Mercurial > hg > CbC > CbC_llvm
view clang/lib/AST/ComputeDependence.cpp @ 176:de4ac79aef9d
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 17:13:11 +0900 |
| parents | 0572611fdcc8 |
| children | 2e18cbf3894f |
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//===- ComputeDependence.cpp ----------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "clang/AST/ComputeDependence.h" #include "clang/AST/Attr.h" #include "clang/AST/DeclCXX.h" #include "clang/AST/DeclarationName.h" #include "clang/AST/DependenceFlags.h" #include "clang/AST/Expr.h" #include "clang/AST/ExprCXX.h" #include "clang/AST/ExprConcepts.h" #include "clang/AST/ExprObjC.h" #include "clang/AST/ExprOpenMP.h" #include "clang/Basic/ExceptionSpecificationType.h" #include "llvm/ADT/ArrayRef.h" using namespace clang; ExprDependence clang::computeDependence(FullExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(OpaqueValueExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); if (auto *S = E->getSourceExpr()) D |= S->getDependence(); assert(!(D & ExprDependence::UnexpandedPack)); return D; } ExprDependence clang::computeDependence(ParenExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(UnaryOperator *E) { return toExprDependence(E->getType()->getDependence()) | E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(UnaryExprOrTypeTraitExpr *E) { // Never type-dependent (C++ [temp.dep.expr]p3). // Value-dependent if the argument is type-dependent. if (E->isArgumentType()) return turnTypeToValueDependence( toExprDependence(E->getArgumentType()->getDependence())); auto ArgDeps = E->getArgumentExpr()->getDependence(); auto Deps = ArgDeps & ~ExprDependence::TypeValue; // Value-dependent if the argument is type-dependent. if (ArgDeps & ExprDependence::Type) Deps |= ExprDependence::Value; // Check to see if we are in the situation where alignof(decl) should be // dependent because decl's alignment is dependent. auto ExprKind = E->getKind(); if (ExprKind != UETT_AlignOf && ExprKind != UETT_PreferredAlignOf) return Deps; if ((Deps & ExprDependence::Value) && (Deps & ExprDependence::Instantiation)) return Deps; auto *NoParens = E->getArgumentExpr()->IgnoreParens(); const ValueDecl *D = nullptr; if (const auto *DRE = dyn_cast<DeclRefExpr>(NoParens)) D = DRE->getDecl(); else if (const auto *ME = dyn_cast<MemberExpr>(NoParens)) D = ME->getMemberDecl(); if (!D) return Deps; for (const auto *I : D->specific_attrs<AlignedAttr>()) { if (I->isAlignmentErrorDependent()) Deps |= ExprDependence::Error; if (I->isAlignmentDependent()) Deps |= ExprDependence::ValueInstantiation; } return Deps; } ExprDependence clang::computeDependence(ArraySubscriptExpr *E) { return E->getLHS()->getDependence() | E->getRHS()->getDependence(); } ExprDependence clang::computeDependence(CompoundLiteralExpr *E) { return toExprDependence(E->getTypeSourceInfo()->getType()->getDependence()) | turnTypeToValueDependence(E->getInitializer()->getDependence()); } ExprDependence clang::computeDependence(CastExpr *E) { // Cast expressions are type-dependent if the type is // dependent (C++ [temp.dep.expr]p3). // Cast expressions are value-dependent if the type is // dependent or if the subexpression is value-dependent. auto D = toExprDependence(E->getType()->getDependence()); if (E->getStmtClass() == Stmt::ImplicitCastExprClass) { // An implicit cast expression doesn't (lexically) contain an // unexpanded pack, even if its target type does. D &= ~ExprDependence::UnexpandedPack; } if (auto *S = E->getSubExpr()) D |= S->getDependence() & ~ExprDependence::Type; return D; } ExprDependence clang::computeDependence(BinaryOperator *E) { return E->getLHS()->getDependence() | E->getRHS()->getDependence(); } ExprDependence clang::computeDependence(ConditionalOperator *E) { // The type of the conditional operator depends on the type of the conditional // to support the GCC vector conditional extension. Additionally, // [temp.dep.expr] does specify state that this should be dependent on ALL sub // expressions. return E->getCond()->getDependence() | E->getLHS()->getDependence() | E->getRHS()->getDependence(); } ExprDependence clang::computeDependence(BinaryConditionalOperator *E) { return E->getCommon()->getDependence() | E->getFalseExpr()->getDependence(); } ExprDependence clang::computeDependence(StmtExpr *E, unsigned TemplateDepth) { // FIXME: why is unexpanded-pack not propagated? auto D = toExprDependence(E->getType()->getDependence()) & ~ExprDependence::UnexpandedPack; // Note: we treat a statement-expression in a dependent context as always // being value- and instantiation-dependent. This matches the behavior of // lambda-expressions and GCC. if (TemplateDepth) D |= ExprDependence::ValueInstantiation; return D; } ExprDependence clang::computeDependence(ConvertVectorExpr *E) { auto D = toExprDependence(E->getType()->getDependence()) | E->getSrcExpr()->getDependence(); if (!E->getType()->isDependentType()) D &= ~ExprDependence::Type; return D; } ExprDependence clang::computeDependence(ChooseExpr *E) { if (E->isConditionDependent()) return ExprDependence::TypeValueInstantiation | E->getCond()->getDependence() | E->getLHS()->getDependence() | E->getRHS()->getDependence(); auto Cond = E->getCond()->getDependence(); auto Active = E->getLHS()->getDependence(); auto Inactive = E->getRHS()->getDependence(); if (!E->isConditionTrue()) std::swap(Active, Inactive); // Take type- and value- dependency from the active branch. Propagate all // other flags from all branches. return (Active & ExprDependence::TypeValue) | ((Cond | Active | Inactive) & ~ExprDependence::TypeValue); } ExprDependence clang::computeDependence(ParenListExpr *P) { auto D = ExprDependence::None; for (auto *E : P->exprs()) D |= E->getDependence(); return D; } ExprDependence clang::computeDependence(VAArgExpr *E) { auto D = toExprDependence(E->getWrittenTypeInfo()->getType()->getDependence()) | (E->getSubExpr()->getDependence() & ~ExprDependence::Type); return D & ~ExprDependence::Value; } ExprDependence clang::computeDependence(NoInitExpr *E) { return toExprDependence(E->getType()->getDependence()) & (ExprDependence::Instantiation | ExprDependence::Error); } ExprDependence clang::computeDependence(ArrayInitLoopExpr *E) { auto D = E->getCommonExpr()->getDependence() | E->getSubExpr()->getDependence() | ExprDependence::Instantiation; if (!E->getType()->isInstantiationDependentType()) D &= ~ExprDependence::Instantiation; return turnTypeToValueDependence(D); } ExprDependence clang::computeDependence(ImplicitValueInitExpr *E) { return toExprDependence(E->getType()->getDependence()) & ExprDependence::Instantiation; } ExprDependence clang::computeDependence(ExtVectorElementExpr *E) { return E->getBase()->getDependence(); } ExprDependence clang::computeDependence(BlockExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); if (E->getBlockDecl()->isDependentContext()) D |= ExprDependence::Instantiation; return D & ~ExprDependence::UnexpandedPack; } ExprDependence clang::computeDependence(AsTypeExpr *E) { auto D = toExprDependence(E->getType()->getDependence()) | E->getSrcExpr()->getDependence(); if (!E->getType()->isDependentType()) D &= ~ExprDependence::Type; return D; } ExprDependence clang::computeDependence(CXXRewrittenBinaryOperator *E) { return E->getSemanticForm()->getDependence(); } ExprDependence clang::computeDependence(CXXStdInitializerListExpr *E) { auto D = turnTypeToValueDependence(E->getSubExpr()->getDependence()); D |= toExprDependence(E->getType()->getDependence()) & (ExprDependence::Type | ExprDependence::Error); return D; } ExprDependence clang::computeDependence(CXXTypeidExpr *E) { auto D = ExprDependence::None; if (E->isTypeOperand()) D = toExprDependence( E->getTypeOperandSourceInfo()->getType()->getDependence()); else D = turnTypeToValueDependence(E->getExprOperand()->getDependence()); // typeid is never type-dependent (C++ [temp.dep.expr]p4) return D & ~ExprDependence::Type; } ExprDependence clang::computeDependence(MSPropertyRefExpr *E) { return E->getBaseExpr()->getDependence() & ~ExprDependence::Type; } ExprDependence clang::computeDependence(MSPropertySubscriptExpr *E) { return E->getIdx()->getDependence(); } ExprDependence clang::computeDependence(CXXUuidofExpr *E) { if (E->isTypeOperand()) return turnTypeToValueDependence(toExprDependence( E->getTypeOperandSourceInfo()->getType()->getDependence())); return turnTypeToValueDependence(E->getExprOperand()->getDependence()); } ExprDependence clang::computeDependence(CXXThisExpr *E) { // 'this' is type-dependent if the class type of the enclosing // member function is dependent (C++ [temp.dep.expr]p2) auto D = toExprDependence(E->getType()->getDependence()); assert(!(D & ExprDependence::UnexpandedPack)); return D; } ExprDependence clang::computeDependence(CXXThrowExpr *E) { auto *Op = E->getSubExpr(); if (!Op) return ExprDependence::None; return Op->getDependence() & ~ExprDependence::TypeValue; } ExprDependence clang::computeDependence(CXXBindTemporaryExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(CXXScalarValueInitExpr *E) { return toExprDependence(E->getType()->getDependence()) & ~ExprDependence::TypeValue; } ExprDependence clang::computeDependence(CXXDeleteExpr *E) { return turnTypeToValueDependence(E->getArgument()->getDependence()); } ExprDependence clang::computeDependence(ArrayTypeTraitExpr *E) { auto D = toExprDependence(E->getQueriedType()->getDependence()); if (auto *Dim = E->getDimensionExpression()) D |= Dim->getDependence(); return turnTypeToValueDependence(D); } ExprDependence clang::computeDependence(ExpressionTraitExpr *E) { // Never type-dependent. auto D = E->getQueriedExpression()->getDependence() & ~ExprDependence::Type; // Value-dependent if the argument is type-dependent. if (E->getQueriedExpression()->isTypeDependent()) D |= ExprDependence::Value; return D; } ExprDependence clang::computeDependence(CXXNoexceptExpr *E, CanThrowResult CT) { auto D = E->getOperand()->getDependence() & ~ExprDependence::TypeValue; if (CT == CT_Dependent) D |= ExprDependence::ValueInstantiation; return D; } ExprDependence clang::computeDependence(PackExpansionExpr *E) { return (E->getPattern()->getDependence() & ~ExprDependence::UnexpandedPack) | ExprDependence::TypeValueInstantiation; } ExprDependence clang::computeDependence(SubstNonTypeTemplateParmExpr *E) { return E->getReplacement()->getDependence(); } ExprDependence clang::computeDependence(CoroutineSuspendExpr *E) { if (auto *Resume = E->getResumeExpr()) return (Resume->getDependence() & (ExprDependence::TypeValue | ExprDependence::Error)) | (E->getCommonExpr()->getDependence() & ~ExprDependence::TypeValue); return E->getCommonExpr()->getDependence() | ExprDependence::TypeValueInstantiation; } ExprDependence clang::computeDependence(DependentCoawaitExpr *E) { return E->getOperand()->getDependence() | ExprDependence::TypeValueInstantiation; } ExprDependence clang::computeDependence(ObjCBoxedExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(ObjCEncodeExpr *E) { return toExprDependence(E->getEncodedType()->getDependence()); } ExprDependence clang::computeDependence(ObjCIvarRefExpr *E) { return turnTypeToValueDependence(E->getBase()->getDependence()); } ExprDependence clang::computeDependence(ObjCPropertyRefExpr *E) { if (E->isObjectReceiver()) return E->getBase()->getDependence() & ~ExprDependence::Type; if (E->isSuperReceiver()) return toExprDependence(E->getSuperReceiverType()->getDependence()) & ~ExprDependence::TypeValue; assert(E->isClassReceiver()); return ExprDependence::None; } ExprDependence clang::computeDependence(ObjCSubscriptRefExpr *E) { return E->getBaseExpr()->getDependence() | E->getKeyExpr()->getDependence(); } ExprDependence clang::computeDependence(ObjCIsaExpr *E) { return E->getBase()->getDependence() & ~ExprDependence::Type & ~ExprDependence::UnexpandedPack; } ExprDependence clang::computeDependence(ObjCIndirectCopyRestoreExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(OMPArraySectionExpr *E) { auto D = E->getBase()->getDependence(); if (auto *LB = E->getLowerBound()) D |= LB->getDependence(); if (auto *Len = E->getLength()) D |= Len->getDependence(); return D; } ExprDependence clang::computeDependence(OMPArrayShapingExpr *E) { auto D = E->getBase()->getDependence() | toExprDependence(E->getType()->getDependence()); for (Expr *Dim: E->getDimensions()) if (Dim) D |= Dim->getDependence(); return D; } ExprDependence clang::computeDependence(OMPIteratorExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); for (unsigned I = 0, End = E->numOfIterators(); I < End; ++I) { if (auto *VD = cast_or_null<ValueDecl>(E->getIteratorDecl(I))) D |= toExprDependence(VD->getType()->getDependence()); OMPIteratorExpr::IteratorRange IR = E->getIteratorRange(I); if (Expr *BE = IR.Begin) D |= BE->getDependence(); if (Expr *EE = IR.End) D |= EE->getDependence(); if (Expr *SE = IR.Step) D |= SE->getDependence(); } return D; } /// Compute the type-, value-, and instantiation-dependence of a /// declaration reference /// based on the declaration being referenced. ExprDependence clang::computeDependence(DeclRefExpr *E, const ASTContext &Ctx) { auto Deps = ExprDependence::None; if (auto *NNS = E->getQualifier()) Deps |= toExprDependence(NNS->getDependence() & ~NestedNameSpecifierDependence::Dependent); if (auto *FirstArg = E->getTemplateArgs()) { unsigned NumArgs = E->getNumTemplateArgs(); for (auto *Arg = FirstArg, *End = FirstArg + NumArgs; Arg < End; ++Arg) Deps |= toExprDependence(Arg->getArgument().getDependence()); } auto *Decl = E->getDecl(); auto Type = E->getType(); if (Decl->isParameterPack()) Deps |= ExprDependence::UnexpandedPack; Deps |= toExprDependence(Type->getDependence()) & ExprDependence::Error; // (TD) C++ [temp.dep.expr]p3: // An id-expression is type-dependent if it contains: // // and // // (VD) C++ [temp.dep.constexpr]p2: // An identifier is value-dependent if it is: // (TD) - an identifier that was declared with dependent type // (VD) - a name declared with a dependent type, if (Type->isDependentType()) return Deps | ExprDependence::TypeValueInstantiation; else if (Type->isInstantiationDependentType()) Deps |= ExprDependence::Instantiation; // (TD) - a conversion-function-id that specifies a dependent type if (Decl->getDeclName().getNameKind() == DeclarationName::CXXConversionFunctionName) { QualType T = Decl->getDeclName().getCXXNameType(); if (T->isDependentType()) return Deps | ExprDependence::TypeValueInstantiation; if (T->isInstantiationDependentType()) Deps |= ExprDependence::Instantiation; } // (VD) - the name of a non-type template parameter, if (isa<NonTypeTemplateParmDecl>(Decl)) return Deps | ExprDependence::ValueInstantiation; // (VD) - a constant with integral or enumeration type and is // initialized with an expression that is value-dependent. // (VD) - a constant with literal type and is initialized with an // expression that is value-dependent [C++11]. // (VD) - FIXME: Missing from the standard: // - an entity with reference type and is initialized with an // expression that is value-dependent [C++11] if (VarDecl *Var = dyn_cast<VarDecl>(Decl)) { if ((Ctx.getLangOpts().CPlusPlus11 ? Var->getType()->isLiteralType(Ctx) : Var->getType()->isIntegralOrEnumerationType()) && (Var->getType().isConstQualified() || Var->getType()->isReferenceType())) { if (const Expr *Init = Var->getAnyInitializer()) if (Init->isValueDependent()) { Deps |= ExprDependence::ValueInstantiation; } } // (VD) - FIXME: Missing from the standard: // - a member function or a static data member of the current // instantiation if (Var->isStaticDataMember() && Var->getDeclContext()->isDependentContext()) { Deps |= ExprDependence::ValueInstantiation; TypeSourceInfo *TInfo = Var->getFirstDecl()->getTypeSourceInfo(); if (TInfo->getType()->isIncompleteArrayType()) Deps |= ExprDependence::Type; } return Deps; } // (VD) - FIXME: Missing from the standard: // - a member function or a static data member of the current // instantiation if (isa<CXXMethodDecl>(Decl) && Decl->getDeclContext()->isDependentContext()) Deps |= ExprDependence::ValueInstantiation; return Deps; } ExprDependence clang::computeDependence(RecoveryExpr *E) { // Mark the expression as value- and instantiation- dependent to reuse // existing suppressions for dependent code, e.g. avoiding // constant-evaluation. // FIXME: drop type+value+instantiation once Error is sufficient to suppress // bogus dianostics. auto D = toExprDependence(E->getType()->getDependence()) | ExprDependence::ValueInstantiation | ExprDependence::Error; for (auto *S : E->subExpressions()) D |= S->getDependence(); return D; } ExprDependence clang::computeDependence(PredefinedExpr *E) { return toExprDependence(E->getType()->getDependence()) & ~ExprDependence::UnexpandedPack; } ExprDependence clang::computeDependence(CallExpr *E, llvm::ArrayRef<Expr *> PreArgs) { auto D = E->getCallee()->getDependence(); for (auto *A : llvm::makeArrayRef(E->getArgs(), E->getNumArgs())) { if (A) D |= A->getDependence(); } for (auto *A : PreArgs) D |= A->getDependence(); return D; } ExprDependence clang::computeDependence(OffsetOfExpr *E) { auto D = turnTypeToValueDependence( toExprDependence(E->getTypeSourceInfo()->getType()->getDependence())); for (unsigned I = 0, N = E->getNumExpressions(); I < N; ++I) D |= turnTypeToValueDependence(E->getIndexExpr(I)->getDependence()); return D; } ExprDependence clang::computeDependence(MemberExpr *E) { auto *MemberDecl = E->getMemberDecl(); auto D = E->getBase()->getDependence(); if (FieldDecl *FD = dyn_cast<FieldDecl>(MemberDecl)) { DeclContext *DC = MemberDecl->getDeclContext(); // dyn_cast_or_null is used to handle objC variables which do not // have a declaration context. CXXRecordDecl *RD = dyn_cast_or_null<CXXRecordDecl>(DC); if (RD && RD->isDependentContext() && RD->isCurrentInstantiation(DC)) { if (!E->getType()->isDependentType()) D &= ~ExprDependence::Type; } // Bitfield with value-dependent width is type-dependent. if (FD && FD->isBitField() && FD->getBitWidth()->isValueDependent()) { D |= ExprDependence::Type; } } // FIXME: move remaining dependence computation from MemberExpr::Create() return D; } ExprDependence clang::computeDependence(InitListExpr *E) { auto D = ExprDependence::None; for (auto *A : E->inits()) D |= A->getDependence(); return D; } ExprDependence clang::computeDependence(ShuffleVectorExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); for (auto *C : llvm::makeArrayRef(E->getSubExprs(), E->getNumSubExprs())) D |= C->getDependence(); return D; } ExprDependence clang::computeDependence(GenericSelectionExpr *E, bool ContainsUnexpandedPack) { auto D = ContainsUnexpandedPack ? ExprDependence::UnexpandedPack : ExprDependence::None; for (auto *AE : E->getAssocExprs()) D |= AE->getDependence() & ExprDependence::Error; D |= E->getControllingExpr()->getDependence() & ExprDependence::Error; if (E->isResultDependent()) return D | ExprDependence::TypeValueInstantiation; return D | (E->getResultExpr()->getDependence() & ~ExprDependence::UnexpandedPack); } ExprDependence clang::computeDependence(DesignatedInitExpr *E) { auto Deps = E->getInit()->getDependence(); for (auto D : E->designators()) { auto DesignatorDeps = ExprDependence::None; if (D.isArrayDesignator()) DesignatorDeps |= E->getArrayIndex(D)->getDependence(); else if (D.isArrayRangeDesignator()) DesignatorDeps |= E->getArrayRangeStart(D)->getDependence() | E->getArrayRangeEnd(D)->getDependence(); Deps |= DesignatorDeps; if (DesignatorDeps & ExprDependence::TypeValue) Deps |= ExprDependence::TypeValueInstantiation; } return Deps; } ExprDependence clang::computeDependence(PseudoObjectExpr *O) { auto D = O->getSyntacticForm()->getDependence(); for (auto *E : O->semantics()) D |= E->getDependence(); return D; } ExprDependence clang::computeDependence(AtomicExpr *A) { auto D = ExprDependence::None; for (auto *E : llvm::makeArrayRef(A->getSubExprs(), A->getNumSubExprs())) D |= E->getDependence(); return D; } ExprDependence clang::computeDependence(CXXNewExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); auto Size = E->getArraySize(); if (Size.hasValue() && *Size) D |= turnTypeToValueDependence((*Size)->getDependence()); if (auto *I = E->getInitializer()) D |= turnTypeToValueDependence(I->getDependence()); for (auto *A : E->placement_arguments()) D |= turnTypeToValueDependence(A->getDependence()); return D; } ExprDependence clang::computeDependence(CXXPseudoDestructorExpr *E) { auto D = E->getBase()->getDependence(); if (!E->getDestroyedType().isNull()) D |= toExprDependence(E->getDestroyedType()->getDependence()); if (auto *ST = E->getScopeTypeInfo()) D |= turnTypeToValueDependence( toExprDependence(ST->getType()->getDependence())); if (auto *Q = E->getQualifier()) D |= toExprDependence(Q->getDependence() & ~NestedNameSpecifierDependence::Dependent); return D; } static inline ExprDependence getDependenceInExpr(DeclarationNameInfo Name) { auto D = ExprDependence::None; if (Name.isInstantiationDependent()) D |= ExprDependence::Instantiation; if (Name.containsUnexpandedParameterPack()) D |= ExprDependence::UnexpandedPack; return D; } ExprDependence clang::computeDependence(OverloadExpr *E, bool KnownDependent, bool KnownInstantiationDependent, bool KnownContainsUnexpandedParameterPack) { auto Deps = ExprDependence::None; if (KnownDependent) Deps |= ExprDependence::TypeValue; if (KnownInstantiationDependent) Deps |= ExprDependence::Instantiation; if (KnownContainsUnexpandedParameterPack) Deps |= ExprDependence::UnexpandedPack; Deps |= getDependenceInExpr(E->getNameInfo()); if (auto *Q = E->getQualifier()) Deps |= toExprDependence(Q->getDependence() & ~NestedNameSpecifierDependence::Dependent); for (auto *D : E->decls()) { if (D->getDeclContext()->isDependentContext() || isa<UnresolvedUsingValueDecl>(D)) Deps |= ExprDependence::TypeValueInstantiation; } // If we have explicit template arguments, check for dependent // template arguments and whether they contain any unexpanded pack // expansions. for (auto A : E->template_arguments()) Deps |= toExprDependence(A.getArgument().getDependence()); return Deps; } ExprDependence clang::computeDependence(DependentScopeDeclRefExpr *E) { auto D = ExprDependence::TypeValue; D |= getDependenceInExpr(E->getNameInfo()); if (auto *Q = E->getQualifier()) D |= toExprDependence(Q->getDependence()); for (auto A : E->template_arguments()) D |= toExprDependence(A.getArgument().getDependence()); return D; } ExprDependence clang::computeDependence(CXXConstructExpr *E) { auto D = toExprDependence(E->getType()->getDependence()); for (auto *A : E->arguments()) D |= A->getDependence() & ~ExprDependence::Type; return D; } ExprDependence clang::computeDependence(LambdaExpr *E, bool ContainsUnexpandedParameterPack) { auto D = toExprDependence(E->getType()->getDependence()); if (ContainsUnexpandedParameterPack) D |= ExprDependence::UnexpandedPack; return D; } ExprDependence clang::computeDependence(CXXUnresolvedConstructExpr *E) { auto D = ExprDependence::ValueInstantiation; D |= toExprDependence(E->getType()->getDependence()); if (E->getType()->getContainedDeducedType()) D |= ExprDependence::Type; for (auto *A : E->arguments()) D |= A->getDependence() & (ExprDependence::UnexpandedPack | ExprDependence::Error); return D; } ExprDependence clang::computeDependence(CXXDependentScopeMemberExpr *E) { auto D = ExprDependence::TypeValueInstantiation; if (!E->isImplicitAccess()) D |= E->getBase()->getDependence(); if (auto *Q = E->getQualifier()) D |= toExprDependence(Q->getDependence()); D |= getDependenceInExpr(E->getMemberNameInfo()); for (auto A : E->template_arguments()) D |= toExprDependence(A.getArgument().getDependence()); return D; } ExprDependence clang::computeDependence(MaterializeTemporaryExpr *E) { return E->getSubExpr()->getDependence(); } ExprDependence clang::computeDependence(CXXFoldExpr *E) { auto D = ExprDependence::TypeValueInstantiation; for (const auto *C : {E->getLHS(), E->getRHS()}) { if (C) D |= C->getDependence() & ~ExprDependence::UnexpandedPack; } return D; } ExprDependence clang::computeDependence(TypeTraitExpr *E) { auto D = ExprDependence::None; for (const auto *A : E->getArgs()) D |= toExprDependence(A->getType()->getDependence()) & ~ExprDependence::Type; return D; } ExprDependence clang::computeDependence(ConceptSpecializationExpr *E, bool ValueDependent) { auto TA = TemplateArgumentDependence::None; const auto InterestingDeps = TemplateArgumentDependence::Instantiation | TemplateArgumentDependence::UnexpandedPack; for (const TemplateArgumentLoc &ArgLoc : E->getTemplateArgsAsWritten()->arguments()) { TA |= ArgLoc.getArgument().getDependence() & InterestingDeps; if (TA == InterestingDeps) break; } ExprDependence D = ValueDependent ? ExprDependence::Value : ExprDependence::None; return D | toExprDependence(TA); } ExprDependence clang::computeDependence(ObjCArrayLiteral *E) { auto D = ExprDependence::None; Expr **Elements = E->getElements(); for (unsigned I = 0, N = E->getNumElements(); I != N; ++I) D |= turnTypeToValueDependence(Elements[I]->getDependence()); return D; } ExprDependence clang::computeDependence(ObjCDictionaryLiteral *E) { auto Deps = ExprDependence::None; for (unsigned I = 0, N = E->getNumElements(); I < N; ++I) { auto KV = E->getKeyValueElement(I); auto KVDeps = turnTypeToValueDependence(KV.Key->getDependence() | KV.Value->getDependence()); if (KV.EllipsisLoc.isValid()) KVDeps &= ~ExprDependence::UnexpandedPack; Deps |= KVDeps; } return Deps; } ExprDependence clang::computeDependence(ObjCMessageExpr *E) { auto D = ExprDependence::None; if (auto *R = E->getInstanceReceiver()) D |= R->getDependence(); else D |= toExprDependence(E->getType()->getDependence()); for (auto *A : E->arguments()) D |= A->getDependence(); return D; }