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authorAditya Kumar <aditya.k7@samsung.com>2015-08-18 13:27:54 -0500
committerAditya Kumar <aditya.k7@samsung.com>2015-08-27 14:48:08 -0500
commit56c1a4fd4bb668f7981497688c4feae55d524aac (patch)
treebf8584455a8369d4b36713e57948eee0e1c9c628
parent4eb84d2bc49c3e210e30683186b4f9272994f026 (diff)
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PR tree-optimization/52563, tree-optimization/62173
commit 5fe66b3cf99994fd9c8c68cea43aa1cf42eaa76d Author: amker <amker@138bc75d-0d04-0410-961f-82ee72b054a4> Date: Tue Jun 2 03:33:35 2015 +0000 PR tree-optimization/52563 PR tree-optimization/62173 * tree-ssa-loop-ivopts.c (struct iv): New field. Reorder fields. (alloc_iv, set_iv): New parameter. (determine_biv_step): Delete. (find_bivs): Inline original determine_biv_step. Pass new argument to set_iv. (idx_find_step): Use no_overflow information for conversion. * tree-scalar-evolution.c (analyze_scalar_evolution_in_loop): Let resolve_mixers handle folded_casts. (instantiate_scev_name): Change bool parameter to bool pointer. (instantiate_scev_poly, instantiate_scev_binary): Ditto. (instantiate_array_ref, instantiate_scev_not): Ditto. (instantiate_scev_3, instantiate_scev_2): Ditto. (instantiate_scev_1, instantiate_scev_r): Ditto. (instantiate_scev_convert, ): Change parameter. Pass argument to chrec_convert_aggressive. (instantiate_scev): Change argument. (resolve_mixers): New parameter and set it. (scev_const_prop): New argument. * tree-scalar-evolution.h (resolve_mixers): New parameter. * tree-chrec.c (convert_affine_scev): Call chrec_convert instead of chrec_conert_1. (chrec_convert): New parameter. Move definition below. (chrec_convert_aggressive): New parameter and set it. Call convert_affine_scev. * tree-chrec.h (chrec_convert): New parameter. (chrec_convert_aggressive): Ditto. gcc/testsuite/ChangeLog PR tree-optimization/52563 PR tree-optimization/62173 * gcc.dg/tree-ssa/scev-3.c: Remove xfail. * gcc.dg/tree-ssa/scev-4.c: Ditto. git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@224009 138bc75d-0d04-0410-961f-82ee72b054a4
-rw-r--r--gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-3.c2
-rw-r--r--gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-4.c2
-rw-r--r--gcc-4.9/gcc/tree-chrec.c104
-rw-r--r--gcc-4.9/gcc/tree-chrec.h4
-rw-r--r--gcc-4.9/gcc/tree-scalar-evolution.c138
-rw-r--r--gcc-4.9/gcc/tree-scalar-evolution.h2
-rw-r--r--gcc-4.9/gcc/tree-ssa-loop-ivopts.c58
7 files changed, 171 insertions, 139 deletions
diff --git a/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-3.c b/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-3.c
index 5cac1cefb..28d5c9327 100644
--- a/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-3.c
+++ b/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-3.c
@@ -14,5 +14,5 @@ f(int k)
}
}
-/* { dg-final { scan-tree-dump-times "&a" 1 "optimized" { xfail { lp64 || llp64 } } } } */
+/* { dg-final { scan-tree-dump-times "&a" 1 "optimized" } } */
/* { dg-final { cleanup-tree-dump "optimized" } } */
diff --git a/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-4.c b/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-4.c
index 5f15d622d..6c1e530a9 100644
--- a/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-4.c
+++ b/gcc-4.9/gcc/testsuite/gcc.dg/tree-ssa/scev-4.c
@@ -19,5 +19,5 @@ f(int k)
}
}
-/* { dg-final { scan-tree-dump-times "&a" 1 "optimized" { xfail { lp64 || llp64 } } } } */
+/* { dg-final { scan-tree-dump-times "&a" 1 "optimized" } } */
/* { dg-final { cleanup-tree-dump "optimized" } } */
diff --git a/gcc-4.9/gcc/tree-chrec.c b/gcc-4.9/gcc/tree-chrec.c
index b9350f015..3e34c65dc 100644
--- a/gcc-4.9/gcc/tree-chrec.c
+++ b/gcc-4.9/gcc/tree-chrec.c
@@ -1162,8 +1162,6 @@ nb_vars_in_chrec (tree chrec)
}
}
-static tree chrec_convert_1 (tree, tree, gimple, bool);
-
/* Converts BASE and STEP of affine scev to TYPE. LOOP is the loop whose iv
the scev corresponds to. AT_STMT is the statement at that the scev is
evaluated. USE_OVERFLOW_SEMANTICS is true if this function should assume that
@@ -1238,8 +1236,7 @@ convert_affine_scev (struct loop *loop, tree type,
use_overflow_semantics))
return false;
- new_base = chrec_convert_1 (type, *base, at_stmt,
- use_overflow_semantics);
+ new_base = chrec_convert (type, *base, at_stmt, use_overflow_semantics);
/* The step must be sign extended, regardless of the signedness
of CT and TYPE. This only needs to be handled specially when
CT is unsigned -- to avoid e.g. unsigned char [100, +, 255]
@@ -1250,10 +1247,11 @@ convert_affine_scev (struct loop *loop, tree type,
if (TYPE_PRECISION (step_type) > TYPE_PRECISION (ct) && TYPE_UNSIGNED (ct))
{
tree signed_ct = build_nonstandard_integer_type (TYPE_PRECISION (ct), 0);
- new_step = chrec_convert_1 (signed_ct, new_step, at_stmt,
- use_overflow_semantics);
+ new_step = chrec_convert (signed_ct, new_step, at_stmt,
+ use_overflow_semantics);
}
- new_step = chrec_convert_1 (step_type, new_step, at_stmt, use_overflow_semantics);
+ new_step = chrec_convert (step_type, new_step, at_stmt,
+ use_overflow_semantics);
if (automatically_generated_chrec_p (new_base)
|| automatically_generated_chrec_p (new_step))
@@ -1290,36 +1288,6 @@ chrec_convert_rhs (tree type, tree chrec, gimple at_stmt)
determining a more accurate estimation of the number of iterations.
By default AT_STMT could be safely set to NULL_TREE.
- The following rule is always true: TREE_TYPE (chrec) ==
- TREE_TYPE (CHREC_LEFT (chrec)) == TREE_TYPE (CHREC_RIGHT (chrec)).
- An example of what could happen when adding two chrecs and the type
- of the CHREC_RIGHT is different than CHREC_LEFT is:
-
- {(uint) 0, +, (uchar) 10} +
- {(uint) 0, +, (uchar) 250}
-
- that would produce a wrong result if CHREC_RIGHT is not (uint):
-
- {(uint) 0, +, (uchar) 4}
-
- instead of
-
- {(uint) 0, +, (uint) 260}
-*/
-
-tree
-chrec_convert (tree type, tree chrec, gimple at_stmt)
-{
- return chrec_convert_1 (type, chrec, at_stmt, true);
-}
-
-/* Convert CHREC to TYPE. When the analyzer knows the context in
- which the CHREC is built, it sets AT_STMT to the statement that
- contains the definition of the analyzed variable, otherwise the
- conversion is less accurate: the information is used for
- determining a more accurate estimation of the number of iterations.
- By default AT_STMT could be safely set to NULL_TREE.
-
USE_OVERFLOW_SEMANTICS is true if this function should assume that
the rules for overflow of the given language apply (e.g., that signed
arithmetics in C does not overflow) -- i.e., to use them to avoid unnecessary
@@ -1404,15 +1372,53 @@ keep_cast:
return res;
}
+/* Convert CHREC to TYPE. When the analyzer knows the context in
+ which the CHREC is built, it sets AT_STMT to the statement that
+ contains the definition of the analyzed variable, otherwise the
+ conversion is less accurate: the information is used for
+ determining a more accurate estimation of the number of iterations.
+ By default AT_STMT could be safely set to NULL_TREE.
+
+ The following rule is always true: TREE_TYPE (chrec) ==
+ TREE_TYPE (CHREC_LEFT (chrec)) == TREE_TYPE (CHREC_RIGHT (chrec)).
+ An example of what could happen when adding two chrecs and the type
+ of the CHREC_RIGHT is different than CHREC_LEFT is:
+
+ {(uint) 0, +, (uchar) 10} +
+ {(uint) 0, +, (uchar) 250}
+
+ that would produce a wrong result if CHREC_RIGHT is not (uint):
+
+ {(uint) 0, +, (uchar) 4}
+
+ instead of
+
+ {(uint) 0, +, (uint) 260}
+
+ USE_OVERFLOW_SEMANTICS is true if this function should assume that
+ the rules for overflow of the given language apply (e.g., that signed
+ arithmetics in C does not overflow) -- i.e., to use them to avoid unnecessary
+ tests, but also to enforce that the result follows them. */
+
+tree
+chrec_convert (tree type, tree chrec, gimple at_stmt,
+ bool use_overflow_semantics)
+{
+ return chrec_convert_1 (type, chrec, at_stmt, use_overflow_semantics);
+}
+
/* Convert CHREC to TYPE, without regard to signed overflows. Returns the new
chrec if something else than what chrec_convert would do happens, NULL_TREE
- otherwise. */
+ otherwise. This function set TRUE to variable pointed by FOLD_CONVERSIONS
+ if the result chrec may overflow. */
tree
-chrec_convert_aggressive (tree type, tree chrec)
+chrec_convert_aggressive (tree type, tree chrec, bool *fold_conversions)
{
tree inner_type, left, right, lc, rc, rtype;
+ gcc_assert (fold_conversions != NULL);
+
if (automatically_generated_chrec_p (chrec)
|| TREE_CODE (chrec) != POLYNOMIAL_CHREC)
return NULL_TREE;
@@ -1421,17 +1427,33 @@ chrec_convert_aggressive (tree type, tree chrec)
if (TYPE_PRECISION (type) > TYPE_PRECISION (inner_type))
return NULL_TREE;
+ if (useless_type_conversion_p (type, inner_type))
+ return NULL_TREE;
+
+ if (!*fold_conversions && evolution_function_is_affine_p (chrec))
+ {
+ tree base, step;
+ struct loop *loop;
+
+ loop = get_chrec_loop (chrec);
+ base = CHREC_LEFT (chrec);
+ step = CHREC_RIGHT (chrec);
+ if (convert_affine_scev (loop, type, &base, &step, NULL, true))
+ return build_polynomial_chrec (loop->num, base, step);
+ }
rtype = POINTER_TYPE_P (type) ? sizetype : type;
left = CHREC_LEFT (chrec);
right = CHREC_RIGHT (chrec);
- lc = chrec_convert_aggressive (type, left);
+ lc = chrec_convert_aggressive (type, left, fold_conversions);
if (!lc)
lc = chrec_convert (type, left, NULL);
- rc = chrec_convert_aggressive (rtype, right);
+ rc = chrec_convert_aggressive (rtype, right, fold_conversions);
if (!rc)
rc = chrec_convert (rtype, right, NULL);
+ *fold_conversions = true;
+
return build_polynomial_chrec (CHREC_VARIABLE (chrec), lc, rc);
}
diff --git a/gcc-4.9/gcc/tree-chrec.h b/gcc-4.9/gcc/tree-chrec.h
index 90cc7a74b..ea4627751 100644
--- a/gcc-4.9/gcc/tree-chrec.h
+++ b/gcc-4.9/gcc/tree-chrec.h
@@ -59,9 +59,9 @@ enum ev_direction scev_direction (const_tree);
extern tree chrec_fold_plus (tree, tree, tree);
extern tree chrec_fold_minus (tree, tree, tree);
extern tree chrec_fold_multiply (tree, tree, tree);
-extern tree chrec_convert (tree, tree, gimple);
+extern tree chrec_convert (tree, tree, gimple, bool = true);
extern tree chrec_convert_rhs (tree, tree, gimple);
-extern tree chrec_convert_aggressive (tree, tree);
+extern tree chrec_convert_aggressive (tree, tree, bool *);
/* Operations. */
extern tree chrec_apply (unsigned, tree, tree);
diff --git a/gcc-4.9/gcc/tree-scalar-evolution.c b/gcc-4.9/gcc/tree-scalar-evolution.c
index f1ddc24b1..218baa406 100644
--- a/gcc-4.9/gcc/tree-scalar-evolution.c
+++ b/gcc-4.9/gcc/tree-scalar-evolution.c
@@ -2116,7 +2116,7 @@ analyze_scalar_evolution_in_loop (struct loop *wrto_loop, struct loop *use_loop,
/* We cannot just do
tmp = analyze_scalar_evolution (use_loop, version);
- ev = resolve_mixers (wrto_loop, tmp);
+ ev = resolve_mixers (wrto_loop, tmp, folded_casts);
as resolve_mixers would query the scalar evolution with respect to
wrto_loop. For example, in the situation described in the function
@@ -2125,9 +2125,9 @@ analyze_scalar_evolution_in_loop (struct loop *wrto_loop, struct loop *use_loop,
analyze_scalar_evolution (use_loop, version) = k2
- and resolve_mixers (loop1, k2) finds that the value of k2 in loop 1
- is 100, which is a wrong result, since we are interested in the
- value in loop 3.
+ and resolve_mixers (loop1, k2, folded_casts) finds that the value of
+ k2 in loop 1 is 100, which is a wrong result, since we are interested
+ in the value in loop 3.
Instead, we need to proceed from use_loop to wrto_loop loop by loop,
each time checking that there is no evolution in the inner loop. */
@@ -2137,10 +2137,7 @@ analyze_scalar_evolution_in_loop (struct loop *wrto_loop, struct loop *use_loop,
while (1)
{
tmp = analyze_scalar_evolution (use_loop, ev);
- ev = resolve_mixers (use_loop, tmp);
-
- if (folded_casts && tmp != ev)
- *folded_casts = true;
+ ev = resolve_mixers (use_loop, tmp, folded_casts);
if (use_loop == wrto_loop)
return ev;
@@ -2262,7 +2259,7 @@ loop_closed_phi_def (tree var)
}
static tree instantiate_scev_r (basic_block, struct loop *, struct loop *,
- tree, bool, int);
+ tree, bool *, int);
/* Analyze all the parameters of the chrec, between INSTANTIATE_BELOW
and EVOLUTION_LOOP, that were left under a symbolic form.
@@ -2271,9 +2268,10 @@ static tree instantiate_scev_r (basic_block, struct loop *, struct loop *,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2282,7 +2280,7 @@ static tree
instantiate_scev_name (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
- bool fold_conversions,
+ bool *fold_conversions,
int size_expr)
{
tree res;
@@ -2376,9 +2374,10 @@ instantiate_scev_name (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2386,7 +2385,7 @@ instantiate_scev_name (basic_block instantiate_below,
static tree
instantiate_scev_poly (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *,
- tree chrec, bool fold_conversions, int size_expr)
+ tree chrec, bool *fold_conversions, int size_expr)
{
tree op1;
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
@@ -2420,9 +2419,10 @@ instantiate_scev_poly (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2432,7 +2432,7 @@ instantiate_scev_binary (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec, enum tree_code code,
tree type, tree c0, tree c1,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op1;
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop, inner_loop,
@@ -2478,9 +2478,10 @@ instantiate_scev_binary (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2488,7 +2489,7 @@ instantiate_scev_binary (basic_block instantiate_below,
static tree
instantiate_array_ref (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
- tree chrec, bool fold_conversions, int size_expr)
+ tree chrec, bool *fold_conversions, int size_expr)
{
tree res;
tree index = TREE_OPERAND (chrec, 1);
@@ -2515,9 +2516,10 @@ instantiate_array_ref (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2526,7 +2528,7 @@ static tree
instantiate_scev_convert (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec, tree type, tree op,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
inner_loop, op,
@@ -2537,19 +2539,21 @@ instantiate_scev_convert (basic_block instantiate_below,
if (fold_conversions)
{
- tree tmp = chrec_convert_aggressive (type, op0);
+ tree tmp = chrec_convert_aggressive (type, op0, fold_conversions);
if (tmp)
return tmp;
- }
- if (chrec && op0 == op)
- return chrec;
+ /* If we used chrec_convert_aggressive, we can no longer assume that
+ signed chrecs do not overflow, as chrec_convert does, so avoid
+ calling it in that case. */
+ if (*fold_conversions)
+ {
+ if (chrec && op0 == op)
+ return chrec;
- /* If we used chrec_convert_aggressive, we can no longer assume that
- signed chrecs do not overflow, as chrec_convert does, so avoid
- calling it in that case. */
- if (fold_conversions)
- return fold_convert (type, op0);
+ return fold_convert (type, op0);
+ }
+ }
return chrec_convert (type, op0, NULL);
}
@@ -2563,9 +2567,10 @@ instantiate_scev_convert (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2575,7 +2580,7 @@ instantiate_scev_not (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
enum tree_code code, tree type, tree op,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
inner_loop, op,
@@ -2613,9 +2618,10 @@ instantiate_scev_not (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2624,7 +2630,7 @@ static tree
instantiate_scev_3 (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op1, op2;
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
@@ -2661,9 +2667,10 @@ instantiate_scev_3 (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2672,7 +2679,7 @@ static tree
instantiate_scev_2 (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op1;
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
@@ -2701,9 +2708,10 @@ instantiate_scev_2 (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2712,7 +2720,7 @@ static tree
instantiate_scev_1 (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
tree op0 = instantiate_scev_r (instantiate_below, evolution_loop,
inner_loop, TREE_OPERAND (chrec, 0),
@@ -2734,9 +2742,10 @@ instantiate_scev_1 (basic_block instantiate_below,
CACHE is the cache of already instantiated values.
- FOLD_CONVERSIONS should be set to true when the conversions that
- may wrap in signed/pointer type are folded, as long as the value of
- the chrec is preserved.
+ Variable pointed by FOLD_CONVERSIONS is set to TRUE when the
+ conversions that may wrap in signed/pointer type are folded, as long
+ as the value of the chrec is preserved. If FOLD_CONVERSIONS is NULL
+ then we don't do such fold.
SIZE_EXPR is used for computing the size of the expression to be
instantiated, and to stop if it exceeds some limit. */
@@ -2745,7 +2754,7 @@ static tree
instantiate_scev_r (basic_block instantiate_below,
struct loop *evolution_loop, struct loop *inner_loop,
tree chrec,
- bool fold_conversions, int size_expr)
+ bool *fold_conversions, int size_expr)
{
/* Give up if the expression is larger than the MAX that we allow. */
if (size_expr++ > PARAM_VALUE (PARAM_SCEV_MAX_EXPR_SIZE))
@@ -2870,7 +2879,7 @@ instantiate_scev (basic_block instantiate_below, struct loop *evolution_loop,
}
res = instantiate_scev_r (instantiate_below, evolution_loop,
- NULL, chrec, false, 0);
+ NULL, chrec, NULL, 0);
if (destr)
{
@@ -2894,9 +2903,10 @@ instantiate_scev (basic_block instantiate_below, struct loop *evolution_loop,
of an expression. */
tree
-resolve_mixers (struct loop *loop, tree chrec)
+resolve_mixers (struct loop *loop, tree chrec, bool *folded_casts)
{
bool destr = false;
+ bool fold_conversions = false;
if (!global_cache)
{
global_cache = new instantiate_cache_type;
@@ -2904,7 +2914,10 @@ resolve_mixers (struct loop *loop, tree chrec)
}
tree ret = instantiate_scev_r (block_before_loop (loop), loop, NULL,
- chrec, true, 0);
+ chrec, &fold_conversions, 0);
+
+ if (folded_casts && !*folded_casts)
+ *folded_casts = fold_conversions;
if (destr)
{
@@ -3369,7 +3382,8 @@ scev_const_prop (void)
&& !INTEGRAL_TYPE_P (type))
continue;
- ev = resolve_mixers (loop, analyze_scalar_evolution (loop, name));
+ ev = resolve_mixers (loop, analyze_scalar_evolution (loop, name),
+ NULL);
if (!is_gimple_min_invariant (ev)
|| !may_propagate_copy (name, ev))
continue;
diff --git a/gcc-4.9/gcc/tree-scalar-evolution.h b/gcc-4.9/gcc/tree-scalar-evolution.h
index 556997684..cb9af5122 100644
--- a/gcc-4.9/gcc/tree-scalar-evolution.h
+++ b/gcc-4.9/gcc/tree-scalar-evolution.h
@@ -31,7 +31,7 @@ extern void scev_reset_htab (void);
extern void scev_finalize (void);
extern tree analyze_scalar_evolution (struct loop *, tree);
extern tree instantiate_scev (basic_block, struct loop *, tree);
-extern tree resolve_mixers (struct loop *, tree);
+extern tree resolve_mixers (struct loop *, tree, bool *);
extern void gather_stats_on_scev_database (void);
extern unsigned int scev_const_prop (void);
extern bool expression_expensive_p (tree);
diff --git a/gcc-4.9/gcc/tree-ssa-loop-ivopts.c b/gcc-4.9/gcc/tree-ssa-loop-ivopts.c
index 400187964..0bf8e2aff 100644
--- a/gcc-4.9/gcc/tree-ssa-loop-ivopts.c
+++ b/gcc-4.9/gcc/tree-ssa-loop-ivopts.c
@@ -142,9 +142,10 @@ struct iv
tree base_object; /* A memory object to that the induction variable points. */
tree step; /* Step of the iv (constant only). */
tree ssa_name; /* The ssa name with the value. */
+ unsigned use_id; /* The identifier in the use if it is the case. */
bool biv_p; /* Is it a biv? */
bool have_use_for; /* Do we already have a use for it? */
- unsigned use_id; /* The identifier in the use if it is the case. */
+ bool no_overflow; /* True if the iv doesn't overflow. */
};
/* Per-ssa version information (induction variable descriptions, etc.). */
@@ -943,10 +944,10 @@ determine_base_object (tree expr)
}
/* Allocates an induction variable with given initial value BASE and step STEP
- for loop LOOP. */
+ for loop LOOP. NO_OVERFLOW implies the iv doesn't overflow. */
static struct iv *
-alloc_iv (tree base, tree step)
+alloc_iv (tree base, tree step, bool no_overflow = false)
{
tree base_object = base;
struct iv *iv = XCNEW (struct iv);
@@ -977,21 +978,24 @@ alloc_iv (tree base, tree step)
iv->have_use_for = false;
iv->use_id = 0;
iv->ssa_name = NULL_TREE;
+ iv->no_overflow = no_overflow;
return iv;
}
-/* Sets STEP and BASE for induction variable IV. */
+/* Sets STEP and BASE for induction variable IV. NO_OVERFLOW implies the IV
+ doesn't overflow. */
static void
-set_iv (struct ivopts_data *data, tree iv, tree base, tree step)
+set_iv (struct ivopts_data *data, tree iv, tree base, tree step,
+ bool no_overflow)
{
struct version_info *info = name_info (data, iv);
gcc_assert (!info->iv);
bitmap_set_bit (data->relevant, SSA_NAME_VERSION (iv));
- info->iv = alloc_iv (base, step);
+ info->iv = alloc_iv (base, step, no_overflow);
info->iv->ssa_name = iv;
}
@@ -1013,37 +1017,19 @@ get_iv (struct ivopts_data *data, tree var)
if (!bb
|| !flow_bb_inside_loop_p (data->current_loop, bb))
- set_iv (data, var, var, build_int_cst (type, 0));
+ set_iv (data, var, var, build_int_cst (type, 0), true);
}
return name_info (data, var)->iv;
}
-/* Determines the step of a biv defined in PHI. Returns NULL if PHI does
- not define a simple affine biv with nonzero step. */
-
-static tree
-determine_biv_step (gimple phi)
-{
- struct loop *loop = gimple_bb (phi)->loop_father;
- tree name = PHI_RESULT (phi);
- affine_iv iv;
-
- if (virtual_operand_p (name))
- return NULL_TREE;
-
- if (!simple_iv (loop, loop, name, &iv, true))
- return NULL_TREE;
-
- return integer_zerop (iv.step) ? NULL_TREE : iv.step;
-}
-
/* Finds basic ivs. */
static bool
find_bivs (struct ivopts_data *data)
{
gimple phi;
+ affine_iv iv;
tree step, type, base;
bool found = false;
struct loop *loop = data->current_loop;
@@ -1056,10 +1042,16 @@ find_bivs (struct ivopts_data *data)
if (SSA_NAME_OCCURS_IN_ABNORMAL_PHI (PHI_RESULT (phi)))
continue;
- step = determine_biv_step (phi);
- if (!step)
+ if (virtual_operand_p (PHI_RESULT (phi)))
continue;
+ if (!simple_iv (loop, loop, PHI_RESULT (phi), &iv, true))
+ continue;
+
+ if (integer_zerop (iv.step))
+ continue;
+
+ step = iv.step;
base = PHI_ARG_DEF_FROM_EDGE (phi, loop_preheader_edge (loop));
base = expand_simple_operations (base);
if (contains_abnormal_ssa_name_p (base)
@@ -1076,7 +1068,7 @@ find_bivs (struct ivopts_data *data)
step = fold_convert (type, step);
}
- set_iv (data, PHI_RESULT (phi), base, step);
+ set_iv (data, PHI_RESULT (phi), base, step, iv.no_overflow);
found = true;
}
@@ -1172,7 +1164,7 @@ find_givs_in_stmt (struct ivopts_data *data, gimple stmt)
if (!find_givs_in_stmt_scev (data, stmt, &iv))
return;
- set_iv (data, gimple_assign_lhs (stmt), iv.base, iv.step);
+ set_iv (data, gimple_assign_lhs (stmt), iv.base, iv.step, iv.no_overflow);
}
/* Finds general ivs in basic block BB. */
@@ -1584,6 +1576,7 @@ idx_find_step (tree base, tree *idx, void *data)
{
struct ifs_ivopts_data *dta = (struct ifs_ivopts_data *) data;
struct iv *iv;
+ bool use_overflow_semantics = false;
tree step, iv_base, iv_step, lbound, off;
struct loop *loop = dta->ivopts_data->current_loop;
@@ -1643,9 +1636,12 @@ idx_find_step (tree base, tree *idx, void *data)
iv_base = iv->base;
iv_step = iv->step;
+ if (iv->no_overflow && nowrap_type_p (TREE_TYPE (iv_step)))
+ use_overflow_semantics = true;
+
if (!convert_affine_scev (dta->ivopts_data->current_loop,
sizetype, &iv_base, &iv_step, dta->stmt,
- false))
+ use_overflow_semantics))
{
/* The index might wrap. */
return false;