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- //===--- SemaExprMember.cpp - Semantic Analysis for Expressions -----------===//
- //
- // 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
- //
- //===----------------------------------------------------------------------===//
- //
- // This file implements semantic analysis member access expressions.
- //
- //===----------------------------------------------------------------------===//
- #include "clang/Sema/Overload.h"
- #include "clang/AST/ASTLambda.h"
- #include "clang/AST/DeclCXX.h"
- #include "clang/AST/DeclObjC.h"
- #include "clang/AST/DeclTemplate.h"
- #include "clang/AST/ExprCXX.h"
- #include "clang/AST/ExprObjC.h"
- #include "clang/Lex/Preprocessor.h"
- #include "clang/Sema/Lookup.h"
- #include "clang/Sema/Scope.h"
- #include "clang/Sema/ScopeInfo.h"
- #include "clang/Sema/SemaInternal.h"
- using namespace clang;
- using namespace sema;
- typedef llvm::SmallPtrSet<const CXXRecordDecl*, 4> BaseSet;
- /// Determines if the given class is provably not derived from all of
- /// the prospective base classes.
- static bool isProvablyNotDerivedFrom(Sema &SemaRef, CXXRecordDecl *Record,
- const BaseSet &Bases) {
- auto BaseIsNotInSet = [&Bases](const CXXRecordDecl *Base) {
- return !Bases.count(Base->getCanonicalDecl());
- };
- return BaseIsNotInSet(Record) && Record->forallBases(BaseIsNotInSet);
- }
- enum IMAKind {
- /// The reference is definitely not an instance member access.
- IMA_Static,
- /// The reference may be an implicit instance member access.
- IMA_Mixed,
- /// The reference may be to an instance member, but it might be invalid if
- /// so, because the context is not an instance method.
- IMA_Mixed_StaticContext,
- /// The reference may be to an instance member, but it is invalid if
- /// so, because the context is from an unrelated class.
- IMA_Mixed_Unrelated,
- /// The reference is definitely an implicit instance member access.
- IMA_Instance,
- /// The reference may be to an unresolved using declaration.
- IMA_Unresolved,
- /// The reference is a contextually-permitted abstract member reference.
- IMA_Abstract,
- /// The reference may be to an unresolved using declaration and the
- /// context is not an instance method.
- IMA_Unresolved_StaticContext,
- // The reference refers to a field which is not a member of the containing
- // class, which is allowed because we're in C++11 mode and the context is
- // unevaluated.
- IMA_Field_Uneval_Context,
- /// All possible referrents are instance members and the current
- /// context is not an instance method.
- IMA_Error_StaticContext,
- /// All possible referrents are instance members of an unrelated
- /// class.
- IMA_Error_Unrelated
- };
- /// The given lookup names class member(s) and is not being used for
- /// an address-of-member expression. Classify the type of access
- /// according to whether it's possible that this reference names an
- /// instance member. This is best-effort in dependent contexts; it is okay to
- /// conservatively answer "yes", in which case some errors will simply
- /// not be caught until template-instantiation.
- static IMAKind ClassifyImplicitMemberAccess(Sema &SemaRef,
- const LookupResult &R) {
- assert(!R.empty() && (*R.begin())->isCXXClassMember());
- DeclContext *DC = SemaRef.getFunctionLevelDeclContext();
- bool isStaticContext = SemaRef.CXXThisTypeOverride.isNull() &&
- (!isa<CXXMethodDecl>(DC) || cast<CXXMethodDecl>(DC)->isStatic());
- if (R.isUnresolvableResult())
- return isStaticContext ? IMA_Unresolved_StaticContext : IMA_Unresolved;
- // Collect all the declaring classes of instance members we find.
- bool hasNonInstance = false;
- bool isField = false;
- BaseSet Classes;
- for (NamedDecl *D : R) {
- // Look through any using decls.
- D = D->getUnderlyingDecl();
- if (D->isCXXInstanceMember()) {
- isField |= isa<FieldDecl>(D) || isa<MSPropertyDecl>(D) ||
- isa<IndirectFieldDecl>(D);
- CXXRecordDecl *R = cast<CXXRecordDecl>(D->getDeclContext());
- Classes.insert(R->getCanonicalDecl());
- } else
- hasNonInstance = true;
- }
- // If we didn't find any instance members, it can't be an implicit
- // member reference.
- if (Classes.empty())
- return IMA_Static;
- // C++11 [expr.prim.general]p12:
- // An id-expression that denotes a non-static data member or non-static
- // member function of a class can only be used:
- // (...)
- // - if that id-expression denotes a non-static data member and it
- // appears in an unevaluated operand.
- //
- // This rule is specific to C++11. However, we also permit this form
- // in unevaluated inline assembly operands, like the operand to a SIZE.
- IMAKind AbstractInstanceResult = IMA_Static; // happens to be 'false'
- assert(!AbstractInstanceResult);
- switch (SemaRef.ExprEvalContexts.back().Context) {
- case Sema::ExpressionEvaluationContext::Unevaluated:
- case Sema::ExpressionEvaluationContext::UnevaluatedList:
- if (isField && SemaRef.getLangOpts().CPlusPlus11)
- AbstractInstanceResult = IMA_Field_Uneval_Context;
- break;
- case Sema::ExpressionEvaluationContext::UnevaluatedAbstract:
- AbstractInstanceResult = IMA_Abstract;
- break;
- case Sema::ExpressionEvaluationContext::DiscardedStatement:
- case Sema::ExpressionEvaluationContext::ConstantEvaluated:
- case Sema::ExpressionEvaluationContext::ImmediateFunctionContext:
- case Sema::ExpressionEvaluationContext::PotentiallyEvaluated:
- case Sema::ExpressionEvaluationContext::PotentiallyEvaluatedIfUsed:
- break;
- }
- // If the current context is not an instance method, it can't be
- // an implicit member reference.
- if (isStaticContext) {
- if (hasNonInstance)
- return IMA_Mixed_StaticContext;
- return AbstractInstanceResult ? AbstractInstanceResult
- : IMA_Error_StaticContext;
- }
- CXXRecordDecl *contextClass;
- if (CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(DC))
- contextClass = MD->getParent()->getCanonicalDecl();
- else
- contextClass = cast<CXXRecordDecl>(DC);
- // [class.mfct.non-static]p3:
- // ...is used in the body of a non-static member function of class X,
- // if name lookup (3.4.1) resolves the name in the id-expression to a
- // non-static non-type member of some class C [...]
- // ...if C is not X or a base class of X, the class member access expression
- // is ill-formed.
- if (R.getNamingClass() &&
- contextClass->getCanonicalDecl() !=
- R.getNamingClass()->getCanonicalDecl()) {
- // If the naming class is not the current context, this was a qualified
- // member name lookup, and it's sufficient to check that we have the naming
- // class as a base class.
- Classes.clear();
- Classes.insert(R.getNamingClass()->getCanonicalDecl());
- }
- // If we can prove that the current context is unrelated to all the
- // declaring classes, it can't be an implicit member reference (in
- // which case it's an error if any of those members are selected).
- if (isProvablyNotDerivedFrom(SemaRef, contextClass, Classes))
- return hasNonInstance ? IMA_Mixed_Unrelated :
- AbstractInstanceResult ? AbstractInstanceResult :
- IMA_Error_Unrelated;
- return (hasNonInstance ? IMA_Mixed : IMA_Instance);
- }
- /// Diagnose a reference to a field with no object available.
- static void diagnoseInstanceReference(Sema &SemaRef,
- const CXXScopeSpec &SS,
- NamedDecl *Rep,
- const DeclarationNameInfo &nameInfo) {
- SourceLocation Loc = nameInfo.getLoc();
- SourceRange Range(Loc);
- if (SS.isSet()) Range.setBegin(SS.getRange().getBegin());
- // Look through using shadow decls and aliases.
- Rep = Rep->getUnderlyingDecl();
- DeclContext *FunctionLevelDC = SemaRef.getFunctionLevelDeclContext();
- CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(FunctionLevelDC);
- CXXRecordDecl *ContextClass = Method ? Method->getParent() : nullptr;
- CXXRecordDecl *RepClass = dyn_cast<CXXRecordDecl>(Rep->getDeclContext());
- bool InStaticMethod = Method && Method->isStatic();
- bool IsField = isa<FieldDecl>(Rep) || isa<IndirectFieldDecl>(Rep);
- if (IsField && InStaticMethod)
- // "invalid use of member 'x' in static member function"
- SemaRef.Diag(Loc, diag::err_invalid_member_use_in_static_method)
- << Range << nameInfo.getName();
- else if (ContextClass && RepClass && SS.isEmpty() && !InStaticMethod &&
- !RepClass->Equals(ContextClass) && RepClass->Encloses(ContextClass))
- // Unqualified lookup in a non-static member function found a member of an
- // enclosing class.
- SemaRef.Diag(Loc, diag::err_nested_non_static_member_use)
- << IsField << RepClass << nameInfo.getName() << ContextClass << Range;
- else if (IsField)
- SemaRef.Diag(Loc, diag::err_invalid_non_static_member_use)
- << nameInfo.getName() << Range;
- else
- SemaRef.Diag(Loc, diag::err_member_call_without_object)
- << Range;
- }
- /// Builds an expression which might be an implicit member expression.
- ExprResult Sema::BuildPossibleImplicitMemberExpr(
- const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, LookupResult &R,
- const TemplateArgumentListInfo *TemplateArgs, const Scope *S,
- UnresolvedLookupExpr *AsULE) {
- switch (ClassifyImplicitMemberAccess(*this, R)) {
- case IMA_Instance:
- return BuildImplicitMemberExpr(SS, TemplateKWLoc, R, TemplateArgs, true, S);
- case IMA_Mixed:
- case IMA_Mixed_Unrelated:
- case IMA_Unresolved:
- return BuildImplicitMemberExpr(SS, TemplateKWLoc, R, TemplateArgs, false,
- S);
- case IMA_Field_Uneval_Context:
- Diag(R.getNameLoc(), diag::warn_cxx98_compat_non_static_member_use)
- << R.getLookupNameInfo().getName();
- [[fallthrough]];
- case IMA_Static:
- case IMA_Abstract:
- case IMA_Mixed_StaticContext:
- case IMA_Unresolved_StaticContext:
- if (TemplateArgs || TemplateKWLoc.isValid())
- return BuildTemplateIdExpr(SS, TemplateKWLoc, R, false, TemplateArgs);
- return AsULE ? AsULE : BuildDeclarationNameExpr(SS, R, false);
- case IMA_Error_StaticContext:
- case IMA_Error_Unrelated:
- diagnoseInstanceReference(*this, SS, R.getRepresentativeDecl(),
- R.getLookupNameInfo());
- return ExprError();
- }
- llvm_unreachable("unexpected instance member access kind");
- }
- /// Determine whether input char is from rgba component set.
- static bool
- IsRGBA(char c) {
- switch (c) {
- case 'r':
- case 'g':
- case 'b':
- case 'a':
- return true;
- default:
- return false;
- }
- }
- // OpenCL v1.1, s6.1.7
- // The component swizzle length must be in accordance with the acceptable
- // vector sizes.
- static bool IsValidOpenCLComponentSwizzleLength(unsigned len)
- {
- return (len >= 1 && len <= 4) || len == 8 || len == 16;
- }
- /// Check an ext-vector component access expression.
- ///
- /// VK should be set in advance to the value kind of the base
- /// expression.
- static QualType
- CheckExtVectorComponent(Sema &S, QualType baseType, ExprValueKind &VK,
- SourceLocation OpLoc, const IdentifierInfo *CompName,
- SourceLocation CompLoc) {
- // FIXME: Share logic with ExtVectorElementExpr::containsDuplicateElements,
- // see FIXME there.
- //
- // FIXME: This logic can be greatly simplified by splitting it along
- // halving/not halving and reworking the component checking.
- const ExtVectorType *vecType = baseType->getAs<ExtVectorType>();
- // The vector accessor can't exceed the number of elements.
- const char *compStr = CompName->getNameStart();
- // This flag determines whether or not the component is one of the four
- // special names that indicate a subset of exactly half the elements are
- // to be selected.
- bool HalvingSwizzle = false;
- // This flag determines whether or not CompName has an 's' char prefix,
- // indicating that it is a string of hex values to be used as vector indices.
- bool HexSwizzle = (*compStr == 's' || *compStr == 'S') && compStr[1];
- bool HasRepeated = false;
- bool HasIndex[16] = {};
- int Idx;
- // Check that we've found one of the special components, or that the component
- // names must come from the same set.
- if (!strcmp(compStr, "hi") || !strcmp(compStr, "lo") ||
- !strcmp(compStr, "even") || !strcmp(compStr, "odd")) {
- HalvingSwizzle = true;
- } else if (!HexSwizzle &&
- (Idx = vecType->getPointAccessorIdx(*compStr)) != -1) {
- bool HasRGBA = IsRGBA(*compStr);
- do {
- // Ensure that xyzw and rgba components don't intermingle.
- if (HasRGBA != IsRGBA(*compStr))
- break;
- if (HasIndex[Idx]) HasRepeated = true;
- HasIndex[Idx] = true;
- compStr++;
- } while (*compStr && (Idx = vecType->getPointAccessorIdx(*compStr)) != -1);
- // Emit a warning if an rgba selector is used earlier than OpenCL C 3.0.
- if (HasRGBA || (*compStr && IsRGBA(*compStr))) {
- if (S.getLangOpts().OpenCL &&
- S.getLangOpts().getOpenCLCompatibleVersion() < 300) {
- const char *DiagBegin = HasRGBA ? CompName->getNameStart() : compStr;
- S.Diag(OpLoc, diag::ext_opencl_ext_vector_type_rgba_selector)
- << StringRef(DiagBegin, 1) << SourceRange(CompLoc);
- }
- }
- } else {
- if (HexSwizzle) compStr++;
- while ((Idx = vecType->getNumericAccessorIdx(*compStr)) != -1) {
- if (HasIndex[Idx]) HasRepeated = true;
- HasIndex[Idx] = true;
- compStr++;
- }
- }
- if (!HalvingSwizzle && *compStr) {
- // We didn't get to the end of the string. This means the component names
- // didn't come from the same set *or* we encountered an illegal name.
- S.Diag(OpLoc, diag::err_ext_vector_component_name_illegal)
- << StringRef(compStr, 1) << SourceRange(CompLoc);
- return QualType();
- }
- // Ensure no component accessor exceeds the width of the vector type it
- // operates on.
- if (!HalvingSwizzle) {
- compStr = CompName->getNameStart();
- if (HexSwizzle)
- compStr++;
- while (*compStr) {
- if (!vecType->isAccessorWithinNumElements(*compStr++, HexSwizzle)) {
- S.Diag(OpLoc, diag::err_ext_vector_component_exceeds_length)
- << baseType << SourceRange(CompLoc);
- return QualType();
- }
- }
- }
- // OpenCL mode requires swizzle length to be in accordance with accepted
- // sizes. Clang however supports arbitrary lengths for other languages.
- if (S.getLangOpts().OpenCL && !HalvingSwizzle) {
- unsigned SwizzleLength = CompName->getLength();
- if (HexSwizzle)
- SwizzleLength--;
- if (IsValidOpenCLComponentSwizzleLength(SwizzleLength) == false) {
- S.Diag(OpLoc, diag::err_opencl_ext_vector_component_invalid_length)
- << SwizzleLength << SourceRange(CompLoc);
- return QualType();
- }
- }
- // The component accessor looks fine - now we need to compute the actual type.
- // The vector type is implied by the component accessor. For example,
- // vec4.b is a float, vec4.xy is a vec2, vec4.rgb is a vec3, etc.
- // vec4.s0 is a float, vec4.s23 is a vec3, etc.
- // vec4.hi, vec4.lo, vec4.e, and vec4.o all return vec2.
- unsigned CompSize = HalvingSwizzle ? (vecType->getNumElements() + 1) / 2
- : CompName->getLength();
- if (HexSwizzle)
- CompSize--;
- if (CompSize == 1)
- return vecType->getElementType();
- if (HasRepeated)
- VK = VK_PRValue;
- QualType VT = S.Context.getExtVectorType(vecType->getElementType(), CompSize);
- // Now look up the TypeDefDecl from the vector type. Without this,
- // diagostics look bad. We want extended vector types to appear built-in.
- for (Sema::ExtVectorDeclsType::iterator
- I = S.ExtVectorDecls.begin(S.getExternalSource()),
- E = S.ExtVectorDecls.end();
- I != E; ++I) {
- if ((*I)->getUnderlyingType() == VT)
- return S.Context.getTypedefType(*I);
- }
- return VT; // should never get here (a typedef type should always be found).
- }
- static Decl *FindGetterSetterNameDeclFromProtocolList(const ObjCProtocolDecl*PDecl,
- IdentifierInfo *Member,
- const Selector &Sel,
- ASTContext &Context) {
- if (Member)
- if (ObjCPropertyDecl *PD = PDecl->FindPropertyDeclaration(
- Member, ObjCPropertyQueryKind::OBJC_PR_query_instance))
- return PD;
- if (ObjCMethodDecl *OMD = PDecl->getInstanceMethod(Sel))
- return OMD;
- for (const auto *I : PDecl->protocols()) {
- if (Decl *D = FindGetterSetterNameDeclFromProtocolList(I, Member, Sel,
- Context))
- return D;
- }
- return nullptr;
- }
- static Decl *FindGetterSetterNameDecl(const ObjCObjectPointerType *QIdTy,
- IdentifierInfo *Member,
- const Selector &Sel,
- ASTContext &Context) {
- // Check protocols on qualified interfaces.
- Decl *GDecl = nullptr;
- for (const auto *I : QIdTy->quals()) {
- if (Member)
- if (ObjCPropertyDecl *PD = I->FindPropertyDeclaration(
- Member, ObjCPropertyQueryKind::OBJC_PR_query_instance)) {
- GDecl = PD;
- break;
- }
- // Also must look for a getter or setter name which uses property syntax.
- if (ObjCMethodDecl *OMD = I->getInstanceMethod(Sel)) {
- GDecl = OMD;
- break;
- }
- }
- if (!GDecl) {
- for (const auto *I : QIdTy->quals()) {
- // Search in the protocol-qualifier list of current protocol.
- GDecl = FindGetterSetterNameDeclFromProtocolList(I, Member, Sel, Context);
- if (GDecl)
- return GDecl;
- }
- }
- return GDecl;
- }
- ExprResult
- Sema::ActOnDependentMemberExpr(Expr *BaseExpr, QualType BaseType,
- bool IsArrow, SourceLocation OpLoc,
- const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- NamedDecl *FirstQualifierInScope,
- const DeclarationNameInfo &NameInfo,
- const TemplateArgumentListInfo *TemplateArgs) {
- // Even in dependent contexts, try to diagnose base expressions with
- // obviously wrong types, e.g.:
- //
- // T* t;
- // t.f;
- //
- // In Obj-C++, however, the above expression is valid, since it could be
- // accessing the 'f' property if T is an Obj-C interface. The extra check
- // allows this, while still reporting an error if T is a struct pointer.
- if (!IsArrow) {
- const PointerType *PT = BaseType->getAs<PointerType>();
- if (PT && (!getLangOpts().ObjC ||
- PT->getPointeeType()->isRecordType())) {
- assert(BaseExpr && "cannot happen with implicit member accesses");
- Diag(OpLoc, diag::err_typecheck_member_reference_struct_union)
- << BaseType << BaseExpr->getSourceRange() << NameInfo.getSourceRange();
- return ExprError();
- }
- }
- assert(BaseType->isDependentType() || NameInfo.getName().isDependentName() ||
- isDependentScopeSpecifier(SS) ||
- (TemplateArgs && llvm::any_of(TemplateArgs->arguments(),
- [](const TemplateArgumentLoc &Arg) {
- return Arg.getArgument().isDependent();
- })));
- // Get the type being accessed in BaseType. If this is an arrow, the BaseExpr
- // must have pointer type, and the accessed type is the pointee.
- return CXXDependentScopeMemberExpr::Create(
- Context, BaseExpr, BaseType, IsArrow, OpLoc,
- SS.getWithLocInContext(Context), TemplateKWLoc, FirstQualifierInScope,
- NameInfo, TemplateArgs);
- }
- /// We know that the given qualified member reference points only to
- /// declarations which do not belong to the static type of the base
- /// expression. Diagnose the problem.
- static void DiagnoseQualifiedMemberReference(Sema &SemaRef,
- Expr *BaseExpr,
- QualType BaseType,
- const CXXScopeSpec &SS,
- NamedDecl *rep,
- const DeclarationNameInfo &nameInfo) {
- // If this is an implicit member access, use a different set of
- // diagnostics.
- if (!BaseExpr)
- return diagnoseInstanceReference(SemaRef, SS, rep, nameInfo);
- SemaRef.Diag(nameInfo.getLoc(), diag::err_qualified_member_of_unrelated)
- << SS.getRange() << rep << BaseType;
- }
- // Check whether the declarations we found through a nested-name
- // specifier in a member expression are actually members of the base
- // type. The restriction here is:
- //
- // C++ [expr.ref]p2:
- // ... In these cases, the id-expression shall name a
- // member of the class or of one of its base classes.
- //
- // So it's perfectly legitimate for the nested-name specifier to name
- // an unrelated class, and for us to find an overload set including
- // decls from classes which are not superclasses, as long as the decl
- // we actually pick through overload resolution is from a superclass.
- bool Sema::CheckQualifiedMemberReference(Expr *BaseExpr,
- QualType BaseType,
- const CXXScopeSpec &SS,
- const LookupResult &R) {
- CXXRecordDecl *BaseRecord =
- cast_or_null<CXXRecordDecl>(computeDeclContext(BaseType));
- if (!BaseRecord) {
- // We can't check this yet because the base type is still
- // dependent.
- assert(BaseType->isDependentType());
- return false;
- }
- for (LookupResult::iterator I = R.begin(), E = R.end(); I != E; ++I) {
- // If this is an implicit member reference and we find a
- // non-instance member, it's not an error.
- if (!BaseExpr && !(*I)->isCXXInstanceMember())
- return false;
- // Note that we use the DC of the decl, not the underlying decl.
- DeclContext *DC = (*I)->getDeclContext()->getNonTransparentContext();
- if (!DC->isRecord())
- continue;
- CXXRecordDecl *MemberRecord = cast<CXXRecordDecl>(DC)->getCanonicalDecl();
- if (BaseRecord->getCanonicalDecl() == MemberRecord ||
- !BaseRecord->isProvablyNotDerivedFrom(MemberRecord))
- return false;
- }
- DiagnoseQualifiedMemberReference(*this, BaseExpr, BaseType, SS,
- R.getRepresentativeDecl(),
- R.getLookupNameInfo());
- return true;
- }
- namespace {
- // Callback to only accept typo corrections that are either a ValueDecl or a
- // FunctionTemplateDecl and are declared in the current record or, for a C++
- // classes, one of its base classes.
- class RecordMemberExprValidatorCCC final : public CorrectionCandidateCallback {
- public:
- explicit RecordMemberExprValidatorCCC(const RecordType *RTy)
- : Record(RTy->getDecl()) {
- // Don't add bare keywords to the consumer since they will always fail
- // validation by virtue of not being associated with any decls.
- WantTypeSpecifiers = false;
- WantExpressionKeywords = false;
- WantCXXNamedCasts = false;
- WantFunctionLikeCasts = false;
- WantRemainingKeywords = false;
- }
- bool ValidateCandidate(const TypoCorrection &candidate) override {
- NamedDecl *ND = candidate.getCorrectionDecl();
- // Don't accept candidates that cannot be member functions, constants,
- // variables, or templates.
- if (!ND || !(isa<ValueDecl>(ND) || isa<FunctionTemplateDecl>(ND)))
- return false;
- // Accept candidates that occur in the current record.
- if (Record->containsDecl(ND))
- return true;
- if (const auto *RD = dyn_cast<CXXRecordDecl>(Record)) {
- // Accept candidates that occur in any of the current class' base classes.
- for (const auto &BS : RD->bases()) {
- if (const auto *BSTy = BS.getType()->getAs<RecordType>()) {
- if (BSTy->getDecl()->containsDecl(ND))
- return true;
- }
- }
- }
- return false;
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<RecordMemberExprValidatorCCC>(*this);
- }
- private:
- const RecordDecl *const Record;
- };
- }
- static bool LookupMemberExprInRecord(Sema &SemaRef, LookupResult &R,
- Expr *BaseExpr,
- const RecordType *RTy,
- SourceLocation OpLoc, bool IsArrow,
- CXXScopeSpec &SS, bool HasTemplateArgs,
- SourceLocation TemplateKWLoc,
- TypoExpr *&TE) {
- SourceRange BaseRange = BaseExpr ? BaseExpr->getSourceRange() : SourceRange();
- RecordDecl *RDecl = RTy->getDecl();
- if (!SemaRef.isThisOutsideMemberFunctionBody(QualType(RTy, 0)) &&
- SemaRef.RequireCompleteType(OpLoc, QualType(RTy, 0),
- diag::err_typecheck_incomplete_tag,
- BaseRange))
- return true;
- if (HasTemplateArgs || TemplateKWLoc.isValid()) {
- // LookupTemplateName doesn't expect these both to exist simultaneously.
- QualType ObjectType = SS.isSet() ? QualType() : QualType(RTy, 0);
- bool MOUS;
- return SemaRef.LookupTemplateName(R, nullptr, SS, ObjectType, false, MOUS,
- TemplateKWLoc);
- }
- DeclContext *DC = RDecl;
- if (SS.isSet()) {
- // If the member name was a qualified-id, look into the
- // nested-name-specifier.
- DC = SemaRef.computeDeclContext(SS, false);
- if (SemaRef.RequireCompleteDeclContext(SS, DC)) {
- SemaRef.Diag(SS.getRange().getEnd(), diag::err_typecheck_incomplete_tag)
- << SS.getRange() << DC;
- return true;
- }
- assert(DC && "Cannot handle non-computable dependent contexts in lookup");
- if (!isa<TypeDecl>(DC)) {
- SemaRef.Diag(R.getNameLoc(), diag::err_qualified_member_nonclass)
- << DC << SS.getRange();
- return true;
- }
- }
- // The record definition is complete, now look up the member.
- SemaRef.LookupQualifiedName(R, DC, SS);
- if (!R.empty())
- return false;
- DeclarationName Typo = R.getLookupName();
- SourceLocation TypoLoc = R.getNameLoc();
- struct QueryState {
- Sema &SemaRef;
- DeclarationNameInfo NameInfo;
- Sema::LookupNameKind LookupKind;
- Sema::RedeclarationKind Redecl;
- };
- QueryState Q = {R.getSema(), R.getLookupNameInfo(), R.getLookupKind(),
- R.redeclarationKind()};
- RecordMemberExprValidatorCCC CCC(RTy);
- TE = SemaRef.CorrectTypoDelayed(
- R.getLookupNameInfo(), R.getLookupKind(), nullptr, &SS, CCC,
- [=, &SemaRef](const TypoCorrection &TC) {
- if (TC) {
- assert(!TC.isKeyword() &&
- "Got a keyword as a correction for a member!");
- bool DroppedSpecifier =
- TC.WillReplaceSpecifier() &&
- Typo.getAsString() == TC.getAsString(SemaRef.getLangOpts());
- SemaRef.diagnoseTypo(TC, SemaRef.PDiag(diag::err_no_member_suggest)
- << Typo << DC << DroppedSpecifier
- << SS.getRange());
- } else {
- SemaRef.Diag(TypoLoc, diag::err_no_member) << Typo << DC << BaseRange;
- }
- },
- [=](Sema &SemaRef, TypoExpr *TE, TypoCorrection TC) mutable {
- LookupResult R(Q.SemaRef, Q.NameInfo, Q.LookupKind, Q.Redecl);
- R.clear(); // Ensure there's no decls lingering in the shared state.
- R.suppressDiagnostics();
- R.setLookupName(TC.getCorrection());
- for (NamedDecl *ND : TC)
- R.addDecl(ND);
- R.resolveKind();
- return SemaRef.BuildMemberReferenceExpr(
- BaseExpr, BaseExpr->getType(), OpLoc, IsArrow, SS, SourceLocation(),
- nullptr, R, nullptr, nullptr);
- },
- Sema::CTK_ErrorRecovery, DC);
- return false;
- }
- static ExprResult LookupMemberExpr(Sema &S, LookupResult &R,
- ExprResult &BaseExpr, bool &IsArrow,
- SourceLocation OpLoc, CXXScopeSpec &SS,
- Decl *ObjCImpDecl, bool HasTemplateArgs,
- SourceLocation TemplateKWLoc);
- ExprResult
- Sema::BuildMemberReferenceExpr(Expr *Base, QualType BaseType,
- SourceLocation OpLoc, bool IsArrow,
- CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- NamedDecl *FirstQualifierInScope,
- const DeclarationNameInfo &NameInfo,
- const TemplateArgumentListInfo *TemplateArgs,
- const Scope *S,
- ActOnMemberAccessExtraArgs *ExtraArgs) {
- if (BaseType->isDependentType() ||
- (SS.isSet() && isDependentScopeSpecifier(SS)))
- return ActOnDependentMemberExpr(Base, BaseType,
- IsArrow, OpLoc,
- SS, TemplateKWLoc, FirstQualifierInScope,
- NameInfo, TemplateArgs);
- LookupResult R(*this, NameInfo, LookupMemberName);
- // Implicit member accesses.
- if (!Base) {
- TypoExpr *TE = nullptr;
- QualType RecordTy = BaseType;
- if (IsArrow) RecordTy = RecordTy->castAs<PointerType>()->getPointeeType();
- if (LookupMemberExprInRecord(
- *this, R, nullptr, RecordTy->getAs<RecordType>(), OpLoc, IsArrow,
- SS, TemplateArgs != nullptr, TemplateKWLoc, TE))
- return ExprError();
- if (TE)
- return TE;
- // Explicit member accesses.
- } else {
- ExprResult BaseResult = Base;
- ExprResult Result =
- LookupMemberExpr(*this, R, BaseResult, IsArrow, OpLoc, SS,
- ExtraArgs ? ExtraArgs->ObjCImpDecl : nullptr,
- TemplateArgs != nullptr, TemplateKWLoc);
- if (BaseResult.isInvalid())
- return ExprError();
- Base = BaseResult.get();
- if (Result.isInvalid())
- return ExprError();
- if (Result.get())
- return Result;
- // LookupMemberExpr can modify Base, and thus change BaseType
- BaseType = Base->getType();
- }
- return BuildMemberReferenceExpr(Base, BaseType,
- OpLoc, IsArrow, SS, TemplateKWLoc,
- FirstQualifierInScope, R, TemplateArgs, S,
- false, ExtraArgs);
- }
- ExprResult
- Sema::BuildAnonymousStructUnionMemberReference(const CXXScopeSpec &SS,
- SourceLocation loc,
- IndirectFieldDecl *indirectField,
- DeclAccessPair foundDecl,
- Expr *baseObjectExpr,
- SourceLocation opLoc) {
- // First, build the expression that refers to the base object.
- // Case 1: the base of the indirect field is not a field.
- VarDecl *baseVariable = indirectField->getVarDecl();
- CXXScopeSpec EmptySS;
- if (baseVariable) {
- assert(baseVariable->getType()->isRecordType());
- // In principle we could have a member access expression that
- // accesses an anonymous struct/union that's a static member of
- // the base object's class. However, under the current standard,
- // static data members cannot be anonymous structs or unions.
- // Supporting this is as easy as building a MemberExpr here.
- assert(!baseObjectExpr && "anonymous struct/union is static data member?");
- DeclarationNameInfo baseNameInfo(DeclarationName(), loc);
- ExprResult result
- = BuildDeclarationNameExpr(EmptySS, baseNameInfo, baseVariable);
- if (result.isInvalid()) return ExprError();
- baseObjectExpr = result.get();
- }
- assert((baseVariable || baseObjectExpr) &&
- "referencing anonymous struct/union without a base variable or "
- "expression");
- // Build the implicit member references to the field of the
- // anonymous struct/union.
- Expr *result = baseObjectExpr;
- IndirectFieldDecl::chain_iterator
- FI = indirectField->chain_begin(), FEnd = indirectField->chain_end();
- // Case 2: the base of the indirect field is a field and the user
- // wrote a member expression.
- if (!baseVariable) {
- FieldDecl *field = cast<FieldDecl>(*FI);
- bool baseObjectIsPointer = baseObjectExpr->getType()->isPointerType();
- // Make a nameInfo that properly uses the anonymous name.
- DeclarationNameInfo memberNameInfo(field->getDeclName(), loc);
- // Build the first member access in the chain with full information.
- result =
- BuildFieldReferenceExpr(result, baseObjectIsPointer, SourceLocation(),
- SS, field, foundDecl, memberNameInfo)
- .get();
- if (!result)
- return ExprError();
- }
- // In all cases, we should now skip the first declaration in the chain.
- ++FI;
- while (FI != FEnd) {
- FieldDecl *field = cast<FieldDecl>(*FI++);
- // FIXME: these are somewhat meaningless
- DeclarationNameInfo memberNameInfo(field->getDeclName(), loc);
- DeclAccessPair fakeFoundDecl =
- DeclAccessPair::make(field, field->getAccess());
- result =
- BuildFieldReferenceExpr(result, /*isarrow*/ false, SourceLocation(),
- (FI == FEnd ? SS : EmptySS), field,
- fakeFoundDecl, memberNameInfo)
- .get();
- }
- return result;
- }
- static ExprResult
- BuildMSPropertyRefExpr(Sema &S, Expr *BaseExpr, bool IsArrow,
- const CXXScopeSpec &SS,
- MSPropertyDecl *PD,
- const DeclarationNameInfo &NameInfo) {
- // Property names are always simple identifiers and therefore never
- // require any interesting additional storage.
- return new (S.Context) MSPropertyRefExpr(BaseExpr, PD, IsArrow,
- S.Context.PseudoObjectTy, VK_LValue,
- SS.getWithLocInContext(S.Context),
- NameInfo.getLoc());
- }
- MemberExpr *Sema::BuildMemberExpr(
- Expr *Base, bool IsArrow, SourceLocation OpLoc, const CXXScopeSpec *SS,
- SourceLocation TemplateKWLoc, ValueDecl *Member, DeclAccessPair FoundDecl,
- bool HadMultipleCandidates, const DeclarationNameInfo &MemberNameInfo,
- QualType Ty, ExprValueKind VK, ExprObjectKind OK,
- const TemplateArgumentListInfo *TemplateArgs) {
- NestedNameSpecifierLoc NNS =
- SS ? SS->getWithLocInContext(Context) : NestedNameSpecifierLoc();
- return BuildMemberExpr(Base, IsArrow, OpLoc, NNS, TemplateKWLoc, Member,
- FoundDecl, HadMultipleCandidates, MemberNameInfo, Ty,
- VK, OK, TemplateArgs);
- }
- MemberExpr *Sema::BuildMemberExpr(
- Expr *Base, bool IsArrow, SourceLocation OpLoc, NestedNameSpecifierLoc NNS,
- SourceLocation TemplateKWLoc, ValueDecl *Member, DeclAccessPair FoundDecl,
- bool HadMultipleCandidates, const DeclarationNameInfo &MemberNameInfo,
- QualType Ty, ExprValueKind VK, ExprObjectKind OK,
- const TemplateArgumentListInfo *TemplateArgs) {
- assert((!IsArrow || Base->isPRValue()) &&
- "-> base must be a pointer prvalue");
- MemberExpr *E =
- MemberExpr::Create(Context, Base, IsArrow, OpLoc, NNS, TemplateKWLoc,
- Member, FoundDecl, MemberNameInfo, TemplateArgs, Ty,
- VK, OK, getNonOdrUseReasonInCurrentContext(Member));
- E->setHadMultipleCandidates(HadMultipleCandidates);
- MarkMemberReferenced(E);
- // C++ [except.spec]p17:
- // An exception-specification is considered to be needed when:
- // - in an expression the function is the unique lookup result or the
- // selected member of a set of overloaded functions
- if (auto *FPT = Ty->getAs<FunctionProtoType>()) {
- if (isUnresolvedExceptionSpec(FPT->getExceptionSpecType())) {
- if (auto *NewFPT = ResolveExceptionSpec(MemberNameInfo.getLoc(), FPT))
- E->setType(Context.getQualifiedType(NewFPT, Ty.getQualifiers()));
- }
- }
- return E;
- }
- /// Determine if the given scope is within a function-try-block handler.
- static bool IsInFnTryBlockHandler(const Scope *S) {
- // Walk the scope stack until finding a FnTryCatchScope, or leave the
- // function scope. If a FnTryCatchScope is found, check whether the TryScope
- // flag is set. If it is not, it's a function-try-block handler.
- for (; S != S->getFnParent(); S = S->getParent()) {
- if (S->isFnTryCatchScope())
- return (S->getFlags() & Scope::TryScope) != Scope::TryScope;
- }
- return false;
- }
- ExprResult
- Sema::BuildMemberReferenceExpr(Expr *BaseExpr, QualType BaseExprType,
- SourceLocation OpLoc, bool IsArrow,
- const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- NamedDecl *FirstQualifierInScope,
- LookupResult &R,
- const TemplateArgumentListInfo *TemplateArgs,
- const Scope *S,
- bool SuppressQualifierCheck,
- ActOnMemberAccessExtraArgs *ExtraArgs) {
- QualType BaseType = BaseExprType;
- if (IsArrow) {
- assert(BaseType->isPointerType());
- BaseType = BaseType->castAs<PointerType>()->getPointeeType();
- }
- R.setBaseObjectType(BaseType);
- // C++1z [expr.ref]p2:
- // For the first option (dot) the first expression shall be a glvalue [...]
- if (!IsArrow && BaseExpr && BaseExpr->isPRValue()) {
- ExprResult Converted = TemporaryMaterializationConversion(BaseExpr);
- if (Converted.isInvalid())
- return ExprError();
- BaseExpr = Converted.get();
- }
- const DeclarationNameInfo &MemberNameInfo = R.getLookupNameInfo();
- DeclarationName MemberName = MemberNameInfo.getName();
- SourceLocation MemberLoc = MemberNameInfo.getLoc();
- if (R.isAmbiguous())
- return ExprError();
- // [except.handle]p10: Referring to any non-static member or base class of an
- // object in the handler for a function-try-block of a constructor or
- // destructor for that object results in undefined behavior.
- const auto *FD = getCurFunctionDecl();
- if (S && BaseExpr && FD &&
- (isa<CXXDestructorDecl>(FD) || isa<CXXConstructorDecl>(FD)) &&
- isa<CXXThisExpr>(BaseExpr->IgnoreImpCasts()) &&
- IsInFnTryBlockHandler(S))
- Diag(MemberLoc, diag::warn_cdtor_function_try_handler_mem_expr)
- << isa<CXXDestructorDecl>(FD);
- if (R.empty()) {
- // Rederive where we looked up.
- DeclContext *DC = (SS.isSet()
- ? computeDeclContext(SS, false)
- : BaseType->castAs<RecordType>()->getDecl());
- if (ExtraArgs) {
- ExprResult RetryExpr;
- if (!IsArrow && BaseExpr) {
- SFINAETrap Trap(*this, true);
- ParsedType ObjectType;
- bool MayBePseudoDestructor = false;
- RetryExpr = ActOnStartCXXMemberReference(getCurScope(), BaseExpr,
- OpLoc, tok::arrow, ObjectType,
- MayBePseudoDestructor);
- if (RetryExpr.isUsable() && !Trap.hasErrorOccurred()) {
- CXXScopeSpec TempSS(SS);
- RetryExpr = ActOnMemberAccessExpr(
- ExtraArgs->S, RetryExpr.get(), OpLoc, tok::arrow, TempSS,
- TemplateKWLoc, ExtraArgs->Id, ExtraArgs->ObjCImpDecl);
- }
- if (Trap.hasErrorOccurred())
- RetryExpr = ExprError();
- }
- if (RetryExpr.isUsable()) {
- Diag(OpLoc, diag::err_no_member_overloaded_arrow)
- << MemberName << DC << FixItHint::CreateReplacement(OpLoc, "->");
- return RetryExpr;
- }
- }
- Diag(R.getNameLoc(), diag::err_no_member)
- << MemberName << DC
- << (BaseExpr ? BaseExpr->getSourceRange() : SourceRange());
- return ExprError();
- }
- // Diagnose lookups that find only declarations from a non-base
- // type. This is possible for either qualified lookups (which may
- // have been qualified with an unrelated type) or implicit member
- // expressions (which were found with unqualified lookup and thus
- // may have come from an enclosing scope). Note that it's okay for
- // lookup to find declarations from a non-base type as long as those
- // aren't the ones picked by overload resolution.
- if ((SS.isSet() || !BaseExpr ||
- (isa<CXXThisExpr>(BaseExpr) &&
- cast<CXXThisExpr>(BaseExpr)->isImplicit())) &&
- !SuppressQualifierCheck &&
- CheckQualifiedMemberReference(BaseExpr, BaseType, SS, R))
- return ExprError();
- // Construct an unresolved result if we in fact got an unresolved
- // result.
- if (R.isOverloadedResult() || R.isUnresolvableResult()) {
- // Suppress any lookup-related diagnostics; we'll do these when we
- // pick a member.
- R.suppressDiagnostics();
- UnresolvedMemberExpr *MemExpr
- = UnresolvedMemberExpr::Create(Context, R.isUnresolvableResult(),
- BaseExpr, BaseExprType,
- IsArrow, OpLoc,
- SS.getWithLocInContext(Context),
- TemplateKWLoc, MemberNameInfo,
- TemplateArgs, R.begin(), R.end());
- return MemExpr;
- }
- assert(R.isSingleResult());
- DeclAccessPair FoundDecl = R.begin().getPair();
- NamedDecl *MemberDecl = R.getFoundDecl();
- // FIXME: diagnose the presence of template arguments now.
- // If the decl being referenced had an error, return an error for this
- // sub-expr without emitting another error, in order to avoid cascading
- // error cases.
- if (MemberDecl->isInvalidDecl())
- return ExprError();
- // Handle the implicit-member-access case.
- if (!BaseExpr) {
- // If this is not an instance member, convert to a non-member access.
- if (!MemberDecl->isCXXInstanceMember()) {
- // We might have a variable template specialization (or maybe one day a
- // member concept-id).
- if (TemplateArgs || TemplateKWLoc.isValid())
- return BuildTemplateIdExpr(SS, TemplateKWLoc, R, /*ADL*/false, TemplateArgs);
- return BuildDeclarationNameExpr(SS, R.getLookupNameInfo(), MemberDecl,
- FoundDecl, TemplateArgs);
- }
- SourceLocation Loc = R.getNameLoc();
- if (SS.getRange().isValid())
- Loc = SS.getRange().getBegin();
- BaseExpr = BuildCXXThisExpr(Loc, BaseExprType, /*IsImplicit=*/true);
- }
- // Check the use of this member.
- if (DiagnoseUseOfDecl(MemberDecl, MemberLoc))
- return ExprError();
- if (FieldDecl *FD = dyn_cast<FieldDecl>(MemberDecl))
- return BuildFieldReferenceExpr(BaseExpr, IsArrow, OpLoc, SS, FD, FoundDecl,
- MemberNameInfo);
- if (MSPropertyDecl *PD = dyn_cast<MSPropertyDecl>(MemberDecl))
- return BuildMSPropertyRefExpr(*this, BaseExpr, IsArrow, SS, PD,
- MemberNameInfo);
- if (IndirectFieldDecl *FD = dyn_cast<IndirectFieldDecl>(MemberDecl))
- // We may have found a field within an anonymous union or struct
- // (C++ [class.union]).
- return BuildAnonymousStructUnionMemberReference(SS, MemberLoc, FD,
- FoundDecl, BaseExpr,
- OpLoc);
- if (VarDecl *Var = dyn_cast<VarDecl>(MemberDecl)) {
- return BuildMemberExpr(BaseExpr, IsArrow, OpLoc, &SS, TemplateKWLoc, Var,
- FoundDecl, /*HadMultipleCandidates=*/false,
- MemberNameInfo, Var->getType().getNonReferenceType(),
- VK_LValue, OK_Ordinary);
- }
- if (CXXMethodDecl *MemberFn = dyn_cast<CXXMethodDecl>(MemberDecl)) {
- ExprValueKind valueKind;
- QualType type;
- if (MemberFn->isInstance()) {
- valueKind = VK_PRValue;
- type = Context.BoundMemberTy;
- } else {
- valueKind = VK_LValue;
- type = MemberFn->getType();
- }
- return BuildMemberExpr(BaseExpr, IsArrow, OpLoc, &SS, TemplateKWLoc,
- MemberFn, FoundDecl, /*HadMultipleCandidates=*/false,
- MemberNameInfo, type, valueKind, OK_Ordinary);
- }
- assert(!isa<FunctionDecl>(MemberDecl) && "member function not C++ method?");
- if (EnumConstantDecl *Enum = dyn_cast<EnumConstantDecl>(MemberDecl)) {
- return BuildMemberExpr(BaseExpr, IsArrow, OpLoc, &SS, TemplateKWLoc, Enum,
- FoundDecl, /*HadMultipleCandidates=*/false,
- MemberNameInfo, Enum->getType(), VK_PRValue,
- OK_Ordinary);
- }
- if (VarTemplateDecl *VarTempl = dyn_cast<VarTemplateDecl>(MemberDecl)) {
- if (!TemplateArgs) {
- diagnoseMissingTemplateArguments(TemplateName(VarTempl), MemberLoc);
- return ExprError();
- }
- DeclResult VDecl = CheckVarTemplateId(VarTempl, TemplateKWLoc,
- MemberNameInfo.getLoc(), *TemplateArgs);
- if (VDecl.isInvalid())
- return ExprError();
- // Non-dependent member, but dependent template arguments.
- if (!VDecl.get())
- return ActOnDependentMemberExpr(
- BaseExpr, BaseExpr->getType(), IsArrow, OpLoc, SS, TemplateKWLoc,
- FirstQualifierInScope, MemberNameInfo, TemplateArgs);
- VarDecl *Var = cast<VarDecl>(VDecl.get());
- if (!Var->getTemplateSpecializationKind())
- Var->setTemplateSpecializationKind(TSK_ImplicitInstantiation, MemberLoc);
- return BuildMemberExpr(BaseExpr, IsArrow, OpLoc, &SS, TemplateKWLoc, Var,
- FoundDecl, /*HadMultipleCandidates=*/false,
- MemberNameInfo, Var->getType().getNonReferenceType(),
- VK_LValue, OK_Ordinary, TemplateArgs);
- }
- // We found something that we didn't expect. Complain.
- if (isa<TypeDecl>(MemberDecl))
- Diag(MemberLoc, diag::err_typecheck_member_reference_type)
- << MemberName << BaseType << int(IsArrow);
- else
- Diag(MemberLoc, diag::err_typecheck_member_reference_unknown)
- << MemberName << BaseType << int(IsArrow);
- Diag(MemberDecl->getLocation(), diag::note_member_declared_here)
- << MemberName;
- R.suppressDiagnostics();
- return ExprError();
- }
- /// Given that normal member access failed on the given expression,
- /// and given that the expression's type involves builtin-id or
- /// builtin-Class, decide whether substituting in the redefinition
- /// types would be profitable. The redefinition type is whatever
- /// this translation unit tried to typedef to id/Class; we store
- /// it to the side and then re-use it in places like this.
- static bool ShouldTryAgainWithRedefinitionType(Sema &S, ExprResult &base) {
- const ObjCObjectPointerType *opty
- = base.get()->getType()->getAs<ObjCObjectPointerType>();
- if (!opty) return false;
- const ObjCObjectType *ty = opty->getObjectType();
- QualType redef;
- if (ty->isObjCId()) {
- redef = S.Context.getObjCIdRedefinitionType();
- } else if (ty->isObjCClass()) {
- redef = S.Context.getObjCClassRedefinitionType();
- } else {
- return false;
- }
- // Do the substitution as long as the redefinition type isn't just a
- // possibly-qualified pointer to builtin-id or builtin-Class again.
- opty = redef->getAs<ObjCObjectPointerType>();
- if (opty && !opty->getObjectType()->getInterface())
- return false;
- base = S.ImpCastExprToType(base.get(), redef, CK_BitCast);
- return true;
- }
- static bool isRecordType(QualType T) {
- return T->isRecordType();
- }
- static bool isPointerToRecordType(QualType T) {
- if (const PointerType *PT = T->getAs<PointerType>())
- return PT->getPointeeType()->isRecordType();
- return false;
- }
- /// Perform conversions on the LHS of a member access expression.
- ExprResult
- Sema::PerformMemberExprBaseConversion(Expr *Base, bool IsArrow) {
- if (IsArrow && !Base->getType()->isFunctionType())
- return DefaultFunctionArrayLvalueConversion(Base);
- return CheckPlaceholderExpr(Base);
- }
- /// Look up the given member of the given non-type-dependent
- /// expression. This can return in one of two ways:
- /// * If it returns a sentinel null-but-valid result, the caller will
- /// assume that lookup was performed and the results written into
- /// the provided structure. It will take over from there.
- /// * Otherwise, the returned expression will be produced in place of
- /// an ordinary member expression.
- ///
- /// The ObjCImpDecl bit is a gross hack that will need to be properly
- /// fixed for ObjC++.
- static ExprResult LookupMemberExpr(Sema &S, LookupResult &R,
- ExprResult &BaseExpr, bool &IsArrow,
- SourceLocation OpLoc, CXXScopeSpec &SS,
- Decl *ObjCImpDecl, bool HasTemplateArgs,
- SourceLocation TemplateKWLoc) {
- assert(BaseExpr.get() && "no base expression");
- // Perform default conversions.
- BaseExpr = S.PerformMemberExprBaseConversion(BaseExpr.get(), IsArrow);
- if (BaseExpr.isInvalid())
- return ExprError();
- QualType BaseType = BaseExpr.get()->getType();
- assert(!BaseType->isDependentType());
- DeclarationName MemberName = R.getLookupName();
- SourceLocation MemberLoc = R.getNameLoc();
- // For later type-checking purposes, turn arrow accesses into dot
- // accesses. The only access type we support that doesn't follow
- // the C equivalence "a->b === (*a).b" is ObjC property accesses,
- // and those never use arrows, so this is unaffected.
- if (IsArrow) {
- if (const PointerType *Ptr = BaseType->getAs<PointerType>())
- BaseType = Ptr->getPointeeType();
- else if (const ObjCObjectPointerType *Ptr
- = BaseType->getAs<ObjCObjectPointerType>())
- BaseType = Ptr->getPointeeType();
- else if (BaseType->isRecordType()) {
- // Recover from arrow accesses to records, e.g.:
- // struct MyRecord foo;
- // foo->bar
- // This is actually well-formed in C++ if MyRecord has an
- // overloaded operator->, but that should have been dealt with
- // by now--or a diagnostic message already issued if a problem
- // was encountered while looking for the overloaded operator->.
- if (!S.getLangOpts().CPlusPlus) {
- S.Diag(OpLoc, diag::err_typecheck_member_reference_suggestion)
- << BaseType << int(IsArrow) << BaseExpr.get()->getSourceRange()
- << FixItHint::CreateReplacement(OpLoc, ".");
- }
- IsArrow = false;
- } else if (BaseType->isFunctionType()) {
- goto fail;
- } else {
- S.Diag(MemberLoc, diag::err_typecheck_member_reference_arrow)
- << BaseType << BaseExpr.get()->getSourceRange();
- return ExprError();
- }
- }
- // If the base type is an atomic type, this access is undefined behavior per
- // C11 6.5.2.3p5. Instead of giving a typecheck error, we'll warn the user
- // about the UB and recover by converting the atomic lvalue into a non-atomic
- // lvalue. Because this is inherently unsafe as an atomic operation, the
- // warning defaults to an error.
- if (const auto *ATy = BaseType->getAs<AtomicType>()) {
- S.DiagRuntimeBehavior(OpLoc, nullptr,
- S.PDiag(diag::warn_atomic_member_access));
- BaseType = ATy->getValueType().getUnqualifiedType();
- BaseExpr = ImplicitCastExpr::Create(
- S.Context, IsArrow ? S.Context.getPointerType(BaseType) : BaseType,
- CK_AtomicToNonAtomic, BaseExpr.get(), nullptr,
- BaseExpr.get()->getValueKind(), FPOptionsOverride());
- }
- // Handle field access to simple records.
- if (const RecordType *RTy = BaseType->getAs<RecordType>()) {
- TypoExpr *TE = nullptr;
- if (LookupMemberExprInRecord(S, R, BaseExpr.get(), RTy, OpLoc, IsArrow, SS,
- HasTemplateArgs, TemplateKWLoc, TE))
- return ExprError();
- // Returning valid-but-null is how we indicate to the caller that
- // the lookup result was filled in. If typo correction was attempted and
- // failed, the lookup result will have been cleared--that combined with the
- // valid-but-null ExprResult will trigger the appropriate diagnostics.
- return ExprResult(TE);
- }
- // Handle ivar access to Objective-C objects.
- if (const ObjCObjectType *OTy = BaseType->getAs<ObjCObjectType>()) {
- if (!SS.isEmpty() && !SS.isInvalid()) {
- S.Diag(SS.getRange().getBegin(), diag::err_qualified_objc_access)
- << 1 << SS.getScopeRep()
- << FixItHint::CreateRemoval(SS.getRange());
- SS.clear();
- }
- IdentifierInfo *Member = MemberName.getAsIdentifierInfo();
- // There are three cases for the base type:
- // - builtin id (qualified or unqualified)
- // - builtin Class (qualified or unqualified)
- // - an interface
- ObjCInterfaceDecl *IDecl = OTy->getInterface();
- if (!IDecl) {
- if (S.getLangOpts().ObjCAutoRefCount &&
- (OTy->isObjCId() || OTy->isObjCClass()))
- goto fail;
- // There's an implicit 'isa' ivar on all objects.
- // But we only actually find it this way on objects of type 'id',
- // apparently.
- if (OTy->isObjCId() && Member->isStr("isa"))
- return new (S.Context) ObjCIsaExpr(BaseExpr.get(), IsArrow, MemberLoc,
- OpLoc, S.Context.getObjCClassType());
- if (ShouldTryAgainWithRedefinitionType(S, BaseExpr))
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- goto fail;
- }
- if (S.RequireCompleteType(OpLoc, BaseType,
- diag::err_typecheck_incomplete_tag,
- BaseExpr.get()))
- return ExprError();
- ObjCInterfaceDecl *ClassDeclared = nullptr;
- ObjCIvarDecl *IV = IDecl->lookupInstanceVariable(Member, ClassDeclared);
- if (!IV) {
- // Attempt to correct for typos in ivar names.
- DeclFilterCCC<ObjCIvarDecl> Validator{};
- Validator.IsObjCIvarLookup = IsArrow;
- if (TypoCorrection Corrected = S.CorrectTypo(
- R.getLookupNameInfo(), Sema::LookupMemberName, nullptr, nullptr,
- Validator, Sema::CTK_ErrorRecovery, IDecl)) {
- IV = Corrected.getCorrectionDeclAs<ObjCIvarDecl>();
- S.diagnoseTypo(
- Corrected,
- S.PDiag(diag::err_typecheck_member_reference_ivar_suggest)
- << IDecl->getDeclName() << MemberName);
- // Figure out the class that declares the ivar.
- assert(!ClassDeclared);
- Decl *D = cast<Decl>(IV->getDeclContext());
- if (auto *Category = dyn_cast<ObjCCategoryDecl>(D))
- D = Category->getClassInterface();
- if (auto *Implementation = dyn_cast<ObjCImplementationDecl>(D))
- ClassDeclared = Implementation->getClassInterface();
- else if (auto *Interface = dyn_cast<ObjCInterfaceDecl>(D))
- ClassDeclared = Interface;
- assert(ClassDeclared && "cannot query interface");
- } else {
- if (IsArrow &&
- IDecl->FindPropertyDeclaration(
- Member, ObjCPropertyQueryKind::OBJC_PR_query_instance)) {
- S.Diag(MemberLoc, diag::err_property_found_suggest)
- << Member << BaseExpr.get()->getType()
- << FixItHint::CreateReplacement(OpLoc, ".");
- return ExprError();
- }
- S.Diag(MemberLoc, diag::err_typecheck_member_reference_ivar)
- << IDecl->getDeclName() << MemberName
- << BaseExpr.get()->getSourceRange();
- return ExprError();
- }
- }
- assert(ClassDeclared);
- // If the decl being referenced had an error, return an error for this
- // sub-expr without emitting another error, in order to avoid cascading
- // error cases.
- if (IV->isInvalidDecl())
- return ExprError();
- // Check whether we can reference this field.
- if (S.DiagnoseUseOfDecl(IV, MemberLoc))
- return ExprError();
- if (IV->getAccessControl() != ObjCIvarDecl::Public &&
- IV->getAccessControl() != ObjCIvarDecl::Package) {
- ObjCInterfaceDecl *ClassOfMethodDecl = nullptr;
- if (ObjCMethodDecl *MD = S.getCurMethodDecl())
- ClassOfMethodDecl = MD->getClassInterface();
- else if (ObjCImpDecl && S.getCurFunctionDecl()) {
- // Case of a c-function declared inside an objc implementation.
- // FIXME: For a c-style function nested inside an objc implementation
- // class, there is no implementation context available, so we pass
- // down the context as argument to this routine. Ideally, this context
- // need be passed down in the AST node and somehow calculated from the
- // AST for a function decl.
- if (ObjCImplementationDecl *IMPD =
- dyn_cast<ObjCImplementationDecl>(ObjCImpDecl))
- ClassOfMethodDecl = IMPD->getClassInterface();
- else if (ObjCCategoryImplDecl* CatImplClass =
- dyn_cast<ObjCCategoryImplDecl>(ObjCImpDecl))
- ClassOfMethodDecl = CatImplClass->getClassInterface();
- }
- if (!S.getLangOpts().DebuggerSupport) {
- if (IV->getAccessControl() == ObjCIvarDecl::Private) {
- if (!declaresSameEntity(ClassDeclared, IDecl) ||
- !declaresSameEntity(ClassOfMethodDecl, ClassDeclared))
- S.Diag(MemberLoc, diag::err_private_ivar_access)
- << IV->getDeclName();
- } else if (!IDecl->isSuperClassOf(ClassOfMethodDecl))
- // @protected
- S.Diag(MemberLoc, diag::err_protected_ivar_access)
- << IV->getDeclName();
- }
- }
- bool warn = true;
- if (S.getLangOpts().ObjCWeak) {
- Expr *BaseExp = BaseExpr.get()->IgnoreParenImpCasts();
- if (UnaryOperator *UO = dyn_cast<UnaryOperator>(BaseExp))
- if (UO->getOpcode() == UO_Deref)
- BaseExp = UO->getSubExpr()->IgnoreParenCasts();
- if (DeclRefExpr *DE = dyn_cast<DeclRefExpr>(BaseExp))
- if (DE->getType().getObjCLifetime() == Qualifiers::OCL_Weak) {
- S.Diag(DE->getLocation(), diag::err_arc_weak_ivar_access);
- warn = false;
- }
- }
- if (warn) {
- if (ObjCMethodDecl *MD = S.getCurMethodDecl()) {
- ObjCMethodFamily MF = MD->getMethodFamily();
- warn = (MF != OMF_init && MF != OMF_dealloc &&
- MF != OMF_finalize &&
- !S.IvarBacksCurrentMethodAccessor(IDecl, MD, IV));
- }
- if (warn)
- S.Diag(MemberLoc, diag::warn_direct_ivar_access) << IV->getDeclName();
- }
- ObjCIvarRefExpr *Result = new (S.Context) ObjCIvarRefExpr(
- IV, IV->getUsageType(BaseType), MemberLoc, OpLoc, BaseExpr.get(),
- IsArrow);
- if (IV->getType().getObjCLifetime() == Qualifiers::OCL_Weak) {
- if (!S.isUnevaluatedContext() &&
- !S.Diags.isIgnored(diag::warn_arc_repeated_use_of_weak, MemberLoc))
- S.getCurFunction()->recordUseOfWeak(Result);
- }
- return Result;
- }
- // Objective-C property access.
- const ObjCObjectPointerType *OPT;
- if (!IsArrow && (OPT = BaseType->getAs<ObjCObjectPointerType>())) {
- if (!SS.isEmpty() && !SS.isInvalid()) {
- S.Diag(SS.getRange().getBegin(), diag::err_qualified_objc_access)
- << 0 << SS.getScopeRep() << FixItHint::CreateRemoval(SS.getRange());
- SS.clear();
- }
- // This actually uses the base as an r-value.
- BaseExpr = S.DefaultLvalueConversion(BaseExpr.get());
- if (BaseExpr.isInvalid())
- return ExprError();
- assert(S.Context.hasSameUnqualifiedType(BaseType,
- BaseExpr.get()->getType()));
- IdentifierInfo *Member = MemberName.getAsIdentifierInfo();
- const ObjCObjectType *OT = OPT->getObjectType();
- // id, with and without qualifiers.
- if (OT->isObjCId()) {
- // Check protocols on qualified interfaces.
- Selector Sel = S.PP.getSelectorTable().getNullarySelector(Member);
- if (Decl *PMDecl =
- FindGetterSetterNameDecl(OPT, Member, Sel, S.Context)) {
- if (ObjCPropertyDecl *PD = dyn_cast<ObjCPropertyDecl>(PMDecl)) {
- // Check the use of this declaration
- if (S.DiagnoseUseOfDecl(PD, MemberLoc))
- return ExprError();
- return new (S.Context)
- ObjCPropertyRefExpr(PD, S.Context.PseudoObjectTy, VK_LValue,
- OK_ObjCProperty, MemberLoc, BaseExpr.get());
- }
- if (ObjCMethodDecl *OMD = dyn_cast<ObjCMethodDecl>(PMDecl)) {
- Selector SetterSel =
- SelectorTable::constructSetterSelector(S.PP.getIdentifierTable(),
- S.PP.getSelectorTable(),
- Member);
- ObjCMethodDecl *SMD = nullptr;
- if (Decl *SDecl = FindGetterSetterNameDecl(OPT,
- /*Property id*/ nullptr,
- SetterSel, S.Context))
- SMD = dyn_cast<ObjCMethodDecl>(SDecl);
- return new (S.Context)
- ObjCPropertyRefExpr(OMD, SMD, S.Context.PseudoObjectTy, VK_LValue,
- OK_ObjCProperty, MemberLoc, BaseExpr.get());
- }
- }
- // Use of id.member can only be for a property reference. Do not
- // use the 'id' redefinition in this case.
- if (IsArrow && ShouldTryAgainWithRedefinitionType(S, BaseExpr))
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- return ExprError(S.Diag(MemberLoc, diag::err_property_not_found)
- << MemberName << BaseType);
- }
- // 'Class', unqualified only.
- if (OT->isObjCClass()) {
- // Only works in a method declaration (??!).
- ObjCMethodDecl *MD = S.getCurMethodDecl();
- if (!MD) {
- if (ShouldTryAgainWithRedefinitionType(S, BaseExpr))
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- goto fail;
- }
- // Also must look for a getter name which uses property syntax.
- Selector Sel = S.PP.getSelectorTable().getNullarySelector(Member);
- ObjCInterfaceDecl *IFace = MD->getClassInterface();
- if (!IFace)
- goto fail;
- ObjCMethodDecl *Getter;
- if ((Getter = IFace->lookupClassMethod(Sel))) {
- // Check the use of this method.
- if (S.DiagnoseUseOfDecl(Getter, MemberLoc))
- return ExprError();
- } else
- Getter = IFace->lookupPrivateMethod(Sel, false);
- // If we found a getter then this may be a valid dot-reference, we
- // will look for the matching setter, in case it is needed.
- Selector SetterSel =
- SelectorTable::constructSetterSelector(S.PP.getIdentifierTable(),
- S.PP.getSelectorTable(),
- Member);
- ObjCMethodDecl *Setter = IFace->lookupClassMethod(SetterSel);
- if (!Setter) {
- // If this reference is in an @implementation, also check for 'private'
- // methods.
- Setter = IFace->lookupPrivateMethod(SetterSel, false);
- }
- if (Setter && S.DiagnoseUseOfDecl(Setter, MemberLoc))
- return ExprError();
- if (Getter || Setter) {
- return new (S.Context) ObjCPropertyRefExpr(
- Getter, Setter, S.Context.PseudoObjectTy, VK_LValue,
- OK_ObjCProperty, MemberLoc, BaseExpr.get());
- }
- if (ShouldTryAgainWithRedefinitionType(S, BaseExpr))
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- return ExprError(S.Diag(MemberLoc, diag::err_property_not_found)
- << MemberName << BaseType);
- }
- // Normal property access.
- return S.HandleExprPropertyRefExpr(OPT, BaseExpr.get(), OpLoc, MemberName,
- MemberLoc, SourceLocation(), QualType(),
- false);
- }
- if (BaseType->isExtVectorBoolType()) {
- // We disallow element access for ext_vector_type bool. There is no way to
- // materialize a reference to a vector element as a pointer (each element is
- // one bit in the vector).
- S.Diag(R.getNameLoc(), diag::err_ext_vector_component_name_illegal)
- << MemberName
- << (BaseExpr.get() ? BaseExpr.get()->getSourceRange() : SourceRange());
- return ExprError();
- }
- // Handle 'field access' to vectors, such as 'V.xx'.
- if (BaseType->isExtVectorType()) {
- // FIXME: this expr should store IsArrow.
- IdentifierInfo *Member = MemberName.getAsIdentifierInfo();
- ExprValueKind VK = (IsArrow ? VK_LValue : BaseExpr.get()->getValueKind());
- QualType ret = CheckExtVectorComponent(S, BaseType, VK, OpLoc,
- Member, MemberLoc);
- if (ret.isNull())
- return ExprError();
- Qualifiers BaseQ =
- S.Context.getCanonicalType(BaseExpr.get()->getType()).getQualifiers();
- ret = S.Context.getQualifiedType(ret, BaseQ);
- return new (S.Context)
- ExtVectorElementExpr(ret, VK, BaseExpr.get(), *Member, MemberLoc);
- }
- // Adjust builtin-sel to the appropriate redefinition type if that's
- // not just a pointer to builtin-sel again.
- if (IsArrow && BaseType->isSpecificBuiltinType(BuiltinType::ObjCSel) &&
- !S.Context.getObjCSelRedefinitionType()->isObjCSelType()) {
- BaseExpr = S.ImpCastExprToType(
- BaseExpr.get(), S.Context.getObjCSelRedefinitionType(), CK_BitCast);
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- }
- // Failure cases.
- fail:
- // Recover from dot accesses to pointers, e.g.:
- // type *foo;
- // foo.bar
- // This is actually well-formed in two cases:
- // - 'type' is an Objective C type
- // - 'bar' is a pseudo-destructor name which happens to refer to
- // the appropriate pointer type
- if (const PointerType *Ptr = BaseType->getAs<PointerType>()) {
- if (!IsArrow && Ptr->getPointeeType()->isRecordType() &&
- MemberName.getNameKind() != DeclarationName::CXXDestructorName) {
- S.Diag(OpLoc, diag::err_typecheck_member_reference_suggestion)
- << BaseType << int(IsArrow) << BaseExpr.get()->getSourceRange()
- << FixItHint::CreateReplacement(OpLoc, "->");
- if (S.isSFINAEContext())
- return ExprError();
- // Recurse as an -> access.
- IsArrow = true;
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- }
- }
- // If the user is trying to apply -> or . to a function name, it's probably
- // because they forgot parentheses to call that function.
- if (S.tryToRecoverWithCall(
- BaseExpr, S.PDiag(diag::err_member_reference_needs_call),
- /*complain*/ false,
- IsArrow ? &isPointerToRecordType : &isRecordType)) {
- if (BaseExpr.isInvalid())
- return ExprError();
- BaseExpr = S.DefaultFunctionArrayConversion(BaseExpr.get());
- return LookupMemberExpr(S, R, BaseExpr, IsArrow, OpLoc, SS,
- ObjCImpDecl, HasTemplateArgs, TemplateKWLoc);
- }
- S.Diag(OpLoc, diag::err_typecheck_member_reference_struct_union)
- << BaseType << BaseExpr.get()->getSourceRange() << MemberLoc;
- return ExprError();
- }
- /// The main callback when the parser finds something like
- /// expression . [nested-name-specifier] identifier
- /// expression -> [nested-name-specifier] identifier
- /// where 'identifier' encompasses a fairly broad spectrum of
- /// possibilities, including destructor and operator references.
- ///
- /// \param OpKind either tok::arrow or tok::period
- /// \param ObjCImpDecl the current Objective-C \@implementation
- /// decl; this is an ugly hack around the fact that Objective-C
- /// \@implementations aren't properly put in the context chain
- ExprResult Sema::ActOnMemberAccessExpr(Scope *S, Expr *Base,
- SourceLocation OpLoc,
- tok::TokenKind OpKind,
- CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- UnqualifiedId &Id,
- Decl *ObjCImpDecl) {
- if (SS.isSet() && SS.isInvalid())
- return ExprError();
- // Warn about the explicit constructor calls Microsoft extension.
- if (getLangOpts().MicrosoftExt &&
- Id.getKind() == UnqualifiedIdKind::IK_ConstructorName)
- Diag(Id.getSourceRange().getBegin(),
- diag::ext_ms_explicit_constructor_call);
- TemplateArgumentListInfo TemplateArgsBuffer;
- // Decompose the name into its component parts.
- DeclarationNameInfo NameInfo;
- const TemplateArgumentListInfo *TemplateArgs;
- DecomposeUnqualifiedId(Id, TemplateArgsBuffer,
- NameInfo, TemplateArgs);
- DeclarationName Name = NameInfo.getName();
- bool IsArrow = (OpKind == tok::arrow);
- if (getLangOpts().HLSL && IsArrow)
- return ExprError(Diag(OpLoc, diag::err_hlsl_operator_unsupported) << 2);
- NamedDecl *FirstQualifierInScope
- = (!SS.isSet() ? nullptr : FindFirstQualifierInScope(S, SS.getScopeRep()));
- // This is a postfix expression, so get rid of ParenListExprs.
- ExprResult Result = MaybeConvertParenListExprToParenExpr(S, Base);
- if (Result.isInvalid()) return ExprError();
- Base = Result.get();
- if (Base->getType()->isDependentType() || Name.isDependentName() ||
- isDependentScopeSpecifier(SS)) {
- return ActOnDependentMemberExpr(Base, Base->getType(), IsArrow, OpLoc, SS,
- TemplateKWLoc, FirstQualifierInScope,
- NameInfo, TemplateArgs);
- }
- ActOnMemberAccessExtraArgs ExtraArgs = {S, Id, ObjCImpDecl};
- ExprResult Res = BuildMemberReferenceExpr(
- Base, Base->getType(), OpLoc, IsArrow, SS, TemplateKWLoc,
- FirstQualifierInScope, NameInfo, TemplateArgs, S, &ExtraArgs);
- if (!Res.isInvalid() && isa<MemberExpr>(Res.get()))
- CheckMemberAccessOfNoDeref(cast<MemberExpr>(Res.get()));
- return Res;
- }
- void Sema::CheckMemberAccessOfNoDeref(const MemberExpr *E) {
- if (isUnevaluatedContext())
- return;
- QualType ResultTy = E->getType();
- // Member accesses have four cases:
- // 1: non-array member via "->": dereferences
- // 2: non-array member via ".": nothing interesting happens
- // 3: array member access via "->": nothing interesting happens
- // (this returns an array lvalue and does not actually dereference memory)
- // 4: array member access via ".": *adds* a layer of indirection
- if (ResultTy->isArrayType()) {
- if (!E->isArrow()) {
- // This might be something like:
- // (*structPtr).arrayMember
- // which behaves roughly like:
- // &(*structPtr).pointerMember
- // in that the apparent dereference in the base expression does not
- // actually happen.
- CheckAddressOfNoDeref(E->getBase());
- }
- } else if (E->isArrow()) {
- if (const auto *Ptr = dyn_cast<PointerType>(
- E->getBase()->getType().getDesugaredType(Context))) {
- if (Ptr->getPointeeType()->hasAttr(attr::NoDeref))
- ExprEvalContexts.back().PossibleDerefs.insert(E);
- }
- }
- }
- ExprResult
- Sema::BuildFieldReferenceExpr(Expr *BaseExpr, bool IsArrow,
- SourceLocation OpLoc, const CXXScopeSpec &SS,
- FieldDecl *Field, DeclAccessPair FoundDecl,
- const DeclarationNameInfo &MemberNameInfo) {
- // x.a is an l-value if 'a' has a reference type. Otherwise:
- // x.a is an l-value/x-value/pr-value if the base is (and note
- // that *x is always an l-value), except that if the base isn't
- // an ordinary object then we must have an rvalue.
- ExprValueKind VK = VK_LValue;
- ExprObjectKind OK = OK_Ordinary;
- if (!IsArrow) {
- if (BaseExpr->getObjectKind() == OK_Ordinary)
- VK = BaseExpr->getValueKind();
- else
- VK = VK_PRValue;
- }
- if (VK != VK_PRValue && Field->isBitField())
- OK = OK_BitField;
- // Figure out the type of the member; see C99 6.5.2.3p3, C++ [expr.ref]
- QualType MemberType = Field->getType();
- if (const ReferenceType *Ref = MemberType->getAs<ReferenceType>()) {
- MemberType = Ref->getPointeeType();
- VK = VK_LValue;
- } else {
- QualType BaseType = BaseExpr->getType();
- if (IsArrow) BaseType = BaseType->castAs<PointerType>()->getPointeeType();
- Qualifiers BaseQuals = BaseType.getQualifiers();
- // GC attributes are never picked up by members.
- BaseQuals.removeObjCGCAttr();
- // CVR attributes from the base are picked up by members,
- // except that 'mutable' members don't pick up 'const'.
- if (Field->isMutable()) BaseQuals.removeConst();
- Qualifiers MemberQuals =
- Context.getCanonicalType(MemberType).getQualifiers();
- assert(!MemberQuals.hasAddressSpace());
- Qualifiers Combined = BaseQuals + MemberQuals;
- if (Combined != MemberQuals)
- MemberType = Context.getQualifiedType(MemberType, Combined);
- // Pick up NoDeref from the base in case we end up using AddrOf on the
- // result. E.g. the expression
- // &someNoDerefPtr->pointerMember
- // should be a noderef pointer again.
- if (BaseType->hasAttr(attr::NoDeref))
- MemberType =
- Context.getAttributedType(attr::NoDeref, MemberType, MemberType);
- }
- auto *CurMethod = dyn_cast<CXXMethodDecl>(CurContext);
- if (!(CurMethod && CurMethod->isDefaulted()))
- UnusedPrivateFields.remove(Field);
- ExprResult Base = PerformObjectMemberConversion(BaseExpr, SS.getScopeRep(),
- FoundDecl, Field);
- if (Base.isInvalid())
- return ExprError();
- // Build a reference to a private copy for non-static data members in
- // non-static member functions, privatized by OpenMP constructs.
- if (getLangOpts().OpenMP && IsArrow &&
- !CurContext->isDependentContext() &&
- isa<CXXThisExpr>(Base.get()->IgnoreParenImpCasts())) {
- if (auto *PrivateCopy = isOpenMPCapturedDecl(Field)) {
- return getOpenMPCapturedExpr(PrivateCopy, VK, OK,
- MemberNameInfo.getLoc());
- }
- }
- return BuildMemberExpr(Base.get(), IsArrow, OpLoc, &SS,
- /*TemplateKWLoc=*/SourceLocation(), Field, FoundDecl,
- /*HadMultipleCandidates=*/false, MemberNameInfo,
- MemberType, VK, OK);
- }
- /// Builds an implicit member access expression. The current context
- /// is known to be an instance method, and the given unqualified lookup
- /// set is known to contain only instance members, at least one of which
- /// is from an appropriate type.
- ExprResult
- Sema::BuildImplicitMemberExpr(const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- LookupResult &R,
- const TemplateArgumentListInfo *TemplateArgs,
- bool IsKnownInstance, const Scope *S) {
- assert(!R.empty() && !R.isAmbiguous());
- SourceLocation loc = R.getNameLoc();
- // If this is known to be an instance access, go ahead and build an
- // implicit 'this' expression now.
- QualType ThisTy = getCurrentThisType();
- assert(!ThisTy.isNull() && "didn't correctly pre-flight capture of 'this'");
- Expr *baseExpr = nullptr; // null signifies implicit access
- if (IsKnownInstance) {
- SourceLocation Loc = R.getNameLoc();
- if (SS.getRange().isValid())
- Loc = SS.getRange().getBegin();
- baseExpr = BuildCXXThisExpr(loc, ThisTy, /*IsImplicit=*/true);
- if (getLangOpts().HLSL && ThisTy.getTypePtr()->isPointerType()) {
- ThisTy = ThisTy.getTypePtr()->getPointeeType();
- return BuildMemberReferenceExpr(baseExpr, ThisTy,
- /*OpLoc*/ SourceLocation(),
- /*IsArrow*/ false, SS, TemplateKWLoc,
- /*FirstQualifierInScope*/ nullptr, R,
- TemplateArgs, S);
- }
- }
- return BuildMemberReferenceExpr(baseExpr, ThisTy,
- /*OpLoc*/ SourceLocation(),
- /*IsArrow*/ true,
- SS, TemplateKWLoc,
- /*FirstQualifierInScope*/ nullptr,
- R, TemplateArgs, S);
- }
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