From: Richard Biener <rguenther@suse.de>
To: Jakub Jelinek <jakub@redhat.com>,
"Joseph S. Myers" <joseph@codesourcery.com>
Cc: gcc-patches@gcc.gnu.org
Subject: Re: [PATCH] Fix up sqrt(x) < c and sqrt(x) >= c match.pd folding (PR tree-optimization/91734)
Date: Mon, 16 Sep 2019 06:57:00 -0000 [thread overview]
Message-ID: <nycvar.YFH.7.76.1909160847320.5566@zhemvz.fhfr.qr> (raw)
In-Reply-To: <20190914004014.GE25273@laptop.zalov.cz>
[-- Attachment #1: Type: text/plain, Size: 8232 bytes --]
On Sat, 14 Sep 2019, Jakub Jelinek wrote:
> Hi!
>
> As mentioned in the PR, the sqrt (x) < c optimization into x < c*c
> sometimes breaks the boundary case, if c2=c*c is inexact then in some cases
> we need to optimize it into x <= c*c rather than x < c*c. The original
> bugreport is when c is small and c2 is 0.0, then obviously we need <= 0.0
> rather than < 0.0, but the testcase includes another example where it makes
> a difference, plus has a >= testcase too.
>
> Bootstrapped/regtested on powerpc64le-linux, ok for trunk?
I was hoping Joseph might chime in here... anyway, does this assume
round-to-nearest or does it work with round to +-Inf as well? I
realize this all is under flag_unsafe_math_optimizations, but
this flag is notoriously underspecified... So the question is
whether we should disable the transform if c*c isn't exact and
flag_rounding_math? The transform also doesn't seem to guard
against isnan (c) (-funsafe-math-optimizations sets
-fno-trapping-math and -fno-signed-zeros but not -ffinite-math-only
or disables itself on -frounding-math)
Otherwise the patch looks OK to me.
Thanks,
Richard.
> 2019-09-13 Jakub Jelinek <jakub@redhat.com>
>
> PR tree-optimization/91734
> * generic-match-head.c: Include fold-const-call.h.
> * match.pd (sqrt(x) < c, sqrt(x) >= c): Check the boundary value and
> in case inexact computation of c*c affects comparison of the boundary,
> turn LT_EXPR into LE_EXPR or GE_EXPR into GT_EXPR.
>
> * gcc.dg/pr91734.c: New test.
>
> --- gcc/generic-match-head.c.jj 2019-07-20 21:02:09.296821929 +0200
> +++ gcc/generic-match-head.c 2019-09-12 10:52:33.091366624 +0200
> @@ -29,6 +29,7 @@ along with GCC; see the file COPYING3.
> #include "cgraph.h"
> #include "vec-perm-indices.h"
> #include "fold-const.h"
> +#include "fold-const-call.h"
> #include "stor-layout.h"
> #include "tree-dfa.h"
> #include "builtins.h"
> --- gcc/match.pd.jj 2019-09-11 21:50:54.933504293 +0200
> +++ gcc/match.pd 2019-09-12 11:12:11.150987786 +0200
> @@ -3541,56 +3541,71 @@ (define_operator_list COND_TERNARY
> if x is negative or NaN. Due to -funsafe-math-optimizations,
> the results for other x follow from natural arithmetic. */
> (cmp @0 @1)))
> - (if (cmp == GT_EXPR || cmp == GE_EXPR)
> + (if (cmp == LT_EXPR || cmp == LE_EXPR || cmp == GT_EXPR || cmp == GE_EXPR)
> (with
> {
> - REAL_VALUE_TYPE c2;
> + REAL_VALUE_TYPE c2;
> + enum tree_code ncmp = cmp;
> real_arithmetic (&c2, MULT_EXPR,
> &TREE_REAL_CST (@1), &TREE_REAL_CST (@1));
> real_convert (&c2, TYPE_MODE (TREE_TYPE (@0)), &c2);
> + /* See PR91734: if c2 is inexact and sqrt(c2) < c (or sqrt(c2) >= c),
> + then change LT_EXPR into LE_EXPR or GE_EXPR into GT_EXPR. */
> + if ((cmp == LT_EXPR || cmp == GE_EXPR) && !REAL_VALUE_ISINF (c2))
> + {
> + tree c3 = fold_const_call (CFN_SQRT, TREE_TYPE (@0),
> + build_real (TREE_TYPE (@0), c2));
> + if (c3 == NULL_TREE || TREE_CODE (c3) != REAL_CST)
> + ncmp = ERROR_MARK;
> + else if (real_less (&TREE_REAL_CST (c3), &TREE_REAL_CST (@1)))
> + ncmp = cmp == LT_EXPR ? LE_EXPR : GT_EXPR;
> + }
> }
> - (if (REAL_VALUE_ISINF (c2))
> - /* sqrt(x) > y is x == +Inf, when y is very large. */
> - (if (HONOR_INFINITIES (@0))
> - (eq @0 { build_real (TREE_TYPE (@0), c2); })
> - { constant_boolean_node (false, type); })
> - /* sqrt(x) > c is the same as x > c*c. */
> - (cmp @0 { build_real (TREE_TYPE (@0), c2); }))))
> - (if (cmp == LT_EXPR || cmp == LE_EXPR)
> - (with
> - {
> - REAL_VALUE_TYPE c2;
> - real_arithmetic (&c2, MULT_EXPR,
> - &TREE_REAL_CST (@1), &TREE_REAL_CST (@1));
> - real_convert (&c2, TYPE_MODE (TREE_TYPE (@0)), &c2);
> - }
> - (if (REAL_VALUE_ISINF (c2))
> - (switch
> - /* sqrt(x) < y is always true, when y is a very large
> - value and we don't care about NaNs or Infinities. */
> - (if (! HONOR_NANS (@0) && ! HONOR_INFINITIES (@0))
> - { constant_boolean_node (true, type); })
> - /* sqrt(x) < y is x != +Inf when y is very large and we
> - don't care about NaNs. */
> - (if (! HONOR_NANS (@0))
> - (ne @0 { build_real (TREE_TYPE (@0), c2); }))
> - /* sqrt(x) < y is x >= 0 when y is very large and we
> - don't care about Infinities. */
> - (if (! HONOR_INFINITIES (@0))
> - (ge @0 { build_real (TREE_TYPE (@0), dconst0); }))
> - /* sqrt(x) < y is x >= 0 && x != +Inf, when y is large. */
> - (if (GENERIC)
> - (truth_andif
> - (ge @0 { build_real (TREE_TYPE (@0), dconst0); })
> - (ne @0 { build_real (TREE_TYPE (@0), c2); }))))
> - /* sqrt(x) < c is the same as x < c*c, if we ignore NaNs. */
> - (if (! HONOR_NANS (@0))
> - (cmp @0 { build_real (TREE_TYPE (@0), c2); })
> - /* sqrt(x) < c is the same as x >= 0 && x < c*c. */
> - (if (GENERIC)
> - (truth_andif
> - (ge @0 { build_real (TREE_TYPE (@0), dconst0); })
> - (cmp @0 { build_real (TREE_TYPE (@0), c2); })))))))))
> + (if (cmp == GT_EXPR || cmp == GE_EXPR)
> + (if (REAL_VALUE_ISINF (c2))
> + /* sqrt(x) > y is x == +Inf, when y is very large. */
> + (if (HONOR_INFINITIES (@0))
> + (eq @0 { build_real (TREE_TYPE (@0), c2); })
> + { constant_boolean_node (false, type); })
> + /* sqrt(x) > c is the same as x > c*c. */
> + (if (ncmp != ERROR_MARK)
> + (if (ncmp == GE_EXPR)
> + (ge @0 { build_real (TREE_TYPE (@0), c2); })
> + (gt @0 { build_real (TREE_TYPE (@0), c2); }))))
> + /* else if (cmp == LT_EXPR || cmp == LE_EXPR) */
> + (if (REAL_VALUE_ISINF (c2))
> + (switch
> + /* sqrt(x) < y is always true, when y is a very large
> + value and we don't care about NaNs or Infinities. */
> + (if (! HONOR_NANS (@0) && ! HONOR_INFINITIES (@0))
> + { constant_boolean_node (true, type); })
> + /* sqrt(x) < y is x != +Inf when y is very large and we
> + don't care about NaNs. */
> + (if (! HONOR_NANS (@0))
> + (ne @0 { build_real (TREE_TYPE (@0), c2); }))
> + /* sqrt(x) < y is x >= 0 when y is very large and we
> + don't care about Infinities. */
> + (if (! HONOR_INFINITIES (@0))
> + (ge @0 { build_real (TREE_TYPE (@0), dconst0); }))
> + /* sqrt(x) < y is x >= 0 && x != +Inf, when y is large. */
> + (if (GENERIC)
> + (truth_andif
> + (ge @0 { build_real (TREE_TYPE (@0), dconst0); })
> + (ne @0 { build_real (TREE_TYPE (@0), c2); }))))
> + /* sqrt(x) < c is the same as x < c*c, if we ignore NaNs. */
> + (if (ncmp != ERROR_MARK && ! HONOR_NANS (@0))
> + (if (ncmp == LT_EXPR)
> + (lt @0 { build_real (TREE_TYPE (@0), c2); })
> + (le @0 { build_real (TREE_TYPE (@0), c2); }))
> + /* sqrt(x) < c is the same as x >= 0 && x < c*c. */
> + (if (ncmp != ERROR_MARK && GENERIC)
> + (if (ncmp == LT_EXPR)
> + (truth_andif
> + (ge @0 { build_real (TREE_TYPE (@0), dconst0); })
> + (lt @0 { build_real (TREE_TYPE (@0), c2); }))
> + (truth_andif
> + (ge @0 { build_real (TREE_TYPE (@0), dconst0); })
> + (le @0 { build_real (TREE_TYPE (@0), c2); })))))))))))
> /* Transform sqrt(x) cmp sqrt(y) -> x cmp y. */
> (simplify
> (cmp (sq @0) (sq @1))
> --- gcc/testsuite/gcc.dg/pr91734.c.jj 2019-09-12 10:52:33.094366596 +0200
> +++ gcc/testsuite/gcc.dg/pr91734.c 2019-09-12 10:49:10.000000000 +0200
> @@ -0,0 +1,34 @@
> +/* PR tree-optimization/91734 */
> +/* { dg-do run } */
> +/* { dg-add-options ieee } */
> +/* { dg-additional-options "-ffast-math -O2 -std=gnu99" } */
> +
> +__attribute__((noipa)) int
> +foo (float x)
> +{
> + return __builtin_sqrtf (x) < __FLT_MIN__;
> +}
> +
> +__attribute__((noipa)) int
> +bar (float x)
> +{
> + return __builtin_sqrtf (x) < 0x1.2dd3d0p-65f;
> +}
> +
> +__attribute__((noipa)) int
> +baz (float x)
> +{
> + return __builtin_sqrtf (x) >= 0x1.2dd3d0p-65f;
> +}
> +
> +int
> +main ()
> +{
> + if (!foo (0.0f))
> + __builtin_abort ();
> + if (!bar (0x1.63dbc0p-130f))
> + __builtin_abort ();
> + if (baz (0x1.63dbc0p-130f))
> + __builtin_abort ();
> + return 0;
> +}
>
> Jakub
>
--
Richard Biener <rguenther@suse.de>
SUSE Software Solutions Germany GmbH, Maxfeldstrasse 5, 90409 Nuernberg,
Germany; GF: Felix Imendörffer; HRB 247165 (AG MÌnchen)
next prev parent reply other threads:[~2019-09-16 6:57 UTC|newest]
Thread overview: 6+ messages / expand[flat|nested] mbox.gz Atom feed top
2019-09-14 0:40 Jakub Jelinek
2019-09-16 6:57 ` Richard Biener [this message]
2019-09-21 6:14 ` [PATCH] Fix up sqrt(x) < c and sqrt(x) >= c match.pd folding (PR tree-optimization/91734, take 2) Jakub Jelinek
2019-09-30 7:03 ` Patch ping Jakub Jelinek
2019-10-04 20:57 ` [PATCH] Fix up sqrt(x) < c and sqrt(x) >= c match.pd folding (PR tree-optimization/91734, take 2) Jeff Law
2019-09-17 21:16 ` [PATCH] Fix up sqrt(x) < c and sqrt(x) >= c match.pd folding (PR tree-optimization/91734) Joseph Myers
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