[committed] tree-ssa-dom: can_infer_simple_equiv fixes [PR108068]
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Hi!
As reported in the PR, tree-ssa-dom.cc uses real_zerop call to find
if a floating point constant is zero and it shouldn't try to infer
equivalences from comparison against it if signed zeros are honored.
This doesn't work at all for decimal types, because real_zerop always
returns false for them (one can have different representations of decimal
zero beyond -0/+0), and it doesn't work for vector compares either,
as real_zerop checks if all elements are zero, while we need to avoid
infering equivalences from comparison against vector constants which have
at least one zero element in it (if signed zeros are honored).
Furthermore, as mentioned by Joseph, for decimal types many other values
aren't singleton.
So, this patch stops infering anything if element mode is decimal, and
otherwise uses instead of real_zerop a new function, real_maybe_zerop,
which will work even for decimal types and for complex or vector will
return true if any element is or might be zero (so it returns true
for anything but constants for now).
Bootstrapped/regtested on x86_64-linux and i686-linux, acked by Richi
in the PR, committed to trunk.
2022-12-23 Jakub Jelinek <jakub@redhat.com>
PR tree-optimization/108068
* tree.h (real_maybe_zerop): Declare.
* tree.cc (real_maybe_zerop): Define.
* tree-ssa-dom.cc (record_edge_info): Use it instead of
real_zerop or TREE_CODE (op1) == SSA_NAME || real_zerop. Always set
can_infer_simple_equiv to false for decimal floating point types.
* gcc.dg/dfp/pr108068.c: New test.
Jakub
@@ -5497,6 +5497,7 @@ extern bool needs_to_live_in_memory (con
extern tree reconstruct_complex_type (tree, tree);
extern bool real_onep (const_tree);
extern bool real_minus_onep (const_tree);
+extern bool real_maybe_zerop (const_tree);
extern void init_ttree (void);
extern void build_common_tree_nodes (bool);
extern void build_common_builtin_nodes (void);
@@ -3180,6 +3180,35 @@ real_minus_onep (const_tree expr)
}
}
+/* Return true if T could be a floating point zero. */
+
+bool
+real_maybe_zerop (const_tree expr)
+{
+ switch (TREE_CODE (expr))
+ {
+ case REAL_CST:
+ /* Can't use real_zerop here, as it always returns false for decimal
+ floats. And can't use TREE_REAL_CST (expr).cl == rvc_zero
+ either, as decimal zeros are rvc_normal. */
+ return real_equal (&TREE_REAL_CST (expr), &dconst0);
+ case COMPLEX_CST:
+ return (real_maybe_zerop (TREE_REALPART (expr))
+ || real_maybe_zerop (TREE_IMAGPART (expr)));
+ case VECTOR_CST:
+ {
+ unsigned count = vector_cst_encoded_nelts (expr);
+ for (unsigned int i = 0; i < count; ++i)
+ if (real_maybe_zerop (VECTOR_CST_ENCODED_ELT (expr, i)))
+ return true;
+ return false;
+ }
+ default:
+ /* Perhaps for SSA_NAMEs we could query frange. */
+ return true;
+ }
+}
+
/* Nonzero if EXP is a constant or a cast of a constant. */
bool
@@ -615,9 +615,9 @@ record_edge_info (basic_block bb)
{
tree cond = build2 (code, boolean_type_node, op0, op1);
tree inverted = invert_truthvalue_loc (loc, cond);
- bool can_infer_simple_equiv
- = !(HONOR_SIGNED_ZEROS (op0)
- && real_zerop (op0));
+ bool can_infer_simple_equiv
+ = !(HONOR_SIGNED_ZEROS (op0) && real_maybe_zerop (op0))
+ && !DECIMAL_FLOAT_MODE_P (element_mode (TREE_TYPE (op0)));
class edge_info *edge_info;
edge_info = new class edge_info (true_edge);
@@ -639,9 +639,9 @@ record_edge_info (basic_block bb)
{
tree cond = build2 (code, boolean_type_node, op0, op1);
tree inverted = invert_truthvalue_loc (loc, cond);
- bool can_infer_simple_equiv
- = !(HONOR_SIGNED_ZEROS (op1)
- && (TREE_CODE (op1) == SSA_NAME || real_zerop (op1)));
+ bool can_infer_simple_equiv
+ = !(HONOR_SIGNED_ZEROS (op1) && real_maybe_zerop (op1))
+ && !DECIMAL_FLOAT_MODE_P (element_mode (TREE_TYPE (op1)));
class edge_info *edge_info;
edge_info = new class edge_info (true_edge);
@@ -0,0 +1,14 @@
+/* PR tree-optimization/108068 */
+/* { dg-do run } */
+/* { dg-options "-O2" } */
+
+int
+main ()
+{
+ _Decimal64 x = -1;
+ while (x != 0)
+ x /= 10;
+ double d = x;
+ if (!__builtin_signbit (d))
+ __builtin_abort ();
+}