[llvm] [clang-tools-extra] [clang] [CLANG] Add warning when INF or NAN are used in a binary operation or as function argument in fast math mode. (PR #76873)
Zahira Ammarguellat via cfe-commits
cfe-commits at lists.llvm.org
Thu Jan 18 06:40:28 PST 2024
https://github.com/zahiraam updated https://github.com/llvm/llvm-project/pull/76873
>From 7dbaf037b6b2196cee7c0c837e0a89ce3c2556ed Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Wed, 3 Jan 2024 14:37:17 -0800
Subject: [PATCH 1/7] [CLANG] Add warning when comparing to INF or NAN in fast
math mode.
---
.../clang/Basic/DiagnosticSemaKinds.td | 3 +
clang/include/clang/Sema/Sema.h | 4 +
clang/lib/Sema/SemaChecking.cpp | 65 +++++++
clang/lib/Sema/SemaExpr.cpp | 7 +-
clang/test/Sema/warn-fp-fast-compare.cpp | 171 ++++++++++++++++++
5 files changed, 248 insertions(+), 2 deletions(-)
create mode 100644 clang/test/Sema/warn-fp-fast-compare.cpp
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index e54f969c19039dd..1b75ae8f678b68d 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6771,6 +6771,9 @@ def warn_pointer_sub_null_ptr : Warning<
def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
+def warn_fast_floatingpoint_eq : Warning<
+ "explicit comparison with %0 in fast floating point mode">,
+ InGroup<TautologicalConstantCompare>;
def err_setting_eval_method_used_in_unsafe_context : Error <
"%select{'#pragma clang fp eval_method'|option 'ffp-eval-method'}0 cannot be used with "
diff --git a/clang/include/clang/Sema/Sema.h b/clang/include/clang/Sema/Sema.h
index 5e3b57ea33220b4..6125e7ebb6b48a2 100644
--- a/clang/include/clang/Sema/Sema.h
+++ b/clang/include/clang/Sema/Sema.h
@@ -13998,6 +13998,8 @@ class Sema final {
SourceRange range,
llvm::SmallBitVector &CheckedVarArgs);
+ void CheckInfNaNFunction(const CallExpr *Call, const FunctionDecl *FDecl);
+
void CheckAbsoluteValueFunction(const CallExpr *Call,
const FunctionDecl *FDecl);
@@ -14024,6 +14026,8 @@ class Sema final {
public:
void CheckFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
BinaryOperatorKind Opcode);
+ void CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
+ BinaryOperatorKind Opcode);
private:
void CheckImplicitConversions(Expr *E, SourceLocation CC = SourceLocation());
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index 3168d38dd66c36e..2e9f61f40b795b6 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -2169,6 +2169,7 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
ICEArguments &= ~(1 << ArgNo);
}
+ FPOptions FPO;
switch (BuiltinID) {
case Builtin::BI__builtin___CFStringMakeConstantString:
// CFStringMakeConstantString is currently not implemented for GOFF (i.e.,
@@ -2245,6 +2246,11 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
case Builtin::BI__builtin_islessequal:
case Builtin::BI__builtin_islessgreater:
case Builtin::BI__builtin_isunordered:
+ if (BuiltinID == Builtin::BI__builtin_isunordered) {
+ if (TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "NaN" << TheCall->getSourceRange();
+ }
if (SemaBuiltinUnorderedCompare(TheCall))
return ExprError();
break;
@@ -2267,6 +2273,16 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
case Builtin::BI__builtin_signbit:
case Builtin::BI__builtin_signbitf:
case Builtin::BI__builtin_signbitl:
+ FPO = TheCall->getFPFeaturesInEffect(getLangOpts());
+ if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
+ BuiltinID == Builtin::BI__builtin_isinf ||
+ BuiltinID == Builtin::BI__builtin_isinf_sign))
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "infinity" << TheCall->getSourceRange();
+ if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
+ BuiltinID == Builtin::BI__builtin_isunordered))
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "NaN" << TheCall->getSourceRange();
if (SemaBuiltinFPClassification(TheCall, 1))
return ExprError();
break;
@@ -7621,6 +7637,7 @@ bool Sema::CheckFunctionCall(FunctionDecl *FDecl, CallExpr *TheCall,
CheckAbsoluteValueFunction(TheCall, FDecl);
CheckMaxUnsignedZero(TheCall, FDecl);
+ CheckInfNaNFunction(TheCall, FDecl);
if (getLangOpts().ObjC)
DiagnoseCStringFormatDirectiveInCFAPI(*this, FDecl, Args, NumArgs);
@@ -12878,6 +12895,23 @@ static bool IsStdFunction(const FunctionDecl *FDecl,
return true;
}
+void Sema::CheckInfNaNFunction(const CallExpr *Call,
+ const FunctionDecl *FDecl) {
+ if (Call->getNumArgs() != 1 && Call->getNumArgs() != 2)
+ return;
+
+ FPOptions FPO = Call->getFPFeaturesInEffect(getLangOpts());
+ if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered")) &&
+ FPO.getNoHonorNaNs())
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "NaN" << Call->getSourceRange();
+ else if ((IsStdFunction(FDecl, "isinf") ||
+ (IsStdFunction(FDecl, "isfinite"))) &&
+ FPO.getNoHonorInfs())
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "infinity" << Call->getSourceRange();
+}
+
// Warn when using the wrong abs() function.
void Sema::CheckAbsoluteValueFunction(const CallExpr *Call,
const FunctionDecl *FDecl) {
@@ -13846,6 +13880,37 @@ Sema::CheckReturnValExpr(Expr *RetValExp, QualType lhsType,
CheckPPCMMAType(RetValExp->getType(), ReturnLoc);
}
+/// Diagnose comparison to NAN or INFINITY in fast math modes.
+/// The comparison to NaN or INFINITY is always false in
+/// fast modes: float evaluation will not result in inf or nan.
+void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
+ BinaryOperatorKind Opcode) {
+ Expr *LeftExprSansParen = LHS->IgnoreParenImpCasts();
+ Expr *RightExprSansParen = RHS->IgnoreParenImpCasts();
+
+ FPOptions FPO = LHS->getFPFeaturesInEffect(getLangOpts());
+ bool NoHonorNaNs = FPO.getNoHonorNaNs();
+ bool NoHonorInfs = FPO.getNoHonorInfs();
+ llvm::APFloat Value(0.0);
+ bool IsConstant;
+ IsConstant = !LHS->isValueDependent() &&
+ LeftExprSansParen->EvaluateAsFloat(Value, Context,
+ Expr::SE_AllowSideEffects);
+ if (IsConstant &&
+ ((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
+ Diag(Loc, diag::warn_fast_floatingpoint_eq)
+ << (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
+ << RHS->getSourceRange();
+ IsConstant = !RHS->isValueDependent() &&
+ RightExprSansParen->EvaluateAsFloat(Value, Context,
+ Expr::SE_AllowSideEffects);
+ if (IsConstant &&
+ ((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
+ Diag(Loc, diag::warn_fast_floatingpoint_eq)
+ << (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
+ << RHS->getSourceRange();
+}
+
/// Check for comparisons of floating-point values using == and !=. Issue a
/// warning if the comparison is not likely to do what the programmer intended.
void Sema::CheckFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
diff --git a/clang/lib/Sema/SemaExpr.cpp b/clang/lib/Sema/SemaExpr.cpp
index 960f513d1111b2c..005ddfa882195d5 100644
--- a/clang/lib/Sema/SemaExpr.cpp
+++ b/clang/lib/Sema/SemaExpr.cpp
@@ -13044,9 +13044,12 @@ static QualType checkArithmeticOrEnumeralCompare(Sema &S, ExprResult &LHS,
if (Type->isAnyComplexType() && BinaryOperator::isRelationalOp(Opc))
return S.InvalidOperands(Loc, LHS, RHS);
- // Check for comparisons of floating point operands using != and ==.
- if (Type->hasFloatingRepresentation())
+ if (Type->hasFloatingRepresentation()) {
+ // Check for comparisons to NAN or INFINITY in fast math mode.
+ S.CheckInfNaNFloatComparison(Loc, LHS.get(), RHS.get(), Opc);
+ // Check for comparisons of floating point operands using != and ==.
S.CheckFloatComparison(Loc, LHS.get(), RHS.get(), Opc);
+ }
// The result of comparisons is 'bool' in C++, 'int' in C.
return S.Context.getLogicalOperationType();
diff --git a/clang/test/Sema/warn-fp-fast-compare.cpp b/clang/test/Sema/warn-fp-fast-compare.cpp
new file mode 100644
index 000000000000000..07eeaf0eeab1257
--- /dev/null
+++ b/clang/test/Sema/warn-fp-fast-compare.cpp
@@ -0,0 +1,171 @@
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -menable-no-nans -DFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -DNOFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -DNO_INFS=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-nans -DNO_NANS=1
+
+int isunorderedf (float x, float y);
+#if NOFAST
+// expected-no-diagnostics
+#endif
+extern "C++" {
+namespace std __attribute__((__visibility__("default"))) {
+ bool
+ isinf(float __x);
+ bool
+ isinf(double __x);
+ bool
+ isinf(long double __x);
+ bool
+ isnan(float __x);
+ bool
+ isnan(double __x);
+ bool
+ isnan(long double __x);
+bool
+ isfinite(float __x);
+ bool
+ isfinite(double __x);
+ bool
+ isfinte(long double __x);
+ bool
+ isunordered(float __x, float __y);
+ bool
+ isunordered(double __x, double __y);
+ bool
+ isunordered(long double __x, long double __y);
+} // namespace )
+}
+#define NAN (__builtin_nanf(""))
+#define INFINITY (__builtin_inff())
+
+int compareit(float a, float b) {
+ volatile int i, j, k, l, m, n, o, p;
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ i = a == INFINITY;
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ j = INFINITY == a;
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ i = a == NAN;
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ j = NAN == a;
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ j = INFINITY <= a;
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ j = INFINITY < a;
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ j = a > NAN;
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ j = a >= NAN;
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+k = std::isinf(a);
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ l = std::isnan(a);
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+//expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ o = std::isfinite(a);
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ m = __builtin_isinf(a);
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ n = __builtin_isnan(a);
+#if FAST
+//expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+#if NO_INFS
+//expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+#endif
+ p = __builtin_isfinite(a);
+
+ // These should NOT warn, since they are not comparing with NaN or infinity.
+ j = a > 1.1;
+ j = b < 1.1;
+ j = a >= 1.1;
+ j = b <= 1.1;
+ j = isunorderedf(a, NAN);
+ j = isunorderedf(a, INFINITY);
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ i = std::isunordered(a, NAN);
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+#endif
+ i = std::isunordered(a, INFINITY);
+ return 0;
+}
>From f4aa37980d861617719b3f027f69e652c0502515 Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Fri, 5 Jan 2024 13:54:42 -0800
Subject: [PATCH 2/7] Addressed review comments.
---
.../clang/Basic/DiagnosticSemaKinds.td | 2 +-
clang/include/clang/Sema/Sema.h | 5 +-
clang/lib/Sema/SemaChecking.cpp | 73 ++++-----
clang/test/Sema/warn-fp-fast-compare.cpp | 138 ++++++++++++++----
4 files changed, 148 insertions(+), 70 deletions(-)
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index 1b75ae8f678b68d..d19be567a1bf66c 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6772,7 +6772,7 @@ def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
def warn_fast_floatingpoint_eq : Warning<
- "explicit comparison with %0 in fast floating point mode">,
+ "explicit comparison with %0 when the program is assumed to not use or produce %0">,
InGroup<TautologicalConstantCompare>;
def err_setting_eval_method_used_in_unsafe_context : Error <
diff --git a/clang/include/clang/Sema/Sema.h b/clang/include/clang/Sema/Sema.h
index 6125e7ebb6b48a2..b19ce6312e83bc8 100644
--- a/clang/include/clang/Sema/Sema.h
+++ b/clang/include/clang/Sema/Sema.h
@@ -13893,8 +13893,9 @@ class Sema final {
bool SemaBuiltinVAStart(unsigned BuiltinID, CallExpr *TheCall);
bool SemaBuiltinVAStartARMMicrosoft(CallExpr *Call);
- bool SemaBuiltinUnorderedCompare(CallExpr *TheCall);
- bool SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs);
+ bool SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID);
+ bool SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
+ unsigned BuiltinID);
bool SemaBuiltinComplex(CallExpr *TheCall);
bool SemaBuiltinVSX(CallExpr *TheCall);
bool SemaBuiltinOSLogFormat(CallExpr *TheCall);
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index 2e9f61f40b795b6..2c4d628ab160d22 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -2246,20 +2246,15 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
case Builtin::BI__builtin_islessequal:
case Builtin::BI__builtin_islessgreater:
case Builtin::BI__builtin_isunordered:
- if (BuiltinID == Builtin::BI__builtin_isunordered) {
- if (TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "NaN" << TheCall->getSourceRange();
- }
- if (SemaBuiltinUnorderedCompare(TheCall))
+ if (SemaBuiltinUnorderedCompare(TheCall, BuiltinID))
return ExprError();
break;
case Builtin::BI__builtin_fpclassify:
- if (SemaBuiltinFPClassification(TheCall, 6))
+ if (SemaBuiltinFPClassification(TheCall, 6, BuiltinID))
return ExprError();
break;
case Builtin::BI__builtin_isfpclass:
- if (SemaBuiltinFPClassification(TheCall, 2))
+ if (SemaBuiltinFPClassification(TheCall, 2, BuiltinID))
return ExprError();
break;
case Builtin::BI__builtin_isfinite:
@@ -2273,17 +2268,7 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
case Builtin::BI__builtin_signbit:
case Builtin::BI__builtin_signbitf:
case Builtin::BI__builtin_signbitl:
- FPO = TheCall->getFPFeaturesInEffect(getLangOpts());
- if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
- BuiltinID == Builtin::BI__builtin_isinf ||
- BuiltinID == Builtin::BI__builtin_isinf_sign))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "infinity" << TheCall->getSourceRange();
- if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
- BuiltinID == Builtin::BI__builtin_isunordered))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "NaN" << TheCall->getSourceRange();
- if (SemaBuiltinFPClassification(TheCall, 1))
+ if (SemaBuiltinFPClassification(TheCall, 1, BuiltinID))
return ExprError();
break;
case Builtin::BI__builtin_shufflevector:
@@ -9107,10 +9092,16 @@ bool Sema::SemaBuiltinVAStartARMMicrosoft(CallExpr *Call) {
/// SemaBuiltinUnorderedCompare - Handle functions like __builtin_isgreater and
/// friends. This is declared to take (...), so we have to check everything.
-bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall) {
+bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (checkArgCount(*this, TheCall, 2))
return true;
+ if (BuiltinID == Builtin::BI__builtin_isunordered) {
+ if (TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "NaN" << TheCall->getSourceRange();
+ }
+
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9145,10 +9136,22 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall) {
/// SemaBuiltinSemaBuiltinFPClassification - Handle functions like
/// __builtin_isnan and friends. This is declared to take (...), so we have
/// to check everything.
-bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs) {
+bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
+ unsigned BuiltinID) {
if (checkArgCount(*this, TheCall, NumArgs))
return true;
+ FPOptions FPO = TheCall->getFPFeaturesInEffect(getLangOpts());
+ if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
+ BuiltinID == Builtin::BI__builtin_isinf ||
+ BuiltinID == Builtin::BI__builtin_isinf_sign))
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "infinity" << TheCall->getSourceRange();
+ if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
+ BuiltinID == Builtin::BI__builtin_isunordered))
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << "NaN" << TheCall->getSourceRange();
+
bool IsFPClass = NumArgs == 2;
// Find out position of floating-point argument.
@@ -12897,16 +12900,15 @@ static bool IsStdFunction(const FunctionDecl *FDecl,
void Sema::CheckInfNaNFunction(const CallExpr *Call,
const FunctionDecl *FDecl) {
- if (Call->getNumArgs() != 1 && Call->getNumArgs() != 2)
- return;
-
FPOptions FPO = Call->getFPFeaturesInEffect(getLangOpts());
- if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered")) &&
+ if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered") ||
+ (Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
<< "NaN" << Call->getSourceRange();
else if ((IsStdFunction(FDecl, "isinf") ||
- (IsStdFunction(FDecl, "isfinite"))) &&
+ (IsStdFunction(FDecl, "isfinite") ||
+ (Call->getBuiltinCallee() == Builtin::BI__builtin_inff))) &&
FPO.getNoHonorInfs())
Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
<< "infinity" << Call->getSourceRange();
@@ -13892,19 +13894,20 @@ void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
bool NoHonorNaNs = FPO.getNoHonorNaNs();
bool NoHonorInfs = FPO.getNoHonorInfs();
llvm::APFloat Value(0.0);
- bool IsConstant;
- IsConstant = !LHS->isValueDependent() &&
- LeftExprSansParen->EvaluateAsFloat(Value, Context,
- Expr::SE_AllowSideEffects);
- if (IsConstant &&
+
+ auto IsConstant = [&Value](Expr *E, Expr *ESansParen, ASTContext &Context) {
+ return !E->isValueDependent() &&
+ ESansParen->EvaluateAsFloat(Value, Context,
+ Expr::SE_AllowSideEffects);
+ };
+
+ if (IsConstant(LHS, LeftExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
<< (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
<< RHS->getSourceRange();
- IsConstant = !RHS->isValueDependent() &&
- RightExprSansParen->EvaluateAsFloat(Value, Context,
- Expr::SE_AllowSideEffects);
- if (IsConstant &&
+
+ if (IsConstant(RHS, RightExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
<< (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
diff --git a/clang/test/Sema/warn-fp-fast-compare.cpp b/clang/test/Sema/warn-fp-fast-compare.cpp
index 07eeaf0eeab1257..df8c8145f538ad6 100644
--- a/clang/test/Sema/warn-fp-fast-compare.cpp
+++ b/clang/test/Sema/warn-fp-fast-compare.cpp
@@ -48,101 +48,149 @@ bool
int compareit(float a, float b) {
volatile int i, j, k, l, m, n, o, p;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if NO_INFS
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
i = a == INFINITY;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
j = INFINITY == a;
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
i = a == NAN;
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
j = NAN == a;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if NO_INFS
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
j = INFINITY <= a;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+ // expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
j = INFINITY < a;
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+ // expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
j = a > NAN;
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
j = a >= NAN;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
k = std::isinf(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
l = std::isnan(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-//expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
o = std::isfinite(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
m = __builtin_isinf(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
n = __builtin_isnan(a);
#if FAST
-//expected-warning at +5 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
#if NO_INFS
-//expected-warning at +2 {{explicit comparison with infinity in fast floating point mode}}
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
p = __builtin_isfinite(a);
@@ -151,20 +199,46 @@ k = std::isinf(a);
j = b < 1.1;
j = a >= 1.1;
j = b <= 1.1;
+ j = isunorderedf(a, b);
+
+#if FAST
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
j = isunorderedf(a, NAN);
+#if FAST
+// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
j = isunorderedf(a, INFINITY);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
i = std::isunordered(a, NAN);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+#endif
+#if FAST
+// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN in fast floating point mode}}
+// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
#endif
i = std::isunordered(a, INFINITY);
return 0;
>From 948ace771f6e696c8246789f11248ee0d237a623 Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Thu, 11 Jan 2024 12:47:03 -0800
Subject: [PATCH 3/7] Addressed review comments.
---
.../clang/Basic/DiagnosticSemaKinds.td | 4 +-
clang/lib/Sema/SemaChecking.cpp | 29 ++--
clang/test/Sema/warn-fp-fast-compare.cpp | 151 +++++++++++-------
3 files changed, 109 insertions(+), 75 deletions(-)
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index d19be567a1bf66c..e1164ef34a1b6c6 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6772,7 +6772,9 @@ def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
def warn_fast_floatingpoint_eq : Warning<
- "explicit comparison with %0 when the program is assumed to not use or produce %0">,
+ "use of %select{infinity|NaN}0 will always be 'false' because "
+ "%select{infinity|NaN}0 will not be produced according to the currently "
+ "enabled floating-point options">,
InGroup<TautologicalConstantCompare>;
def err_setting_eval_method_used_in_unsafe_context : Error <
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index 2c4d628ab160d22..027cfac1c5a641d 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -9096,11 +9096,9 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (checkArgCount(*this, TheCall, 2))
return true;
- if (BuiltinID == Builtin::BI__builtin_isunordered) {
- if (TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "NaN" << TheCall->getSourceRange();
- }
+ if (BuiltinID == Builtin::BI__builtin_isunordered &&
+ TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9145,12 +9143,10 @@ bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
BuiltinID == Builtin::BI__builtin_isinf ||
BuiltinID == Builtin::BI__builtin_isinf_sign))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "infinity" << TheCall->getSourceRange();
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0;
if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
BuiltinID == Builtin::BI__builtin_isunordered))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "NaN" << TheCall->getSourceRange();
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
bool IsFPClass = NumArgs == 2;
@@ -12904,14 +12900,13 @@ void Sema::CheckInfNaNFunction(const CallExpr *Call,
if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "NaN" << Call->getSourceRange();
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
else if ((IsStdFunction(FDecl, "isinf") ||
(IsStdFunction(FDecl, "isfinite") ||
- (Call->getBuiltinCallee() == Builtin::BI__builtin_inff))) &&
+ (Call->getBuiltinCallee() == Builtin::BI__builtin_inff)) ||
+ (FDecl->getIdentifier() && FDecl->getName() == "infinity")) &&
FPO.getNoHonorInfs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << "infinity" << Call->getSourceRange();
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0;
}
// Warn when using the wrong abs() function.
@@ -13904,14 +13899,12 @@ void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
if (IsConstant(LHS, LeftExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
- << RHS->getSourceRange();
+ << (Value.isNaN() ? 1 : 0) << (Value.isNaN() ? 1 : 0);
if (IsConstant(RHS, RightExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << (Value.isNaN() ? "NaN" : "infinity") << LHS->getSourceRange()
- << RHS->getSourceRange();
+ << (Value.isNaN() ? 1 : 0) << (Value.isNaN() ? 1 : 0);
}
/// Check for comparisons of floating-point values using == and !=. Issue a
diff --git a/clang/test/Sema/warn-fp-fast-compare.cpp b/clang/test/Sema/warn-fp-fast-compare.cpp
index df8c8145f538ad6..430fb58dfd7473d 100644
--- a/clang/test/Sema/warn-fp-fast-compare.cpp
+++ b/clang/test/Sema/warn-fp-fast-compare.cpp
@@ -45,152 +45,175 @@ bool
#define NAN (__builtin_nanf(""))
#define INFINITY (__builtin_inff())
+template <class _Ty>
+class numeric_limits {
+public:
+ [[nodiscard]] static constexpr _Ty infinity() noexcept {
+ return _Ty();
+ }
+};
+
+template <>
+class numeric_limits<float> {
+public:
+ [[nodiscard]] static constexpr float infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+template <>
+class numeric_limits<double> {
+public:
+ [[nodiscard]] static constexpr double infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+
int compareit(float a, float b) {
volatile int i, j, k, l, m, n, o, p;
#if FAST
-// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
i = a == INFINITY;
#if FAST
-// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY == a;
#if FAST
-// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
i = a == NAN;
#if FAST
-// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
j = NAN == a;
#if FAST
-// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY <= a;
#if FAST
-// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
- // expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+ // expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY < a;
#if FAST
-// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
- // expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+ // expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
j = a > NAN;
#if FAST
-// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
j = a >= NAN;
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
k = std::isinf(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
l = std::isnan(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
o = std::isfinite(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
m = __builtin_isinf(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
n = __builtin_isnan(a);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
p = __builtin_isfinite(a);
@@ -202,44 +225,60 @@ k = std::isinf(a);
j = isunorderedf(a, b);
#if FAST
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, NAN);
#if FAST
-// expected-warning at +5 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, INFINITY);
#if FAST
-// expected-warning at +11 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, NAN);
#if FAST
-// expected-warning at +11 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{explicit comparison with NaN when the program is assumed to not use or produce NaN}}
+// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity when the program is assumed to not use or produce infinity}}
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, INFINITY);
+#if FAST
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+#endif
+ double y = i * numeric_limits<double>::infinity();
+
+#if FAST
+// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+#endif
+ j = numeric_limits<float>::infinity();
return 0;
+
}
>From d82f5690f4811552241b22b425de30dfbc84b049 Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Sat, 13 Jan 2024 08:16:01 -0800
Subject: [PATCH 4/7] Fixed the diagnostic message.
---
clang/docs/ReleaseNotes.rst | 4 +
.../clang/Basic/DiagnosticSemaKinds.td | 7 +-
clang/lib/Sema/SemaChecking.cpp | 14 +-
clang/test/Sema/warn-fp-fast-compare.cpp | 126 +++++++++---------
4 files changed, 78 insertions(+), 73 deletions(-)
diff --git a/clang/docs/ReleaseNotes.rst b/clang/docs/ReleaseNotes.rst
index 778ce0e0e52d066..94a91e3b13dcb09 100644
--- a/clang/docs/ReleaseNotes.rst
+++ b/clang/docs/ReleaseNotes.rst
@@ -519,6 +519,10 @@ Improvements to Clang's diagnostics
- Clang now diagnoses narrowing conversions involving const references.
(`#63151: <https://github.com/llvm/llvm-project/issues/63151>`_).
- Clang now diagnoses unexpanded packs within the template argument lists of function template specializations.
+- Clang's ``-Wtautological-logical-constant-compare`` flag now diagnoses
+ when ``INFINITY`` or ``NAN`` are used in arithmetic operations or function
+ arguments in floating-points mode where ``INFINITY`` or ``NAN`` don't have the
+ expected values.
Improvements to Clang's time-trace
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index e1164ef34a1b6c6..856022f51fad7db 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6772,9 +6772,10 @@ def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
def warn_fast_floatingpoint_eq : Warning<
- "use of %select{infinity|NaN}0 will always be 'false' because "
- "%select{infinity|NaN}0 will not be produced according to the currently "
- "enabled floating-point options">,
+ "%select{explicit comparison with|use of}0 %select{infinity|nan}1 "
+ "%select{will always return 'false'|as a function argument will not always be interpreted as such}0 "
+ "because %select{infinity|nan}1 will not be produced according to the "
+ "currently enabled floating-point options">,
InGroup<TautologicalConstantCompare>;
def err_setting_eval_method_used_in_unsafe_context : Error <
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index 027cfac1c5a641d..f2a49f89b9b1ecc 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -9098,7 +9098,7 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (BuiltinID == Builtin::BI__builtin_isunordered &&
TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 1 << 0 << 1;
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9143,10 +9143,10 @@ bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
BuiltinID == Builtin::BI__builtin_isinf ||
BuiltinID == Builtin::BI__builtin_isinf_sign))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0 << 0 << 0;
if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
BuiltinID == Builtin::BI__builtin_isunordered))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1 << 1 << 1;
bool IsFPClass = NumArgs == 2;
@@ -12900,13 +12900,13 @@ void Sema::CheckInfNaNFunction(const CallExpr *Call,
if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1;
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1 << 1 << 1;
else if ((IsStdFunction(FDecl, "isinf") ||
(IsStdFunction(FDecl, "isfinite") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_inff)) ||
(FDecl->getIdentifier() && FDecl->getName() == "infinity")) &&
FPO.getNoHonorInfs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0;
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 0 << 1 << 0;
}
// Warn when using the wrong abs() function.
@@ -13899,12 +13899,12 @@ void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
if (IsConstant(LHS, LeftExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << (Value.isNaN() ? 1 : 0) << (Value.isNaN() ? 1 : 0);
+ << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
if (IsConstant(RHS, RightExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << (Value.isNaN() ? 1 : 0) << (Value.isNaN() ? 1 : 0);
+ << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
}
/// Check for comparisons of floating-point values using == and !=. Issue a
diff --git a/clang/test/Sema/warn-fp-fast-compare.cpp b/clang/test/Sema/warn-fp-fast-compare.cpp
index 430fb58dfd7473d..c6f746c3f8de11a 100644
--- a/clang/test/Sema/warn-fp-fast-compare.cpp
+++ b/clang/test/Sema/warn-fp-fast-compare.cpp
@@ -71,149 +71,149 @@ class numeric_limits<double> {
int compareit(float a, float b) {
volatile int i, j, k, l, m, n, o, p;
#if FAST
-// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
i = a == INFINITY;
#if FAST
-// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY == a;
#if FAST
-// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
i = a == NAN;
#if FAST
-// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
j = NAN == a;
#if FAST
-// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY <= a;
#if FAST
-// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
- // expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = INFINITY < a;
#if FAST
-// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
- // expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
j = a > NAN;
#if FAST
-// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
#endif
j = a >= NAN;
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
-k = std::isinf(a);
+ k = std::isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
l = std::isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
o = std::isfinite(a);
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
m = __builtin_isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
n = __builtin_isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
#endif
p = __builtin_isfinite(a);
@@ -225,58 +225,58 @@ k = std::isinf(a);
j = isunorderedf(a, b);
#if FAST
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, NAN);
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, INFINITY);
#if FAST
-// expected-warning at +11 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, NAN);
#if FAST
-// expected-warning at +11 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of NaN will always be 'false' because NaN will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, INFINITY);
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
double y = i * numeric_limits<double>::infinity();
#if FAST
-// expected-warning at +5 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity will always be 'false' because infinity will not be produced according to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
#endif
j = numeric_limits<float>::infinity();
return 0;
>From b603724027071ae75ce509f69c3dbb8445edd42f Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Sat, 13 Jan 2024 08:23:24 -0800
Subject: [PATCH 5/7] Fix format.
---
clang/lib/Sema/SemaChecking.cpp | 17 +++++++++++------
1 file changed, 11 insertions(+), 6 deletions(-)
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index f2a49f89b9b1ecc..4a8078a772006e5 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -9098,7 +9098,8 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (BuiltinID == Builtin::BI__builtin_isunordered &&
TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 1 << 0 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << 0 << 1 << 0 << 1;
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9143,10 +9144,12 @@ bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
BuiltinID == Builtin::BI__builtin_isinf ||
BuiltinID == Builtin::BI__builtin_isinf_sign))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 0 << 0 << 0 << 0;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << 0 << 0 << 0 << 0;
if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
BuiltinID == Builtin::BI__builtin_isunordered))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1 << 1 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << 1 << 1 << 1 << 1;
bool IsFPClass = NumArgs == 2;
@@ -12900,13 +12903,15 @@ void Sema::CheckInfNaNFunction(const CallExpr *Call,
if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 1 << 1 << 1;
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << 1 << 1 << 1 << 1;
else if ((IsStdFunction(FDecl, "isinf") ||
(IsStdFunction(FDecl, "isfinite") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_inff)) ||
(FDecl->getIdentifier() && FDecl->getName() == "infinity")) &&
FPO.getNoHonorInfs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq) << 1 << 0 << 1 << 0;
+ Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
+ << 1 << 0 << 1 << 0;
}
// Warn when using the wrong abs() function.
@@ -13904,7 +13909,7 @@ void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
if (IsConstant(RHS, RightExprSansParen, Context) &&
((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
+ << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
}
/// Check for comparisons of floating-point values using == and !=. Issue a
>From 0b2cec264b4cb90088774bb13c35995104975f36 Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Wed, 17 Jan 2024 12:23:06 -0800
Subject: [PATCH 6/7] After discussion with Aaron separated the warning so one
is triggered when INFINITY/NAN macros are used and the other when
__builtin_inf() and __builtin_nan() are used.
---
.../clang/Basic/DiagnosticCommonKinds.td | 5 +-
.../clang/Basic/DiagnosticSemaKinds.td | 8 +-
clang/include/clang/Lex/Preprocessor.h | 4 +
clang/include/clang/Sema/Sema.h | 2 -
clang/lib/Lex/Preprocessor.cpp | 5 +
clang/lib/Sema/SemaChecking.cpp | 54 +---
clang/lib/Sema/SemaExpr.cpp | 5 +-
clang/test/Sema/warn-fp-fast-compare.cpp | 284 ------------------
.../Sema/warn-infinity-nan-disabled-lnx.cpp | 237 +++++++++++++++
.../Sema/warn-infinity-nan-disabled-win.cpp | 240 +++++++++++++++
10 files changed, 506 insertions(+), 338 deletions(-)
delete mode 100644 clang/test/Sema/warn-fp-fast-compare.cpp
create mode 100644 clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
create mode 100644 clang/test/Sema/warn-infinity-nan-disabled-win.cpp
diff --git a/clang/include/clang/Basic/DiagnosticCommonKinds.td b/clang/include/clang/Basic/DiagnosticCommonKinds.td
index 72952b08c04a490..8c096568ebd450e 100644
--- a/clang/include/clang/Basic/DiagnosticCommonKinds.td
+++ b/clang/include/clang/Basic/DiagnosticCommonKinds.td
@@ -69,7 +69,10 @@ def warn_pragma_debug_missing_argument : Warning<
"missing argument to debug command '%0'">, InGroup<IgnoredPragmas>;
def warn_pragma_debug_unexpected_argument : Warning<
"unexpected argument to debug command">, InGroup<IgnoredPragmas>;
-
+def warn_infinity_defined_in_macro : Warning<
+ "infinity defined via a macro will result in an undefined behavior "
+ "due to the currently enabled floating-point options">,
+ InGroup<DiagGroup<"infinity-disabled">>;
}
// Parse && Sema
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index 865b9db0f5e93e0..070986aa4531303 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6784,12 +6784,10 @@ def warn_pointer_sub_null_ptr : Warning<
def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
-def warn_fast_floatingpoint_eq : Warning<
- "%select{explicit comparison with|use of}0 %select{infinity|nan}1 "
- "%select{will always return 'false'|as a function argument will not always be interpreted as such}0 "
- "because %select{infinity|nan}1 will not be produced according to the "
+def warn_fp_nan_inf_when_disabled : Warning<
+ "use of %select{infinity|NaN}0 results in undefined behavior due to the "
"currently enabled floating-point options">,
- InGroup<TautologicalConstantCompare>;
+ InGroup<DiagGroup<"nan-and-infinity-disabled">>;
def err_setting_eval_method_used_in_unsafe_context : Error <
"%select{'#pragma clang fp eval_method'|option 'ffp-eval-method'}0 cannot be used with "
diff --git a/clang/include/clang/Lex/Preprocessor.h b/clang/include/clang/Lex/Preprocessor.h
index 4ec21a8b6be2c85..4ad034c02d6b11f 100644
--- a/clang/include/clang/Lex/Preprocessor.h
+++ b/clang/include/clang/Lex/Preprocessor.h
@@ -2835,6 +2835,9 @@ class Preprocessor {
if (Identifier.getIdentifierInfo()->isRestrictExpansion() &&
!SourceMgr.isInMainFile(Identifier.getLocation()))
emitRestrictExpansionWarning(Identifier);
+
+ if (Identifier.getIdentifierInfo()->getName() == "INFINITY")
+ emitRestrictInfNaNWarning(Identifier);
}
static void processPathForFileMacro(SmallVectorImpl<char> &Path,
@@ -2850,6 +2853,7 @@ class Preprocessor {
void emitMacroDeprecationWarning(const Token &Identifier) const;
void emitRestrictExpansionWarning(const Token &Identifier) const;
void emitFinalMacroWarning(const Token &Identifier, bool IsUndef) const;
+ void emitRestrictInfNaNWarning(const Token &Identifier) const;
/// This boolean state keeps track if the current scanned token (by this PP)
/// is in an "-Wunsafe-buffer-usage" opt-out region. Assuming PP scans a
diff --git a/clang/include/clang/Sema/Sema.h b/clang/include/clang/Sema/Sema.h
index a9d720f97ff0800..8d915c8c730ea85 100644
--- a/clang/include/clang/Sema/Sema.h
+++ b/clang/include/clang/Sema/Sema.h
@@ -14035,8 +14035,6 @@ class Sema final {
public:
void CheckFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
BinaryOperatorKind Opcode);
- void CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
- BinaryOperatorKind Opcode);
private:
void CheckImplicitConversions(Expr *E, SourceLocation CC = SourceLocation());
diff --git a/clang/lib/Lex/Preprocessor.cpp b/clang/lib/Lex/Preprocessor.cpp
index 64f54c6fc6382f2..da8e57ff084028c 100644
--- a/clang/lib/Lex/Preprocessor.cpp
+++ b/clang/lib/Lex/Preprocessor.cpp
@@ -1457,6 +1457,11 @@ void Preprocessor::emitRestrictExpansionWarning(const Token &Identifier) const {
Diag(Info.Location, diag::note_pp_macro_annotation) << 1;
}
+void Preprocessor::emitRestrictInfNaNWarning(const Token &Identifier) const {
+ if (getLangOpts().NoHonorInfs)
+ Diag(Identifier, diag::warn_infinity_defined_in_macro);
+}
+
void Preprocessor::emitFinalMacroWarning(const Token &Identifier,
bool IsUndef) const {
const MacroAnnotations &A =
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index bd29318ce893dbf..6195d0b361a788e 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -9113,8 +9113,8 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (BuiltinID == Builtin::BI__builtin_isunordered &&
TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << 0 << 1 << 0 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
+ << 1 << TheCall->getSourceRange();
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9159,12 +9159,13 @@ bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
if (FPO.getNoHonorInfs() && (BuiltinID == Builtin::BI__builtin_isfinite ||
BuiltinID == Builtin::BI__builtin_isinf ||
BuiltinID == Builtin::BI__builtin_isinf_sign))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << 0 << 0 << 0 << 0;
+ Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
+ << 0 << TheCall->getSourceRange();
+
if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
BuiltinID == Builtin::BI__builtin_isunordered))
- Diag(TheCall->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << 1 << 1 << 1 << 1;
+ Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
+ << 1 << TheCall->getSourceRange();
bool IsFPClass = NumArgs == 2;
@@ -12918,15 +12919,14 @@ void Sema::CheckInfNaNFunction(const CallExpr *Call,
if ((IsStdFunction(FDecl, "isnan") || IsStdFunction(FDecl, "isunordered") ||
(Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << 1 << 1 << 1 << 1;
+ Diag(Call->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
+ << 1 << Call->getSourceRange();
else if ((IsStdFunction(FDecl, "isinf") ||
(IsStdFunction(FDecl, "isfinite") ||
- (Call->getBuiltinCallee() == Builtin::BI__builtin_inff)) ||
- (FDecl->getIdentifier() && FDecl->getName() == "infinity")) &&
+ (FDecl->getIdentifier() && FDecl->getName() == "infinity"))) &&
FPO.getNoHonorInfs())
- Diag(Call->getBeginLoc(), diag::warn_fast_floatingpoint_eq)
- << 1 << 0 << 1 << 0;
+ Diag(Call->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
+ << 0 << Call->getSourceRange();
}
// Warn when using the wrong abs() function.
@@ -13897,36 +13897,6 @@ Sema::CheckReturnValExpr(Expr *RetValExp, QualType lhsType,
CheckPPCMMAType(RetValExp->getType(), ReturnLoc);
}
-/// Diagnose comparison to NAN or INFINITY in fast math modes.
-/// The comparison to NaN or INFINITY is always false in
-/// fast modes: float evaluation will not result in inf or nan.
-void Sema::CheckInfNaNFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
- BinaryOperatorKind Opcode) {
- Expr *LeftExprSansParen = LHS->IgnoreParenImpCasts();
- Expr *RightExprSansParen = RHS->IgnoreParenImpCasts();
-
- FPOptions FPO = LHS->getFPFeaturesInEffect(getLangOpts());
- bool NoHonorNaNs = FPO.getNoHonorNaNs();
- bool NoHonorInfs = FPO.getNoHonorInfs();
- llvm::APFloat Value(0.0);
-
- auto IsConstant = [&Value](Expr *E, Expr *ESansParen, ASTContext &Context) {
- return !E->isValueDependent() &&
- ESansParen->EvaluateAsFloat(Value, Context,
- Expr::SE_AllowSideEffects);
- };
-
- if (IsConstant(LHS, LeftExprSansParen, Context) &&
- ((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
- Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
-
- if (IsConstant(RHS, RightExprSansParen, Context) &&
- ((NoHonorNaNs && Value.isNaN()) || (NoHonorInfs && Value.isInfinity())))
- Diag(Loc, diag::warn_fast_floatingpoint_eq)
- << 0 << (Value.isNaN() ? 1 : 0) << 0 << (Value.isNaN() ? 1 : 0);
-}
-
/// Check for comparisons of floating-point values using == and !=. Issue a
/// warning if the comparison is not likely to do what the programmer intended.
void Sema::CheckFloatComparison(SourceLocation Loc, Expr *LHS, Expr *RHS,
diff --git a/clang/lib/Sema/SemaExpr.cpp b/clang/lib/Sema/SemaExpr.cpp
index 8920137169596f2..f3aa1e978aa65c5 100644
--- a/clang/lib/Sema/SemaExpr.cpp
+++ b/clang/lib/Sema/SemaExpr.cpp
@@ -13044,12 +13044,9 @@ static QualType checkArithmeticOrEnumeralCompare(Sema &S, ExprResult &LHS,
if (Type->isAnyComplexType() && BinaryOperator::isRelationalOp(Opc))
return S.InvalidOperands(Loc, LHS, RHS);
- if (Type->hasFloatingRepresentation()) {
- // Check for comparisons to NAN or INFINITY in fast math mode.
- S.CheckInfNaNFloatComparison(Loc, LHS.get(), RHS.get(), Opc);
+ if (Type->hasFloatingRepresentation())
// Check for comparisons of floating point operands using != and ==.
S.CheckFloatComparison(Loc, LHS.get(), RHS.get(), Opc);
- }
// The result of comparisons is 'bool' in C++, 'int' in C.
return S.Context.getLogicalOperationType();
diff --git a/clang/test/Sema/warn-fp-fast-compare.cpp b/clang/test/Sema/warn-fp-fast-compare.cpp
deleted file mode 100644
index c6f746c3f8de11a..000000000000000
--- a/clang/test/Sema/warn-fp-fast-compare.cpp
+++ /dev/null
@@ -1,284 +0,0 @@
-// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
-// RUN: -menable-no-infs -menable-no-nans -DFAST=1
-
-// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
-// RUN: -DNOFAST=1
-
-// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
-// RUN: -menable-no-infs -DNO_INFS=1
-
-// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
-// RUN: -menable-no-nans -DNO_NANS=1
-
-int isunorderedf (float x, float y);
-#if NOFAST
-// expected-no-diagnostics
-#endif
-extern "C++" {
-namespace std __attribute__((__visibility__("default"))) {
- bool
- isinf(float __x);
- bool
- isinf(double __x);
- bool
- isinf(long double __x);
- bool
- isnan(float __x);
- bool
- isnan(double __x);
- bool
- isnan(long double __x);
-bool
- isfinite(float __x);
- bool
- isfinite(double __x);
- bool
- isfinte(long double __x);
- bool
- isunordered(float __x, float __y);
- bool
- isunordered(double __x, double __y);
- bool
- isunordered(long double __x, long double __y);
-} // namespace )
-}
-#define NAN (__builtin_nanf(""))
-#define INFINITY (__builtin_inff())
-
-template <class _Ty>
-class numeric_limits {
-public:
- [[nodiscard]] static constexpr _Ty infinity() noexcept {
- return _Ty();
- }
-};
-
-template <>
-class numeric_limits<float> {
-public:
- [[nodiscard]] static constexpr float infinity() noexcept {
- return __builtin_huge_val();
- }
-};
-template <>
-class numeric_limits<double> {
-public:
- [[nodiscard]] static constexpr double infinity() noexcept {
- return __builtin_huge_val();
- }
-};
-
-int compareit(float a, float b) {
- volatile int i, j, k, l, m, n, o, p;
-#if FAST
-// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- i = a == INFINITY;
-#if FAST
-// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- j = INFINITY == a;
-#if FAST
-// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- i = a == NAN;
-#if FAST
-// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- j = NAN == a;
-#if FAST
-// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- j = INFINITY <= a;
-#if FAST
-// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- j = INFINITY < a;
-#if FAST
-// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- j = a > NAN;
-#if FAST
-// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{explicit comparison with nan will always return 'false' because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- j = a >= NAN;
-#if FAST
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- k = std::isinf(a);
-#if FAST
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- l = std::isnan(a);
-#if FAST
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- o = std::isfinite(a);
-#if FAST
-// expected-warning at +5 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- m = __builtin_isinf(a);
-#if FAST
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- n = __builtin_isnan(a);
-#if FAST
-// expected-warning at +5 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{explicit comparison with infinity will always return 'false' because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- p = __builtin_isfinite(a);
-
- // These should NOT warn, since they are not comparing with NaN or infinity.
- j = a > 1.1;
- j = b < 1.1;
- j = a >= 1.1;
- j = b <= 1.1;
- j = isunorderedf(a, b);
-
-#if FAST
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- j = isunorderedf(a, NAN);
-#if FAST
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- j = isunorderedf(a, INFINITY);
-#if FAST
-// expected-warning at +11 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +5 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- i = std::isunordered(a, NAN);
-#if FAST
-// expected-warning at +11 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if FAST
-// expected-warning at +8 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_NANS
-// expected-warning at +2 {{use of nan as a function argument will not always be interpreted as such because nan will not be produced according to the currently enabled floating-point options}}
-#endif
- i = std::isunordered(a, INFINITY);
-#if FAST
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- double y = i * numeric_limits<double>::infinity();
-
-#if FAST
-// expected-warning at +5 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
-#if NO_INFS
-// expected-warning at +2 {{use of infinity as a function argument will not always be interpreted as such because infinity will not be produced according to the currently enabled floating-point options}}
-#endif
- j = numeric_limits<float>::infinity();
- return 0;
-
-}
diff --git a/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp b/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
new file mode 100644
index 000000000000000..b23bceeacc1d9fd
--- /dev/null
+++ b/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
@@ -0,0 +1,237 @@
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -menable-no-nans -DFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -DNOFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -DNO_INFS=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-nans -DNO_NANS=1
+
+int isunorderedf (float x, float y);
+#if NOFAST
+// expected-no-diagnostics
+#endif
+extern "C++" {
+namespace std __attribute__((__visibility__("default"))) {
+ bool
+ isinf(float __x);
+ bool
+ isinf(double __x);
+ bool
+ isinf(long double __x);
+ bool
+ isnan(float __x);
+ bool
+ isnan(double __x);
+ bool
+ isnan(long double __x);
+bool
+ isfinite(float __x);
+ bool
+ isfinite(double __x);
+ bool
+ isfinte(long double __x);
+ bool
+ isunordered(float __x, float __y);
+ bool
+ isunordered(double __x, double __y);
+ bool
+ isunordered(long double __x, long double __y);
+} // namespace )
+}
+
+#define NAN (__builtin_nanf(""))
+#define INFINITY (__builtin_inff())
+
+template <class _Ty>
+class numeric_limits {
+public:
+ [[nodiscard]] static constexpr _Ty infinity() noexcept {
+ return _Ty();
+ }
+};
+
+template <>
+class numeric_limits<float> {
+public:
+ [[nodiscard]] static constexpr float infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+template <>
+class numeric_limits<double> {
+public:
+ [[nodiscard]] static constexpr double infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+
+int compareit(float a, float b) {
+ volatile int i, j, k, l, m, n, o, p;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = a == INFINITY;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point option}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY == a;
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = a == NAN;
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = NAN == a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY <= a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY < a;
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = a > NAN;
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = a >= NAN;
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ k = std::isinf(a);
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ l = std::isnan(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ o = std::isfinite(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ m = __builtin_isinf(a);
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ n = __builtin_isnan(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ p = __builtin_isfinite(a);
+
+ // These should NOT warn, since they are not comparing with NaN or infinity.
+ j = a > 1.1;
+ j = b < 1.1;
+ j = a >= 1.1;
+ j = b <= 1.1;
+ j = isunorderedf(a, b);
+
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = isunorderedf(a, NAN);
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = isunorderedf(a, INFINITY);
+#if FAST
+// expected-warning at +11 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if FAST
+// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = std::isunordered(a, NAN);
+#if FAST
+// expected-warning at +11 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point option}}
+#endif
+#if FAST
+// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = std::isunordered(a, INFINITY);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ double y = i * numeric_limits<double>::infinity();
+
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = numeric_limits<float>::infinity();
+ return 0;
+
+}
diff --git a/clang/test/Sema/warn-infinity-nan-disabled-win.cpp b/clang/test/Sema/warn-infinity-nan-disabled-win.cpp
new file mode 100644
index 000000000000000..085de5b92f84ca0
--- /dev/null
+++ b/clang/test/Sema/warn-infinity-nan-disabled-win.cpp
@@ -0,0 +1,240 @@
+// Use of NAN macro will trigger a warning "infinity defined in macro" because
+// on Windows the NAN macro is defined using INFINITY. See below.
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -menable-no-nans -DFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -DNOFAST=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-infs -DNO_INFS=1
+
+// RUN: %clang_cc1 -x c++ -verify -triple powerpc64le-unknown-unknown %s \
+// RUN: -menable-no-nans -DNO_NANS=1
+
+int isunorderedf (float x, float y);
+#if NOFAST
+// expected-no-diagnostics
+#endif
+extern "C++" {
+namespace std __attribute__((__visibility__("default"))) {
+ bool
+ isinf(float __x);
+ bool
+ isinf(double __x);
+ bool
+ isinf(long double __x);
+ bool
+ isnan(float __x);
+ bool
+ isnan(double __x);
+ bool
+ isnan(long double __x);
+bool
+ isfinite(float __x);
+ bool
+ isfinite(double __x);
+ bool
+ isfinte(long double __x);
+ bool
+ isunordered(float __x, float __y);
+ bool
+ isunordered(double __x, double __y);
+ bool
+ isunordered(long double __x, long double __y);
+} // namespace )
+}
+
+#define INFINITY ((float)(1e+300 * 1e+300))
+#define NAN (-(float)(INFINITY * 0.0F))
+
+template <class _Ty>
+class numeric_limits {
+public:
+ [[nodiscard]] static constexpr _Ty infinity() noexcept {
+ return _Ty();
+ }
+};
+
+template <>
+class numeric_limits<float> {
+public:
+ [[nodiscard]] static constexpr float infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+template <>
+class numeric_limits<double> {
+public:
+ [[nodiscard]] static constexpr double infinity() noexcept {
+ return __builtin_huge_val();
+ }
+};
+
+int compareit(float a, float b) {
+ volatile int i, j, k, l, m, n, o, p;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = a == INFINITY;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY == a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = a == NAN;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = NAN == a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY <= a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = INFINITY < a;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = a > NAN;
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = a >= NAN;
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ k = std::isinf(a);
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ l = std::isnan(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ o = std::isfinite(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ m = __builtin_isinf(a);
+#if FAST
+// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ n = __builtin_isnan(a);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ p = __builtin_isfinite(a);
+
+ // These should NOT warn, since they are not comparing with NaN or infinity.
+ j = a > 1.1;
+ j = b < 1.1;
+ j = a >= 1.1;
+ j = b <= 1.1;
+ j = isunorderedf(a, b);
+
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = isunorderedf(a, NAN);
+#if FAST
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = isunorderedf(a, INFINITY);
+#if FAST
+// expected-warning at +11 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if FAST
+// expected-warning at +8 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = std::isunordered(a, NAN);
+#if FAST
+// expected-warning at +11 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if FAST
+// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_NANS
+// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ i = std::isunordered(a, INFINITY);
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ double y = i * numeric_limits<double>::infinity();
+
+#if FAST
+// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+#if NO_INFS
+// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+#endif
+ j = numeric_limits<float>::infinity();
+ return 0;
+
+}
>From 71431deb512fab0cb0fe7454e371a12d204f0699 Mon Sep 17 00:00:00 2001
From: Ammarguellat <zahira.ammarguellat at intel.com>
Date: Thu, 18 Jan 2024 06:39:49 -0800
Subject: [PATCH 7/7] Fixed the diagnostics and RN.
---
clang/docs/ReleaseNotes.rst | 9 +-
.../clang/Basic/DiagnosticCommonKinds.td | 7 +-
.../clang/Basic/DiagnosticSemaKinds.td | 4 -
clang/lib/Lex/Preprocessor.cpp | 2 +-
clang/lib/Sema/SemaChecking.cpp | 10 +--
clang/lib/Sema/SemaExpr.cpp | 2 +-
.../Sema/warn-infinity-nan-disabled-lnx.cpp | 88 +++++++++----------
.../Sema/warn-infinity-nan-disabled-win.cpp | 88 +++++++++----------
8 files changed, 104 insertions(+), 106 deletions(-)
diff --git a/clang/docs/ReleaseNotes.rst b/clang/docs/ReleaseNotes.rst
index b2b32821524d1a7..acaf5996ddcf14f 100644
--- a/clang/docs/ReleaseNotes.rst
+++ b/clang/docs/ReleaseNotes.rst
@@ -558,10 +558,11 @@ Improvements to Clang's diagnostics
- Clang now diagnoses narrowing conversions involving const references.
(`#63151: <https://github.com/llvm/llvm-project/issues/63151>`_).
- Clang now diagnoses unexpanded packs within the template argument lists of function template specializations.
-- Clang's ``-Wtautological-logical-constant-compare`` flag now diagnoses
- when ``INFINITY`` or ``NAN`` are used in arithmetic operations or function
- arguments in floating-points mode where ``INFINITY`` or ``NAN`` don't have the
- expected values.
+- The warning `-Wnan-and-infinity-disabled` is now emitted when ``INFINITY``
+ or ``NAN`` are used in arithmetic operations or function arguments in
+ floating-point mode where ``INFINITY`` or ``NAN`` don't have the expected
+ values.
+
- Clang now diagnoses attempts to bind a bitfield to an NTTP of a reference type as erroneous
converted constant expression and not as a reference to subobject.
diff --git a/clang/include/clang/Basic/DiagnosticCommonKinds.td b/clang/include/clang/Basic/DiagnosticCommonKinds.td
index 8c096568ebd450e..93d65504a7b1207 100644
--- a/clang/include/clang/Basic/DiagnosticCommonKinds.td
+++ b/clang/include/clang/Basic/DiagnosticCommonKinds.td
@@ -69,10 +69,11 @@ def warn_pragma_debug_missing_argument : Warning<
"missing argument to debug command '%0'">, InGroup<IgnoredPragmas>;
def warn_pragma_debug_unexpected_argument : Warning<
"unexpected argument to debug command">, InGroup<IgnoredPragmas>;
-def warn_infinity_defined_in_macro : Warning<
- "infinity defined via a macro will result in an undefined behavior "
+
+def warn_fp_nan_inf_when_disabled : Warning<
+ "use of %select{infinity|NaN}0 %select{|via a macro}1 results in an undefined behavior "
"due to the currently enabled floating-point options">,
- InGroup<DiagGroup<"infinity-disabled">>;
+ InGroup<DiagGroup<"nan-and-infinity-disabled">>;
}
// Parse && Sema
diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td
index 070986aa4531303..1a79892e40030ae 100644
--- a/clang/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td
@@ -6784,10 +6784,6 @@ def warn_pointer_sub_null_ptr : Warning<
def warn_floatingpoint_eq : Warning<
"comparing floating point with == or != is unsafe">,
InGroup<DiagGroup<"float-equal">>, DefaultIgnore;
-def warn_fp_nan_inf_when_disabled : Warning<
- "use of %select{infinity|NaN}0 results in undefined behavior due to the "
- "currently enabled floating-point options">,
- InGroup<DiagGroup<"nan-and-infinity-disabled">>;
def err_setting_eval_method_used_in_unsafe_context : Error <
"%select{'#pragma clang fp eval_method'|option 'ffp-eval-method'}0 cannot be used with "
diff --git a/clang/lib/Lex/Preprocessor.cpp b/clang/lib/Lex/Preprocessor.cpp
index da8e57ff084028c..b821e947c36a56e 100644
--- a/clang/lib/Lex/Preprocessor.cpp
+++ b/clang/lib/Lex/Preprocessor.cpp
@@ -1459,7 +1459,7 @@ void Preprocessor::emitRestrictExpansionWarning(const Token &Identifier) const {
void Preprocessor::emitRestrictInfNaNWarning(const Token &Identifier) const {
if (getLangOpts().NoHonorInfs)
- Diag(Identifier, diag::warn_infinity_defined_in_macro);
+ Diag(Identifier, diag::warn_fp_nan_inf_when_disabled) << 0 << 1;
}
void Preprocessor::emitFinalMacroWarning(const Token &Identifier,
diff --git a/clang/lib/Sema/SemaChecking.cpp b/clang/lib/Sema/SemaChecking.cpp
index 6195d0b361a788e..a35ee7af0d0104c 100644
--- a/clang/lib/Sema/SemaChecking.cpp
+++ b/clang/lib/Sema/SemaChecking.cpp
@@ -9114,7 +9114,7 @@ bool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall, unsigned BuiltinID) {
if (BuiltinID == Builtin::BI__builtin_isunordered &&
TheCall->getFPFeaturesInEffect(getLangOpts()).getNoHonorNaNs())
Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
- << 1 << TheCall->getSourceRange();
+ << 1 << 0 << TheCall->getSourceRange();
ExprResult OrigArg0 = TheCall->getArg(0);
ExprResult OrigArg1 = TheCall->getArg(1);
@@ -9160,12 +9160,12 @@ bool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs,
BuiltinID == Builtin::BI__builtin_isinf ||
BuiltinID == Builtin::BI__builtin_isinf_sign))
Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
- << 0 << TheCall->getSourceRange();
+ << 0 << 0 << TheCall->getSourceRange();
if (FPO.getNoHonorNaNs() && (BuiltinID == Builtin::BI__builtin_isnan ||
BuiltinID == Builtin::BI__builtin_isunordered))
Diag(TheCall->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
- << 1 << TheCall->getSourceRange();
+ << 1 << 0 << TheCall->getSourceRange();
bool IsFPClass = NumArgs == 2;
@@ -12920,13 +12920,13 @@ void Sema::CheckInfNaNFunction(const CallExpr *Call,
(Call->getBuiltinCallee() == Builtin::BI__builtin_nanf)) &&
FPO.getNoHonorNaNs())
Diag(Call->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
- << 1 << Call->getSourceRange();
+ << 1 << 0 << Call->getSourceRange();
else if ((IsStdFunction(FDecl, "isinf") ||
(IsStdFunction(FDecl, "isfinite") ||
(FDecl->getIdentifier() && FDecl->getName() == "infinity"))) &&
FPO.getNoHonorInfs())
Diag(Call->getBeginLoc(), diag::warn_fp_nan_inf_when_disabled)
- << 0 << Call->getSourceRange();
+ << 0 << 0 << Call->getSourceRange();
}
// Warn when using the wrong abs() function.
diff --git a/clang/lib/Sema/SemaExpr.cpp b/clang/lib/Sema/SemaExpr.cpp
index f3aa1e978aa65c5..2f48ea237cdfa42 100644
--- a/clang/lib/Sema/SemaExpr.cpp
+++ b/clang/lib/Sema/SemaExpr.cpp
@@ -13044,8 +13044,8 @@ static QualType checkArithmeticOrEnumeralCompare(Sema &S, ExprResult &LHS,
if (Type->isAnyComplexType() && BinaryOperator::isRelationalOp(Opc))
return S.InvalidOperands(Loc, LHS, RHS);
+ // Check for comparisons of floating point operands using != and ==.
if (Type->hasFloatingRepresentation())
- // Check for comparisons of floating point operands using != and ==.
S.CheckFloatComparison(Loc, LHS.get(), RHS.get(), Opc);
// The result of comparisons is 'bool' in C++, 'int' in C.
diff --git a/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp b/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
index b23bceeacc1d9fd..8719161083ba3f9 100644
--- a/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
+++ b/clang/test/Sema/warn-infinity-nan-disabled-lnx.cpp
@@ -72,101 +72,101 @@ class numeric_limits<double> {
int compareit(float a, float b) {
volatile int i, j, k, l, m, n, o, p;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = a == INFINITY;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point option}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY == a;
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = a == NAN;
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = NAN == a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY <= a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY < a;
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = a > NAN;
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = a >= NAN;
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
k = std::isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
l = std::isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
o = std::isfinite(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
m = __builtin_isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
n = __builtin_isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
p = __builtin_isfinite(a);
@@ -178,58 +178,58 @@ int compareit(float a, float b) {
j = isunorderedf(a, b);
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, NAN);
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, INFINITY);
#if FAST
-// expected-warning at +11 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, NAN);
#if FAST
-// expected-warning at +11 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point option}}
+// expected-warning at +11 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, INFINITY);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
double y = i * numeric_limits<double>::infinity();
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = numeric_limits<float>::infinity();
return 0;
diff --git a/clang/test/Sema/warn-infinity-nan-disabled-win.cpp b/clang/test/Sema/warn-infinity-nan-disabled-win.cpp
index 085de5b92f84ca0..82d2a6c9cadb505 100644
--- a/clang/test/Sema/warn-infinity-nan-disabled-win.cpp
+++ b/clang/test/Sema/warn-infinity-nan-disabled-win.cpp
@@ -75,101 +75,101 @@ class numeric_limits<double> {
int compareit(float a, float b) {
volatile int i, j, k, l, m, n, o, p;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = a == INFINITY;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY == a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = a == NAN;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = NAN == a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY <= a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = INFINITY < a;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = a > NAN;
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = a >= NAN;
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
k = std::isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
l = std::isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
o = std::isfinite(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
m = __builtin_isinf(a);
#if FAST
-// expected-warning at +5 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
n = __builtin_isnan(a);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
p = __builtin_isfinite(a);
@@ -181,58 +181,58 @@ int compareit(float a, float b) {
j = isunorderedf(a, b);
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, NAN);
#if FAST
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = isunorderedf(a, INFINITY);
#if FAST
-// expected-warning at +11 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, NAN);
#if FAST
-// expected-warning at +11 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +11 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if FAST
-// expected-warning at +8 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +8 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +5 {{infinity defined via a macro will result in an undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity via a macro results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_NANS
-// expected-warning at +2 {{use of NaN results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of NaN results in an undefined behavior due to the currently enabled floating-point options}}
#endif
i = std::isunordered(a, INFINITY);
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
double y = i * numeric_limits<double>::infinity();
#if FAST
-// expected-warning at +5 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +5 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
#if NO_INFS
-// expected-warning at +2 {{use of infinity results in undefined behavior due to the currently enabled floating-point options}}
+// expected-warning at +2 {{use of infinity results in an undefined behavior due to the currently enabled floating-point options}}
#endif
j = numeric_limits<float>::infinity();
return 0;
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