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|
/* Transformations based on profile information for values.
Copyright (C) 2003, 2004, 2005, 2006, 2007 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "rtl.h"
#include "expr.h"
#include "hard-reg-set.h"
#include "basic-block.h"
#include "value-prof.h"
#include "output.h"
#include "flags.h"
#include "insn-config.h"
#include "recog.h"
#include "optabs.h"
#include "regs.h"
#include "ggc.h"
#include "tree-flow.h"
#include "tree-flow-inline.h"
#include "diagnostic.h"
#include "coverage.h"
#include "tree.h"
#include "gcov-io.h"
#include "cgraph.h"
#include "timevar.h"
#include "tree-pass.h"
#include "toplev.h"
#include "pointer-set.h"
static struct value_prof_hooks *value_prof_hooks;
/* In this file value profile based optimizations are placed. Currently the
following optimizations are implemented (for more detailed descriptions
see comments at value_profile_transformations):
1) Division/modulo specialization. Provided that we can determine that the
operands of the division have some special properties, we may use it to
produce more effective code.
2) Speculative prefetching. If we are able to determine that the difference
between addresses accessed by a memory reference is usually constant, we
may add the prefetch instructions.
FIXME: This transformation was removed together with RTL based value
profiling.
3) Indirect/virtual call specialization. If we can determine most
common function callee in indirect/virtual call. We can use this
information to improve code effectiveness (especially info for
inliner).
Every such optimization should add its requirements for profiled values to
insn_values_to_profile function. This function is called from branch_prob
in profile.c and the requested values are instrumented by it in the first
compilation with -fprofile-arcs. The optimization may then read the
gathered data in the second compilation with -fbranch-probabilities.
The measured data is pointed to from the histograms
field of the statement annotation of the instrumented insns. It is
kept as a linked list of struct histogram_value_t's, which contain the
same information as above. */
static tree tree_divmod_fixed_value (tree, tree, tree, tree,
tree, int, gcov_type, gcov_type);
static tree tree_mod_pow2 (tree, tree, tree, tree, int, gcov_type, gcov_type);
static tree tree_mod_subtract (tree, tree, tree, tree, int, int, int,
gcov_type, gcov_type, gcov_type);
static bool tree_divmod_fixed_value_transform (tree);
static bool tree_mod_pow2_value_transform (tree);
static bool tree_mod_subtract_transform (tree);
static bool tree_stringops_transform (block_stmt_iterator *);
static bool tree_ic_transform (tree);
/* Allocate histogram value. */
static histogram_value
gimple_alloc_histogram_value (struct function *fun ATTRIBUTE_UNUSED,
enum hist_type type, tree stmt, tree value)
{
histogram_value hist = (histogram_value) xcalloc (1, sizeof (*hist));
hist->hvalue.value = value;
hist->hvalue.stmt = stmt;
hist->type = type;
return hist;
}
/* Hash value for histogram. */
static hashval_t
histogram_hash (const void *x)
{
return htab_hash_pointer (((const_histogram_value)x)->hvalue.stmt);
}
/* Return nonzero if decl_id of die_struct X is the same as UID of decl *Y. */
static int
histogram_eq (const void *x, const void *y)
{
return ((const_histogram_value) x)->hvalue.stmt == (const_tree)y;
}
/* Set histogram for STMT. */
static void
set_histogram_value (struct function *fun, tree stmt, histogram_value hist)
{
void **loc;
if (!hist && !VALUE_HISTOGRAMS (fun))
return;
if (!VALUE_HISTOGRAMS (fun))
VALUE_HISTOGRAMS (fun) = htab_create (1, histogram_hash,
histogram_eq, NULL);
loc = htab_find_slot_with_hash (VALUE_HISTOGRAMS (fun), stmt,
htab_hash_pointer (stmt),
hist ? INSERT : NO_INSERT);
if (!hist)
{
if (loc)
htab_clear_slot (VALUE_HISTOGRAMS (fun), loc);
return;
}
*loc = hist;
}
/* Get histogram list for STMT. */
histogram_value
gimple_histogram_value (struct function *fun, tree stmt)
{
if (!VALUE_HISTOGRAMS (fun))
return NULL;
return htab_find_with_hash (VALUE_HISTOGRAMS (fun), stmt,
htab_hash_pointer (stmt));
}
/* Add histogram for STMT. */
void
gimple_add_histogram_value (struct function *fun, tree stmt, histogram_value hist)
{
hist->hvalue.next = gimple_histogram_value (fun, stmt);
set_histogram_value (fun, stmt, hist);
}
/* Remove histogram HIST from STMT's histogram list. */
void
gimple_remove_histogram_value (struct function *fun, tree stmt, histogram_value hist)
{
histogram_value hist2 = gimple_histogram_value (fun, stmt);
if (hist == hist2)
{
set_histogram_value (fun, stmt, hist->hvalue.next);
}
else
{
while (hist2->hvalue.next != hist)
hist2 = hist2->hvalue.next;
hist2->hvalue.next = hist->hvalue.next;
}
free (hist->hvalue.counters);
#ifdef ENABLE_CHECKING
memset (hist, 0xab, sizeof (*hist));
#endif
free (hist);
}
/* Lookup histogram of type TYPE in the STMT. */
histogram_value
gimple_histogram_value_of_type (struct function *fun, tree stmt, enum hist_type type)
{
histogram_value hist;
for (hist = gimple_histogram_value (fun, stmt); hist; hist = hist->hvalue.next)
if (hist->type == type)
return hist;
return NULL;
}
/* Dump information about HIST to DUMP_FILE. */
static void
dump_histogram_value (FILE *dump_file, histogram_value hist)
{
switch (hist->type)
{
case HIST_TYPE_INTERVAL:
fprintf (dump_file, "Interval counter range %d -- %d",
hist->hdata.intvl.int_start,
(hist->hdata.intvl.int_start
+ hist->hdata.intvl.steps - 1));
if (hist->hvalue.counters)
{
unsigned int i;
fprintf(dump_file, " [");
for (i = 0; i < hist->hdata.intvl.steps; i++)
fprintf (dump_file, " %d:"HOST_WIDEST_INT_PRINT_DEC,
hist->hdata.intvl.int_start + i,
(HOST_WIDEST_INT) hist->hvalue.counters[i]);
fprintf (dump_file, " ] outside range:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[i]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_POW2:
fprintf (dump_file, "Pow2 counter ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "pow2:"HOST_WIDEST_INT_PRINT_DEC
" nonpow2:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0],
(HOST_WIDEST_INT) hist->hvalue.counters[1]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_SINGLE_VALUE:
fprintf (dump_file, "Single value ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "value:"HOST_WIDEST_INT_PRINT_DEC
" match:"HOST_WIDEST_INT_PRINT_DEC
" wrong:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0],
(HOST_WIDEST_INT) hist->hvalue.counters[1],
(HOST_WIDEST_INT) hist->hvalue.counters[2]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_AVERAGE:
fprintf (dump_file, "Average value ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "sum:"HOST_WIDEST_INT_PRINT_DEC
" times:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0],
(HOST_WIDEST_INT) hist->hvalue.counters[1]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_IOR:
fprintf (dump_file, "IOR value ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "ior:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_CONST_DELTA:
fprintf (dump_file, "Constant delta ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "value:"HOST_WIDEST_INT_PRINT_DEC
" match:"HOST_WIDEST_INT_PRINT_DEC
" wrong:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0],
(HOST_WIDEST_INT) hist->hvalue.counters[1],
(HOST_WIDEST_INT) hist->hvalue.counters[2]);
}
fprintf (dump_file, ".\n");
break;
case HIST_TYPE_INDIR_CALL:
fprintf (dump_file, "Indirect call ");
if (hist->hvalue.counters)
{
fprintf (dump_file, "value:"HOST_WIDEST_INT_PRINT_DEC
" match:"HOST_WIDEST_INT_PRINT_DEC
" all:"HOST_WIDEST_INT_PRINT_DEC,
(HOST_WIDEST_INT) hist->hvalue.counters[0],
(HOST_WIDEST_INT) hist->hvalue.counters[1],
(HOST_WIDEST_INT) hist->hvalue.counters[2]);
}
fprintf (dump_file, ".\n");
break;
}
}
/* Dump all histograms attached to STMT to DUMP_FILE. */
void
dump_histograms_for_stmt (struct function *fun, FILE *dump_file, tree stmt)
{
histogram_value hist;
for (hist = gimple_histogram_value (fun, stmt); hist; hist = hist->hvalue.next)
dump_histogram_value (dump_file, hist);
}
/* Remove all histograms associated with STMT. */
void
gimple_remove_stmt_histograms (struct function *fun, tree stmt)
{
histogram_value val;
while ((val = gimple_histogram_value (fun, stmt)) != NULL)
gimple_remove_histogram_value (fun, stmt, val);
}
/* Duplicate all histograms associates with OSTMT to STMT. */
void
gimple_duplicate_stmt_histograms (struct function *fun, tree stmt,
struct function *ofun, tree ostmt)
{
histogram_value val;
for (val = gimple_histogram_value (ofun, ostmt); val != NULL; val = val->hvalue.next)
{
histogram_value new = gimple_alloc_histogram_value (fun, val->type, NULL, NULL);
memcpy (new, val, sizeof (*val));
new->hvalue.stmt = stmt;
new->hvalue.counters = xmalloc (sizeof (*new->hvalue.counters) * new->n_counters);
memcpy (new->hvalue.counters, val->hvalue.counters, sizeof (*new->hvalue.counters) * new->n_counters);
gimple_add_histogram_value (fun, stmt, new);
}
}
static bool error_found = false;
/* Helper function for verify_histograms. For each histogram reachable via htab
walk verify that it was reached via statement walk. */
static int
visit_hist (void **slot, void *data)
{
struct pointer_set_t *visited = (struct pointer_set_t *) data;
histogram_value hist = *(histogram_value *) slot;
if (!pointer_set_contains (visited, hist))
{
error ("Dead histogram");
dump_histogram_value (stderr, hist);
debug_generic_stmt (hist->hvalue.stmt);
error_found = true;
}
return 1;
}
/* Verify sanity of the histograms. */
void
verify_histograms (void)
{
basic_block bb;
block_stmt_iterator bsi;
histogram_value hist;
struct pointer_set_t *visited_hists;
error_found = false;
visited_hists = pointer_set_create ();
FOR_EACH_BB (bb)
for (bsi = bsi_start (bb); !bsi_end_p (bsi); bsi_next (&bsi))
{
tree stmt = bsi_stmt (bsi);
for (hist = gimple_histogram_value (cfun, stmt); hist; hist = hist->hvalue.next)
{
if (hist->hvalue.stmt != stmt)
{
error ("Histogram value statement does not correspond to statement"
" it is associated with");
debug_generic_stmt (stmt);
dump_histogram_value (stderr, hist);
error_found = true;
}
pointer_set_insert (visited_hists, hist);
}
}
if (VALUE_HISTOGRAMS (cfun))
htab_traverse (VALUE_HISTOGRAMS (cfun), visit_hist, visited_hists);
pointer_set_destroy (visited_hists);
if (error_found)
internal_error ("verify_histograms failed");
}
/* Helper function for verify_histograms. For each histogram reachable via htab
walk verify that it was reached via statement walk. */
static int
free_hist (void **slot, void *data ATTRIBUTE_UNUSED)
{
histogram_value hist = *(histogram_value *) slot;
free (hist->hvalue.counters);
#ifdef ENABLE_CHECKING
memset (hist, 0xab, sizeof (*hist));
#endif
free (hist);
return 1;
}
void
free_histograms (void)
{
if (VALUE_HISTOGRAMS (cfun))
{
htab_traverse (VALUE_HISTOGRAMS (cfun), free_hist, NULL);
htab_delete (VALUE_HISTOGRAMS (cfun));
VALUE_HISTOGRAMS (cfun) = NULL;
}
}
/* The overall number of invocations of the counter should match execution count
of basic block. Report it as error rather than internal error as it might
mean that user has misused the profile somehow. */
static bool
check_counter (tree stmt, const char * name, gcov_type all, gcov_type bb_count)
{
if (all != bb_count)
{
location_t * locus;
locus = (stmt != NULL && EXPR_HAS_LOCATION (stmt)
? EXPR_LOCUS (stmt)
: &DECL_SOURCE_LOCATION (current_function_decl));
error ("%HCorrupted value profile: %s profiler overall count (%d) does not match BB count (%d)",
locus, name, (int)all, (int)bb_count);
return true;
}
return false;
}
/* Tree based transformations. */
static bool
tree_value_profile_transformations (void)
{
basic_block bb;
block_stmt_iterator bsi;
bool changed = false;
FOR_EACH_BB (bb)
{
for (bsi = bsi_start (bb); !bsi_end_p (bsi); bsi_next (&bsi))
{
tree stmt = bsi_stmt (bsi);
histogram_value th = gimple_histogram_value (cfun, stmt);
if (!th)
continue;
if (dump_file)
{
fprintf (dump_file, "Trying transformations on stmt ");
print_generic_stmt (dump_file, stmt, TDF_SLIM);
dump_histograms_for_stmt (cfun, dump_file, stmt);
}
/* Transformations: */
/* The order of things in this conditional controls which
transformation is used when more than one is applicable. */
/* It is expected that any code added by the transformations
will be added before the current statement, and that the
current statement remain valid (although possibly
modified) upon return. */
if (flag_value_profile_transformations
&& (tree_mod_subtract_transform (stmt)
|| tree_divmod_fixed_value_transform (stmt)
|| tree_mod_pow2_value_transform (stmt)
|| tree_stringops_transform (&bsi)
|| tree_ic_transform (stmt)))
{
stmt = bsi_stmt (bsi);
changed = true;
/* Original statement may no longer be in the same block. */
if (bb != bb_for_stmt (stmt))
{
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
}
}
}
}
if (changed)
{
counts_to_freqs ();
}
return changed;
}
/* Generate code for transformation 1 (with OPERATION, operands OP1
and OP2, whose value is expected to be VALUE, parent modify-expr STMT and
probability of taking the optimal path PROB, which is equivalent to COUNT/ALL
within roundoff error). This generates the result into a temp and returns
the temp; it does not replace or alter the original STMT. */
static tree
tree_divmod_fixed_value (tree stmt, tree operation,
tree op1, tree op2, tree value, int prob, gcov_type count,
gcov_type all)
{
tree stmt1, stmt2, stmt3;
tree tmp1, tmp2, tmpv;
tree label_decl1 = create_artificial_label ();
tree label_decl2 = create_artificial_label ();
tree label1, label2;
tree bb1end, bb2end, bb3end;
basic_block bb, bb2, bb3, bb4;
tree optype = TREE_TYPE (operation);
edge e12, e13, e23, e24, e34;
block_stmt_iterator bsi;
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
tmpv = create_tmp_var (optype, "PROF");
tmp1 = create_tmp_var (optype, "PROF");
stmt1 = build_gimple_modify_stmt (tmpv, fold_convert (optype, value));
stmt2 = build_gimple_modify_stmt (tmp1, op2);
stmt3 = build3 (COND_EXPR, void_type_node,
build2 (NE_EXPR, boolean_type_node, tmp1, tmpv),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt3, BSI_SAME_STMT);
bb1end = stmt3;
tmp2 = create_tmp_var (optype, "PROF");
label1 = build1 (LABEL_EXPR, void_type_node, label_decl1);
stmt1 = build_gimple_modify_stmt (tmp2,
build2 (TREE_CODE (operation), optype,
op1, tmpv));
bsi_insert_before (&bsi, label1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb2end = stmt1;
label2 = build1 (LABEL_EXPR, void_type_node, label_decl2);
stmt1 = build_gimple_modify_stmt (tmp2,
build2 (TREE_CODE (operation), optype,
op1, op2));
bsi_insert_before (&bsi, label2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb3end = stmt1;
/* Fix CFG. */
/* Edge e23 connects bb2 to bb3, etc. */
e12 = split_block (bb, bb1end);
bb2 = e12->dest;
bb2->count = count;
e23 = split_block (bb2, bb2end);
bb3 = e23->dest;
bb3->count = all - count;
e34 = split_block (bb3, bb3end);
bb4 = e34->dest;
bb4->count = all;
e12->flags &= ~EDGE_FALLTHRU;
e12->flags |= EDGE_FALSE_VALUE;
e12->probability = prob;
e12->count = count;
e13 = make_edge (bb, bb3, EDGE_TRUE_VALUE);
e13->probability = REG_BR_PROB_BASE - prob;
e13->count = all - count;
remove_edge (e23);
e24 = make_edge (bb2, bb4, EDGE_FALLTHRU);
e24->probability = REG_BR_PROB_BASE;
e24->count = count;
e34->probability = REG_BR_PROB_BASE;
e34->count = all - count;
return tmp2;
}
/* Do transform 1) on INSN if applicable. */
static bool
tree_divmod_fixed_value_transform (tree stmt)
{
histogram_value histogram;
enum tree_code code;
gcov_type val, count, all;
tree modify, op, op1, op2, result, value, tree_val;
int prob;
modify = stmt;
if (TREE_CODE (stmt) == RETURN_EXPR
&& TREE_OPERAND (stmt, 0)
&& TREE_CODE (TREE_OPERAND (stmt, 0)) == GIMPLE_MODIFY_STMT)
modify = TREE_OPERAND (stmt, 0);
if (TREE_CODE (modify) != GIMPLE_MODIFY_STMT)
return false;
op = GIMPLE_STMT_OPERAND (modify, 1);
if (!INTEGRAL_TYPE_P (TREE_TYPE (op)))
return false;
code = TREE_CODE (op);
if (code != TRUNC_DIV_EXPR && code != TRUNC_MOD_EXPR)
return false;
op1 = TREE_OPERAND (op, 0);
op2 = TREE_OPERAND (op, 1);
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_SINGLE_VALUE);
if (!histogram)
return false;
value = histogram->hvalue.value;
val = histogram->hvalue.counters[0];
count = histogram->hvalue.counters[1];
all = histogram->hvalue.counters[2];
gimple_remove_histogram_value (cfun, stmt, histogram);
/* We require that count is at least half of all; this means
that for the transformation to fire the value must be constant
at least 50% of time (and 75% gives the guarantee of usage). */
if (simple_cst_equal (op2, value) != 1 || 2 * count < all
|| !maybe_hot_bb_p (bb_for_stmt (stmt)))
return false;
if (check_counter (stmt, "value", all, bb_for_stmt (stmt)->count))
return false;
/* Compute probability of taking the optimal path. */
prob = (count * REG_BR_PROB_BASE + all / 2) / all;
tree_val = build_int_cst_wide (get_gcov_type (),
(unsigned HOST_WIDE_INT) val,
val >> (HOST_BITS_PER_WIDE_INT - 1) >> 1);
result = tree_divmod_fixed_value (stmt, op, op1, op2, tree_val, prob, count, all);
if (dump_file)
{
fprintf (dump_file, "Div/mod by constant ");
print_generic_expr (dump_file, value, TDF_SLIM);
fprintf (dump_file, "=");
print_generic_expr (dump_file, tree_val, TDF_SLIM);
fprintf (dump_file, " transformation on insn ");
print_generic_stmt (dump_file, stmt, TDF_SLIM);
}
GIMPLE_STMT_OPERAND (modify, 1) = result;
return true;
}
/* Generate code for transformation 2 (with OPERATION, operands OP1
and OP2, parent modify-expr STMT and probability of taking the optimal
path PROB, which is equivalent to COUNT/ALL within roundoff error).
This generates the result into a temp and returns
the temp; it does not replace or alter the original STMT. */
static tree
tree_mod_pow2 (tree stmt, tree operation, tree op1, tree op2, int prob,
gcov_type count, gcov_type all)
{
tree stmt1, stmt2, stmt3, stmt4;
tree tmp2, tmp3;
tree label_decl1 = create_artificial_label ();
tree label_decl2 = create_artificial_label ();
tree label1, label2;
tree bb1end, bb2end, bb3end;
basic_block bb, bb2, bb3, bb4;
tree optype = TREE_TYPE (operation);
edge e12, e13, e23, e24, e34;
block_stmt_iterator bsi;
tree result = create_tmp_var (optype, "PROF");
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
tmp2 = create_tmp_var (optype, "PROF");
tmp3 = create_tmp_var (optype, "PROF");
stmt2 = build_gimple_modify_stmt (tmp2,
build2 (PLUS_EXPR, optype, op2,
build_int_cst (optype, -1)));
stmt3 = build_gimple_modify_stmt (tmp3,
build2 (BIT_AND_EXPR, optype, tmp2, op2));
stmt4 = build3 (COND_EXPR, void_type_node,
build2 (NE_EXPR, boolean_type_node,
tmp3, build_int_cst (optype, 0)),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt3, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt4, BSI_SAME_STMT);
bb1end = stmt4;
/* tmp2 == op2-1 inherited from previous block */
label1 = build1 (LABEL_EXPR, void_type_node, label_decl1);
stmt1 = build_gimple_modify_stmt (result,
build2 (BIT_AND_EXPR, optype, op1, tmp2));
bsi_insert_before (&bsi, label1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb2end = stmt1;
label2 = build1 (LABEL_EXPR, void_type_node, label_decl2);
stmt1 = build_gimple_modify_stmt (result,
build2 (TREE_CODE (operation), optype,
op1, op2));
bsi_insert_before (&bsi, label2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb3end = stmt1;
/* Fix CFG. */
/* Edge e23 connects bb2 to bb3, etc. */
e12 = split_block (bb, bb1end);
bb2 = e12->dest;
bb2->count = count;
e23 = split_block (bb2, bb2end);
bb3 = e23->dest;
bb3->count = all - count;
e34 = split_block (bb3, bb3end);
bb4 = e34->dest;
bb4->count = all;
e12->flags &= ~EDGE_FALLTHRU;
e12->flags |= EDGE_FALSE_VALUE;
e12->probability = prob;
e12->count = count;
e13 = make_edge (bb, bb3, EDGE_TRUE_VALUE);
e13->probability = REG_BR_PROB_BASE - prob;
e13->count = all - count;
remove_edge (e23);
e24 = make_edge (bb2, bb4, EDGE_FALLTHRU);
e24->probability = REG_BR_PROB_BASE;
e24->count = count;
e34->probability = REG_BR_PROB_BASE;
e34->count = all - count;
return result;
}
/* Do transform 2) on INSN if applicable. */
static bool
tree_mod_pow2_value_transform (tree stmt)
{
histogram_value histogram;
enum tree_code code;
gcov_type count, wrong_values, all;
tree modify, op, op1, op2, result, value;
int prob;
modify = stmt;
if (TREE_CODE (stmt) == RETURN_EXPR
&& TREE_OPERAND (stmt, 0)
&& TREE_CODE (TREE_OPERAND (stmt, 0)) == GIMPLE_MODIFY_STMT)
modify = TREE_OPERAND (stmt, 0);
if (TREE_CODE (modify) != GIMPLE_MODIFY_STMT)
return false;
op = GIMPLE_STMT_OPERAND (modify, 1);
if (!INTEGRAL_TYPE_P (TREE_TYPE (op)))
return false;
code = TREE_CODE (op);
if (code != TRUNC_MOD_EXPR || !TYPE_UNSIGNED (TREE_TYPE (op)))
return false;
op1 = TREE_OPERAND (op, 0);
op2 = TREE_OPERAND (op, 1);
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_POW2);
if (!histogram)
return false;
value = histogram->hvalue.value;
wrong_values = histogram->hvalue.counters[0];
count = histogram->hvalue.counters[1];
gimple_remove_histogram_value (cfun, stmt, histogram);
/* We require that we hit a power of 2 at least half of all evaluations. */
if (simple_cst_equal (op2, value) != 1 || count < wrong_values
|| !maybe_hot_bb_p (bb_for_stmt (stmt)))
return false;
if (dump_file)
{
fprintf (dump_file, "Mod power of 2 transformation on insn ");
print_generic_stmt (dump_file, stmt, TDF_SLIM);
}
/* Compute probability of taking the optimal path. */
all = count + wrong_values;
if (check_counter (stmt, "pow2", all, bb_for_stmt (stmt)->count))
return false;
prob = (count * REG_BR_PROB_BASE + all / 2) / all;
result = tree_mod_pow2 (stmt, op, op1, op2, prob, count, all);
GIMPLE_STMT_OPERAND (modify, 1) = result;
return true;
}
/* Generate code for transformations 3 and 4 (with OPERATION, operands OP1
and OP2, parent modify-expr STMT, and NCOUNTS the number of cases to
support. Currently only NCOUNTS==0 or 1 is supported and this is
built into this interface. The probabilities of taking the optimal
paths are PROB1 and PROB2, which are equivalent to COUNT1/ALL and
COUNT2/ALL respectively within roundoff error). This generates the
result into a temp and returns the temp; it does not replace or alter
the original STMT. */
/* FIXME: Generalize the interface to handle NCOUNTS > 1. */
static tree
tree_mod_subtract (tree stmt, tree operation, tree op1, tree op2,
int prob1, int prob2, int ncounts,
gcov_type count1, gcov_type count2, gcov_type all)
{
tree stmt1, stmt2, stmt3;
tree tmp1;
tree label_decl1 = create_artificial_label ();
tree label_decl2 = create_artificial_label ();
tree label_decl3 = create_artificial_label ();
tree label1, label2, label3;
tree bb1end, bb2end = NULL_TREE, bb3end;
basic_block bb, bb2, bb3, bb4;
tree optype = TREE_TYPE (operation);
edge e12, e23 = 0, e24, e34, e14;
block_stmt_iterator bsi;
tree result = create_tmp_var (optype, "PROF");
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
tmp1 = create_tmp_var (optype, "PROF");
stmt1 = build_gimple_modify_stmt (result, op1);
stmt2 = build_gimple_modify_stmt (tmp1, op2);
stmt3 = build3 (COND_EXPR, void_type_node,
build2 (LT_EXPR, boolean_type_node, result, tmp1),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt3, BSI_SAME_STMT);
bb1end = stmt3;
if (ncounts) /* Assumed to be 0 or 1 */
{
label1 = build1 (LABEL_EXPR, void_type_node, label_decl1);
stmt1 = build_gimple_modify_stmt (result,
build2 (MINUS_EXPR, optype,
result, tmp1));
stmt2 = build3 (COND_EXPR, void_type_node,
build2 (LT_EXPR, boolean_type_node, result, tmp1),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, label1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bb2end = stmt2;
}
/* Fallback case. */
label2 = build1 (LABEL_EXPR, void_type_node, label_decl2);
stmt1 = build_gimple_modify_stmt (result,
build2 (TREE_CODE (operation), optype,
result, tmp1));
bsi_insert_before (&bsi, label2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb3end = stmt1;
label3 = build1 (LABEL_EXPR, void_type_node, label_decl3);
bsi_insert_before (&bsi, label3, BSI_SAME_STMT);
/* Fix CFG. */
/* Edge e23 connects bb2 to bb3, etc. */
/* However block 3 is optional; if it is not there, references
to 3 really refer to block 2. */
e12 = split_block (bb, bb1end);
bb2 = e12->dest;
bb2->count = all - count1;
if (ncounts) /* Assumed to be 0 or 1. */
{
e23 = split_block (bb2, bb2end);
bb3 = e23->dest;
bb3->count = all - count1 - count2;
}
e34 = split_block (ncounts ? bb3 : bb2, bb3end);
bb4 = e34->dest;
bb4->count = all;
e12->flags &= ~EDGE_FALLTHRU;
e12->flags |= EDGE_FALSE_VALUE;
e12->probability = REG_BR_PROB_BASE - prob1;
e12->count = all - count1;
e14 = make_edge (bb, bb4, EDGE_TRUE_VALUE);
e14->probability = prob1;
e14->count = count1;
if (ncounts) /* Assumed to be 0 or 1. */
{
e23->flags &= ~EDGE_FALLTHRU;
e23->flags |= EDGE_FALSE_VALUE;
e23->count = all - count1 - count2;
e23->probability = REG_BR_PROB_BASE - prob2;
e24 = make_edge (bb2, bb4, EDGE_TRUE_VALUE);
e24->probability = prob2;
e24->count = count2;
}
e34->probability = REG_BR_PROB_BASE;
e34->count = all - count1 - count2;
return result;
}
/* Do transforms 3) and 4) on INSN if applicable. */
static bool
tree_mod_subtract_transform (tree stmt)
{
histogram_value histogram;
enum tree_code code;
gcov_type count, wrong_values, all;
tree modify, op, op1, op2, result, value;
int prob1, prob2;
unsigned int i, steps;
gcov_type count1, count2;
modify = stmt;
if (TREE_CODE (stmt) == RETURN_EXPR
&& TREE_OPERAND (stmt, 0)
&& TREE_CODE (TREE_OPERAND (stmt, 0)) == GIMPLE_MODIFY_STMT)
modify = TREE_OPERAND (stmt, 0);
if (TREE_CODE (modify) != GIMPLE_MODIFY_STMT)
return false;
op = GIMPLE_STMT_OPERAND (modify, 1);
if (!INTEGRAL_TYPE_P (TREE_TYPE (op)))
return false;
code = TREE_CODE (op);
if (code != TRUNC_MOD_EXPR || !TYPE_UNSIGNED (TREE_TYPE (op)))
return false;
op1 = TREE_OPERAND (op, 0);
op2 = TREE_OPERAND (op, 1);
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_INTERVAL);
if (!histogram)
return false;
value = histogram->hvalue.value;
all = 0;
wrong_values = 0;
for (i = 0; i < histogram->hdata.intvl.steps; i++)
all += histogram->hvalue.counters[i];
wrong_values += histogram->hvalue.counters[i];
wrong_values += histogram->hvalue.counters[i+1];
steps = histogram->hdata.intvl.steps;
all += wrong_values;
count1 = histogram->hvalue.counters[0];
count2 = histogram->hvalue.counters[1];
/* Compute probability of taking the optimal path. */
if (check_counter (stmt, "interval", all, bb_for_stmt (stmt)->count))
{
gimple_remove_histogram_value (cfun, stmt, histogram);
return false;
}
/* We require that we use just subtractions in at least 50% of all
evaluations. */
count = 0;
for (i = 0; i < histogram->hdata.intvl.steps; i++)
{
count += histogram->hvalue.counters[i];
if (count * 2 >= all)
break;
}
if (i == steps
|| !maybe_hot_bb_p (bb_for_stmt (stmt)))
return false;
gimple_remove_histogram_value (cfun, stmt, histogram);
if (dump_file)
{
fprintf (dump_file, "Mod subtract transformation on insn ");
print_generic_stmt (dump_file, stmt, TDF_SLIM);
}
/* Compute probability of taking the optimal path(s). */
prob1 = (count1 * REG_BR_PROB_BASE + all / 2) / all;
prob2 = (count2 * REG_BR_PROB_BASE + all / 2) / all;
/* In practice, "steps" is always 2. This interface reflects this,
and will need to be changed if "steps" can change. */
result = tree_mod_subtract (stmt, op, op1, op2, prob1, prob2, i,
count1, count2, all);
GIMPLE_STMT_OPERAND (modify, 1) = result;
return true;
}
static struct cgraph_node** pid_map = NULL;
/* Initialize map of pids (pid -> cgraph node) */
static void
init_pid_map (void)
{
struct cgraph_node *n;
if (pid_map != NULL)
return;
pid_map
= (struct cgraph_node**) xmalloc (sizeof (struct cgraph_node*) * cgraph_max_pid);
for (n = cgraph_nodes; n; n = n->next)
{
if (n->pid != -1)
pid_map [n->pid] = n;
}
}
/* Return cgraph node for function with pid */
static inline struct cgraph_node*
find_func_by_pid (int pid)
{
init_pid_map ();
return pid_map [pid];
}
/* Do transformation
if (actual_callee_addres == addres_of_most_common_function/method)
do direct call
else
old call
*/
static tree
tree_ic (tree stmt, tree call, struct cgraph_node* direct_call,
int prob, gcov_type count, gcov_type all)
{
tree stmt1, stmt2, stmt3;
tree tmp1, tmpv, tmp;
tree label_decl1 = create_artificial_label ();
tree label_decl2 = create_artificial_label ();
tree label1, label2;
tree bb1end, bb2end, bb3end;
tree new_call;
basic_block bb, bb2, bb3, bb4;
tree optype = build_pointer_type (void_type_node);
edge e12, e13, e23, e24, e34;
block_stmt_iterator bsi;
int region;
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
tmpv = create_tmp_var (optype, "PROF");
tmp1 = create_tmp_var (optype, "PROF");
stmt1 = build_gimple_modify_stmt (tmpv,
unshare_expr (CALL_EXPR_FN (call)));
tmp = fold_convert (optype, build_addr (direct_call->decl,
current_function_decl));
stmt2 = build_gimple_modify_stmt (tmp1, tmp);
stmt3 = build3 (COND_EXPR, void_type_node,
build2 (NE_EXPR, boolean_type_node, tmp1, tmpv),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt3, BSI_SAME_STMT);
bb1end = stmt3;
label1 = build1 (LABEL_EXPR, void_type_node, label_decl1);
stmt1 = unshare_expr (stmt);
new_call = get_call_expr_in (stmt1);
CALL_EXPR_FN (new_call) = build_addr (direct_call->decl,
current_function_decl);
bsi_insert_before (&bsi, label1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bb2end = stmt1;
label2 = build1 (LABEL_EXPR, void_type_node, label_decl2);
bsi_insert_before (&bsi, label2, BSI_SAME_STMT);
bb3end = stmt;
/* Fix CFG. */
/* Edge e23 connects bb2 to bb3, etc. */
e12 = split_block (bb, bb1end);
bb2 = e12->dest;
bb2->count = count;
e23 = split_block (bb2, bb2end);
bb3 = e23->dest;
bb3->count = all - count;
e34 = split_block (bb3, bb3end);
bb4 = e34->dest;
bb4->count = all;
e12->flags &= ~EDGE_FALLTHRU;
e12->flags |= EDGE_FALSE_VALUE;
e12->probability = prob;
e12->count = count;
e13 = make_edge (bb, bb3, EDGE_TRUE_VALUE);
e13->probability = REG_BR_PROB_BASE - prob;
e13->count = all - count;
remove_edge (e23);
e24 = make_edge (bb2, bb4, EDGE_FALLTHRU);
e24->probability = REG_BR_PROB_BASE;
e24->count = count;
e34->probability = REG_BR_PROB_BASE;
e34->count = all - count;
/* Fix eh edges */
region = lookup_stmt_eh_region (stmt);
if (region >=0 && tree_could_throw_p (stmt1))
{
add_stmt_to_eh_region (stmt1, region);
make_eh_edges (stmt1);
}
if (region >=0 && tree_could_throw_p (stmt))
{
tree_purge_dead_eh_edges (bb4);
make_eh_edges (stmt);
}
return stmt1;
}
/*
For every checked indirect/virtual call determine if most common pid of
function/class method has probability more than 50%. If yes modify code of
this call to:
*/
static bool
tree_ic_transform (tree stmt)
{
histogram_value histogram;
gcov_type val, count, all;
int prob;
tree call, callee, modify;
struct cgraph_node *direct_call;
call = get_call_expr_in (stmt);
if (!call || TREE_CODE (call) != CALL_EXPR)
return false;
callee = CALL_EXPR_FN (call);
if (TREE_CODE (callee) == ADDR_EXPR)
return false;
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_INDIR_CALL);
if (!histogram)
return false;
val = histogram->hvalue.counters [0];
count = histogram->hvalue.counters [1];
all = histogram->hvalue.counters [2];
gimple_remove_histogram_value (cfun, stmt, histogram);
if (4 * count <= 3 * all)
return false;
prob = (count * REG_BR_PROB_BASE + all / 2) / all;
direct_call = find_func_by_pid ((int)val);
if (direct_call == NULL)
return false;
modify = tree_ic (stmt, call, direct_call, prob, count, all);
if (dump_file)
{
fprintf (dump_file, "Indirect call -> direct call ");
print_generic_expr (dump_file, call, TDF_SLIM);
fprintf (dump_file, "=> ");
print_generic_expr (dump_file, direct_call->decl, TDF_SLIM);
fprintf (dump_file, " transformation on insn ");
print_generic_stmt (dump_file, stmt, TDF_SLIM);
fprintf (dump_file, " to ");
print_generic_stmt (dump_file, modify, TDF_SLIM);
}
return true;
}
/* Return true if the stringop CALL with FNDECL shall be profiled. */
static bool
interesting_stringop_to_profile_p (tree fndecl, tree call)
{
enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
if (fcode != BUILT_IN_MEMSET && fcode != BUILT_IN_MEMCPY
&& fcode != BUILT_IN_BZERO)
return false;
switch (fcode)
{
case BUILT_IN_MEMCPY:
case BUILT_IN_MEMPCPY:
return validate_arglist (call,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE,
VOID_TYPE);
case BUILT_IN_MEMSET:
return validate_arglist (call,
POINTER_TYPE, INTEGER_TYPE, INTEGER_TYPE,
VOID_TYPE);
case BUILT_IN_BZERO:
return validate_arglist (call, POINTER_TYPE, INTEGER_TYPE,
VOID_TYPE);
default:
gcc_unreachable ();
}
}
/* Convert stringop (..., size)
into
if (size == VALUE)
stringop (...., VALUE);
else
stringop (...., size);
assuming constant propagation of VALUE will happen later.
*/
static void
tree_stringop_fixed_value (tree stmt, tree value, int prob, gcov_type count,
gcov_type all)
{
tree stmt1, stmt2, stmt3;
tree tmp1, tmpv;
tree label_decl1 = create_artificial_label ();
tree label_decl2 = create_artificial_label ();
tree label1, label2;
tree bb1end, bb2end;
basic_block bb, bb2, bb3, bb4;
edge e12, e13, e23, e24, e34;
block_stmt_iterator bsi;
tree call = get_call_expr_in (stmt);
tree blck_size = CALL_EXPR_ARG (call, 2);
tree optype = TREE_TYPE (blck_size);
int region;
bb = bb_for_stmt (stmt);
bsi = bsi_for_stmt (stmt);
if (bsi_end_p (bsi))
{
edge_iterator ei;
for (ei = ei_start (bb->succs); (e34 = ei_safe_edge (ei)); )
if (!e34->flags & EDGE_ABNORMAL)
break;
}
else
{
e34 = split_block (bb, stmt);
bsi = bsi_for_stmt (stmt);
}
bb4 = e34->dest;
tmpv = create_tmp_var (optype, "PROF");
tmp1 = create_tmp_var (optype, "PROF");
stmt1 = build_gimple_modify_stmt (tmpv, fold_convert (optype, value));
stmt2 = build_gimple_modify_stmt (tmp1, blck_size);
stmt3 = build3 (COND_EXPR, void_type_node,
build2 (NE_EXPR, boolean_type_node, tmp1, tmpv),
NULL_TREE, NULL_TREE);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt2, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt3, BSI_SAME_STMT);
bb1end = stmt3;
label1 = build1 (LABEL_EXPR, void_type_node, label_decl1);
stmt1 = unshare_expr (stmt);
call = get_call_expr_in (stmt1);
CALL_EXPR_ARG (call, 2) = value;
bsi_insert_before (&bsi, label1, BSI_SAME_STMT);
bsi_insert_before (&bsi, stmt1, BSI_SAME_STMT);
region = lookup_stmt_eh_region (stmt);
if (region >= 0)
add_stmt_to_eh_region (stmt1, region);
bb2end = stmt1;
label2 = build1 (LABEL_EXPR, void_type_node, label_decl2);
bsi_insert_before (&bsi, label2, BSI_SAME_STMT);
/* Fix CFG. */
/* Edge e23 connects bb2 to bb3, etc. */
e12 = split_block (bb, bb1end);
bb2 = e12->dest;
bb2->count = count;
e23 = split_block (bb2, bb2end);
bb3 = e23->dest;
bb3->count = all - count;
e12->flags &= ~EDGE_FALLTHRU;
e12->flags |= EDGE_FALSE_VALUE;
e12->probability = prob;
e12->count = count;
e13 = make_edge (bb, bb3, EDGE_TRUE_VALUE);
e13->probability = REG_BR_PROB_BASE - prob;
e13->count = all - count;
remove_edge (e23);
e24 = make_edge (bb2, bb4, EDGE_FALLTHRU);
e24->probability = REG_BR_PROB_BASE;
e24->count = count;
e34->probability = REG_BR_PROB_BASE;
e34->count = all - count;
}
/* Find values inside STMT for that we want to measure histograms for
division/modulo optimization. */
static bool
tree_stringops_transform (block_stmt_iterator *bsi)
{
tree stmt = bsi_stmt (*bsi);
tree call = get_call_expr_in (stmt);
tree fndecl;
tree blck_size;
enum built_in_function fcode;
histogram_value histogram;
gcov_type count, all, val;
tree value;
tree dest, src;
unsigned int dest_align, src_align;
int prob;
tree tree_val;
if (!call)
return false;
fndecl = get_callee_fndecl (call);
if (!fndecl)
return false;
fcode = DECL_FUNCTION_CODE (fndecl);
if (!interesting_stringop_to_profile_p (fndecl, call))
return false;
if (fcode == BUILT_IN_BZERO)
blck_size = CALL_EXPR_ARG (call, 1);
else
blck_size = CALL_EXPR_ARG (call, 2);
if (TREE_CODE (blck_size) == INTEGER_CST)
return false;
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_SINGLE_VALUE);
if (!histogram)
return false;
value = histogram->hvalue.value;
val = histogram->hvalue.counters[0];
count = histogram->hvalue.counters[1];
all = histogram->hvalue.counters[2];
gimple_remove_histogram_value (cfun, stmt, histogram);
/* We require that count is at least half of all; this means
that for the transformation to fire the value must be constant
at least 80% of time. */
if ((6 * count / 5) < all || !maybe_hot_bb_p (bb_for_stmt (stmt)))
return false;
if (check_counter (stmt, "value", all, bb_for_stmt (stmt)->count))
return false;
prob = (count * REG_BR_PROB_BASE + all / 2) / all;
dest = CALL_EXPR_ARG (call, 0);
dest_align = get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
switch (fcode)
{
case BUILT_IN_MEMCPY:
case BUILT_IN_MEMPCPY:
src = CALL_EXPR_ARG (call, 1);
src_align = get_pointer_alignment (src, BIGGEST_ALIGNMENT);
if (!can_move_by_pieces (val, MIN (dest_align, src_align)))
return false;
break;
case BUILT_IN_MEMSET:
if (!can_store_by_pieces (val, builtin_memset_read_str,
CALL_EXPR_ARG (call, 1),
dest_align, true))
return false;
break;
case BUILT_IN_BZERO:
if (!can_store_by_pieces (val, builtin_memset_read_str,
integer_zero_node,
dest_align, true))
return false;
break;
default:
gcc_unreachable ();
}
tree_val = build_int_cst_wide (get_gcov_type (),
(unsigned HOST_WIDE_INT) val,
val >> (HOST_BITS_PER_WIDE_INT - 1) >> 1);
if (dump_file)
{
fprintf (dump_file, "Single value %i stringop transformation on ",
(int)val);
print_generic_stmt (dump_file, stmt, TDF_SLIM);
}
tree_stringop_fixed_value (stmt, tree_val, prob, count, all);
return true;
}
void
stringop_block_profile (tree stmt, unsigned int *expected_align,
HOST_WIDE_INT *expected_size)
{
histogram_value histogram;
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_AVERAGE);
if (!histogram)
*expected_size = -1;
else if (!histogram->hvalue.counters[1])
{
*expected_size = -1;
gimple_remove_histogram_value (cfun, stmt, histogram);
}
else
{
gcov_type size;
size = ((histogram->hvalue.counters[0]
+ histogram->hvalue.counters[1] / 2)
/ histogram->hvalue.counters[1]);
/* Even if we can hold bigger value in SIZE, INT_MAX
is safe "infinity" for code generation strategies. */
if (size > INT_MAX)
size = INT_MAX;
*expected_size = size;
gimple_remove_histogram_value (cfun, stmt, histogram);
}
histogram = gimple_histogram_value_of_type (cfun, stmt, HIST_TYPE_IOR);
if (!histogram)
*expected_align = 0;
else if (!histogram->hvalue.counters[0])
{
gimple_remove_histogram_value (cfun, stmt, histogram);
*expected_align = 0;
}
else
{
gcov_type count;
int alignment;
count = histogram->hvalue.counters[0];
alignment = 1;
while (!(count & alignment)
&& (alignment * 2 * BITS_PER_UNIT))
alignment <<= 1;
*expected_align = alignment * BITS_PER_UNIT;
gimple_remove_histogram_value (cfun, stmt, histogram);
}
}
struct value_prof_hooks {
/* Find list of values for which we want to measure histograms. */
void (*find_values_to_profile) (histogram_values *);
/* Identify and exploit properties of values that are hard to analyze
statically. See value-prof.c for more detail. */
bool (*value_profile_transformations) (void);
};
/* Find values inside STMT for that we want to measure histograms for
division/modulo optimization. */
static void
tree_divmod_values_to_profile (tree stmt, histogram_values *values)
{
tree assign, lhs, rhs, divisor, op0, type;
histogram_value hist;
if (TREE_CODE (stmt) == RETURN_EXPR)
assign = TREE_OPERAND (stmt, 0);
else
assign = stmt;
if (!assign
|| TREE_CODE (assign) != GIMPLE_MODIFY_STMT)
return;
lhs = GIMPLE_STMT_OPERAND (assign, 0);
type = TREE_TYPE (lhs);
if (!INTEGRAL_TYPE_P (type))
return;
rhs = GIMPLE_STMT_OPERAND (assign, 1);
switch (TREE_CODE (rhs))
{
case TRUNC_DIV_EXPR:
case TRUNC_MOD_EXPR:
divisor = TREE_OPERAND (rhs, 1);
op0 = TREE_OPERAND (rhs, 0);
VEC_reserve (histogram_value, heap, *values, 3);
if (is_gimple_reg (divisor))
/* Check for the case where the divisor is the same value most
of the time. */
VEC_quick_push (histogram_value, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_SINGLE_VALUE,
stmt, divisor));
/* For mod, check whether it is not often a noop (or replaceable by
a few subtractions). */
if (TREE_CODE (rhs) == TRUNC_MOD_EXPR
&& TYPE_UNSIGNED (type))
{
tree val;
/* Check for a special case where the divisor is power of 2. */
VEC_quick_push (histogram_value, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_POW2,
stmt, divisor));
val = build2 (TRUNC_DIV_EXPR, type, op0, divisor);
hist = gimple_alloc_histogram_value (cfun, HIST_TYPE_INTERVAL,
stmt, val);
hist->hdata.intvl.int_start = 0;
hist->hdata.intvl.steps = 2;
VEC_quick_push (histogram_value, *values, hist);
}
return;
default:
return;
}
}
/* Find calls inside STMT for that we want to measure histograms for
indirect/virtual call optimization. */
static void
tree_indirect_call_to_profile (tree stmt, histogram_values *values)
{
tree call;
tree callee;
call = get_call_expr_in (stmt);
if (!call || TREE_CODE (call) != CALL_EXPR)
return;
callee = CALL_EXPR_FN (call);
if (TREE_CODE (callee) == ADDR_EXPR)
return;
VEC_reserve (histogram_value, heap, *values, 3);
VEC_quick_push (histogram_value, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_INDIR_CALL,
stmt, callee));
return;
}
/* Find values inside STMT for that we want to measure histograms for
string operations. */
static void
tree_stringops_values_to_profile (tree stmt, histogram_values *values)
{
tree call = get_call_expr_in (stmt);
tree fndecl;
tree blck_size;
tree dest;
enum built_in_function fcode;
if (!call)
return;
fndecl = get_callee_fndecl (call);
if (!fndecl)
return;
fcode = DECL_FUNCTION_CODE (fndecl);
if (!interesting_stringop_to_profile_p (fndecl, call))
return;
dest = CALL_EXPR_ARG (call, 0);
if (fcode == BUILT_IN_BZERO)
blck_size = CALL_EXPR_ARG (call, 1);
else
blck_size = CALL_EXPR_ARG (call, 2);
if (TREE_CODE (blck_size) != INTEGER_CST)
{
VEC_safe_push (histogram_value, heap, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_SINGLE_VALUE,
stmt, blck_size));
VEC_safe_push (histogram_value, heap, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_AVERAGE,
stmt, blck_size));
}
if (TREE_CODE (blck_size) != INTEGER_CST)
VEC_safe_push (histogram_value, heap, *values,
gimple_alloc_histogram_value (cfun, HIST_TYPE_IOR,
stmt, dest));
}
/* Find values inside STMT for that we want to measure histograms and adds
them to list VALUES. */
static void
tree_values_to_profile (tree stmt, histogram_values *values)
{
if (flag_value_profile_transformations)
{
tree_divmod_values_to_profile (stmt, values);
tree_stringops_values_to_profile (stmt, values);
tree_indirect_call_to_profile (stmt, values);
}
}
static void
tree_find_values_to_profile (histogram_values *values)
{
basic_block bb;
block_stmt_iterator bsi;
unsigned i;
histogram_value hist = NULL;
*values = NULL;
FOR_EACH_BB (bb)
for (bsi = bsi_start (bb); !bsi_end_p (bsi); bsi_next (&bsi))
tree_values_to_profile (bsi_stmt (bsi), values);
for (i = 0; VEC_iterate (histogram_value, *values, i, hist); i++)
{
switch (hist->type)
{
case HIST_TYPE_INTERVAL:
hist->n_counters = hist->hdata.intvl.steps + 2;
break;
case HIST_TYPE_POW2:
hist->n_counters = 2;
break;
case HIST_TYPE_SINGLE_VALUE:
hist->n_counters = 3;
break;
case HIST_TYPE_CONST_DELTA:
hist->n_counters = 4;
break;
case HIST_TYPE_INDIR_CALL:
hist->n_counters = 3;
break;
case HIST_TYPE_AVERAGE:
hist->n_counters = 2;
break;
case HIST_TYPE_IOR:
hist->n_counters = 1;
break;
default:
gcc_unreachable ();
}
if (dump_file)
{
fprintf (dump_file, "Stmt ");
print_generic_expr (dump_file, hist->hvalue.stmt, TDF_SLIM);
dump_histogram_value (dump_file, hist);
}
}
}
static struct value_prof_hooks tree_value_prof_hooks = {
tree_find_values_to_profile,
tree_value_profile_transformations
};
void
tree_register_value_prof_hooks (void)
{
gcc_assert (current_ir_type () == IR_GIMPLE);
value_prof_hooks = &tree_value_prof_hooks;
}
/* IR-independent entry points. */
void
find_values_to_profile (histogram_values *values)
{
(value_prof_hooks->find_values_to_profile) (values);
}
bool
value_profile_transformations (void)
{
return (value_prof_hooks->value_profile_transformations) ();
}
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