must + be true for a clause to be satisfied. Physically they are represented as + array of clauses terminated by 0. + + In order to make predicate (possibly) true, all of its clauses must + be (possibly) true. To make clause (possibly) true, one of conditions + it mentions must be (possibly) true. + + There are fixed bounds on number of clauses and conditions and all the + manipulation functions are conservative in positive direction. I.e. we + may lose precision by thinking that predicate may be true even when it + is not. */ + +typedef uint32_t clause_t; +class predicate +{ +public: + enum predicate_conditions + { + false_condition = 0, + not_inlined_condition = 1, + first_dynamic_condition = 2 + }; + + /* Maximal number of conditions predicate can reffer to. This is limited + by using clause_t to be 32bit. */ + static const int num_conditions = 32; + + /* Special condition code we use to represent test that operand is compile + time constant. */ + static const tree_code is_not_constant = ERROR_MARK; + + /* Special condition code we use to represent test that operand is not changed + across invocation of the function. When operand IS_NOT_CONSTANT it is + always CHANGED, however i.e. loop invariants can be NOT_CHANGED given + percentage of executions even when they are not compile time constants. */ + static const tree_code changed = IDENTIFIER_NODE; + + + + /* Initialize predicate either to true of false depending on P. */ + inline predicate (bool p = true) + { + if (p) + /* True predicate. */ + m_clause[0] = 0; + else + /* False predicate. */ + set_to_cond (false_condition); + } + + /* Sanity check that we do not mix pointers to predicates with predicates. */ + inline predicate (predicate *) + { + gcc_unreachable (); + } + + /* Return predicate testing condition I. */ + static inline predicate predicate_testing_cond (int i) + { + class predicate p; + p.set_to_cond (i + first_dynamic_condition); + return p; + } + + /* Return predicate testing that function was not inlined. */ + static predicate not_inlined (void) + { + class predicate p; + p.set_to_cond (not_inlined_condition); + return p; + } + + /* Compute logical and of predicates. */ + predicate & operator &= (const predicate &); + inline predicate operator &(const predicate &p) + { + predicate ret = *this; + ret &= p; + return ret; + } + + /* Compute logical or of predicates. This is not operator because + extra parameter CONDITIONS is needed */ + predicate or_with (conditions, const predicate &) const; + + /* Return true if predicates are known to be equal. */ + inline bool operator==(const predicate &p2) const + { + int i; + for (i = 0; m_clause[i]; i++) + { + gcc_checking_assert (i < max_clauses); + gcc_checking_assert (m_clause[i] > m_clause[i + 1]); + gcc_checking_assert (!p2.m_clause[i] + || p2.m_clause[i] > p2.m_clause[i + 1]); + if (m_clause[i] != p2.m_clause[i]) + return false; + } + return !p2.m_clause[i]; + } + + /* Return true if predicates are known to be true or false depending + on COND. */ + inline bool operator==(const bool cond) const + { + if (cond) + return !m_clause[0]; + if (m_clause[0] == (1 << false_condition)) + { + gcc_checking_assert (!m_clause[1] + && m_clause[0] == 1 + << false_condition); + return true; + } + return false; + } + + inline bool operator!=(const predicate &p2) const + { + return !(*this == p2); + } + + inline bool operator!=(const bool cond) const + { + return !(*this == cond); + } + + /* Evaluate if predicate is known to be false given the clause of possible + truths. */ + bool evaluate (clause_t) const; + + /* Estimate probability that predicate will be true in a given context. */ + int probability (conditions, clause_t, vec) const; + + /* Dump predicate to F. Output newline if nl. */ + void dump (FILE *f, conditions, bool nl=true) const; + void DEBUG_FUNCTION debug (conditions) const; + + /* Return predicate equal to THIS after duplication. */ + predicate remap_after_duplication (clause_t); + + /* Return predicate equal to THIS after inlining. */ + predicate remap_after_inlining (struct inline_summary *, + struct inline_summary *, + vec, vec, clause_t, const predicate &); + + void stream_in (struct lto_input_block *); + void stream_out (struct output_block *); + +private: + static const int max_clauses = 8; + clause_t m_clause[max_clauses + 1]; + + /* Initialize predicate to one testing single condition number COND. */ + inline void set_to_cond (int cond) + { + m_clause[0] = 1 << cond; + m_clause[1] = 0; + } + + void add_clause (conditions conditions, clause_t); +}; + +void dump_condition (FILE *f, conditions conditions, int cond); +predicate add_condition (struct inline_summary *summary, int operand_num, + HOST_WIDE_INT size, struct agg_position_info *aggpos, + enum tree_code code, tree val); -- 2.7.4