In C++11 mode, when an integral constant expression is desired and we have a
value of class type, look for a unique conversion operator converting to
integral or unscoped enumeration type and use that. Implements [expr.const]p5.
Sema::VerifyIntegerConstantExpression now performs the conversion and returns
the converted result. Some important callers of Expr::isIntegralConstantExpr
have been switched over to using it (including all of those required for C++11
conformance); this switch brings a side-benefit of improved diagnostics and, in
several cases, simpler code. However, some language extensions and attributes
have not been moved across and will not perform implicit conversions on
constant expressions of literal class type where an ICE is required.
In passing, fix static_assert to perform a contextual conversion to bool on its
argument.
git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@149776 91177308-0d34-0410-b5e6-96231b3b80d8
diff --git a/include/clang/AST/Expr.h b/include/clang/AST/Expr.h
index 591640d..33f95af 100644
--- a/include/clang/AST/Expr.h
+++ b/include/clang/AST/Expr.h
@@ -415,6 +415,9 @@
/// constant expression, and, if so, return its value in Result. If not a
/// valid i-c-e, return false and fill in Loc (if specified) with the location
/// of the invalid expression.
+ ///
+ /// Note: This does not perform the implicit conversions required by C++11
+ /// [expr.const]p5.
bool isIntegerConstantExpr(llvm::APSInt &Result, ASTContext &Ctx,
SourceLocation *Loc = 0,
bool isEvaluated = true) const;
@@ -422,6 +425,9 @@
/// isCXX11ConstantExpr - Return true if this expression is a constant
/// expression in C++11. Can only be used in C++.
+ ///
+ /// Note: This does not perform the implicit conversions required by C++11
+ /// [expr.const]p5.
bool isCXX11ConstantExpr(ASTContext &Ctx, APValue *Result = 0,
SourceLocation *Loc = 0) const;
diff --git a/include/clang/Basic/DiagnosticSemaKinds.td b/include/clang/Basic/DiagnosticSemaKinds.td
index 2138d1d..7eef491 100644
--- a/include/clang/Basic/DiagnosticSemaKinds.td
+++ b/include/clang/Basic/DiagnosticSemaKinds.td
@@ -31,6 +31,18 @@
"%select{case value|enumerator value|non-type template argument}0 "
"%select{cannot be narrowed from type %2 to %3|"
"evaluates to %2, which cannot be narrowed to type %3}1">;
+def err_ice_not_integral : Error<
+ "integral constant expression must have integral or unscoped enumeration "
+ "type, not %0">;
+def err_ice_incomplete_type : Error<
+ "integral constant expression has incomplete class type %0">;
+def err_ice_explicit_conversion : Error<
+ "integral constant expression requires explicit conversion from %0 to %1">;
+def note_ice_conversion_here : Note<
+ "conversion to %select{integral|enumeration}0 type %1 declared here">;
+def err_ice_ambiguous_conversion : Error<
+ "ambiguous conversion from type %0 to an integral or unscoped "
+ "enumeration type">;
// Semantic analysis of constant literals.
def ext_predef_outside_function : Warning<
diff --git a/include/clang/Sema/Sema.h b/include/clang/Sema/Sema.h
index 2069dc9..c5915ca 100644
--- a/include/clang/Sema/Sema.h
+++ b/include/clang/Sema/Sema.h
@@ -6120,17 +6120,25 @@
/// VerifyIntegerConstantExpression - Verifies that an expression is an ICE,
/// and reports the appropriate diagnostics. Returns false on success.
/// Can optionally return the value of the expression.
- bool VerifyIntegerConstantExpression(const Expr *E, llvm::APSInt *Result = 0,
- unsigned DiagId = 0,
- bool AllowFold = true);
+ ExprResult VerifyIntegerConstantExpression(Expr *E, llvm::APSInt *Result,
+ PartialDiagnostic Diag,
+ bool AllowFold,
+ PartialDiagnostic FoldDiag);
+ ExprResult VerifyIntegerConstantExpression(Expr *E, llvm::APSInt *Result,
+ PartialDiagnostic Diag,
+ bool AllowFold = true) {
+ return VerifyIntegerConstantExpression(E, Result, Diag, AllowFold,
+ PDiag(0));
+ }
+ ExprResult VerifyIntegerConstantExpression(Expr *E, llvm::APSInt *Result = 0);
/// VerifyBitField - verifies that a bit field expression is an ICE and has
/// the correct width, and that the field type is valid.
/// Returns false on success.
/// Can optionally return whether the bit-field is of width 0
- bool VerifyBitField(SourceLocation FieldLoc, IdentifierInfo *FieldName,
- QualType FieldTy, const Expr *BitWidth,
- bool *ZeroWidth = 0);
+ ExprResult VerifyBitField(SourceLocation FieldLoc, IdentifierInfo *FieldName,
+ QualType FieldTy, Expr *BitWidth,
+ bool *ZeroWidth = 0);
enum CUDAFunctionTarget {
CFT_Device,
diff --git a/lib/Sema/SemaDecl.cpp b/lib/Sema/SemaDecl.cpp
index 0e5e678..b68591a 100644
--- a/lib/Sema/SemaDecl.cpp
+++ b/lib/Sema/SemaDecl.cpp
@@ -8465,9 +8465,10 @@
}
// Note that FieldName may be null for anonymous bitfields.
-bool Sema::VerifyBitField(SourceLocation FieldLoc, IdentifierInfo *FieldName,
- QualType FieldTy, const Expr *BitWidth,
- bool *ZeroWidth) {
+ExprResult Sema::VerifyBitField(SourceLocation FieldLoc,
+ IdentifierInfo *FieldName,
+ QualType FieldTy, Expr *BitWidth,
+ bool *ZeroWidth) {
// Default to true; that shouldn't confuse checks for emptiness
if (ZeroWidth)
*ZeroWidth = true;
@@ -8477,7 +8478,7 @@
if (!FieldTy->isDependentType() && !FieldTy->isIntegralOrEnumerationType()) {
// Handle incomplete types with specific error.
if (RequireCompleteType(FieldLoc, FieldTy, diag::err_field_incomplete))
- return true;
+ return ExprError();
if (FieldName)
return Diag(FieldLoc, diag::err_not_integral_type_bitfield)
<< FieldName << FieldTy << BitWidth->getSourceRange();
@@ -8485,16 +8486,18 @@
<< FieldTy << BitWidth->getSourceRange();
} else if (DiagnoseUnexpandedParameterPack(const_cast<Expr *>(BitWidth),
UPPC_BitFieldWidth))
- return true;
+ return ExprError();
// If the bit-width is type- or value-dependent, don't try to check
// it now.
if (BitWidth->isValueDependent() || BitWidth->isTypeDependent())
- return false;
+ return Owned(BitWidth);
llvm::APSInt Value;
- if (VerifyIntegerConstantExpression(BitWidth, &Value))
- return true;
+ ExprResult ICE = VerifyIntegerConstantExpression(BitWidth, &Value);
+ if (ICE.isInvalid())
+ return ICE;
+ BitWidth = ICE.take();
if (Value != 0 && ZeroWidth)
*ZeroWidth = false;
@@ -8534,7 +8537,7 @@
}
}
- return false;
+ return Owned(BitWidth);
}
/// ActOnField - Each field of a C struct/union is passed into this in order
@@ -8700,11 +8703,13 @@
bool ZeroWidth = false;
// If this is declared as a bit-field, check the bit-field.
- if (!InvalidDecl && BitWidth &&
- VerifyBitField(Loc, II, T, BitWidth, &ZeroWidth)) {
- InvalidDecl = true;
- BitWidth = 0;
- ZeroWidth = false;
+ if (!InvalidDecl && BitWidth) {
+ BitWidth = VerifyBitField(Loc, II, T, BitWidth, &ZeroWidth).take();
+ if (!BitWidth) {
+ InvalidDecl = true;
+ BitWidth = 0;
+ ZeroWidth = false;
+ }
}
// Check that 'mutable' is consistent with the type of the declaration.
@@ -9027,10 +9032,9 @@
if (BitWidth) {
// 6.7.2.1p3, 6.7.2.1p4
- if (VerifyBitField(Loc, II, T, BitWidth)) {
+ BitWidth = VerifyBitField(Loc, II, T, BitWidth).take();
+ if (!BitWidth)
D.setInvalidType();
- BitWidth = 0;
- }
} else {
// Not a bitfield.
@@ -9591,9 +9595,9 @@
else
Val = Converted.take();
} else if (!Val->isValueDependent() &&
- VerifyIntegerConstantExpression(Val, &EnumVal)) {
+ !(Val = VerifyIntegerConstantExpression(Val,
+ &EnumVal).take())) {
// C99 6.7.2.2p2: Make sure we have an integer constant expression.
- Val = 0;
} else {
if (!getLangOptions().CPlusPlus) {
// C99 6.7.2.2p2:
diff --git a/lib/Sema/SemaDeclAttr.cpp b/lib/Sema/SemaDeclAttr.cpp
index d1dc0de..54e7969 100644
--- a/lib/Sema/SemaDeclAttr.cpp
+++ b/lib/Sema/SemaDeclAttr.cpp
@@ -2604,18 +2604,19 @@
SourceLocation AttrLoc = AttrRange.getBegin();
// FIXME: Cache the number on the Attr object?
llvm::APSInt Alignment(32);
- if (!E->isIntegerConstantExpr(Alignment, Context)) {
- Diag(AttrLoc, diag::err_attribute_argument_not_int)
- << "aligned" << E->getSourceRange();
+ ExprResult ICE =
+ VerifyIntegerConstantExpression(E, &Alignment,
+ PDiag(diag::err_attribute_argument_not_int) << "aligned",
+ /*AllowFold*/ false);
+ if (ICE.isInvalid())
return;
- }
if (!llvm::isPowerOf2_64(Alignment.getZExtValue())) {
Diag(AttrLoc, diag::err_attribute_aligned_not_power_of_two)
<< E->getSourceRange();
return;
}
- D->addAttr(::new (Context) AlignedAttr(AttrRange, Context, true, E));
+ D->addAttr(::new (Context) AlignedAttr(AttrRange, Context, true, ICE.take()));
}
void Sema::AddAlignedAttr(SourceRange AttrRange, Decl *D, TypeSourceInfo *TS) {
diff --git a/lib/Sema/SemaDeclCXX.cpp b/lib/Sema/SemaDeclCXX.cpp
index 7a64893..f36750b 100644
--- a/lib/Sema/SemaDeclCXX.cpp
+++ b/lib/Sema/SemaDeclCXX.cpp
@@ -9918,10 +9918,16 @@
StringLiteral *AssertMessage = cast<StringLiteral>(AssertMessageExpr_);
if (!AssertExpr->isTypeDependent() && !AssertExpr->isValueDependent()) {
+ // In a static_assert-declaration, the constant-expression shall be a
+ // constant expression that can be contextually converted to bool.
+ ExprResult Converted = PerformContextuallyConvertToBool(AssertExpr);
+ if (Converted.isInvalid())
+ return 0;
+
llvm::APSInt Cond;
- if (VerifyIntegerConstantExpression(AssertExpr, &Cond,
- diag::err_static_assert_expression_is_not_constant,
- /*AllowFold=*/false))
+ if (VerifyIntegerConstantExpression(Converted.get(), &Cond,
+ PDiag(diag::err_static_assert_expression_is_not_constant),
+ /*AllowFold=*/false).isInvalid())
return 0;
if (!Cond)
diff --git a/lib/Sema/SemaExpr.cpp b/lib/Sema/SemaExpr.cpp
index 3d8758e..3056156 100644
--- a/lib/Sema/SemaExpr.cpp
+++ b/lib/Sema/SemaExpr.cpp
@@ -8544,11 +8544,11 @@
} else {
// The conditional expression is required to be a constant expression.
llvm::APSInt condEval(32);
- SourceLocation ExpLoc;
- if (!CondExpr->isIntegerConstantExpr(condEval, Context, &ExpLoc))
- return ExprError(Diag(ExpLoc,
- diag::err_typecheck_choose_expr_requires_constant)
- << CondExpr->getSourceRange());
+ ExprResult CondICE = VerifyIntegerConstantExpression(CondExpr, &condEval,
+ PDiag(diag::err_typecheck_choose_expr_requires_constant), false);
+ if (CondICE.isInvalid())
+ return ExprError();
+ CondExpr = CondICE.take();
// If the condition is > zero, then the AST type is the same as the LSHExpr.
Expr *ActiveExpr = condEval.getZExtValue() ? LHSExpr : RHSExpr;
@@ -9120,16 +9120,61 @@
return isInvalid;
}
-bool Sema::VerifyIntegerConstantExpression(const Expr *E, llvm::APSInt *Result,
- unsigned DiagID, bool AllowFold) {
+ExprResult Sema::VerifyIntegerConstantExpression(Expr *E,
+ llvm::APSInt *Result) {
+ return VerifyIntegerConstantExpression(E, Result,
+ PDiag(diag::err_expr_not_ice) << LangOpts.CPlusPlus);
+}
+
+ExprResult Sema::VerifyIntegerConstantExpression(Expr *E, llvm::APSInt *Result,
+ PartialDiagnostic NotIceDiag,
+ bool AllowFold,
+ PartialDiagnostic FoldDiag) {
+ SourceLocation DiagLoc = E->getSourceRange().getBegin();
+
+ if (getLangOptions().CPlusPlus0x) {
+ // C++11 [expr.const]p5:
+ // If an expression of literal class type is used in a context where an
+ // integral constant expression is required, then that class type shall
+ // have a single non-explicit conversion function to an integral or
+ // unscoped enumeration type
+ ExprResult Converted;
+ if (NotIceDiag.getDiagID()) {
+ Converted = ConvertToIntegralOrEnumerationType(
+ DiagLoc, E,
+ PDiag(diag::err_ice_not_integral),
+ PDiag(diag::err_ice_incomplete_type),
+ PDiag(diag::err_ice_explicit_conversion),
+ PDiag(diag::note_ice_conversion_here),
+ PDiag(diag::err_ice_ambiguous_conversion),
+ PDiag(diag::note_ice_conversion_here),
+ PDiag(0),
+ /*AllowScopedEnumerations*/ false);
+ } else {
+ // The caller wants to silently enquire whether this is an ICE. Don't
+ // produce any diagnostics if it isn't.
+ Converted = ConvertToIntegralOrEnumerationType(
+ DiagLoc, E, PDiag(), PDiag(), PDiag(), PDiag(),
+ PDiag(), PDiag(), PDiag(), false);
+ }
+ if (Converted.isInvalid())
+ return Converted;
+ E = Converted.take();
+ if (!E->getType()->isIntegralOrUnscopedEnumerationType())
+ return ExprError();
+ } else if (!E->getType()->isIntegralOrUnscopedEnumerationType()) {
+ // An ICE must be of integral or unscoped enumeration type.
+ if (NotIceDiag.getDiagID())
+ Diag(DiagLoc, NotIceDiag) << E->getSourceRange();
+ return ExprError();
+ }
+
// Circumvent ICE checking in C++11 to avoid evaluating the expression twice
// in the non-ICE case.
- if (!getLangOptions().CPlusPlus0x) {
- if (E->isIntegerConstantExpr(Context)) {
- if (Result)
- *Result = E->EvaluateKnownConstInt(Context);
- return false;
- }
+ if (!getLangOptions().CPlusPlus0x && E->isIntegerConstantExpr(Context)) {
+ if (Result)
+ *Result = E->EvaluateKnownConstInt(Context);
+ return Owned(E);
}
Expr::EvalResult EvalResult;
@@ -9147,36 +9192,39 @@
if (Folded && getLangOptions().CPlusPlus0x && Notes.empty()) {
if (Result)
*Result = EvalResult.Val.getInt();
- return false;
+ return Owned(E);
+ }
+
+ // If our only note is the usual "invalid subexpression" note, just point
+ // the caret at its location rather than producing an essentially
+ // redundant note.
+ if (Notes.size() == 1 && Notes[0].second.getDiagID() ==
+ diag::note_invalid_subexpr_in_const_expr) {
+ DiagLoc = Notes[0].first;
+ Notes.clear();
}
if (!Folded || !AllowFold) {
- if (DiagID)
- Diag(E->getSourceRange().getBegin(), DiagID) << E->getSourceRange();
- else
- Diag(E->getSourceRange().getBegin(), diag::err_expr_not_ice)
- << E->getSourceRange() << LangOpts.CPlusPlus;
-
- // We only show the notes if they're not the usual "invalid subexpression"
- // or if they are actually in a subexpression.
- if (Notes.size() != 1 ||
- Notes[0].second.getDiagID() != diag::note_invalid_subexpr_in_const_expr
- || Notes[0].first != E->IgnoreParens()->getExprLoc()) {
+ if (NotIceDiag.getDiagID()) {
+ Diag(DiagLoc, NotIceDiag) << E->getSourceRange();
for (unsigned I = 0, N = Notes.size(); I != N; ++I)
Diag(Notes[I].first, Notes[I].second);
}
- return true;
+ return ExprError();
}
- Diag(E->getSourceRange().getBegin(), diag::ext_expr_not_ice)
- << E->getSourceRange() << LangOpts.CPlusPlus;
+ if (FoldDiag.getDiagID())
+ Diag(DiagLoc, FoldDiag) << E->getSourceRange();
+ else
+ Diag(DiagLoc, diag::ext_expr_not_ice)
+ << E->getSourceRange() << LangOpts.CPlusPlus;
for (unsigned I = 0, N = Notes.size(); I != N; ++I)
Diag(Notes[I].first, Notes[I].second);
if (Result)
*Result = EvalResult.Val.getInt();
- return false;
+ return Owned(E);
}
namespace {
diff --git a/lib/Sema/SemaExprCXX.cpp b/lib/Sema/SemaExprCXX.cpp
index 158e02a..e2a9f83 100644
--- a/lib/Sema/SemaExprCXX.cpp
+++ b/lib/Sema/SemaExprCXX.cpp
@@ -900,11 +900,11 @@
DeclaratorChunk::ArrayTypeInfo &Array = D.getTypeObject(I).Arr;
if (Expr *NumElts = (Expr *)Array.NumElts) {
- if (!NumElts->isTypeDependent() && !NumElts->isValueDependent() &&
- !NumElts->isIntegerConstantExpr(Context)) {
- Diag(D.getTypeObject(I).Loc, diag::err_new_array_nonconst)
- << NumElts->getSourceRange();
- return ExprError();
+ if (!NumElts->isTypeDependent() && !NumElts->isValueDependent()) {
+ Array.NumElts = VerifyIntegerConstantExpression(NumElts, 0,
+ PDiag(diag::err_new_array_nonconst)).take();
+ if (!Array.NumElts)
+ return ExprError();
}
}
}
@@ -1034,6 +1034,8 @@
// std::bad_array_new_length.
if (!ArraySize->isValueDependent()) {
llvm::APSInt Value;
+ // We've already performed any required implicit conversion to integer or
+ // unscoped enumeration type.
if (ArraySize->isIntegerConstantExpr(Value, Context)) {
if (Value < llvm::APSInt(
llvm::APInt::getNullValue(Value.getBitWidth()),
@@ -3269,18 +3271,16 @@
case ATT_ArrayExtent: {
llvm::APSInt Value;
uint64_t Dim;
- if (DimExpr->isIntegerConstantExpr(Value, Self.Context, 0, false)) {
- if (Value < llvm::APSInt(Value.getBitWidth(), Value.isUnsigned())) {
- Self.Diag(KeyLoc, diag::err_dimension_expr_not_constant_integer) <<
- DimExpr->getSourceRange();
- return false;
- }
- Dim = Value.getLimitedValue();
- } else {
- Self.Diag(KeyLoc, diag::err_dimension_expr_not_constant_integer) <<
+ if (Self.VerifyIntegerConstantExpression(DimExpr, &Value,
+ Self.PDiag(diag::err_dimension_expr_not_constant_integer),
+ false).isInvalid())
+ return 0;
+ if (Value.isSigned() && Value.isNegative()) {
+ Self.Diag(KeyLoc, diag::err_dimension_expr_not_constant_integer),
DimExpr->getSourceRange();
- return false;
+ return 0;
}
+ Dim = Value.getLimitedValue();
if (T->isArrayType()) {
unsigned D = 0;
diff --git a/lib/Sema/SemaInit.cpp b/lib/Sema/SemaInit.cpp
index 096ca7c..aa45c83 100644
--- a/lib/Sema/SemaInit.cpp
+++ b/lib/Sema/SemaInit.cpp
@@ -2150,26 +2150,27 @@
}
/// Check that the given Index expression is a valid array designator
-/// value. This is essentailly just a wrapper around
+/// value. This is essentially just a wrapper around
/// VerifyIntegerConstantExpression that also checks for negative values
/// and produces a reasonable diagnostic if there is a
-/// failure. Returns true if there was an error, false otherwise. If
-/// everything went okay, Value will receive the value of the constant
-/// expression.
-static bool
+/// failure. Returns the index expression, possibly with an implicit cast
+/// added, on success. If everything went okay, Value will receive the
+/// value of the constant expression.
+static ExprResult
CheckArrayDesignatorExpr(Sema &S, Expr *Index, llvm::APSInt &Value) {
SourceLocation Loc = Index->getSourceRange().getBegin();
// Make sure this is an integer constant expression.
- if (S.VerifyIntegerConstantExpression(Index, &Value))
- return true;
+ ExprResult Result = S.VerifyIntegerConstantExpression(Index, &Value);
+ if (Result.isInvalid())
+ return Result;
if (Value.isSigned() && Value.isNegative())
return S.Diag(Loc, diag::err_array_designator_negative)
<< Value.toString(10) << Index->getSourceRange();
Value.setIsUnsigned(true);
- return false;
+ return Result;
}
ExprResult Sema::ActOnDesignatedInitializer(Designation &Desig,
@@ -2194,9 +2195,9 @@
case Designator::ArrayDesignator: {
Expr *Index = static_cast<Expr *>(D.getArrayIndex());
llvm::APSInt IndexValue;
- if (!Index->isTypeDependent() &&
- !Index->isValueDependent() &&
- CheckArrayDesignatorExpr(*this, Index, IndexValue))
+ if (!Index->isTypeDependent() && !Index->isValueDependent())
+ Index = CheckArrayDesignatorExpr(*this, Index, IndexValue).take();
+ if (!Index)
Invalid = true;
else {
Designators.push_back(ASTDesignator(InitExpressions.size(),
@@ -2216,10 +2217,13 @@
StartIndex->isValueDependent();
bool EndDependent = EndIndex->isTypeDependent() ||
EndIndex->isValueDependent();
- if ((!StartDependent &&
- CheckArrayDesignatorExpr(*this, StartIndex, StartValue)) ||
- (!EndDependent &&
- CheckArrayDesignatorExpr(*this, EndIndex, EndValue)))
+ if (!StartDependent)
+ StartIndex =
+ CheckArrayDesignatorExpr(*this, StartIndex, StartValue).take();
+ if (!EndDependent)
+ EndIndex = CheckArrayDesignatorExpr(*this, EndIndex, EndValue).take();
+
+ if (!StartIndex || !EndIndex)
Invalid = true;
else {
// Make sure we're comparing values with the same bit width.
diff --git a/lib/Sema/SemaOverload.cpp b/lib/Sema/SemaOverload.cpp
index 9527c0f..5fe136a 100644
--- a/lib/Sema/SemaOverload.cpp
+++ b/lib/Sema/SemaOverload.cpp
@@ -4841,8 +4841,8 @@
// expression of integral or enumeration type.
const RecordType *RecordTy = T->getAs<RecordType>();
if (!RecordTy || !getLangOptions().CPlusPlus) {
- Diag(Loc, NotIntDiag)
- << T << From->getSourceRange();
+ if (NotIntDiag.getDiagID())
+ Diag(Loc, NotIntDiag) << T << From->getSourceRange();
return Owned(From);
}
@@ -4877,7 +4877,7 @@
switch (ViableConversions.size()) {
case 0:
- if (ExplicitConversions.size() == 1) {
+ if (ExplicitConversions.size() == 1 && ExplicitConvDiag.getDiagID()) {
DeclAccessPair Found = ExplicitConversions[0];
CXXConversionDecl *Conversion
= cast<CXXConversionDecl>(Found->getUnderlyingDecl());
@@ -4948,6 +4948,9 @@
}
default:
+ if (!AmbigDiag.getDiagID())
+ return Owned(From);
+
Diag(Loc, AmbigDiag)
<< T << From->getSourceRange();
for (unsigned I = 0, N = ViableConversions.size(); I != N; ++I) {
@@ -4960,9 +4963,9 @@
return Owned(From);
}
- if (!isIntegralOrEnumerationType(From->getType(), AllowScopedEnumerations))
- Diag(Loc, NotIntDiag)
- << From->getType() << From->getSourceRange();
+ if (!isIntegralOrEnumerationType(From->getType(), AllowScopedEnumerations) &&
+ NotIntDiag.getDiagID())
+ Diag(Loc, NotIntDiag) << From->getType() << From->getSourceRange();
return DefaultLvalueConversion(From);
}
diff --git a/lib/Sema/SemaStmt.cpp b/lib/Sema/SemaStmt.cpp
index 42b608e..e49bcfa 100644
--- a/lib/Sema/SemaStmt.cpp
+++ b/lib/Sema/SemaStmt.cpp
@@ -274,15 +274,17 @@
if (!getLangOptions().CPlusPlus0x) {
// C99 6.8.4.2p3: The expression shall be an integer constant.
// However, GCC allows any evaluatable integer expression.
- if (!LHSVal->isTypeDependent() && !LHSVal->isValueDependent() &&
- VerifyIntegerConstantExpression(LHSVal))
- return StmtError();
+ if (!LHSVal->isTypeDependent() && !LHSVal->isValueDependent()) {
+ LHSVal = VerifyIntegerConstantExpression(LHSVal).take();
+ if (!LHSVal)
+ return StmtError();
+ }
// GCC extension: The expression shall be an integer constant.
- if (RHSVal && !RHSVal->isTypeDependent() && !RHSVal->isValueDependent() &&
- VerifyIntegerConstantExpression(RHSVal)) {
- RHSVal = 0; // Recover by just forgetting about it.
+ if (RHSVal && !RHSVal->isTypeDependent() && !RHSVal->isValueDependent()) {
+ RHSVal = VerifyIntegerConstantExpression(RHSVal).take();
+ // Recover from an error by just forgetting about it.
}
}
diff --git a/lib/Sema/SemaTemplate.cpp b/lib/Sema/SemaTemplate.cpp
index eca491f..421e5e2 100644
--- a/lib/Sema/SemaTemplate.cpp
+++ b/lib/Sema/SemaTemplate.cpp
@@ -3912,11 +3912,11 @@
<< ArgType << Arg->getSourceRange();
Diag(Param->getLocation(), diag::note_template_param_here);
return ExprError();
- } else if (!Arg->isValueDependent() &&
- !Arg->isIntegerConstantExpr(Value, Context, &NonConstantLoc)) {
- Diag(NonConstantLoc, diag::err_template_arg_not_ice)
- << ArgType << Arg->getSourceRange();
- return ExprError();
+ } else if (!Arg->isValueDependent()) {
+ Arg = VerifyIntegerConstantExpression(Arg, &Value,
+ PDiag(diag::err_template_arg_not_ice) << ArgType, false).take();
+ if (!Arg)
+ return ExprError();
}
// From here on out, all we care about are the unqualified forms
diff --git a/lib/Sema/SemaTemplateInstantiateDecl.cpp b/lib/Sema/SemaTemplateInstantiateDecl.cpp
index 023005c..a957f25 100644
--- a/lib/Sema/SemaTemplateInstantiateDecl.cpp
+++ b/lib/Sema/SemaTemplateInstantiateDecl.cpp
@@ -2347,17 +2347,12 @@
E = SemaRef.CheckBooleanCondition(E.get(), E.get()->getLocStart());
if (E.isUsable()) {
- SourceLocation ErrLoc;
- llvm::APSInt NoexceptVal;
NoexceptExpr = E.take();
if (!NoexceptExpr->isTypeDependent() &&
- !NoexceptExpr->isValueDependent() &&
- !NoexceptExpr->isIntegerConstantExpr(NoexceptVal, SemaRef.Context,
- &ErrLoc, /*evaluated=*/false)){
- SemaRef.Diag(ErrLoc, diag::err_noexcept_needs_constant_expression)
- << NoexceptExpr->getSourceRange();
- NoexceptExpr = 0;
- }
+ !NoexceptExpr->isValueDependent())
+ NoexceptExpr = SemaRef.VerifyIntegerConstantExpression(NoexceptExpr,
+ 0, SemaRef.PDiag(diag::err_noexcept_needs_constant_expression),
+ /*AllowFold*/ false).take();
}
}
diff --git a/lib/Sema/SemaType.cpp b/lib/Sema/SemaType.cpp
index 684f355..d613c39 100644
--- a/lib/Sema/SemaType.cpp
+++ b/lib/Sema/SemaType.cpp
@@ -1178,19 +1178,12 @@
/// Check whether the specified array size makes the array type a VLA. If so,
/// return true, if not, return the size of the array in SizeVal.
-static bool isArraySizeVLA(Expr *ArraySize, llvm::APSInt &SizeVal, Sema &S) {
- // If the size is an ICE, it certainly isn't a VLA.
- if (ArraySize->isIntegerConstantExpr(SizeVal, S.Context))
- return false;
-
- // If we're in a GNU mode (like gnu99, but not c99) accept any evaluatable
- // value as an extension.
- if (S.LangOpts.GNUMode && ArraySize->EvaluateAsInt(SizeVal, S.Context)) {
- S.Diag(ArraySize->getLocStart(), diag::ext_vla_folded_to_constant);
- return false;
- }
-
- return true;
+static bool isArraySizeVLA(Sema &S, Expr *ArraySize, llvm::APSInt &SizeVal) {
+ // If the size is an ICE, it certainly isn't a VLA. If we're in a GNU mode
+ // (like gnu99, but not c99) accept any evaluatable value as an extension.
+ return S.VerifyIntegerConstantExpression(
+ ArraySize, &SizeVal, S.PDiag(), S.LangOpts.GNUMode,
+ S.PDiag(diag::ext_vla_folded_to_constant)).isInvalid();
}
@@ -1285,14 +1278,15 @@
}
// C99 6.7.5.2p1: The size expression shall have integer type.
- // TODO: in theory, if we were insane, we could allow contextual
- // conversions to integer type here.
- if (ArraySize && !ArraySize->isTypeDependent() &&
+ // C++11 allows contextual conversions to such types.
+ if (!getLangOptions().CPlusPlus0x &&
+ ArraySize && !ArraySize->isTypeDependent() &&
!ArraySize->getType()->isIntegralOrUnscopedEnumerationType()) {
Diag(ArraySize->getLocStart(), diag::err_array_size_non_int)
<< ArraySize->getType() << ArraySize->getSourceRange();
return QualType();
}
+
llvm::APSInt ConstVal(Context.getTypeSize(Context.getSizeType()));
if (!ArraySize) {
if (ASM == ArrayType::Star)
@@ -1301,11 +1295,19 @@
T = Context.getIncompleteArrayType(T, ASM, Quals);
} else if (ArraySize->isTypeDependent() || ArraySize->isValueDependent()) {
T = Context.getDependentSizedArrayType(T, ArraySize, ASM, Quals, Brackets);
- } else if (!T->isDependentType() && !T->isIncompleteType() &&
- !T->isConstantSizeType()) {
+ } else if ((!T->isDependentType() && !T->isIncompleteType() &&
+ !T->isConstantSizeType()) ||
+ isArraySizeVLA(*this, ArraySize, ConstVal)) {
+ // Even in C++11, don't allow contextual conversions in the array bound
+ // of a VLA.
+ if (getLangOptions().CPlusPlus0x &&
+ !ArraySize->getType()->isIntegralOrUnscopedEnumerationType()) {
+ Diag(ArraySize->getLocStart(), diag::err_array_size_non_int)
+ << ArraySize->getType() << ArraySize->getSourceRange();
+ return QualType();
+ }
+
// C99: an array with an element type that has a non-constant-size is a VLA.
- T = Context.getVariableArrayType(T, ArraySize, ASM, Quals, Brackets);
- } else if (isArraySizeVLA(ArraySize, ConstVal, *this)) {
// C99: an array with a non-ICE size is a VLA. We accept any expression
// that we can fold to a non-zero positive value as an extension.
T = Context.getVariableArrayType(T, ArraySize, ASM, Quals, Brackets);
@@ -2283,15 +2285,11 @@
NoexceptExpr->getType()->getCanonicalTypeUnqualified() ==
Context.BoolTy) &&
"Parser should have made sure that the expression is boolean");
- SourceLocation ErrLoc;
- llvm::APSInt Dummy;
- if (!NoexceptExpr->isValueDependent() &&
- !NoexceptExpr->isIntegerConstantExpr(Dummy, Context, &ErrLoc,
- /*evaluated*/false))
- S.Diag(ErrLoc, diag::err_noexcept_needs_constant_expression)
- << NoexceptExpr->getSourceRange();
- else
- EPI.NoexceptExpr = NoexceptExpr;
+ if (!NoexceptExpr->isValueDependent())
+ NoexceptExpr = S.VerifyIntegerConstantExpression(NoexceptExpr, 0,
+ S.PDiag(diag::err_noexcept_needs_constant_expression),
+ /*AllowFold*/ false).take();
+ EPI.NoexceptExpr = NoexceptExpr;
}
} else if (FTI.getExceptionSpecType() == EST_None &&
ImplicitlyNoexcept && chunkIndex == 0) {
diff --git a/test/CXX/except/except.spec/p1.cpp b/test/CXX/except/except.spec/p1.cpp
index a6e7850..c68ec56 100644
--- a/test/CXX/except/except.spec/p1.cpp
+++ b/test/CXX/except/except.spec/p1.cpp
@@ -74,7 +74,7 @@
namespace PR11084 {
template<int X> struct A {
- static int f() noexcept(1/X) { return 10; } // expected-error{{argument to noexcept specifier must be a constant expression}}
+ static int f() noexcept(1/X) { return 10; } // expected-error{{argument to noexcept specifier must be a constant expression}} expected-note{{division by zero}}
};
void g() { A<0>::f(); } // expected-note{{in instantiation of template class 'PR11084::A<0>' requested here}}
diff --git a/test/CXX/expr/expr.const/p2-0x.cpp b/test/CXX/expr/expr.const/p2-0x.cpp
index 0b22151..ac759cb 100644
--- a/test/CXX/expr/expr.const/p2-0x.cpp
+++ b/test/CXX/expr/expr.const/p2-0x.cpp
@@ -268,12 +268,14 @@
// non-volatile const object with a preceding initialization, initialized
// with a constant expression [Note: a string literal (2.14.5 [lex.string])
// corresponds to an array of such objects. -end note], or
- volatile const int vi = 1; // expected-note {{here}}
+ volatile const int vi = 1; // expected-note 2{{here}}
const int ci = 1;
volatile const int &vrci = ci;
- static_assert(vi, ""); // expected-error {{constant expression}} expected-note {{read of volatile-qualified type 'const volatile int'}}
+ static_assert(vi, ""); // expected-error {{constant expression}} expected-note {{read of volatile object 'vi'}}
static_assert(const_cast<int&>(vi), ""); // expected-error {{constant expression}} expected-note {{read of volatile object 'vi'}}
- static_assert(vrci, ""); // expected-error {{constant expression}} expected-note {{read of volatile-qualified type}}
+ static_assert(vrci, ""); // ok, vrci is converted to a prvalue before
+ // evaluation and loses its volatility in the
+ // conversion.
// - a non-volatile glvalue of literal type that refers to a non-volatile
// object defined with constexpr, or that refers to a sub-object of such an
@@ -282,23 +284,23 @@
constexpr S(int=0) : i(1), v(1) {}
constexpr S(const S &s) : i(2), v(2) {}
int i;
- volatile int v;
+ volatile int v; // expected-note {{here}}
};
constexpr S s;
- constexpr volatile S vs; // expected-note {{here}}
+ constexpr volatile S vs; // expected-note 2{{here}}
constexpr const volatile S &vrs = s;
static_assert(s.i, "");
- static_assert(s.v, ""); // expected-error {{constant expression}} expected-note {{read of volatile-qualified type}}
- static_assert(vs.i, ""); // expected-error {{constant expression}} expected-note {{read of volatile-qualified type}}
+ static_assert(s.v, ""); // expected-error {{constant expression}} expected-note {{read of volatile member 'v'}}
+ static_assert(vs.i, ""); // expected-error {{constant expression}} expected-note {{read of volatile object 'vs'}}
static_assert(const_cast<int&>(vs.i), ""); // expected-error {{constant expression}} expected-note {{read of volatile object 'vs'}}
- static_assert(vrs.i, ""); // expected-error {{constant expression}} expected-note {{read of volatile-qualified type}}
+ static_assert(vrs.i, ""); // ok
// - a non-volatile glvalue of literal type that refers to a non-volatile
// temporary object whose lifetime has not ended, initialized with a
// constant expression;
constexpr volatile S f() { return S(); }
static_assert(f().i, ""); // ok! there's no lvalue-to-rvalue conversion here!
- static_assert(((volatile const S&&)(S)0).i, ""); // expected-error {{constant expression}} expected-note {{subexpression}}
+ static_assert(((volatile const S&&)(S)0).i, ""); // expected-error {{constant expression}}
}
// DR1312: The proposed wording for this defect has issues, so we ignore this
@@ -385,7 +387,7 @@
int k;
typedef int I;
struct T {
- int n : (k.~I(), 0); // expected-error {{constant expression}} expected-note{{subexpression}}
+ int n : (k.~I(), 0); // expected-error {{constant expression}}
};
}
@@ -419,8 +421,8 @@
namespace NewDelete {
int *p = 0;
struct T {
- int n : *new int(4); // expected-error {{constant expression}} expected-note {{subexpression}}
- int m : (delete p, 2); // expected-error {{constant expression}} expected-note {{subexpression}}
+ int n : *new int(4); // expected-error {{constant expression}}
+ int m : (delete p, 2); // expected-error {{constant expression}}
};
}
@@ -540,7 +542,7 @@
// - a throw-expression (15.1)
namespace Throw {
struct S {
- int n : (throw "hello", 10); // expected-error {{constant expression}} expected-note {{subexpression}}
+ int n : (throw "hello", 10); // expected-error {{constant expression}}
};
}
diff --git a/test/Parser/cxx0x-attributes.cpp b/test/Parser/cxx0x-attributes.cpp
index ff9118a..198da77 100644
--- a/test/Parser/cxx0x-attributes.cpp
+++ b/test/Parser/cxx0x-attributes.cpp
@@ -24,7 +24,7 @@
};
extern "C++" [[]] { } // expected-error {{an attribute list cannot appear here}}
[[]] template <typename T> void before_template_attr (); // expected-error {{an attribute list cannot appear here}}
-[[]] namespace ns { int i; } // expected-error {{an attribute list cannot appear here}}
+[[]] namespace ns { int i; } // expected-error {{an attribute list cannot appear here}} expected-note {{declared here}}
[[]] static_assert(true, ""); //expected-error {{an attribute list cannot appear here}}
[[]] asm(""); // expected-error {{an attribute list cannot appear here}}
@@ -33,7 +33,7 @@
// Argument tests
alignas int aligned_no_params; // expected-error {{expected '('}}
-alignas(i) int aligned_nonconst; // expected-error {{'aligned' attribute requires integer constant}}
+alignas(i) int aligned_nonconst; // expected-error {{'aligned' attribute requires integer constant}} expected-note {{read of non-const variable 'i'}}
// Statement tests
void foo () {
diff --git a/test/Sema/i-c-e.c b/test/Sema/i-c-e.c
index a25bc1f..ee61ac3 100644
--- a/test/Sema/i-c-e.c
+++ b/test/Sema/i-c-e.c
@@ -19,9 +19,9 @@
char b[__builtin_constant_p((int)(1.0+2.0)) ? (int)(1.0+2.0) : -1];
struct c {
- int a : ( // expected-error {{expression is not an integer constant expression}}
+ int a : (
__builtin_constant_p((int)(1.0+2.0)) ? (int)(1.0+
- expr // expected-note {{subexpression not valid in a constant expression}}
+ expr // expected-error {{expression is not an integer constant expression}}
) : -1);
};
diff --git a/test/Sema/switch.c b/test/Sema/switch.c
index 2dc965f..ea9be59 100644
--- a/test/Sema/switch.c
+++ b/test/Sema/switch.c
@@ -50,12 +50,15 @@
}
switch (cond) {
- case g() && 0: // expected-error {{expression is not an integer constant expression}} // expected-note {{subexpression not valid in a constant expression}}
+ case g() // expected-error {{expression is not an integer constant expression}}
+ && 0:
break;
}
switch (cond) {
- case 0 ... g() || 1: // expected-error {{expression is not an integer constant expression}} // expected-note {{subexpression not valid in a constant expression}}
+ case 0 ...
+ g() // expected-error {{expression is not an integer constant expression}}
+ || 1:
break;
}
}
diff --git a/test/SemaCXX/enum-bitfield.cpp b/test/SemaCXX/enum-bitfield.cpp
index 831b982..63445ca 100644
--- a/test/SemaCXX/enum-bitfield.cpp
+++ b/test/SemaCXX/enum-bitfield.cpp
@@ -14,5 +14,5 @@
struct Y {
enum E : int(2);
- enum E : Z(); // expected-error{{not an integral constant}}
+ enum E : Z(); // expected-error{{integral constant expression must have integral or unscoped enumeration type, not 'Z'}}
};
diff --git a/test/SemaCXX/i-c-e-cxx.cpp b/test/SemaCXX/i-c-e-cxx.cpp
index 0bfd221..5631577 100644
--- a/test/SemaCXX/i-c-e-cxx.cpp
+++ b/test/SemaCXX/i-c-e-cxx.cpp
@@ -60,9 +60,9 @@
// This isn't an integral constant expression, but make sure it folds anyway.
struct PR8836 { char _; long long a; }; // expected-warning {{long long}}
-int PR8836test[(__typeof(sizeof(int)))&reinterpret_cast<const volatile char&>((((PR8836*)0)->a))]; // expected-warning {{folded to constant array as an extension}}
+int PR8836test[(__typeof(sizeof(int)))&reinterpret_cast<const volatile char&>((((PR8836*)0)->a))]; // expected-warning {{folded to constant array as an extension}} expected-note {{cast which performs the conversions of a reinterpret_cast is not allowed in a constant expression}}
-const int nonconst = 1.0;
-int arr[nonconst]; // expected-warning {{folded to constant array as an extension}}
+const int nonconst = 1.0; // expected-note {{declared here}}
+int arr[nonconst]; // expected-warning {{folded to constant array as an extension}} expected-note {{initializer of 'nonconst' is not a constant expression}}
const int castfloat = static_cast<int>(1.0);
int arr2[castfloat]; // ok
diff --git a/test/SemaCXX/new-delete.cpp b/test/SemaCXX/new-delete.cpp
index 45d4f3d..4daa65e 100644
--- a/test/SemaCXX/new-delete.cpp
+++ b/test/SemaCXX/new-delete.cpp
@@ -61,13 +61,13 @@
void bad_news(int *ip)
{
- int i = 1;
+ int i = 1; // expected-note 2{{here}}
(void)new; // expected-error {{expected a type}}
(void)new 4; // expected-error {{expected a type}}
(void)new () int; // expected-error {{expected expression}}
(void)new int[1.1]; // expected-error {{array size expression must have integral or enumeration type, not 'double'}}
- (void)new int[1][i]; // expected-error {{only the first dimension}}
- (void)new (int[1][i]); // expected-error {{only the first dimension}}
+ (void)new int[1][i]; // expected-error {{only the first dimension}} expected-note {{read of non-const variable 'i' is not allowed in a constant expression}}
+ (void)new (int[1][i]); // expected-error {{only the first dimension}} expected-note {{read of non-const variable 'i' is not allowed in a constant expression}}
(void)new (int[i]); // expected-warning {{when type is in parentheses}}
(void)new int(*(S*)0); // expected-error {{no viable conversion from 'S' to 'int'}}
(void)new int(1, 2); // expected-error {{excess elements in scalar initializer}}