A false UNORDERED_<cond> means neither operand can be a NAN.

The false side of UNORDERED_<cond> means neither operand can be a NAN.
Adjust all the op[12]_range entries for the UNORDERED operators such
that a known NAN on one operands means the other operands is
undefined.

gcc/ChangeLog:

	* range-op-float.cc (foperator_unordered_le::op1_range): Adjust
	false side with a NAN operand.
	(foperator_unordered_le::op2_range): Same.
	(foperator_unordered_gt::op1_range): Same.
	(foperator_unordered_gt::op2_range): Same.
	(foperator_unordered_ge::op1_range): Same.
	(foperator_unordered_ge::op2_range): Same.
	(foperator_unordered_equal::op1_range): Same.

diff --git a/gcc/range-op-float.cc b/gcc/range-op-float.cc
index a9e74c868772903fd2f5330fd7e8cfbadddaabe9..0cb07c2ec294e0ad1e80ff6819d6c60d965e6b2b 100644 (file)
--- a/gcc/range-op-float.cc
+++ b/gcc/range-op-float.cc
@@ -1351,7 +1351,11 @@ foperator_unordered_le::op1_range (frange &r, tree type,
       break;
 
     case BRS_FALSE:
-      if (build_gt (r, type, op2))
+      // A false UNORDERED_LE means both operands are !NAN, so it's
+      // impossible for op2 to be a NAN.
+      if (op2.known_isnan ())
+       r.set_undefined ();
+      else if (build_gt (r, type, op2))
        r.clear_nan ();
       break;
 
@@ -1375,7 +1379,11 @@ foperator_unordered_le::op2_range (frange &r,
       break;
 
     case BRS_FALSE:
-      if (build_lt (r, type, op1))
+      // A false UNORDERED_LE means both operands are !NAN, so it's
+      // impossible for op1 to be a NAN.
+      if (op1.known_isnan ())
+       r.set_undefined ();
+      else if (build_lt (r, type, op1))
        r.clear_nan ();
       break;
 
@@ -1434,7 +1442,11 @@ foperator_unordered_gt::op1_range (frange &r,
       break;
 
     case BRS_FALSE:
-      if (build_le (r, type, op2))
+      // A false UNORDERED_GT means both operands are !NAN, so it's
+      // impossible for op2 to be a NAN.
+      if (op2.known_isnan ())
+       r.set_undefined ();
+      else if (build_le (r, type, op2))
        r.clear_nan ();
       break;
 
@@ -1458,7 +1470,11 @@ foperator_unordered_gt::op2_range (frange &r,
       break;
 
     case BRS_FALSE:
-      if (build_ge (r, type, op1))
+      // A false UNORDERED_GT means both operands are !NAN, so it's
+      // impossible for op1 to be a NAN.
+      if (op1.known_isnan ())
+       r.set_undefined ();
+      else if (build_ge (r, type, op1))
        r.clear_nan ();
       break;
 
@@ -1517,7 +1533,11 @@ foperator_unordered_ge::op1_range (frange &r,
       break;
 
     case BRS_FALSE:
-      if (build_lt (r, type, op2))
+      // A false UNORDERED_GE means both operands are !NAN, so it's
+      // impossible for op2 to be a NAN.
+      if (op2.known_isnan ())
+       r.set_undefined ();
+      else if (build_lt (r, type, op2))
        r.clear_nan ();
       break;
 
@@ -1540,7 +1560,11 @@ foperator_unordered_ge::op2_range (frange &r, tree type,
       break;
 
     case BRS_FALSE:
-      if (build_gt (r, type, op1))
+      // A false UNORDERED_GE means both operands are !NAN, so it's
+      // impossible for op1 to be a NAN.
+      if (op1.known_isnan ())
+       r.set_undefined ();
+      else if (build_gt (r, type, op1))
        r.clear_nan ();
       break;
 
@@ -1606,10 +1630,17 @@ foperator_unordered_equal::op1_range (frange &r, tree type,
       break;
 
     case BRS_FALSE:
-      // The false side indictates !NAN and not equal.  We can at least
-      // represent !NAN.
-      r.set_varying (type);
-      r.clear_nan ();
+      // A false UNORDERED_EQ means both operands are !NAN, so it's
+      // impossible for op2 to be a NAN.
+      if (op2.known_isnan ())
+       r.set_undefined ();
+      else
+       {
+         // The false side indictates !NAN and not equal.  We can at least
+         // represent !NAN.
+         r.set_varying (type);
+         r.clear_nan ();
+       }
       break;
 
     default: