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- //===------ SemaDeclCXX.cpp - Semantic Analysis for C++ Declarations ------===//
- //
- // 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 for C++ declarations.
- //
- //===----------------------------------------------------------------------===//
- #include "clang/AST/ASTConsumer.h"
- #include "clang/AST/ASTContext.h"
- #include "clang/AST/ASTLambda.h"
- #include "clang/AST/ASTMutationListener.h"
- #include "clang/AST/CXXInheritance.h"
- #include "clang/AST/CharUnits.h"
- #include "clang/AST/ComparisonCategories.h"
- #include "clang/AST/DeclCXX.h"
- #include "clang/AST/DeclTemplate.h"
- #include "clang/AST/EvaluatedExprVisitor.h"
- #include "clang/AST/ExprCXX.h"
- #include "clang/AST/RecordLayout.h"
- #include "clang/AST/RecursiveASTVisitor.h"
- #include "clang/AST/StmtVisitor.h"
- #include "clang/AST/TypeLoc.h"
- #include "clang/AST/TypeOrdering.h"
- #include "clang/Basic/AttributeCommonInfo.h"
- #include "clang/Basic/PartialDiagnostic.h"
- #include "clang/Basic/Specifiers.h"
- #include "clang/Basic/TargetInfo.h"
- #include "clang/Lex/LiteralSupport.h"
- #include "clang/Lex/Preprocessor.h"
- #include "clang/Sema/CXXFieldCollector.h"
- #include "clang/Sema/DeclSpec.h"
- #include "clang/Sema/Initialization.h"
- #include "clang/Sema/Lookup.h"
- #include "clang/Sema/ParsedTemplate.h"
- #include "clang/Sema/Scope.h"
- #include "clang/Sema/ScopeInfo.h"
- #include "clang/Sema/SemaInternal.h"
- #include "clang/Sema/Template.h"
- #include "llvm/ADT/ScopeExit.h"
- #include "llvm/ADT/SmallString.h"
- #include "llvm/ADT/STLExtras.h"
- #include "llvm/ADT/StringExtras.h"
- #include <map>
- #include <optional>
- #include <set>
- using namespace clang;
- //===----------------------------------------------------------------------===//
- // CheckDefaultArgumentVisitor
- //===----------------------------------------------------------------------===//
- namespace {
- /// CheckDefaultArgumentVisitor - C++ [dcl.fct.default] Traverses
- /// the default argument of a parameter to determine whether it
- /// contains any ill-formed subexpressions. For example, this will
- /// diagnose the use of local variables or parameters within the
- /// default argument expression.
- class CheckDefaultArgumentVisitor
- : public ConstStmtVisitor<CheckDefaultArgumentVisitor, bool> {
- Sema &S;
- const Expr *DefaultArg;
- public:
- CheckDefaultArgumentVisitor(Sema &S, const Expr *DefaultArg)
- : S(S), DefaultArg(DefaultArg) {}
- bool VisitExpr(const Expr *Node);
- bool VisitDeclRefExpr(const DeclRefExpr *DRE);
- bool VisitCXXThisExpr(const CXXThisExpr *ThisE);
- bool VisitLambdaExpr(const LambdaExpr *Lambda);
- bool VisitPseudoObjectExpr(const PseudoObjectExpr *POE);
- };
- /// VisitExpr - Visit all of the children of this expression.
- bool CheckDefaultArgumentVisitor::VisitExpr(const Expr *Node) {
- bool IsInvalid = false;
- for (const Stmt *SubStmt : Node->children())
- IsInvalid |= Visit(SubStmt);
- return IsInvalid;
- }
- /// VisitDeclRefExpr - Visit a reference to a declaration, to
- /// determine whether this declaration can be used in the default
- /// argument expression.
- bool CheckDefaultArgumentVisitor::VisitDeclRefExpr(const DeclRefExpr *DRE) {
- const ValueDecl *Decl = dyn_cast<ValueDecl>(DRE->getDecl());
- if (!isa<VarDecl, BindingDecl>(Decl))
- return false;
- if (const auto *Param = dyn_cast<ParmVarDecl>(Decl)) {
- // C++ [dcl.fct.default]p9:
- // [...] parameters of a function shall not be used in default
- // argument expressions, even if they are not evaluated. [...]
- //
- // C++17 [dcl.fct.default]p9 (by CWG 2082):
- // [...] A parameter shall not appear as a potentially-evaluated
- // expression in a default argument. [...]
- //
- if (DRE->isNonOdrUse() != NOUR_Unevaluated)
- return S.Diag(DRE->getBeginLoc(),
- diag::err_param_default_argument_references_param)
- << Param->getDeclName() << DefaultArg->getSourceRange();
- } else if (auto *VD = Decl->getPotentiallyDecomposedVarDecl()) {
- // C++ [dcl.fct.default]p7:
- // Local variables shall not be used in default argument
- // expressions.
- //
- // C++17 [dcl.fct.default]p7 (by CWG 2082):
- // A local variable shall not appear as a potentially-evaluated
- // expression in a default argument.
- //
- // C++20 [dcl.fct.default]p7 (DR as part of P0588R1, see also CWG 2346):
- // Note: A local variable cannot be odr-used (6.3) in a default
- // argument.
- //
- if (VD->isLocalVarDecl() && !DRE->isNonOdrUse())
- return S.Diag(DRE->getBeginLoc(),
- diag::err_param_default_argument_references_local)
- << Decl << DefaultArg->getSourceRange();
- }
- return false;
- }
- /// VisitCXXThisExpr - Visit a C++ "this" expression.
- bool CheckDefaultArgumentVisitor::VisitCXXThisExpr(const CXXThisExpr *ThisE) {
- // C++ [dcl.fct.default]p8:
- // The keyword this shall not be used in a default argument of a
- // member function.
- return S.Diag(ThisE->getBeginLoc(),
- diag::err_param_default_argument_references_this)
- << ThisE->getSourceRange();
- }
- bool CheckDefaultArgumentVisitor::VisitPseudoObjectExpr(
- const PseudoObjectExpr *POE) {
- bool Invalid = false;
- for (const Expr *E : POE->semantics()) {
- // Look through bindings.
- if (const auto *OVE = dyn_cast<OpaqueValueExpr>(E)) {
- E = OVE->getSourceExpr();
- assert(E && "pseudo-object binding without source expression?");
- }
- Invalid |= Visit(E);
- }
- return Invalid;
- }
- bool CheckDefaultArgumentVisitor::VisitLambdaExpr(const LambdaExpr *Lambda) {
- // [expr.prim.lambda.capture]p9
- // a lambda-expression appearing in a default argument cannot implicitly or
- // explicitly capture any local entity. Such a lambda-expression can still
- // have an init-capture if any full-expression in its initializer satisfies
- // the constraints of an expression appearing in a default argument.
- bool Invalid = false;
- for (const LambdaCapture &LC : Lambda->captures()) {
- if (!Lambda->isInitCapture(&LC))
- return S.Diag(LC.getLocation(), diag::err_lambda_capture_default_arg);
- // Init captures are always VarDecl.
- auto *D = cast<VarDecl>(LC.getCapturedVar());
- Invalid |= Visit(D->getInit());
- }
- return Invalid;
- }
- } // namespace
- void
- Sema::ImplicitExceptionSpecification::CalledDecl(SourceLocation CallLoc,
- const CXXMethodDecl *Method) {
- // If we have an MSAny spec already, don't bother.
- if (!Method || ComputedEST == EST_MSAny)
- return;
- const FunctionProtoType *Proto
- = Method->getType()->getAs<FunctionProtoType>();
- Proto = Self->ResolveExceptionSpec(CallLoc, Proto);
- if (!Proto)
- return;
- ExceptionSpecificationType EST = Proto->getExceptionSpecType();
- // If we have a throw-all spec at this point, ignore the function.
- if (ComputedEST == EST_None)
- return;
- if (EST == EST_None && Method->hasAttr<NoThrowAttr>())
- EST = EST_BasicNoexcept;
- switch (EST) {
- case EST_Unparsed:
- case EST_Uninstantiated:
- case EST_Unevaluated:
- llvm_unreachable("should not see unresolved exception specs here");
- // If this function can throw any exceptions, make a note of that.
- case EST_MSAny:
- case EST_None:
- // FIXME: Whichever we see last of MSAny and None determines our result.
- // We should make a consistent, order-independent choice here.
- ClearExceptions();
- ComputedEST = EST;
- return;
- case EST_NoexceptFalse:
- ClearExceptions();
- ComputedEST = EST_None;
- return;
- // FIXME: If the call to this decl is using any of its default arguments, we
- // need to search them for potentially-throwing calls.
- // If this function has a basic noexcept, it doesn't affect the outcome.
- case EST_BasicNoexcept:
- case EST_NoexceptTrue:
- case EST_NoThrow:
- return;
- // If we're still at noexcept(true) and there's a throw() callee,
- // change to that specification.
- case EST_DynamicNone:
- if (ComputedEST == EST_BasicNoexcept)
- ComputedEST = EST_DynamicNone;
- return;
- case EST_DependentNoexcept:
- llvm_unreachable(
- "should not generate implicit declarations for dependent cases");
- case EST_Dynamic:
- break;
- }
- assert(EST == EST_Dynamic && "EST case not considered earlier.");
- assert(ComputedEST != EST_None &&
- "Shouldn't collect exceptions when throw-all is guaranteed.");
- ComputedEST = EST_Dynamic;
- // Record the exceptions in this function's exception specification.
- for (const auto &E : Proto->exceptions())
- if (ExceptionsSeen.insert(Self->Context.getCanonicalType(E)).second)
- Exceptions.push_back(E);
- }
- void Sema::ImplicitExceptionSpecification::CalledStmt(Stmt *S) {
- if (!S || ComputedEST == EST_MSAny)
- return;
- // FIXME:
- //
- // C++0x [except.spec]p14:
- // [An] implicit exception-specification specifies the type-id T if and
- // only if T is allowed by the exception-specification of a function directly
- // invoked by f's implicit definition; f shall allow all exceptions if any
- // function it directly invokes allows all exceptions, and f shall allow no
- // exceptions if every function it directly invokes allows no exceptions.
- //
- // Note in particular that if an implicit exception-specification is generated
- // for a function containing a throw-expression, that specification can still
- // be noexcept(true).
- //
- // Note also that 'directly invoked' is not defined in the standard, and there
- // is no indication that we should only consider potentially-evaluated calls.
- //
- // Ultimately we should implement the intent of the standard: the exception
- // specification should be the set of exceptions which can be thrown by the
- // implicit definition. For now, we assume that any non-nothrow expression can
- // throw any exception.
- if (Self->canThrow(S))
- ComputedEST = EST_None;
- }
- ExprResult Sema::ConvertParamDefaultArgument(ParmVarDecl *Param, Expr *Arg,
- SourceLocation EqualLoc) {
- if (RequireCompleteType(Param->getLocation(), Param->getType(),
- diag::err_typecheck_decl_incomplete_type))
- return true;
- // C++ [dcl.fct.default]p5
- // A default argument expression is implicitly converted (clause
- // 4) to the parameter type. The default argument expression has
- // the same semantic constraints as the initializer expression in
- // a declaration of a variable of the parameter type, using the
- // copy-initialization semantics (8.5).
- InitializedEntity Entity = InitializedEntity::InitializeParameter(Context,
- Param);
- InitializationKind Kind = InitializationKind::CreateCopy(Param->getLocation(),
- EqualLoc);
- InitializationSequence InitSeq(*this, Entity, Kind, Arg);
- ExprResult Result = InitSeq.Perform(*this, Entity, Kind, Arg);
- if (Result.isInvalid())
- return true;
- Arg = Result.getAs<Expr>();
- CheckCompletedExpr(Arg, EqualLoc);
- Arg = MaybeCreateExprWithCleanups(Arg);
- return Arg;
- }
- void Sema::SetParamDefaultArgument(ParmVarDecl *Param, Expr *Arg,
- SourceLocation EqualLoc) {
- // Add the default argument to the parameter
- Param->setDefaultArg(Arg);
- // We have already instantiated this parameter; provide each of the
- // instantiations with the uninstantiated default argument.
- UnparsedDefaultArgInstantiationsMap::iterator InstPos
- = UnparsedDefaultArgInstantiations.find(Param);
- if (InstPos != UnparsedDefaultArgInstantiations.end()) {
- for (unsigned I = 0, N = InstPos->second.size(); I != N; ++I)
- InstPos->second[I]->setUninstantiatedDefaultArg(Arg);
- // We're done tracking this parameter's instantiations.
- UnparsedDefaultArgInstantiations.erase(InstPos);
- }
- }
- /// ActOnParamDefaultArgument - Check whether the default argument
- /// provided for a function parameter is well-formed. If so, attach it
- /// to the parameter declaration.
- void
- Sema::ActOnParamDefaultArgument(Decl *param, SourceLocation EqualLoc,
- Expr *DefaultArg) {
- if (!param || !DefaultArg)
- return;
- ParmVarDecl *Param = cast<ParmVarDecl>(param);
- UnparsedDefaultArgLocs.erase(Param);
- auto Fail = [&] {
- Param->setInvalidDecl();
- Param->setDefaultArg(new (Context) OpaqueValueExpr(
- EqualLoc, Param->getType().getNonReferenceType(), VK_PRValue));
- };
- // Default arguments are only permitted in C++
- if (!getLangOpts().CPlusPlus) {
- Diag(EqualLoc, diag::err_param_default_argument)
- << DefaultArg->getSourceRange();
- return Fail();
- }
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(DefaultArg, UPPC_DefaultArgument)) {
- return Fail();
- }
- // C++11 [dcl.fct.default]p3
- // A default argument expression [...] shall not be specified for a
- // parameter pack.
- if (Param->isParameterPack()) {
- Diag(EqualLoc, diag::err_param_default_argument_on_parameter_pack)
- << DefaultArg->getSourceRange();
- // Recover by discarding the default argument.
- Param->setDefaultArg(nullptr);
- return;
- }
- ExprResult Result = ConvertParamDefaultArgument(Param, DefaultArg, EqualLoc);
- if (Result.isInvalid())
- return Fail();
- DefaultArg = Result.getAs<Expr>();
- // Check that the default argument is well-formed
- CheckDefaultArgumentVisitor DefaultArgChecker(*this, DefaultArg);
- if (DefaultArgChecker.Visit(DefaultArg))
- return Fail();
- SetParamDefaultArgument(Param, DefaultArg, EqualLoc);
- }
- /// ActOnParamUnparsedDefaultArgument - We've seen a default
- /// argument for a function parameter, but we can't parse it yet
- /// because we're inside a class definition. Note that this default
- /// argument will be parsed later.
- void Sema::ActOnParamUnparsedDefaultArgument(Decl *param,
- SourceLocation EqualLoc,
- SourceLocation ArgLoc) {
- if (!param)
- return;
- ParmVarDecl *Param = cast<ParmVarDecl>(param);
- Param->setUnparsedDefaultArg();
- UnparsedDefaultArgLocs[Param] = ArgLoc;
- }
- /// ActOnParamDefaultArgumentError - Parsing or semantic analysis of
- /// the default argument for the parameter param failed.
- void Sema::ActOnParamDefaultArgumentError(Decl *param,
- SourceLocation EqualLoc) {
- if (!param)
- return;
- ParmVarDecl *Param = cast<ParmVarDecl>(param);
- Param->setInvalidDecl();
- UnparsedDefaultArgLocs.erase(Param);
- Param->setDefaultArg(new (Context) OpaqueValueExpr(
- EqualLoc, Param->getType().getNonReferenceType(), VK_PRValue));
- }
- /// CheckExtraCXXDefaultArguments - Check for any extra default
- /// arguments in the declarator, which is not a function declaration
- /// or definition and therefore is not permitted to have default
- /// arguments. This routine should be invoked for every declarator
- /// that is not a function declaration or definition.
- void Sema::CheckExtraCXXDefaultArguments(Declarator &D) {
- // C++ [dcl.fct.default]p3
- // A default argument expression shall be specified only in the
- // parameter-declaration-clause of a function declaration or in a
- // template-parameter (14.1). It shall not be specified for a
- // parameter pack. If it is specified in a
- // parameter-declaration-clause, it shall not occur within a
- // declarator or abstract-declarator of a parameter-declaration.
- bool MightBeFunction = D.isFunctionDeclarationContext();
- for (unsigned i = 0, e = D.getNumTypeObjects(); i != e; ++i) {
- DeclaratorChunk &chunk = D.getTypeObject(i);
- if (chunk.Kind == DeclaratorChunk::Function) {
- if (MightBeFunction) {
- // This is a function declaration. It can have default arguments, but
- // keep looking in case its return type is a function type with default
- // arguments.
- MightBeFunction = false;
- continue;
- }
- for (unsigned argIdx = 0, e = chunk.Fun.NumParams; argIdx != e;
- ++argIdx) {
- ParmVarDecl *Param = cast<ParmVarDecl>(chunk.Fun.Params[argIdx].Param);
- if (Param->hasUnparsedDefaultArg()) {
- std::unique_ptr<CachedTokens> Toks =
- std::move(chunk.Fun.Params[argIdx].DefaultArgTokens);
- SourceRange SR;
- if (Toks->size() > 1)
- SR = SourceRange((*Toks)[1].getLocation(),
- Toks->back().getLocation());
- else
- SR = UnparsedDefaultArgLocs[Param];
- Diag(Param->getLocation(), diag::err_param_default_argument_nonfunc)
- << SR;
- } else if (Param->getDefaultArg()) {
- Diag(Param->getLocation(), diag::err_param_default_argument_nonfunc)
- << Param->getDefaultArg()->getSourceRange();
- Param->setDefaultArg(nullptr);
- }
- }
- } else if (chunk.Kind != DeclaratorChunk::Paren) {
- MightBeFunction = false;
- }
- }
- }
- static bool functionDeclHasDefaultArgument(const FunctionDecl *FD) {
- return llvm::any_of(FD->parameters(), [](ParmVarDecl *P) {
- return P->hasDefaultArg() && !P->hasInheritedDefaultArg();
- });
- }
- /// MergeCXXFunctionDecl - Merge two declarations of the same C++
- /// function, once we already know that they have the same
- /// type. Subroutine of MergeFunctionDecl. Returns true if there was an
- /// error, false otherwise.
- bool Sema::MergeCXXFunctionDecl(FunctionDecl *New, FunctionDecl *Old,
- Scope *S) {
- bool Invalid = false;
- // The declaration context corresponding to the scope is the semantic
- // parent, unless this is a local function declaration, in which case
- // it is that surrounding function.
- DeclContext *ScopeDC = New->isLocalExternDecl()
- ? New->getLexicalDeclContext()
- : New->getDeclContext();
- // Find the previous declaration for the purpose of default arguments.
- FunctionDecl *PrevForDefaultArgs = Old;
- for (/**/; PrevForDefaultArgs;
- // Don't bother looking back past the latest decl if this is a local
- // extern declaration; nothing else could work.
- PrevForDefaultArgs = New->isLocalExternDecl()
- ? nullptr
- : PrevForDefaultArgs->getPreviousDecl()) {
- // Ignore hidden declarations.
- if (!LookupResult::isVisible(*this, PrevForDefaultArgs))
- continue;
- if (S && !isDeclInScope(PrevForDefaultArgs, ScopeDC, S) &&
- !New->isCXXClassMember()) {
- // Ignore default arguments of old decl if they are not in
- // the same scope and this is not an out-of-line definition of
- // a member function.
- continue;
- }
- if (PrevForDefaultArgs->isLocalExternDecl() != New->isLocalExternDecl()) {
- // If only one of these is a local function declaration, then they are
- // declared in different scopes, even though isDeclInScope may think
- // they're in the same scope. (If both are local, the scope check is
- // sufficient, and if neither is local, then they are in the same scope.)
- continue;
- }
- // We found the right previous declaration.
- break;
- }
- // C++ [dcl.fct.default]p4:
- // For non-template functions, default arguments can be added in
- // later declarations of a function in the same
- // scope. Declarations in different scopes have completely
- // distinct sets of default arguments. That is, declarations in
- // inner scopes do not acquire default arguments from
- // declarations in outer scopes, and vice versa. In a given
- // function declaration, all parameters subsequent to a
- // parameter with a default argument shall have default
- // arguments supplied in this or previous declarations. A
- // default argument shall not be redefined by a later
- // declaration (not even to the same value).
- //
- // C++ [dcl.fct.default]p6:
- // Except for member functions of class templates, the default arguments
- // in a member function definition that appears outside of the class
- // definition are added to the set of default arguments provided by the
- // member function declaration in the class definition.
- for (unsigned p = 0, NumParams = PrevForDefaultArgs
- ? PrevForDefaultArgs->getNumParams()
- : 0;
- p < NumParams; ++p) {
- ParmVarDecl *OldParam = PrevForDefaultArgs->getParamDecl(p);
- ParmVarDecl *NewParam = New->getParamDecl(p);
- bool OldParamHasDfl = OldParam ? OldParam->hasDefaultArg() : false;
- bool NewParamHasDfl = NewParam->hasDefaultArg();
- if (OldParamHasDfl && NewParamHasDfl) {
- unsigned DiagDefaultParamID =
- diag::err_param_default_argument_redefinition;
- // MSVC accepts that default parameters be redefined for member functions
- // of template class. The new default parameter's value is ignored.
- Invalid = true;
- if (getLangOpts().MicrosoftExt) {
- CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(New);
- if (MD && MD->getParent()->getDescribedClassTemplate()) {
- // Merge the old default argument into the new parameter.
- NewParam->setHasInheritedDefaultArg();
- if (OldParam->hasUninstantiatedDefaultArg())
- NewParam->setUninstantiatedDefaultArg(
- OldParam->getUninstantiatedDefaultArg());
- else
- NewParam->setDefaultArg(OldParam->getInit());
- DiagDefaultParamID = diag::ext_param_default_argument_redefinition;
- Invalid = false;
- }
- }
- // FIXME: If we knew where the '=' was, we could easily provide a fix-it
- // hint here. Alternatively, we could walk the type-source information
- // for NewParam to find the last source location in the type... but it
- // isn't worth the effort right now. This is the kind of test case that
- // is hard to get right:
- // int f(int);
- // void g(int (*fp)(int) = f);
- // void g(int (*fp)(int) = &f);
- Diag(NewParam->getLocation(), DiagDefaultParamID)
- << NewParam->getDefaultArgRange();
- // Look for the function declaration where the default argument was
- // actually written, which may be a declaration prior to Old.
- for (auto Older = PrevForDefaultArgs;
- OldParam->hasInheritedDefaultArg(); /**/) {
- Older = Older->getPreviousDecl();
- OldParam = Older->getParamDecl(p);
- }
- Diag(OldParam->getLocation(), diag::note_previous_definition)
- << OldParam->getDefaultArgRange();
- } else if (OldParamHasDfl) {
- // Merge the old default argument into the new parameter unless the new
- // function is a friend declaration in a template class. In the latter
- // case the default arguments will be inherited when the friend
- // declaration will be instantiated.
- if (New->getFriendObjectKind() == Decl::FOK_None ||
- !New->getLexicalDeclContext()->isDependentContext()) {
- // It's important to use getInit() here; getDefaultArg()
- // strips off any top-level ExprWithCleanups.
- NewParam->setHasInheritedDefaultArg();
- if (OldParam->hasUnparsedDefaultArg())
- NewParam->setUnparsedDefaultArg();
- else if (OldParam->hasUninstantiatedDefaultArg())
- NewParam->setUninstantiatedDefaultArg(
- OldParam->getUninstantiatedDefaultArg());
- else
- NewParam->setDefaultArg(OldParam->getInit());
- }
- } else if (NewParamHasDfl) {
- if (New->getDescribedFunctionTemplate()) {
- // Paragraph 4, quoted above, only applies to non-template functions.
- Diag(NewParam->getLocation(),
- diag::err_param_default_argument_template_redecl)
- << NewParam->getDefaultArgRange();
- Diag(PrevForDefaultArgs->getLocation(),
- diag::note_template_prev_declaration)
- << false;
- } else if (New->getTemplateSpecializationKind()
- != TSK_ImplicitInstantiation &&
- New->getTemplateSpecializationKind() != TSK_Undeclared) {
- // C++ [temp.expr.spec]p21:
- // Default function arguments shall not be specified in a declaration
- // or a definition for one of the following explicit specializations:
- // - the explicit specialization of a function template;
- // - the explicit specialization of a member function template;
- // - the explicit specialization of a member function of a class
- // template where the class template specialization to which the
- // member function specialization belongs is implicitly
- // instantiated.
- Diag(NewParam->getLocation(), diag::err_template_spec_default_arg)
- << (New->getTemplateSpecializationKind() ==TSK_ExplicitSpecialization)
- << New->getDeclName()
- << NewParam->getDefaultArgRange();
- } else if (New->getDeclContext()->isDependentContext()) {
- // C++ [dcl.fct.default]p6 (DR217):
- // Default arguments for a member function of a class template shall
- // be specified on the initial declaration of the member function
- // within the class template.
- //
- // Reading the tea leaves a bit in DR217 and its reference to DR205
- // leads me to the conclusion that one cannot add default function
- // arguments for an out-of-line definition of a member function of a
- // dependent type.
- int WhichKind = 2;
- if (CXXRecordDecl *Record
- = dyn_cast<CXXRecordDecl>(New->getDeclContext())) {
- if (Record->getDescribedClassTemplate())
- WhichKind = 0;
- else if (isa<ClassTemplatePartialSpecializationDecl>(Record))
- WhichKind = 1;
- else
- WhichKind = 2;
- }
- Diag(NewParam->getLocation(),
- diag::err_param_default_argument_member_template_redecl)
- << WhichKind
- << NewParam->getDefaultArgRange();
- }
- }
- }
- // DR1344: If a default argument is added outside a class definition and that
- // default argument makes the function a special member function, the program
- // is ill-formed. This can only happen for constructors.
- if (isa<CXXConstructorDecl>(New) &&
- New->getMinRequiredArguments() < Old->getMinRequiredArguments()) {
- CXXSpecialMember NewSM = getSpecialMember(cast<CXXMethodDecl>(New)),
- OldSM = getSpecialMember(cast<CXXMethodDecl>(Old));
- if (NewSM != OldSM) {
- ParmVarDecl *NewParam = New->getParamDecl(New->getMinRequiredArguments());
- assert(NewParam->hasDefaultArg());
- Diag(NewParam->getLocation(), diag::err_default_arg_makes_ctor_special)
- << NewParam->getDefaultArgRange() << NewSM;
- Diag(Old->getLocation(), diag::note_previous_declaration);
- }
- }
- const FunctionDecl *Def;
- // C++11 [dcl.constexpr]p1: If any declaration of a function or function
- // template has a constexpr specifier then all its declarations shall
- // contain the constexpr specifier.
- if (New->getConstexprKind() != Old->getConstexprKind()) {
- Diag(New->getLocation(), diag::err_constexpr_redecl_mismatch)
- << New << static_cast<int>(New->getConstexprKind())
- << static_cast<int>(Old->getConstexprKind());
- Diag(Old->getLocation(), diag::note_previous_declaration);
- Invalid = true;
- } else if (!Old->getMostRecentDecl()->isInlined() && New->isInlined() &&
- Old->isDefined(Def) &&
- // If a friend function is inlined but does not have 'inline'
- // specifier, it is a definition. Do not report attribute conflict
- // in this case, redefinition will be diagnosed later.
- (New->isInlineSpecified() ||
- New->getFriendObjectKind() == Decl::FOK_None)) {
- // C++11 [dcl.fcn.spec]p4:
- // If the definition of a function appears in a translation unit before its
- // first declaration as inline, the program is ill-formed.
- Diag(New->getLocation(), diag::err_inline_decl_follows_def) << New;
- Diag(Def->getLocation(), diag::note_previous_definition);
- Invalid = true;
- }
- // C++17 [temp.deduct.guide]p3:
- // Two deduction guide declarations in the same translation unit
- // for the same class template shall not have equivalent
- // parameter-declaration-clauses.
- if (isa<CXXDeductionGuideDecl>(New) &&
- !New->isFunctionTemplateSpecialization() && isVisible(Old)) {
- Diag(New->getLocation(), diag::err_deduction_guide_redeclared);
- Diag(Old->getLocation(), diag::note_previous_declaration);
- }
- // C++11 [dcl.fct.default]p4: If a friend declaration specifies a default
- // argument expression, that declaration shall be a definition and shall be
- // the only declaration of the function or function template in the
- // translation unit.
- if (Old->getFriendObjectKind() == Decl::FOK_Undeclared &&
- functionDeclHasDefaultArgument(Old)) {
- Diag(New->getLocation(), diag::err_friend_decl_with_def_arg_redeclared);
- Diag(Old->getLocation(), diag::note_previous_declaration);
- Invalid = true;
- }
- // C++11 [temp.friend]p4 (DR329):
- // When a function is defined in a friend function declaration in a class
- // template, the function is instantiated when the function is odr-used.
- // The same restrictions on multiple declarations and definitions that
- // apply to non-template function declarations and definitions also apply
- // to these implicit definitions.
- const FunctionDecl *OldDefinition = nullptr;
- if (New->isThisDeclarationInstantiatedFromAFriendDefinition() &&
- Old->isDefined(OldDefinition, true))
- CheckForFunctionRedefinition(New, OldDefinition);
- return Invalid;
- }
- NamedDecl *
- Sema::ActOnDecompositionDeclarator(Scope *S, Declarator &D,
- MultiTemplateParamsArg TemplateParamLists) {
- assert(D.isDecompositionDeclarator());
- const DecompositionDeclarator &Decomp = D.getDecompositionDeclarator();
- // The syntax only allows a decomposition declarator as a simple-declaration,
- // a for-range-declaration, or a condition in Clang, but we parse it in more
- // cases than that.
- if (!D.mayHaveDecompositionDeclarator()) {
- Diag(Decomp.getLSquareLoc(), diag::err_decomp_decl_context)
- << Decomp.getSourceRange();
- return nullptr;
- }
- if (!TemplateParamLists.empty()) {
- // FIXME: There's no rule against this, but there are also no rules that
- // would actually make it usable, so we reject it for now.
- Diag(TemplateParamLists.front()->getTemplateLoc(),
- diag::err_decomp_decl_template);
- return nullptr;
- }
- Diag(Decomp.getLSquareLoc(),
- !getLangOpts().CPlusPlus17
- ? diag::ext_decomp_decl
- : D.getContext() == DeclaratorContext::Condition
- ? diag::ext_decomp_decl_cond
- : diag::warn_cxx14_compat_decomp_decl)
- << Decomp.getSourceRange();
- // The semantic context is always just the current context.
- DeclContext *const DC = CurContext;
- // C++17 [dcl.dcl]/8:
- // The decl-specifier-seq shall contain only the type-specifier auto
- // and cv-qualifiers.
- // C++20 [dcl.dcl]/8:
- // If decl-specifier-seq contains any decl-specifier other than static,
- // thread_local, auto, or cv-qualifiers, the program is ill-formed.
- // C++2b [dcl.pre]/6:
- // Each decl-specifier in the decl-specifier-seq shall be static,
- // thread_local, auto (9.2.9.6 [dcl.spec.auto]), or a cv-qualifier.
- auto &DS = D.getDeclSpec();
- {
- // Note: While constrained-auto needs to be checked, we do so separately so
- // we can emit a better diagnostic.
- SmallVector<StringRef, 8> BadSpecifiers;
- SmallVector<SourceLocation, 8> BadSpecifierLocs;
- SmallVector<StringRef, 8> CPlusPlus20Specifiers;
- SmallVector<SourceLocation, 8> CPlusPlus20SpecifierLocs;
- if (auto SCS = DS.getStorageClassSpec()) {
- if (SCS == DeclSpec::SCS_static) {
- CPlusPlus20Specifiers.push_back(DeclSpec::getSpecifierName(SCS));
- CPlusPlus20SpecifierLocs.push_back(DS.getStorageClassSpecLoc());
- } else {
- BadSpecifiers.push_back(DeclSpec::getSpecifierName(SCS));
- BadSpecifierLocs.push_back(DS.getStorageClassSpecLoc());
- }
- }
- if (auto TSCS = DS.getThreadStorageClassSpec()) {
- CPlusPlus20Specifiers.push_back(DeclSpec::getSpecifierName(TSCS));
- CPlusPlus20SpecifierLocs.push_back(DS.getThreadStorageClassSpecLoc());
- }
- if (DS.hasConstexprSpecifier()) {
- BadSpecifiers.push_back(
- DeclSpec::getSpecifierName(DS.getConstexprSpecifier()));
- BadSpecifierLocs.push_back(DS.getConstexprSpecLoc());
- }
- if (DS.isInlineSpecified()) {
- BadSpecifiers.push_back("inline");
- BadSpecifierLocs.push_back(DS.getInlineSpecLoc());
- }
- if (!BadSpecifiers.empty()) {
- auto &&Err = Diag(BadSpecifierLocs.front(), diag::err_decomp_decl_spec);
- Err << (int)BadSpecifiers.size()
- << llvm::join(BadSpecifiers.begin(), BadSpecifiers.end(), " ");
- // Don't add FixItHints to remove the specifiers; we do still respect
- // them when building the underlying variable.
- for (auto Loc : BadSpecifierLocs)
- Err << SourceRange(Loc, Loc);
- } else if (!CPlusPlus20Specifiers.empty()) {
- auto &&Warn = Diag(CPlusPlus20SpecifierLocs.front(),
- getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_decomp_decl_spec
- : diag::ext_decomp_decl_spec);
- Warn << (int)CPlusPlus20Specifiers.size()
- << llvm::join(CPlusPlus20Specifiers.begin(),
- CPlusPlus20Specifiers.end(), " ");
- for (auto Loc : CPlusPlus20SpecifierLocs)
- Warn << SourceRange(Loc, Loc);
- }
- // We can't recover from it being declared as a typedef.
- if (DS.getStorageClassSpec() == DeclSpec::SCS_typedef)
- return nullptr;
- }
- // C++2a [dcl.struct.bind]p1:
- // A cv that includes volatile is deprecated
- if ((DS.getTypeQualifiers() & DeclSpec::TQ_volatile) &&
- getLangOpts().CPlusPlus20)
- Diag(DS.getVolatileSpecLoc(),
- diag::warn_deprecated_volatile_structured_binding);
- TypeSourceInfo *TInfo = GetTypeForDeclarator(D, S);
- QualType R = TInfo->getType();
- if (DiagnoseUnexpandedParameterPack(D.getIdentifierLoc(), TInfo,
- UPPC_DeclarationType))
- D.setInvalidType();
- // The syntax only allows a single ref-qualifier prior to the decomposition
- // declarator. No other declarator chunks are permitted. Also check the type
- // specifier here.
- if (DS.getTypeSpecType() != DeclSpec::TST_auto ||
- D.hasGroupingParens() || D.getNumTypeObjects() > 1 ||
- (D.getNumTypeObjects() == 1 &&
- D.getTypeObject(0).Kind != DeclaratorChunk::Reference)) {
- Diag(Decomp.getLSquareLoc(),
- (D.hasGroupingParens() ||
- (D.getNumTypeObjects() &&
- D.getTypeObject(0).Kind == DeclaratorChunk::Paren))
- ? diag::err_decomp_decl_parens
- : diag::err_decomp_decl_type)
- << R;
- // In most cases, there's no actual problem with an explicitly-specified
- // type, but a function type won't work here, and ActOnVariableDeclarator
- // shouldn't be called for such a type.
- if (R->isFunctionType())
- D.setInvalidType();
- }
- // Constrained auto is prohibited by [decl.pre]p6, so check that here.
- if (DS.isConstrainedAuto()) {
- TemplateIdAnnotation *TemplRep = DS.getRepAsTemplateId();
- assert(TemplRep->Kind == TNK_Concept_template &&
- "No other template kind should be possible for a constrained auto");
- SourceRange TemplRange{TemplRep->TemplateNameLoc,
- TemplRep->RAngleLoc.isValid()
- ? TemplRep->RAngleLoc
- : TemplRep->TemplateNameLoc};
- Diag(TemplRep->TemplateNameLoc, diag::err_decomp_decl_constraint)
- << TemplRange << FixItHint::CreateRemoval(TemplRange);
- }
- // Build the BindingDecls.
- SmallVector<BindingDecl*, 8> Bindings;
- // Build the BindingDecls.
- for (auto &B : D.getDecompositionDeclarator().bindings()) {
- // Check for name conflicts.
- DeclarationNameInfo NameInfo(B.Name, B.NameLoc);
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName,
- ForVisibleRedeclaration);
- LookupName(Previous, S,
- /*CreateBuiltins*/DC->getRedeclContext()->isTranslationUnit());
- // It's not permitted to shadow a template parameter name.
- if (Previous.isSingleResult() &&
- Previous.getFoundDecl()->isTemplateParameter()) {
- DiagnoseTemplateParameterShadow(D.getIdentifierLoc(),
- Previous.getFoundDecl());
- Previous.clear();
- }
- auto *BD = BindingDecl::Create(Context, DC, B.NameLoc, B.Name);
- // Find the shadowed declaration before filtering for scope.
- NamedDecl *ShadowedDecl = D.getCXXScopeSpec().isEmpty()
- ? getShadowedDeclaration(BD, Previous)
- : nullptr;
- bool ConsiderLinkage = DC->isFunctionOrMethod() &&
- DS.getStorageClassSpec() == DeclSpec::SCS_extern;
- FilterLookupForScope(Previous, DC, S, ConsiderLinkage,
- /*AllowInlineNamespace*/false);
- if (!Previous.empty()) {
- auto *Old = Previous.getRepresentativeDecl();
- Diag(B.NameLoc, diag::err_redefinition) << B.Name;
- Diag(Old->getLocation(), diag::note_previous_definition);
- } else if (ShadowedDecl && !D.isRedeclaration()) {
- CheckShadow(BD, ShadowedDecl, Previous);
- }
- PushOnScopeChains(BD, S, true);
- Bindings.push_back(BD);
- ParsingInitForAutoVars.insert(BD);
- }
- // There are no prior lookup results for the variable itself, because it
- // is unnamed.
- DeclarationNameInfo NameInfo((IdentifierInfo *)nullptr,
- Decomp.getLSquareLoc());
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName,
- ForVisibleRedeclaration);
- // Build the variable that holds the non-decomposed object.
- bool AddToScope = true;
- NamedDecl *New =
- ActOnVariableDeclarator(S, D, DC, TInfo, Previous,
- MultiTemplateParamsArg(), AddToScope, Bindings);
- if (AddToScope) {
- S->AddDecl(New);
- CurContext->addHiddenDecl(New);
- }
- if (isInOpenMPDeclareTargetContext())
- checkDeclIsAllowedInOpenMPTarget(nullptr, New);
- return New;
- }
- static bool checkSimpleDecomposition(
- Sema &S, ArrayRef<BindingDecl *> Bindings, ValueDecl *Src,
- QualType DecompType, const llvm::APSInt &NumElems, QualType ElemType,
- llvm::function_ref<ExprResult(SourceLocation, Expr *, unsigned)> GetInit) {
- if ((int64_t)Bindings.size() != NumElems) {
- S.Diag(Src->getLocation(), diag::err_decomp_decl_wrong_number_bindings)
- << DecompType << (unsigned)Bindings.size()
- << (unsigned)NumElems.getLimitedValue(UINT_MAX)
- << toString(NumElems, 10) << (NumElems < Bindings.size());
- return true;
- }
- unsigned I = 0;
- for (auto *B : Bindings) {
- SourceLocation Loc = B->getLocation();
- ExprResult E = S.BuildDeclRefExpr(Src, DecompType, VK_LValue, Loc);
- if (E.isInvalid())
- return true;
- E = GetInit(Loc, E.get(), I++);
- if (E.isInvalid())
- return true;
- B->setBinding(ElemType, E.get());
- }
- return false;
- }
- static bool checkArrayLikeDecomposition(Sema &S,
- ArrayRef<BindingDecl *> Bindings,
- ValueDecl *Src, QualType DecompType,
- const llvm::APSInt &NumElems,
- QualType ElemType) {
- return checkSimpleDecomposition(
- S, Bindings, Src, DecompType, NumElems, ElemType,
- [&](SourceLocation Loc, Expr *Base, unsigned I) -> ExprResult {
- ExprResult E = S.ActOnIntegerConstant(Loc, I);
- if (E.isInvalid())
- return ExprError();
- return S.CreateBuiltinArraySubscriptExpr(Base, Loc, E.get(), Loc);
- });
- }
- static bool checkArrayDecomposition(Sema &S, ArrayRef<BindingDecl*> Bindings,
- ValueDecl *Src, QualType DecompType,
- const ConstantArrayType *CAT) {
- return checkArrayLikeDecomposition(S, Bindings, Src, DecompType,
- llvm::APSInt(CAT->getSize()),
- CAT->getElementType());
- }
- static bool checkVectorDecomposition(Sema &S, ArrayRef<BindingDecl*> Bindings,
- ValueDecl *Src, QualType DecompType,
- const VectorType *VT) {
- return checkArrayLikeDecomposition(
- S, Bindings, Src, DecompType, llvm::APSInt::get(VT->getNumElements()),
- S.Context.getQualifiedType(VT->getElementType(),
- DecompType.getQualifiers()));
- }
- static bool checkComplexDecomposition(Sema &S,
- ArrayRef<BindingDecl *> Bindings,
- ValueDecl *Src, QualType DecompType,
- const ComplexType *CT) {
- return checkSimpleDecomposition(
- S, Bindings, Src, DecompType, llvm::APSInt::get(2),
- S.Context.getQualifiedType(CT->getElementType(),
- DecompType.getQualifiers()),
- [&](SourceLocation Loc, Expr *Base, unsigned I) -> ExprResult {
- return S.CreateBuiltinUnaryOp(Loc, I ? UO_Imag : UO_Real, Base);
- });
- }
- static std::string printTemplateArgs(const PrintingPolicy &PrintingPolicy,
- TemplateArgumentListInfo &Args,
- const TemplateParameterList *Params) {
- SmallString<128> SS;
- llvm::raw_svector_ostream OS(SS);
- bool First = true;
- unsigned I = 0;
- for (auto &Arg : Args.arguments()) {
- if (!First)
- OS << ", ";
- Arg.getArgument().print(PrintingPolicy, OS,
- TemplateParameterList::shouldIncludeTypeForArgument(
- PrintingPolicy, Params, I));
- First = false;
- I++;
- }
- return std::string(OS.str());
- }
- static bool lookupStdTypeTraitMember(Sema &S, LookupResult &TraitMemberLookup,
- SourceLocation Loc, StringRef Trait,
- TemplateArgumentListInfo &Args,
- unsigned DiagID) {
- auto DiagnoseMissing = [&] {
- if (DiagID)
- S.Diag(Loc, DiagID) << printTemplateArgs(S.Context.getPrintingPolicy(),
- Args, /*Params*/ nullptr);
- return true;
- };
- // FIXME: Factor out duplication with lookupPromiseType in SemaCoroutine.
- NamespaceDecl *Std = S.getStdNamespace();
- if (!Std)
- return DiagnoseMissing();
- // Look up the trait itself, within namespace std. We can diagnose various
- // problems with this lookup even if we've been asked to not diagnose a
- // missing specialization, because this can only fail if the user has been
- // declaring their own names in namespace std or we don't support the
- // standard library implementation in use.
- LookupResult Result(S, &S.PP.getIdentifierTable().get(Trait),
- Loc, Sema::LookupOrdinaryName);
- if (!S.LookupQualifiedName(Result, Std))
- return DiagnoseMissing();
- if (Result.isAmbiguous())
- return true;
- ClassTemplateDecl *TraitTD = Result.getAsSingle<ClassTemplateDecl>();
- if (!TraitTD) {
- Result.suppressDiagnostics();
- NamedDecl *Found = *Result.begin();
- S.Diag(Loc, diag::err_std_type_trait_not_class_template) << Trait;
- S.Diag(Found->getLocation(), diag::note_declared_at);
- return true;
- }
- // Build the template-id.
- QualType TraitTy = S.CheckTemplateIdType(TemplateName(TraitTD), Loc, Args);
- if (TraitTy.isNull())
- return true;
- if (!S.isCompleteType(Loc, TraitTy)) {
- if (DiagID)
- S.RequireCompleteType(
- Loc, TraitTy, DiagID,
- printTemplateArgs(S.Context.getPrintingPolicy(), Args,
- TraitTD->getTemplateParameters()));
- return true;
- }
- CXXRecordDecl *RD = TraitTy->getAsCXXRecordDecl();
- assert(RD && "specialization of class template is not a class?");
- // Look up the member of the trait type.
- S.LookupQualifiedName(TraitMemberLookup, RD);
- return TraitMemberLookup.isAmbiguous();
- }
- static TemplateArgumentLoc
- getTrivialIntegralTemplateArgument(Sema &S, SourceLocation Loc, QualType T,
- uint64_t I) {
- TemplateArgument Arg(S.Context, S.Context.MakeIntValue(I, T), T);
- return S.getTrivialTemplateArgumentLoc(Arg, T, Loc);
- }
- static TemplateArgumentLoc
- getTrivialTypeTemplateArgument(Sema &S, SourceLocation Loc, QualType T) {
- return S.getTrivialTemplateArgumentLoc(TemplateArgument(T), QualType(), Loc);
- }
- namespace { enum class IsTupleLike { TupleLike, NotTupleLike, Error }; }
- static IsTupleLike isTupleLike(Sema &S, SourceLocation Loc, QualType T,
- llvm::APSInt &Size) {
- EnterExpressionEvaluationContext ContextRAII(
- S, Sema::ExpressionEvaluationContext::ConstantEvaluated);
- DeclarationName Value = S.PP.getIdentifierInfo("value");
- LookupResult R(S, Value, Loc, Sema::LookupOrdinaryName);
- // Form template argument list for tuple_size<T>.
- TemplateArgumentListInfo Args(Loc, Loc);
- Args.addArgument(getTrivialTypeTemplateArgument(S, Loc, T));
- // If there's no tuple_size specialization or the lookup of 'value' is empty,
- // it's not tuple-like.
- if (lookupStdTypeTraitMember(S, R, Loc, "tuple_size", Args, /*DiagID*/ 0) ||
- R.empty())
- return IsTupleLike::NotTupleLike;
- // If we get this far, we've committed to the tuple interpretation, but
- // we can still fail if there actually isn't a usable ::value.
- struct ICEDiagnoser : Sema::VerifyICEDiagnoser {
- LookupResult &R;
- TemplateArgumentListInfo &Args;
- ICEDiagnoser(LookupResult &R, TemplateArgumentListInfo &Args)
- : R(R), Args(Args) {}
- Sema::SemaDiagnosticBuilder diagnoseNotICE(Sema &S,
- SourceLocation Loc) override {
- return S.Diag(Loc, diag::err_decomp_decl_std_tuple_size_not_constant)
- << printTemplateArgs(S.Context.getPrintingPolicy(), Args,
- /*Params*/ nullptr);
- }
- } Diagnoser(R, Args);
- ExprResult E =
- S.BuildDeclarationNameExpr(CXXScopeSpec(), R, /*NeedsADL*/false);
- if (E.isInvalid())
- return IsTupleLike::Error;
- E = S.VerifyIntegerConstantExpression(E.get(), &Size, Diagnoser);
- if (E.isInvalid())
- return IsTupleLike::Error;
- return IsTupleLike::TupleLike;
- }
- /// \return std::tuple_element<I, T>::type.
- static QualType getTupleLikeElementType(Sema &S, SourceLocation Loc,
- unsigned I, QualType T) {
- // Form template argument list for tuple_element<I, T>.
- TemplateArgumentListInfo Args(Loc, Loc);
- Args.addArgument(
- getTrivialIntegralTemplateArgument(S, Loc, S.Context.getSizeType(), I));
- Args.addArgument(getTrivialTypeTemplateArgument(S, Loc, T));
- DeclarationName TypeDN = S.PP.getIdentifierInfo("type");
- LookupResult R(S, TypeDN, Loc, Sema::LookupOrdinaryName);
- if (lookupStdTypeTraitMember(
- S, R, Loc, "tuple_element", Args,
- diag::err_decomp_decl_std_tuple_element_not_specialized))
- return QualType();
- auto *TD = R.getAsSingle<TypeDecl>();
- if (!TD) {
- R.suppressDiagnostics();
- S.Diag(Loc, diag::err_decomp_decl_std_tuple_element_not_specialized)
- << printTemplateArgs(S.Context.getPrintingPolicy(), Args,
- /*Params*/ nullptr);
- if (!R.empty())
- S.Diag(R.getRepresentativeDecl()->getLocation(), diag::note_declared_at);
- return QualType();
- }
- return S.Context.getTypeDeclType(TD);
- }
- namespace {
- struct InitializingBinding {
- Sema &S;
- InitializingBinding(Sema &S, BindingDecl *BD) : S(S) {
- Sema::CodeSynthesisContext Ctx;
- Ctx.Kind = Sema::CodeSynthesisContext::InitializingStructuredBinding;
- Ctx.PointOfInstantiation = BD->getLocation();
- Ctx.Entity = BD;
- S.pushCodeSynthesisContext(Ctx);
- }
- ~InitializingBinding() {
- S.popCodeSynthesisContext();
- }
- };
- }
- static bool checkTupleLikeDecomposition(Sema &S,
- ArrayRef<BindingDecl *> Bindings,
- VarDecl *Src, QualType DecompType,
- const llvm::APSInt &TupleSize) {
- if ((int64_t)Bindings.size() != TupleSize) {
- S.Diag(Src->getLocation(), diag::err_decomp_decl_wrong_number_bindings)
- << DecompType << (unsigned)Bindings.size()
- << (unsigned)TupleSize.getLimitedValue(UINT_MAX)
- << toString(TupleSize, 10) << (TupleSize < Bindings.size());
- return true;
- }
- if (Bindings.empty())
- return false;
- DeclarationName GetDN = S.PP.getIdentifierInfo("get");
- // [dcl.decomp]p3:
- // The unqualified-id get is looked up in the scope of E by class member
- // access lookup ...
- LookupResult MemberGet(S, GetDN, Src->getLocation(), Sema::LookupMemberName);
- bool UseMemberGet = false;
- if (S.isCompleteType(Src->getLocation(), DecompType)) {
- if (auto *RD = DecompType->getAsCXXRecordDecl())
- S.LookupQualifiedName(MemberGet, RD);
- if (MemberGet.isAmbiguous())
- return true;
- // ... and if that finds at least one declaration that is a function
- // template whose first template parameter is a non-type parameter ...
- for (NamedDecl *D : MemberGet) {
- if (FunctionTemplateDecl *FTD =
- dyn_cast<FunctionTemplateDecl>(D->getUnderlyingDecl())) {
- TemplateParameterList *TPL = FTD->getTemplateParameters();
- if (TPL->size() != 0 &&
- isa<NonTypeTemplateParmDecl>(TPL->getParam(0))) {
- // ... the initializer is e.get<i>().
- UseMemberGet = true;
- break;
- }
- }
- }
- }
- unsigned I = 0;
- for (auto *B : Bindings) {
- InitializingBinding InitContext(S, B);
- SourceLocation Loc = B->getLocation();
- ExprResult E = S.BuildDeclRefExpr(Src, DecompType, VK_LValue, Loc);
- if (E.isInvalid())
- return true;
- // e is an lvalue if the type of the entity is an lvalue reference and
- // an xvalue otherwise
- if (!Src->getType()->isLValueReferenceType())
- E = ImplicitCastExpr::Create(S.Context, E.get()->getType(), CK_NoOp,
- E.get(), nullptr, VK_XValue,
- FPOptionsOverride());
- TemplateArgumentListInfo Args(Loc, Loc);
- Args.addArgument(
- getTrivialIntegralTemplateArgument(S, Loc, S.Context.getSizeType(), I));
- if (UseMemberGet) {
- // if [lookup of member get] finds at least one declaration, the
- // initializer is e.get<i-1>().
- E = S.BuildMemberReferenceExpr(E.get(), DecompType, Loc, false,
- CXXScopeSpec(), SourceLocation(), nullptr,
- MemberGet, &Args, nullptr);
- if (E.isInvalid())
- return true;
- E = S.BuildCallExpr(nullptr, E.get(), Loc, std::nullopt, Loc);
- } else {
- // Otherwise, the initializer is get<i-1>(e), where get is looked up
- // in the associated namespaces.
- Expr *Get = UnresolvedLookupExpr::Create(
- S.Context, nullptr, NestedNameSpecifierLoc(), SourceLocation(),
- DeclarationNameInfo(GetDN, Loc), /*RequiresADL*/true, &Args,
- UnresolvedSetIterator(), UnresolvedSetIterator());
- Expr *Arg = E.get();
- E = S.BuildCallExpr(nullptr, Get, Loc, Arg, Loc);
- }
- if (E.isInvalid())
- return true;
- Expr *Init = E.get();
- // Given the type T designated by std::tuple_element<i - 1, E>::type,
- QualType T = getTupleLikeElementType(S, Loc, I, DecompType);
- if (T.isNull())
- return true;
- // each vi is a variable of type "reference to T" initialized with the
- // initializer, where the reference is an lvalue reference if the
- // initializer is an lvalue and an rvalue reference otherwise
- QualType RefType =
- S.BuildReferenceType(T, E.get()->isLValue(), Loc, B->getDeclName());
- if (RefType.isNull())
- return true;
- auto *RefVD = VarDecl::Create(
- S.Context, Src->getDeclContext(), Loc, Loc,
- B->getDeclName().getAsIdentifierInfo(), RefType,
- S.Context.getTrivialTypeSourceInfo(T, Loc), Src->getStorageClass());
- RefVD->setLexicalDeclContext(Src->getLexicalDeclContext());
- RefVD->setTSCSpec(Src->getTSCSpec());
- RefVD->setImplicit();
- if (Src->isInlineSpecified())
- RefVD->setInlineSpecified();
- RefVD->getLexicalDeclContext()->addHiddenDecl(RefVD);
- InitializedEntity Entity = InitializedEntity::InitializeBinding(RefVD);
- InitializationKind Kind = InitializationKind::CreateCopy(Loc, Loc);
- InitializationSequence Seq(S, Entity, Kind, Init);
- E = Seq.Perform(S, Entity, Kind, Init);
- if (E.isInvalid())
- return true;
- E = S.ActOnFinishFullExpr(E.get(), Loc, /*DiscardedValue*/ false);
- if (E.isInvalid())
- return true;
- RefVD->setInit(E.get());
- S.CheckCompleteVariableDeclaration(RefVD);
- E = S.BuildDeclarationNameExpr(CXXScopeSpec(),
- DeclarationNameInfo(B->getDeclName(), Loc),
- RefVD);
- if (E.isInvalid())
- return true;
- B->setBinding(T, E.get());
- I++;
- }
- return false;
- }
- /// Find the base class to decompose in a built-in decomposition of a class type.
- /// This base class search is, unfortunately, not quite like any other that we
- /// perform anywhere else in C++.
- static DeclAccessPair findDecomposableBaseClass(Sema &S, SourceLocation Loc,
- const CXXRecordDecl *RD,
- CXXCastPath &BasePath) {
- auto BaseHasFields = [](const CXXBaseSpecifier *Specifier,
- CXXBasePath &Path) {
- return Specifier->getType()->getAsCXXRecordDecl()->hasDirectFields();
- };
- const CXXRecordDecl *ClassWithFields = nullptr;
- AccessSpecifier AS = AS_public;
- if (RD->hasDirectFields())
- // [dcl.decomp]p4:
- // Otherwise, all of E's non-static data members shall be public direct
- // members of E ...
- ClassWithFields = RD;
- else {
- // ... or of ...
- CXXBasePaths Paths;
- Paths.setOrigin(const_cast<CXXRecordDecl*>(RD));
- if (!RD->lookupInBases(BaseHasFields, Paths)) {
- // If no classes have fields, just decompose RD itself. (This will work
- // if and only if zero bindings were provided.)
- return DeclAccessPair::make(const_cast<CXXRecordDecl*>(RD), AS_public);
- }
- CXXBasePath *BestPath = nullptr;
- for (auto &P : Paths) {
- if (!BestPath)
- BestPath = &P;
- else if (!S.Context.hasSameType(P.back().Base->getType(),
- BestPath->back().Base->getType())) {
- // ... the same ...
- S.Diag(Loc, diag::err_decomp_decl_multiple_bases_with_members)
- << false << RD << BestPath->back().Base->getType()
- << P.back().Base->getType();
- return DeclAccessPair();
- } else if (P.Access < BestPath->Access) {
- BestPath = &P;
- }
- }
- // ... unambiguous ...
- QualType BaseType = BestPath->back().Base->getType();
- if (Paths.isAmbiguous(S.Context.getCanonicalType(BaseType))) {
- S.Diag(Loc, diag::err_decomp_decl_ambiguous_base)
- << RD << BaseType << S.getAmbiguousPathsDisplayString(Paths);
- return DeclAccessPair();
- }
- // ... [accessible, implied by other rules] base class of E.
- S.CheckBaseClassAccess(Loc, BaseType, S.Context.getRecordType(RD),
- *BestPath, diag::err_decomp_decl_inaccessible_base);
- AS = BestPath->Access;
- ClassWithFields = BaseType->getAsCXXRecordDecl();
- S.BuildBasePathArray(Paths, BasePath);
- }
- // The above search did not check whether the selected class itself has base
- // classes with fields, so check that now.
- CXXBasePaths Paths;
- if (ClassWithFields->lookupInBases(BaseHasFields, Paths)) {
- S.Diag(Loc, diag::err_decomp_decl_multiple_bases_with_members)
- << (ClassWithFields == RD) << RD << ClassWithFields
- << Paths.front().back().Base->getType();
- return DeclAccessPair();
- }
- return DeclAccessPair::make(const_cast<CXXRecordDecl*>(ClassWithFields), AS);
- }
- static bool checkMemberDecomposition(Sema &S, ArrayRef<BindingDecl*> Bindings,
- ValueDecl *Src, QualType DecompType,
- const CXXRecordDecl *OrigRD) {
- if (S.RequireCompleteType(Src->getLocation(), DecompType,
- diag::err_incomplete_type))
- return true;
- CXXCastPath BasePath;
- DeclAccessPair BasePair =
- findDecomposableBaseClass(S, Src->getLocation(), OrigRD, BasePath);
- const CXXRecordDecl *RD = cast_or_null<CXXRecordDecl>(BasePair.getDecl());
- if (!RD)
- return true;
- QualType BaseType = S.Context.getQualifiedType(S.Context.getRecordType(RD),
- DecompType.getQualifiers());
- auto DiagnoseBadNumberOfBindings = [&]() -> bool {
- unsigned NumFields = llvm::count_if(
- RD->fields(), [](FieldDecl *FD) { return !FD->isUnnamedBitfield(); });
- assert(Bindings.size() != NumFields);
- S.Diag(Src->getLocation(), diag::err_decomp_decl_wrong_number_bindings)
- << DecompType << (unsigned)Bindings.size() << NumFields << NumFields
- << (NumFields < Bindings.size());
- return true;
- };
- // all of E's non-static data members shall be [...] well-formed
- // when named as e.name in the context of the structured binding,
- // E shall not have an anonymous union member, ...
- unsigned I = 0;
- for (auto *FD : RD->fields()) {
- if (FD->isUnnamedBitfield())
- continue;
- // All the non-static data members are required to be nameable, so they
- // must all have names.
- if (!FD->getDeclName()) {
- if (RD->isLambda()) {
- S.Diag(Src->getLocation(), diag::err_decomp_decl_lambda);
- S.Diag(RD->getLocation(), diag::note_lambda_decl);
- return true;
- }
- if (FD->isAnonymousStructOrUnion()) {
- S.Diag(Src->getLocation(), diag::err_decomp_decl_anon_union_member)
- << DecompType << FD->getType()->isUnionType();
- S.Diag(FD->getLocation(), diag::note_declared_at);
- return true;
- }
- // FIXME: Are there any other ways we could have an anonymous member?
- }
- // We have a real field to bind.
- if (I >= Bindings.size())
- return DiagnoseBadNumberOfBindings();
- auto *B = Bindings[I++];
- SourceLocation Loc = B->getLocation();
- // The field must be accessible in the context of the structured binding.
- // We already checked that the base class is accessible.
- // FIXME: Add 'const' to AccessedEntity's classes so we can remove the
- // const_cast here.
- S.CheckStructuredBindingMemberAccess(
- Loc, const_cast<CXXRecordDecl *>(OrigRD),
- DeclAccessPair::make(FD, CXXRecordDecl::MergeAccess(
- BasePair.getAccess(), FD->getAccess())));
- // Initialize the binding to Src.FD.
- ExprResult E = S.BuildDeclRefExpr(Src, DecompType, VK_LValue, Loc);
- if (E.isInvalid())
- return true;
- E = S.ImpCastExprToType(E.get(), BaseType, CK_UncheckedDerivedToBase,
- VK_LValue, &BasePath);
- if (E.isInvalid())
- return true;
- E = S.BuildFieldReferenceExpr(E.get(), /*IsArrow*/ false, Loc,
- CXXScopeSpec(), FD,
- DeclAccessPair::make(FD, FD->getAccess()),
- DeclarationNameInfo(FD->getDeclName(), Loc));
- if (E.isInvalid())
- return true;
- // If the type of the member is T, the referenced type is cv T, where cv is
- // the cv-qualification of the decomposition expression.
- //
- // FIXME: We resolve a defect here: if the field is mutable, we do not add
- // 'const' to the type of the field.
- Qualifiers Q = DecompType.getQualifiers();
- if (FD->isMutable())
- Q.removeConst();
- B->setBinding(S.BuildQualifiedType(FD->getType(), Loc, Q), E.get());
- }
- if (I != Bindings.size())
- return DiagnoseBadNumberOfBindings();
- return false;
- }
- void Sema::CheckCompleteDecompositionDeclaration(DecompositionDecl *DD) {
- QualType DecompType = DD->getType();
- // If the type of the decomposition is dependent, then so is the type of
- // each binding.
- if (DecompType->isDependentType()) {
- for (auto *B : DD->bindings())
- B->setType(Context.DependentTy);
- return;
- }
- DecompType = DecompType.getNonReferenceType();
- ArrayRef<BindingDecl*> Bindings = DD->bindings();
- // C++1z [dcl.decomp]/2:
- // If E is an array type [...]
- // As an extension, we also support decomposition of built-in complex and
- // vector types.
- if (auto *CAT = Context.getAsConstantArrayType(DecompType)) {
- if (checkArrayDecomposition(*this, Bindings, DD, DecompType, CAT))
- DD->setInvalidDecl();
- return;
- }
- if (auto *VT = DecompType->getAs<VectorType>()) {
- if (checkVectorDecomposition(*this, Bindings, DD, DecompType, VT))
- DD->setInvalidDecl();
- return;
- }
- if (auto *CT = DecompType->getAs<ComplexType>()) {
- if (checkComplexDecomposition(*this, Bindings, DD, DecompType, CT))
- DD->setInvalidDecl();
- return;
- }
- // C++1z [dcl.decomp]/3:
- // if the expression std::tuple_size<E>::value is a well-formed integral
- // constant expression, [...]
- llvm::APSInt TupleSize(32);
- switch (isTupleLike(*this, DD->getLocation(), DecompType, TupleSize)) {
- case IsTupleLike::Error:
- DD->setInvalidDecl();
- return;
- case IsTupleLike::TupleLike:
- if (checkTupleLikeDecomposition(*this, Bindings, DD, DecompType, TupleSize))
- DD->setInvalidDecl();
- return;
- case IsTupleLike::NotTupleLike:
- break;
- }
- // C++1z [dcl.dcl]/8:
- // [E shall be of array or non-union class type]
- CXXRecordDecl *RD = DecompType->getAsCXXRecordDecl();
- if (!RD || RD->isUnion()) {
- Diag(DD->getLocation(), diag::err_decomp_decl_unbindable_type)
- << DD << !RD << DecompType;
- DD->setInvalidDecl();
- return;
- }
- // C++1z [dcl.decomp]/4:
- // all of E's non-static data members shall be [...] direct members of
- // E or of the same unambiguous public base class of E, ...
- if (checkMemberDecomposition(*this, Bindings, DD, DecompType, RD))
- DD->setInvalidDecl();
- }
- /// Merge the exception specifications of two variable declarations.
- ///
- /// This is called when there's a redeclaration of a VarDecl. The function
- /// checks if the redeclaration might have an exception specification and
- /// validates compatibility and merges the specs if necessary.
- void Sema::MergeVarDeclExceptionSpecs(VarDecl *New, VarDecl *Old) {
- // Shortcut if exceptions are disabled.
- if (!getLangOpts().CXXExceptions)
- return;
- assert(Context.hasSameType(New->getType(), Old->getType()) &&
- "Should only be called if types are otherwise the same.");
- QualType NewType = New->getType();
- QualType OldType = Old->getType();
- // We're only interested in pointers and references to functions, as well
- // as pointers to member functions.
- if (const ReferenceType *R = NewType->getAs<ReferenceType>()) {
- NewType = R->getPointeeType();
- OldType = OldType->castAs<ReferenceType>()->getPointeeType();
- } else if (const PointerType *P = NewType->getAs<PointerType>()) {
- NewType = P->getPointeeType();
- OldType = OldType->castAs<PointerType>()->getPointeeType();
- } else if (const MemberPointerType *M = NewType->getAs<MemberPointerType>()) {
- NewType = M->getPointeeType();
- OldType = OldType->castAs<MemberPointerType>()->getPointeeType();
- }
- if (!NewType->isFunctionProtoType())
- return;
- // There's lots of special cases for functions. For function pointers, system
- // libraries are hopefully not as broken so that we don't need these
- // workarounds.
- if (CheckEquivalentExceptionSpec(
- OldType->getAs<FunctionProtoType>(), Old->getLocation(),
- NewType->getAs<FunctionProtoType>(), New->getLocation())) {
- New->setInvalidDecl();
- }
- }
- /// CheckCXXDefaultArguments - Verify that the default arguments for a
- /// function declaration are well-formed according to C++
- /// [dcl.fct.default].
- void Sema::CheckCXXDefaultArguments(FunctionDecl *FD) {
- unsigned NumParams = FD->getNumParams();
- unsigned ParamIdx = 0;
- // This checking doesn't make sense for explicit specializations; their
- // default arguments are determined by the declaration we're specializing,
- // not by FD.
- if (FD->getTemplateSpecializationKind() == TSK_ExplicitSpecialization)
- return;
- if (auto *FTD = FD->getDescribedFunctionTemplate())
- if (FTD->isMemberSpecialization())
- return;
- // Find first parameter with a default argument
- for (; ParamIdx < NumParams; ++ParamIdx) {
- ParmVarDecl *Param = FD->getParamDecl(ParamIdx);
- if (Param->hasDefaultArg())
- break;
- }
- // C++20 [dcl.fct.default]p4:
- // In a given function declaration, each parameter subsequent to a parameter
- // with a default argument shall have a default argument supplied in this or
- // a previous declaration, unless the parameter was expanded from a
- // parameter pack, or shall be a function parameter pack.
- for (; ParamIdx < NumParams; ++ParamIdx) {
- ParmVarDecl *Param = FD->getParamDecl(ParamIdx);
- if (!Param->hasDefaultArg() && !Param->isParameterPack() &&
- !(CurrentInstantiationScope &&
- CurrentInstantiationScope->isLocalPackExpansion(Param))) {
- if (Param->isInvalidDecl())
- /* We already complained about this parameter. */;
- else if (Param->getIdentifier())
- Diag(Param->getLocation(),
- diag::err_param_default_argument_missing_name)
- << Param->getIdentifier();
- else
- Diag(Param->getLocation(),
- diag::err_param_default_argument_missing);
- }
- }
- }
- /// Check that the given type is a literal type. Issue a diagnostic if not,
- /// if Kind is Diagnose.
- /// \return \c true if a problem has been found (and optionally diagnosed).
- template <typename... Ts>
- static bool CheckLiteralType(Sema &SemaRef, Sema::CheckConstexprKind Kind,
- SourceLocation Loc, QualType T, unsigned DiagID,
- Ts &&...DiagArgs) {
- if (T->isDependentType())
- return false;
- switch (Kind) {
- case Sema::CheckConstexprKind::Diagnose:
- return SemaRef.RequireLiteralType(Loc, T, DiagID,
- std::forward<Ts>(DiagArgs)...);
- case Sema::CheckConstexprKind::CheckValid:
- return !T->isLiteralType(SemaRef.Context);
- }
- llvm_unreachable("unknown CheckConstexprKind");
- }
- /// Determine whether a destructor cannot be constexpr due to
- static bool CheckConstexprDestructorSubobjects(Sema &SemaRef,
- const CXXDestructorDecl *DD,
- Sema::CheckConstexprKind Kind) {
- auto Check = [&](SourceLocation Loc, QualType T, const FieldDecl *FD) {
- const CXXRecordDecl *RD =
- T->getBaseElementTypeUnsafe()->getAsCXXRecordDecl();
- if (!RD || RD->hasConstexprDestructor())
- return true;
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(DD->getLocation(), diag::err_constexpr_dtor_subobject)
- << static_cast<int>(DD->getConstexprKind()) << !FD
- << (FD ? FD->getDeclName() : DeclarationName()) << T;
- SemaRef.Diag(Loc, diag::note_constexpr_dtor_subobject)
- << !FD << (FD ? FD->getDeclName() : DeclarationName()) << T;
- }
- return false;
- };
- const CXXRecordDecl *RD = DD->getParent();
- for (const CXXBaseSpecifier &B : RD->bases())
- if (!Check(B.getBaseTypeLoc(), B.getType(), nullptr))
- return false;
- for (const FieldDecl *FD : RD->fields())
- if (!Check(FD->getLocation(), FD->getType(), FD))
- return false;
- return true;
- }
- /// Check whether a function's parameter types are all literal types. If so,
- /// return true. If not, produce a suitable diagnostic and return false.
- static bool CheckConstexprParameterTypes(Sema &SemaRef,
- const FunctionDecl *FD,
- Sema::CheckConstexprKind Kind) {
- unsigned ArgIndex = 0;
- const auto *FT = FD->getType()->castAs<FunctionProtoType>();
- for (FunctionProtoType::param_type_iterator i = FT->param_type_begin(),
- e = FT->param_type_end();
- i != e; ++i, ++ArgIndex) {
- const ParmVarDecl *PD = FD->getParamDecl(ArgIndex);
- SourceLocation ParamLoc = PD->getLocation();
- if (CheckLiteralType(SemaRef, Kind, ParamLoc, *i,
- diag::err_constexpr_non_literal_param, ArgIndex + 1,
- PD->getSourceRange(), isa<CXXConstructorDecl>(FD),
- FD->isConsteval()))
- return false;
- }
- return true;
- }
- /// Check whether a function's return type is a literal type. If so, return
- /// true. If not, produce a suitable diagnostic and return false.
- static bool CheckConstexprReturnType(Sema &SemaRef, const FunctionDecl *FD,
- Sema::CheckConstexprKind Kind) {
- if (CheckLiteralType(SemaRef, Kind, FD->getLocation(), FD->getReturnType(),
- diag::err_constexpr_non_literal_return,
- FD->isConsteval()))
- return false;
- return true;
- }
- /// Get diagnostic %select index for tag kind for
- /// record diagnostic message.
- /// WARNING: Indexes apply to particular diagnostics only!
- ///
- /// \returns diagnostic %select index.
- static unsigned getRecordDiagFromTagKind(TagTypeKind Tag) {
- switch (Tag) {
- case TTK_Struct: return 0;
- case TTK_Interface: return 1;
- case TTK_Class: return 2;
- default: llvm_unreachable("Invalid tag kind for record diagnostic!");
- }
- }
- static bool CheckConstexprFunctionBody(Sema &SemaRef, const FunctionDecl *Dcl,
- Stmt *Body,
- Sema::CheckConstexprKind Kind);
- // Check whether a function declaration satisfies the requirements of a
- // constexpr function definition or a constexpr constructor definition. If so,
- // return true. If not, produce appropriate diagnostics (unless asked not to by
- // Kind) and return false.
- //
- // This implements C++11 [dcl.constexpr]p3,4, as amended by DR1360.
- bool Sema::CheckConstexprFunctionDefinition(const FunctionDecl *NewFD,
- CheckConstexprKind Kind) {
- const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(NewFD);
- if (MD && MD->isInstance()) {
- // C++11 [dcl.constexpr]p4:
- // The definition of a constexpr constructor shall satisfy the following
- // constraints:
- // - the class shall not have any virtual base classes;
- //
- // FIXME: This only applies to constructors and destructors, not arbitrary
- // member functions.
- const CXXRecordDecl *RD = MD->getParent();
- if (RD->getNumVBases()) {
- if (Kind == CheckConstexprKind::CheckValid)
- return false;
- Diag(NewFD->getLocation(), diag::err_constexpr_virtual_base)
- << isa<CXXConstructorDecl>(NewFD)
- << getRecordDiagFromTagKind(RD->getTagKind()) << RD->getNumVBases();
- for (const auto &I : RD->vbases())
- Diag(I.getBeginLoc(), diag::note_constexpr_virtual_base_here)
- << I.getSourceRange();
- return false;
- }
- }
- if (!isa<CXXConstructorDecl>(NewFD)) {
- // C++11 [dcl.constexpr]p3:
- // The definition of a constexpr function shall satisfy the following
- // constraints:
- // - it shall not be virtual; (removed in C++20)
- const CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(NewFD);
- if (Method && Method->isVirtual()) {
- if (getLangOpts().CPlusPlus20) {
- if (Kind == CheckConstexprKind::Diagnose)
- Diag(Method->getLocation(), diag::warn_cxx17_compat_constexpr_virtual);
- } else {
- if (Kind == CheckConstexprKind::CheckValid)
- return false;
- Method = Method->getCanonicalDecl();
- Diag(Method->getLocation(), diag::err_constexpr_virtual);
- // If it's not obvious why this function is virtual, find an overridden
- // function which uses the 'virtual' keyword.
- const CXXMethodDecl *WrittenVirtual = Method;
- while (!WrittenVirtual->isVirtualAsWritten())
- WrittenVirtual = *WrittenVirtual->begin_overridden_methods();
- if (WrittenVirtual != Method)
- Diag(WrittenVirtual->getLocation(),
- diag::note_overridden_virtual_function);
- return false;
- }
- }
- // - its return type shall be a literal type;
- if (!CheckConstexprReturnType(*this, NewFD, Kind))
- return false;
- }
- if (auto *Dtor = dyn_cast<CXXDestructorDecl>(NewFD)) {
- // A destructor can be constexpr only if the defaulted destructor could be;
- // we don't need to check the members and bases if we already know they all
- // have constexpr destructors.
- if (!Dtor->getParent()->defaultedDestructorIsConstexpr()) {
- if (Kind == CheckConstexprKind::CheckValid)
- return false;
- if (!CheckConstexprDestructorSubobjects(*this, Dtor, Kind))
- return false;
- }
- }
- // - each of its parameter types shall be a literal type;
- if (!CheckConstexprParameterTypes(*this, NewFD, Kind))
- return false;
- Stmt *Body = NewFD->getBody();
- assert(Body &&
- "CheckConstexprFunctionDefinition called on function with no body");
- return CheckConstexprFunctionBody(*this, NewFD, Body, Kind);
- }
- /// Check the given declaration statement is legal within a constexpr function
- /// body. C++11 [dcl.constexpr]p3,p4, and C++1y [dcl.constexpr]p3.
- ///
- /// \return true if the body is OK (maybe only as an extension), false if we
- /// have diagnosed a problem.
- static bool CheckConstexprDeclStmt(Sema &SemaRef, const FunctionDecl *Dcl,
- DeclStmt *DS, SourceLocation &Cxx1yLoc,
- Sema::CheckConstexprKind Kind) {
- // C++11 [dcl.constexpr]p3 and p4:
- // The definition of a constexpr function(p3) or constructor(p4) [...] shall
- // contain only
- for (const auto *DclIt : DS->decls()) {
- switch (DclIt->getKind()) {
- case Decl::StaticAssert:
- case Decl::Using:
- case Decl::UsingShadow:
- case Decl::UsingDirective:
- case Decl::UnresolvedUsingTypename:
- case Decl::UnresolvedUsingValue:
- case Decl::UsingEnum:
- // - static_assert-declarations
- // - using-declarations,
- // - using-directives,
- // - using-enum-declaration
- continue;
- case Decl::Typedef:
- case Decl::TypeAlias: {
- // - typedef declarations and alias-declarations that do not define
- // classes or enumerations,
- const auto *TN = cast<TypedefNameDecl>(DclIt);
- if (TN->getUnderlyingType()->isVariablyModifiedType()) {
- // Don't allow variably-modified types in constexpr functions.
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- TypeLoc TL = TN->getTypeSourceInfo()->getTypeLoc();
- SemaRef.Diag(TL.getBeginLoc(), diag::err_constexpr_vla)
- << TL.getSourceRange() << TL.getType()
- << isa<CXXConstructorDecl>(Dcl);
- }
- return false;
- }
- continue;
- }
- case Decl::Enum:
- case Decl::CXXRecord:
- // C++1y allows types to be defined, not just declared.
- if (cast<TagDecl>(DclIt)->isThisDeclarationADefinition()) {
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(DS->getBeginLoc(),
- SemaRef.getLangOpts().CPlusPlus14
- ? diag::warn_cxx11_compat_constexpr_type_definition
- : diag::ext_constexpr_type_definition)
- << isa<CXXConstructorDecl>(Dcl);
- } else if (!SemaRef.getLangOpts().CPlusPlus14) {
- return false;
- }
- }
- continue;
- case Decl::EnumConstant:
- case Decl::IndirectField:
- case Decl::ParmVar:
- // These can only appear with other declarations which are banned in
- // C++11 and permitted in C++1y, so ignore them.
- continue;
- case Decl::Var:
- case Decl::Decomposition: {
- // C++1y [dcl.constexpr]p3 allows anything except:
- // a definition of a variable of non-literal type or of static or
- // thread storage duration or [before C++2a] for which no
- // initialization is performed.
- const auto *VD = cast<VarDecl>(DclIt);
- if (VD->isThisDeclarationADefinition()) {
- if (VD->isStaticLocal()) {
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(VD->getLocation(),
- SemaRef.getLangOpts().CPlusPlus2b
- ? diag::warn_cxx20_compat_constexpr_var
- : diag::ext_constexpr_static_var)
- << isa<CXXConstructorDecl>(Dcl)
- << (VD->getTLSKind() == VarDecl::TLS_Dynamic);
- } else if (!SemaRef.getLangOpts().CPlusPlus2b) {
- return false;
- }
- }
- if (SemaRef.LangOpts.CPlusPlus2b) {
- CheckLiteralType(SemaRef, Kind, VD->getLocation(), VD->getType(),
- diag::warn_cxx20_compat_constexpr_var,
- isa<CXXConstructorDecl>(Dcl),
- /*variable of non-literal type*/ 2);
- } else if (CheckLiteralType(
- SemaRef, Kind, VD->getLocation(), VD->getType(),
- diag::err_constexpr_local_var_non_literal_type,
- isa<CXXConstructorDecl>(Dcl))) {
- return false;
- }
- if (!VD->getType()->isDependentType() &&
- !VD->hasInit() && !VD->isCXXForRangeDecl()) {
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(
- VD->getLocation(),
- SemaRef.getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_constexpr_local_var_no_init
- : diag::ext_constexpr_local_var_no_init)
- << isa<CXXConstructorDecl>(Dcl);
- } else if (!SemaRef.getLangOpts().CPlusPlus20) {
- return false;
- }
- continue;
- }
- }
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(VD->getLocation(),
- SemaRef.getLangOpts().CPlusPlus14
- ? diag::warn_cxx11_compat_constexpr_local_var
- : diag::ext_constexpr_local_var)
- << isa<CXXConstructorDecl>(Dcl);
- } else if (!SemaRef.getLangOpts().CPlusPlus14) {
- return false;
- }
- continue;
- }
- case Decl::NamespaceAlias:
- case Decl::Function:
- // These are disallowed in C++11 and permitted in C++1y. Allow them
- // everywhere as an extension.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = DS->getBeginLoc();
- continue;
- default:
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(DS->getBeginLoc(), diag::err_constexpr_body_invalid_stmt)
- << isa<CXXConstructorDecl>(Dcl) << Dcl->isConsteval();
- }
- return false;
- }
- }
- return true;
- }
- /// Check that the given field is initialized within a constexpr constructor.
- ///
- /// \param Dcl The constexpr constructor being checked.
- /// \param Field The field being checked. This may be a member of an anonymous
- /// struct or union nested within the class being checked.
- /// \param Inits All declarations, including anonymous struct/union members and
- /// indirect members, for which any initialization was provided.
- /// \param Diagnosed Whether we've emitted the error message yet. Used to attach
- /// multiple notes for different members to the same error.
- /// \param Kind Whether we're diagnosing a constructor as written or determining
- /// whether the formal requirements are satisfied.
- /// \return \c false if we're checking for validity and the constructor does
- /// not satisfy the requirements on a constexpr constructor.
- static bool CheckConstexprCtorInitializer(Sema &SemaRef,
- const FunctionDecl *Dcl,
- FieldDecl *Field,
- llvm::SmallSet<Decl*, 16> &Inits,
- bool &Diagnosed,
- Sema::CheckConstexprKind Kind) {
- // In C++20 onwards, there's nothing to check for validity.
- if (Kind == Sema::CheckConstexprKind::CheckValid &&
- SemaRef.getLangOpts().CPlusPlus20)
- return true;
- if (Field->isInvalidDecl())
- return true;
- if (Field->isUnnamedBitfield())
- return true;
- // Anonymous unions with no variant members and empty anonymous structs do not
- // need to be explicitly initialized. FIXME: Anonymous structs that contain no
- // indirect fields don't need initializing.
- if (Field->isAnonymousStructOrUnion() &&
- (Field->getType()->isUnionType()
- ? !Field->getType()->getAsCXXRecordDecl()->hasVariantMembers()
- : Field->getType()->getAsCXXRecordDecl()->isEmpty()))
- return true;
- if (!Inits.count(Field)) {
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- if (!Diagnosed) {
- SemaRef.Diag(Dcl->getLocation(),
- SemaRef.getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_constexpr_ctor_missing_init
- : diag::ext_constexpr_ctor_missing_init);
- Diagnosed = true;
- }
- SemaRef.Diag(Field->getLocation(),
- diag::note_constexpr_ctor_missing_init);
- } else if (!SemaRef.getLangOpts().CPlusPlus20) {
- return false;
- }
- } else if (Field->isAnonymousStructOrUnion()) {
- const RecordDecl *RD = Field->getType()->castAs<RecordType>()->getDecl();
- for (auto *I : RD->fields())
- // If an anonymous union contains an anonymous struct of which any member
- // is initialized, all members must be initialized.
- if (!RD->isUnion() || Inits.count(I))
- if (!CheckConstexprCtorInitializer(SemaRef, Dcl, I, Inits, Diagnosed,
- Kind))
- return false;
- }
- return true;
- }
- /// Check the provided statement is allowed in a constexpr function
- /// definition.
- static bool
- CheckConstexprFunctionStmt(Sema &SemaRef, const FunctionDecl *Dcl, Stmt *S,
- SmallVectorImpl<SourceLocation> &ReturnStmts,
- SourceLocation &Cxx1yLoc, SourceLocation &Cxx2aLoc,
- SourceLocation &Cxx2bLoc,
- Sema::CheckConstexprKind Kind) {
- // - its function-body shall be [...] a compound-statement that contains only
- switch (S->getStmtClass()) {
- case Stmt::NullStmtClass:
- // - null statements,
- return true;
- case Stmt::DeclStmtClass:
- // - static_assert-declarations
- // - using-declarations,
- // - using-directives,
- // - typedef declarations and alias-declarations that do not define
- // classes or enumerations,
- if (!CheckConstexprDeclStmt(SemaRef, Dcl, cast<DeclStmt>(S), Cxx1yLoc, Kind))
- return false;
- return true;
- case Stmt::ReturnStmtClass:
- // - and exactly one return statement;
- if (isa<CXXConstructorDecl>(Dcl)) {
- // C++1y allows return statements in constexpr constructors.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- return true;
- }
- ReturnStmts.push_back(S->getBeginLoc());
- return true;
- case Stmt::AttributedStmtClass:
- // Attributes on a statement don't affect its formal kind and hence don't
- // affect its validity in a constexpr function.
- return CheckConstexprFunctionStmt(
- SemaRef, Dcl, cast<AttributedStmt>(S)->getSubStmt(), ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind);
- case Stmt::CompoundStmtClass: {
- // C++1y allows compound-statements.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- CompoundStmt *CompStmt = cast<CompoundStmt>(S);
- for (auto *BodyIt : CompStmt->body()) {
- if (!CheckConstexprFunctionStmt(SemaRef, Dcl, BodyIt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- return true;
- }
- case Stmt::IfStmtClass: {
- // C++1y allows if-statements.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- IfStmt *If = cast<IfStmt>(S);
- if (!CheckConstexprFunctionStmt(SemaRef, Dcl, If->getThen(), ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- if (If->getElse() &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, If->getElse(), ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- return true;
- }
- case Stmt::WhileStmtClass:
- case Stmt::DoStmtClass:
- case Stmt::ForStmtClass:
- case Stmt::CXXForRangeStmtClass:
- case Stmt::ContinueStmtClass:
- // C++1y allows all of these. We don't allow them as extensions in C++11,
- // because they don't make sense without variable mutation.
- if (!SemaRef.getLangOpts().CPlusPlus14)
- break;
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- for (Stmt *SubStmt : S->children()) {
- if (SubStmt &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, SubStmt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- return true;
- case Stmt::SwitchStmtClass:
- case Stmt::CaseStmtClass:
- case Stmt::DefaultStmtClass:
- case Stmt::BreakStmtClass:
- // C++1y allows switch-statements, and since they don't need variable
- // mutation, we can reasonably allow them in C++11 as an extension.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- for (Stmt *SubStmt : S->children()) {
- if (SubStmt &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, SubStmt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- return true;
- case Stmt::LabelStmtClass:
- case Stmt::GotoStmtClass:
- if (Cxx2bLoc.isInvalid())
- Cxx2bLoc = S->getBeginLoc();
- for (Stmt *SubStmt : S->children()) {
- if (SubStmt &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, SubStmt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- return true;
- case Stmt::GCCAsmStmtClass:
- case Stmt::MSAsmStmtClass:
- // C++2a allows inline assembly statements.
- case Stmt::CXXTryStmtClass:
- if (Cxx2aLoc.isInvalid())
- Cxx2aLoc = S->getBeginLoc();
- for (Stmt *SubStmt : S->children()) {
- if (SubStmt &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, SubStmt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- return true;
- case Stmt::CXXCatchStmtClass:
- // Do not bother checking the language mode (already covered by the
- // try block check).
- if (!CheckConstexprFunctionStmt(
- SemaRef, Dcl, cast<CXXCatchStmt>(S)->getHandlerBlock(), ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- return true;
- default:
- if (!isa<Expr>(S))
- break;
- // C++1y allows expression-statements.
- if (!Cxx1yLoc.isValid())
- Cxx1yLoc = S->getBeginLoc();
- return true;
- }
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(S->getBeginLoc(), diag::err_constexpr_body_invalid_stmt)
- << isa<CXXConstructorDecl>(Dcl) << Dcl->isConsteval();
- }
- return false;
- }
- /// Check the body for the given constexpr function declaration only contains
- /// the permitted types of statement. C++11 [dcl.constexpr]p3,p4.
- ///
- /// \return true if the body is OK, false if we have found or diagnosed a
- /// problem.
- static bool CheckConstexprFunctionBody(Sema &SemaRef, const FunctionDecl *Dcl,
- Stmt *Body,
- Sema::CheckConstexprKind Kind) {
- SmallVector<SourceLocation, 4> ReturnStmts;
- if (isa<CXXTryStmt>(Body)) {
- // C++11 [dcl.constexpr]p3:
- // The definition of a constexpr function shall satisfy the following
- // constraints: [...]
- // - its function-body shall be = delete, = default, or a
- // compound-statement
- //
- // C++11 [dcl.constexpr]p4:
- // In the definition of a constexpr constructor, [...]
- // - its function-body shall not be a function-try-block;
- //
- // This restriction is lifted in C++2a, as long as inner statements also
- // apply the general constexpr rules.
- switch (Kind) {
- case Sema::CheckConstexprKind::CheckValid:
- if (!SemaRef.getLangOpts().CPlusPlus20)
- return false;
- break;
- case Sema::CheckConstexprKind::Diagnose:
- SemaRef.Diag(Body->getBeginLoc(),
- !SemaRef.getLangOpts().CPlusPlus20
- ? diag::ext_constexpr_function_try_block_cxx20
- : diag::warn_cxx17_compat_constexpr_function_try_block)
- << isa<CXXConstructorDecl>(Dcl);
- break;
- }
- }
- // - its function-body shall be [...] a compound-statement that contains only
- // [... list of cases ...]
- //
- // Note that walking the children here is enough to properly check for
- // CompoundStmt and CXXTryStmt body.
- SourceLocation Cxx1yLoc, Cxx2aLoc, Cxx2bLoc;
- for (Stmt *SubStmt : Body->children()) {
- if (SubStmt &&
- !CheckConstexprFunctionStmt(SemaRef, Dcl, SubStmt, ReturnStmts,
- Cxx1yLoc, Cxx2aLoc, Cxx2bLoc, Kind))
- return false;
- }
- if (Kind == Sema::CheckConstexprKind::CheckValid) {
- // If this is only valid as an extension, report that we don't satisfy the
- // constraints of the current language.
- if ((Cxx2bLoc.isValid() && !SemaRef.getLangOpts().CPlusPlus2b) ||
- (Cxx2aLoc.isValid() && !SemaRef.getLangOpts().CPlusPlus20) ||
- (Cxx1yLoc.isValid() && !SemaRef.getLangOpts().CPlusPlus17))
- return false;
- } else if (Cxx2bLoc.isValid()) {
- SemaRef.Diag(Cxx2bLoc,
- SemaRef.getLangOpts().CPlusPlus2b
- ? diag::warn_cxx20_compat_constexpr_body_invalid_stmt
- : diag::ext_constexpr_body_invalid_stmt_cxx2b)
- << isa<CXXConstructorDecl>(Dcl);
- } else if (Cxx2aLoc.isValid()) {
- SemaRef.Diag(Cxx2aLoc,
- SemaRef.getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_constexpr_body_invalid_stmt
- : diag::ext_constexpr_body_invalid_stmt_cxx20)
- << isa<CXXConstructorDecl>(Dcl);
- } else if (Cxx1yLoc.isValid()) {
- SemaRef.Diag(Cxx1yLoc,
- SemaRef.getLangOpts().CPlusPlus14
- ? diag::warn_cxx11_compat_constexpr_body_invalid_stmt
- : diag::ext_constexpr_body_invalid_stmt)
- << isa<CXXConstructorDecl>(Dcl);
- }
- if (const CXXConstructorDecl *Constructor
- = dyn_cast<CXXConstructorDecl>(Dcl)) {
- const CXXRecordDecl *RD = Constructor->getParent();
- // DR1359:
- // - every non-variant non-static data member and base class sub-object
- // shall be initialized;
- // DR1460:
- // - if the class is a union having variant members, exactly one of them
- // shall be initialized;
- if (RD->isUnion()) {
- if (Constructor->getNumCtorInitializers() == 0 &&
- RD->hasVariantMembers()) {
- if (Kind == Sema::CheckConstexprKind::Diagnose) {
- SemaRef.Diag(
- Dcl->getLocation(),
- SemaRef.getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_constexpr_union_ctor_no_init
- : diag::ext_constexpr_union_ctor_no_init);
- } else if (!SemaRef.getLangOpts().CPlusPlus20) {
- return false;
- }
- }
- } else if (!Constructor->isDependentContext() &&
- !Constructor->isDelegatingConstructor()) {
- assert(RD->getNumVBases() == 0 && "constexpr ctor with virtual bases");
- // Skip detailed checking if we have enough initializers, and we would
- // allow at most one initializer per member.
- bool AnyAnonStructUnionMembers = false;
- unsigned Fields = 0;
- for (CXXRecordDecl::field_iterator I = RD->field_begin(),
- E = RD->field_end(); I != E; ++I, ++Fields) {
- if (I->isAnonymousStructOrUnion()) {
- AnyAnonStructUnionMembers = true;
- break;
- }
- }
- // DR1460:
- // - if the class is a union-like class, but is not a union, for each of
- // its anonymous union members having variant members, exactly one of
- // them shall be initialized;
- if (AnyAnonStructUnionMembers ||
- Constructor->getNumCtorInitializers() != RD->getNumBases() + Fields) {
- // Check initialization of non-static data members. Base classes are
- // always initialized so do not need to be checked. Dependent bases
- // might not have initializers in the member initializer list.
- llvm::SmallSet<Decl*, 16> Inits;
- for (const auto *I: Constructor->inits()) {
- if (FieldDecl *FD = I->getMember())
- Inits.insert(FD);
- else if (IndirectFieldDecl *ID = I->getIndirectMember())
- Inits.insert(ID->chain_begin(), ID->chain_end());
- }
- bool Diagnosed = false;
- for (auto *I : RD->fields())
- if (!CheckConstexprCtorInitializer(SemaRef, Dcl, I, Inits, Diagnosed,
- Kind))
- return false;
- }
- }
- } else {
- if (ReturnStmts.empty()) {
- // C++1y doesn't require constexpr functions to contain a 'return'
- // statement. We still do, unless the return type might be void, because
- // otherwise if there's no return statement, the function cannot
- // be used in a core constant expression.
- bool OK = SemaRef.getLangOpts().CPlusPlus14 &&
- (Dcl->getReturnType()->isVoidType() ||
- Dcl->getReturnType()->isDependentType());
- switch (Kind) {
- case Sema::CheckConstexprKind::Diagnose:
- SemaRef.Diag(Dcl->getLocation(),
- OK ? diag::warn_cxx11_compat_constexpr_body_no_return
- : diag::err_constexpr_body_no_return)
- << Dcl->isConsteval();
- if (!OK)
- return false;
- break;
- case Sema::CheckConstexprKind::CheckValid:
- // The formal requirements don't include this rule in C++14, even
- // though the "must be able to produce a constant expression" rules
- // still imply it in some cases.
- if (!SemaRef.getLangOpts().CPlusPlus14)
- return false;
- break;
- }
- } else if (ReturnStmts.size() > 1) {
- switch (Kind) {
- case Sema::CheckConstexprKind::Diagnose:
- SemaRef.Diag(
- ReturnStmts.back(),
- SemaRef.getLangOpts().CPlusPlus14
- ? diag::warn_cxx11_compat_constexpr_body_multiple_return
- : diag::ext_constexpr_body_multiple_return);
- for (unsigned I = 0; I < ReturnStmts.size() - 1; ++I)
- SemaRef.Diag(ReturnStmts[I],
- diag::note_constexpr_body_previous_return);
- break;
- case Sema::CheckConstexprKind::CheckValid:
- if (!SemaRef.getLangOpts().CPlusPlus14)
- return false;
- break;
- }
- }
- }
- // C++11 [dcl.constexpr]p5:
- // if no function argument values exist such that the function invocation
- // substitution would produce a constant expression, the program is
- // ill-formed; no diagnostic required.
- // C++11 [dcl.constexpr]p3:
- // - every constructor call and implicit conversion used in initializing the
- // return value shall be one of those allowed in a constant expression.
- // C++11 [dcl.constexpr]p4:
- // - every constructor involved in initializing non-static data members and
- // base class sub-objects shall be a constexpr constructor.
- //
- // Note that this rule is distinct from the "requirements for a constexpr
- // function", so is not checked in CheckValid mode.
- SmallVector<PartialDiagnosticAt, 8> Diags;
- if (Kind == Sema::CheckConstexprKind::Diagnose &&
- !Expr::isPotentialConstantExpr(Dcl, Diags)) {
- SemaRef.Diag(Dcl->getLocation(),
- diag::ext_constexpr_function_never_constant_expr)
- << isa<CXXConstructorDecl>(Dcl) << Dcl->isConsteval();
- for (size_t I = 0, N = Diags.size(); I != N; ++I)
- SemaRef.Diag(Diags[I].first, Diags[I].second);
- // Don't return false here: we allow this for compatibility in
- // system headers.
- }
- return true;
- }
- /// Get the class that is directly named by the current context. This is the
- /// class for which an unqualified-id in this scope could name a constructor
- /// or destructor.
- ///
- /// If the scope specifier denotes a class, this will be that class.
- /// If the scope specifier is empty, this will be the class whose
- /// member-specification we are currently within. Otherwise, there
- /// is no such class.
- CXXRecordDecl *Sema::getCurrentClass(Scope *, const CXXScopeSpec *SS) {
- assert(getLangOpts().CPlusPlus && "No class names in C!");
- if (SS && SS->isInvalid())
- return nullptr;
- if (SS && SS->isNotEmpty()) {
- DeclContext *DC = computeDeclContext(*SS, true);
- return dyn_cast_or_null<CXXRecordDecl>(DC);
- }
- return dyn_cast_or_null<CXXRecordDecl>(CurContext);
- }
- /// isCurrentClassName - Determine whether the identifier II is the
- /// name of the class type currently being defined. In the case of
- /// nested classes, this will only return true if II is the name of
- /// the innermost class.
- bool Sema::isCurrentClassName(const IdentifierInfo &II, Scope *S,
- const CXXScopeSpec *SS) {
- CXXRecordDecl *CurDecl = getCurrentClass(S, SS);
- return CurDecl && &II == CurDecl->getIdentifier();
- }
- /// Determine whether the identifier II is a typo for the name of
- /// the class type currently being defined. If so, update it to the identifier
- /// that should have been used.
- bool Sema::isCurrentClassNameTypo(IdentifierInfo *&II, const CXXScopeSpec *SS) {
- assert(getLangOpts().CPlusPlus && "No class names in C!");
- if (!getLangOpts().SpellChecking)
- return false;
- CXXRecordDecl *CurDecl;
- if (SS && SS->isSet() && !SS->isInvalid()) {
- DeclContext *DC = computeDeclContext(*SS, true);
- CurDecl = dyn_cast_or_null<CXXRecordDecl>(DC);
- } else
- CurDecl = dyn_cast_or_null<CXXRecordDecl>(CurContext);
- if (CurDecl && CurDecl->getIdentifier() && II != CurDecl->getIdentifier() &&
- 3 * II->getName().edit_distance(CurDecl->getIdentifier()->getName())
- < II->getLength()) {
- II = CurDecl->getIdentifier();
- return true;
- }
- return false;
- }
- /// Determine whether the given class is a base class of the given
- /// class, including looking at dependent bases.
- static bool findCircularInheritance(const CXXRecordDecl *Class,
- const CXXRecordDecl *Current) {
- SmallVector<const CXXRecordDecl*, 8> Queue;
- Class = Class->getCanonicalDecl();
- while (true) {
- for (const auto &I : Current->bases()) {
- CXXRecordDecl *Base = I.getType()->getAsCXXRecordDecl();
- if (!Base)
- continue;
- Base = Base->getDefinition();
- if (!Base)
- continue;
- if (Base->getCanonicalDecl() == Class)
- return true;
- Queue.push_back(Base);
- }
- if (Queue.empty())
- return false;
- Current = Queue.pop_back_val();
- }
- return false;
- }
- /// Check the validity of a C++ base class specifier.
- ///
- /// \returns a new CXXBaseSpecifier if well-formed, emits diagnostics
- /// and returns NULL otherwise.
- CXXBaseSpecifier *
- Sema::CheckBaseSpecifier(CXXRecordDecl *Class,
- SourceRange SpecifierRange,
- bool Virtual, AccessSpecifier Access,
- TypeSourceInfo *TInfo,
- SourceLocation EllipsisLoc) {
- // In HLSL, unspecified class access is public rather than private.
- if (getLangOpts().HLSL && Class->getTagKind() == TTK_Class &&
- Access == AS_none)
- Access = AS_public;
- QualType BaseType = TInfo->getType();
- if (BaseType->containsErrors()) {
- // Already emitted a diagnostic when parsing the error type.
- return nullptr;
- }
- // C++ [class.union]p1:
- // A union shall not have base classes.
- if (Class->isUnion()) {
- Diag(Class->getLocation(), diag::err_base_clause_on_union)
- << SpecifierRange;
- return nullptr;
- }
- if (EllipsisLoc.isValid() &&
- !TInfo->getType()->containsUnexpandedParameterPack()) {
- Diag(EllipsisLoc, diag::err_pack_expansion_without_parameter_packs)
- << TInfo->getTypeLoc().getSourceRange();
- EllipsisLoc = SourceLocation();
- }
- SourceLocation BaseLoc = TInfo->getTypeLoc().getBeginLoc();
- if (BaseType->isDependentType()) {
- // Make sure that we don't have circular inheritance among our dependent
- // bases. For non-dependent bases, the check for completeness below handles
- // this.
- if (CXXRecordDecl *BaseDecl = BaseType->getAsCXXRecordDecl()) {
- if (BaseDecl->getCanonicalDecl() == Class->getCanonicalDecl() ||
- ((BaseDecl = BaseDecl->getDefinition()) &&
- findCircularInheritance(Class, BaseDecl))) {
- Diag(BaseLoc, diag::err_circular_inheritance)
- << BaseType << Context.getTypeDeclType(Class);
- if (BaseDecl->getCanonicalDecl() != Class->getCanonicalDecl())
- Diag(BaseDecl->getLocation(), diag::note_previous_decl)
- << BaseType;
- return nullptr;
- }
- }
- // Make sure that we don't make an ill-formed AST where the type of the
- // Class is non-dependent and its attached base class specifier is an
- // dependent type, which violates invariants in many clang code paths (e.g.
- // constexpr evaluator). If this case happens (in errory-recovery mode), we
- // explicitly mark the Class decl invalid. The diagnostic was already
- // emitted.
- if (!Class->getTypeForDecl()->isDependentType())
- Class->setInvalidDecl();
- return new (Context) CXXBaseSpecifier(SpecifierRange, Virtual,
- Class->getTagKind() == TTK_Class,
- Access, TInfo, EllipsisLoc);
- }
- // Base specifiers must be record types.
- if (!BaseType->isRecordType()) {
- Diag(BaseLoc, diag::err_base_must_be_class) << SpecifierRange;
- return nullptr;
- }
- // C++ [class.union]p1:
- // A union shall not be used as a base class.
- if (BaseType->isUnionType()) {
- Diag(BaseLoc, diag::err_union_as_base_class) << SpecifierRange;
- return nullptr;
- }
- // For the MS ABI, propagate DLL attributes to base class templates.
- if (Context.getTargetInfo().getCXXABI().isMicrosoft()) {
- if (Attr *ClassAttr = getDLLAttr(Class)) {
- if (auto *BaseTemplate = dyn_cast_or_null<ClassTemplateSpecializationDecl>(
- BaseType->getAsCXXRecordDecl())) {
- propagateDLLAttrToBaseClassTemplate(Class, ClassAttr, BaseTemplate,
- BaseLoc);
- }
- }
- }
- // C++ [class.derived]p2:
- // The class-name in a base-specifier shall not be an incompletely
- // defined class.
- if (RequireCompleteType(BaseLoc, BaseType,
- diag::err_incomplete_base_class, SpecifierRange)) {
- Class->setInvalidDecl();
- return nullptr;
- }
- // If the base class is polymorphic or isn't empty, the new one is/isn't, too.
- RecordDecl *BaseDecl = BaseType->castAs<RecordType>()->getDecl();
- assert(BaseDecl && "Record type has no declaration");
- BaseDecl = BaseDecl->getDefinition();
- assert(BaseDecl && "Base type is not incomplete, but has no definition");
- CXXRecordDecl *CXXBaseDecl = cast<CXXRecordDecl>(BaseDecl);
- assert(CXXBaseDecl && "Base type is not a C++ type");
- // Microsoft docs say:
- // "If a base-class has a code_seg attribute, derived classes must have the
- // same attribute."
- const auto *BaseCSA = CXXBaseDecl->getAttr<CodeSegAttr>();
- const auto *DerivedCSA = Class->getAttr<CodeSegAttr>();
- if ((DerivedCSA || BaseCSA) &&
- (!BaseCSA || !DerivedCSA || BaseCSA->getName() != DerivedCSA->getName())) {
- Diag(Class->getLocation(), diag::err_mismatched_code_seg_base);
- Diag(CXXBaseDecl->getLocation(), diag::note_base_class_specified_here)
- << CXXBaseDecl;
- return nullptr;
- }
- // A class which contains a flexible array member is not suitable for use as a
- // base class:
- // - If the layout determines that a base comes before another base,
- // the flexible array member would index into the subsequent base.
- // - If the layout determines that base comes before the derived class,
- // the flexible array member would index into the derived class.
- if (CXXBaseDecl->hasFlexibleArrayMember()) {
- Diag(BaseLoc, diag::err_base_class_has_flexible_array_member)
- << CXXBaseDecl->getDeclName();
- return nullptr;
- }
- // C++ [class]p3:
- // If a class is marked final and it appears as a base-type-specifier in
- // base-clause, the program is ill-formed.
- if (FinalAttr *FA = CXXBaseDecl->getAttr<FinalAttr>()) {
- Diag(BaseLoc, diag::err_class_marked_final_used_as_base)
- << CXXBaseDecl->getDeclName()
- << FA->isSpelledAsSealed();
- Diag(CXXBaseDecl->getLocation(), diag::note_entity_declared_at)
- << CXXBaseDecl->getDeclName() << FA->getRange();
- return nullptr;
- }
- if (BaseDecl->isInvalidDecl())
- Class->setInvalidDecl();
- // Create the base specifier.
- return new (Context) CXXBaseSpecifier(SpecifierRange, Virtual,
- Class->getTagKind() == TTK_Class,
- Access, TInfo, EllipsisLoc);
- }
- /// ActOnBaseSpecifier - Parsed a base specifier. A base specifier is
- /// one entry in the base class list of a class specifier, for
- /// example:
- /// class foo : public bar, virtual private baz {
- /// 'public bar' and 'virtual private baz' are each base-specifiers.
- BaseResult Sema::ActOnBaseSpecifier(Decl *classdecl, SourceRange SpecifierRange,
- const ParsedAttributesView &Attributes,
- bool Virtual, AccessSpecifier Access,
- ParsedType basetype, SourceLocation BaseLoc,
- SourceLocation EllipsisLoc) {
- if (!classdecl)
- return true;
- AdjustDeclIfTemplate(classdecl);
- CXXRecordDecl *Class = dyn_cast<CXXRecordDecl>(classdecl);
- if (!Class)
- return true;
- // We haven't yet attached the base specifiers.
- Class->setIsParsingBaseSpecifiers();
- // We do not support any C++11 attributes on base-specifiers yet.
- // Diagnose any attributes we see.
- for (const ParsedAttr &AL : Attributes) {
- if (AL.isInvalid() || AL.getKind() == ParsedAttr::IgnoredAttribute)
- continue;
- Diag(AL.getLoc(), AL.getKind() == ParsedAttr::UnknownAttribute
- ? (unsigned)diag::warn_unknown_attribute_ignored
- : (unsigned)diag::err_base_specifier_attribute)
- << AL << AL.getRange();
- }
- TypeSourceInfo *TInfo = nullptr;
- GetTypeFromParser(basetype, &TInfo);
- if (EllipsisLoc.isInvalid() &&
- DiagnoseUnexpandedParameterPack(SpecifierRange.getBegin(), TInfo,
- UPPC_BaseType))
- return true;
- if (CXXBaseSpecifier *BaseSpec = CheckBaseSpecifier(Class, SpecifierRange,
- Virtual, Access, TInfo,
- EllipsisLoc))
- return BaseSpec;
- else
- Class->setInvalidDecl();
- return true;
- }
- /// Use small set to collect indirect bases. As this is only used
- /// locally, there's no need to abstract the small size parameter.
- typedef llvm::SmallPtrSet<QualType, 4> IndirectBaseSet;
- /// Recursively add the bases of Type. Don't add Type itself.
- static void
- NoteIndirectBases(ASTContext &Context, IndirectBaseSet &Set,
- const QualType &Type)
- {
- // Even though the incoming type is a base, it might not be
- // a class -- it could be a template parm, for instance.
- if (auto Rec = Type->getAs<RecordType>()) {
- auto Decl = Rec->getAsCXXRecordDecl();
- // Iterate over its bases.
- for (const auto &BaseSpec : Decl->bases()) {
- QualType Base = Context.getCanonicalType(BaseSpec.getType())
- .getUnqualifiedType();
- if (Set.insert(Base).second)
- // If we've not already seen it, recurse.
- NoteIndirectBases(Context, Set, Base);
- }
- }
- }
- /// Performs the actual work of attaching the given base class
- /// specifiers to a C++ class.
- bool Sema::AttachBaseSpecifiers(CXXRecordDecl *Class,
- MutableArrayRef<CXXBaseSpecifier *> Bases) {
- if (Bases.empty())
- return false;
- // Used to keep track of which base types we have already seen, so
- // that we can properly diagnose redundant direct base types. Note
- // that the key is always the unqualified canonical type of the base
- // class.
- std::map<QualType, CXXBaseSpecifier*, QualTypeOrdering> KnownBaseTypes;
- // Used to track indirect bases so we can see if a direct base is
- // ambiguous.
- IndirectBaseSet IndirectBaseTypes;
- // Copy non-redundant base specifiers into permanent storage.
- unsigned NumGoodBases = 0;
- bool Invalid = false;
- for (unsigned idx = 0; idx < Bases.size(); ++idx) {
- QualType NewBaseType
- = Context.getCanonicalType(Bases[idx]->getType());
- NewBaseType = NewBaseType.getLocalUnqualifiedType();
- CXXBaseSpecifier *&KnownBase = KnownBaseTypes[NewBaseType];
- if (KnownBase) {
- // C++ [class.mi]p3:
- // A class shall not be specified as a direct base class of a
- // derived class more than once.
- Diag(Bases[idx]->getBeginLoc(), diag::err_duplicate_base_class)
- << KnownBase->getType() << Bases[idx]->getSourceRange();
- // Delete the duplicate base class specifier; we're going to
- // overwrite its pointer later.
- Context.Deallocate(Bases[idx]);
- Invalid = true;
- } else {
- // Okay, add this new base class.
- KnownBase = Bases[idx];
- Bases[NumGoodBases++] = Bases[idx];
- if (NewBaseType->isDependentType())
- continue;
- // Note this base's direct & indirect bases, if there could be ambiguity.
- if (Bases.size() > 1)
- NoteIndirectBases(Context, IndirectBaseTypes, NewBaseType);
- if (const RecordType *Record = NewBaseType->getAs<RecordType>()) {
- const CXXRecordDecl *RD = cast<CXXRecordDecl>(Record->getDecl());
- if (Class->isInterface() &&
- (!RD->isInterfaceLike() ||
- KnownBase->getAccessSpecifier() != AS_public)) {
- // The Microsoft extension __interface does not permit bases that
- // are not themselves public interfaces.
- Diag(KnownBase->getBeginLoc(), diag::err_invalid_base_in_interface)
- << getRecordDiagFromTagKind(RD->getTagKind()) << RD
- << RD->getSourceRange();
- Invalid = true;
- }
- if (RD->hasAttr<WeakAttr>())
- Class->addAttr(WeakAttr::CreateImplicit(Context));
- }
- }
- }
- // Attach the remaining base class specifiers to the derived class.
- Class->setBases(Bases.data(), NumGoodBases);
- // Check that the only base classes that are duplicate are virtual.
- for (unsigned idx = 0; idx < NumGoodBases; ++idx) {
- // Check whether this direct base is inaccessible due to ambiguity.
- QualType BaseType = Bases[idx]->getType();
- // Skip all dependent types in templates being used as base specifiers.
- // Checks below assume that the base specifier is a CXXRecord.
- if (BaseType->isDependentType())
- continue;
- CanQualType CanonicalBase = Context.getCanonicalType(BaseType)
- .getUnqualifiedType();
- if (IndirectBaseTypes.count(CanonicalBase)) {
- CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
- /*DetectVirtual=*/true);
- bool found
- = Class->isDerivedFrom(CanonicalBase->getAsCXXRecordDecl(), Paths);
- assert(found);
- (void)found;
- if (Paths.isAmbiguous(CanonicalBase))
- Diag(Bases[idx]->getBeginLoc(), diag::warn_inaccessible_base_class)
- << BaseType << getAmbiguousPathsDisplayString(Paths)
- << Bases[idx]->getSourceRange();
- else
- assert(Bases[idx]->isVirtual());
- }
- // Delete the base class specifier, since its data has been copied
- // into the CXXRecordDecl.
- Context.Deallocate(Bases[idx]);
- }
- return Invalid;
- }
- /// ActOnBaseSpecifiers - Attach the given base specifiers to the
- /// class, after checking whether there are any duplicate base
- /// classes.
- void Sema::ActOnBaseSpecifiers(Decl *ClassDecl,
- MutableArrayRef<CXXBaseSpecifier *> Bases) {
- if (!ClassDecl || Bases.empty())
- return;
- AdjustDeclIfTemplate(ClassDecl);
- AttachBaseSpecifiers(cast<CXXRecordDecl>(ClassDecl), Bases);
- }
- /// Determine whether the type \p Derived is a C++ class that is
- /// derived from the type \p Base.
- bool Sema::IsDerivedFrom(SourceLocation Loc, QualType Derived, QualType Base) {
- if (!getLangOpts().CPlusPlus)
- return false;
- CXXRecordDecl *DerivedRD = Derived->getAsCXXRecordDecl();
- if (!DerivedRD)
- return false;
- CXXRecordDecl *BaseRD = Base->getAsCXXRecordDecl();
- if (!BaseRD)
- return false;
- // If either the base or the derived type is invalid, don't try to
- // check whether one is derived from the other.
- if (BaseRD->isInvalidDecl() || DerivedRD->isInvalidDecl())
- return false;
- // FIXME: In a modules build, do we need the entire path to be visible for us
- // to be able to use the inheritance relationship?
- if (!isCompleteType(Loc, Derived) && !DerivedRD->isBeingDefined())
- return false;
- return DerivedRD->isDerivedFrom(BaseRD);
- }
- /// Determine whether the type \p Derived is a C++ class that is
- /// derived from the type \p Base.
- bool Sema::IsDerivedFrom(SourceLocation Loc, QualType Derived, QualType Base,
- CXXBasePaths &Paths) {
- if (!getLangOpts().CPlusPlus)
- return false;
- CXXRecordDecl *DerivedRD = Derived->getAsCXXRecordDecl();
- if (!DerivedRD)
- return false;
- CXXRecordDecl *BaseRD = Base->getAsCXXRecordDecl();
- if (!BaseRD)
- return false;
- if (!isCompleteType(Loc, Derived) && !DerivedRD->isBeingDefined())
- return false;
- return DerivedRD->isDerivedFrom(BaseRD, Paths);
- }
- static void BuildBasePathArray(const CXXBasePath &Path,
- CXXCastPath &BasePathArray) {
- // We first go backward and check if we have a virtual base.
- // FIXME: It would be better if CXXBasePath had the base specifier for
- // the nearest virtual base.
- unsigned Start = 0;
- for (unsigned I = Path.size(); I != 0; --I) {
- if (Path[I - 1].Base->isVirtual()) {
- Start = I - 1;
- break;
- }
- }
- // Now add all bases.
- for (unsigned I = Start, E = Path.size(); I != E; ++I)
- BasePathArray.push_back(const_cast<CXXBaseSpecifier*>(Path[I].Base));
- }
- void Sema::BuildBasePathArray(const CXXBasePaths &Paths,
- CXXCastPath &BasePathArray) {
- assert(BasePathArray.empty() && "Base path array must be empty!");
- assert(Paths.isRecordingPaths() && "Must record paths!");
- return ::BuildBasePathArray(Paths.front(), BasePathArray);
- }
- /// CheckDerivedToBaseConversion - Check whether the Derived-to-Base
- /// conversion (where Derived and Base are class types) is
- /// well-formed, meaning that the conversion is unambiguous (and
- /// that all of the base classes are accessible). Returns true
- /// and emits a diagnostic if the code is ill-formed, returns false
- /// otherwise. Loc is the location where this routine should point to
- /// if there is an error, and Range is the source range to highlight
- /// if there is an error.
- ///
- /// If either InaccessibleBaseID or AmbiguousBaseConvID are 0, then the
- /// diagnostic for the respective type of error will be suppressed, but the
- /// check for ill-formed code will still be performed.
- bool
- Sema::CheckDerivedToBaseConversion(QualType Derived, QualType Base,
- unsigned InaccessibleBaseID,
- unsigned AmbiguousBaseConvID,
- SourceLocation Loc, SourceRange Range,
- DeclarationName Name,
- CXXCastPath *BasePath,
- bool IgnoreAccess) {
- // First, determine whether the path from Derived to Base is
- // ambiguous. This is slightly more expensive than checking whether
- // the Derived to Base conversion exists, because here we need to
- // explore multiple paths to determine if there is an ambiguity.
- CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
- /*DetectVirtual=*/false);
- bool DerivationOkay = IsDerivedFrom(Loc, Derived, Base, Paths);
- if (!DerivationOkay)
- return true;
- const CXXBasePath *Path = nullptr;
- if (!Paths.isAmbiguous(Context.getCanonicalType(Base).getUnqualifiedType()))
- Path = &Paths.front();
- // For MSVC compatibility, check if Derived directly inherits from Base. Clang
- // warns about this hierarchy under -Winaccessible-base, but MSVC allows the
- // user to access such bases.
- if (!Path && getLangOpts().MSVCCompat) {
- for (const CXXBasePath &PossiblePath : Paths) {
- if (PossiblePath.size() == 1) {
- Path = &PossiblePath;
- if (AmbiguousBaseConvID)
- Diag(Loc, diag::ext_ms_ambiguous_direct_base)
- << Base << Derived << Range;
- break;
- }
- }
- }
- if (Path) {
- if (!IgnoreAccess) {
- // Check that the base class can be accessed.
- switch (
- CheckBaseClassAccess(Loc, Base, Derived, *Path, InaccessibleBaseID)) {
- case AR_inaccessible:
- return true;
- case AR_accessible:
- case AR_dependent:
- case AR_delayed:
- break;
- }
- }
- // Build a base path if necessary.
- if (BasePath)
- ::BuildBasePathArray(*Path, *BasePath);
- return false;
- }
- if (AmbiguousBaseConvID) {
- // We know that the derived-to-base conversion is ambiguous, and
- // we're going to produce a diagnostic. Perform the derived-to-base
- // search just one more time to compute all of the possible paths so
- // that we can print them out. This is more expensive than any of
- // the previous derived-to-base checks we've done, but at this point
- // performance isn't as much of an issue.
- Paths.clear();
- Paths.setRecordingPaths(true);
- bool StillOkay = IsDerivedFrom(Loc, Derived, Base, Paths);
- assert(StillOkay && "Can only be used with a derived-to-base conversion");
- (void)StillOkay;
- // Build up a textual representation of the ambiguous paths, e.g.,
- // D -> B -> A, that will be used to illustrate the ambiguous
- // conversions in the diagnostic. We only print one of the paths
- // to each base class subobject.
- std::string PathDisplayStr = getAmbiguousPathsDisplayString(Paths);
- Diag(Loc, AmbiguousBaseConvID)
- << Derived << Base << PathDisplayStr << Range << Name;
- }
- return true;
- }
- bool
- Sema::CheckDerivedToBaseConversion(QualType Derived, QualType Base,
- SourceLocation Loc, SourceRange Range,
- CXXCastPath *BasePath,
- bool IgnoreAccess) {
- return CheckDerivedToBaseConversion(
- Derived, Base, diag::err_upcast_to_inaccessible_base,
- diag::err_ambiguous_derived_to_base_conv, Loc, Range, DeclarationName(),
- BasePath, IgnoreAccess);
- }
- /// Builds a string representing ambiguous paths from a
- /// specific derived class to different subobjects of the same base
- /// class.
- ///
- /// This function builds a string that can be used in error messages
- /// to show the different paths that one can take through the
- /// inheritance hierarchy to go from the derived class to different
- /// subobjects of a base class. The result looks something like this:
- /// @code
- /// struct D -> struct B -> struct A
- /// struct D -> struct C -> struct A
- /// @endcode
- std::string Sema::getAmbiguousPathsDisplayString(CXXBasePaths &Paths) {
- std::string PathDisplayStr;
- std::set<unsigned> DisplayedPaths;
- for (CXXBasePaths::paths_iterator Path = Paths.begin();
- Path != Paths.end(); ++Path) {
- if (DisplayedPaths.insert(Path->back().SubobjectNumber).second) {
- // We haven't displayed a path to this particular base
- // class subobject yet.
- PathDisplayStr += "\n ";
- PathDisplayStr += Context.getTypeDeclType(Paths.getOrigin()).getAsString();
- for (CXXBasePath::const_iterator Element = Path->begin();
- Element != Path->end(); ++Element)
- PathDisplayStr += " -> " + Element->Base->getType().getAsString();
- }
- }
- return PathDisplayStr;
- }
- //===----------------------------------------------------------------------===//
- // C++ class member Handling
- //===----------------------------------------------------------------------===//
- /// ActOnAccessSpecifier - Parsed an access specifier followed by a colon.
- bool Sema::ActOnAccessSpecifier(AccessSpecifier Access, SourceLocation ASLoc,
- SourceLocation ColonLoc,
- const ParsedAttributesView &Attrs) {
- assert(Access != AS_none && "Invalid kind for syntactic access specifier!");
- AccessSpecDecl *ASDecl = AccessSpecDecl::Create(Context, Access, CurContext,
- ASLoc, ColonLoc);
- CurContext->addHiddenDecl(ASDecl);
- return ProcessAccessDeclAttributeList(ASDecl, Attrs);
- }
- /// CheckOverrideControl - Check C++11 override control semantics.
- void Sema::CheckOverrideControl(NamedDecl *D) {
- if (D->isInvalidDecl())
- return;
- // We only care about "override" and "final" declarations.
- if (!D->hasAttr<OverrideAttr>() && !D->hasAttr<FinalAttr>())
- return;
- CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(D);
- // We can't check dependent instance methods.
- if (MD && MD->isInstance() &&
- (MD->getParent()->hasAnyDependentBases() ||
- MD->getType()->isDependentType()))
- return;
- if (MD && !MD->isVirtual()) {
- // If we have a non-virtual method, check if it hides a virtual method.
- // (In that case, it's most likely the method has the wrong type.)
- SmallVector<CXXMethodDecl *, 8> OverloadedMethods;
- FindHiddenVirtualMethods(MD, OverloadedMethods);
- if (!OverloadedMethods.empty()) {
- if (OverrideAttr *OA = D->getAttr<OverrideAttr>()) {
- Diag(OA->getLocation(),
- diag::override_keyword_hides_virtual_member_function)
- << "override" << (OverloadedMethods.size() > 1);
- } else if (FinalAttr *FA = D->getAttr<FinalAttr>()) {
- Diag(FA->getLocation(),
- diag::override_keyword_hides_virtual_member_function)
- << (FA->isSpelledAsSealed() ? "sealed" : "final")
- << (OverloadedMethods.size() > 1);
- }
- NoteHiddenVirtualMethods(MD, OverloadedMethods);
- MD->setInvalidDecl();
- return;
- }
- // Fall through into the general case diagnostic.
- // FIXME: We might want to attempt typo correction here.
- }
- if (!MD || !MD->isVirtual()) {
- if (OverrideAttr *OA = D->getAttr<OverrideAttr>()) {
- Diag(OA->getLocation(),
- diag::override_keyword_only_allowed_on_virtual_member_functions)
- << "override" << FixItHint::CreateRemoval(OA->getLocation());
- D->dropAttr<OverrideAttr>();
- }
- if (FinalAttr *FA = D->getAttr<FinalAttr>()) {
- Diag(FA->getLocation(),
- diag::override_keyword_only_allowed_on_virtual_member_functions)
- << (FA->isSpelledAsSealed() ? "sealed" : "final")
- << FixItHint::CreateRemoval(FA->getLocation());
- D->dropAttr<FinalAttr>();
- }
- return;
- }
- // C++11 [class.virtual]p5:
- // If a function is marked with the virt-specifier override and
- // does not override a member function of a base class, the program is
- // ill-formed.
- bool HasOverriddenMethods = MD->size_overridden_methods() != 0;
- if (MD->hasAttr<OverrideAttr>() && !HasOverriddenMethods)
- Diag(MD->getLocation(), diag::err_function_marked_override_not_overriding)
- << MD->getDeclName();
- }
- void Sema::DiagnoseAbsenceOfOverrideControl(NamedDecl *D, bool Inconsistent) {
- if (D->isInvalidDecl() || D->hasAttr<OverrideAttr>())
- return;
- CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(D);
- if (!MD || MD->isImplicit() || MD->hasAttr<FinalAttr>())
- return;
- SourceLocation Loc = MD->getLocation();
- SourceLocation SpellingLoc = Loc;
- if (getSourceManager().isMacroArgExpansion(Loc))
- SpellingLoc = getSourceManager().getImmediateExpansionRange(Loc).getBegin();
- SpellingLoc = getSourceManager().getSpellingLoc(SpellingLoc);
- if (SpellingLoc.isValid() && getSourceManager().isInSystemHeader(SpellingLoc))
- return;
- if (MD->size_overridden_methods() > 0) {
- auto EmitDiag = [&](unsigned DiagInconsistent, unsigned DiagSuggest) {
- unsigned DiagID =
- Inconsistent && !Diags.isIgnored(DiagInconsistent, MD->getLocation())
- ? DiagInconsistent
- : DiagSuggest;
- Diag(MD->getLocation(), DiagID) << MD->getDeclName();
- const CXXMethodDecl *OMD = *MD->begin_overridden_methods();
- Diag(OMD->getLocation(), diag::note_overridden_virtual_function);
- };
- if (isa<CXXDestructorDecl>(MD))
- EmitDiag(
- diag::warn_inconsistent_destructor_marked_not_override_overriding,
- diag::warn_suggest_destructor_marked_not_override_overriding);
- else
- EmitDiag(diag::warn_inconsistent_function_marked_not_override_overriding,
- diag::warn_suggest_function_marked_not_override_overriding);
- }
- }
- /// CheckIfOverriddenFunctionIsMarkedFinal - Checks whether a virtual member
- /// function overrides a virtual member function marked 'final', according to
- /// C++11 [class.virtual]p4.
- bool Sema::CheckIfOverriddenFunctionIsMarkedFinal(const CXXMethodDecl *New,
- const CXXMethodDecl *Old) {
- FinalAttr *FA = Old->getAttr<FinalAttr>();
- if (!FA)
- return false;
- Diag(New->getLocation(), diag::err_final_function_overridden)
- << New->getDeclName()
- << FA->isSpelledAsSealed();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function);
- return true;
- }
- static bool InitializationHasSideEffects(const FieldDecl &FD) {
- const Type *T = FD.getType()->getBaseElementTypeUnsafe();
- // FIXME: Destruction of ObjC lifetime types has side-effects.
- if (const CXXRecordDecl *RD = T->getAsCXXRecordDecl())
- return !RD->isCompleteDefinition() ||
- !RD->hasTrivialDefaultConstructor() ||
- !RD->hasTrivialDestructor();
- return false;
- }
- static const ParsedAttr *getMSPropertyAttr(const ParsedAttributesView &list) {
- ParsedAttributesView::const_iterator Itr =
- llvm::find_if(list, [](const ParsedAttr &AL) {
- return AL.isDeclspecPropertyAttribute();
- });
- if (Itr != list.end())
- return &*Itr;
- return nullptr;
- }
- // Check if there is a field shadowing.
- void Sema::CheckShadowInheritedFields(const SourceLocation &Loc,
- DeclarationName FieldName,
- const CXXRecordDecl *RD,
- bool DeclIsField) {
- if (Diags.isIgnored(diag::warn_shadow_field, Loc))
- return;
- // To record a shadowed field in a base
- std::map<CXXRecordDecl*, NamedDecl*> Bases;
- auto FieldShadowed = [&](const CXXBaseSpecifier *Specifier,
- CXXBasePath &Path) {
- const auto Base = Specifier->getType()->getAsCXXRecordDecl();
- // Record an ambiguous path directly
- if (Bases.find(Base) != Bases.end())
- return true;
- for (const auto Field : Base->lookup(FieldName)) {
- if ((isa<FieldDecl>(Field) || isa<IndirectFieldDecl>(Field)) &&
- Field->getAccess() != AS_private) {
- assert(Field->getAccess() != AS_none);
- assert(Bases.find(Base) == Bases.end());
- Bases[Base] = Field;
- return true;
- }
- }
- return false;
- };
- CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
- /*DetectVirtual=*/true);
- if (!RD->lookupInBases(FieldShadowed, Paths))
- return;
- for (const auto &P : Paths) {
- auto Base = P.back().Base->getType()->getAsCXXRecordDecl();
- auto It = Bases.find(Base);
- // Skip duplicated bases
- if (It == Bases.end())
- continue;
- auto BaseField = It->second;
- assert(BaseField->getAccess() != AS_private);
- if (AS_none !=
- CXXRecordDecl::MergeAccess(P.Access, BaseField->getAccess())) {
- Diag(Loc, diag::warn_shadow_field)
- << FieldName << RD << Base << DeclIsField;
- Diag(BaseField->getLocation(), diag::note_shadow_field);
- Bases.erase(It);
- }
- }
- }
- /// ActOnCXXMemberDeclarator - This is invoked when a C++ class member
- /// declarator is parsed. 'AS' is the access specifier, 'BW' specifies the
- /// bitfield width if there is one, 'InitExpr' specifies the initializer if
- /// one has been parsed, and 'InitStyle' is set if an in-class initializer is
- /// present (but parsing it has been deferred).
- NamedDecl *
- Sema::ActOnCXXMemberDeclarator(Scope *S, AccessSpecifier AS, Declarator &D,
- MultiTemplateParamsArg TemplateParameterLists,
- Expr *BW, const VirtSpecifiers &VS,
- InClassInitStyle InitStyle) {
- const DeclSpec &DS = D.getDeclSpec();
- DeclarationNameInfo NameInfo = GetNameForDeclarator(D);
- DeclarationName Name = NameInfo.getName();
- SourceLocation Loc = NameInfo.getLoc();
- // For anonymous bitfields, the location should point to the type.
- if (Loc.isInvalid())
- Loc = D.getBeginLoc();
- Expr *BitWidth = static_cast<Expr*>(BW);
- assert(isa<CXXRecordDecl>(CurContext));
- assert(!DS.isFriendSpecified());
- bool isFunc = D.isDeclarationOfFunction();
- const ParsedAttr *MSPropertyAttr =
- getMSPropertyAttr(D.getDeclSpec().getAttributes());
- if (cast<CXXRecordDecl>(CurContext)->isInterface()) {
- // The Microsoft extension __interface only permits public member functions
- // and prohibits constructors, destructors, operators, non-public member
- // functions, static methods and data members.
- unsigned InvalidDecl;
- bool ShowDeclName = true;
- if (!isFunc &&
- (DS.getStorageClassSpec() == DeclSpec::SCS_typedef || MSPropertyAttr))
- InvalidDecl = 0;
- else if (!isFunc)
- InvalidDecl = 1;
- else if (AS != AS_public)
- InvalidDecl = 2;
- else if (DS.getStorageClassSpec() == DeclSpec::SCS_static)
- InvalidDecl = 3;
- else switch (Name.getNameKind()) {
- case DeclarationName::CXXConstructorName:
- InvalidDecl = 4;
- ShowDeclName = false;
- break;
- case DeclarationName::CXXDestructorName:
- InvalidDecl = 5;
- ShowDeclName = false;
- break;
- case DeclarationName::CXXOperatorName:
- case DeclarationName::CXXConversionFunctionName:
- InvalidDecl = 6;
- break;
- default:
- InvalidDecl = 0;
- break;
- }
- if (InvalidDecl) {
- if (ShowDeclName)
- Diag(Loc, diag::err_invalid_member_in_interface)
- << (InvalidDecl-1) << Name;
- else
- Diag(Loc, diag::err_invalid_member_in_interface)
- << (InvalidDecl-1) << "";
- return nullptr;
- }
- }
- // C++ 9.2p6: A member shall not be declared to have automatic storage
- // duration (auto, register) or with the extern storage-class-specifier.
- // C++ 7.1.1p8: The mutable specifier can be applied only to names of class
- // data members and cannot be applied to names declared const or static,
- // and cannot be applied to reference members.
- switch (DS.getStorageClassSpec()) {
- case DeclSpec::SCS_unspecified:
- case DeclSpec::SCS_typedef:
- case DeclSpec::SCS_static:
- break;
- case DeclSpec::SCS_mutable:
- if (isFunc) {
- Diag(DS.getStorageClassSpecLoc(), diag::err_mutable_function);
- // FIXME: It would be nicer if the keyword was ignored only for this
- // declarator. Otherwise we could get follow-up errors.
- D.getMutableDeclSpec().ClearStorageClassSpecs();
- }
- break;
- default:
- Diag(DS.getStorageClassSpecLoc(),
- diag::err_storageclass_invalid_for_member);
- D.getMutableDeclSpec().ClearStorageClassSpecs();
- break;
- }
- bool isInstField = ((DS.getStorageClassSpec() == DeclSpec::SCS_unspecified ||
- DS.getStorageClassSpec() == DeclSpec::SCS_mutable) &&
- !isFunc);
- if (DS.hasConstexprSpecifier() && isInstField) {
- SemaDiagnosticBuilder B =
- Diag(DS.getConstexprSpecLoc(), diag::err_invalid_constexpr_member);
- SourceLocation ConstexprLoc = DS.getConstexprSpecLoc();
- if (InitStyle == ICIS_NoInit) {
- B << 0 << 0;
- if (D.getDeclSpec().getTypeQualifiers() & DeclSpec::TQ_const)
- B << FixItHint::CreateRemoval(ConstexprLoc);
- else {
- B << FixItHint::CreateReplacement(ConstexprLoc, "const");
- D.getMutableDeclSpec().ClearConstexprSpec();
- const char *PrevSpec;
- unsigned DiagID;
- bool Failed = D.getMutableDeclSpec().SetTypeQual(
- DeclSpec::TQ_const, ConstexprLoc, PrevSpec, DiagID, getLangOpts());
- (void)Failed;
- assert(!Failed && "Making a constexpr member const shouldn't fail");
- }
- } else {
- B << 1;
- const char *PrevSpec;
- unsigned DiagID;
- if (D.getMutableDeclSpec().SetStorageClassSpec(
- *this, DeclSpec::SCS_static, ConstexprLoc, PrevSpec, DiagID,
- Context.getPrintingPolicy())) {
- assert(DS.getStorageClassSpec() == DeclSpec::SCS_mutable &&
- "This is the only DeclSpec that should fail to be applied");
- B << 1;
- } else {
- B << 0 << FixItHint::CreateInsertion(ConstexprLoc, "static ");
- isInstField = false;
- }
- }
- }
- NamedDecl *Member;
- if (isInstField) {
- CXXScopeSpec &SS = D.getCXXScopeSpec();
- // Data members must have identifiers for names.
- if (!Name.isIdentifier()) {
- Diag(Loc, diag::err_bad_variable_name)
- << Name;
- return nullptr;
- }
- IdentifierInfo *II = Name.getAsIdentifierInfo();
- // Member field could not be with "template" keyword.
- // So TemplateParameterLists should be empty in this case.
- if (TemplateParameterLists.size()) {
- TemplateParameterList* TemplateParams = TemplateParameterLists[0];
- if (TemplateParams->size()) {
- // There is no such thing as a member field template.
- Diag(D.getIdentifierLoc(), diag::err_template_member)
- << II
- << SourceRange(TemplateParams->getTemplateLoc(),
- TemplateParams->getRAngleLoc());
- } else {
- // There is an extraneous 'template<>' for this member.
- Diag(TemplateParams->getTemplateLoc(),
- diag::err_template_member_noparams)
- << II
- << SourceRange(TemplateParams->getTemplateLoc(),
- TemplateParams->getRAngleLoc());
- }
- return nullptr;
- }
- if (D.getName().getKind() == UnqualifiedIdKind::IK_TemplateId) {
- Diag(D.getIdentifierLoc(), diag::err_member_with_template_arguments)
- << II
- << SourceRange(D.getName().TemplateId->LAngleLoc,
- D.getName().TemplateId->RAngleLoc)
- << D.getName().TemplateId->LAngleLoc;
- D.SetIdentifier(II, Loc);
- }
- if (SS.isSet() && !SS.isInvalid()) {
- // The user provided a superfluous scope specifier inside a class
- // definition:
- //
- // class X {
- // int X::member;
- // };
- if (DeclContext *DC = computeDeclContext(SS, false))
- diagnoseQualifiedDeclaration(SS, DC, Name, D.getIdentifierLoc(),
- D.getName().getKind() ==
- UnqualifiedIdKind::IK_TemplateId);
- else
- Diag(D.getIdentifierLoc(), diag::err_member_qualification)
- << Name << SS.getRange();
- SS.clear();
- }
- if (MSPropertyAttr) {
- Member = HandleMSProperty(S, cast<CXXRecordDecl>(CurContext), Loc, D,
- BitWidth, InitStyle, AS, *MSPropertyAttr);
- if (!Member)
- return nullptr;
- isInstField = false;
- } else {
- Member = HandleField(S, cast<CXXRecordDecl>(CurContext), Loc, D,
- BitWidth, InitStyle, AS);
- if (!Member)
- return nullptr;
- }
- CheckShadowInheritedFields(Loc, Name, cast<CXXRecordDecl>(CurContext));
- } else {
- Member = HandleDeclarator(S, D, TemplateParameterLists);
- if (!Member)
- return nullptr;
- // Non-instance-fields can't have a bitfield.
- if (BitWidth) {
- if (Member->isInvalidDecl()) {
- // don't emit another diagnostic.
- } else if (isa<VarDecl>(Member) || isa<VarTemplateDecl>(Member)) {
- // C++ 9.6p3: A bit-field shall not be a static member.
- // "static member 'A' cannot be a bit-field"
- Diag(Loc, diag::err_static_not_bitfield)
- << Name << BitWidth->getSourceRange();
- } else if (isa<TypedefDecl>(Member)) {
- // "typedef member 'x' cannot be a bit-field"
- Diag(Loc, diag::err_typedef_not_bitfield)
- << Name << BitWidth->getSourceRange();
- } else {
- // A function typedef ("typedef int f(); f a;").
- // C++ 9.6p3: A bit-field shall have integral or enumeration type.
- Diag(Loc, diag::err_not_integral_type_bitfield)
- << Name << cast<ValueDecl>(Member)->getType()
- << BitWidth->getSourceRange();
- }
- BitWidth = nullptr;
- Member->setInvalidDecl();
- }
- NamedDecl *NonTemplateMember = Member;
- if (FunctionTemplateDecl *FunTmpl = dyn_cast<FunctionTemplateDecl>(Member))
- NonTemplateMember = FunTmpl->getTemplatedDecl();
- else if (VarTemplateDecl *VarTmpl = dyn_cast<VarTemplateDecl>(Member))
- NonTemplateMember = VarTmpl->getTemplatedDecl();
- Member->setAccess(AS);
- // If we have declared a member function template or static data member
- // template, set the access of the templated declaration as well.
- if (NonTemplateMember != Member)
- NonTemplateMember->setAccess(AS);
- // C++ [temp.deduct.guide]p3:
- // A deduction guide [...] for a member class template [shall be
- // declared] with the same access [as the template].
- if (auto *DG = dyn_cast<CXXDeductionGuideDecl>(NonTemplateMember)) {
- auto *TD = DG->getDeducedTemplate();
- // Access specifiers are only meaningful if both the template and the
- // deduction guide are from the same scope.
- if (AS != TD->getAccess() &&
- TD->getDeclContext()->getRedeclContext()->Equals(
- DG->getDeclContext()->getRedeclContext())) {
- Diag(DG->getBeginLoc(), diag::err_deduction_guide_wrong_access);
- Diag(TD->getBeginLoc(), diag::note_deduction_guide_template_access)
- << TD->getAccess();
- const AccessSpecDecl *LastAccessSpec = nullptr;
- for (const auto *D : cast<CXXRecordDecl>(CurContext)->decls()) {
- if (const auto *AccessSpec = dyn_cast<AccessSpecDecl>(D))
- LastAccessSpec = AccessSpec;
- }
- assert(LastAccessSpec && "differing access with no access specifier");
- Diag(LastAccessSpec->getBeginLoc(), diag::note_deduction_guide_access)
- << AS;
- }
- }
- }
- if (VS.isOverrideSpecified())
- Member->addAttr(OverrideAttr::Create(Context, VS.getOverrideLoc(),
- AttributeCommonInfo::AS_Keyword));
- if (VS.isFinalSpecified())
- Member->addAttr(FinalAttr::Create(
- Context, VS.getFinalLoc(), AttributeCommonInfo::AS_Keyword,
- static_cast<FinalAttr::Spelling>(VS.isFinalSpelledSealed())));
- if (VS.getLastLocation().isValid()) {
- // Update the end location of a method that has a virt-specifiers.
- if (CXXMethodDecl *MD = dyn_cast_or_null<CXXMethodDecl>(Member))
- MD->setRangeEnd(VS.getLastLocation());
- }
- CheckOverrideControl(Member);
- assert((Name || isInstField) && "No identifier for non-field ?");
- if (isInstField) {
- FieldDecl *FD = cast<FieldDecl>(Member);
- FieldCollector->Add(FD);
- if (!Diags.isIgnored(diag::warn_unused_private_field, FD->getLocation())) {
- // Remember all explicit private FieldDecls that have a name, no side
- // effects and are not part of a dependent type declaration.
- if (!FD->isImplicit() && FD->getDeclName() &&
- FD->getAccess() == AS_private &&
- !FD->hasAttr<UnusedAttr>() &&
- !FD->getParent()->isDependentContext() &&
- !InitializationHasSideEffects(*FD))
- UnusedPrivateFields.insert(FD);
- }
- }
- return Member;
- }
- namespace {
- class UninitializedFieldVisitor
- : public EvaluatedExprVisitor<UninitializedFieldVisitor> {
- Sema &S;
- // List of Decls to generate a warning on. Also remove Decls that become
- // initialized.
- llvm::SmallPtrSetImpl<ValueDecl*> &Decls;
- // List of base classes of the record. Classes are removed after their
- // initializers.
- llvm::SmallPtrSetImpl<QualType> &BaseClasses;
- // Vector of decls to be removed from the Decl set prior to visiting the
- // nodes. These Decls may have been initialized in the prior initializer.
- llvm::SmallVector<ValueDecl*, 4> DeclsToRemove;
- // If non-null, add a note to the warning pointing back to the constructor.
- const CXXConstructorDecl *Constructor;
- // Variables to hold state when processing an initializer list. When
- // InitList is true, special case initialization of FieldDecls matching
- // InitListFieldDecl.
- bool InitList;
- FieldDecl *InitListFieldDecl;
- llvm::SmallVector<unsigned, 4> InitFieldIndex;
- public:
- typedef EvaluatedExprVisitor<UninitializedFieldVisitor> Inherited;
- UninitializedFieldVisitor(Sema &S,
- llvm::SmallPtrSetImpl<ValueDecl*> &Decls,
- llvm::SmallPtrSetImpl<QualType> &BaseClasses)
- : Inherited(S.Context), S(S), Decls(Decls), BaseClasses(BaseClasses),
- Constructor(nullptr), InitList(false), InitListFieldDecl(nullptr) {}
- // Returns true if the use of ME is not an uninitialized use.
- bool IsInitListMemberExprInitialized(MemberExpr *ME,
- bool CheckReferenceOnly) {
- llvm::SmallVector<FieldDecl*, 4> Fields;
- bool ReferenceField = false;
- while (ME) {
- FieldDecl *FD = dyn_cast<FieldDecl>(ME->getMemberDecl());
- if (!FD)
- return false;
- Fields.push_back(FD);
- if (FD->getType()->isReferenceType())
- ReferenceField = true;
- ME = dyn_cast<MemberExpr>(ME->getBase()->IgnoreParenImpCasts());
- }
- // Binding a reference to an uninitialized field is not an
- // uninitialized use.
- if (CheckReferenceOnly && !ReferenceField)
- return true;
- llvm::SmallVector<unsigned, 4> UsedFieldIndex;
- // Discard the first field since it is the field decl that is being
- // initialized.
- for (const FieldDecl *FD : llvm::drop_begin(llvm::reverse(Fields)))
- UsedFieldIndex.push_back(FD->getFieldIndex());
- for (auto UsedIter = UsedFieldIndex.begin(),
- UsedEnd = UsedFieldIndex.end(),
- OrigIter = InitFieldIndex.begin(),
- OrigEnd = InitFieldIndex.end();
- UsedIter != UsedEnd && OrigIter != OrigEnd; ++UsedIter, ++OrigIter) {
- if (*UsedIter < *OrigIter)
- return true;
- if (*UsedIter > *OrigIter)
- break;
- }
- return false;
- }
- void HandleMemberExpr(MemberExpr *ME, bool CheckReferenceOnly,
- bool AddressOf) {
- if (isa<EnumConstantDecl>(ME->getMemberDecl()))
- return;
- // FieldME is the inner-most MemberExpr that is not an anonymous struct
- // or union.
- MemberExpr *FieldME = ME;
- bool AllPODFields = FieldME->getType().isPODType(S.Context);
- Expr *Base = ME;
- while (MemberExpr *SubME =
- dyn_cast<MemberExpr>(Base->IgnoreParenImpCasts())) {
- if (isa<VarDecl>(SubME->getMemberDecl()))
- return;
- if (FieldDecl *FD = dyn_cast<FieldDecl>(SubME->getMemberDecl()))
- if (!FD->isAnonymousStructOrUnion())
- FieldME = SubME;
- if (!FieldME->getType().isPODType(S.Context))
- AllPODFields = false;
- Base = SubME->getBase();
- }
- if (!isa<CXXThisExpr>(Base->IgnoreParenImpCasts())) {
- Visit(Base);
- return;
- }
- if (AddressOf && AllPODFields)
- return;
- ValueDecl* FoundVD = FieldME->getMemberDecl();
- if (ImplicitCastExpr *BaseCast = dyn_cast<ImplicitCastExpr>(Base)) {
- while (isa<ImplicitCastExpr>(BaseCast->getSubExpr())) {
- BaseCast = cast<ImplicitCastExpr>(BaseCast->getSubExpr());
- }
- if (BaseCast->getCastKind() == CK_UncheckedDerivedToBase) {
- QualType T = BaseCast->getType();
- if (T->isPointerType() &&
- BaseClasses.count(T->getPointeeType())) {
- S.Diag(FieldME->getExprLoc(), diag::warn_base_class_is_uninit)
- << T->getPointeeType() << FoundVD;
- }
- }
- }
- if (!Decls.count(FoundVD))
- return;
- const bool IsReference = FoundVD->getType()->isReferenceType();
- if (InitList && !AddressOf && FoundVD == InitListFieldDecl) {
- // Special checking for initializer lists.
- if (IsInitListMemberExprInitialized(ME, CheckReferenceOnly)) {
- return;
- }
- } else {
- // Prevent double warnings on use of unbounded references.
- if (CheckReferenceOnly && !IsReference)
- return;
- }
- unsigned diag = IsReference
- ? diag::warn_reference_field_is_uninit
- : diag::warn_field_is_uninit;
- S.Diag(FieldME->getExprLoc(), diag) << FoundVD;
- if (Constructor)
- S.Diag(Constructor->getLocation(),
- diag::note_uninit_in_this_constructor)
- << (Constructor->isDefaultConstructor() && Constructor->isImplicit());
- }
- void HandleValue(Expr *E, bool AddressOf) {
- E = E->IgnoreParens();
- if (MemberExpr *ME = dyn_cast<MemberExpr>(E)) {
- HandleMemberExpr(ME, false /*CheckReferenceOnly*/,
- AddressOf /*AddressOf*/);
- return;
- }
- if (ConditionalOperator *CO = dyn_cast<ConditionalOperator>(E)) {
- Visit(CO->getCond());
- HandleValue(CO->getTrueExpr(), AddressOf);
- HandleValue(CO->getFalseExpr(), AddressOf);
- return;
- }
- if (BinaryConditionalOperator *BCO =
- dyn_cast<BinaryConditionalOperator>(E)) {
- Visit(BCO->getCond());
- HandleValue(BCO->getFalseExpr(), AddressOf);
- return;
- }
- if (OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(E)) {
- HandleValue(OVE->getSourceExpr(), AddressOf);
- return;
- }
- if (BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) {
- switch (BO->getOpcode()) {
- default:
- break;
- case(BO_PtrMemD):
- case(BO_PtrMemI):
- HandleValue(BO->getLHS(), AddressOf);
- Visit(BO->getRHS());
- return;
- case(BO_Comma):
- Visit(BO->getLHS());
- HandleValue(BO->getRHS(), AddressOf);
- return;
- }
- }
- Visit(E);
- }
- void CheckInitListExpr(InitListExpr *ILE) {
- InitFieldIndex.push_back(0);
- for (auto *Child : ILE->children()) {
- if (InitListExpr *SubList = dyn_cast<InitListExpr>(Child)) {
- CheckInitListExpr(SubList);
- } else {
- Visit(Child);
- }
- ++InitFieldIndex.back();
- }
- InitFieldIndex.pop_back();
- }
- void CheckInitializer(Expr *E, const CXXConstructorDecl *FieldConstructor,
- FieldDecl *Field, const Type *BaseClass) {
- // Remove Decls that may have been initialized in the previous
- // initializer.
- for (ValueDecl* VD : DeclsToRemove)
- Decls.erase(VD);
- DeclsToRemove.clear();
- Constructor = FieldConstructor;
- InitListExpr *ILE = dyn_cast<InitListExpr>(E);
- if (ILE && Field) {
- InitList = true;
- InitListFieldDecl = Field;
- InitFieldIndex.clear();
- CheckInitListExpr(ILE);
- } else {
- InitList = false;
- Visit(E);
- }
- if (Field)
- Decls.erase(Field);
- if (BaseClass)
- BaseClasses.erase(BaseClass->getCanonicalTypeInternal());
- }
- void VisitMemberExpr(MemberExpr *ME) {
- // All uses of unbounded reference fields will warn.
- HandleMemberExpr(ME, true /*CheckReferenceOnly*/, false /*AddressOf*/);
- }
- void VisitImplicitCastExpr(ImplicitCastExpr *E) {
- if (E->getCastKind() == CK_LValueToRValue) {
- HandleValue(E->getSubExpr(), false /*AddressOf*/);
- return;
- }
- Inherited::VisitImplicitCastExpr(E);
- }
- void VisitCXXConstructExpr(CXXConstructExpr *E) {
- if (E->getConstructor()->isCopyConstructor()) {
- Expr *ArgExpr = E->getArg(0);
- if (InitListExpr *ILE = dyn_cast<InitListExpr>(ArgExpr))
- if (ILE->getNumInits() == 1)
- ArgExpr = ILE->getInit(0);
- if (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(ArgExpr))
- if (ICE->getCastKind() == CK_NoOp)
- ArgExpr = ICE->getSubExpr();
- HandleValue(ArgExpr, false /*AddressOf*/);
- return;
- }
- Inherited::VisitCXXConstructExpr(E);
- }
- void VisitCXXMemberCallExpr(CXXMemberCallExpr *E) {
- Expr *Callee = E->getCallee();
- if (isa<MemberExpr>(Callee)) {
- HandleValue(Callee, false /*AddressOf*/);
- for (auto *Arg : E->arguments())
- Visit(Arg);
- return;
- }
- Inherited::VisitCXXMemberCallExpr(E);
- }
- void VisitCallExpr(CallExpr *E) {
- // Treat std::move as a use.
- if (E->isCallToStdMove()) {
- HandleValue(E->getArg(0), /*AddressOf=*/false);
- return;
- }
- Inherited::VisitCallExpr(E);
- }
- void VisitCXXOperatorCallExpr(CXXOperatorCallExpr *E) {
- Expr *Callee = E->getCallee();
- if (isa<UnresolvedLookupExpr>(Callee))
- return Inherited::VisitCXXOperatorCallExpr(E);
- Visit(Callee);
- for (auto *Arg : E->arguments())
- HandleValue(Arg->IgnoreParenImpCasts(), false /*AddressOf*/);
- }
- void VisitBinaryOperator(BinaryOperator *E) {
- // If a field assignment is detected, remove the field from the
- // uninitiailized field set.
- if (E->getOpcode() == BO_Assign)
- if (MemberExpr *ME = dyn_cast<MemberExpr>(E->getLHS()))
- if (FieldDecl *FD = dyn_cast<FieldDecl>(ME->getMemberDecl()))
- if (!FD->getType()->isReferenceType())
- DeclsToRemove.push_back(FD);
- if (E->isCompoundAssignmentOp()) {
- HandleValue(E->getLHS(), false /*AddressOf*/);
- Visit(E->getRHS());
- return;
- }
- Inherited::VisitBinaryOperator(E);
- }
- void VisitUnaryOperator(UnaryOperator *E) {
- if (E->isIncrementDecrementOp()) {
- HandleValue(E->getSubExpr(), false /*AddressOf*/);
- return;
- }
- if (E->getOpcode() == UO_AddrOf) {
- if (MemberExpr *ME = dyn_cast<MemberExpr>(E->getSubExpr())) {
- HandleValue(ME->getBase(), true /*AddressOf*/);
- return;
- }
- }
- Inherited::VisitUnaryOperator(E);
- }
- };
- // Diagnose value-uses of fields to initialize themselves, e.g.
- // foo(foo)
- // where foo is not also a parameter to the constructor.
- // Also diagnose across field uninitialized use such as
- // x(y), y(x)
- // TODO: implement -Wuninitialized and fold this into that framework.
- static void DiagnoseUninitializedFields(
- Sema &SemaRef, const CXXConstructorDecl *Constructor) {
- if (SemaRef.getDiagnostics().isIgnored(diag::warn_field_is_uninit,
- Constructor->getLocation())) {
- return;
- }
- if (Constructor->isInvalidDecl())
- return;
- const CXXRecordDecl *RD = Constructor->getParent();
- if (RD->isDependentContext())
- return;
- // Holds fields that are uninitialized.
- llvm::SmallPtrSet<ValueDecl*, 4> UninitializedFields;
- // At the beginning, all fields are uninitialized.
- for (auto *I : RD->decls()) {
- if (auto *FD = dyn_cast<FieldDecl>(I)) {
- UninitializedFields.insert(FD);
- } else if (auto *IFD = dyn_cast<IndirectFieldDecl>(I)) {
- UninitializedFields.insert(IFD->getAnonField());
- }
- }
- llvm::SmallPtrSet<QualType, 4> UninitializedBaseClasses;
- for (auto I : RD->bases())
- UninitializedBaseClasses.insert(I.getType().getCanonicalType());
- if (UninitializedFields.empty() && UninitializedBaseClasses.empty())
- return;
- UninitializedFieldVisitor UninitializedChecker(SemaRef,
- UninitializedFields,
- UninitializedBaseClasses);
- for (const auto *FieldInit : Constructor->inits()) {
- if (UninitializedFields.empty() && UninitializedBaseClasses.empty())
- break;
- Expr *InitExpr = FieldInit->getInit();
- if (!InitExpr)
- continue;
- if (CXXDefaultInitExpr *Default =
- dyn_cast<CXXDefaultInitExpr>(InitExpr)) {
- InitExpr = Default->getExpr();
- if (!InitExpr)
- continue;
- // In class initializers will point to the constructor.
- UninitializedChecker.CheckInitializer(InitExpr, Constructor,
- FieldInit->getAnyMember(),
- FieldInit->getBaseClass());
- } else {
- UninitializedChecker.CheckInitializer(InitExpr, nullptr,
- FieldInit->getAnyMember(),
- FieldInit->getBaseClass());
- }
- }
- }
- } // namespace
- /// Enter a new C++ default initializer scope. After calling this, the
- /// caller must call \ref ActOnFinishCXXInClassMemberInitializer, even if
- /// parsing or instantiating the initializer failed.
- void Sema::ActOnStartCXXInClassMemberInitializer() {
- // Create a synthetic function scope to represent the call to the constructor
- // that notionally surrounds a use of this initializer.
- PushFunctionScope();
- }
- void Sema::ActOnStartTrailingRequiresClause(Scope *S, Declarator &D) {
- if (!D.isFunctionDeclarator())
- return;
- auto &FTI = D.getFunctionTypeInfo();
- if (!FTI.Params)
- return;
- for (auto &Param : ArrayRef<DeclaratorChunk::ParamInfo>(FTI.Params,
- FTI.NumParams)) {
- auto *ParamDecl = cast<NamedDecl>(Param.Param);
- if (ParamDecl->getDeclName())
- PushOnScopeChains(ParamDecl, S, /*AddToContext=*/false);
- }
- }
- ExprResult Sema::ActOnFinishTrailingRequiresClause(ExprResult ConstraintExpr) {
- return ActOnRequiresClause(ConstraintExpr);
- }
- ExprResult Sema::ActOnRequiresClause(ExprResult ConstraintExpr) {
- if (ConstraintExpr.isInvalid())
- return ExprError();
- ConstraintExpr = CorrectDelayedTyposInExpr(ConstraintExpr);
- if (ConstraintExpr.isInvalid())
- return ExprError();
- if (DiagnoseUnexpandedParameterPack(ConstraintExpr.get(),
- UPPC_RequiresClause))
- return ExprError();
- return ConstraintExpr;
- }
- ExprResult Sema::ConvertMemberDefaultInitExpression(FieldDecl *FD,
- Expr *InitExpr,
- SourceLocation InitLoc) {
- InitializedEntity Entity =
- InitializedEntity::InitializeMemberFromDefaultMemberInitializer(FD);
- InitializationKind Kind =
- FD->getInClassInitStyle() == ICIS_ListInit
- ? InitializationKind::CreateDirectList(InitExpr->getBeginLoc(),
- InitExpr->getBeginLoc(),
- InitExpr->getEndLoc())
- : InitializationKind::CreateCopy(InitExpr->getBeginLoc(), InitLoc);
- InitializationSequence Seq(*this, Entity, Kind, InitExpr);
- return Seq.Perform(*this, Entity, Kind, InitExpr);
- }
- /// This is invoked after parsing an in-class initializer for a
- /// non-static C++ class member, and after instantiating an in-class initializer
- /// in a class template. Such actions are deferred until the class is complete.
- void Sema::ActOnFinishCXXInClassMemberInitializer(Decl *D,
- SourceLocation InitLoc,
- Expr *InitExpr) {
- // Pop the notional constructor scope we created earlier.
- PopFunctionScopeInfo(nullptr, D);
- FieldDecl *FD = dyn_cast<FieldDecl>(D);
- assert((isa<MSPropertyDecl>(D) || FD->getInClassInitStyle() != ICIS_NoInit) &&
- "must set init style when field is created");
- if (!InitExpr) {
- D->setInvalidDecl();
- if (FD)
- FD->removeInClassInitializer();
- return;
- }
- if (DiagnoseUnexpandedParameterPack(InitExpr, UPPC_Initializer)) {
- FD->setInvalidDecl();
- FD->removeInClassInitializer();
- return;
- }
- ExprResult Init = CorrectDelayedTyposInExpr(InitExpr, /*InitDecl=*/nullptr,
- /*RecoverUncorrectedTypos=*/true);
- assert(Init.isUsable() && "Init should at least have a RecoveryExpr");
- if (!FD->getType()->isDependentType() && !Init.get()->isTypeDependent()) {
- Init = ConvertMemberDefaultInitExpression(FD, Init.get(), InitLoc);
- // C++11 [class.base.init]p7:
- // The initialization of each base and member constitutes a
- // full-expression.
- if (!Init.isInvalid())
- Init = ActOnFinishFullExpr(Init.get(), /*DiscarededValue=*/false);
- if (Init.isInvalid()) {
- FD->setInvalidDecl();
- return;
- }
- }
- FD->setInClassInitializer(Init.get());
- }
- /// Find the direct and/or virtual base specifiers that
- /// correspond to the given base type, for use in base initialization
- /// within a constructor.
- static bool FindBaseInitializer(Sema &SemaRef,
- CXXRecordDecl *ClassDecl,
- QualType BaseType,
- const CXXBaseSpecifier *&DirectBaseSpec,
- const CXXBaseSpecifier *&VirtualBaseSpec) {
- // First, check for a direct base class.
- DirectBaseSpec = nullptr;
- for (const auto &Base : ClassDecl->bases()) {
- if (SemaRef.Context.hasSameUnqualifiedType(BaseType, Base.getType())) {
- // We found a direct base of this type. That's what we're
- // initializing.
- DirectBaseSpec = &Base;
- break;
- }
- }
- // Check for a virtual base class.
- // FIXME: We might be able to short-circuit this if we know in advance that
- // there are no virtual bases.
- VirtualBaseSpec = nullptr;
- if (!DirectBaseSpec || !DirectBaseSpec->isVirtual()) {
- // We haven't found a base yet; search the class hierarchy for a
- // virtual base class.
- CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
- /*DetectVirtual=*/false);
- if (SemaRef.IsDerivedFrom(ClassDecl->getLocation(),
- SemaRef.Context.getTypeDeclType(ClassDecl),
- BaseType, Paths)) {
- for (CXXBasePaths::paths_iterator Path = Paths.begin();
- Path != Paths.end(); ++Path) {
- if (Path->back().Base->isVirtual()) {
- VirtualBaseSpec = Path->back().Base;
- break;
- }
- }
- }
- }
- return DirectBaseSpec || VirtualBaseSpec;
- }
- /// Handle a C++ member initializer using braced-init-list syntax.
- MemInitResult
- Sema::ActOnMemInitializer(Decl *ConstructorD,
- Scope *S,
- CXXScopeSpec &SS,
- IdentifierInfo *MemberOrBase,
- ParsedType TemplateTypeTy,
- const DeclSpec &DS,
- SourceLocation IdLoc,
- Expr *InitList,
- SourceLocation EllipsisLoc) {
- return BuildMemInitializer(ConstructorD, S, SS, MemberOrBase, TemplateTypeTy,
- DS, IdLoc, InitList,
- EllipsisLoc);
- }
- /// Handle a C++ member initializer using parentheses syntax.
- MemInitResult
- Sema::ActOnMemInitializer(Decl *ConstructorD,
- Scope *S,
- CXXScopeSpec &SS,
- IdentifierInfo *MemberOrBase,
- ParsedType TemplateTypeTy,
- const DeclSpec &DS,
- SourceLocation IdLoc,
- SourceLocation LParenLoc,
- ArrayRef<Expr *> Args,
- SourceLocation RParenLoc,
- SourceLocation EllipsisLoc) {
- Expr *List = ParenListExpr::Create(Context, LParenLoc, Args, RParenLoc);
- return BuildMemInitializer(ConstructorD, S, SS, MemberOrBase, TemplateTypeTy,
- DS, IdLoc, List, EllipsisLoc);
- }
- namespace {
- // Callback to only accept typo corrections that can be a valid C++ member
- // initializer: either a non-static field member or a base class.
- class MemInitializerValidatorCCC final : public CorrectionCandidateCallback {
- public:
- explicit MemInitializerValidatorCCC(CXXRecordDecl *ClassDecl)
- : ClassDecl(ClassDecl) {}
- bool ValidateCandidate(const TypoCorrection &candidate) override {
- if (NamedDecl *ND = candidate.getCorrectionDecl()) {
- if (FieldDecl *Member = dyn_cast<FieldDecl>(ND))
- return Member->getDeclContext()->getRedeclContext()->Equals(ClassDecl);
- return isa<TypeDecl>(ND);
- }
- return false;
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<MemInitializerValidatorCCC>(*this);
- }
- private:
- CXXRecordDecl *ClassDecl;
- };
- }
- ValueDecl *Sema::tryLookupCtorInitMemberDecl(CXXRecordDecl *ClassDecl,
- CXXScopeSpec &SS,
- ParsedType TemplateTypeTy,
- IdentifierInfo *MemberOrBase) {
- if (SS.getScopeRep() || TemplateTypeTy)
- return nullptr;
- for (auto *D : ClassDecl->lookup(MemberOrBase))
- if (isa<FieldDecl>(D) || isa<IndirectFieldDecl>(D))
- return cast<ValueDecl>(D);
- return nullptr;
- }
- /// Handle a C++ member initializer.
- MemInitResult
- Sema::BuildMemInitializer(Decl *ConstructorD,
- Scope *S,
- CXXScopeSpec &SS,
- IdentifierInfo *MemberOrBase,
- ParsedType TemplateTypeTy,
- const DeclSpec &DS,
- SourceLocation IdLoc,
- Expr *Init,
- SourceLocation EllipsisLoc) {
- ExprResult Res = CorrectDelayedTyposInExpr(Init, /*InitDecl=*/nullptr,
- /*RecoverUncorrectedTypos=*/true);
- if (!Res.isUsable())
- return true;
- Init = Res.get();
- if (!ConstructorD)
- return true;
- AdjustDeclIfTemplate(ConstructorD);
- CXXConstructorDecl *Constructor
- = dyn_cast<CXXConstructorDecl>(ConstructorD);
- if (!Constructor) {
- // The user wrote a constructor initializer on a function that is
- // not a C++ constructor. Ignore the error for now, because we may
- // have more member initializers coming; we'll diagnose it just
- // once in ActOnMemInitializers.
- return true;
- }
- CXXRecordDecl *ClassDecl = Constructor->getParent();
- // C++ [class.base.init]p2:
- // Names in a mem-initializer-id are looked up in the scope of the
- // constructor's class and, if not found in that scope, are looked
- // up in the scope containing the constructor's definition.
- // [Note: if the constructor's class contains a member with the
- // same name as a direct or virtual base class of the class, a
- // mem-initializer-id naming the member or base class and composed
- // of a single identifier refers to the class member. A
- // mem-initializer-id for the hidden base class may be specified
- // using a qualified name. ]
- // Look for a member, first.
- if (ValueDecl *Member = tryLookupCtorInitMemberDecl(
- ClassDecl, SS, TemplateTypeTy, MemberOrBase)) {
- if (EllipsisLoc.isValid())
- Diag(EllipsisLoc, diag::err_pack_expansion_member_init)
- << MemberOrBase
- << SourceRange(IdLoc, Init->getSourceRange().getEnd());
- return BuildMemberInitializer(Member, Init, IdLoc);
- }
- // It didn't name a member, so see if it names a class.
- QualType BaseType;
- TypeSourceInfo *TInfo = nullptr;
- if (TemplateTypeTy) {
- BaseType = GetTypeFromParser(TemplateTypeTy, &TInfo);
- if (BaseType.isNull())
- return true;
- } else if (DS.getTypeSpecType() == TST_decltype) {
- BaseType = BuildDecltypeType(DS.getRepAsExpr());
- } else if (DS.getTypeSpecType() == TST_decltype_auto) {
- Diag(DS.getTypeSpecTypeLoc(), diag::err_decltype_auto_invalid);
- return true;
- } else {
- LookupResult R(*this, MemberOrBase, IdLoc, LookupOrdinaryName);
- LookupParsedName(R, S, &SS);
- TypeDecl *TyD = R.getAsSingle<TypeDecl>();
- if (!TyD) {
- if (R.isAmbiguous()) return true;
- // We don't want access-control diagnostics here.
- R.suppressDiagnostics();
- if (SS.isSet() && isDependentScopeSpecifier(SS)) {
- bool NotUnknownSpecialization = false;
- DeclContext *DC = computeDeclContext(SS, false);
- if (CXXRecordDecl *Record = dyn_cast_or_null<CXXRecordDecl>(DC))
- NotUnknownSpecialization = !Record->hasAnyDependentBases();
- if (!NotUnknownSpecialization) {
- // When the scope specifier can refer to a member of an unknown
- // specialization, we take it as a type name.
- BaseType = CheckTypenameType(ETK_None, SourceLocation(),
- SS.getWithLocInContext(Context),
- *MemberOrBase, IdLoc);
- if (BaseType.isNull())
- return true;
- TInfo = Context.CreateTypeSourceInfo(BaseType);
- DependentNameTypeLoc TL =
- TInfo->getTypeLoc().castAs<DependentNameTypeLoc>();
- if (!TL.isNull()) {
- TL.setNameLoc(IdLoc);
- TL.setElaboratedKeywordLoc(SourceLocation());
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- }
- R.clear();
- R.setLookupName(MemberOrBase);
- }
- }
- if (getLangOpts().MSVCCompat && !getLangOpts().CPlusPlus20) {
- if (auto UnqualifiedBase = R.getAsSingle<ClassTemplateDecl>()) {
- auto *TempSpec = cast<TemplateSpecializationType>(
- UnqualifiedBase->getInjectedClassNameSpecialization());
- TemplateName TN = TempSpec->getTemplateName();
- for (auto const &Base : ClassDecl->bases()) {
- auto BaseTemplate =
- Base.getType()->getAs<TemplateSpecializationType>();
- if (BaseTemplate && Context.hasSameTemplateName(
- BaseTemplate->getTemplateName(), TN)) {
- Diag(IdLoc, diag::ext_unqualified_base_class)
- << SourceRange(IdLoc, Init->getSourceRange().getEnd());
- BaseType = Base.getType();
- break;
- }
- }
- }
- }
- // If no results were found, try to correct typos.
- TypoCorrection Corr;
- MemInitializerValidatorCCC CCC(ClassDecl);
- if (R.empty() && BaseType.isNull() &&
- (Corr = CorrectTypo(R.getLookupNameInfo(), R.getLookupKind(), S, &SS,
- CCC, CTK_ErrorRecovery, ClassDecl))) {
- if (FieldDecl *Member = Corr.getCorrectionDeclAs<FieldDecl>()) {
- // We have found a non-static data member with a similar
- // name to what was typed; complain and initialize that
- // member.
- diagnoseTypo(Corr,
- PDiag(diag::err_mem_init_not_member_or_class_suggest)
- << MemberOrBase << true);
- return BuildMemberInitializer(Member, Init, IdLoc);
- } else if (TypeDecl *Type = Corr.getCorrectionDeclAs<TypeDecl>()) {
- const CXXBaseSpecifier *DirectBaseSpec;
- const CXXBaseSpecifier *VirtualBaseSpec;
- if (FindBaseInitializer(*this, ClassDecl,
- Context.getTypeDeclType(Type),
- DirectBaseSpec, VirtualBaseSpec)) {
- // We have found a direct or virtual base class with a
- // similar name to what was typed; complain and initialize
- // that base class.
- diagnoseTypo(Corr,
- PDiag(diag::err_mem_init_not_member_or_class_suggest)
- << MemberOrBase << false,
- PDiag() /*Suppress note, we provide our own.*/);
- const CXXBaseSpecifier *BaseSpec = DirectBaseSpec ? DirectBaseSpec
- : VirtualBaseSpec;
- Diag(BaseSpec->getBeginLoc(), diag::note_base_class_specified_here)
- << BaseSpec->getType() << BaseSpec->getSourceRange();
- TyD = Type;
- }
- }
- }
- if (!TyD && BaseType.isNull()) {
- Diag(IdLoc, diag::err_mem_init_not_member_or_class)
- << MemberOrBase << SourceRange(IdLoc,Init->getSourceRange().getEnd());
- return true;
- }
- }
- if (BaseType.isNull()) {
- BaseType = getElaboratedType(ETK_None, SS, Context.getTypeDeclType(TyD));
- MarkAnyDeclReferenced(TyD->getLocation(), TyD, /*OdrUse=*/false);
- TInfo = Context.CreateTypeSourceInfo(BaseType);
- ElaboratedTypeLoc TL = TInfo->getTypeLoc().castAs<ElaboratedTypeLoc>();
- TL.getNamedTypeLoc().castAs<TypeSpecTypeLoc>().setNameLoc(IdLoc);
- TL.setElaboratedKeywordLoc(SourceLocation());
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- }
- }
- if (!TInfo)
- TInfo = Context.getTrivialTypeSourceInfo(BaseType, IdLoc);
- return BuildBaseInitializer(BaseType, TInfo, Init, ClassDecl, EllipsisLoc);
- }
- MemInitResult
- Sema::BuildMemberInitializer(ValueDecl *Member, Expr *Init,
- SourceLocation IdLoc) {
- FieldDecl *DirectMember = dyn_cast<FieldDecl>(Member);
- IndirectFieldDecl *IndirectMember = dyn_cast<IndirectFieldDecl>(Member);
- assert((DirectMember || IndirectMember) &&
- "Member must be a FieldDecl or IndirectFieldDecl");
- if (DiagnoseUnexpandedParameterPack(Init, UPPC_Initializer))
- return true;
- if (Member->isInvalidDecl())
- return true;
- MultiExprArg Args;
- if (ParenListExpr *ParenList = dyn_cast<ParenListExpr>(Init)) {
- Args = MultiExprArg(ParenList->getExprs(), ParenList->getNumExprs());
- } else if (InitListExpr *InitList = dyn_cast<InitListExpr>(Init)) {
- Args = MultiExprArg(InitList->getInits(), InitList->getNumInits());
- } else {
- // Template instantiation doesn't reconstruct ParenListExprs for us.
- Args = Init;
- }
- SourceRange InitRange = Init->getSourceRange();
- if (Member->getType()->isDependentType() || Init->isTypeDependent()) {
- // Can't check initialization for a member of dependent type or when
- // any of the arguments are type-dependent expressions.
- DiscardCleanupsInEvaluationContext();
- } else {
- bool InitList = false;
- if (isa<InitListExpr>(Init)) {
- InitList = true;
- Args = Init;
- }
- // Initialize the member.
- InitializedEntity MemberEntity =
- DirectMember ? InitializedEntity::InitializeMember(DirectMember, nullptr)
- : InitializedEntity::InitializeMember(IndirectMember,
- nullptr);
- InitializationKind Kind =
- InitList ? InitializationKind::CreateDirectList(
- IdLoc, Init->getBeginLoc(), Init->getEndLoc())
- : InitializationKind::CreateDirect(IdLoc, InitRange.getBegin(),
- InitRange.getEnd());
- InitializationSequence InitSeq(*this, MemberEntity, Kind, Args);
- ExprResult MemberInit = InitSeq.Perform(*this, MemberEntity, Kind, Args,
- nullptr);
- if (!MemberInit.isInvalid()) {
- // C++11 [class.base.init]p7:
- // The initialization of each base and member constitutes a
- // full-expression.
- MemberInit = ActOnFinishFullExpr(MemberInit.get(), InitRange.getBegin(),
- /*DiscardedValue*/ false);
- }
- if (MemberInit.isInvalid()) {
- // Args were sensible expressions but we couldn't initialize the member
- // from them. Preserve them in a RecoveryExpr instead.
- Init = CreateRecoveryExpr(InitRange.getBegin(), InitRange.getEnd(), Args,
- Member->getType())
- .get();
- if (!Init)
- return true;
- } else {
- Init = MemberInit.get();
- }
- }
- if (DirectMember) {
- return new (Context) CXXCtorInitializer(Context, DirectMember, IdLoc,
- InitRange.getBegin(), Init,
- InitRange.getEnd());
- } else {
- return new (Context) CXXCtorInitializer(Context, IndirectMember, IdLoc,
- InitRange.getBegin(), Init,
- InitRange.getEnd());
- }
- }
- MemInitResult
- Sema::BuildDelegatingInitializer(TypeSourceInfo *TInfo, Expr *Init,
- CXXRecordDecl *ClassDecl) {
- SourceLocation NameLoc = TInfo->getTypeLoc().getSourceRange().getBegin();
- if (!LangOpts.CPlusPlus11)
- return Diag(NameLoc, diag::err_delegating_ctor)
- << TInfo->getTypeLoc().getSourceRange();
- Diag(NameLoc, diag::warn_cxx98_compat_delegating_ctor);
- bool InitList = true;
- MultiExprArg Args = Init;
- if (ParenListExpr *ParenList = dyn_cast<ParenListExpr>(Init)) {
- InitList = false;
- Args = MultiExprArg(ParenList->getExprs(), ParenList->getNumExprs());
- }
- SourceRange InitRange = Init->getSourceRange();
- // Initialize the object.
- InitializedEntity DelegationEntity = InitializedEntity::InitializeDelegation(
- QualType(ClassDecl->getTypeForDecl(), 0));
- InitializationKind Kind =
- InitList ? InitializationKind::CreateDirectList(
- NameLoc, Init->getBeginLoc(), Init->getEndLoc())
- : InitializationKind::CreateDirect(NameLoc, InitRange.getBegin(),
- InitRange.getEnd());
- InitializationSequence InitSeq(*this, DelegationEntity, Kind, Args);
- ExprResult DelegationInit = InitSeq.Perform(*this, DelegationEntity, Kind,
- Args, nullptr);
- if (!DelegationInit.isInvalid()) {
- assert((DelegationInit.get()->containsErrors() ||
- cast<CXXConstructExpr>(DelegationInit.get())->getConstructor()) &&
- "Delegating constructor with no target?");
- // C++11 [class.base.init]p7:
- // The initialization of each base and member constitutes a
- // full-expression.
- DelegationInit = ActOnFinishFullExpr(
- DelegationInit.get(), InitRange.getBegin(), /*DiscardedValue*/ false);
- }
- if (DelegationInit.isInvalid()) {
- DelegationInit =
- CreateRecoveryExpr(InitRange.getBegin(), InitRange.getEnd(), Args,
- QualType(ClassDecl->getTypeForDecl(), 0));
- if (DelegationInit.isInvalid())
- return true;
- } else {
- // If we are in a dependent context, template instantiation will
- // perform this type-checking again. Just save the arguments that we
- // received in a ParenListExpr.
- // FIXME: This isn't quite ideal, since our ASTs don't capture all
- // of the information that we have about the base
- // initializer. However, deconstructing the ASTs is a dicey process,
- // and this approach is far more likely to get the corner cases right.
- if (CurContext->isDependentContext())
- DelegationInit = Init;
- }
- return new (Context) CXXCtorInitializer(Context, TInfo, InitRange.getBegin(),
- DelegationInit.getAs<Expr>(),
- InitRange.getEnd());
- }
- MemInitResult
- Sema::BuildBaseInitializer(QualType BaseType, TypeSourceInfo *BaseTInfo,
- Expr *Init, CXXRecordDecl *ClassDecl,
- SourceLocation EllipsisLoc) {
- SourceLocation BaseLoc = BaseTInfo->getTypeLoc().getBeginLoc();
- if (!BaseType->isDependentType() && !BaseType->isRecordType())
- return Diag(BaseLoc, diag::err_base_init_does_not_name_class)
- << BaseType << BaseTInfo->getTypeLoc().getSourceRange();
- // C++ [class.base.init]p2:
- // [...] Unless the mem-initializer-id names a nonstatic data
- // member of the constructor's class or a direct or virtual base
- // of that class, the mem-initializer is ill-formed. A
- // mem-initializer-list can initialize a base class using any
- // name that denotes that base class type.
- // We can store the initializers in "as-written" form and delay analysis until
- // instantiation if the constructor is dependent. But not for dependent
- // (broken) code in a non-template! SetCtorInitializers does not expect this.
- bool Dependent = CurContext->isDependentContext() &&
- (BaseType->isDependentType() || Init->isTypeDependent());
- SourceRange InitRange = Init->getSourceRange();
- if (EllipsisLoc.isValid()) {
- // This is a pack expansion.
- if (!BaseType->containsUnexpandedParameterPack()) {
- Diag(EllipsisLoc, diag::err_pack_expansion_without_parameter_packs)
- << SourceRange(BaseLoc, InitRange.getEnd());
- EllipsisLoc = SourceLocation();
- }
- } else {
- // Check for any unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(BaseLoc, BaseTInfo, UPPC_Initializer))
- return true;
- if (DiagnoseUnexpandedParameterPack(Init, UPPC_Initializer))
- return true;
- }
- // Check for direct and virtual base classes.
- const CXXBaseSpecifier *DirectBaseSpec = nullptr;
- const CXXBaseSpecifier *VirtualBaseSpec = nullptr;
- if (!Dependent) {
- if (Context.hasSameUnqualifiedType(QualType(ClassDecl->getTypeForDecl(),0),
- BaseType))
- return BuildDelegatingInitializer(BaseTInfo, Init, ClassDecl);
- FindBaseInitializer(*this, ClassDecl, BaseType, DirectBaseSpec,
- VirtualBaseSpec);
- // C++ [base.class.init]p2:
- // Unless the mem-initializer-id names a nonstatic data member of the
- // constructor's class or a direct or virtual base of that class, the
- // mem-initializer is ill-formed.
- if (!DirectBaseSpec && !VirtualBaseSpec) {
- // If the class has any dependent bases, then it's possible that
- // one of those types will resolve to the same type as
- // BaseType. Therefore, just treat this as a dependent base
- // class initialization. FIXME: Should we try to check the
- // initialization anyway? It seems odd.
- if (ClassDecl->hasAnyDependentBases())
- Dependent = true;
- else
- return Diag(BaseLoc, diag::err_not_direct_base_or_virtual)
- << BaseType << Context.getTypeDeclType(ClassDecl)
- << BaseTInfo->getTypeLoc().getSourceRange();
- }
- }
- if (Dependent) {
- DiscardCleanupsInEvaluationContext();
- return new (Context) CXXCtorInitializer(Context, BaseTInfo,
- /*IsVirtual=*/false,
- InitRange.getBegin(), Init,
- InitRange.getEnd(), EllipsisLoc);
- }
- // C++ [base.class.init]p2:
- // If a mem-initializer-id is ambiguous because it designates both
- // a direct non-virtual base class and an inherited virtual base
- // class, the mem-initializer is ill-formed.
- if (DirectBaseSpec && VirtualBaseSpec)
- return Diag(BaseLoc, diag::err_base_init_direct_and_virtual)
- << BaseType << BaseTInfo->getTypeLoc().getLocalSourceRange();
- const CXXBaseSpecifier *BaseSpec = DirectBaseSpec;
- if (!BaseSpec)
- BaseSpec = VirtualBaseSpec;
- // Initialize the base.
- bool InitList = true;
- MultiExprArg Args = Init;
- if (ParenListExpr *ParenList = dyn_cast<ParenListExpr>(Init)) {
- InitList = false;
- Args = MultiExprArg(ParenList->getExprs(), ParenList->getNumExprs());
- }
- InitializedEntity BaseEntity =
- InitializedEntity::InitializeBase(Context, BaseSpec, VirtualBaseSpec);
- InitializationKind Kind =
- InitList ? InitializationKind::CreateDirectList(BaseLoc)
- : InitializationKind::CreateDirect(BaseLoc, InitRange.getBegin(),
- InitRange.getEnd());
- InitializationSequence InitSeq(*this, BaseEntity, Kind, Args);
- ExprResult BaseInit = InitSeq.Perform(*this, BaseEntity, Kind, Args, nullptr);
- if (!BaseInit.isInvalid()) {
- // C++11 [class.base.init]p7:
- // The initialization of each base and member constitutes a
- // full-expression.
- BaseInit = ActOnFinishFullExpr(BaseInit.get(), InitRange.getBegin(),
- /*DiscardedValue*/ false);
- }
- if (BaseInit.isInvalid()) {
- BaseInit = CreateRecoveryExpr(InitRange.getBegin(), InitRange.getEnd(),
- Args, BaseType);
- if (BaseInit.isInvalid())
- return true;
- } else {
- // If we are in a dependent context, template instantiation will
- // perform this type-checking again. Just save the arguments that we
- // received in a ParenListExpr.
- // FIXME: This isn't quite ideal, since our ASTs don't capture all
- // of the information that we have about the base
- // initializer. However, deconstructing the ASTs is a dicey process,
- // and this approach is far more likely to get the corner cases right.
- if (CurContext->isDependentContext())
- BaseInit = Init;
- }
- return new (Context) CXXCtorInitializer(Context, BaseTInfo,
- BaseSpec->isVirtual(),
- InitRange.getBegin(),
- BaseInit.getAs<Expr>(),
- InitRange.getEnd(), EllipsisLoc);
- }
- // Create a static_cast\<T&&>(expr).
- static Expr *CastForMoving(Sema &SemaRef, Expr *E) {
- QualType TargetType =
- SemaRef.BuildReferenceType(E->getType(), /*SpelledAsLValue*/ false,
- SourceLocation(), DeclarationName());
- SourceLocation ExprLoc = E->getBeginLoc();
- TypeSourceInfo *TargetLoc = SemaRef.Context.getTrivialTypeSourceInfo(
- TargetType, ExprLoc);
- return SemaRef.BuildCXXNamedCast(ExprLoc, tok::kw_static_cast, TargetLoc, E,
- SourceRange(ExprLoc, ExprLoc),
- E->getSourceRange()).get();
- }
- /// ImplicitInitializerKind - How an implicit base or member initializer should
- /// initialize its base or member.
- enum ImplicitInitializerKind {
- IIK_Default,
- IIK_Copy,
- IIK_Move,
- IIK_Inherit
- };
- static bool
- BuildImplicitBaseInitializer(Sema &SemaRef, CXXConstructorDecl *Constructor,
- ImplicitInitializerKind ImplicitInitKind,
- CXXBaseSpecifier *BaseSpec,
- bool IsInheritedVirtualBase,
- CXXCtorInitializer *&CXXBaseInit) {
- InitializedEntity InitEntity
- = InitializedEntity::InitializeBase(SemaRef.Context, BaseSpec,
- IsInheritedVirtualBase);
- ExprResult BaseInit;
- switch (ImplicitInitKind) {
- case IIK_Inherit:
- case IIK_Default: {
- InitializationKind InitKind
- = InitializationKind::CreateDefault(Constructor->getLocation());
- InitializationSequence InitSeq(SemaRef, InitEntity, InitKind, std::nullopt);
- BaseInit = InitSeq.Perform(SemaRef, InitEntity, InitKind, std::nullopt);
- break;
- }
- case IIK_Move:
- case IIK_Copy: {
- bool Moving = ImplicitInitKind == IIK_Move;
- ParmVarDecl *Param = Constructor->getParamDecl(0);
- QualType ParamType = Param->getType().getNonReferenceType();
- Expr *CopyCtorArg =
- DeclRefExpr::Create(SemaRef.Context, NestedNameSpecifierLoc(),
- SourceLocation(), Param, false,
- Constructor->getLocation(), ParamType,
- VK_LValue, nullptr);
- SemaRef.MarkDeclRefReferenced(cast<DeclRefExpr>(CopyCtorArg));
- // Cast to the base class to avoid ambiguities.
- QualType ArgTy =
- SemaRef.Context.getQualifiedType(BaseSpec->getType().getUnqualifiedType(),
- ParamType.getQualifiers());
- if (Moving) {
- CopyCtorArg = CastForMoving(SemaRef, CopyCtorArg);
- }
- CXXCastPath BasePath;
- BasePath.push_back(BaseSpec);
- CopyCtorArg = SemaRef.ImpCastExprToType(CopyCtorArg, ArgTy,
- CK_UncheckedDerivedToBase,
- Moving ? VK_XValue : VK_LValue,
- &BasePath).get();
- InitializationKind InitKind
- = InitializationKind::CreateDirect(Constructor->getLocation(),
- SourceLocation(), SourceLocation());
- InitializationSequence InitSeq(SemaRef, InitEntity, InitKind, CopyCtorArg);
- BaseInit = InitSeq.Perform(SemaRef, InitEntity, InitKind, CopyCtorArg);
- break;
- }
- }
- BaseInit = SemaRef.MaybeCreateExprWithCleanups(BaseInit);
- if (BaseInit.isInvalid())
- return true;
- CXXBaseInit =
- new (SemaRef.Context) CXXCtorInitializer(SemaRef.Context,
- SemaRef.Context.getTrivialTypeSourceInfo(BaseSpec->getType(),
- SourceLocation()),
- BaseSpec->isVirtual(),
- SourceLocation(),
- BaseInit.getAs<Expr>(),
- SourceLocation(),
- SourceLocation());
- return false;
- }
- static bool RefersToRValueRef(Expr *MemRef) {
- ValueDecl *Referenced = cast<MemberExpr>(MemRef)->getMemberDecl();
- return Referenced->getType()->isRValueReferenceType();
- }
- static bool
- BuildImplicitMemberInitializer(Sema &SemaRef, CXXConstructorDecl *Constructor,
- ImplicitInitializerKind ImplicitInitKind,
- FieldDecl *Field, IndirectFieldDecl *Indirect,
- CXXCtorInitializer *&CXXMemberInit) {
- if (Field->isInvalidDecl())
- return true;
- SourceLocation Loc = Constructor->getLocation();
- if (ImplicitInitKind == IIK_Copy || ImplicitInitKind == IIK_Move) {
- bool Moving = ImplicitInitKind == IIK_Move;
- ParmVarDecl *Param = Constructor->getParamDecl(0);
- QualType ParamType = Param->getType().getNonReferenceType();
- // Suppress copying zero-width bitfields.
- if (Field->isZeroLengthBitField(SemaRef.Context))
- return false;
- Expr *MemberExprBase =
- DeclRefExpr::Create(SemaRef.Context, NestedNameSpecifierLoc(),
- SourceLocation(), Param, false,
- Loc, ParamType, VK_LValue, nullptr);
- SemaRef.MarkDeclRefReferenced(cast<DeclRefExpr>(MemberExprBase));
- if (Moving) {
- MemberExprBase = CastForMoving(SemaRef, MemberExprBase);
- }
- // Build a reference to this field within the parameter.
- CXXScopeSpec SS;
- LookupResult MemberLookup(SemaRef, Field->getDeclName(), Loc,
- Sema::LookupMemberName);
- MemberLookup.addDecl(Indirect ? cast<ValueDecl>(Indirect)
- : cast<ValueDecl>(Field), AS_public);
- MemberLookup.resolveKind();
- ExprResult CtorArg
- = SemaRef.BuildMemberReferenceExpr(MemberExprBase,
- ParamType, Loc,
- /*IsArrow=*/false,
- SS,
- /*TemplateKWLoc=*/SourceLocation(),
- /*FirstQualifierInScope=*/nullptr,
- MemberLookup,
- /*TemplateArgs=*/nullptr,
- /*S*/nullptr);
- if (CtorArg.isInvalid())
- return true;
- // C++11 [class.copy]p15:
- // - if a member m has rvalue reference type T&&, it is direct-initialized
- // with static_cast<T&&>(x.m);
- if (RefersToRValueRef(CtorArg.get())) {
- CtorArg = CastForMoving(SemaRef, CtorArg.get());
- }
- InitializedEntity Entity =
- Indirect ? InitializedEntity::InitializeMember(Indirect, nullptr,
- /*Implicit*/ true)
- : InitializedEntity::InitializeMember(Field, nullptr,
- /*Implicit*/ true);
- // Direct-initialize to use the copy constructor.
- InitializationKind InitKind =
- InitializationKind::CreateDirect(Loc, SourceLocation(), SourceLocation());
- Expr *CtorArgE = CtorArg.getAs<Expr>();
- InitializationSequence InitSeq(SemaRef, Entity, InitKind, CtorArgE);
- ExprResult MemberInit =
- InitSeq.Perform(SemaRef, Entity, InitKind, MultiExprArg(&CtorArgE, 1));
- MemberInit = SemaRef.MaybeCreateExprWithCleanups(MemberInit);
- if (MemberInit.isInvalid())
- return true;
- if (Indirect)
- CXXMemberInit = new (SemaRef.Context) CXXCtorInitializer(
- SemaRef.Context, Indirect, Loc, Loc, MemberInit.getAs<Expr>(), Loc);
- else
- CXXMemberInit = new (SemaRef.Context) CXXCtorInitializer(
- SemaRef.Context, Field, Loc, Loc, MemberInit.getAs<Expr>(), Loc);
- return false;
- }
- assert((ImplicitInitKind == IIK_Default || ImplicitInitKind == IIK_Inherit) &&
- "Unhandled implicit init kind!");
- QualType FieldBaseElementType =
- SemaRef.Context.getBaseElementType(Field->getType());
- if (FieldBaseElementType->isRecordType()) {
- InitializedEntity InitEntity =
- Indirect ? InitializedEntity::InitializeMember(Indirect, nullptr,
- /*Implicit*/ true)
- : InitializedEntity::InitializeMember(Field, nullptr,
- /*Implicit*/ true);
- InitializationKind InitKind =
- InitializationKind::CreateDefault(Loc);
- InitializationSequence InitSeq(SemaRef, InitEntity, InitKind, std::nullopt);
- ExprResult MemberInit =
- InitSeq.Perform(SemaRef, InitEntity, InitKind, std::nullopt);
- MemberInit = SemaRef.MaybeCreateExprWithCleanups(MemberInit);
- if (MemberInit.isInvalid())
- return true;
- if (Indirect)
- CXXMemberInit = new (SemaRef.Context) CXXCtorInitializer(SemaRef.Context,
- Indirect, Loc,
- Loc,
- MemberInit.get(),
- Loc);
- else
- CXXMemberInit = new (SemaRef.Context) CXXCtorInitializer(SemaRef.Context,
- Field, Loc, Loc,
- MemberInit.get(),
- Loc);
- return false;
- }
- if (!Field->getParent()->isUnion()) {
- if (FieldBaseElementType->isReferenceType()) {
- SemaRef.Diag(Constructor->getLocation(),
- diag::err_uninitialized_member_in_ctor)
- << (int)Constructor->isImplicit()
- << SemaRef.Context.getTagDeclType(Constructor->getParent())
- << 0 << Field->getDeclName();
- SemaRef.Diag(Field->getLocation(), diag::note_declared_at);
- return true;
- }
- if (FieldBaseElementType.isConstQualified()) {
- SemaRef.Diag(Constructor->getLocation(),
- diag::err_uninitialized_member_in_ctor)
- << (int)Constructor->isImplicit()
- << SemaRef.Context.getTagDeclType(Constructor->getParent())
- << 1 << Field->getDeclName();
- SemaRef.Diag(Field->getLocation(), diag::note_declared_at);
- return true;
- }
- }
- if (FieldBaseElementType.hasNonTrivialObjCLifetime()) {
- // ARC and Weak:
- // Default-initialize Objective-C pointers to NULL.
- CXXMemberInit
- = new (SemaRef.Context) CXXCtorInitializer(SemaRef.Context, Field,
- Loc, Loc,
- new (SemaRef.Context) ImplicitValueInitExpr(Field->getType()),
- Loc);
- return false;
- }
- // Nothing to initialize.
- CXXMemberInit = nullptr;
- return false;
- }
- namespace {
- struct BaseAndFieldInfo {
- Sema &S;
- CXXConstructorDecl *Ctor;
- bool AnyErrorsInInits;
- ImplicitInitializerKind IIK;
- llvm::DenseMap<const void *, CXXCtorInitializer*> AllBaseFields;
- SmallVector<CXXCtorInitializer*, 8> AllToInit;
- llvm::DenseMap<TagDecl*, FieldDecl*> ActiveUnionMember;
- BaseAndFieldInfo(Sema &S, CXXConstructorDecl *Ctor, bool ErrorsInInits)
- : S(S), Ctor(Ctor), AnyErrorsInInits(ErrorsInInits) {
- bool Generated = Ctor->isImplicit() || Ctor->isDefaulted();
- if (Ctor->getInheritedConstructor())
- IIK = IIK_Inherit;
- else if (Generated && Ctor->isCopyConstructor())
- IIK = IIK_Copy;
- else if (Generated && Ctor->isMoveConstructor())
- IIK = IIK_Move;
- else
- IIK = IIK_Default;
- }
- bool isImplicitCopyOrMove() const {
- switch (IIK) {
- case IIK_Copy:
- case IIK_Move:
- return true;
- case IIK_Default:
- case IIK_Inherit:
- return false;
- }
- llvm_unreachable("Invalid ImplicitInitializerKind!");
- }
- bool addFieldInitializer(CXXCtorInitializer *Init) {
- AllToInit.push_back(Init);
- // Check whether this initializer makes the field "used".
- if (Init->getInit()->HasSideEffects(S.Context))
- S.UnusedPrivateFields.remove(Init->getAnyMember());
- return false;
- }
- bool isInactiveUnionMember(FieldDecl *Field) {
- RecordDecl *Record = Field->getParent();
- if (!Record->isUnion())
- return false;
- if (FieldDecl *Active =
- ActiveUnionMember.lookup(Record->getCanonicalDecl()))
- return Active != Field->getCanonicalDecl();
- // In an implicit copy or move constructor, ignore any in-class initializer.
- if (isImplicitCopyOrMove())
- return true;
- // If there's no explicit initialization, the field is active only if it
- // has an in-class initializer...
- if (Field->hasInClassInitializer())
- return false;
- // ... or it's an anonymous struct or union whose class has an in-class
- // initializer.
- if (!Field->isAnonymousStructOrUnion())
- return true;
- CXXRecordDecl *FieldRD = Field->getType()->getAsCXXRecordDecl();
- return !FieldRD->hasInClassInitializer();
- }
- /// Determine whether the given field is, or is within, a union member
- /// that is inactive (because there was an initializer given for a different
- /// member of the union, or because the union was not initialized at all).
- bool isWithinInactiveUnionMember(FieldDecl *Field,
- IndirectFieldDecl *Indirect) {
- if (!Indirect)
- return isInactiveUnionMember(Field);
- for (auto *C : Indirect->chain()) {
- FieldDecl *Field = dyn_cast<FieldDecl>(C);
- if (Field && isInactiveUnionMember(Field))
- return true;
- }
- return false;
- }
- };
- }
- /// Determine whether the given type is an incomplete or zero-lenfgth
- /// array type.
- static bool isIncompleteOrZeroLengthArrayType(ASTContext &Context, QualType T) {
- if (T->isIncompleteArrayType())
- return true;
- while (const ConstantArrayType *ArrayT = Context.getAsConstantArrayType(T)) {
- if (!ArrayT->getSize())
- return true;
- T = ArrayT->getElementType();
- }
- return false;
- }
- static bool CollectFieldInitializer(Sema &SemaRef, BaseAndFieldInfo &Info,
- FieldDecl *Field,
- IndirectFieldDecl *Indirect = nullptr) {
- if (Field->isInvalidDecl())
- return false;
- // Overwhelmingly common case: we have a direct initializer for this field.
- if (CXXCtorInitializer *Init =
- Info.AllBaseFields.lookup(Field->getCanonicalDecl()))
- return Info.addFieldInitializer(Init);
- // C++11 [class.base.init]p8:
- // if the entity is a non-static data member that has a
- // brace-or-equal-initializer and either
- // -- the constructor's class is a union and no other variant member of that
- // union is designated by a mem-initializer-id or
- // -- the constructor's class is not a union, and, if the entity is a member
- // of an anonymous union, no other member of that union is designated by
- // a mem-initializer-id,
- // the entity is initialized as specified in [dcl.init].
- //
- // We also apply the same rules to handle anonymous structs within anonymous
- // unions.
- if (Info.isWithinInactiveUnionMember(Field, Indirect))
- return false;
- if (Field->hasInClassInitializer() && !Info.isImplicitCopyOrMove()) {
- ExprResult DIE =
- SemaRef.BuildCXXDefaultInitExpr(Info.Ctor->getLocation(), Field);
- if (DIE.isInvalid())
- return true;
- auto Entity = InitializedEntity::InitializeMember(Field, nullptr, true);
- SemaRef.checkInitializerLifetime(Entity, DIE.get());
- CXXCtorInitializer *Init;
- if (Indirect)
- Init = new (SemaRef.Context)
- CXXCtorInitializer(SemaRef.Context, Indirect, SourceLocation(),
- SourceLocation(), DIE.get(), SourceLocation());
- else
- Init = new (SemaRef.Context)
- CXXCtorInitializer(SemaRef.Context, Field, SourceLocation(),
- SourceLocation(), DIE.get(), SourceLocation());
- return Info.addFieldInitializer(Init);
- }
- // Don't initialize incomplete or zero-length arrays.
- if (isIncompleteOrZeroLengthArrayType(SemaRef.Context, Field->getType()))
- return false;
- // Don't try to build an implicit initializer if there were semantic
- // errors in any of the initializers (and therefore we might be
- // missing some that the user actually wrote).
- if (Info.AnyErrorsInInits)
- return false;
- CXXCtorInitializer *Init = nullptr;
- if (BuildImplicitMemberInitializer(Info.S, Info.Ctor, Info.IIK, Field,
- Indirect, Init))
- return true;
- if (!Init)
- return false;
- return Info.addFieldInitializer(Init);
- }
- bool
- Sema::SetDelegatingInitializer(CXXConstructorDecl *Constructor,
- CXXCtorInitializer *Initializer) {
- assert(Initializer->isDelegatingInitializer());
- Constructor->setNumCtorInitializers(1);
- CXXCtorInitializer **initializer =
- new (Context) CXXCtorInitializer*[1];
- memcpy(initializer, &Initializer, sizeof (CXXCtorInitializer*));
- Constructor->setCtorInitializers(initializer);
- if (CXXDestructorDecl *Dtor = LookupDestructor(Constructor->getParent())) {
- MarkFunctionReferenced(Initializer->getSourceLocation(), Dtor);
- DiagnoseUseOfDecl(Dtor, Initializer->getSourceLocation());
- }
- DelegatingCtorDecls.push_back(Constructor);
- DiagnoseUninitializedFields(*this, Constructor);
- return false;
- }
- bool Sema::SetCtorInitializers(CXXConstructorDecl *Constructor, bool AnyErrors,
- ArrayRef<CXXCtorInitializer *> Initializers) {
- if (Constructor->isDependentContext()) {
- // Just store the initializers as written, they will be checked during
- // instantiation.
- if (!Initializers.empty()) {
- Constructor->setNumCtorInitializers(Initializers.size());
- CXXCtorInitializer **baseOrMemberInitializers =
- new (Context) CXXCtorInitializer*[Initializers.size()];
- memcpy(baseOrMemberInitializers, Initializers.data(),
- Initializers.size() * sizeof(CXXCtorInitializer*));
- Constructor->setCtorInitializers(baseOrMemberInitializers);
- }
- // Let template instantiation know whether we had errors.
- if (AnyErrors)
- Constructor->setInvalidDecl();
- return false;
- }
- BaseAndFieldInfo Info(*this, Constructor, AnyErrors);
- // We need to build the initializer AST according to order of construction
- // and not what user specified in the Initializers list.
- CXXRecordDecl *ClassDecl = Constructor->getParent()->getDefinition();
- if (!ClassDecl)
- return true;
- bool HadError = false;
- for (unsigned i = 0; i < Initializers.size(); i++) {
- CXXCtorInitializer *Member = Initializers[i];
- if (Member->isBaseInitializer())
- Info.AllBaseFields[Member->getBaseClass()->getAs<RecordType>()] = Member;
- else {
- Info.AllBaseFields[Member->getAnyMember()->getCanonicalDecl()] = Member;
- if (IndirectFieldDecl *F = Member->getIndirectMember()) {
- for (auto *C : F->chain()) {
- FieldDecl *FD = dyn_cast<FieldDecl>(C);
- if (FD && FD->getParent()->isUnion())
- Info.ActiveUnionMember.insert(std::make_pair(
- FD->getParent()->getCanonicalDecl(), FD->getCanonicalDecl()));
- }
- } else if (FieldDecl *FD = Member->getMember()) {
- if (FD->getParent()->isUnion())
- Info.ActiveUnionMember.insert(std::make_pair(
- FD->getParent()->getCanonicalDecl(), FD->getCanonicalDecl()));
- }
- }
- }
- // Keep track of the direct virtual bases.
- llvm::SmallPtrSet<CXXBaseSpecifier *, 16> DirectVBases;
- for (auto &I : ClassDecl->bases()) {
- if (I.isVirtual())
- DirectVBases.insert(&I);
- }
- // Push virtual bases before others.
- for (auto &VBase : ClassDecl->vbases()) {
- if (CXXCtorInitializer *Value
- = Info.AllBaseFields.lookup(VBase.getType()->getAs<RecordType>())) {
- // [class.base.init]p7, per DR257:
- // A mem-initializer where the mem-initializer-id names a virtual base
- // class is ignored during execution of a constructor of any class that
- // is not the most derived class.
- if (ClassDecl->isAbstract()) {
- // FIXME: Provide a fixit to remove the base specifier. This requires
- // tracking the location of the associated comma for a base specifier.
- Diag(Value->getSourceLocation(), diag::warn_abstract_vbase_init_ignored)
- << VBase.getType() << ClassDecl;
- DiagnoseAbstractType(ClassDecl);
- }
- Info.AllToInit.push_back(Value);
- } else if (!AnyErrors && !ClassDecl->isAbstract()) {
- // [class.base.init]p8, per DR257:
- // If a given [...] base class is not named by a mem-initializer-id
- // [...] and the entity is not a virtual base class of an abstract
- // class, then [...] the entity is default-initialized.
- bool IsInheritedVirtualBase = !DirectVBases.count(&VBase);
- CXXCtorInitializer *CXXBaseInit;
- if (BuildImplicitBaseInitializer(*this, Constructor, Info.IIK,
- &VBase, IsInheritedVirtualBase,
- CXXBaseInit)) {
- HadError = true;
- continue;
- }
- Info.AllToInit.push_back(CXXBaseInit);
- }
- }
- // Non-virtual bases.
- for (auto &Base : ClassDecl->bases()) {
- // Virtuals are in the virtual base list and already constructed.
- if (Base.isVirtual())
- continue;
- if (CXXCtorInitializer *Value
- = Info.AllBaseFields.lookup(Base.getType()->getAs<RecordType>())) {
- Info.AllToInit.push_back(Value);
- } else if (!AnyErrors) {
- CXXCtorInitializer *CXXBaseInit;
- if (BuildImplicitBaseInitializer(*this, Constructor, Info.IIK,
- &Base, /*IsInheritedVirtualBase=*/false,
- CXXBaseInit)) {
- HadError = true;
- continue;
- }
- Info.AllToInit.push_back(CXXBaseInit);
- }
- }
- // Fields.
- for (auto *Mem : ClassDecl->decls()) {
- if (auto *F = dyn_cast<FieldDecl>(Mem)) {
- // C++ [class.bit]p2:
- // A declaration for a bit-field that omits the identifier declares an
- // unnamed bit-field. Unnamed bit-fields are not members and cannot be
- // initialized.
- if (F->isUnnamedBitfield())
- continue;
- // If we're not generating the implicit copy/move constructor, then we'll
- // handle anonymous struct/union fields based on their individual
- // indirect fields.
- if (F->isAnonymousStructOrUnion() && !Info.isImplicitCopyOrMove())
- continue;
- if (CollectFieldInitializer(*this, Info, F))
- HadError = true;
- continue;
- }
- // Beyond this point, we only consider default initialization.
- if (Info.isImplicitCopyOrMove())
- continue;
- if (auto *F = dyn_cast<IndirectFieldDecl>(Mem)) {
- if (F->getType()->isIncompleteArrayType()) {
- assert(ClassDecl->hasFlexibleArrayMember() &&
- "Incomplete array type is not valid");
- continue;
- }
- // Initialize each field of an anonymous struct individually.
- if (CollectFieldInitializer(*this, Info, F->getAnonField(), F))
- HadError = true;
- continue;
- }
- }
- unsigned NumInitializers = Info.AllToInit.size();
- if (NumInitializers > 0) {
- Constructor->setNumCtorInitializers(NumInitializers);
- CXXCtorInitializer **baseOrMemberInitializers =
- new (Context) CXXCtorInitializer*[NumInitializers];
- memcpy(baseOrMemberInitializers, Info.AllToInit.data(),
- NumInitializers * sizeof(CXXCtorInitializer*));
- Constructor->setCtorInitializers(baseOrMemberInitializers);
- // Constructors implicitly reference the base and member
- // destructors.
- MarkBaseAndMemberDestructorsReferenced(Constructor->getLocation(),
- Constructor->getParent());
- }
- return HadError;
- }
- static void PopulateKeysForFields(FieldDecl *Field, SmallVectorImpl<const void*> &IdealInits) {
- if (const RecordType *RT = Field->getType()->getAs<RecordType>()) {
- const RecordDecl *RD = RT->getDecl();
- if (RD->isAnonymousStructOrUnion()) {
- for (auto *Field : RD->fields())
- PopulateKeysForFields(Field, IdealInits);
- return;
- }
- }
- IdealInits.push_back(Field->getCanonicalDecl());
- }
- static const void *GetKeyForBase(ASTContext &Context, QualType BaseType) {
- return Context.getCanonicalType(BaseType).getTypePtr();
- }
- static const void *GetKeyForMember(ASTContext &Context,
- CXXCtorInitializer *Member) {
- if (!Member->isAnyMemberInitializer())
- return GetKeyForBase(Context, QualType(Member->getBaseClass(), 0));
- return Member->getAnyMember()->getCanonicalDecl();
- }
- static void AddInitializerToDiag(const Sema::SemaDiagnosticBuilder &Diag,
- const CXXCtorInitializer *Previous,
- const CXXCtorInitializer *Current) {
- if (Previous->isAnyMemberInitializer())
- Diag << 0 << Previous->getAnyMember();
- else
- Diag << 1 << Previous->getTypeSourceInfo()->getType();
- if (Current->isAnyMemberInitializer())
- Diag << 0 << Current->getAnyMember();
- else
- Diag << 1 << Current->getTypeSourceInfo()->getType();
- }
- static void DiagnoseBaseOrMemInitializerOrder(
- Sema &SemaRef, const CXXConstructorDecl *Constructor,
- ArrayRef<CXXCtorInitializer *> Inits) {
- if (Constructor->getDeclContext()->isDependentContext())
- return;
- // Don't check initializers order unless the warning is enabled at the
- // location of at least one initializer.
- bool ShouldCheckOrder = false;
- for (unsigned InitIndex = 0; InitIndex != Inits.size(); ++InitIndex) {
- CXXCtorInitializer *Init = Inits[InitIndex];
- if (!SemaRef.Diags.isIgnored(diag::warn_initializer_out_of_order,
- Init->getSourceLocation())) {
- ShouldCheckOrder = true;
- break;
- }
- }
- if (!ShouldCheckOrder)
- return;
- // Build the list of bases and members in the order that they'll
- // actually be initialized. The explicit initializers should be in
- // this same order but may be missing things.
- SmallVector<const void*, 32> IdealInitKeys;
- const CXXRecordDecl *ClassDecl = Constructor->getParent();
- // 1. Virtual bases.
- for (const auto &VBase : ClassDecl->vbases())
- IdealInitKeys.push_back(GetKeyForBase(SemaRef.Context, VBase.getType()));
- // 2. Non-virtual bases.
- for (const auto &Base : ClassDecl->bases()) {
- if (Base.isVirtual())
- continue;
- IdealInitKeys.push_back(GetKeyForBase(SemaRef.Context, Base.getType()));
- }
- // 3. Direct fields.
- for (auto *Field : ClassDecl->fields()) {
- if (Field->isUnnamedBitfield())
- continue;
- PopulateKeysForFields(Field, IdealInitKeys);
- }
- unsigned NumIdealInits = IdealInitKeys.size();
- unsigned IdealIndex = 0;
- // Track initializers that are in an incorrect order for either a warning or
- // note if multiple ones occur.
- SmallVector<unsigned> WarnIndexes;
- // Correlates the index of an initializer in the init-list to the index of
- // the field/base in the class.
- SmallVector<std::pair<unsigned, unsigned>, 32> CorrelatedInitOrder;
- for (unsigned InitIndex = 0; InitIndex != Inits.size(); ++InitIndex) {
- const void *InitKey = GetKeyForMember(SemaRef.Context, Inits[InitIndex]);
- // Scan forward to try to find this initializer in the idealized
- // initializers list.
- for (; IdealIndex != NumIdealInits; ++IdealIndex)
- if (InitKey == IdealInitKeys[IdealIndex])
- break;
- // If we didn't find this initializer, it must be because we
- // scanned past it on a previous iteration. That can only
- // happen if we're out of order; emit a warning.
- if (IdealIndex == NumIdealInits && InitIndex) {
- WarnIndexes.push_back(InitIndex);
- // Move back to the initializer's location in the ideal list.
- for (IdealIndex = 0; IdealIndex != NumIdealInits; ++IdealIndex)
- if (InitKey == IdealInitKeys[IdealIndex])
- break;
- assert(IdealIndex < NumIdealInits &&
- "initializer not found in initializer list");
- }
- CorrelatedInitOrder.emplace_back(IdealIndex, InitIndex);
- }
- if (WarnIndexes.empty())
- return;
- // Sort based on the ideal order, first in the pair.
- llvm::sort(CorrelatedInitOrder, llvm::less_first());
- // Introduce a new scope as SemaDiagnosticBuilder needs to be destroyed to
- // emit the diagnostic before we can try adding notes.
- {
- Sema::SemaDiagnosticBuilder D = SemaRef.Diag(
- Inits[WarnIndexes.front() - 1]->getSourceLocation(),
- WarnIndexes.size() == 1 ? diag::warn_initializer_out_of_order
- : diag::warn_some_initializers_out_of_order);
- for (unsigned I = 0; I < CorrelatedInitOrder.size(); ++I) {
- if (CorrelatedInitOrder[I].second == I)
- continue;
- // Ideally we would be using InsertFromRange here, but clang doesn't
- // appear to handle InsertFromRange correctly when the source range is
- // modified by another fix-it.
- D << FixItHint::CreateReplacement(
- Inits[I]->getSourceRange(),
- Lexer::getSourceText(
- CharSourceRange::getTokenRange(
- Inits[CorrelatedInitOrder[I].second]->getSourceRange()),
- SemaRef.getSourceManager(), SemaRef.getLangOpts()));
- }
- // If there is only 1 item out of order, the warning expects the name and
- // type of each being added to it.
- if (WarnIndexes.size() == 1) {
- AddInitializerToDiag(D, Inits[WarnIndexes.front() - 1],
- Inits[WarnIndexes.front()]);
- return;
- }
- }
- // More than 1 item to warn, create notes letting the user know which ones
- // are bad.
- for (unsigned WarnIndex : WarnIndexes) {
- const clang::CXXCtorInitializer *PrevInit = Inits[WarnIndex - 1];
- auto D = SemaRef.Diag(PrevInit->getSourceLocation(),
- diag::note_initializer_out_of_order);
- AddInitializerToDiag(D, PrevInit, Inits[WarnIndex]);
- D << PrevInit->getSourceRange();
- }
- }
- namespace {
- bool CheckRedundantInit(Sema &S,
- CXXCtorInitializer *Init,
- CXXCtorInitializer *&PrevInit) {
- if (!PrevInit) {
- PrevInit = Init;
- return false;
- }
- if (FieldDecl *Field = Init->getAnyMember())
- S.Diag(Init->getSourceLocation(),
- diag::err_multiple_mem_initialization)
- << Field->getDeclName()
- << Init->getSourceRange();
- else {
- const Type *BaseClass = Init->getBaseClass();
- assert(BaseClass && "neither field nor base");
- S.Diag(Init->getSourceLocation(),
- diag::err_multiple_base_initialization)
- << QualType(BaseClass, 0)
- << Init->getSourceRange();
- }
- S.Diag(PrevInit->getSourceLocation(), diag::note_previous_initializer)
- << 0 << PrevInit->getSourceRange();
- return true;
- }
- typedef std::pair<NamedDecl *, CXXCtorInitializer *> UnionEntry;
- typedef llvm::DenseMap<RecordDecl*, UnionEntry> RedundantUnionMap;
- bool CheckRedundantUnionInit(Sema &S,
- CXXCtorInitializer *Init,
- RedundantUnionMap &Unions) {
- FieldDecl *Field = Init->getAnyMember();
- RecordDecl *Parent = Field->getParent();
- NamedDecl *Child = Field;
- while (Parent->isAnonymousStructOrUnion() || Parent->isUnion()) {
- if (Parent->isUnion()) {
- UnionEntry &En = Unions[Parent];
- if (En.first && En.first != Child) {
- S.Diag(Init->getSourceLocation(),
- diag::err_multiple_mem_union_initialization)
- << Field->getDeclName()
- << Init->getSourceRange();
- S.Diag(En.second->getSourceLocation(), diag::note_previous_initializer)
- << 0 << En.second->getSourceRange();
- return true;
- }
- if (!En.first) {
- En.first = Child;
- En.second = Init;
- }
- if (!Parent->isAnonymousStructOrUnion())
- return false;
- }
- Child = Parent;
- Parent = cast<RecordDecl>(Parent->getDeclContext());
- }
- return false;
- }
- } // namespace
- /// ActOnMemInitializers - Handle the member initializers for a constructor.
- void Sema::ActOnMemInitializers(Decl *ConstructorDecl,
- SourceLocation ColonLoc,
- ArrayRef<CXXCtorInitializer*> MemInits,
- bool AnyErrors) {
- if (!ConstructorDecl)
- return;
- AdjustDeclIfTemplate(ConstructorDecl);
- CXXConstructorDecl *Constructor
- = dyn_cast<CXXConstructorDecl>(ConstructorDecl);
- if (!Constructor) {
- Diag(ColonLoc, diag::err_only_constructors_take_base_inits);
- return;
- }
- // Mapping for the duplicate initializers check.
- // For member initializers, this is keyed with a FieldDecl*.
- // For base initializers, this is keyed with a Type*.
- llvm::DenseMap<const void *, CXXCtorInitializer *> Members;
- // Mapping for the inconsistent anonymous-union initializers check.
- RedundantUnionMap MemberUnions;
- bool HadError = false;
- for (unsigned i = 0; i < MemInits.size(); i++) {
- CXXCtorInitializer *Init = MemInits[i];
- // Set the source order index.
- Init->setSourceOrder(i);
- if (Init->isAnyMemberInitializer()) {
- const void *Key = GetKeyForMember(Context, Init);
- if (CheckRedundantInit(*this, Init, Members[Key]) ||
- CheckRedundantUnionInit(*this, Init, MemberUnions))
- HadError = true;
- } else if (Init->isBaseInitializer()) {
- const void *Key = GetKeyForMember(Context, Init);
- if (CheckRedundantInit(*this, Init, Members[Key]))
- HadError = true;
- } else {
- assert(Init->isDelegatingInitializer());
- // This must be the only initializer
- if (MemInits.size() != 1) {
- Diag(Init->getSourceLocation(),
- diag::err_delegating_initializer_alone)
- << Init->getSourceRange() << MemInits[i ? 0 : 1]->getSourceRange();
- // We will treat this as being the only initializer.
- }
- SetDelegatingInitializer(Constructor, MemInits[i]);
- // Return immediately as the initializer is set.
- return;
- }
- }
- if (HadError)
- return;
- DiagnoseBaseOrMemInitializerOrder(*this, Constructor, MemInits);
- SetCtorInitializers(Constructor, AnyErrors, MemInits);
- DiagnoseUninitializedFields(*this, Constructor);
- }
- void
- Sema::MarkBaseAndMemberDestructorsReferenced(SourceLocation Location,
- CXXRecordDecl *ClassDecl) {
- // Ignore dependent contexts. Also ignore unions, since their members never
- // have destructors implicitly called.
- if (ClassDecl->isDependentContext() || ClassDecl->isUnion())
- return;
- // FIXME: all the access-control diagnostics are positioned on the
- // field/base declaration. That's probably good; that said, the
- // user might reasonably want to know why the destructor is being
- // emitted, and we currently don't say.
- // Non-static data members.
- for (auto *Field : ClassDecl->fields()) {
- if (Field->isInvalidDecl())
- continue;
- // Don't destroy incomplete or zero-length arrays.
- if (isIncompleteOrZeroLengthArrayType(Context, Field->getType()))
- continue;
- QualType FieldType = Context.getBaseElementType(Field->getType());
- const RecordType* RT = FieldType->getAs<RecordType>();
- if (!RT)
- continue;
- CXXRecordDecl *FieldClassDecl = cast<CXXRecordDecl>(RT->getDecl());
- if (FieldClassDecl->isInvalidDecl())
- continue;
- if (FieldClassDecl->hasIrrelevantDestructor())
- continue;
- // The destructor for an implicit anonymous union member is never invoked.
- if (FieldClassDecl->isUnion() && FieldClassDecl->isAnonymousStructOrUnion())
- continue;
- CXXDestructorDecl *Dtor = LookupDestructor(FieldClassDecl);
- // Dtor might still be missing, e.g because it's invalid.
- if (!Dtor)
- continue;
- CheckDestructorAccess(Field->getLocation(), Dtor,
- PDiag(diag::err_access_dtor_field)
- << Field->getDeclName()
- << FieldType);
- MarkFunctionReferenced(Location, Dtor);
- DiagnoseUseOfDecl(Dtor, Location);
- }
- // We only potentially invoke the destructors of potentially constructed
- // subobjects.
- bool VisitVirtualBases = !ClassDecl->isAbstract();
- // If the destructor exists and has already been marked used in the MS ABI,
- // then virtual base destructors have already been checked and marked used.
- // Skip checking them again to avoid duplicate diagnostics.
- if (Context.getTargetInfo().getCXXABI().isMicrosoft()) {
- CXXDestructorDecl *Dtor = ClassDecl->getDestructor();
- if (Dtor && Dtor->isUsed())
- VisitVirtualBases = false;
- }
- llvm::SmallPtrSet<const RecordType *, 8> DirectVirtualBases;
- // Bases.
- for (const auto &Base : ClassDecl->bases()) {
- const RecordType *RT = Base.getType()->getAs<RecordType>();
- if (!RT)
- continue;
- // Remember direct virtual bases.
- if (Base.isVirtual()) {
- if (!VisitVirtualBases)
- continue;
- DirectVirtualBases.insert(RT);
- }
- CXXRecordDecl *BaseClassDecl = cast<CXXRecordDecl>(RT->getDecl());
- // If our base class is invalid, we probably can't get its dtor anyway.
- if (BaseClassDecl->isInvalidDecl())
- continue;
- if (BaseClassDecl->hasIrrelevantDestructor())
- continue;
- CXXDestructorDecl *Dtor = LookupDestructor(BaseClassDecl);
- // Dtor might still be missing, e.g because it's invalid.
- if (!Dtor)
- continue;
- // FIXME: caret should be on the start of the class name
- CheckDestructorAccess(Base.getBeginLoc(), Dtor,
- PDiag(diag::err_access_dtor_base)
- << Base.getType() << Base.getSourceRange(),
- Context.getTypeDeclType(ClassDecl));
- MarkFunctionReferenced(Location, Dtor);
- DiagnoseUseOfDecl(Dtor, Location);
- }
- if (VisitVirtualBases)
- MarkVirtualBaseDestructorsReferenced(Location, ClassDecl,
- &DirectVirtualBases);
- }
- void Sema::MarkVirtualBaseDestructorsReferenced(
- SourceLocation Location, CXXRecordDecl *ClassDecl,
- llvm::SmallPtrSetImpl<const RecordType *> *DirectVirtualBases) {
- // Virtual bases.
- for (const auto &VBase : ClassDecl->vbases()) {
- // Bases are always records in a well-formed non-dependent class.
- const RecordType *RT = VBase.getType()->castAs<RecordType>();
- // Ignore already visited direct virtual bases.
- if (DirectVirtualBases && DirectVirtualBases->count(RT))
- continue;
- CXXRecordDecl *BaseClassDecl = cast<CXXRecordDecl>(RT->getDecl());
- // If our base class is invalid, we probably can't get its dtor anyway.
- if (BaseClassDecl->isInvalidDecl())
- continue;
- if (BaseClassDecl->hasIrrelevantDestructor())
- continue;
- CXXDestructorDecl *Dtor = LookupDestructor(BaseClassDecl);
- // Dtor might still be missing, e.g because it's invalid.
- if (!Dtor)
- continue;
- if (CheckDestructorAccess(
- ClassDecl->getLocation(), Dtor,
- PDiag(diag::err_access_dtor_vbase)
- << Context.getTypeDeclType(ClassDecl) << VBase.getType(),
- Context.getTypeDeclType(ClassDecl)) ==
- AR_accessible) {
- CheckDerivedToBaseConversion(
- Context.getTypeDeclType(ClassDecl), VBase.getType(),
- diag::err_access_dtor_vbase, 0, ClassDecl->getLocation(),
- SourceRange(), DeclarationName(), nullptr);
- }
- MarkFunctionReferenced(Location, Dtor);
- DiagnoseUseOfDecl(Dtor, Location);
- }
- }
- void Sema::ActOnDefaultCtorInitializers(Decl *CDtorDecl) {
- if (!CDtorDecl)
- return;
- if (CXXConstructorDecl *Constructor
- = dyn_cast<CXXConstructorDecl>(CDtorDecl)) {
- SetCtorInitializers(Constructor, /*AnyErrors=*/false);
- DiagnoseUninitializedFields(*this, Constructor);
- }
- }
- bool Sema::isAbstractType(SourceLocation Loc, QualType T) {
- if (!getLangOpts().CPlusPlus)
- return false;
- const auto *RD = Context.getBaseElementType(T)->getAsCXXRecordDecl();
- if (!RD)
- return false;
- // FIXME: Per [temp.inst]p1, we are supposed to trigger instantiation of a
- // class template specialization here, but doing so breaks a lot of code.
- // We can't answer whether something is abstract until it has a
- // definition. If it's currently being defined, we'll walk back
- // over all the declarations when we have a full definition.
- const CXXRecordDecl *Def = RD->getDefinition();
- if (!Def || Def->isBeingDefined())
- return false;
- return RD->isAbstract();
- }
- bool Sema::RequireNonAbstractType(SourceLocation Loc, QualType T,
- TypeDiagnoser &Diagnoser) {
- if (!isAbstractType(Loc, T))
- return false;
- T = Context.getBaseElementType(T);
- Diagnoser.diagnose(*this, Loc, T);
- DiagnoseAbstractType(T->getAsCXXRecordDecl());
- return true;
- }
- void Sema::DiagnoseAbstractType(const CXXRecordDecl *RD) {
- // Check if we've already emitted the list of pure virtual functions
- // for this class.
- if (PureVirtualClassDiagSet && PureVirtualClassDiagSet->count(RD))
- return;
- // If the diagnostic is suppressed, don't emit the notes. We're only
- // going to emit them once, so try to attach them to a diagnostic we're
- // actually going to show.
- if (Diags.isLastDiagnosticIgnored())
- return;
- CXXFinalOverriderMap FinalOverriders;
- RD->getFinalOverriders(FinalOverriders);
- // Keep a set of seen pure methods so we won't diagnose the same method
- // more than once.
- llvm::SmallPtrSet<const CXXMethodDecl *, 8> SeenPureMethods;
- for (CXXFinalOverriderMap::iterator M = FinalOverriders.begin(),
- MEnd = FinalOverriders.end();
- M != MEnd;
- ++M) {
- for (OverridingMethods::iterator SO = M->second.begin(),
- SOEnd = M->second.end();
- SO != SOEnd; ++SO) {
- // C++ [class.abstract]p4:
- // A class is abstract if it contains or inherits at least one
- // pure virtual function for which the final overrider is pure
- // virtual.
- //
- if (SO->second.size() != 1)
- continue;
- if (!SO->second.front().Method->isPure())
- continue;
- if (!SeenPureMethods.insert(SO->second.front().Method).second)
- continue;
- Diag(SO->second.front().Method->getLocation(),
- diag::note_pure_virtual_function)
- << SO->second.front().Method->getDeclName() << RD->getDeclName();
- }
- }
- if (!PureVirtualClassDiagSet)
- PureVirtualClassDiagSet.reset(new RecordDeclSetTy);
- PureVirtualClassDiagSet->insert(RD);
- }
- namespace {
- struct AbstractUsageInfo {
- Sema &S;
- CXXRecordDecl *Record;
- CanQualType AbstractType;
- bool Invalid;
- AbstractUsageInfo(Sema &S, CXXRecordDecl *Record)
- : S(S), Record(Record),
- AbstractType(S.Context.getCanonicalType(
- S.Context.getTypeDeclType(Record))),
- Invalid(false) {}
- void DiagnoseAbstractType() {
- if (Invalid) return;
- S.DiagnoseAbstractType(Record);
- Invalid = true;
- }
- void CheckType(const NamedDecl *D, TypeLoc TL, Sema::AbstractDiagSelID Sel);
- };
- struct CheckAbstractUsage {
- AbstractUsageInfo &Info;
- const NamedDecl *Ctx;
- CheckAbstractUsage(AbstractUsageInfo &Info, const NamedDecl *Ctx)
- : Info(Info), Ctx(Ctx) {}
- void Visit(TypeLoc TL, Sema::AbstractDiagSelID Sel) {
- switch (TL.getTypeLocClass()) {
- #define ABSTRACT_TYPELOC(CLASS, PARENT)
- #define TYPELOC(CLASS, PARENT) \
- case TypeLoc::CLASS: Check(TL.castAs<CLASS##TypeLoc>(), Sel); break;
- #include "clang/AST/TypeLocNodes.def"
- }
- }
- void Check(FunctionProtoTypeLoc TL, Sema::AbstractDiagSelID Sel) {
- Visit(TL.getReturnLoc(), Sema::AbstractReturnType);
- for (unsigned I = 0, E = TL.getNumParams(); I != E; ++I) {
- if (!TL.getParam(I))
- continue;
- TypeSourceInfo *TSI = TL.getParam(I)->getTypeSourceInfo();
- if (TSI) Visit(TSI->getTypeLoc(), Sema::AbstractParamType);
- }
- }
- void Check(ArrayTypeLoc TL, Sema::AbstractDiagSelID Sel) {
- Visit(TL.getElementLoc(), Sema::AbstractArrayType);
- }
- void Check(TemplateSpecializationTypeLoc TL, Sema::AbstractDiagSelID Sel) {
- // Visit the type parameters from a permissive context.
- for (unsigned I = 0, E = TL.getNumArgs(); I != E; ++I) {
- TemplateArgumentLoc TAL = TL.getArgLoc(I);
- if (TAL.getArgument().getKind() == TemplateArgument::Type)
- if (TypeSourceInfo *TSI = TAL.getTypeSourceInfo())
- Visit(TSI->getTypeLoc(), Sema::AbstractNone);
- // TODO: other template argument types?
- }
- }
- // Visit pointee types from a permissive context.
- #define CheckPolymorphic(Type) \
- void Check(Type TL, Sema::AbstractDiagSelID Sel) { \
- Visit(TL.getNextTypeLoc(), Sema::AbstractNone); \
- }
- CheckPolymorphic(PointerTypeLoc)
- CheckPolymorphic(ReferenceTypeLoc)
- CheckPolymorphic(MemberPointerTypeLoc)
- CheckPolymorphic(BlockPointerTypeLoc)
- CheckPolymorphic(AtomicTypeLoc)
- /// Handle all the types we haven't given a more specific
- /// implementation for above.
- void Check(TypeLoc TL, Sema::AbstractDiagSelID Sel) {
- // Every other kind of type that we haven't called out already
- // that has an inner type is either (1) sugar or (2) contains that
- // inner type in some way as a subobject.
- if (TypeLoc Next = TL.getNextTypeLoc())
- return Visit(Next, Sel);
- // If there's no inner type and we're in a permissive context,
- // don't diagnose.
- if (Sel == Sema::AbstractNone) return;
- // Check whether the type matches the abstract type.
- QualType T = TL.getType();
- if (T->isArrayType()) {
- Sel = Sema::AbstractArrayType;
- T = Info.S.Context.getBaseElementType(T);
- }
- CanQualType CT = T->getCanonicalTypeUnqualified().getUnqualifiedType();
- if (CT != Info.AbstractType) return;
- // It matched; do some magic.
- // FIXME: These should be at most warnings. See P0929R2, CWG1640, CWG1646.
- if (Sel == Sema::AbstractArrayType) {
- Info.S.Diag(Ctx->getLocation(), diag::err_array_of_abstract_type)
- << T << TL.getSourceRange();
- } else {
- Info.S.Diag(Ctx->getLocation(), diag::err_abstract_type_in_decl)
- << Sel << T << TL.getSourceRange();
- }
- Info.DiagnoseAbstractType();
- }
- };
- void AbstractUsageInfo::CheckType(const NamedDecl *D, TypeLoc TL,
- Sema::AbstractDiagSelID Sel) {
- CheckAbstractUsage(*this, D).Visit(TL, Sel);
- }
- }
- /// Check for invalid uses of an abstract type in a function declaration.
- static void CheckAbstractClassUsage(AbstractUsageInfo &Info,
- FunctionDecl *FD) {
- // No need to do the check on definitions, which require that
- // the return/param types be complete.
- if (FD->doesThisDeclarationHaveABody())
- return;
- // For safety's sake, just ignore it if we don't have type source
- // information. This should never happen for non-implicit methods,
- // but...
- if (TypeSourceInfo *TSI = FD->getTypeSourceInfo())
- Info.CheckType(FD, TSI->getTypeLoc(), Sema::AbstractNone);
- }
- /// Check for invalid uses of an abstract type in a variable0 declaration.
- static void CheckAbstractClassUsage(AbstractUsageInfo &Info,
- VarDecl *VD) {
- // No need to do the check on definitions, which require that
- // the type is complete.
- if (VD->isThisDeclarationADefinition())
- return;
- Info.CheckType(VD, VD->getTypeSourceInfo()->getTypeLoc(),
- Sema::AbstractVariableType);
- }
- /// Check for invalid uses of an abstract type within a class definition.
- static void CheckAbstractClassUsage(AbstractUsageInfo &Info,
- CXXRecordDecl *RD) {
- for (auto *D : RD->decls()) {
- if (D->isImplicit()) continue;
- // Step through friends to the befriended declaration.
- if (auto *FD = dyn_cast<FriendDecl>(D)) {
- D = FD->getFriendDecl();
- if (!D) continue;
- }
- // Functions and function templates.
- if (auto *FD = dyn_cast<FunctionDecl>(D)) {
- CheckAbstractClassUsage(Info, FD);
- } else if (auto *FTD = dyn_cast<FunctionTemplateDecl>(D)) {
- CheckAbstractClassUsage(Info, FTD->getTemplatedDecl());
- // Fields and static variables.
- } else if (auto *FD = dyn_cast<FieldDecl>(D)) {
- if (TypeSourceInfo *TSI = FD->getTypeSourceInfo())
- Info.CheckType(FD, TSI->getTypeLoc(), Sema::AbstractFieldType);
- } else if (auto *VD = dyn_cast<VarDecl>(D)) {
- CheckAbstractClassUsage(Info, VD);
- } else if (auto *VTD = dyn_cast<VarTemplateDecl>(D)) {
- CheckAbstractClassUsage(Info, VTD->getTemplatedDecl());
- // Nested classes and class templates.
- } else if (auto *RD = dyn_cast<CXXRecordDecl>(D)) {
- CheckAbstractClassUsage(Info, RD);
- } else if (auto *CTD = dyn_cast<ClassTemplateDecl>(D)) {
- CheckAbstractClassUsage(Info, CTD->getTemplatedDecl());
- }
- }
- }
- static void ReferenceDllExportedMembers(Sema &S, CXXRecordDecl *Class) {
- Attr *ClassAttr = getDLLAttr(Class);
- if (!ClassAttr)
- return;
- assert(ClassAttr->getKind() == attr::DLLExport);
- TemplateSpecializationKind TSK = Class->getTemplateSpecializationKind();
- if (TSK == TSK_ExplicitInstantiationDeclaration)
- // Don't go any further if this is just an explicit instantiation
- // declaration.
- return;
- // Add a context note to explain how we got to any diagnostics produced below.
- struct MarkingClassDllexported {
- Sema &S;
- MarkingClassDllexported(Sema &S, CXXRecordDecl *Class,
- SourceLocation AttrLoc)
- : S(S) {
- Sema::CodeSynthesisContext Ctx;
- Ctx.Kind = Sema::CodeSynthesisContext::MarkingClassDllexported;
- Ctx.PointOfInstantiation = AttrLoc;
- Ctx.Entity = Class;
- S.pushCodeSynthesisContext(Ctx);
- }
- ~MarkingClassDllexported() {
- S.popCodeSynthesisContext();
- }
- } MarkingDllexportedContext(S, Class, ClassAttr->getLocation());
- if (S.Context.getTargetInfo().getTriple().isWindowsGNUEnvironment())
- S.MarkVTableUsed(Class->getLocation(), Class, true);
- for (Decl *Member : Class->decls()) {
- // Skip members that were not marked exported.
- if (!Member->hasAttr<DLLExportAttr>())
- continue;
- // Defined static variables that are members of an exported base
- // class must be marked export too.
- auto *VD = dyn_cast<VarDecl>(Member);
- if (VD && VD->getStorageClass() == SC_Static &&
- TSK == TSK_ImplicitInstantiation)
- S.MarkVariableReferenced(VD->getLocation(), VD);
- auto *MD = dyn_cast<CXXMethodDecl>(Member);
- if (!MD)
- continue;
- if (MD->isUserProvided()) {
- // Instantiate non-default class member functions ...
- // .. except for certain kinds of template specializations.
- if (TSK == TSK_ImplicitInstantiation && !ClassAttr->isInherited())
- continue;
- // If this is an MS ABI dllexport default constructor, instantiate any
- // default arguments.
- if (S.Context.getTargetInfo().getCXXABI().isMicrosoft()) {
- auto *CD = dyn_cast<CXXConstructorDecl>(MD);
- if (CD && CD->isDefaultConstructor() && TSK == TSK_Undeclared) {
- S.InstantiateDefaultCtorDefaultArgs(CD);
- }
- }
- S.MarkFunctionReferenced(Class->getLocation(), MD);
- // The function will be passed to the consumer when its definition is
- // encountered.
- } else if (MD->isExplicitlyDefaulted()) {
- // Synthesize and instantiate explicitly defaulted methods.
- S.MarkFunctionReferenced(Class->getLocation(), MD);
- if (TSK != TSK_ExplicitInstantiationDefinition) {
- // Except for explicit instantiation defs, we will not see the
- // definition again later, so pass it to the consumer now.
- S.Consumer.HandleTopLevelDecl(DeclGroupRef(MD));
- }
- } else if (!MD->isTrivial() ||
- MD->isCopyAssignmentOperator() ||
- MD->isMoveAssignmentOperator()) {
- // Synthesize and instantiate non-trivial implicit methods, and the copy
- // and move assignment operators. The latter are exported even if they
- // are trivial, because the address of an operator can be taken and
- // should compare equal across libraries.
- S.MarkFunctionReferenced(Class->getLocation(), MD);
- // There is no later point when we will see the definition of this
- // function, so pass it to the consumer now.
- S.Consumer.HandleTopLevelDecl(DeclGroupRef(MD));
- }
- }
- }
- static void checkForMultipleExportedDefaultConstructors(Sema &S,
- CXXRecordDecl *Class) {
- // Only the MS ABI has default constructor closures, so we don't need to do
- // this semantic checking anywhere else.
- if (!S.Context.getTargetInfo().getCXXABI().isMicrosoft())
- return;
- CXXConstructorDecl *LastExportedDefaultCtor = nullptr;
- for (Decl *Member : Class->decls()) {
- // Look for exported default constructors.
- auto *CD = dyn_cast<CXXConstructorDecl>(Member);
- if (!CD || !CD->isDefaultConstructor())
- continue;
- auto *Attr = CD->getAttr<DLLExportAttr>();
- if (!Attr)
- continue;
- // If the class is non-dependent, mark the default arguments as ODR-used so
- // that we can properly codegen the constructor closure.
- if (!Class->isDependentContext()) {
- for (ParmVarDecl *PD : CD->parameters()) {
- (void)S.CheckCXXDefaultArgExpr(Attr->getLocation(), CD, PD);
- S.DiscardCleanupsInEvaluationContext();
- }
- }
- if (LastExportedDefaultCtor) {
- S.Diag(LastExportedDefaultCtor->getLocation(),
- diag::err_attribute_dll_ambiguous_default_ctor)
- << Class;
- S.Diag(CD->getLocation(), diag::note_entity_declared_at)
- << CD->getDeclName();
- return;
- }
- LastExportedDefaultCtor = CD;
- }
- }
- static void checkCUDADeviceBuiltinSurfaceClassTemplate(Sema &S,
- CXXRecordDecl *Class) {
- bool ErrorReported = false;
- auto reportIllegalClassTemplate = [&ErrorReported](Sema &S,
- ClassTemplateDecl *TD) {
- if (ErrorReported)
- return;
- S.Diag(TD->getLocation(),
- diag::err_cuda_device_builtin_surftex_cls_template)
- << /*surface*/ 0 << TD;
- ErrorReported = true;
- };
- ClassTemplateDecl *TD = Class->getDescribedClassTemplate();
- if (!TD) {
- auto *SD = dyn_cast<ClassTemplateSpecializationDecl>(Class);
- if (!SD) {
- S.Diag(Class->getLocation(),
- diag::err_cuda_device_builtin_surftex_ref_decl)
- << /*surface*/ 0 << Class;
- S.Diag(Class->getLocation(),
- diag::note_cuda_device_builtin_surftex_should_be_template_class)
- << Class;
- return;
- }
- TD = SD->getSpecializedTemplate();
- }
- TemplateParameterList *Params = TD->getTemplateParameters();
- unsigned N = Params->size();
- if (N != 2) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_n_args)
- << TD << 2;
- }
- if (N > 0 && !isa<TemplateTypeParmDecl>(Params->getParam(0))) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_match_arg)
- << TD << /*1st*/ 0 << /*type*/ 0;
- }
- if (N > 1) {
- auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(Params->getParam(1));
- if (!NTTP || !NTTP->getType()->isIntegralOrEnumerationType()) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_match_arg)
- << TD << /*2nd*/ 1 << /*integer*/ 1;
- }
- }
- }
- static void checkCUDADeviceBuiltinTextureClassTemplate(Sema &S,
- CXXRecordDecl *Class) {
- bool ErrorReported = false;
- auto reportIllegalClassTemplate = [&ErrorReported](Sema &S,
- ClassTemplateDecl *TD) {
- if (ErrorReported)
- return;
- S.Diag(TD->getLocation(),
- diag::err_cuda_device_builtin_surftex_cls_template)
- << /*texture*/ 1 << TD;
- ErrorReported = true;
- };
- ClassTemplateDecl *TD = Class->getDescribedClassTemplate();
- if (!TD) {
- auto *SD = dyn_cast<ClassTemplateSpecializationDecl>(Class);
- if (!SD) {
- S.Diag(Class->getLocation(),
- diag::err_cuda_device_builtin_surftex_ref_decl)
- << /*texture*/ 1 << Class;
- S.Diag(Class->getLocation(),
- diag::note_cuda_device_builtin_surftex_should_be_template_class)
- << Class;
- return;
- }
- TD = SD->getSpecializedTemplate();
- }
- TemplateParameterList *Params = TD->getTemplateParameters();
- unsigned N = Params->size();
- if (N != 3) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_n_args)
- << TD << 3;
- }
- if (N > 0 && !isa<TemplateTypeParmDecl>(Params->getParam(0))) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_match_arg)
- << TD << /*1st*/ 0 << /*type*/ 0;
- }
- if (N > 1) {
- auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(Params->getParam(1));
- if (!NTTP || !NTTP->getType()->isIntegralOrEnumerationType()) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_match_arg)
- << TD << /*2nd*/ 1 << /*integer*/ 1;
- }
- }
- if (N > 2) {
- auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(Params->getParam(2));
- if (!NTTP || !NTTP->getType()->isIntegralOrEnumerationType()) {
- reportIllegalClassTemplate(S, TD);
- S.Diag(TD->getLocation(),
- diag::note_cuda_device_builtin_surftex_cls_should_have_match_arg)
- << TD << /*3rd*/ 2 << /*integer*/ 1;
- }
- }
- }
- void Sema::checkClassLevelCodeSegAttribute(CXXRecordDecl *Class) {
- // Mark any compiler-generated routines with the implicit code_seg attribute.
- for (auto *Method : Class->methods()) {
- if (Method->isUserProvided())
- continue;
- if (Attr *A = getImplicitCodeSegOrSectionAttrForFunction(Method, /*IsDefinition=*/true))
- Method->addAttr(A);
- }
- }
- /// Check class-level dllimport/dllexport attribute.
- void Sema::checkClassLevelDLLAttribute(CXXRecordDecl *Class) {
- Attr *ClassAttr = getDLLAttr(Class);
- // MSVC inherits DLL attributes to partial class template specializations.
- if (Context.getTargetInfo().shouldDLLImportComdatSymbols() && !ClassAttr) {
- if (auto *Spec = dyn_cast<ClassTemplatePartialSpecializationDecl>(Class)) {
- if (Attr *TemplateAttr =
- getDLLAttr(Spec->getSpecializedTemplate()->getTemplatedDecl())) {
- auto *A = cast<InheritableAttr>(TemplateAttr->clone(getASTContext()));
- A->setInherited(true);
- ClassAttr = A;
- }
- }
- }
- if (!ClassAttr)
- return;
- if (!Class->isExternallyVisible()) {
- Diag(Class->getLocation(), diag::err_attribute_dll_not_extern)
- << Class << ClassAttr;
- return;
- }
- if (Context.getTargetInfo().shouldDLLImportComdatSymbols() &&
- !ClassAttr->isInherited()) {
- // Diagnose dll attributes on members of class with dll attribute.
- for (Decl *Member : Class->decls()) {
- if (!isa<VarDecl>(Member) && !isa<CXXMethodDecl>(Member))
- continue;
- InheritableAttr *MemberAttr = getDLLAttr(Member);
- if (!MemberAttr || MemberAttr->isInherited() || Member->isInvalidDecl())
- continue;
- Diag(MemberAttr->getLocation(),
- diag::err_attribute_dll_member_of_dll_class)
- << MemberAttr << ClassAttr;
- Diag(ClassAttr->getLocation(), diag::note_previous_attribute);
- Member->setInvalidDecl();
- }
- }
- if (Class->getDescribedClassTemplate())
- // Don't inherit dll attribute until the template is instantiated.
- return;
- // The class is either imported or exported.
- const bool ClassExported = ClassAttr->getKind() == attr::DLLExport;
- // Check if this was a dllimport attribute propagated from a derived class to
- // a base class template specialization. We don't apply these attributes to
- // static data members.
- const bool PropagatedImport =
- !ClassExported &&
- cast<DLLImportAttr>(ClassAttr)->wasPropagatedToBaseTemplate();
- TemplateSpecializationKind TSK = Class->getTemplateSpecializationKind();
- // Ignore explicit dllexport on explicit class template instantiation
- // declarations, except in MinGW mode.
- if (ClassExported && !ClassAttr->isInherited() &&
- TSK == TSK_ExplicitInstantiationDeclaration &&
- !Context.getTargetInfo().getTriple().isWindowsGNUEnvironment()) {
- Class->dropAttr<DLLExportAttr>();
- return;
- }
- // Force declaration of implicit members so they can inherit the attribute.
- ForceDeclarationOfImplicitMembers(Class);
- // FIXME: MSVC's docs say all bases must be exportable, but this doesn't
- // seem to be true in practice?
- for (Decl *Member : Class->decls()) {
- VarDecl *VD = dyn_cast<VarDecl>(Member);
- CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(Member);
- // Only methods and static fields inherit the attributes.
- if (!VD && !MD)
- continue;
- if (MD) {
- // Don't process deleted methods.
- if (MD->isDeleted())
- continue;
- if (MD->isInlined()) {
- // MinGW does not import or export inline methods. But do it for
- // template instantiations.
- if (!Context.getTargetInfo().shouldDLLImportComdatSymbols() &&
- TSK != TSK_ExplicitInstantiationDeclaration &&
- TSK != TSK_ExplicitInstantiationDefinition)
- continue;
- // MSVC versions before 2015 don't export the move assignment operators
- // and move constructor, so don't attempt to import/export them if
- // we have a definition.
- auto *Ctor = dyn_cast<CXXConstructorDecl>(MD);
- if ((MD->isMoveAssignmentOperator() ||
- (Ctor && Ctor->isMoveConstructor())) &&
- !getLangOpts().isCompatibleWithMSVC(LangOptions::MSVC2015))
- continue;
- // MSVC2015 doesn't export trivial defaulted x-tor but copy assign
- // operator is exported anyway.
- if (getLangOpts().isCompatibleWithMSVC(LangOptions::MSVC2015) &&
- (Ctor || isa<CXXDestructorDecl>(MD)) && MD->isTrivial())
- continue;
- }
- }
- // Don't apply dllimport attributes to static data members of class template
- // instantiations when the attribute is propagated from a derived class.
- if (VD && PropagatedImport)
- continue;
- if (!cast<NamedDecl>(Member)->isExternallyVisible())
- continue;
- if (!getDLLAttr(Member)) {
- InheritableAttr *NewAttr = nullptr;
- // Do not export/import inline function when -fno-dllexport-inlines is
- // passed. But add attribute for later local static var check.
- if (!getLangOpts().DllExportInlines && MD && MD->isInlined() &&
- TSK != TSK_ExplicitInstantiationDeclaration &&
- TSK != TSK_ExplicitInstantiationDefinition) {
- if (ClassExported) {
- NewAttr = ::new (getASTContext())
- DLLExportStaticLocalAttr(getASTContext(), *ClassAttr);
- } else {
- NewAttr = ::new (getASTContext())
- DLLImportStaticLocalAttr(getASTContext(), *ClassAttr);
- }
- } else {
- NewAttr = cast<InheritableAttr>(ClassAttr->clone(getASTContext()));
- }
- NewAttr->setInherited(true);
- Member->addAttr(NewAttr);
- if (MD) {
- // Propagate DLLAttr to friend re-declarations of MD that have already
- // been constructed.
- for (FunctionDecl *FD = MD->getMostRecentDecl(); FD;
- FD = FD->getPreviousDecl()) {
- if (FD->getFriendObjectKind() == Decl::FOK_None)
- continue;
- assert(!getDLLAttr(FD) &&
- "friend re-decl should not already have a DLLAttr");
- NewAttr = cast<InheritableAttr>(ClassAttr->clone(getASTContext()));
- NewAttr->setInherited(true);
- FD->addAttr(NewAttr);
- }
- }
- }
- }
- if (ClassExported)
- DelayedDllExportClasses.push_back(Class);
- }
- /// Perform propagation of DLL attributes from a derived class to a
- /// templated base class for MS compatibility.
- void Sema::propagateDLLAttrToBaseClassTemplate(
- CXXRecordDecl *Class, Attr *ClassAttr,
- ClassTemplateSpecializationDecl *BaseTemplateSpec, SourceLocation BaseLoc) {
- if (getDLLAttr(
- BaseTemplateSpec->getSpecializedTemplate()->getTemplatedDecl())) {
- // If the base class template has a DLL attribute, don't try to change it.
- return;
- }
- auto TSK = BaseTemplateSpec->getSpecializationKind();
- if (!getDLLAttr(BaseTemplateSpec) &&
- (TSK == TSK_Undeclared || TSK == TSK_ExplicitInstantiationDeclaration ||
- TSK == TSK_ImplicitInstantiation)) {
- // The template hasn't been instantiated yet (or it has, but only as an
- // explicit instantiation declaration or implicit instantiation, which means
- // we haven't codegenned any members yet), so propagate the attribute.
- auto *NewAttr = cast<InheritableAttr>(ClassAttr->clone(getASTContext()));
- NewAttr->setInherited(true);
- BaseTemplateSpec->addAttr(NewAttr);
- // If this was an import, mark that we propagated it from a derived class to
- // a base class template specialization.
- if (auto *ImportAttr = dyn_cast<DLLImportAttr>(NewAttr))
- ImportAttr->setPropagatedToBaseTemplate();
- // If the template is already instantiated, checkDLLAttributeRedeclaration()
- // needs to be run again to work see the new attribute. Otherwise this will
- // get run whenever the template is instantiated.
- if (TSK != TSK_Undeclared)
- checkClassLevelDLLAttribute(BaseTemplateSpec);
- return;
- }
- if (getDLLAttr(BaseTemplateSpec)) {
- // The template has already been specialized or instantiated with an
- // attribute, explicitly or through propagation. We should not try to change
- // it.
- return;
- }
- // The template was previously instantiated or explicitly specialized without
- // a dll attribute, It's too late for us to add an attribute, so warn that
- // this is unsupported.
- Diag(BaseLoc, diag::warn_attribute_dll_instantiated_base_class)
- << BaseTemplateSpec->isExplicitSpecialization();
- Diag(ClassAttr->getLocation(), diag::note_attribute);
- if (BaseTemplateSpec->isExplicitSpecialization()) {
- Diag(BaseTemplateSpec->getLocation(),
- diag::note_template_class_explicit_specialization_was_here)
- << BaseTemplateSpec;
- } else {
- Diag(BaseTemplateSpec->getPointOfInstantiation(),
- diag::note_template_class_instantiation_was_here)
- << BaseTemplateSpec;
- }
- }
- /// Determine the kind of defaulting that would be done for a given function.
- ///
- /// If the function is both a default constructor and a copy / move constructor
- /// (due to having a default argument for the first parameter), this picks
- /// CXXDefaultConstructor.
- ///
- /// FIXME: Check that case is properly handled by all callers.
- Sema::DefaultedFunctionKind
- Sema::getDefaultedFunctionKind(const FunctionDecl *FD) {
- if (auto *MD = dyn_cast<CXXMethodDecl>(FD)) {
- if (const CXXConstructorDecl *Ctor = dyn_cast<CXXConstructorDecl>(FD)) {
- if (Ctor->isDefaultConstructor())
- return Sema::CXXDefaultConstructor;
- if (Ctor->isCopyConstructor())
- return Sema::CXXCopyConstructor;
- if (Ctor->isMoveConstructor())
- return Sema::CXXMoveConstructor;
- }
- if (MD->isCopyAssignmentOperator())
- return Sema::CXXCopyAssignment;
- if (MD->isMoveAssignmentOperator())
- return Sema::CXXMoveAssignment;
- if (isa<CXXDestructorDecl>(FD))
- return Sema::CXXDestructor;
- }
- switch (FD->getDeclName().getCXXOverloadedOperator()) {
- case OO_EqualEqual:
- return DefaultedComparisonKind::Equal;
- case OO_ExclaimEqual:
- return DefaultedComparisonKind::NotEqual;
- case OO_Spaceship:
- // No point allowing this if <=> doesn't exist in the current language mode.
- if (!getLangOpts().CPlusPlus20)
- break;
- return DefaultedComparisonKind::ThreeWay;
- case OO_Less:
- case OO_LessEqual:
- case OO_Greater:
- case OO_GreaterEqual:
- // No point allowing this if <=> doesn't exist in the current language mode.
- if (!getLangOpts().CPlusPlus20)
- break;
- return DefaultedComparisonKind::Relational;
- default:
- break;
- }
- // Not defaultable.
- return DefaultedFunctionKind();
- }
- static void DefineDefaultedFunction(Sema &S, FunctionDecl *FD,
- SourceLocation DefaultLoc) {
- Sema::DefaultedFunctionKind DFK = S.getDefaultedFunctionKind(FD);
- if (DFK.isComparison())
- return S.DefineDefaultedComparison(DefaultLoc, FD, DFK.asComparison());
- switch (DFK.asSpecialMember()) {
- case Sema::CXXDefaultConstructor:
- S.DefineImplicitDefaultConstructor(DefaultLoc,
- cast<CXXConstructorDecl>(FD));
- break;
- case Sema::CXXCopyConstructor:
- S.DefineImplicitCopyConstructor(DefaultLoc, cast<CXXConstructorDecl>(FD));
- break;
- case Sema::CXXCopyAssignment:
- S.DefineImplicitCopyAssignment(DefaultLoc, cast<CXXMethodDecl>(FD));
- break;
- case Sema::CXXDestructor:
- S.DefineImplicitDestructor(DefaultLoc, cast<CXXDestructorDecl>(FD));
- break;
- case Sema::CXXMoveConstructor:
- S.DefineImplicitMoveConstructor(DefaultLoc, cast<CXXConstructorDecl>(FD));
- break;
- case Sema::CXXMoveAssignment:
- S.DefineImplicitMoveAssignment(DefaultLoc, cast<CXXMethodDecl>(FD));
- break;
- case Sema::CXXInvalid:
- llvm_unreachable("Invalid special member.");
- }
- }
- /// Determine whether a type is permitted to be passed or returned in
- /// registers, per C++ [class.temporary]p3.
- static bool canPassInRegisters(Sema &S, CXXRecordDecl *D,
- TargetInfo::CallingConvKind CCK) {
- if (D->isDependentType() || D->isInvalidDecl())
- return false;
- // Clang <= 4 used the pre-C++11 rule, which ignores move operations.
- // The PS4 platform ABI follows the behavior of Clang 3.2.
- if (CCK == TargetInfo::CCK_ClangABI4OrPS4)
- return !D->hasNonTrivialDestructorForCall() &&
- !D->hasNonTrivialCopyConstructorForCall();
- if (CCK == TargetInfo::CCK_MicrosoftWin64) {
- bool CopyCtorIsTrivial = false, CopyCtorIsTrivialForCall = false;
- bool DtorIsTrivialForCall = false;
- // If a class has at least one eligible, trivial copy constructor, it
- // is passed according to the C ABI. Otherwise, it is passed indirectly.
- //
- // Note: This permits classes with non-trivial copy or move ctors to be
- // passed in registers, so long as they *also* have a trivial copy ctor,
- // which is non-conforming.
- if (D->needsImplicitCopyConstructor()) {
- if (!D->defaultedCopyConstructorIsDeleted()) {
- if (D->hasTrivialCopyConstructor())
- CopyCtorIsTrivial = true;
- if (D->hasTrivialCopyConstructorForCall())
- CopyCtorIsTrivialForCall = true;
- }
- } else {
- for (const CXXConstructorDecl *CD : D->ctors()) {
- if (CD->isCopyConstructor() && !CD->isDeleted() &&
- !CD->isIneligibleOrNotSelected()) {
- if (CD->isTrivial())
- CopyCtorIsTrivial = true;
- if (CD->isTrivialForCall())
- CopyCtorIsTrivialForCall = true;
- }
- }
- }
- if (D->needsImplicitDestructor()) {
- if (!D->defaultedDestructorIsDeleted() &&
- D->hasTrivialDestructorForCall())
- DtorIsTrivialForCall = true;
- } else if (const auto *DD = D->getDestructor()) {
- if (!DD->isDeleted() && DD->isTrivialForCall())
- DtorIsTrivialForCall = true;
- }
- // If the copy ctor and dtor are both trivial-for-calls, pass direct.
- if (CopyCtorIsTrivialForCall && DtorIsTrivialForCall)
- return true;
- // If a class has a destructor, we'd really like to pass it indirectly
- // because it allows us to elide copies. Unfortunately, MSVC makes that
- // impossible for small types, which it will pass in a single register or
- // stack slot. Most objects with dtors are large-ish, so handle that early.
- // We can't call out all large objects as being indirect because there are
- // multiple x64 calling conventions and the C++ ABI code shouldn't dictate
- // how we pass large POD types.
- // Note: This permits small classes with nontrivial destructors to be
- // passed in registers, which is non-conforming.
- bool isAArch64 = S.Context.getTargetInfo().getTriple().isAArch64();
- uint64_t TypeSize = isAArch64 ? 128 : 64;
- if (CopyCtorIsTrivial &&
- S.getASTContext().getTypeSize(D->getTypeForDecl()) <= TypeSize)
- return true;
- return false;
- }
- // Per C++ [class.temporary]p3, the relevant condition is:
- // each copy constructor, move constructor, and destructor of X is
- // either trivial or deleted, and X has at least one non-deleted copy
- // or move constructor
- bool HasNonDeletedCopyOrMove = false;
- if (D->needsImplicitCopyConstructor() &&
- !D->defaultedCopyConstructorIsDeleted()) {
- if (!D->hasTrivialCopyConstructorForCall())
- return false;
- HasNonDeletedCopyOrMove = true;
- }
- if (S.getLangOpts().CPlusPlus11 && D->needsImplicitMoveConstructor() &&
- !D->defaultedMoveConstructorIsDeleted()) {
- if (!D->hasTrivialMoveConstructorForCall())
- return false;
- HasNonDeletedCopyOrMove = true;
- }
- if (D->needsImplicitDestructor() && !D->defaultedDestructorIsDeleted() &&
- !D->hasTrivialDestructorForCall())
- return false;
- for (const CXXMethodDecl *MD : D->methods()) {
- if (MD->isDeleted() || MD->isIneligibleOrNotSelected())
- continue;
- auto *CD = dyn_cast<CXXConstructorDecl>(MD);
- if (CD && CD->isCopyOrMoveConstructor())
- HasNonDeletedCopyOrMove = true;
- else if (!isa<CXXDestructorDecl>(MD))
- continue;
- if (!MD->isTrivialForCall())
- return false;
- }
- return HasNonDeletedCopyOrMove;
- }
- /// Report an error regarding overriding, along with any relevant
- /// overridden methods.
- ///
- /// \param DiagID the primary error to report.
- /// \param MD the overriding method.
- static bool
- ReportOverrides(Sema &S, unsigned DiagID, const CXXMethodDecl *MD,
- llvm::function_ref<bool(const CXXMethodDecl *)> Report) {
- bool IssuedDiagnostic = false;
- for (const CXXMethodDecl *O : MD->overridden_methods()) {
- if (Report(O)) {
- if (!IssuedDiagnostic) {
- S.Diag(MD->getLocation(), DiagID) << MD->getDeclName();
- IssuedDiagnostic = true;
- }
- S.Diag(O->getLocation(), diag::note_overridden_virtual_function);
- }
- }
- return IssuedDiagnostic;
- }
- /// Perform semantic checks on a class definition that has been
- /// completing, introducing implicitly-declared members, checking for
- /// abstract types, etc.
- ///
- /// \param S The scope in which the class was parsed. Null if we didn't just
- /// parse a class definition.
- /// \param Record The completed class.
- void Sema::CheckCompletedCXXClass(Scope *S, CXXRecordDecl *Record) {
- if (!Record)
- return;
- if (Record->isAbstract() && !Record->isInvalidDecl()) {
- AbstractUsageInfo Info(*this, Record);
- CheckAbstractClassUsage(Info, Record);
- }
- // If this is not an aggregate type and has no user-declared constructor,
- // complain about any non-static data members of reference or const scalar
- // type, since they will never get initializers.
- if (!Record->isInvalidDecl() && !Record->isDependentType() &&
- !Record->isAggregate() && !Record->hasUserDeclaredConstructor() &&
- !Record->isLambda()) {
- bool Complained = false;
- for (const auto *F : Record->fields()) {
- if (F->hasInClassInitializer() || F->isUnnamedBitfield())
- continue;
- if (F->getType()->isReferenceType() ||
- (F->getType().isConstQualified() && F->getType()->isScalarType())) {
- if (!Complained) {
- Diag(Record->getLocation(), diag::warn_no_constructor_for_refconst)
- << Record->getTagKind() << Record;
- Complained = true;
- }
- Diag(F->getLocation(), diag::note_refconst_member_not_initialized)
- << F->getType()->isReferenceType()
- << F->getDeclName();
- }
- }
- }
- if (Record->getIdentifier()) {
- // C++ [class.mem]p13:
- // If T is the name of a class, then each of the following shall have a
- // name different from T:
- // - every member of every anonymous union that is a member of class T.
- //
- // C++ [class.mem]p14:
- // In addition, if class T has a user-declared constructor (12.1), every
- // non-static data member of class T shall have a name different from T.
- DeclContext::lookup_result R = Record->lookup(Record->getDeclName());
- for (DeclContext::lookup_iterator I = R.begin(), E = R.end(); I != E;
- ++I) {
- NamedDecl *D = (*I)->getUnderlyingDecl();
- if (((isa<FieldDecl>(D) || isa<UnresolvedUsingValueDecl>(D)) &&
- Record->hasUserDeclaredConstructor()) ||
- isa<IndirectFieldDecl>(D)) {
- Diag((*I)->getLocation(), diag::err_member_name_of_class)
- << D->getDeclName();
- break;
- }
- }
- }
- // Warn if the class has virtual methods but non-virtual public destructor.
- if (Record->isPolymorphic() && !Record->isDependentType()) {
- CXXDestructorDecl *dtor = Record->getDestructor();
- if ((!dtor || (!dtor->isVirtual() && dtor->getAccess() == AS_public)) &&
- !Record->hasAttr<FinalAttr>())
- Diag(dtor ? dtor->getLocation() : Record->getLocation(),
- diag::warn_non_virtual_dtor) << Context.getRecordType(Record);
- }
- if (Record->isAbstract()) {
- if (FinalAttr *FA = Record->getAttr<FinalAttr>()) {
- Diag(Record->getLocation(), diag::warn_abstract_final_class)
- << FA->isSpelledAsSealed();
- DiagnoseAbstractType(Record);
- }
- }
- // Warn if the class has a final destructor but is not itself marked final.
- if (!Record->hasAttr<FinalAttr>()) {
- if (const CXXDestructorDecl *dtor = Record->getDestructor()) {
- if (const FinalAttr *FA = dtor->getAttr<FinalAttr>()) {
- Diag(FA->getLocation(), diag::warn_final_dtor_non_final_class)
- << FA->isSpelledAsSealed()
- << FixItHint::CreateInsertion(
- getLocForEndOfToken(Record->getLocation()),
- (FA->isSpelledAsSealed() ? " sealed" : " final"));
- Diag(Record->getLocation(),
- diag::note_final_dtor_non_final_class_silence)
- << Context.getRecordType(Record) << FA->isSpelledAsSealed();
- }
- }
- }
- // See if trivial_abi has to be dropped.
- if (Record->hasAttr<TrivialABIAttr>())
- checkIllFormedTrivialABIStruct(*Record);
- // Set HasTrivialSpecialMemberForCall if the record has attribute
- // "trivial_abi".
- bool HasTrivialABI = Record->hasAttr<TrivialABIAttr>();
- if (HasTrivialABI)
- Record->setHasTrivialSpecialMemberForCall();
- // Explicitly-defaulted secondary comparison functions (!=, <, <=, >, >=).
- // We check these last because they can depend on the properties of the
- // primary comparison functions (==, <=>).
- llvm::SmallVector<FunctionDecl*, 5> DefaultedSecondaryComparisons;
- // Perform checks that can't be done until we know all the properties of a
- // member function (whether it's defaulted, deleted, virtual, overriding,
- // ...).
- auto CheckCompletedMemberFunction = [&](CXXMethodDecl *MD) {
- // A static function cannot override anything.
- if (MD->getStorageClass() == SC_Static) {
- if (ReportOverrides(*this, diag::err_static_overrides_virtual, MD,
- [](const CXXMethodDecl *) { return true; }))
- return;
- }
- // A deleted function cannot override a non-deleted function and vice
- // versa.
- if (ReportOverrides(*this,
- MD->isDeleted() ? diag::err_deleted_override
- : diag::err_non_deleted_override,
- MD, [&](const CXXMethodDecl *V) {
- return MD->isDeleted() != V->isDeleted();
- })) {
- if (MD->isDefaulted() && MD->isDeleted())
- // Explain why this defaulted function was deleted.
- DiagnoseDeletedDefaultedFunction(MD);
- return;
- }
- // A consteval function cannot override a non-consteval function and vice
- // versa.
- if (ReportOverrides(*this,
- MD->isConsteval() ? diag::err_consteval_override
- : diag::err_non_consteval_override,
- MD, [&](const CXXMethodDecl *V) {
- return MD->isConsteval() != V->isConsteval();
- })) {
- if (MD->isDefaulted() && MD->isDeleted())
- // Explain why this defaulted function was deleted.
- DiagnoseDeletedDefaultedFunction(MD);
- return;
- }
- };
- auto CheckForDefaultedFunction = [&](FunctionDecl *FD) -> bool {
- if (!FD || FD->isInvalidDecl() || !FD->isExplicitlyDefaulted())
- return false;
- DefaultedFunctionKind DFK = getDefaultedFunctionKind(FD);
- if (DFK.asComparison() == DefaultedComparisonKind::NotEqual ||
- DFK.asComparison() == DefaultedComparisonKind::Relational) {
- DefaultedSecondaryComparisons.push_back(FD);
- return true;
- }
- CheckExplicitlyDefaultedFunction(S, FD);
- return false;
- };
- auto CompleteMemberFunction = [&](CXXMethodDecl *M) {
- // Check whether the explicitly-defaulted members are valid.
- bool Incomplete = CheckForDefaultedFunction(M);
- // Skip the rest of the checks for a member of a dependent class.
- if (Record->isDependentType())
- return;
- // For an explicitly defaulted or deleted special member, we defer
- // determining triviality until the class is complete. That time is now!
- CXXSpecialMember CSM = getSpecialMember(M);
- if (!M->isImplicit() && !M->isUserProvided()) {
- if (CSM != CXXInvalid) {
- M->setTrivial(SpecialMemberIsTrivial(M, CSM));
- // Inform the class that we've finished declaring this member.
- Record->finishedDefaultedOrDeletedMember(M);
- M->setTrivialForCall(
- HasTrivialABI ||
- SpecialMemberIsTrivial(M, CSM, TAH_ConsiderTrivialABI));
- Record->setTrivialForCallFlags(M);
- }
- }
- // Set triviality for the purpose of calls if this is a user-provided
- // copy/move constructor or destructor.
- if ((CSM == CXXCopyConstructor || CSM == CXXMoveConstructor ||
- CSM == CXXDestructor) && M->isUserProvided()) {
- M->setTrivialForCall(HasTrivialABI);
- Record->setTrivialForCallFlags(M);
- }
- if (!M->isInvalidDecl() && M->isExplicitlyDefaulted() &&
- M->hasAttr<DLLExportAttr>()) {
- if (getLangOpts().isCompatibleWithMSVC(LangOptions::MSVC2015) &&
- M->isTrivial() &&
- (CSM == CXXDefaultConstructor || CSM == CXXCopyConstructor ||
- CSM == CXXDestructor))
- M->dropAttr<DLLExportAttr>();
- if (M->hasAttr<DLLExportAttr>()) {
- // Define after any fields with in-class initializers have been parsed.
- DelayedDllExportMemberFunctions.push_back(M);
- }
- }
- // Define defaulted constexpr virtual functions that override a base class
- // function right away.
- // FIXME: We can defer doing this until the vtable is marked as used.
- if (CSM != CXXInvalid && !M->isDeleted() && M->isDefaulted() &&
- M->isConstexpr() && M->size_overridden_methods())
- DefineDefaultedFunction(*this, M, M->getLocation());
- if (!Incomplete)
- CheckCompletedMemberFunction(M);
- };
- // Check the destructor before any other member function. We need to
- // determine whether it's trivial in order to determine whether the claas
- // type is a literal type, which is a prerequisite for determining whether
- // other special member functions are valid and whether they're implicitly
- // 'constexpr'.
- if (CXXDestructorDecl *Dtor = Record->getDestructor())
- CompleteMemberFunction(Dtor);
- bool HasMethodWithOverrideControl = false,
- HasOverridingMethodWithoutOverrideControl = false;
- for (auto *D : Record->decls()) {
- if (auto *M = dyn_cast<CXXMethodDecl>(D)) {
- // FIXME: We could do this check for dependent types with non-dependent
- // bases.
- if (!Record->isDependentType()) {
- // See if a method overloads virtual methods in a base
- // class without overriding any.
- if (!M->isStatic())
- DiagnoseHiddenVirtualMethods(M);
- if (M->hasAttr<OverrideAttr>())
- HasMethodWithOverrideControl = true;
- else if (M->size_overridden_methods() > 0)
- HasOverridingMethodWithoutOverrideControl = true;
- }
- if (!isa<CXXDestructorDecl>(M))
- CompleteMemberFunction(M);
- } else if (auto *F = dyn_cast<FriendDecl>(D)) {
- CheckForDefaultedFunction(
- dyn_cast_or_null<FunctionDecl>(F->getFriendDecl()));
- }
- }
- if (HasOverridingMethodWithoutOverrideControl) {
- bool HasInconsistentOverrideControl = HasMethodWithOverrideControl;
- for (auto *M : Record->methods())
- DiagnoseAbsenceOfOverrideControl(M, HasInconsistentOverrideControl);
- }
- // Check the defaulted secondary comparisons after any other member functions.
- for (FunctionDecl *FD : DefaultedSecondaryComparisons) {
- CheckExplicitlyDefaultedFunction(S, FD);
- // If this is a member function, we deferred checking it until now.
- if (auto *MD = dyn_cast<CXXMethodDecl>(FD))
- CheckCompletedMemberFunction(MD);
- }
- // ms_struct is a request to use the same ABI rules as MSVC. Check
- // whether this class uses any C++ features that are implemented
- // completely differently in MSVC, and if so, emit a diagnostic.
- // That diagnostic defaults to an error, but we allow projects to
- // map it down to a warning (or ignore it). It's a fairly common
- // practice among users of the ms_struct pragma to mass-annotate
- // headers, sweeping up a bunch of types that the project doesn't
- // really rely on MSVC-compatible layout for. We must therefore
- // support "ms_struct except for C++ stuff" as a secondary ABI.
- // Don't emit this diagnostic if the feature was enabled as a
- // language option (as opposed to via a pragma or attribute), as
- // the option -mms-bitfields otherwise essentially makes it impossible
- // to build C++ code, unless this diagnostic is turned off.
- if (Record->isMsStruct(Context) && !Context.getLangOpts().MSBitfields &&
- (Record->isPolymorphic() || Record->getNumBases())) {
- Diag(Record->getLocation(), diag::warn_cxx_ms_struct);
- }
- checkClassLevelDLLAttribute(Record);
- checkClassLevelCodeSegAttribute(Record);
- bool ClangABICompat4 =
- Context.getLangOpts().getClangABICompat() <= LangOptions::ClangABI::Ver4;
- TargetInfo::CallingConvKind CCK =
- Context.getTargetInfo().getCallingConvKind(ClangABICompat4);
- bool CanPass = canPassInRegisters(*this, Record, CCK);
- // Do not change ArgPassingRestrictions if it has already been set to
- // APK_CanNeverPassInRegs.
- if (Record->getArgPassingRestrictions() != RecordDecl::APK_CanNeverPassInRegs)
- Record->setArgPassingRestrictions(CanPass
- ? RecordDecl::APK_CanPassInRegs
- : RecordDecl::APK_CannotPassInRegs);
- // If canPassInRegisters returns true despite the record having a non-trivial
- // destructor, the record is destructed in the callee. This happens only when
- // the record or one of its subobjects has a field annotated with trivial_abi
- // or a field qualified with ObjC __strong/__weak.
- if (Context.getTargetInfo().getCXXABI().areArgsDestroyedLeftToRightInCallee())
- Record->setParamDestroyedInCallee(true);
- else if (Record->hasNonTrivialDestructor())
- Record->setParamDestroyedInCallee(CanPass);
- if (getLangOpts().ForceEmitVTables) {
- // If we want to emit all the vtables, we need to mark it as used. This
- // is especially required for cases like vtable assumption loads.
- MarkVTableUsed(Record->getInnerLocStart(), Record);
- }
- if (getLangOpts().CUDA) {
- if (Record->hasAttr<CUDADeviceBuiltinSurfaceTypeAttr>())
- checkCUDADeviceBuiltinSurfaceClassTemplate(*this, Record);
- else if (Record->hasAttr<CUDADeviceBuiltinTextureTypeAttr>())
- checkCUDADeviceBuiltinTextureClassTemplate(*this, Record);
- }
- }
- /// Look up the special member function that would be called by a special
- /// member function for a subobject of class type.
- ///
- /// \param Class The class type of the subobject.
- /// \param CSM The kind of special member function.
- /// \param FieldQuals If the subobject is a field, its cv-qualifiers.
- /// \param ConstRHS True if this is a copy operation with a const object
- /// on its RHS, that is, if the argument to the outer special member
- /// function is 'const' and this is not a field marked 'mutable'.
- static Sema::SpecialMemberOverloadResult lookupCallFromSpecialMember(
- Sema &S, CXXRecordDecl *Class, Sema::CXXSpecialMember CSM,
- unsigned FieldQuals, bool ConstRHS) {
- unsigned LHSQuals = 0;
- if (CSM == Sema::CXXCopyAssignment || CSM == Sema::CXXMoveAssignment)
- LHSQuals = FieldQuals;
- unsigned RHSQuals = FieldQuals;
- if (CSM == Sema::CXXDefaultConstructor || CSM == Sema::CXXDestructor)
- RHSQuals = 0;
- else if (ConstRHS)
- RHSQuals |= Qualifiers::Const;
- return S.LookupSpecialMember(Class, CSM,
- RHSQuals & Qualifiers::Const,
- RHSQuals & Qualifiers::Volatile,
- false,
- LHSQuals & Qualifiers::Const,
- LHSQuals & Qualifiers::Volatile);
- }
- class Sema::InheritedConstructorInfo {
- Sema &S;
- SourceLocation UseLoc;
- /// A mapping from the base classes through which the constructor was
- /// inherited to the using shadow declaration in that base class (or a null
- /// pointer if the constructor was declared in that base class).
- llvm::DenseMap<CXXRecordDecl *, ConstructorUsingShadowDecl *>
- InheritedFromBases;
- public:
- InheritedConstructorInfo(Sema &S, SourceLocation UseLoc,
- ConstructorUsingShadowDecl *Shadow)
- : S(S), UseLoc(UseLoc) {
- bool DiagnosedMultipleConstructedBases = false;
- CXXRecordDecl *ConstructedBase = nullptr;
- BaseUsingDecl *ConstructedBaseIntroducer = nullptr;
- // Find the set of such base class subobjects and check that there's a
- // unique constructed subobject.
- for (auto *D : Shadow->redecls()) {
- auto *DShadow = cast<ConstructorUsingShadowDecl>(D);
- auto *DNominatedBase = DShadow->getNominatedBaseClass();
- auto *DConstructedBase = DShadow->getConstructedBaseClass();
- InheritedFromBases.insert(
- std::make_pair(DNominatedBase->getCanonicalDecl(),
- DShadow->getNominatedBaseClassShadowDecl()));
- if (DShadow->constructsVirtualBase())
- InheritedFromBases.insert(
- std::make_pair(DConstructedBase->getCanonicalDecl(),
- DShadow->getConstructedBaseClassShadowDecl()));
- else
- assert(DNominatedBase == DConstructedBase);
- // [class.inhctor.init]p2:
- // If the constructor was inherited from multiple base class subobjects
- // of type B, the program is ill-formed.
- if (!ConstructedBase) {
- ConstructedBase = DConstructedBase;
- ConstructedBaseIntroducer = D->getIntroducer();
- } else if (ConstructedBase != DConstructedBase &&
- !Shadow->isInvalidDecl()) {
- if (!DiagnosedMultipleConstructedBases) {
- S.Diag(UseLoc, diag::err_ambiguous_inherited_constructor)
- << Shadow->getTargetDecl();
- S.Diag(ConstructedBaseIntroducer->getLocation(),
- diag::note_ambiguous_inherited_constructor_using)
- << ConstructedBase;
- DiagnosedMultipleConstructedBases = true;
- }
- S.Diag(D->getIntroducer()->getLocation(),
- diag::note_ambiguous_inherited_constructor_using)
- << DConstructedBase;
- }
- }
- if (DiagnosedMultipleConstructedBases)
- Shadow->setInvalidDecl();
- }
- /// Find the constructor to use for inherited construction of a base class,
- /// and whether that base class constructor inherits the constructor from a
- /// virtual base class (in which case it won't actually invoke it).
- std::pair<CXXConstructorDecl *, bool>
- findConstructorForBase(CXXRecordDecl *Base, CXXConstructorDecl *Ctor) const {
- auto It = InheritedFromBases.find(Base->getCanonicalDecl());
- if (It == InheritedFromBases.end())
- return std::make_pair(nullptr, false);
- // This is an intermediary class.
- if (It->second)
- return std::make_pair(
- S.findInheritingConstructor(UseLoc, Ctor, It->second),
- It->second->constructsVirtualBase());
- // This is the base class from which the constructor was inherited.
- return std::make_pair(Ctor, false);
- }
- };
- /// Is the special member function which would be selected to perform the
- /// specified operation on the specified class type a constexpr constructor?
- static bool
- specialMemberIsConstexpr(Sema &S, CXXRecordDecl *ClassDecl,
- Sema::CXXSpecialMember CSM, unsigned Quals,
- bool ConstRHS,
- CXXConstructorDecl *InheritedCtor = nullptr,
- Sema::InheritedConstructorInfo *Inherited = nullptr) {
- // Suppress duplicate constraint checking here, in case a constraint check
- // caused us to decide to do this. Any truely recursive checks will get
- // caught during these checks anyway.
- Sema::SatisfactionStackResetRAII SSRAII{S};
- // If we're inheriting a constructor, see if we need to call it for this base
- // class.
- if (InheritedCtor) {
- assert(CSM == Sema::CXXDefaultConstructor);
- auto BaseCtor =
- Inherited->findConstructorForBase(ClassDecl, InheritedCtor).first;
- if (BaseCtor)
- return BaseCtor->isConstexpr();
- }
- if (CSM == Sema::CXXDefaultConstructor)
- return ClassDecl->hasConstexprDefaultConstructor();
- if (CSM == Sema::CXXDestructor)
- return ClassDecl->hasConstexprDestructor();
- Sema::SpecialMemberOverloadResult SMOR =
- lookupCallFromSpecialMember(S, ClassDecl, CSM, Quals, ConstRHS);
- if (!SMOR.getMethod())
- // A constructor we wouldn't select can't be "involved in initializing"
- // anything.
- return true;
- return SMOR.getMethod()->isConstexpr();
- }
- /// Determine whether the specified special member function would be constexpr
- /// if it were implicitly defined.
- static bool defaultedSpecialMemberIsConstexpr(
- Sema &S, CXXRecordDecl *ClassDecl, Sema::CXXSpecialMember CSM,
- bool ConstArg, CXXConstructorDecl *InheritedCtor = nullptr,
- Sema::InheritedConstructorInfo *Inherited = nullptr) {
- if (!S.getLangOpts().CPlusPlus11)
- return false;
- // C++11 [dcl.constexpr]p4:
- // In the definition of a constexpr constructor [...]
- bool Ctor = true;
- switch (CSM) {
- case Sema::CXXDefaultConstructor:
- if (Inherited)
- break;
- // Since default constructor lookup is essentially trivial (and cannot
- // involve, for instance, template instantiation), we compute whether a
- // defaulted default constructor is constexpr directly within CXXRecordDecl.
- //
- // This is important for performance; we need to know whether the default
- // constructor is constexpr to determine whether the type is a literal type.
- return ClassDecl->defaultedDefaultConstructorIsConstexpr();
- case Sema::CXXCopyConstructor:
- case Sema::CXXMoveConstructor:
- // For copy or move constructors, we need to perform overload resolution.
- break;
- case Sema::CXXCopyAssignment:
- case Sema::CXXMoveAssignment:
- if (!S.getLangOpts().CPlusPlus14)
- return false;
- // In C++1y, we need to perform overload resolution.
- Ctor = false;
- break;
- case Sema::CXXDestructor:
- return ClassDecl->defaultedDestructorIsConstexpr();
- case Sema::CXXInvalid:
- return false;
- }
- // -- if the class is a non-empty union, or for each non-empty anonymous
- // union member of a non-union class, exactly one non-static data member
- // shall be initialized; [DR1359]
- //
- // If we squint, this is guaranteed, since exactly one non-static data member
- // will be initialized (if the constructor isn't deleted), we just don't know
- // which one.
- if (Ctor && ClassDecl->isUnion())
- return CSM == Sema::CXXDefaultConstructor
- ? ClassDecl->hasInClassInitializer() ||
- !ClassDecl->hasVariantMembers()
- : true;
- // -- the class shall not have any virtual base classes;
- if (Ctor && ClassDecl->getNumVBases())
- return false;
- // C++1y [class.copy]p26:
- // -- [the class] is a literal type, and
- if (!Ctor && !ClassDecl->isLiteral())
- return false;
- // -- every constructor involved in initializing [...] base class
- // sub-objects shall be a constexpr constructor;
- // -- the assignment operator selected to copy/move each direct base
- // class is a constexpr function, and
- for (const auto &B : ClassDecl->bases()) {
- const RecordType *BaseType = B.getType()->getAs<RecordType>();
- if (!BaseType)
- continue;
- CXXRecordDecl *BaseClassDecl = cast<CXXRecordDecl>(BaseType->getDecl());
- if (!specialMemberIsConstexpr(S, BaseClassDecl, CSM, 0, ConstArg,
- InheritedCtor, Inherited))
- return false;
- }
- // -- every constructor involved in initializing non-static data members
- // [...] shall be a constexpr constructor;
- // -- every non-static data member and base class sub-object shall be
- // initialized
- // -- for each non-static data member of X that is of class type (or array
- // thereof), the assignment operator selected to copy/move that member is
- // a constexpr function
- for (const auto *F : ClassDecl->fields()) {
- if (F->isInvalidDecl())
- continue;
- if (CSM == Sema::CXXDefaultConstructor && F->hasInClassInitializer())
- continue;
- QualType BaseType = S.Context.getBaseElementType(F->getType());
- if (const RecordType *RecordTy = BaseType->getAs<RecordType>()) {
- CXXRecordDecl *FieldRecDecl = cast<CXXRecordDecl>(RecordTy->getDecl());
- if (!specialMemberIsConstexpr(S, FieldRecDecl, CSM,
- BaseType.getCVRQualifiers(),
- ConstArg && !F->isMutable()))
- return false;
- } else if (CSM == Sema::CXXDefaultConstructor) {
- return false;
- }
- }
- // All OK, it's constexpr!
- return true;
- }
- namespace {
- /// RAII object to register a defaulted function as having its exception
- /// specification computed.
- struct ComputingExceptionSpec {
- Sema &S;
- ComputingExceptionSpec(Sema &S, FunctionDecl *FD, SourceLocation Loc)
- : S(S) {
- Sema::CodeSynthesisContext Ctx;
- Ctx.Kind = Sema::CodeSynthesisContext::ExceptionSpecEvaluation;
- Ctx.PointOfInstantiation = Loc;
- Ctx.Entity = FD;
- S.pushCodeSynthesisContext(Ctx);
- }
- ~ComputingExceptionSpec() {
- S.popCodeSynthesisContext();
- }
- };
- }
- static Sema::ImplicitExceptionSpecification
- ComputeDefaultedSpecialMemberExceptionSpec(
- Sema &S, SourceLocation Loc, CXXMethodDecl *MD, Sema::CXXSpecialMember CSM,
- Sema::InheritedConstructorInfo *ICI);
- static Sema::ImplicitExceptionSpecification
- ComputeDefaultedComparisonExceptionSpec(Sema &S, SourceLocation Loc,
- FunctionDecl *FD,
- Sema::DefaultedComparisonKind DCK);
- static Sema::ImplicitExceptionSpecification
- computeImplicitExceptionSpec(Sema &S, SourceLocation Loc, FunctionDecl *FD) {
- auto DFK = S.getDefaultedFunctionKind(FD);
- if (DFK.isSpecialMember())
- return ComputeDefaultedSpecialMemberExceptionSpec(
- S, Loc, cast<CXXMethodDecl>(FD), DFK.asSpecialMember(), nullptr);
- if (DFK.isComparison())
- return ComputeDefaultedComparisonExceptionSpec(S, Loc, FD,
- DFK.asComparison());
- auto *CD = cast<CXXConstructorDecl>(FD);
- assert(CD->getInheritedConstructor() &&
- "only defaulted functions and inherited constructors have implicit "
- "exception specs");
- Sema::InheritedConstructorInfo ICI(
- S, Loc, CD->getInheritedConstructor().getShadowDecl());
- return ComputeDefaultedSpecialMemberExceptionSpec(
- S, Loc, CD, Sema::CXXDefaultConstructor, &ICI);
- }
- static FunctionProtoType::ExtProtoInfo getImplicitMethodEPI(Sema &S,
- CXXMethodDecl *MD) {
- FunctionProtoType::ExtProtoInfo EPI;
- // Build an exception specification pointing back at this member.
- EPI.ExceptionSpec.Type = EST_Unevaluated;
- EPI.ExceptionSpec.SourceDecl = MD;
- // Set the calling convention to the default for C++ instance methods.
- EPI.ExtInfo = EPI.ExtInfo.withCallingConv(
- S.Context.getDefaultCallingConvention(/*IsVariadic=*/false,
- /*IsCXXMethod=*/true));
- return EPI;
- }
- void Sema::EvaluateImplicitExceptionSpec(SourceLocation Loc, FunctionDecl *FD) {
- const FunctionProtoType *FPT = FD->getType()->castAs<FunctionProtoType>();
- if (FPT->getExceptionSpecType() != EST_Unevaluated)
- return;
- // Evaluate the exception specification.
- auto IES = computeImplicitExceptionSpec(*this, Loc, FD);
- auto ESI = IES.getExceptionSpec();
- // Update the type of the special member to use it.
- UpdateExceptionSpec(FD, ESI);
- }
- void Sema::CheckExplicitlyDefaultedFunction(Scope *S, FunctionDecl *FD) {
- assert(FD->isExplicitlyDefaulted() && "not explicitly-defaulted");
- DefaultedFunctionKind DefKind = getDefaultedFunctionKind(FD);
- if (!DefKind) {
- assert(FD->getDeclContext()->isDependentContext());
- return;
- }
- if (DefKind.isComparison())
- UnusedPrivateFields.clear();
- if (DefKind.isSpecialMember()
- ? CheckExplicitlyDefaultedSpecialMember(cast<CXXMethodDecl>(FD),
- DefKind.asSpecialMember(),
- FD->getDefaultLoc())
- : CheckExplicitlyDefaultedComparison(S, FD, DefKind.asComparison()))
- FD->setInvalidDecl();
- }
- bool Sema::CheckExplicitlyDefaultedSpecialMember(CXXMethodDecl *MD,
- CXXSpecialMember CSM,
- SourceLocation DefaultLoc) {
- CXXRecordDecl *RD = MD->getParent();
- assert(MD->isExplicitlyDefaulted() && CSM != CXXInvalid &&
- "not an explicitly-defaulted special member");
- // Defer all checking for special members of a dependent type.
- if (RD->isDependentType())
- return false;
- // Whether this was the first-declared instance of the constructor.
- // This affects whether we implicitly add an exception spec and constexpr.
- bool First = MD == MD->getCanonicalDecl();
- bool HadError = false;
- // C++11 [dcl.fct.def.default]p1:
- // A function that is explicitly defaulted shall
- // -- be a special member function [...] (checked elsewhere),
- // -- have the same type (except for ref-qualifiers, and except that a
- // copy operation can take a non-const reference) as an implicit
- // declaration, and
- // -- not have default arguments.
- // C++2a changes the second bullet to instead delete the function if it's
- // defaulted on its first declaration, unless it's "an assignment operator,
- // and its return type differs or its parameter type is not a reference".
- bool DeleteOnTypeMismatch = getLangOpts().CPlusPlus20 && First;
- bool ShouldDeleteForTypeMismatch = false;
- unsigned ExpectedParams = 1;
- if (CSM == CXXDefaultConstructor || CSM == CXXDestructor)
- ExpectedParams = 0;
- if (MD->getNumParams() != ExpectedParams) {
- // This checks for default arguments: a copy or move constructor with a
- // default argument is classified as a default constructor, and assignment
- // operations and destructors can't have default arguments.
- Diag(MD->getLocation(), diag::err_defaulted_special_member_params)
- << CSM << MD->getSourceRange();
- HadError = true;
- } else if (MD->isVariadic()) {
- if (DeleteOnTypeMismatch)
- ShouldDeleteForTypeMismatch = true;
- else {
- Diag(MD->getLocation(), diag::err_defaulted_special_member_variadic)
- << CSM << MD->getSourceRange();
- HadError = true;
- }
- }
- const FunctionProtoType *Type = MD->getType()->getAs<FunctionProtoType>();
- bool CanHaveConstParam = false;
- if (CSM == CXXCopyConstructor)
- CanHaveConstParam = RD->implicitCopyConstructorHasConstParam();
- else if (CSM == CXXCopyAssignment)
- CanHaveConstParam = RD->implicitCopyAssignmentHasConstParam();
- QualType ReturnType = Context.VoidTy;
- if (CSM == CXXCopyAssignment || CSM == CXXMoveAssignment) {
- // Check for return type matching.
- ReturnType = Type->getReturnType();
- QualType DeclType = Context.getTypeDeclType(RD);
- DeclType = Context.getElaboratedType(ETK_None, nullptr, DeclType, nullptr);
- DeclType = Context.getAddrSpaceQualType(DeclType, MD->getMethodQualifiers().getAddressSpace());
- QualType ExpectedReturnType = Context.getLValueReferenceType(DeclType);
- if (!Context.hasSameType(ReturnType, ExpectedReturnType)) {
- Diag(MD->getLocation(), diag::err_defaulted_special_member_return_type)
- << (CSM == CXXMoveAssignment) << ExpectedReturnType;
- HadError = true;
- }
- // A defaulted special member cannot have cv-qualifiers.
- if (Type->getMethodQuals().hasConst() || Type->getMethodQuals().hasVolatile()) {
- if (DeleteOnTypeMismatch)
- ShouldDeleteForTypeMismatch = true;
- else {
- Diag(MD->getLocation(), diag::err_defaulted_special_member_quals)
- << (CSM == CXXMoveAssignment) << getLangOpts().CPlusPlus14;
- HadError = true;
- }
- }
- }
- // Check for parameter type matching.
- QualType ArgType = ExpectedParams ? Type->getParamType(0) : QualType();
- bool HasConstParam = false;
- if (ExpectedParams && ArgType->isReferenceType()) {
- // Argument must be reference to possibly-const T.
- QualType ReferentType = ArgType->getPointeeType();
- HasConstParam = ReferentType.isConstQualified();
- if (ReferentType.isVolatileQualified()) {
- if (DeleteOnTypeMismatch)
- ShouldDeleteForTypeMismatch = true;
- else {
- Diag(MD->getLocation(),
- diag::err_defaulted_special_member_volatile_param) << CSM;
- HadError = true;
- }
- }
- if (HasConstParam && !CanHaveConstParam) {
- if (DeleteOnTypeMismatch)
- ShouldDeleteForTypeMismatch = true;
- else if (CSM == CXXCopyConstructor || CSM == CXXCopyAssignment) {
- Diag(MD->getLocation(),
- diag::err_defaulted_special_member_copy_const_param)
- << (CSM == CXXCopyAssignment);
- // FIXME: Explain why this special member can't be const.
- HadError = true;
- } else {
- Diag(MD->getLocation(),
- diag::err_defaulted_special_member_move_const_param)
- << (CSM == CXXMoveAssignment);
- HadError = true;
- }
- }
- } else if (ExpectedParams) {
- // A copy assignment operator can take its argument by value, but a
- // defaulted one cannot.
- assert(CSM == CXXCopyAssignment && "unexpected non-ref argument");
- Diag(MD->getLocation(), diag::err_defaulted_copy_assign_not_ref);
- HadError = true;
- }
- // C++11 [dcl.fct.def.default]p2:
- // An explicitly-defaulted function may be declared constexpr only if it
- // would have been implicitly declared as constexpr,
- // Do not apply this rule to members of class templates, since core issue 1358
- // makes such functions always instantiate to constexpr functions. For
- // functions which cannot be constexpr (for non-constructors in C++11 and for
- // destructors in C++14 and C++17), this is checked elsewhere.
- //
- // FIXME: This should not apply if the member is deleted.
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, RD, CSM,
- HasConstParam);
- // C++14 [dcl.constexpr]p6 (CWG DR647/CWG DR1358):
- // If the instantiated template specialization of a constexpr function
- // template or member function of a class template would fail to satisfy
- // the requirements for a constexpr function or constexpr constructor, that
- // specialization is still a constexpr function or constexpr constructor,
- // even though a call to such a function cannot appear in a constant
- // expression.
- if (MD->isTemplateInstantiation() && MD->isConstexpr())
- Constexpr = true;
- if ((getLangOpts().CPlusPlus20 ||
- (getLangOpts().CPlusPlus14 ? !isa<CXXDestructorDecl>(MD)
- : isa<CXXConstructorDecl>(MD))) &&
- MD->isConstexpr() && !Constexpr &&
- MD->getTemplatedKind() == FunctionDecl::TK_NonTemplate) {
- Diag(MD->getBeginLoc(), MD->isConsteval()
- ? diag::err_incorrect_defaulted_consteval
- : diag::err_incorrect_defaulted_constexpr)
- << CSM;
- // FIXME: Explain why the special member can't be constexpr.
- HadError = true;
- }
- if (First) {
- // C++2a [dcl.fct.def.default]p3:
- // If a function is explicitly defaulted on its first declaration, it is
- // implicitly considered to be constexpr if the implicit declaration
- // would be.
- MD->setConstexprKind(Constexpr ? (MD->isConsteval()
- ? ConstexprSpecKind::Consteval
- : ConstexprSpecKind::Constexpr)
- : ConstexprSpecKind::Unspecified);
- if (!Type->hasExceptionSpec()) {
- // C++2a [except.spec]p3:
- // If a declaration of a function does not have a noexcept-specifier
- // [and] is defaulted on its first declaration, [...] the exception
- // specification is as specified below
- FunctionProtoType::ExtProtoInfo EPI = Type->getExtProtoInfo();
- EPI.ExceptionSpec.Type = EST_Unevaluated;
- EPI.ExceptionSpec.SourceDecl = MD;
- MD->setType(Context.getFunctionType(
- ReturnType, llvm::ArrayRef(&ArgType, ExpectedParams), EPI));
- }
- }
- if (ShouldDeleteForTypeMismatch || ShouldDeleteSpecialMember(MD, CSM)) {
- if (First) {
- SetDeclDeleted(MD, MD->getLocation());
- if (!inTemplateInstantiation() && !HadError) {
- Diag(MD->getLocation(), diag::warn_defaulted_method_deleted) << CSM;
- if (ShouldDeleteForTypeMismatch) {
- Diag(MD->getLocation(), diag::note_deleted_type_mismatch) << CSM;
- } else if (ShouldDeleteSpecialMember(MD, CSM, nullptr,
- /*Diagnose*/ true) &&
- DefaultLoc.isValid()) {
- Diag(DefaultLoc, diag::note_replace_equals_default_to_delete)
- << FixItHint::CreateReplacement(DefaultLoc, "delete");
- }
- }
- if (ShouldDeleteForTypeMismatch && !HadError) {
- Diag(MD->getLocation(),
- diag::warn_cxx17_compat_defaulted_method_type_mismatch) << CSM;
- }
- } else {
- // C++11 [dcl.fct.def.default]p4:
- // [For a] user-provided explicitly-defaulted function [...] if such a
- // function is implicitly defined as deleted, the program is ill-formed.
- Diag(MD->getLocation(), diag::err_out_of_line_default_deletes) << CSM;
- assert(!ShouldDeleteForTypeMismatch && "deleted non-first decl");
- ShouldDeleteSpecialMember(MD, CSM, nullptr, /*Diagnose*/true);
- HadError = true;
- }
- }
- return HadError;
- }
- namespace {
- /// Helper class for building and checking a defaulted comparison.
- ///
- /// Defaulted functions are built in two phases:
- ///
- /// * First, the set of operations that the function will perform are
- /// identified, and some of them are checked. If any of the checked
- /// operations is invalid in certain ways, the comparison function is
- /// defined as deleted and no body is built.
- /// * Then, if the function is not defined as deleted, the body is built.
- ///
- /// This is accomplished by performing two visitation steps over the eventual
- /// body of the function.
- template<typename Derived, typename ResultList, typename Result,
- typename Subobject>
- class DefaultedComparisonVisitor {
- public:
- using DefaultedComparisonKind = Sema::DefaultedComparisonKind;
- DefaultedComparisonVisitor(Sema &S, CXXRecordDecl *RD, FunctionDecl *FD,
- DefaultedComparisonKind DCK)
- : S(S), RD(RD), FD(FD), DCK(DCK) {
- if (auto *Info = FD->getDefaultedFunctionInfo()) {
- // FIXME: Change CreateOverloadedBinOp to take an ArrayRef instead of an
- // UnresolvedSet to avoid this copy.
- Fns.assign(Info->getUnqualifiedLookups().begin(),
- Info->getUnqualifiedLookups().end());
- }
- }
- ResultList visit() {
- // The type of an lvalue naming a parameter of this function.
- QualType ParamLvalType =
- FD->getParamDecl(0)->getType().getNonReferenceType();
- ResultList Results;
- switch (DCK) {
- case DefaultedComparisonKind::None:
- llvm_unreachable("not a defaulted comparison");
- case DefaultedComparisonKind::Equal:
- case DefaultedComparisonKind::ThreeWay:
- getDerived().visitSubobjects(Results, RD, ParamLvalType.getQualifiers());
- return Results;
- case DefaultedComparisonKind::NotEqual:
- case DefaultedComparisonKind::Relational:
- Results.add(getDerived().visitExpandedSubobject(
- ParamLvalType, getDerived().getCompleteObject()));
- return Results;
- }
- llvm_unreachable("");
- }
- protected:
- Derived &getDerived() { return static_cast<Derived&>(*this); }
- /// Visit the expanded list of subobjects of the given type, as specified in
- /// C++2a [class.compare.default].
- ///
- /// \return \c true if the ResultList object said we're done, \c false if not.
- bool visitSubobjects(ResultList &Results, CXXRecordDecl *Record,
- Qualifiers Quals) {
- // C++2a [class.compare.default]p4:
- // The direct base class subobjects of C
- for (CXXBaseSpecifier &Base : Record->bases())
- if (Results.add(getDerived().visitSubobject(
- S.Context.getQualifiedType(Base.getType(), Quals),
- getDerived().getBase(&Base))))
- return true;
- // followed by the non-static data members of C
- for (FieldDecl *Field : Record->fields()) {
- // Recursively expand anonymous structs.
- if (Field->isAnonymousStructOrUnion()) {
- if (visitSubobjects(Results, Field->getType()->getAsCXXRecordDecl(),
- Quals))
- return true;
- continue;
- }
- // Figure out the type of an lvalue denoting this field.
- Qualifiers FieldQuals = Quals;
- if (Field->isMutable())
- FieldQuals.removeConst();
- QualType FieldType =
- S.Context.getQualifiedType(Field->getType(), FieldQuals);
- if (Results.add(getDerived().visitSubobject(
- FieldType, getDerived().getField(Field))))
- return true;
- }
- // form a list of subobjects.
- return false;
- }
- Result visitSubobject(QualType Type, Subobject Subobj) {
- // In that list, any subobject of array type is recursively expanded
- const ArrayType *AT = S.Context.getAsArrayType(Type);
- if (auto *CAT = dyn_cast_or_null<ConstantArrayType>(AT))
- return getDerived().visitSubobjectArray(CAT->getElementType(),
- CAT->getSize(), Subobj);
- return getDerived().visitExpandedSubobject(Type, Subobj);
- }
- Result visitSubobjectArray(QualType Type, const llvm::APInt &Size,
- Subobject Subobj) {
- return getDerived().visitSubobject(Type, Subobj);
- }
- protected:
- Sema &S;
- CXXRecordDecl *RD;
- FunctionDecl *FD;
- DefaultedComparisonKind DCK;
- UnresolvedSet<16> Fns;
- };
- /// Information about a defaulted comparison, as determined by
- /// DefaultedComparisonAnalyzer.
- struct DefaultedComparisonInfo {
- bool Deleted = false;
- bool Constexpr = true;
- ComparisonCategoryType Category = ComparisonCategoryType::StrongOrdering;
- static DefaultedComparisonInfo deleted() {
- DefaultedComparisonInfo Deleted;
- Deleted.Deleted = true;
- return Deleted;
- }
- bool add(const DefaultedComparisonInfo &R) {
- Deleted |= R.Deleted;
- Constexpr &= R.Constexpr;
- Category = commonComparisonType(Category, R.Category);
- return Deleted;
- }
- };
- /// An element in the expanded list of subobjects of a defaulted comparison, as
- /// specified in C++2a [class.compare.default]p4.
- struct DefaultedComparisonSubobject {
- enum { CompleteObject, Member, Base } Kind;
- NamedDecl *Decl;
- SourceLocation Loc;
- };
- /// A visitor over the notional body of a defaulted comparison that determines
- /// whether that body would be deleted or constexpr.
- class DefaultedComparisonAnalyzer
- : public DefaultedComparisonVisitor<DefaultedComparisonAnalyzer,
- DefaultedComparisonInfo,
- DefaultedComparisonInfo,
- DefaultedComparisonSubobject> {
- public:
- enum DiagnosticKind { NoDiagnostics, ExplainDeleted, ExplainConstexpr };
- private:
- DiagnosticKind Diagnose;
- public:
- using Base = DefaultedComparisonVisitor;
- using Result = DefaultedComparisonInfo;
- using Subobject = DefaultedComparisonSubobject;
- friend Base;
- DefaultedComparisonAnalyzer(Sema &S, CXXRecordDecl *RD, FunctionDecl *FD,
- DefaultedComparisonKind DCK,
- DiagnosticKind Diagnose = NoDiagnostics)
- : Base(S, RD, FD, DCK), Diagnose(Diagnose) {}
- Result visit() {
- if ((DCK == DefaultedComparisonKind::Equal ||
- DCK == DefaultedComparisonKind::ThreeWay) &&
- RD->hasVariantMembers()) {
- // C++2a [class.compare.default]p2 [P2002R0]:
- // A defaulted comparison operator function for class C is defined as
- // deleted if [...] C has variant members.
- if (Diagnose == ExplainDeleted) {
- S.Diag(FD->getLocation(), diag::note_defaulted_comparison_union)
- << FD << RD->isUnion() << RD;
- }
- return Result::deleted();
- }
- return Base::visit();
- }
- private:
- Subobject getCompleteObject() {
- return Subobject{Subobject::CompleteObject, RD, FD->getLocation()};
- }
- Subobject getBase(CXXBaseSpecifier *Base) {
- return Subobject{Subobject::Base, Base->getType()->getAsCXXRecordDecl(),
- Base->getBaseTypeLoc()};
- }
- Subobject getField(FieldDecl *Field) {
- return Subobject{Subobject::Member, Field, Field->getLocation()};
- }
- Result visitExpandedSubobject(QualType Type, Subobject Subobj) {
- // C++2a [class.compare.default]p2 [P2002R0]:
- // A defaulted <=> or == operator function for class C is defined as
- // deleted if any non-static data member of C is of reference type
- if (Type->isReferenceType()) {
- if (Diagnose == ExplainDeleted) {
- S.Diag(Subobj.Loc, diag::note_defaulted_comparison_reference_member)
- << FD << RD;
- }
- return Result::deleted();
- }
- // [...] Let xi be an lvalue denoting the ith element [...]
- OpaqueValueExpr Xi(FD->getLocation(), Type, VK_LValue);
- Expr *Args[] = {&Xi, &Xi};
- // All operators start by trying to apply that same operator recursively.
- OverloadedOperatorKind OO = FD->getOverloadedOperator();
- assert(OO != OO_None && "not an overloaded operator!");
- return visitBinaryOperator(OO, Args, Subobj);
- }
- Result
- visitBinaryOperator(OverloadedOperatorKind OO, ArrayRef<Expr *> Args,
- Subobject Subobj,
- OverloadCandidateSet *SpaceshipCandidates = nullptr) {
- // Note that there is no need to consider rewritten candidates here if
- // we've already found there is no viable 'operator<=>' candidate (and are
- // considering synthesizing a '<=>' from '==' and '<').
- OverloadCandidateSet CandidateSet(
- FD->getLocation(), OverloadCandidateSet::CSK_Operator,
- OverloadCandidateSet::OperatorRewriteInfo(
- OO, FD->getLocation(),
- /*AllowRewrittenCandidates=*/!SpaceshipCandidates));
- /// C++2a [class.compare.default]p1 [P2002R0]:
- /// [...] the defaulted function itself is never a candidate for overload
- /// resolution [...]
- CandidateSet.exclude(FD);
- if (Args[0]->getType()->isOverloadableType())
- S.LookupOverloadedBinOp(CandidateSet, OO, Fns, Args);
- else
- // FIXME: We determine whether this is a valid expression by checking to
- // see if there's a viable builtin operator candidate for it. That isn't
- // really what the rules ask us to do, but should give the right results.
- S.AddBuiltinOperatorCandidates(OO, FD->getLocation(), Args, CandidateSet);
- Result R;
- OverloadCandidateSet::iterator Best;
- switch (CandidateSet.BestViableFunction(S, FD->getLocation(), Best)) {
- case OR_Success: {
- // C++2a [class.compare.secondary]p2 [P2002R0]:
- // The operator function [...] is defined as deleted if [...] the
- // candidate selected by overload resolution is not a rewritten
- // candidate.
- if ((DCK == DefaultedComparisonKind::NotEqual ||
- DCK == DefaultedComparisonKind::Relational) &&
- !Best->RewriteKind) {
- if (Diagnose == ExplainDeleted) {
- if (Best->Function) {
- S.Diag(Best->Function->getLocation(),
- diag::note_defaulted_comparison_not_rewritten_callee)
- << FD;
- } else {
- assert(Best->Conversions.size() == 2 &&
- Best->Conversions[0].isUserDefined() &&
- "non-user-defined conversion from class to built-in "
- "comparison");
- S.Diag(Best->Conversions[0]
- .UserDefined.FoundConversionFunction.getDecl()
- ->getLocation(),
- diag::note_defaulted_comparison_not_rewritten_conversion)
- << FD;
- }
- }
- return Result::deleted();
- }
- // Throughout C++2a [class.compare]: if overload resolution does not
- // result in a usable function, the candidate function is defined as
- // deleted. This requires that we selected an accessible function.
- //
- // Note that this only considers the access of the function when named
- // within the type of the subobject, and not the access path for any
- // derived-to-base conversion.
- CXXRecordDecl *ArgClass = Args[0]->getType()->getAsCXXRecordDecl();
- if (ArgClass && Best->FoundDecl.getDecl() &&
- Best->FoundDecl.getDecl()->isCXXClassMember()) {
- QualType ObjectType = Subobj.Kind == Subobject::Member
- ? Args[0]->getType()
- : S.Context.getRecordType(RD);
- if (!S.isMemberAccessibleForDeletion(
- ArgClass, Best->FoundDecl, ObjectType, Subobj.Loc,
- Diagnose == ExplainDeleted
- ? S.PDiag(diag::note_defaulted_comparison_inaccessible)
- << FD << Subobj.Kind << Subobj.Decl
- : S.PDiag()))
- return Result::deleted();
- }
- bool NeedsDeducing =
- OO == OO_Spaceship && FD->getReturnType()->isUndeducedAutoType();
- if (FunctionDecl *BestFD = Best->Function) {
- // C++2a [class.compare.default]p3 [P2002R0]:
- // A defaulted comparison function is constexpr-compatible if
- // [...] no overlod resolution performed [...] results in a
- // non-constexpr function.
- assert(!BestFD->isDeleted() && "wrong overload resolution result");
- // If it's not constexpr, explain why not.
- if (Diagnose == ExplainConstexpr && !BestFD->isConstexpr()) {
- if (Subobj.Kind != Subobject::CompleteObject)
- S.Diag(Subobj.Loc, diag::note_defaulted_comparison_not_constexpr)
- << Subobj.Kind << Subobj.Decl;
- S.Diag(BestFD->getLocation(),
- diag::note_defaulted_comparison_not_constexpr_here);
- // Bail out after explaining; we don't want any more notes.
- return Result::deleted();
- }
- R.Constexpr &= BestFD->isConstexpr();
- if (NeedsDeducing) {
- // If any callee has an undeduced return type, deduce it now.
- // FIXME: It's not clear how a failure here should be handled. For
- // now, we produce an eager diagnostic, because that is forward
- // compatible with most (all?) other reasonable options.
- if (BestFD->getReturnType()->isUndeducedType() &&
- S.DeduceReturnType(BestFD, FD->getLocation(),
- /*Diagnose=*/false)) {
- // Don't produce a duplicate error when asked to explain why the
- // comparison is deleted: we diagnosed that when initially checking
- // the defaulted operator.
- if (Diagnose == NoDiagnostics) {
- S.Diag(
- FD->getLocation(),
- diag::err_defaulted_comparison_cannot_deduce_undeduced_auto)
- << Subobj.Kind << Subobj.Decl;
- S.Diag(
- Subobj.Loc,
- diag::note_defaulted_comparison_cannot_deduce_undeduced_auto)
- << Subobj.Kind << Subobj.Decl;
- S.Diag(BestFD->getLocation(),
- diag::note_defaulted_comparison_cannot_deduce_callee)
- << Subobj.Kind << Subobj.Decl;
- }
- return Result::deleted();
- }
- auto *Info = S.Context.CompCategories.lookupInfoForType(
- BestFD->getCallResultType());
- if (!Info) {
- if (Diagnose == ExplainDeleted) {
- S.Diag(Subobj.Loc, diag::note_defaulted_comparison_cannot_deduce)
- << Subobj.Kind << Subobj.Decl
- << BestFD->getCallResultType().withoutLocalFastQualifiers();
- S.Diag(BestFD->getLocation(),
- diag::note_defaulted_comparison_cannot_deduce_callee)
- << Subobj.Kind << Subobj.Decl;
- }
- return Result::deleted();
- }
- R.Category = Info->Kind;
- }
- } else {
- QualType T = Best->BuiltinParamTypes[0];
- assert(T == Best->BuiltinParamTypes[1] &&
- "builtin comparison for different types?");
- assert(Best->BuiltinParamTypes[2].isNull() &&
- "invalid builtin comparison");
- if (NeedsDeducing) {
- std::optional<ComparisonCategoryType> Cat =
- getComparisonCategoryForBuiltinCmp(T);
- assert(Cat && "no category for builtin comparison?");
- R.Category = *Cat;
- }
- }
- // Note that we might be rewriting to a different operator. That call is
- // not considered until we come to actually build the comparison function.
- break;
- }
- case OR_Ambiguous:
- if (Diagnose == ExplainDeleted) {
- unsigned Kind = 0;
- if (FD->getOverloadedOperator() == OO_Spaceship && OO != OO_Spaceship)
- Kind = OO == OO_EqualEqual ? 1 : 2;
- CandidateSet.NoteCandidates(
- PartialDiagnosticAt(
- Subobj.Loc, S.PDiag(diag::note_defaulted_comparison_ambiguous)
- << FD << Kind << Subobj.Kind << Subobj.Decl),
- S, OCD_AmbiguousCandidates, Args);
- }
- R = Result::deleted();
- break;
- case OR_Deleted:
- if (Diagnose == ExplainDeleted) {
- if ((DCK == DefaultedComparisonKind::NotEqual ||
- DCK == DefaultedComparisonKind::Relational) &&
- !Best->RewriteKind) {
- S.Diag(Best->Function->getLocation(),
- diag::note_defaulted_comparison_not_rewritten_callee)
- << FD;
- } else {
- S.Diag(Subobj.Loc,
- diag::note_defaulted_comparison_calls_deleted)
- << FD << Subobj.Kind << Subobj.Decl;
- S.NoteDeletedFunction(Best->Function);
- }
- }
- R = Result::deleted();
- break;
- case OR_No_Viable_Function:
- // If there's no usable candidate, we're done unless we can rewrite a
- // '<=>' in terms of '==' and '<'.
- if (OO == OO_Spaceship &&
- S.Context.CompCategories.lookupInfoForType(FD->getReturnType())) {
- // For any kind of comparison category return type, we need a usable
- // '==' and a usable '<'.
- if (!R.add(visitBinaryOperator(OO_EqualEqual, Args, Subobj,
- &CandidateSet)))
- R.add(visitBinaryOperator(OO_Less, Args, Subobj, &CandidateSet));
- break;
- }
- if (Diagnose == ExplainDeleted) {
- S.Diag(Subobj.Loc, diag::note_defaulted_comparison_no_viable_function)
- << FD << (OO == OO_ExclaimEqual) << Subobj.Kind << Subobj.Decl;
- // For a three-way comparison, list both the candidates for the
- // original operator and the candidates for the synthesized operator.
- if (SpaceshipCandidates) {
- SpaceshipCandidates->NoteCandidates(
- S, Args,
- SpaceshipCandidates->CompleteCandidates(S, OCD_AllCandidates,
- Args, FD->getLocation()));
- S.Diag(Subobj.Loc,
- diag::note_defaulted_comparison_no_viable_function_synthesized)
- << (OO == OO_EqualEqual ? 0 : 1);
- }
- CandidateSet.NoteCandidates(
- S, Args,
- CandidateSet.CompleteCandidates(S, OCD_AllCandidates, Args,
- FD->getLocation()));
- }
- R = Result::deleted();
- break;
- }
- return R;
- }
- };
- /// A list of statements.
- struct StmtListResult {
- bool IsInvalid = false;
- llvm::SmallVector<Stmt*, 16> Stmts;
- bool add(const StmtResult &S) {
- IsInvalid |= S.isInvalid();
- if (IsInvalid)
- return true;
- Stmts.push_back(S.get());
- return false;
- }
- };
- /// A visitor over the notional body of a defaulted comparison that synthesizes
- /// the actual body.
- class DefaultedComparisonSynthesizer
- : public DefaultedComparisonVisitor<DefaultedComparisonSynthesizer,
- StmtListResult, StmtResult,
- std::pair<ExprResult, ExprResult>> {
- SourceLocation Loc;
- unsigned ArrayDepth = 0;
- public:
- using Base = DefaultedComparisonVisitor;
- using ExprPair = std::pair<ExprResult, ExprResult>;
- friend Base;
- DefaultedComparisonSynthesizer(Sema &S, CXXRecordDecl *RD, FunctionDecl *FD,
- DefaultedComparisonKind DCK,
- SourceLocation BodyLoc)
- : Base(S, RD, FD, DCK), Loc(BodyLoc) {}
- /// Build a suitable function body for this defaulted comparison operator.
- StmtResult build() {
- Sema::CompoundScopeRAII CompoundScope(S);
- StmtListResult Stmts = visit();
- if (Stmts.IsInvalid)
- return StmtError();
- ExprResult RetVal;
- switch (DCK) {
- case DefaultedComparisonKind::None:
- llvm_unreachable("not a defaulted comparison");
- case DefaultedComparisonKind::Equal: {
- // C++2a [class.eq]p3:
- // [...] compar[e] the corresponding elements [...] until the first
- // index i where xi == yi yields [...] false. If no such index exists,
- // V is true. Otherwise, V is false.
- //
- // Join the comparisons with '&&'s and return the result. Use a right
- // fold (traversing the conditions right-to-left), because that
- // short-circuits more naturally.
- auto OldStmts = std::move(Stmts.Stmts);
- Stmts.Stmts.clear();
- ExprResult CmpSoFar;
- // Finish a particular comparison chain.
- auto FinishCmp = [&] {
- if (Expr *Prior = CmpSoFar.get()) {
- // Convert the last expression to 'return ...;'
- if (RetVal.isUnset() && Stmts.Stmts.empty())
- RetVal = CmpSoFar;
- // Convert any prior comparison to 'if (!(...)) return false;'
- else if (Stmts.add(buildIfNotCondReturnFalse(Prior)))
- return true;
- CmpSoFar = ExprResult();
- }
- return false;
- };
- for (Stmt *EAsStmt : llvm::reverse(OldStmts)) {
- Expr *E = dyn_cast<Expr>(EAsStmt);
- if (!E) {
- // Found an array comparison.
- if (FinishCmp() || Stmts.add(EAsStmt))
- return StmtError();
- continue;
- }
- if (CmpSoFar.isUnset()) {
- CmpSoFar = E;
- continue;
- }
- CmpSoFar = S.CreateBuiltinBinOp(Loc, BO_LAnd, E, CmpSoFar.get());
- if (CmpSoFar.isInvalid())
- return StmtError();
- }
- if (FinishCmp())
- return StmtError();
- std::reverse(Stmts.Stmts.begin(), Stmts.Stmts.end());
- // If no such index exists, V is true.
- if (RetVal.isUnset())
- RetVal = S.ActOnCXXBoolLiteral(Loc, tok::kw_true);
- break;
- }
- case DefaultedComparisonKind::ThreeWay: {
- // Per C++2a [class.spaceship]p3, as a fallback add:
- // return static_cast<R>(std::strong_ordering::equal);
- QualType StrongOrdering = S.CheckComparisonCategoryType(
- ComparisonCategoryType::StrongOrdering, Loc,
- Sema::ComparisonCategoryUsage::DefaultedOperator);
- if (StrongOrdering.isNull())
- return StmtError();
- VarDecl *EqualVD = S.Context.CompCategories.getInfoForType(StrongOrdering)
- .getValueInfo(ComparisonCategoryResult::Equal)
- ->VD;
- RetVal = getDecl(EqualVD);
- if (RetVal.isInvalid())
- return StmtError();
- RetVal = buildStaticCastToR(RetVal.get());
- break;
- }
- case DefaultedComparisonKind::NotEqual:
- case DefaultedComparisonKind::Relational:
- RetVal = cast<Expr>(Stmts.Stmts.pop_back_val());
- break;
- }
- // Build the final return statement.
- if (RetVal.isInvalid())
- return StmtError();
- StmtResult ReturnStmt = S.BuildReturnStmt(Loc, RetVal.get());
- if (ReturnStmt.isInvalid())
- return StmtError();
- Stmts.Stmts.push_back(ReturnStmt.get());
- return S.ActOnCompoundStmt(Loc, Loc, Stmts.Stmts, /*IsStmtExpr=*/false);
- }
- private:
- ExprResult getDecl(ValueDecl *VD) {
- return S.BuildDeclarationNameExpr(
- CXXScopeSpec(), DeclarationNameInfo(VD->getDeclName(), Loc), VD);
- }
- ExprResult getParam(unsigned I) {
- ParmVarDecl *PD = FD->getParamDecl(I);
- return getDecl(PD);
- }
- ExprPair getCompleteObject() {
- unsigned Param = 0;
- ExprResult LHS;
- if (isa<CXXMethodDecl>(FD)) {
- // LHS is '*this'.
- LHS = S.ActOnCXXThis(Loc);
- if (!LHS.isInvalid())
- LHS = S.CreateBuiltinUnaryOp(Loc, UO_Deref, LHS.get());
- } else {
- LHS = getParam(Param++);
- }
- ExprResult RHS = getParam(Param++);
- assert(Param == FD->getNumParams());
- return {LHS, RHS};
- }
- ExprPair getBase(CXXBaseSpecifier *Base) {
- ExprPair Obj = getCompleteObject();
- if (Obj.first.isInvalid() || Obj.second.isInvalid())
- return {ExprError(), ExprError()};
- CXXCastPath Path = {Base};
- return {S.ImpCastExprToType(Obj.first.get(), Base->getType(),
- CK_DerivedToBase, VK_LValue, &Path),
- S.ImpCastExprToType(Obj.second.get(), Base->getType(),
- CK_DerivedToBase, VK_LValue, &Path)};
- }
- ExprPair getField(FieldDecl *Field) {
- ExprPair Obj = getCompleteObject();
- if (Obj.first.isInvalid() || Obj.second.isInvalid())
- return {ExprError(), ExprError()};
- DeclAccessPair Found = DeclAccessPair::make(Field, Field->getAccess());
- DeclarationNameInfo NameInfo(Field->getDeclName(), Loc);
- return {S.BuildFieldReferenceExpr(Obj.first.get(), /*IsArrow=*/false, Loc,
- CXXScopeSpec(), Field, Found, NameInfo),
- S.BuildFieldReferenceExpr(Obj.second.get(), /*IsArrow=*/false, Loc,
- CXXScopeSpec(), Field, Found, NameInfo)};
- }
- // FIXME: When expanding a subobject, register a note in the code synthesis
- // stack to say which subobject we're comparing.
- StmtResult buildIfNotCondReturnFalse(ExprResult Cond) {
- if (Cond.isInvalid())
- return StmtError();
- ExprResult NotCond = S.CreateBuiltinUnaryOp(Loc, UO_LNot, Cond.get());
- if (NotCond.isInvalid())
- return StmtError();
- ExprResult False = S.ActOnCXXBoolLiteral(Loc, tok::kw_false);
- assert(!False.isInvalid() && "should never fail");
- StmtResult ReturnFalse = S.BuildReturnStmt(Loc, False.get());
- if (ReturnFalse.isInvalid())
- return StmtError();
- return S.ActOnIfStmt(Loc, IfStatementKind::Ordinary, Loc, nullptr,
- S.ActOnCondition(nullptr, Loc, NotCond.get(),
- Sema::ConditionKind::Boolean),
- Loc, ReturnFalse.get(), SourceLocation(), nullptr);
- }
- StmtResult visitSubobjectArray(QualType Type, llvm::APInt Size,
- ExprPair Subobj) {
- QualType SizeType = S.Context.getSizeType();
- Size = Size.zextOrTrunc(S.Context.getTypeSize(SizeType));
- // Build 'size_t i$n = 0'.
- IdentifierInfo *IterationVarName = nullptr;
- {
- SmallString<8> Str;
- llvm::raw_svector_ostream OS(Str);
- OS << "i" << ArrayDepth;
- IterationVarName = &S.Context.Idents.get(OS.str());
- }
- VarDecl *IterationVar = VarDecl::Create(
- S.Context, S.CurContext, Loc, Loc, IterationVarName, SizeType,
- S.Context.getTrivialTypeSourceInfo(SizeType, Loc), SC_None);
- llvm::APInt Zero(S.Context.getTypeSize(SizeType), 0);
- IterationVar->setInit(
- IntegerLiteral::Create(S.Context, Zero, SizeType, Loc));
- Stmt *Init = new (S.Context) DeclStmt(DeclGroupRef(IterationVar), Loc, Loc);
- auto IterRef = [&] {
- ExprResult Ref = S.BuildDeclarationNameExpr(
- CXXScopeSpec(), DeclarationNameInfo(IterationVarName, Loc),
- IterationVar);
- assert(!Ref.isInvalid() && "can't reference our own variable?");
- return Ref.get();
- };
- // Build 'i$n != Size'.
- ExprResult Cond = S.CreateBuiltinBinOp(
- Loc, BO_NE, IterRef(),
- IntegerLiteral::Create(S.Context, Size, SizeType, Loc));
- assert(!Cond.isInvalid() && "should never fail");
- // Build '++i$n'.
- ExprResult Inc = S.CreateBuiltinUnaryOp(Loc, UO_PreInc, IterRef());
- assert(!Inc.isInvalid() && "should never fail");
- // Build 'a[i$n]' and 'b[i$n]'.
- auto Index = [&](ExprResult E) {
- if (E.isInvalid())
- return ExprError();
- return S.CreateBuiltinArraySubscriptExpr(E.get(), Loc, IterRef(), Loc);
- };
- Subobj.first = Index(Subobj.first);
- Subobj.second = Index(Subobj.second);
- // Compare the array elements.
- ++ArrayDepth;
- StmtResult Substmt = visitSubobject(Type, Subobj);
- --ArrayDepth;
- if (Substmt.isInvalid())
- return StmtError();
- // For the inner level of an 'operator==', build 'if (!cmp) return false;'.
- // For outer levels or for an 'operator<=>' we already have a suitable
- // statement that returns as necessary.
- if (Expr *ElemCmp = dyn_cast<Expr>(Substmt.get())) {
- assert(DCK == DefaultedComparisonKind::Equal &&
- "should have non-expression statement");
- Substmt = buildIfNotCondReturnFalse(ElemCmp);
- if (Substmt.isInvalid())
- return StmtError();
- }
- // Build 'for (...) ...'
- return S.ActOnForStmt(Loc, Loc, Init,
- S.ActOnCondition(nullptr, Loc, Cond.get(),
- Sema::ConditionKind::Boolean),
- S.MakeFullDiscardedValueExpr(Inc.get()), Loc,
- Substmt.get());
- }
- StmtResult visitExpandedSubobject(QualType Type, ExprPair Obj) {
- if (Obj.first.isInvalid() || Obj.second.isInvalid())
- return StmtError();
- OverloadedOperatorKind OO = FD->getOverloadedOperator();
- BinaryOperatorKind Opc = BinaryOperator::getOverloadedOpcode(OO);
- ExprResult Op;
- if (Type->isOverloadableType())
- Op = S.CreateOverloadedBinOp(Loc, Opc, Fns, Obj.first.get(),
- Obj.second.get(), /*PerformADL=*/true,
- /*AllowRewrittenCandidates=*/true, FD);
- else
- Op = S.CreateBuiltinBinOp(Loc, Opc, Obj.first.get(), Obj.second.get());
- if (Op.isInvalid())
- return StmtError();
- switch (DCK) {
- case DefaultedComparisonKind::None:
- llvm_unreachable("not a defaulted comparison");
- case DefaultedComparisonKind::Equal:
- // Per C++2a [class.eq]p2, each comparison is individually contextually
- // converted to bool.
- Op = S.PerformContextuallyConvertToBool(Op.get());
- if (Op.isInvalid())
- return StmtError();
- return Op.get();
- case DefaultedComparisonKind::ThreeWay: {
- // Per C++2a [class.spaceship]p3, form:
- // if (R cmp = static_cast<R>(op); cmp != 0)
- // return cmp;
- QualType R = FD->getReturnType();
- Op = buildStaticCastToR(Op.get());
- if (Op.isInvalid())
- return StmtError();
- // R cmp = ...;
- IdentifierInfo *Name = &S.Context.Idents.get("cmp");
- VarDecl *VD =
- VarDecl::Create(S.Context, S.CurContext, Loc, Loc, Name, R,
- S.Context.getTrivialTypeSourceInfo(R, Loc), SC_None);
- S.AddInitializerToDecl(VD, Op.get(), /*DirectInit=*/false);
- Stmt *InitStmt = new (S.Context) DeclStmt(DeclGroupRef(VD), Loc, Loc);
- // cmp != 0
- ExprResult VDRef = getDecl(VD);
- if (VDRef.isInvalid())
- return StmtError();
- llvm::APInt ZeroVal(S.Context.getIntWidth(S.Context.IntTy), 0);
- Expr *Zero =
- IntegerLiteral::Create(S.Context, ZeroVal, S.Context.IntTy, Loc);
- ExprResult Comp;
- if (VDRef.get()->getType()->isOverloadableType())
- Comp = S.CreateOverloadedBinOp(Loc, BO_NE, Fns, VDRef.get(), Zero, true,
- true, FD);
- else
- Comp = S.CreateBuiltinBinOp(Loc, BO_NE, VDRef.get(), Zero);
- if (Comp.isInvalid())
- return StmtError();
- Sema::ConditionResult Cond = S.ActOnCondition(
- nullptr, Loc, Comp.get(), Sema::ConditionKind::Boolean);
- if (Cond.isInvalid())
- return StmtError();
- // return cmp;
- VDRef = getDecl(VD);
- if (VDRef.isInvalid())
- return StmtError();
- StmtResult ReturnStmt = S.BuildReturnStmt(Loc, VDRef.get());
- if (ReturnStmt.isInvalid())
- return StmtError();
- // if (...)
- return S.ActOnIfStmt(Loc, IfStatementKind::Ordinary, Loc, InitStmt, Cond,
- Loc, ReturnStmt.get(),
- /*ElseLoc=*/SourceLocation(), /*Else=*/nullptr);
- }
- case DefaultedComparisonKind::NotEqual:
- case DefaultedComparisonKind::Relational:
- // C++2a [class.compare.secondary]p2:
- // Otherwise, the operator function yields x @ y.
- return Op.get();
- }
- llvm_unreachable("");
- }
- /// Build "static_cast<R>(E)".
- ExprResult buildStaticCastToR(Expr *E) {
- QualType R = FD->getReturnType();
- assert(!R->isUndeducedType() && "type should have been deduced already");
- // Don't bother forming a no-op cast in the common case.
- if (E->isPRValue() && S.Context.hasSameType(E->getType(), R))
- return E;
- return S.BuildCXXNamedCast(Loc, tok::kw_static_cast,
- S.Context.getTrivialTypeSourceInfo(R, Loc), E,
- SourceRange(Loc, Loc), SourceRange(Loc, Loc));
- }
- };
- }
- /// Perform the unqualified lookups that might be needed to form a defaulted
- /// comparison function for the given operator.
- static void lookupOperatorsForDefaultedComparison(Sema &Self, Scope *S,
- UnresolvedSetImpl &Operators,
- OverloadedOperatorKind Op) {
- auto Lookup = [&](OverloadedOperatorKind OO) {
- Self.LookupOverloadedOperatorName(OO, S, Operators);
- };
- // Every defaulted operator looks up itself.
- Lookup(Op);
- // ... and the rewritten form of itself, if any.
- if (OverloadedOperatorKind ExtraOp = getRewrittenOverloadedOperator(Op))
- Lookup(ExtraOp);
- // For 'operator<=>', we also form a 'cmp != 0' expression, and might
- // synthesize a three-way comparison from '<' and '=='. In a dependent
- // context, we also need to look up '==' in case we implicitly declare a
- // defaulted 'operator=='.
- if (Op == OO_Spaceship) {
- Lookup(OO_ExclaimEqual);
- Lookup(OO_Less);
- Lookup(OO_EqualEqual);
- }
- }
- bool Sema::CheckExplicitlyDefaultedComparison(Scope *S, FunctionDecl *FD,
- DefaultedComparisonKind DCK) {
- assert(DCK != DefaultedComparisonKind::None && "not a defaulted comparison");
- // Perform any unqualified lookups we're going to need to default this
- // function.
- if (S) {
- UnresolvedSet<32> Operators;
- lookupOperatorsForDefaultedComparison(*this, S, Operators,
- FD->getOverloadedOperator());
- FD->setDefaultedFunctionInfo(FunctionDecl::DefaultedFunctionInfo::Create(
- Context, Operators.pairs()));
- }
- // C++2a [class.compare.default]p1:
- // A defaulted comparison operator function for some class C shall be a
- // non-template function declared in the member-specification of C that is
- // -- a non-static const member of C having one parameter of type
- // const C&, or
- // -- a friend of C having two parameters of type const C& or two
- // parameters of type C.
- CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(FD->getLexicalDeclContext());
- bool IsMethod = isa<CXXMethodDecl>(FD);
- if (IsMethod) {
- auto *MD = cast<CXXMethodDecl>(FD);
- assert(!MD->isStatic() && "comparison function cannot be a static member");
- // If we're out-of-class, this is the class we're comparing.
- if (!RD)
- RD = MD->getParent();
- if (!MD->isConst()) {
- SourceLocation InsertLoc;
- if (FunctionTypeLoc Loc = MD->getFunctionTypeLoc())
- InsertLoc = getLocForEndOfToken(Loc.getRParenLoc());
- // Don't diagnose an implicit 'operator=='; we will have diagnosed the
- // corresponding defaulted 'operator<=>' already.
- if (!MD->isImplicit()) {
- Diag(MD->getLocation(), diag::err_defaulted_comparison_non_const)
- << (int)DCK << FixItHint::CreateInsertion(InsertLoc, " const");
- }
- // Add the 'const' to the type to recover.
- const auto *FPT = MD->getType()->castAs<FunctionProtoType>();
- FunctionProtoType::ExtProtoInfo EPI = FPT->getExtProtoInfo();
- EPI.TypeQuals.addConst();
- MD->setType(Context.getFunctionType(FPT->getReturnType(),
- FPT->getParamTypes(), EPI));
- }
- }
- if (FD->getNumParams() != (IsMethod ? 1 : 2)) {
- // Let's not worry about using a variadic template pack here -- who would do
- // such a thing?
- Diag(FD->getLocation(), diag::err_defaulted_comparison_num_args)
- << int(IsMethod) << int(DCK);
- return true;
- }
- const ParmVarDecl *KnownParm = nullptr;
- for (const ParmVarDecl *Param : FD->parameters()) {
- QualType ParmTy = Param->getType();
- if (ParmTy->isDependentType())
- continue;
- if (!KnownParm) {
- auto CTy = ParmTy;
- // Is it `T const &`?
- bool Ok = !IsMethod;
- QualType ExpectedTy;
- if (RD)
- ExpectedTy = Context.getRecordType(RD);
- if (auto *Ref = CTy->getAs<ReferenceType>()) {
- CTy = Ref->getPointeeType();
- if (RD)
- ExpectedTy.addConst();
- Ok = true;
- }
- // Is T a class?
- if (!Ok) {
- } else if (RD) {
- if (!RD->isDependentType() && !Context.hasSameType(CTy, ExpectedTy))
- Ok = false;
- } else if (auto *CRD = CTy->getAsRecordDecl()) {
- RD = cast<CXXRecordDecl>(CRD);
- } else {
- Ok = false;
- }
- if (Ok) {
- KnownParm = Param;
- } else {
- // Don't diagnose an implicit 'operator=='; we will have diagnosed the
- // corresponding defaulted 'operator<=>' already.
- if (!FD->isImplicit()) {
- if (RD) {
- QualType PlainTy = Context.getRecordType(RD);
- QualType RefTy =
- Context.getLValueReferenceType(PlainTy.withConst());
- Diag(FD->getLocation(), diag::err_defaulted_comparison_param)
- << int(DCK) << ParmTy << RefTy << int(!IsMethod) << PlainTy
- << Param->getSourceRange();
- } else {
- assert(!IsMethod && "should know expected type for method");
- Diag(FD->getLocation(),
- diag::err_defaulted_comparison_param_unknown)
- << int(DCK) << ParmTy << Param->getSourceRange();
- }
- }
- return true;
- }
- } else if (!Context.hasSameType(KnownParm->getType(), ParmTy)) {
- Diag(FD->getLocation(), diag::err_defaulted_comparison_param_mismatch)
- << int(DCK) << KnownParm->getType() << KnownParm->getSourceRange()
- << ParmTy << Param->getSourceRange();
- return true;
- }
- }
- assert(RD && "must have determined class");
- if (IsMethod) {
- } else if (isa<CXXRecordDecl>(FD->getLexicalDeclContext())) {
- // In-class, must be a friend decl.
- assert(FD->getFriendObjectKind() && "expected a friend declaration");
- } else {
- // Out of class, require the defaulted comparison to be a friend (of a
- // complete type).
- if (RequireCompleteType(FD->getLocation(), Context.getRecordType(RD),
- diag::err_defaulted_comparison_not_friend, int(DCK),
- int(1)))
- return true;
- if (llvm::none_of(RD->friends(), [&](const FriendDecl *F) {
- return FD->getCanonicalDecl() ==
- F->getFriendDecl()->getCanonicalDecl();
- })) {
- Diag(FD->getLocation(), diag::err_defaulted_comparison_not_friend)
- << int(DCK) << int(0) << RD;
- Diag(RD->getCanonicalDecl()->getLocation(), diag::note_declared_at);
- return true;
- }
- }
- // C++2a [class.eq]p1, [class.rel]p1:
- // A [defaulted comparison other than <=>] shall have a declared return
- // type bool.
- if (DCK != DefaultedComparisonKind::ThreeWay &&
- !FD->getDeclaredReturnType()->isDependentType() &&
- !Context.hasSameType(FD->getDeclaredReturnType(), Context.BoolTy)) {
- Diag(FD->getLocation(), diag::err_defaulted_comparison_return_type_not_bool)
- << (int)DCK << FD->getDeclaredReturnType() << Context.BoolTy
- << FD->getReturnTypeSourceRange();
- return true;
- }
- // C++2a [class.spaceship]p2 [P2002R0]:
- // Let R be the declared return type [...]. If R is auto, [...]. Otherwise,
- // R shall not contain a placeholder type.
- if (QualType RT = FD->getDeclaredReturnType();
- DCK == DefaultedComparisonKind::ThreeWay &&
- RT->getContainedDeducedType() &&
- (!Context.hasSameType(RT, Context.getAutoDeductType()) ||
- RT->getContainedAutoType()->isConstrained())) {
- Diag(FD->getLocation(),
- diag::err_defaulted_comparison_deduced_return_type_not_auto)
- << (int)DCK << FD->getDeclaredReturnType() << Context.AutoDeductTy
- << FD->getReturnTypeSourceRange();
- return true;
- }
- // For a defaulted function in a dependent class, defer all remaining checks
- // until instantiation.
- if (RD->isDependentType())
- return false;
- // Determine whether the function should be defined as deleted.
- DefaultedComparisonInfo Info =
- DefaultedComparisonAnalyzer(*this, RD, FD, DCK).visit();
- bool First = FD == FD->getCanonicalDecl();
- if (!First) {
- if (Info.Deleted) {
- // C++11 [dcl.fct.def.default]p4:
- // [For a] user-provided explicitly-defaulted function [...] if such a
- // function is implicitly defined as deleted, the program is ill-formed.
- //
- // This is really just a consequence of the general rule that you can
- // only delete a function on its first declaration.
- Diag(FD->getLocation(), diag::err_non_first_default_compare_deletes)
- << FD->isImplicit() << (int)DCK;
- DefaultedComparisonAnalyzer(*this, RD, FD, DCK,
- DefaultedComparisonAnalyzer::ExplainDeleted)
- .visit();
- return true;
- }
- if (isa<CXXRecordDecl>(FD->getLexicalDeclContext())) {
- // C++20 [class.compare.default]p1:
- // [...] A definition of a comparison operator as defaulted that appears
- // in a class shall be the first declaration of that function.
- Diag(FD->getLocation(), diag::err_non_first_default_compare_in_class)
- << (int)DCK;
- Diag(FD->getCanonicalDecl()->getLocation(),
- diag::note_previous_declaration);
- return true;
- }
- }
- // If we want to delete the function, then do so; there's nothing else to
- // check in that case.
- if (Info.Deleted) {
- SetDeclDeleted(FD, FD->getLocation());
- if (!inTemplateInstantiation() && !FD->isImplicit()) {
- Diag(FD->getLocation(), diag::warn_defaulted_comparison_deleted)
- << (int)DCK;
- DefaultedComparisonAnalyzer(*this, RD, FD, DCK,
- DefaultedComparisonAnalyzer::ExplainDeleted)
- .visit();
- if (FD->getDefaultLoc().isValid())
- Diag(FD->getDefaultLoc(), diag::note_replace_equals_default_to_delete)
- << FixItHint::CreateReplacement(FD->getDefaultLoc(), "delete");
- }
- return false;
- }
- // C++2a [class.spaceship]p2:
- // The return type is deduced as the common comparison type of R0, R1, ...
- if (DCK == DefaultedComparisonKind::ThreeWay &&
- FD->getDeclaredReturnType()->isUndeducedAutoType()) {
- SourceLocation RetLoc = FD->getReturnTypeSourceRange().getBegin();
- if (RetLoc.isInvalid())
- RetLoc = FD->getBeginLoc();
- // FIXME: Should we really care whether we have the complete type and the
- // 'enumerator' constants here? A forward declaration seems sufficient.
- QualType Cat = CheckComparisonCategoryType(
- Info.Category, RetLoc, ComparisonCategoryUsage::DefaultedOperator);
- if (Cat.isNull())
- return true;
- Context.adjustDeducedFunctionResultType(
- FD, SubstAutoType(FD->getDeclaredReturnType(), Cat));
- }
- // C++2a [dcl.fct.def.default]p3 [P2002R0]:
- // An explicitly-defaulted function that is not defined as deleted may be
- // declared constexpr or consteval only if it is constexpr-compatible.
- // C++2a [class.compare.default]p3 [P2002R0]:
- // A defaulted comparison function is constexpr-compatible if it satisfies
- // the requirements for a constexpr function [...]
- // The only relevant requirements are that the parameter and return types are
- // literal types. The remaining conditions are checked by the analyzer.
- if (FD->isConstexpr()) {
- if (CheckConstexprReturnType(*this, FD, CheckConstexprKind::Diagnose) &&
- CheckConstexprParameterTypes(*this, FD, CheckConstexprKind::Diagnose) &&
- !Info.Constexpr) {
- Diag(FD->getBeginLoc(),
- diag::err_incorrect_defaulted_comparison_constexpr)
- << FD->isImplicit() << (int)DCK << FD->isConsteval();
- DefaultedComparisonAnalyzer(*this, RD, FD, DCK,
- DefaultedComparisonAnalyzer::ExplainConstexpr)
- .visit();
- }
- }
- // C++2a [dcl.fct.def.default]p3 [P2002R0]:
- // If a constexpr-compatible function is explicitly defaulted on its first
- // declaration, it is implicitly considered to be constexpr.
- // FIXME: Only applying this to the first declaration seems problematic, as
- // simple reorderings can affect the meaning of the program.
- if (First && !FD->isConstexpr() && Info.Constexpr)
- FD->setConstexprKind(ConstexprSpecKind::Constexpr);
- // C++2a [except.spec]p3:
- // If a declaration of a function does not have a noexcept-specifier
- // [and] is defaulted on its first declaration, [...] the exception
- // specification is as specified below
- if (FD->getExceptionSpecType() == EST_None) {
- auto *FPT = FD->getType()->castAs<FunctionProtoType>();
- FunctionProtoType::ExtProtoInfo EPI = FPT->getExtProtoInfo();
- EPI.ExceptionSpec.Type = EST_Unevaluated;
- EPI.ExceptionSpec.SourceDecl = FD;
- FD->setType(Context.getFunctionType(FPT->getReturnType(),
- FPT->getParamTypes(), EPI));
- }
- return false;
- }
- void Sema::DeclareImplicitEqualityComparison(CXXRecordDecl *RD,
- FunctionDecl *Spaceship) {
- Sema::CodeSynthesisContext Ctx;
- Ctx.Kind = Sema::CodeSynthesisContext::DeclaringImplicitEqualityComparison;
- Ctx.PointOfInstantiation = Spaceship->getEndLoc();
- Ctx.Entity = Spaceship;
- pushCodeSynthesisContext(Ctx);
- if (FunctionDecl *EqualEqual = SubstSpaceshipAsEqualEqual(RD, Spaceship))
- EqualEqual->setImplicit();
- popCodeSynthesisContext();
- }
- void Sema::DefineDefaultedComparison(SourceLocation UseLoc, FunctionDecl *FD,
- DefaultedComparisonKind DCK) {
- assert(FD->isDefaulted() && !FD->isDeleted() &&
- !FD->doesThisDeclarationHaveABody());
- if (FD->willHaveBody() || FD->isInvalidDecl())
- return;
- SynthesizedFunctionScope Scope(*this, FD);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(UseLoc);
- {
- // Build and set up the function body.
- // The first parameter has type maybe-ref-to maybe-const T, use that to get
- // the type of the class being compared.
- auto PT = FD->getParamDecl(0)->getType();
- CXXRecordDecl *RD = PT.getNonReferenceType()->getAsCXXRecordDecl();
- SourceLocation BodyLoc =
- FD->getEndLoc().isValid() ? FD->getEndLoc() : FD->getLocation();
- StmtResult Body =
- DefaultedComparisonSynthesizer(*this, RD, FD, DCK, BodyLoc).build();
- if (Body.isInvalid()) {
- FD->setInvalidDecl();
- return;
- }
- FD->setBody(Body.get());
- FD->markUsed(Context);
- }
- // The exception specification is needed because we are defining the
- // function. Note that this will reuse the body we just built.
- ResolveExceptionSpec(UseLoc, FD->getType()->castAs<FunctionProtoType>());
- if (ASTMutationListener *L = getASTMutationListener())
- L->CompletedImplicitDefinition(FD);
- }
- static Sema::ImplicitExceptionSpecification
- ComputeDefaultedComparisonExceptionSpec(Sema &S, SourceLocation Loc,
- FunctionDecl *FD,
- Sema::DefaultedComparisonKind DCK) {
- ComputingExceptionSpec CES(S, FD, Loc);
- Sema::ImplicitExceptionSpecification ExceptSpec(S);
- if (FD->isInvalidDecl())
- return ExceptSpec;
- // The common case is that we just defined the comparison function. In that
- // case, just look at whether the body can throw.
- if (FD->hasBody()) {
- ExceptSpec.CalledStmt(FD->getBody());
- } else {
- // Otherwise, build a body so we can check it. This should ideally only
- // happen when we're not actually marking the function referenced. (This is
- // only really important for efficiency: we don't want to build and throw
- // away bodies for comparison functions more than we strictly need to.)
- // Pretend to synthesize the function body in an unevaluated context.
- // Note that we can't actually just go ahead and define the function here:
- // we are not permitted to mark its callees as referenced.
- Sema::SynthesizedFunctionScope Scope(S, FD);
- EnterExpressionEvaluationContext Context(
- S, Sema::ExpressionEvaluationContext::Unevaluated);
- CXXRecordDecl *RD = cast<CXXRecordDecl>(FD->getLexicalParent());
- SourceLocation BodyLoc =
- FD->getEndLoc().isValid() ? FD->getEndLoc() : FD->getLocation();
- StmtResult Body =
- DefaultedComparisonSynthesizer(S, RD, FD, DCK, BodyLoc).build();
- if (!Body.isInvalid())
- ExceptSpec.CalledStmt(Body.get());
- // FIXME: Can we hold onto this body and just transform it to potentially
- // evaluated when we're asked to define the function rather than rebuilding
- // it? Either that, or we should only build the bits of the body that we
- // need (the expressions, not the statements).
- }
- return ExceptSpec;
- }
- void Sema::CheckDelayedMemberExceptionSpecs() {
- decltype(DelayedOverridingExceptionSpecChecks) Overriding;
- decltype(DelayedEquivalentExceptionSpecChecks) Equivalent;
- std::swap(Overriding, DelayedOverridingExceptionSpecChecks);
- std::swap(Equivalent, DelayedEquivalentExceptionSpecChecks);
- // Perform any deferred checking of exception specifications for virtual
- // destructors.
- for (auto &Check : Overriding)
- CheckOverridingFunctionExceptionSpec(Check.first, Check.second);
- // Perform any deferred checking of exception specifications for befriended
- // special members.
- for (auto &Check : Equivalent)
- CheckEquivalentExceptionSpec(Check.second, Check.first);
- }
- namespace {
- /// CRTP base class for visiting operations performed by a special member
- /// function (or inherited constructor).
- template<typename Derived>
- struct SpecialMemberVisitor {
- Sema &S;
- CXXMethodDecl *MD;
- Sema::CXXSpecialMember CSM;
- Sema::InheritedConstructorInfo *ICI;
- // Properties of the special member, computed for convenience.
- bool IsConstructor = false, IsAssignment = false, ConstArg = false;
- SpecialMemberVisitor(Sema &S, CXXMethodDecl *MD, Sema::CXXSpecialMember CSM,
- Sema::InheritedConstructorInfo *ICI)
- : S(S), MD(MD), CSM(CSM), ICI(ICI) {
- switch (CSM) {
- case Sema::CXXDefaultConstructor:
- case Sema::CXXCopyConstructor:
- case Sema::CXXMoveConstructor:
- IsConstructor = true;
- break;
- case Sema::CXXCopyAssignment:
- case Sema::CXXMoveAssignment:
- IsAssignment = true;
- break;
- case Sema::CXXDestructor:
- break;
- case Sema::CXXInvalid:
- llvm_unreachable("invalid special member kind");
- }
- if (MD->getNumParams()) {
- if (const ReferenceType *RT =
- MD->getParamDecl(0)->getType()->getAs<ReferenceType>())
- ConstArg = RT->getPointeeType().isConstQualified();
- }
- }
- Derived &getDerived() { return static_cast<Derived&>(*this); }
- /// Is this a "move" special member?
- bool isMove() const {
- return CSM == Sema::CXXMoveConstructor || CSM == Sema::CXXMoveAssignment;
- }
- /// Look up the corresponding special member in the given class.
- Sema::SpecialMemberOverloadResult lookupIn(CXXRecordDecl *Class,
- unsigned Quals, bool IsMutable) {
- return lookupCallFromSpecialMember(S, Class, CSM, Quals,
- ConstArg && !IsMutable);
- }
- /// Look up the constructor for the specified base class to see if it's
- /// overridden due to this being an inherited constructor.
- Sema::SpecialMemberOverloadResult lookupInheritedCtor(CXXRecordDecl *Class) {
- if (!ICI)
- return {};
- assert(CSM == Sema::CXXDefaultConstructor);
- auto *BaseCtor =
- cast<CXXConstructorDecl>(MD)->getInheritedConstructor().getConstructor();
- if (auto *MD = ICI->findConstructorForBase(Class, BaseCtor).first)
- return MD;
- return {};
- }
- /// A base or member subobject.
- typedef llvm::PointerUnion<CXXBaseSpecifier*, FieldDecl*> Subobject;
- /// Get the location to use for a subobject in diagnostics.
- static SourceLocation getSubobjectLoc(Subobject Subobj) {
- // FIXME: For an indirect virtual base, the direct base leading to
- // the indirect virtual base would be a more useful choice.
- if (auto *B = Subobj.dyn_cast<CXXBaseSpecifier*>())
- return B->getBaseTypeLoc();
- else
- return Subobj.get<FieldDecl*>()->getLocation();
- }
- enum BasesToVisit {
- /// Visit all non-virtual (direct) bases.
- VisitNonVirtualBases,
- /// Visit all direct bases, virtual or not.
- VisitDirectBases,
- /// Visit all non-virtual bases, and all virtual bases if the class
- /// is not abstract.
- VisitPotentiallyConstructedBases,
- /// Visit all direct or virtual bases.
- VisitAllBases
- };
- // Visit the bases and members of the class.
- bool visit(BasesToVisit Bases) {
- CXXRecordDecl *RD = MD->getParent();
- if (Bases == VisitPotentiallyConstructedBases)
- Bases = RD->isAbstract() ? VisitNonVirtualBases : VisitAllBases;
- for (auto &B : RD->bases())
- if ((Bases == VisitDirectBases || !B.isVirtual()) &&
- getDerived().visitBase(&B))
- return true;
- if (Bases == VisitAllBases)
- for (auto &B : RD->vbases())
- if (getDerived().visitBase(&B))
- return true;
- for (auto *F : RD->fields())
- if (!F->isInvalidDecl() && !F->isUnnamedBitfield() &&
- getDerived().visitField(F))
- return true;
- return false;
- }
- };
- }
- namespace {
- struct SpecialMemberDeletionInfo
- : SpecialMemberVisitor<SpecialMemberDeletionInfo> {
- bool Diagnose;
- SourceLocation Loc;
- bool AllFieldsAreConst;
- SpecialMemberDeletionInfo(Sema &S, CXXMethodDecl *MD,
- Sema::CXXSpecialMember CSM,
- Sema::InheritedConstructorInfo *ICI, bool Diagnose)
- : SpecialMemberVisitor(S, MD, CSM, ICI), Diagnose(Diagnose),
- Loc(MD->getLocation()), AllFieldsAreConst(true) {}
- bool inUnion() const { return MD->getParent()->isUnion(); }
- Sema::CXXSpecialMember getEffectiveCSM() {
- return ICI ? Sema::CXXInvalid : CSM;
- }
- bool shouldDeleteForVariantObjCPtrMember(FieldDecl *FD, QualType FieldType);
- bool visitBase(CXXBaseSpecifier *Base) { return shouldDeleteForBase(Base); }
- bool visitField(FieldDecl *Field) { return shouldDeleteForField(Field); }
- bool shouldDeleteForBase(CXXBaseSpecifier *Base);
- bool shouldDeleteForField(FieldDecl *FD);
- bool shouldDeleteForAllConstMembers();
- bool shouldDeleteForClassSubobject(CXXRecordDecl *Class, Subobject Subobj,
- unsigned Quals);
- bool shouldDeleteForSubobjectCall(Subobject Subobj,
- Sema::SpecialMemberOverloadResult SMOR,
- bool IsDtorCallInCtor);
- bool isAccessible(Subobject Subobj, CXXMethodDecl *D);
- };
- }
- /// Is the given special member inaccessible when used on the given
- /// sub-object.
- bool SpecialMemberDeletionInfo::isAccessible(Subobject Subobj,
- CXXMethodDecl *target) {
- /// If we're operating on a base class, the object type is the
- /// type of this special member.
- QualType objectTy;
- AccessSpecifier access = target->getAccess();
- if (CXXBaseSpecifier *base = Subobj.dyn_cast<CXXBaseSpecifier*>()) {
- objectTy = S.Context.getTypeDeclType(MD->getParent());
- access = CXXRecordDecl::MergeAccess(base->getAccessSpecifier(), access);
- // If we're operating on a field, the object type is the type of the field.
- } else {
- objectTy = S.Context.getTypeDeclType(target->getParent());
- }
- return S.isMemberAccessibleForDeletion(
- target->getParent(), DeclAccessPair::make(target, access), objectTy);
- }
- /// Check whether we should delete a special member due to the implicit
- /// definition containing a call to a special member of a subobject.
- bool SpecialMemberDeletionInfo::shouldDeleteForSubobjectCall(
- Subobject Subobj, Sema::SpecialMemberOverloadResult SMOR,
- bool IsDtorCallInCtor) {
- CXXMethodDecl *Decl = SMOR.getMethod();
- FieldDecl *Field = Subobj.dyn_cast<FieldDecl*>();
- int DiagKind = -1;
- if (SMOR.getKind() == Sema::SpecialMemberOverloadResult::NoMemberOrDeleted)
- DiagKind = !Decl ? 0 : 1;
- else if (SMOR.getKind() == Sema::SpecialMemberOverloadResult::Ambiguous)
- DiagKind = 2;
- else if (!isAccessible(Subobj, Decl))
- DiagKind = 3;
- else if (!IsDtorCallInCtor && Field && Field->getParent()->isUnion() &&
- !Decl->isTrivial()) {
- // A member of a union must have a trivial corresponding special member.
- // As a weird special case, a destructor call from a union's constructor
- // must be accessible and non-deleted, but need not be trivial. Such a
- // destructor is never actually called, but is semantically checked as
- // if it were.
- DiagKind = 4;
- }
- if (DiagKind == -1)
- return false;
- if (Diagnose) {
- if (Field) {
- S.Diag(Field->getLocation(),
- diag::note_deleted_special_member_class_subobject)
- << getEffectiveCSM() << MD->getParent() << /*IsField*/true
- << Field << DiagKind << IsDtorCallInCtor << /*IsObjCPtr*/false;
- } else {
- CXXBaseSpecifier *Base = Subobj.get<CXXBaseSpecifier*>();
- S.Diag(Base->getBeginLoc(),
- diag::note_deleted_special_member_class_subobject)
- << getEffectiveCSM() << MD->getParent() << /*IsField*/ false
- << Base->getType() << DiagKind << IsDtorCallInCtor
- << /*IsObjCPtr*/false;
- }
- if (DiagKind == 1)
- S.NoteDeletedFunction(Decl);
- // FIXME: Explain inaccessibility if DiagKind == 3.
- }
- return true;
- }
- /// Check whether we should delete a special member function due to having a
- /// direct or virtual base class or non-static data member of class type M.
- bool SpecialMemberDeletionInfo::shouldDeleteForClassSubobject(
- CXXRecordDecl *Class, Subobject Subobj, unsigned Quals) {
- FieldDecl *Field = Subobj.dyn_cast<FieldDecl*>();
- bool IsMutable = Field && Field->isMutable();
- // C++11 [class.ctor]p5:
- // -- any direct or virtual base class, or non-static data member with no
- // brace-or-equal-initializer, has class type M (or array thereof) and
- // either M has no default constructor or overload resolution as applied
- // to M's default constructor results in an ambiguity or in a function
- // that is deleted or inaccessible
- // C++11 [class.copy]p11, C++11 [class.copy]p23:
- // -- a direct or virtual base class B that cannot be copied/moved because
- // overload resolution, as applied to B's corresponding special member,
- // results in an ambiguity or a function that is deleted or inaccessible
- // from the defaulted special member
- // C++11 [class.dtor]p5:
- // -- any direct or virtual base class [...] has a type with a destructor
- // that is deleted or inaccessible
- if (!(CSM == Sema::CXXDefaultConstructor &&
- Field && Field->hasInClassInitializer()) &&
- shouldDeleteForSubobjectCall(Subobj, lookupIn(Class, Quals, IsMutable),
- false))
- return true;
- // C++11 [class.ctor]p5, C++11 [class.copy]p11:
- // -- any direct or virtual base class or non-static data member has a
- // type with a destructor that is deleted or inaccessible
- if (IsConstructor) {
- Sema::SpecialMemberOverloadResult SMOR =
- S.LookupSpecialMember(Class, Sema::CXXDestructor,
- false, false, false, false, false);
- if (shouldDeleteForSubobjectCall(Subobj, SMOR, true))
- return true;
- }
- return false;
- }
- bool SpecialMemberDeletionInfo::shouldDeleteForVariantObjCPtrMember(
- FieldDecl *FD, QualType FieldType) {
- // The defaulted special functions are defined as deleted if this is a variant
- // member with a non-trivial ownership type, e.g., ObjC __strong or __weak
- // type under ARC.
- if (!FieldType.hasNonTrivialObjCLifetime())
- return false;
- // Don't make the defaulted default constructor defined as deleted if the
- // member has an in-class initializer.
- if (CSM == Sema::CXXDefaultConstructor && FD->hasInClassInitializer())
- return false;
- if (Diagnose) {
- auto *ParentClass = cast<CXXRecordDecl>(FD->getParent());
- S.Diag(FD->getLocation(),
- diag::note_deleted_special_member_class_subobject)
- << getEffectiveCSM() << ParentClass << /*IsField*/true
- << FD << 4 << /*IsDtorCallInCtor*/false << /*IsObjCPtr*/true;
- }
- return true;
- }
- /// Check whether we should delete a special member function due to the class
- /// having a particular direct or virtual base class.
- bool SpecialMemberDeletionInfo::shouldDeleteForBase(CXXBaseSpecifier *Base) {
- CXXRecordDecl *BaseClass = Base->getType()->getAsCXXRecordDecl();
- // If program is correct, BaseClass cannot be null, but if it is, the error
- // must be reported elsewhere.
- if (!BaseClass)
- return false;
- // If we have an inheriting constructor, check whether we're calling an
- // inherited constructor instead of a default constructor.
- Sema::SpecialMemberOverloadResult SMOR = lookupInheritedCtor(BaseClass);
- if (auto *BaseCtor = SMOR.getMethod()) {
- // Note that we do not check access along this path; other than that,
- // this is the same as shouldDeleteForSubobjectCall(Base, BaseCtor, false);
- // FIXME: Check that the base has a usable destructor! Sink this into
- // shouldDeleteForClassSubobject.
- if (BaseCtor->isDeleted() && Diagnose) {
- S.Diag(Base->getBeginLoc(),
- diag::note_deleted_special_member_class_subobject)
- << getEffectiveCSM() << MD->getParent() << /*IsField*/ false
- << Base->getType() << /*Deleted*/ 1 << /*IsDtorCallInCtor*/ false
- << /*IsObjCPtr*/false;
- S.NoteDeletedFunction(BaseCtor);
- }
- return BaseCtor->isDeleted();
- }
- return shouldDeleteForClassSubobject(BaseClass, Base, 0);
- }
- /// Check whether we should delete a special member function due to the class
- /// having a particular non-static data member.
- bool SpecialMemberDeletionInfo::shouldDeleteForField(FieldDecl *FD) {
- QualType FieldType = S.Context.getBaseElementType(FD->getType());
- CXXRecordDecl *FieldRecord = FieldType->getAsCXXRecordDecl();
- if (inUnion() && shouldDeleteForVariantObjCPtrMember(FD, FieldType))
- return true;
- if (CSM == Sema::CXXDefaultConstructor) {
- // For a default constructor, all references must be initialized in-class
- // and, if a union, it must have a non-const member.
- if (FieldType->isReferenceType() && !FD->hasInClassInitializer()) {
- if (Diagnose)
- S.Diag(FD->getLocation(), diag::note_deleted_default_ctor_uninit_field)
- << !!ICI << MD->getParent() << FD << FieldType << /*Reference*/0;
- return true;
- }
- // C++11 [class.ctor]p5 (modified by DR2394): any non-variant non-static
- // data member of const-qualified type (or array thereof) with no
- // brace-or-equal-initializer is not const-default-constructible.
- if (!inUnion() && FieldType.isConstQualified() &&
- !FD->hasInClassInitializer() &&
- (!FieldRecord || !FieldRecord->allowConstDefaultInit())) {
- if (Diagnose)
- S.Diag(FD->getLocation(), diag::note_deleted_default_ctor_uninit_field)
- << !!ICI << MD->getParent() << FD << FD->getType() << /*Const*/1;
- return true;
- }
- if (inUnion() && !FieldType.isConstQualified())
- AllFieldsAreConst = false;
- } else if (CSM == Sema::CXXCopyConstructor) {
- // For a copy constructor, data members must not be of rvalue reference
- // type.
- if (FieldType->isRValueReferenceType()) {
- if (Diagnose)
- S.Diag(FD->getLocation(), diag::note_deleted_copy_ctor_rvalue_reference)
- << MD->getParent() << FD << FieldType;
- return true;
- }
- } else if (IsAssignment) {
- // For an assignment operator, data members must not be of reference type.
- if (FieldType->isReferenceType()) {
- if (Diagnose)
- S.Diag(FD->getLocation(), diag::note_deleted_assign_field)
- << isMove() << MD->getParent() << FD << FieldType << /*Reference*/0;
- return true;
- }
- if (!FieldRecord && FieldType.isConstQualified()) {
- // C++11 [class.copy]p23:
- // -- a non-static data member of const non-class type (or array thereof)
- if (Diagnose)
- S.Diag(FD->getLocation(), diag::note_deleted_assign_field)
- << isMove() << MD->getParent() << FD << FD->getType() << /*Const*/1;
- return true;
- }
- }
- if (FieldRecord) {
- // Some additional restrictions exist on the variant members.
- if (!inUnion() && FieldRecord->isUnion() &&
- FieldRecord->isAnonymousStructOrUnion()) {
- bool AllVariantFieldsAreConst = true;
- // FIXME: Handle anonymous unions declared within anonymous unions.
- for (auto *UI : FieldRecord->fields()) {
- QualType UnionFieldType = S.Context.getBaseElementType(UI->getType());
- if (shouldDeleteForVariantObjCPtrMember(&*UI, UnionFieldType))
- return true;
- if (!UnionFieldType.isConstQualified())
- AllVariantFieldsAreConst = false;
- CXXRecordDecl *UnionFieldRecord = UnionFieldType->getAsCXXRecordDecl();
- if (UnionFieldRecord &&
- shouldDeleteForClassSubobject(UnionFieldRecord, UI,
- UnionFieldType.getCVRQualifiers()))
- return true;
- }
- // At least one member in each anonymous union must be non-const
- if (CSM == Sema::CXXDefaultConstructor && AllVariantFieldsAreConst &&
- !FieldRecord->field_empty()) {
- if (Diagnose)
- S.Diag(FieldRecord->getLocation(),
- diag::note_deleted_default_ctor_all_const)
- << !!ICI << MD->getParent() << /*anonymous union*/1;
- return true;
- }
- // Don't check the implicit member of the anonymous union type.
- // This is technically non-conformant but supported, and we have a
- // diagnostic for this elsewhere.
- return false;
- }
- if (shouldDeleteForClassSubobject(FieldRecord, FD,
- FieldType.getCVRQualifiers()))
- return true;
- }
- return false;
- }
- /// C++11 [class.ctor] p5:
- /// A defaulted default constructor for a class X is defined as deleted if
- /// X is a union and all of its variant members are of const-qualified type.
- bool SpecialMemberDeletionInfo::shouldDeleteForAllConstMembers() {
- // This is a silly definition, because it gives an empty union a deleted
- // default constructor. Don't do that.
- if (CSM == Sema::CXXDefaultConstructor && inUnion() && AllFieldsAreConst) {
- bool AnyFields = false;
- for (auto *F : MD->getParent()->fields())
- if ((AnyFields = !F->isUnnamedBitfield()))
- break;
- if (!AnyFields)
- return false;
- if (Diagnose)
- S.Diag(MD->getParent()->getLocation(),
- diag::note_deleted_default_ctor_all_const)
- << !!ICI << MD->getParent() << /*not anonymous union*/0;
- return true;
- }
- return false;
- }
- /// Determine whether a defaulted special member function should be defined as
- /// deleted, as specified in C++11 [class.ctor]p5, C++11 [class.copy]p11,
- /// C++11 [class.copy]p23, and C++11 [class.dtor]p5.
- bool Sema::ShouldDeleteSpecialMember(CXXMethodDecl *MD, CXXSpecialMember CSM,
- InheritedConstructorInfo *ICI,
- bool Diagnose) {
- if (MD->isInvalidDecl())
- return false;
- CXXRecordDecl *RD = MD->getParent();
- assert(!RD->isDependentType() && "do deletion after instantiation");
- if (!LangOpts.CPlusPlus11 || RD->isInvalidDecl())
- return false;
- // C++11 [expr.lambda.prim]p19:
- // The closure type associated with a lambda-expression has a
- // deleted (8.4.3) default constructor and a deleted copy
- // assignment operator.
- // C++2a adds back these operators if the lambda has no lambda-capture.
- if (RD->isLambda() && !RD->lambdaIsDefaultConstructibleAndAssignable() &&
- (CSM == CXXDefaultConstructor || CSM == CXXCopyAssignment)) {
- if (Diagnose)
- Diag(RD->getLocation(), diag::note_lambda_decl);
- return true;
- }
- // For an anonymous struct or union, the copy and assignment special members
- // will never be used, so skip the check. For an anonymous union declared at
- // namespace scope, the constructor and destructor are used.
- if (CSM != CXXDefaultConstructor && CSM != CXXDestructor &&
- RD->isAnonymousStructOrUnion())
- return false;
- // C++11 [class.copy]p7, p18:
- // If the class definition declares a move constructor or move assignment
- // operator, an implicitly declared copy constructor or copy assignment
- // operator is defined as deleted.
- if (MD->isImplicit() &&
- (CSM == CXXCopyConstructor || CSM == CXXCopyAssignment)) {
- CXXMethodDecl *UserDeclaredMove = nullptr;
- // In Microsoft mode up to MSVC 2013, a user-declared move only causes the
- // deletion of the corresponding copy operation, not both copy operations.
- // MSVC 2015 has adopted the standards conforming behavior.
- bool DeletesOnlyMatchingCopy =
- getLangOpts().MSVCCompat &&
- !getLangOpts().isCompatibleWithMSVC(LangOptions::MSVC2015);
- if (RD->hasUserDeclaredMoveConstructor() &&
- (!DeletesOnlyMatchingCopy || CSM == CXXCopyConstructor)) {
- if (!Diagnose) return true;
- // Find any user-declared move constructor.
- for (auto *I : RD->ctors()) {
- if (I->isMoveConstructor()) {
- UserDeclaredMove = I;
- break;
- }
- }
- assert(UserDeclaredMove);
- } else if (RD->hasUserDeclaredMoveAssignment() &&
- (!DeletesOnlyMatchingCopy || CSM == CXXCopyAssignment)) {
- if (!Diagnose) return true;
- // Find any user-declared move assignment operator.
- for (auto *I : RD->methods()) {
- if (I->isMoveAssignmentOperator()) {
- UserDeclaredMove = I;
- break;
- }
- }
- assert(UserDeclaredMove);
- }
- if (UserDeclaredMove) {
- Diag(UserDeclaredMove->getLocation(),
- diag::note_deleted_copy_user_declared_move)
- << (CSM == CXXCopyAssignment) << RD
- << UserDeclaredMove->isMoveAssignmentOperator();
- return true;
- }
- }
- // Do access control from the special member function
- ContextRAII MethodContext(*this, MD);
- // C++11 [class.dtor]p5:
- // -- for a virtual destructor, lookup of the non-array deallocation function
- // results in an ambiguity or in a function that is deleted or inaccessible
- if (CSM == CXXDestructor && MD->isVirtual()) {
- FunctionDecl *OperatorDelete = nullptr;
- DeclarationName Name =
- Context.DeclarationNames.getCXXOperatorName(OO_Delete);
- if (FindDeallocationFunction(MD->getLocation(), MD->getParent(), Name,
- OperatorDelete, /*Diagnose*/false)) {
- if (Diagnose)
- Diag(RD->getLocation(), diag::note_deleted_dtor_no_operator_delete);
- return true;
- }
- }
- SpecialMemberDeletionInfo SMI(*this, MD, CSM, ICI, Diagnose);
- // Per DR1611, do not consider virtual bases of constructors of abstract
- // classes, since we are not going to construct them.
- // Per DR1658, do not consider virtual bases of destructors of abstract
- // classes either.
- // Per DR2180, for assignment operators we only assign (and thus only
- // consider) direct bases.
- if (SMI.visit(SMI.IsAssignment ? SMI.VisitDirectBases
- : SMI.VisitPotentiallyConstructedBases))
- return true;
- if (SMI.shouldDeleteForAllConstMembers())
- return true;
- if (getLangOpts().CUDA) {
- // We should delete the special member in CUDA mode if target inference
- // failed.
- // For inherited constructors (non-null ICI), CSM may be passed so that MD
- // is treated as certain special member, which may not reflect what special
- // member MD really is. However inferCUDATargetForImplicitSpecialMember
- // expects CSM to match MD, therefore recalculate CSM.
- assert(ICI || CSM == getSpecialMember(MD));
- auto RealCSM = CSM;
- if (ICI)
- RealCSM = getSpecialMember(MD);
- return inferCUDATargetForImplicitSpecialMember(RD, RealCSM, MD,
- SMI.ConstArg, Diagnose);
- }
- return false;
- }
- void Sema::DiagnoseDeletedDefaultedFunction(FunctionDecl *FD) {
- DefaultedFunctionKind DFK = getDefaultedFunctionKind(FD);
- assert(DFK && "not a defaultable function");
- assert(FD->isDefaulted() && FD->isDeleted() && "not defaulted and deleted");
- if (DFK.isSpecialMember()) {
- ShouldDeleteSpecialMember(cast<CXXMethodDecl>(FD), DFK.asSpecialMember(),
- nullptr, /*Diagnose=*/true);
- } else {
- DefaultedComparisonAnalyzer(
- *this, cast<CXXRecordDecl>(FD->getLexicalDeclContext()), FD,
- DFK.asComparison(), DefaultedComparisonAnalyzer::ExplainDeleted)
- .visit();
- }
- }
- /// Perform lookup for a special member of the specified kind, and determine
- /// whether it is trivial. If the triviality can be determined without the
- /// lookup, skip it. This is intended for use when determining whether a
- /// special member of a containing object is trivial, and thus does not ever
- /// perform overload resolution for default constructors.
- ///
- /// If \p Selected is not \c NULL, \c *Selected will be filled in with the
- /// member that was most likely to be intended to be trivial, if any.
- ///
- /// If \p ForCall is true, look at CXXRecord::HasTrivialSpecialMembersForCall to
- /// determine whether the special member is trivial.
- static bool findTrivialSpecialMember(Sema &S, CXXRecordDecl *RD,
- Sema::CXXSpecialMember CSM, unsigned Quals,
- bool ConstRHS,
- Sema::TrivialABIHandling TAH,
- CXXMethodDecl **Selected) {
- if (Selected)
- *Selected = nullptr;
- switch (CSM) {
- case Sema::CXXInvalid:
- llvm_unreachable("not a special member");
- case Sema::CXXDefaultConstructor:
- // C++11 [class.ctor]p5:
- // A default constructor is trivial if:
- // - all the [direct subobjects] have trivial default constructors
- //
- // Note, no overload resolution is performed in this case.
- if (RD->hasTrivialDefaultConstructor())
- return true;
- if (Selected) {
- // If there's a default constructor which could have been trivial, dig it
- // out. Otherwise, if there's any user-provided default constructor, point
- // to that as an example of why there's not a trivial one.
- CXXConstructorDecl *DefCtor = nullptr;
- if (RD->needsImplicitDefaultConstructor())
- S.DeclareImplicitDefaultConstructor(RD);
- for (auto *CI : RD->ctors()) {
- if (!CI->isDefaultConstructor())
- continue;
- DefCtor = CI;
- if (!DefCtor->isUserProvided())
- break;
- }
- *Selected = DefCtor;
- }
- return false;
- case Sema::CXXDestructor:
- // C++11 [class.dtor]p5:
- // A destructor is trivial if:
- // - all the direct [subobjects] have trivial destructors
- if (RD->hasTrivialDestructor() ||
- (TAH == Sema::TAH_ConsiderTrivialABI &&
- RD->hasTrivialDestructorForCall()))
- return true;
- if (Selected) {
- if (RD->needsImplicitDestructor())
- S.DeclareImplicitDestructor(RD);
- *Selected = RD->getDestructor();
- }
- return false;
- case Sema::CXXCopyConstructor:
- // C++11 [class.copy]p12:
- // A copy constructor is trivial if:
- // - the constructor selected to copy each direct [subobject] is trivial
- if (RD->hasTrivialCopyConstructor() ||
- (TAH == Sema::TAH_ConsiderTrivialABI &&
- RD->hasTrivialCopyConstructorForCall())) {
- if (Quals == Qualifiers::Const)
- // We must either select the trivial copy constructor or reach an
- // ambiguity; no need to actually perform overload resolution.
- return true;
- } else if (!Selected) {
- return false;
- }
- // In C++98, we are not supposed to perform overload resolution here, but we
- // treat that as a language defect, as suggested on cxx-abi-dev, to treat
- // cases like B as having a non-trivial copy constructor:
- // struct A { template<typename T> A(T&); };
- // struct B { mutable A a; };
- goto NeedOverloadResolution;
- case Sema::CXXCopyAssignment:
- // C++11 [class.copy]p25:
- // A copy assignment operator is trivial if:
- // - the assignment operator selected to copy each direct [subobject] is
- // trivial
- if (RD->hasTrivialCopyAssignment()) {
- if (Quals == Qualifiers::Const)
- return true;
- } else if (!Selected) {
- return false;
- }
- // In C++98, we are not supposed to perform overload resolution here, but we
- // treat that as a language defect.
- goto NeedOverloadResolution;
- case Sema::CXXMoveConstructor:
- case Sema::CXXMoveAssignment:
- NeedOverloadResolution:
- Sema::SpecialMemberOverloadResult SMOR =
- lookupCallFromSpecialMember(S, RD, CSM, Quals, ConstRHS);
- // The standard doesn't describe how to behave if the lookup is ambiguous.
- // We treat it as not making the member non-trivial, just like the standard
- // mandates for the default constructor. This should rarely matter, because
- // the member will also be deleted.
- if (SMOR.getKind() == Sema::SpecialMemberOverloadResult::Ambiguous)
- return true;
- if (!SMOR.getMethod()) {
- assert(SMOR.getKind() ==
- Sema::SpecialMemberOverloadResult::NoMemberOrDeleted);
- return false;
- }
- // We deliberately don't check if we found a deleted special member. We're
- // not supposed to!
- if (Selected)
- *Selected = SMOR.getMethod();
- if (TAH == Sema::TAH_ConsiderTrivialABI &&
- (CSM == Sema::CXXCopyConstructor || CSM == Sema::CXXMoveConstructor))
- return SMOR.getMethod()->isTrivialForCall();
- return SMOR.getMethod()->isTrivial();
- }
- llvm_unreachable("unknown special method kind");
- }
- static CXXConstructorDecl *findUserDeclaredCtor(CXXRecordDecl *RD) {
- for (auto *CI : RD->ctors())
- if (!CI->isImplicit())
- return CI;
- // Look for constructor templates.
- typedef CXXRecordDecl::specific_decl_iterator<FunctionTemplateDecl> tmpl_iter;
- for (tmpl_iter TI(RD->decls_begin()), TE(RD->decls_end()); TI != TE; ++TI) {
- if (CXXConstructorDecl *CD =
- dyn_cast<CXXConstructorDecl>(TI->getTemplatedDecl()))
- return CD;
- }
- return nullptr;
- }
- /// The kind of subobject we are checking for triviality. The values of this
- /// enumeration are used in diagnostics.
- enum TrivialSubobjectKind {
- /// The subobject is a base class.
- TSK_BaseClass,
- /// The subobject is a non-static data member.
- TSK_Field,
- /// The object is actually the complete object.
- TSK_CompleteObject
- };
- /// Check whether the special member selected for a given type would be trivial.
- static bool checkTrivialSubobjectCall(Sema &S, SourceLocation SubobjLoc,
- QualType SubType, bool ConstRHS,
- Sema::CXXSpecialMember CSM,
- TrivialSubobjectKind Kind,
- Sema::TrivialABIHandling TAH, bool Diagnose) {
- CXXRecordDecl *SubRD = SubType->getAsCXXRecordDecl();
- if (!SubRD)
- return true;
- CXXMethodDecl *Selected;
- if (findTrivialSpecialMember(S, SubRD, CSM, SubType.getCVRQualifiers(),
- ConstRHS, TAH, Diagnose ? &Selected : nullptr))
- return true;
- if (Diagnose) {
- if (ConstRHS)
- SubType.addConst();
- if (!Selected && CSM == Sema::CXXDefaultConstructor) {
- S.Diag(SubobjLoc, diag::note_nontrivial_no_def_ctor)
- << Kind << SubType.getUnqualifiedType();
- if (CXXConstructorDecl *CD = findUserDeclaredCtor(SubRD))
- S.Diag(CD->getLocation(), diag::note_user_declared_ctor);
- } else if (!Selected)
- S.Diag(SubobjLoc, diag::note_nontrivial_no_copy)
- << Kind << SubType.getUnqualifiedType() << CSM << SubType;
- else if (Selected->isUserProvided()) {
- if (Kind == TSK_CompleteObject)
- S.Diag(Selected->getLocation(), diag::note_nontrivial_user_provided)
- << Kind << SubType.getUnqualifiedType() << CSM;
- else {
- S.Diag(SubobjLoc, diag::note_nontrivial_user_provided)
- << Kind << SubType.getUnqualifiedType() << CSM;
- S.Diag(Selected->getLocation(), diag::note_declared_at);
- }
- } else {
- if (Kind != TSK_CompleteObject)
- S.Diag(SubobjLoc, diag::note_nontrivial_subobject)
- << Kind << SubType.getUnqualifiedType() << CSM;
- // Explain why the defaulted or deleted special member isn't trivial.
- S.SpecialMemberIsTrivial(Selected, CSM, Sema::TAH_IgnoreTrivialABI,
- Diagnose);
- }
- }
- return false;
- }
- /// Check whether the members of a class type allow a special member to be
- /// trivial.
- static bool checkTrivialClassMembers(Sema &S, CXXRecordDecl *RD,
- Sema::CXXSpecialMember CSM,
- bool ConstArg,
- Sema::TrivialABIHandling TAH,
- bool Diagnose) {
- for (const auto *FI : RD->fields()) {
- if (FI->isInvalidDecl() || FI->isUnnamedBitfield())
- continue;
- QualType FieldType = S.Context.getBaseElementType(FI->getType());
- // Pretend anonymous struct or union members are members of this class.
- if (FI->isAnonymousStructOrUnion()) {
- if (!checkTrivialClassMembers(S, FieldType->getAsCXXRecordDecl(),
- CSM, ConstArg, TAH, Diagnose))
- return false;
- continue;
- }
- // C++11 [class.ctor]p5:
- // A default constructor is trivial if [...]
- // -- no non-static data member of its class has a
- // brace-or-equal-initializer
- if (CSM == Sema::CXXDefaultConstructor && FI->hasInClassInitializer()) {
- if (Diagnose)
- S.Diag(FI->getLocation(), diag::note_nontrivial_default_member_init)
- << FI;
- return false;
- }
- // Objective C ARC 4.3.5:
- // [...] nontrivally ownership-qualified types are [...] not trivially
- // default constructible, copy constructible, move constructible, copy
- // assignable, move assignable, or destructible [...]
- if (FieldType.hasNonTrivialObjCLifetime()) {
- if (Diagnose)
- S.Diag(FI->getLocation(), diag::note_nontrivial_objc_ownership)
- << RD << FieldType.getObjCLifetime();
- return false;
- }
- bool ConstRHS = ConstArg && !FI->isMutable();
- if (!checkTrivialSubobjectCall(S, FI->getLocation(), FieldType, ConstRHS,
- CSM, TSK_Field, TAH, Diagnose))
- return false;
- }
- return true;
- }
- /// Diagnose why the specified class does not have a trivial special member of
- /// the given kind.
- void Sema::DiagnoseNontrivial(const CXXRecordDecl *RD, CXXSpecialMember CSM) {
- QualType Ty = Context.getRecordType(RD);
- bool ConstArg = (CSM == CXXCopyConstructor || CSM == CXXCopyAssignment);
- checkTrivialSubobjectCall(*this, RD->getLocation(), Ty, ConstArg, CSM,
- TSK_CompleteObject, TAH_IgnoreTrivialABI,
- /*Diagnose*/true);
- }
- /// Determine whether a defaulted or deleted special member function is trivial,
- /// as specified in C++11 [class.ctor]p5, C++11 [class.copy]p12,
- /// C++11 [class.copy]p25, and C++11 [class.dtor]p5.
- bool Sema::SpecialMemberIsTrivial(CXXMethodDecl *MD, CXXSpecialMember CSM,
- TrivialABIHandling TAH, bool Diagnose) {
- assert(!MD->isUserProvided() && CSM != CXXInvalid && "not special enough");
- CXXRecordDecl *RD = MD->getParent();
- bool ConstArg = false;
- // C++11 [class.copy]p12, p25: [DR1593]
- // A [special member] is trivial if [...] its parameter-type-list is
- // equivalent to the parameter-type-list of an implicit declaration [...]
- switch (CSM) {
- case CXXDefaultConstructor:
- case CXXDestructor:
- // Trivial default constructors and destructors cannot have parameters.
- break;
- case CXXCopyConstructor:
- case CXXCopyAssignment: {
- const ParmVarDecl *Param0 = MD->getParamDecl(0);
- const ReferenceType *RT = Param0->getType()->getAs<ReferenceType>();
- // When ClangABICompat14 is true, CXX copy constructors will only be trivial
- // if they are not user-provided and their parameter-type-list is equivalent
- // to the parameter-type-list of an implicit declaration. This maintains the
- // behavior before dr2171 was implemented.
- //
- // Otherwise, if ClangABICompat14 is false, All copy constructors can be
- // trivial, if they are not user-provided, regardless of the qualifiers on
- // the reference type.
- const bool ClangABICompat14 = Context.getLangOpts().getClangABICompat() <=
- LangOptions::ClangABI::Ver14;
- if (!RT ||
- ((RT->getPointeeType().getCVRQualifiers() != Qualifiers::Const) &&
- ClangABICompat14)) {
- if (Diagnose)
- Diag(Param0->getLocation(), diag::note_nontrivial_param_type)
- << Param0->getSourceRange() << Param0->getType()
- << Context.getLValueReferenceType(
- Context.getRecordType(RD).withConst());
- return false;
- }
- ConstArg = RT->getPointeeType().isConstQualified();
- break;
- }
- case CXXMoveConstructor:
- case CXXMoveAssignment: {
- // Trivial move operations always have non-cv-qualified parameters.
- const ParmVarDecl *Param0 = MD->getParamDecl(0);
- const RValueReferenceType *RT =
- Param0->getType()->getAs<RValueReferenceType>();
- if (!RT || RT->getPointeeType().getCVRQualifiers()) {
- if (Diagnose)
- Diag(Param0->getLocation(), diag::note_nontrivial_param_type)
- << Param0->getSourceRange() << Param0->getType()
- << Context.getRValueReferenceType(Context.getRecordType(RD));
- return false;
- }
- break;
- }
- case CXXInvalid:
- llvm_unreachable("not a special member");
- }
- if (MD->getMinRequiredArguments() < MD->getNumParams()) {
- if (Diagnose)
- Diag(MD->getParamDecl(MD->getMinRequiredArguments())->getLocation(),
- diag::note_nontrivial_default_arg)
- << MD->getParamDecl(MD->getMinRequiredArguments())->getSourceRange();
- return false;
- }
- if (MD->isVariadic()) {
- if (Diagnose)
- Diag(MD->getLocation(), diag::note_nontrivial_variadic);
- return false;
- }
- // C++11 [class.ctor]p5, C++11 [class.dtor]p5:
- // A copy/move [constructor or assignment operator] is trivial if
- // -- the [member] selected to copy/move each direct base class subobject
- // is trivial
- //
- // C++11 [class.copy]p12, C++11 [class.copy]p25:
- // A [default constructor or destructor] is trivial if
- // -- all the direct base classes have trivial [default constructors or
- // destructors]
- for (const auto &BI : RD->bases())
- if (!checkTrivialSubobjectCall(*this, BI.getBeginLoc(), BI.getType(),
- ConstArg, CSM, TSK_BaseClass, TAH, Diagnose))
- return false;
- // C++11 [class.ctor]p5, C++11 [class.dtor]p5:
- // A copy/move [constructor or assignment operator] for a class X is
- // trivial if
- // -- for each non-static data member of X that is of class type (or array
- // thereof), the constructor selected to copy/move that member is
- // trivial
- //
- // C++11 [class.copy]p12, C++11 [class.copy]p25:
- // A [default constructor or destructor] is trivial if
- // -- for all of the non-static data members of its class that are of class
- // type (or array thereof), each such class has a trivial [default
- // constructor or destructor]
- if (!checkTrivialClassMembers(*this, RD, CSM, ConstArg, TAH, Diagnose))
- return false;
- // C++11 [class.dtor]p5:
- // A destructor is trivial if [...]
- // -- the destructor is not virtual
- if (CSM == CXXDestructor && MD->isVirtual()) {
- if (Diagnose)
- Diag(MD->getLocation(), diag::note_nontrivial_virtual_dtor) << RD;
- return false;
- }
- // C++11 [class.ctor]p5, C++11 [class.copy]p12, C++11 [class.copy]p25:
- // A [special member] for class X is trivial if [...]
- // -- class X has no virtual functions and no virtual base classes
- if (CSM != CXXDestructor && MD->getParent()->isDynamicClass()) {
- if (!Diagnose)
- return false;
- if (RD->getNumVBases()) {
- // Check for virtual bases. We already know that the corresponding
- // member in all bases is trivial, so vbases must all be direct.
- CXXBaseSpecifier &BS = *RD->vbases_begin();
- assert(BS.isVirtual());
- Diag(BS.getBeginLoc(), diag::note_nontrivial_has_virtual) << RD << 1;
- return false;
- }
- // Must have a virtual method.
- for (const auto *MI : RD->methods()) {
- if (MI->isVirtual()) {
- SourceLocation MLoc = MI->getBeginLoc();
- Diag(MLoc, diag::note_nontrivial_has_virtual) << RD << 0;
- return false;
- }
- }
- llvm_unreachable("dynamic class with no vbases and no virtual functions");
- }
- // Looks like it's trivial!
- return true;
- }
- namespace {
- struct FindHiddenVirtualMethod {
- Sema *S;
- CXXMethodDecl *Method;
- llvm::SmallPtrSet<const CXXMethodDecl *, 8> OverridenAndUsingBaseMethods;
- SmallVector<CXXMethodDecl *, 8> OverloadedMethods;
- private:
- /// Check whether any most overridden method from MD in Methods
- static bool CheckMostOverridenMethods(
- const CXXMethodDecl *MD,
- const llvm::SmallPtrSetImpl<const CXXMethodDecl *> &Methods) {
- if (MD->size_overridden_methods() == 0)
- return Methods.count(MD->getCanonicalDecl());
- for (const CXXMethodDecl *O : MD->overridden_methods())
- if (CheckMostOverridenMethods(O, Methods))
- return true;
- return false;
- }
- public:
- /// Member lookup function that determines whether a given C++
- /// method overloads virtual methods in a base class without overriding any,
- /// to be used with CXXRecordDecl::lookupInBases().
- bool operator()(const CXXBaseSpecifier *Specifier, CXXBasePath &Path) {
- RecordDecl *BaseRecord =
- Specifier->getType()->castAs<RecordType>()->getDecl();
- DeclarationName Name = Method->getDeclName();
- assert(Name.getNameKind() == DeclarationName::Identifier);
- bool foundSameNameMethod = false;
- SmallVector<CXXMethodDecl *, 8> overloadedMethods;
- for (Path.Decls = BaseRecord->lookup(Name).begin();
- Path.Decls != DeclContext::lookup_iterator(); ++Path.Decls) {
- NamedDecl *D = *Path.Decls;
- if (CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(D)) {
- MD = MD->getCanonicalDecl();
- foundSameNameMethod = true;
- // Interested only in hidden virtual methods.
- if (!MD->isVirtual())
- continue;
- // If the method we are checking overrides a method from its base
- // don't warn about the other overloaded methods. Clang deviates from
- // GCC by only diagnosing overloads of inherited virtual functions that
- // do not override any other virtual functions in the base. GCC's
- // -Woverloaded-virtual diagnoses any derived function hiding a virtual
- // function from a base class. These cases may be better served by a
- // warning (not specific to virtual functions) on call sites when the
- // call would select a different function from the base class, were it
- // visible.
- // See FIXME in test/SemaCXX/warn-overload-virtual.cpp for an example.
- if (!S->IsOverload(Method, MD, false))
- return true;
- // Collect the overload only if its hidden.
- if (!CheckMostOverridenMethods(MD, OverridenAndUsingBaseMethods))
- overloadedMethods.push_back(MD);
- }
- }
- if (foundSameNameMethod)
- OverloadedMethods.append(overloadedMethods.begin(),
- overloadedMethods.end());
- return foundSameNameMethod;
- }
- };
- } // end anonymous namespace
- /// Add the most overridden methods from MD to Methods
- static void AddMostOverridenMethods(const CXXMethodDecl *MD,
- llvm::SmallPtrSetImpl<const CXXMethodDecl *>& Methods) {
- if (MD->size_overridden_methods() == 0)
- Methods.insert(MD->getCanonicalDecl());
- else
- for (const CXXMethodDecl *O : MD->overridden_methods())
- AddMostOverridenMethods(O, Methods);
- }
- /// Check if a method overloads virtual methods in a base class without
- /// overriding any.
- void Sema::FindHiddenVirtualMethods(CXXMethodDecl *MD,
- SmallVectorImpl<CXXMethodDecl*> &OverloadedMethods) {
- if (!MD->getDeclName().isIdentifier())
- return;
- CXXBasePaths Paths(/*FindAmbiguities=*/true, // true to look in all bases.
- /*bool RecordPaths=*/false,
- /*bool DetectVirtual=*/false);
- FindHiddenVirtualMethod FHVM;
- FHVM.Method = MD;
- FHVM.S = this;
- // Keep the base methods that were overridden or introduced in the subclass
- // by 'using' in a set. A base method not in this set is hidden.
- CXXRecordDecl *DC = MD->getParent();
- DeclContext::lookup_result R = DC->lookup(MD->getDeclName());
- for (DeclContext::lookup_iterator I = R.begin(), E = R.end(); I != E; ++I) {
- NamedDecl *ND = *I;
- if (UsingShadowDecl *shad = dyn_cast<UsingShadowDecl>(*I))
- ND = shad->getTargetDecl();
- if (CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(ND))
- AddMostOverridenMethods(MD, FHVM.OverridenAndUsingBaseMethods);
- }
- if (DC->lookupInBases(FHVM, Paths))
- OverloadedMethods = FHVM.OverloadedMethods;
- }
- void Sema::NoteHiddenVirtualMethods(CXXMethodDecl *MD,
- SmallVectorImpl<CXXMethodDecl*> &OverloadedMethods) {
- for (unsigned i = 0, e = OverloadedMethods.size(); i != e; ++i) {
- CXXMethodDecl *overloadedMD = OverloadedMethods[i];
- PartialDiagnostic PD = PDiag(
- diag::note_hidden_overloaded_virtual_declared_here) << overloadedMD;
- HandleFunctionTypeMismatch(PD, MD->getType(), overloadedMD->getType());
- Diag(overloadedMD->getLocation(), PD);
- }
- }
- /// Diagnose methods which overload virtual methods in a base class
- /// without overriding any.
- void Sema::DiagnoseHiddenVirtualMethods(CXXMethodDecl *MD) {
- if (MD->isInvalidDecl())
- return;
- if (Diags.isIgnored(diag::warn_overloaded_virtual, MD->getLocation()))
- return;
- SmallVector<CXXMethodDecl *, 8> OverloadedMethods;
- FindHiddenVirtualMethods(MD, OverloadedMethods);
- if (!OverloadedMethods.empty()) {
- Diag(MD->getLocation(), diag::warn_overloaded_virtual)
- << MD << (OverloadedMethods.size() > 1);
- NoteHiddenVirtualMethods(MD, OverloadedMethods);
- }
- }
- void Sema::checkIllFormedTrivialABIStruct(CXXRecordDecl &RD) {
- auto PrintDiagAndRemoveAttr = [&](unsigned N) {
- // No diagnostics if this is a template instantiation.
- if (!isTemplateInstantiation(RD.getTemplateSpecializationKind())) {
- Diag(RD.getAttr<TrivialABIAttr>()->getLocation(),
- diag::ext_cannot_use_trivial_abi) << &RD;
- Diag(RD.getAttr<TrivialABIAttr>()->getLocation(),
- diag::note_cannot_use_trivial_abi_reason) << &RD << N;
- }
- RD.dropAttr<TrivialABIAttr>();
- };
- // Ill-formed if the copy and move constructors are deleted.
- auto HasNonDeletedCopyOrMoveConstructor = [&]() {
- // If the type is dependent, then assume it might have
- // implicit copy or move ctor because we won't know yet at this point.
- if (RD.isDependentType())
- return true;
- if (RD.needsImplicitCopyConstructor() &&
- !RD.defaultedCopyConstructorIsDeleted())
- return true;
- if (RD.needsImplicitMoveConstructor() &&
- !RD.defaultedMoveConstructorIsDeleted())
- return true;
- for (const CXXConstructorDecl *CD : RD.ctors())
- if (CD->isCopyOrMoveConstructor() && !CD->isDeleted())
- return true;
- return false;
- };
- if (!HasNonDeletedCopyOrMoveConstructor()) {
- PrintDiagAndRemoveAttr(0);
- return;
- }
- // Ill-formed if the struct has virtual functions.
- if (RD.isPolymorphic()) {
- PrintDiagAndRemoveAttr(1);
- return;
- }
- for (const auto &B : RD.bases()) {
- // Ill-formed if the base class is non-trivial for the purpose of calls or a
- // virtual base.
- if (!B.getType()->isDependentType() &&
- !B.getType()->getAsCXXRecordDecl()->canPassInRegisters()) {
- PrintDiagAndRemoveAttr(2);
- return;
- }
- if (B.isVirtual()) {
- PrintDiagAndRemoveAttr(3);
- return;
- }
- }
- for (const auto *FD : RD.fields()) {
- // Ill-formed if the field is an ObjectiveC pointer or of a type that is
- // non-trivial for the purpose of calls.
- QualType FT = FD->getType();
- if (FT.getObjCLifetime() == Qualifiers::OCL_Weak) {
- PrintDiagAndRemoveAttr(4);
- return;
- }
- if (const auto *RT = FT->getBaseElementTypeUnsafe()->getAs<RecordType>())
- if (!RT->isDependentType() &&
- !cast<CXXRecordDecl>(RT->getDecl())->canPassInRegisters()) {
- PrintDiagAndRemoveAttr(5);
- return;
- }
- }
- }
- void Sema::ActOnFinishCXXMemberSpecification(
- Scope *S, SourceLocation RLoc, Decl *TagDecl, SourceLocation LBrac,
- SourceLocation RBrac, const ParsedAttributesView &AttrList) {
- if (!TagDecl)
- return;
- AdjustDeclIfTemplate(TagDecl);
- for (const ParsedAttr &AL : AttrList) {
- if (AL.getKind() != ParsedAttr::AT_Visibility)
- continue;
- AL.setInvalid();
- Diag(AL.getLoc(), diag::warn_attribute_after_definition_ignored) << AL;
- }
- ActOnFields(S, RLoc, TagDecl,
- llvm::ArrayRef(
- // strict aliasing violation!
- reinterpret_cast<Decl **>(FieldCollector->getCurFields()),
- FieldCollector->getCurNumFields()),
- LBrac, RBrac, AttrList);
- CheckCompletedCXXClass(S, cast<CXXRecordDecl>(TagDecl));
- }
- /// Find the equality comparison functions that should be implicitly declared
- /// in a given class definition, per C++2a [class.compare.default]p3.
- static void findImplicitlyDeclaredEqualityComparisons(
- ASTContext &Ctx, CXXRecordDecl *RD,
- llvm::SmallVectorImpl<FunctionDecl *> &Spaceships) {
- DeclarationName EqEq = Ctx.DeclarationNames.getCXXOperatorName(OO_EqualEqual);
- if (!RD->lookup(EqEq).empty())
- // Member operator== explicitly declared: no implicit operator==s.
- return;
- // Traverse friends looking for an '==' or a '<=>'.
- for (FriendDecl *Friend : RD->friends()) {
- FunctionDecl *FD = dyn_cast_or_null<FunctionDecl>(Friend->getFriendDecl());
- if (!FD) continue;
- if (FD->getOverloadedOperator() == OO_EqualEqual) {
- // Friend operator== explicitly declared: no implicit operator==s.
- Spaceships.clear();
- return;
- }
- if (FD->getOverloadedOperator() == OO_Spaceship &&
- FD->isExplicitlyDefaulted())
- Spaceships.push_back(FD);
- }
- // Look for members named 'operator<=>'.
- DeclarationName Cmp = Ctx.DeclarationNames.getCXXOperatorName(OO_Spaceship);
- for (NamedDecl *ND : RD->lookup(Cmp)) {
- // Note that we could find a non-function here (either a function template
- // or a using-declaration). Neither case results in an implicit
- // 'operator=='.
- if (auto *FD = dyn_cast<FunctionDecl>(ND))
- if (FD->isExplicitlyDefaulted())
- Spaceships.push_back(FD);
- }
- }
- /// AddImplicitlyDeclaredMembersToClass - Adds any implicitly-declared
- /// special functions, such as the default constructor, copy
- /// constructor, or destructor, to the given C++ class (C++
- /// [special]p1). This routine can only be executed just before the
- /// definition of the class is complete.
- void Sema::AddImplicitlyDeclaredMembersToClass(CXXRecordDecl *ClassDecl) {
- // Don't add implicit special members to templated classes.
- // FIXME: This means unqualified lookups for 'operator=' within a class
- // template don't work properly.
- if (!ClassDecl->isDependentType()) {
- if (ClassDecl->needsImplicitDefaultConstructor()) {
- ++getASTContext().NumImplicitDefaultConstructors;
- if (ClassDecl->hasInheritedConstructor())
- DeclareImplicitDefaultConstructor(ClassDecl);
- }
- if (ClassDecl->needsImplicitCopyConstructor()) {
- ++getASTContext().NumImplicitCopyConstructors;
- // If the properties or semantics of the copy constructor couldn't be
- // determined while the class was being declared, force a declaration
- // of it now.
- if (ClassDecl->needsOverloadResolutionForCopyConstructor() ||
- ClassDecl->hasInheritedConstructor())
- DeclareImplicitCopyConstructor(ClassDecl);
- // For the MS ABI we need to know whether the copy ctor is deleted. A
- // prerequisite for deleting the implicit copy ctor is that the class has
- // a move ctor or move assignment that is either user-declared or whose
- // semantics are inherited from a subobject. FIXME: We should provide a
- // more direct way for CodeGen to ask whether the constructor was deleted.
- else if (Context.getTargetInfo().getCXXABI().isMicrosoft() &&
- (ClassDecl->hasUserDeclaredMoveConstructor() ||
- ClassDecl->needsOverloadResolutionForMoveConstructor() ||
- ClassDecl->hasUserDeclaredMoveAssignment() ||
- ClassDecl->needsOverloadResolutionForMoveAssignment()))
- DeclareImplicitCopyConstructor(ClassDecl);
- }
- if (getLangOpts().CPlusPlus11 &&
- ClassDecl->needsImplicitMoveConstructor()) {
- ++getASTContext().NumImplicitMoveConstructors;
- if (ClassDecl->needsOverloadResolutionForMoveConstructor() ||
- ClassDecl->hasInheritedConstructor())
- DeclareImplicitMoveConstructor(ClassDecl);
- }
- if (ClassDecl->needsImplicitCopyAssignment()) {
- ++getASTContext().NumImplicitCopyAssignmentOperators;
- // If we have a dynamic class, then the copy assignment operator may be
- // virtual, so we have to declare it immediately. This ensures that, e.g.,
- // it shows up in the right place in the vtable and that we diagnose
- // problems with the implicit exception specification.
- if (ClassDecl->isDynamicClass() ||
- ClassDecl->needsOverloadResolutionForCopyAssignment() ||
- ClassDecl->hasInheritedAssignment())
- DeclareImplicitCopyAssignment(ClassDecl);
- }
- if (getLangOpts().CPlusPlus11 && ClassDecl->needsImplicitMoveAssignment()) {
- ++getASTContext().NumImplicitMoveAssignmentOperators;
- // Likewise for the move assignment operator.
- if (ClassDecl->isDynamicClass() ||
- ClassDecl->needsOverloadResolutionForMoveAssignment() ||
- ClassDecl->hasInheritedAssignment())
- DeclareImplicitMoveAssignment(ClassDecl);
- }
- if (ClassDecl->needsImplicitDestructor()) {
- ++getASTContext().NumImplicitDestructors;
- // If we have a dynamic class, then the destructor may be virtual, so we
- // have to declare the destructor immediately. This ensures that, e.g., it
- // shows up in the right place in the vtable and that we diagnose problems
- // with the implicit exception specification.
- if (ClassDecl->isDynamicClass() ||
- ClassDecl->needsOverloadResolutionForDestructor())
- DeclareImplicitDestructor(ClassDecl);
- }
- }
- // C++2a [class.compare.default]p3:
- // If the member-specification does not explicitly declare any member or
- // friend named operator==, an == operator function is declared implicitly
- // for each defaulted three-way comparison operator function defined in
- // the member-specification
- // FIXME: Consider doing this lazily.
- // We do this during the initial parse for a class template, not during
- // instantiation, so that we can handle unqualified lookups for 'operator=='
- // when parsing the template.
- if (getLangOpts().CPlusPlus20 && !inTemplateInstantiation()) {
- llvm::SmallVector<FunctionDecl *, 4> DefaultedSpaceships;
- findImplicitlyDeclaredEqualityComparisons(Context, ClassDecl,
- DefaultedSpaceships);
- for (auto *FD : DefaultedSpaceships)
- DeclareImplicitEqualityComparison(ClassDecl, FD);
- }
- }
- unsigned
- Sema::ActOnReenterTemplateScope(Decl *D,
- llvm::function_ref<Scope *()> EnterScope) {
- if (!D)
- return 0;
- AdjustDeclIfTemplate(D);
- // In order to get name lookup right, reenter template scopes in order from
- // outermost to innermost.
- SmallVector<TemplateParameterList *, 4> ParameterLists;
- DeclContext *LookupDC = dyn_cast<DeclContext>(D);
- if (DeclaratorDecl *DD = dyn_cast<DeclaratorDecl>(D)) {
- for (unsigned i = 0; i < DD->getNumTemplateParameterLists(); ++i)
- ParameterLists.push_back(DD->getTemplateParameterList(i));
- if (FunctionDecl *FD = dyn_cast<FunctionDecl>(D)) {
- if (FunctionTemplateDecl *FTD = FD->getDescribedFunctionTemplate())
- ParameterLists.push_back(FTD->getTemplateParameters());
- } else if (VarDecl *VD = dyn_cast<VarDecl>(D)) {
- LookupDC = VD->getDeclContext();
- if (VarTemplateDecl *VTD = VD->getDescribedVarTemplate())
- ParameterLists.push_back(VTD->getTemplateParameters());
- else if (auto *PSD = dyn_cast<VarTemplatePartialSpecializationDecl>(D))
- ParameterLists.push_back(PSD->getTemplateParameters());
- }
- } else if (TagDecl *TD = dyn_cast<TagDecl>(D)) {
- for (unsigned i = 0; i < TD->getNumTemplateParameterLists(); ++i)
- ParameterLists.push_back(TD->getTemplateParameterList(i));
- if (CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(TD)) {
- if (ClassTemplateDecl *CTD = RD->getDescribedClassTemplate())
- ParameterLists.push_back(CTD->getTemplateParameters());
- else if (auto *PSD = dyn_cast<ClassTemplatePartialSpecializationDecl>(D))
- ParameterLists.push_back(PSD->getTemplateParameters());
- }
- }
- // FIXME: Alias declarations and concepts.
- unsigned Count = 0;
- Scope *InnermostTemplateScope = nullptr;
- for (TemplateParameterList *Params : ParameterLists) {
- // Ignore explicit specializations; they don't contribute to the template
- // depth.
- if (Params->size() == 0)
- continue;
- InnermostTemplateScope = EnterScope();
- for (NamedDecl *Param : *Params) {
- if (Param->getDeclName()) {
- InnermostTemplateScope->AddDecl(Param);
- IdResolver.AddDecl(Param);
- }
- }
- ++Count;
- }
- // Associate the new template scopes with the corresponding entities.
- if (InnermostTemplateScope) {
- assert(LookupDC && "no enclosing DeclContext for template lookup");
- EnterTemplatedContext(InnermostTemplateScope, LookupDC);
- }
- return Count;
- }
- void Sema::ActOnStartDelayedMemberDeclarations(Scope *S, Decl *RecordD) {
- if (!RecordD) return;
- AdjustDeclIfTemplate(RecordD);
- CXXRecordDecl *Record = cast<CXXRecordDecl>(RecordD);
- PushDeclContext(S, Record);
- }
- void Sema::ActOnFinishDelayedMemberDeclarations(Scope *S, Decl *RecordD) {
- if (!RecordD) return;
- PopDeclContext();
- }
- /// This is used to implement the constant expression evaluation part of the
- /// attribute enable_if extension. There is nothing in standard C++ which would
- /// require reentering parameters.
- void Sema::ActOnReenterCXXMethodParameter(Scope *S, ParmVarDecl *Param) {
- if (!Param)
- return;
- S->AddDecl(Param);
- if (Param->getDeclName())
- IdResolver.AddDecl(Param);
- }
- /// ActOnStartDelayedCXXMethodDeclaration - We have completed
- /// parsing a top-level (non-nested) C++ class, and we are now
- /// parsing those parts of the given Method declaration that could
- /// not be parsed earlier (C++ [class.mem]p2), such as default
- /// arguments. This action should enter the scope of the given
- /// Method declaration as if we had just parsed the qualified method
- /// name. However, it should not bring the parameters into scope;
- /// that will be performed by ActOnDelayedCXXMethodParameter.
- void Sema::ActOnStartDelayedCXXMethodDeclaration(Scope *S, Decl *MethodD) {
- }
- /// ActOnDelayedCXXMethodParameter - We've already started a delayed
- /// C++ method declaration. We're (re-)introducing the given
- /// function parameter into scope for use in parsing later parts of
- /// the method declaration. For example, we could see an
- /// ActOnParamDefaultArgument event for this parameter.
- void Sema::ActOnDelayedCXXMethodParameter(Scope *S, Decl *ParamD) {
- if (!ParamD)
- return;
- ParmVarDecl *Param = cast<ParmVarDecl>(ParamD);
- S->AddDecl(Param);
- if (Param->getDeclName())
- IdResolver.AddDecl(Param);
- }
- /// ActOnFinishDelayedCXXMethodDeclaration - We have finished
- /// processing the delayed method declaration for Method. The method
- /// declaration is now considered finished. There may be a separate
- /// ActOnStartOfFunctionDef action later (not necessarily
- /// immediately!) for this method, if it was also defined inside the
- /// class body.
- void Sema::ActOnFinishDelayedCXXMethodDeclaration(Scope *S, Decl *MethodD) {
- if (!MethodD)
- return;
- AdjustDeclIfTemplate(MethodD);
- FunctionDecl *Method = cast<FunctionDecl>(MethodD);
- // Now that we have our default arguments, check the constructor
- // again. It could produce additional diagnostics or affect whether
- // the class has implicitly-declared destructors, among other
- // things.
- if (CXXConstructorDecl *Constructor = dyn_cast<CXXConstructorDecl>(Method))
- CheckConstructor(Constructor);
- // Check the default arguments, which we may have added.
- if (!Method->isInvalidDecl())
- CheckCXXDefaultArguments(Method);
- }
- // Emit the given diagnostic for each non-address-space qualifier.
- // Common part of CheckConstructorDeclarator and CheckDestructorDeclarator.
- static void checkMethodTypeQualifiers(Sema &S, Declarator &D, unsigned DiagID) {
- const DeclaratorChunk::FunctionTypeInfo &FTI = D.getFunctionTypeInfo();
- if (FTI.hasMethodTypeQualifiers() && !D.isInvalidType()) {
- bool DiagOccured = false;
- FTI.MethodQualifiers->forEachQualifier(
- [DiagID, &S, &DiagOccured](DeclSpec::TQ, StringRef QualName,
- SourceLocation SL) {
- // This diagnostic should be emitted on any qualifier except an addr
- // space qualifier. However, forEachQualifier currently doesn't visit
- // addr space qualifiers, so there's no way to write this condition
- // right now; we just diagnose on everything.
- S.Diag(SL, DiagID) << QualName << SourceRange(SL);
- DiagOccured = true;
- });
- if (DiagOccured)
- D.setInvalidType();
- }
- }
- /// CheckConstructorDeclarator - Called by ActOnDeclarator to check
- /// the well-formedness of the constructor declarator @p D with type @p
- /// R. If there are any errors in the declarator, this routine will
- /// emit diagnostics and set the invalid bit to true. In any case, the type
- /// will be updated to reflect a well-formed type for the constructor and
- /// returned.
- QualType Sema::CheckConstructorDeclarator(Declarator &D, QualType R,
- StorageClass &SC) {
- bool isVirtual = D.getDeclSpec().isVirtualSpecified();
- // C++ [class.ctor]p3:
- // A constructor shall not be virtual (10.3) or static (9.4). A
- // constructor can be invoked for a const, volatile or const
- // volatile object. A constructor shall not be declared const,
- // volatile, or const volatile (9.3.2).
- if (isVirtual) {
- if (!D.isInvalidType())
- Diag(D.getIdentifierLoc(), diag::err_constructor_cannot_be)
- << "virtual" << SourceRange(D.getDeclSpec().getVirtualSpecLoc())
- << SourceRange(D.getIdentifierLoc());
- D.setInvalidType();
- }
- if (SC == SC_Static) {
- if (!D.isInvalidType())
- Diag(D.getIdentifierLoc(), diag::err_constructor_cannot_be)
- << "static" << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
- << SourceRange(D.getIdentifierLoc());
- D.setInvalidType();
- SC = SC_None;
- }
- if (unsigned TypeQuals = D.getDeclSpec().getTypeQualifiers()) {
- diagnoseIgnoredQualifiers(
- diag::err_constructor_return_type, TypeQuals, SourceLocation(),
- D.getDeclSpec().getConstSpecLoc(), D.getDeclSpec().getVolatileSpecLoc(),
- D.getDeclSpec().getRestrictSpecLoc(),
- D.getDeclSpec().getAtomicSpecLoc());
- D.setInvalidType();
- }
- checkMethodTypeQualifiers(*this, D, diag::err_invalid_qualified_constructor);
- // C++0x [class.ctor]p4:
- // A constructor shall not be declared with a ref-qualifier.
- DeclaratorChunk::FunctionTypeInfo &FTI = D.getFunctionTypeInfo();
- if (FTI.hasRefQualifier()) {
- Diag(FTI.getRefQualifierLoc(), diag::err_ref_qualifier_constructor)
- << FTI.RefQualifierIsLValueRef
- << FixItHint::CreateRemoval(FTI.getRefQualifierLoc());
- D.setInvalidType();
- }
- // Rebuild the function type "R" without any type qualifiers (in
- // case any of the errors above fired) and with "void" as the
- // return type, since constructors don't have return types.
- const FunctionProtoType *Proto = R->castAs<FunctionProtoType>();
- if (Proto->getReturnType() == Context.VoidTy && !D.isInvalidType())
- return R;
- FunctionProtoType::ExtProtoInfo EPI = Proto->getExtProtoInfo();
- EPI.TypeQuals = Qualifiers();
- EPI.RefQualifier = RQ_None;
- return Context.getFunctionType(Context.VoidTy, Proto->getParamTypes(), EPI);
- }
- /// CheckConstructor - Checks a fully-formed constructor for
- /// well-formedness, issuing any diagnostics required. Returns true if
- /// the constructor declarator is invalid.
- void Sema::CheckConstructor(CXXConstructorDecl *Constructor) {
- CXXRecordDecl *ClassDecl
- = dyn_cast<CXXRecordDecl>(Constructor->getDeclContext());
- if (!ClassDecl)
- return Constructor->setInvalidDecl();
- // C++ [class.copy]p3:
- // A declaration of a constructor for a class X is ill-formed if
- // its first parameter is of type (optionally cv-qualified) X and
- // either there are no other parameters or else all other
- // parameters have default arguments.
- if (!Constructor->isInvalidDecl() &&
- Constructor->hasOneParamOrDefaultArgs() &&
- Constructor->getTemplateSpecializationKind() !=
- TSK_ImplicitInstantiation) {
- QualType ParamType = Constructor->getParamDecl(0)->getType();
- QualType ClassTy = Context.getTagDeclType(ClassDecl);
- if (Context.getCanonicalType(ParamType).getUnqualifiedType() == ClassTy) {
- SourceLocation ParamLoc = Constructor->getParamDecl(0)->getLocation();
- const char *ConstRef
- = Constructor->getParamDecl(0)->getIdentifier() ? "const &"
- : " const &";
- Diag(ParamLoc, diag::err_constructor_byvalue_arg)
- << FixItHint::CreateInsertion(ParamLoc, ConstRef);
- // FIXME: Rather that making the constructor invalid, we should endeavor
- // to fix the type.
- Constructor->setInvalidDecl();
- }
- }
- }
- /// CheckDestructor - Checks a fully-formed destructor definition for
- /// well-formedness, issuing any diagnostics required. Returns true
- /// on error.
- bool Sema::CheckDestructor(CXXDestructorDecl *Destructor) {
- CXXRecordDecl *RD = Destructor->getParent();
- if (!Destructor->getOperatorDelete() && Destructor->isVirtual()) {
- SourceLocation Loc;
- if (!Destructor->isImplicit())
- Loc = Destructor->getLocation();
- else
- Loc = RD->getLocation();
- // If we have a virtual destructor, look up the deallocation function
- if (FunctionDecl *OperatorDelete =
- FindDeallocationFunctionForDestructor(Loc, RD)) {
- Expr *ThisArg = nullptr;
- // If the notional 'delete this' expression requires a non-trivial
- // conversion from 'this' to the type of a destroying operator delete's
- // first parameter, perform that conversion now.
- if (OperatorDelete->isDestroyingOperatorDelete()) {
- QualType ParamType = OperatorDelete->getParamDecl(0)->getType();
- if (!declaresSameEntity(ParamType->getAsCXXRecordDecl(), RD)) {
- // C++ [class.dtor]p13:
- // ... as if for the expression 'delete this' appearing in a
- // non-virtual destructor of the destructor's class.
- ContextRAII SwitchContext(*this, Destructor);
- ExprResult This =
- ActOnCXXThis(OperatorDelete->getParamDecl(0)->getLocation());
- assert(!This.isInvalid() && "couldn't form 'this' expr in dtor?");
- This = PerformImplicitConversion(This.get(), ParamType, AA_Passing);
- if (This.isInvalid()) {
- // FIXME: Register this as a context note so that it comes out
- // in the right order.
- Diag(Loc, diag::note_implicit_delete_this_in_destructor_here);
- return true;
- }
- ThisArg = This.get();
- }
- }
- DiagnoseUseOfDecl(OperatorDelete, Loc);
- MarkFunctionReferenced(Loc, OperatorDelete);
- Destructor->setOperatorDelete(OperatorDelete, ThisArg);
- }
- }
- return false;
- }
- /// CheckDestructorDeclarator - Called by ActOnDeclarator to check
- /// the well-formednes of the destructor declarator @p D with type @p
- /// R. If there are any errors in the declarator, this routine will
- /// emit diagnostics and set the declarator to invalid. Even if this happens,
- /// will be updated to reflect a well-formed type for the destructor and
- /// returned.
- QualType Sema::CheckDestructorDeclarator(Declarator &D, QualType R,
- StorageClass& SC) {
- // C++ [class.dtor]p1:
- // [...] A typedef-name that names a class is a class-name
- // (7.1.3); however, a typedef-name that names a class shall not
- // be used as the identifier in the declarator for a destructor
- // declaration.
- QualType DeclaratorType = GetTypeFromParser(D.getName().DestructorName);
- if (const TypedefType *TT = DeclaratorType->getAs<TypedefType>())
- Diag(D.getIdentifierLoc(), diag::ext_destructor_typedef_name)
- << DeclaratorType << isa<TypeAliasDecl>(TT->getDecl());
- else if (const TemplateSpecializationType *TST =
- DeclaratorType->getAs<TemplateSpecializationType>())
- if (TST->isTypeAlias())
- Diag(D.getIdentifierLoc(), diag::ext_destructor_typedef_name)
- << DeclaratorType << 1;
- // C++ [class.dtor]p2:
- // A destructor is used to destroy objects of its class type. A
- // destructor takes no parameters, and no return type can be
- // specified for it (not even void). The address of a destructor
- // shall not be taken. A destructor shall not be static. A
- // destructor can be invoked for a const, volatile or const
- // volatile object. A destructor shall not be declared const,
- // volatile or const volatile (9.3.2).
- if (SC == SC_Static) {
- if (!D.isInvalidType())
- Diag(D.getIdentifierLoc(), diag::err_destructor_cannot_be)
- << "static" << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
- << SourceRange(D.getIdentifierLoc())
- << FixItHint::CreateRemoval(D.getDeclSpec().getStorageClassSpecLoc());
- SC = SC_None;
- }
- if (!D.isInvalidType()) {
- // Destructors don't have return types, but the parser will
- // happily parse something like:
- //
- // class X {
- // float ~X();
- // };
- //
- // The return type will be eliminated later.
- if (D.getDeclSpec().hasTypeSpecifier())
- Diag(D.getIdentifierLoc(), diag::err_destructor_return_type)
- << SourceRange(D.getDeclSpec().getTypeSpecTypeLoc())
- << SourceRange(D.getIdentifierLoc());
- else if (unsigned TypeQuals = D.getDeclSpec().getTypeQualifiers()) {
- diagnoseIgnoredQualifiers(diag::err_destructor_return_type, TypeQuals,
- SourceLocation(),
- D.getDeclSpec().getConstSpecLoc(),
- D.getDeclSpec().getVolatileSpecLoc(),
- D.getDeclSpec().getRestrictSpecLoc(),
- D.getDeclSpec().getAtomicSpecLoc());
- D.setInvalidType();
- }
- }
- checkMethodTypeQualifiers(*this, D, diag::err_invalid_qualified_destructor);
- // C++0x [class.dtor]p2:
- // A destructor shall not be declared with a ref-qualifier.
- DeclaratorChunk::FunctionTypeInfo &FTI = D.getFunctionTypeInfo();
- if (FTI.hasRefQualifier()) {
- Diag(FTI.getRefQualifierLoc(), diag::err_ref_qualifier_destructor)
- << FTI.RefQualifierIsLValueRef
- << FixItHint::CreateRemoval(FTI.getRefQualifierLoc());
- D.setInvalidType();
- }
- // Make sure we don't have any parameters.
- if (FTIHasNonVoidParameters(FTI)) {
- Diag(D.getIdentifierLoc(), diag::err_destructor_with_params);
- // Delete the parameters.
- FTI.freeParams();
- D.setInvalidType();
- }
- // Make sure the destructor isn't variadic.
- if (FTI.isVariadic) {
- Diag(D.getIdentifierLoc(), diag::err_destructor_variadic);
- D.setInvalidType();
- }
- // Rebuild the function type "R" without any type qualifiers or
- // parameters (in case any of the errors above fired) and with
- // "void" as the return type, since destructors don't have return
- // types.
- if (!D.isInvalidType())
- return R;
- const FunctionProtoType *Proto = R->castAs<FunctionProtoType>();
- FunctionProtoType::ExtProtoInfo EPI = Proto->getExtProtoInfo();
- EPI.Variadic = false;
- EPI.TypeQuals = Qualifiers();
- EPI.RefQualifier = RQ_None;
- return Context.getFunctionType(Context.VoidTy, std::nullopt, EPI);
- }
- static void extendLeft(SourceRange &R, SourceRange Before) {
- if (Before.isInvalid())
- return;
- R.setBegin(Before.getBegin());
- if (R.getEnd().isInvalid())
- R.setEnd(Before.getEnd());
- }
- static void extendRight(SourceRange &R, SourceRange After) {
- if (After.isInvalid())
- return;
- if (R.getBegin().isInvalid())
- R.setBegin(After.getBegin());
- R.setEnd(After.getEnd());
- }
- /// CheckConversionDeclarator - Called by ActOnDeclarator to check the
- /// well-formednes of the conversion function declarator @p D with
- /// type @p R. If there are any errors in the declarator, this routine
- /// will emit diagnostics and return true. Otherwise, it will return
- /// false. Either way, the type @p R will be updated to reflect a
- /// well-formed type for the conversion operator.
- void Sema::CheckConversionDeclarator(Declarator &D, QualType &R,
- StorageClass& SC) {
- // C++ [class.conv.fct]p1:
- // Neither parameter types nor return type can be specified. The
- // type of a conversion function (8.3.5) is "function taking no
- // parameter returning conversion-type-id."
- if (SC == SC_Static) {
- if (!D.isInvalidType())
- Diag(D.getIdentifierLoc(), diag::err_conv_function_not_member)
- << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
- << D.getName().getSourceRange();
- D.setInvalidType();
- SC = SC_None;
- }
- TypeSourceInfo *ConvTSI = nullptr;
- QualType ConvType =
- GetTypeFromParser(D.getName().ConversionFunctionId, &ConvTSI);
- const DeclSpec &DS = D.getDeclSpec();
- if (DS.hasTypeSpecifier() && !D.isInvalidType()) {
- // Conversion functions don't have return types, but the parser will
- // happily parse something like:
- //
- // class X {
- // float operator bool();
- // };
- //
- // The return type will be changed later anyway.
- Diag(D.getIdentifierLoc(), diag::err_conv_function_return_type)
- << SourceRange(DS.getTypeSpecTypeLoc())
- << SourceRange(D.getIdentifierLoc());
- D.setInvalidType();
- } else if (DS.getTypeQualifiers() && !D.isInvalidType()) {
- // It's also plausible that the user writes type qualifiers in the wrong
- // place, such as:
- // struct S { const operator int(); };
- // FIXME: we could provide a fixit to move the qualifiers onto the
- // conversion type.
- Diag(D.getIdentifierLoc(), diag::err_conv_function_with_complex_decl)
- << SourceRange(D.getIdentifierLoc()) << 0;
- D.setInvalidType();
- }
- const auto *Proto = R->castAs<FunctionProtoType>();
- // Make sure we don't have any parameters.
- if (Proto->getNumParams() > 0) {
- Diag(D.getIdentifierLoc(), diag::err_conv_function_with_params);
- // Delete the parameters.
- D.getFunctionTypeInfo().freeParams();
- D.setInvalidType();
- } else if (Proto->isVariadic()) {
- Diag(D.getIdentifierLoc(), diag::err_conv_function_variadic);
- D.setInvalidType();
- }
- // Diagnose "&operator bool()" and other such nonsense. This
- // is actually a gcc extension which we don't support.
- if (Proto->getReturnType() != ConvType) {
- bool NeedsTypedef = false;
- SourceRange Before, After;
- // Walk the chunks and extract information on them for our diagnostic.
- bool PastFunctionChunk = false;
- for (auto &Chunk : D.type_objects()) {
- switch (Chunk.Kind) {
- case DeclaratorChunk::Function:
- if (!PastFunctionChunk) {
- if (Chunk.Fun.HasTrailingReturnType) {
- TypeSourceInfo *TRT = nullptr;
- GetTypeFromParser(Chunk.Fun.getTrailingReturnType(), &TRT);
- if (TRT) extendRight(After, TRT->getTypeLoc().getSourceRange());
- }
- PastFunctionChunk = true;
- break;
- }
- [[fallthrough]];
- case DeclaratorChunk::Array:
- NeedsTypedef = true;
- extendRight(After, Chunk.getSourceRange());
- break;
- case DeclaratorChunk::Pointer:
- case DeclaratorChunk::BlockPointer:
- case DeclaratorChunk::Reference:
- case DeclaratorChunk::MemberPointer:
- case DeclaratorChunk::Pipe:
- extendLeft(Before, Chunk.getSourceRange());
- break;
- case DeclaratorChunk::Paren:
- extendLeft(Before, Chunk.Loc);
- extendRight(After, Chunk.EndLoc);
- break;
- }
- }
- SourceLocation Loc = Before.isValid() ? Before.getBegin() :
- After.isValid() ? After.getBegin() :
- D.getIdentifierLoc();
- auto &&DB = Diag(Loc, diag::err_conv_function_with_complex_decl);
- DB << Before << After;
- if (!NeedsTypedef) {
- DB << /*don't need a typedef*/0;
- // If we can provide a correct fix-it hint, do so.
- if (After.isInvalid() && ConvTSI) {
- SourceLocation InsertLoc =
- getLocForEndOfToken(ConvTSI->getTypeLoc().getEndLoc());
- DB << FixItHint::CreateInsertion(InsertLoc, " ")
- << FixItHint::CreateInsertionFromRange(
- InsertLoc, CharSourceRange::getTokenRange(Before))
- << FixItHint::CreateRemoval(Before);
- }
- } else if (!Proto->getReturnType()->isDependentType()) {
- DB << /*typedef*/1 << Proto->getReturnType();
- } else if (getLangOpts().CPlusPlus11) {
- DB << /*alias template*/2 << Proto->getReturnType();
- } else {
- DB << /*might not be fixable*/3;
- }
- // Recover by incorporating the other type chunks into the result type.
- // Note, this does *not* change the name of the function. This is compatible
- // with the GCC extension:
- // struct S { &operator int(); } s;
- // int &r = s.operator int(); // ok in GCC
- // S::operator int&() {} // error in GCC, function name is 'operator int'.
- ConvType = Proto->getReturnType();
- }
- // C++ [class.conv.fct]p4:
- // The conversion-type-id shall not represent a function type nor
- // an array type.
- if (ConvType->isArrayType()) {
- Diag(D.getIdentifierLoc(), diag::err_conv_function_to_array);
- ConvType = Context.getPointerType(ConvType);
- D.setInvalidType();
- } else if (ConvType->isFunctionType()) {
- Diag(D.getIdentifierLoc(), diag::err_conv_function_to_function);
- ConvType = Context.getPointerType(ConvType);
- D.setInvalidType();
- }
- // Rebuild the function type "R" without any parameters (in case any
- // of the errors above fired) and with the conversion type as the
- // return type.
- if (D.isInvalidType())
- R = Context.getFunctionType(ConvType, std::nullopt,
- Proto->getExtProtoInfo());
- // C++0x explicit conversion operators.
- if (DS.hasExplicitSpecifier() && !getLangOpts().CPlusPlus20)
- Diag(DS.getExplicitSpecLoc(),
- getLangOpts().CPlusPlus11
- ? diag::warn_cxx98_compat_explicit_conversion_functions
- : diag::ext_explicit_conversion_functions)
- << SourceRange(DS.getExplicitSpecRange());
- }
- /// ActOnConversionDeclarator - Called by ActOnDeclarator to complete
- /// the declaration of the given C++ conversion function. This routine
- /// is responsible for recording the conversion function in the C++
- /// class, if possible.
- Decl *Sema::ActOnConversionDeclarator(CXXConversionDecl *Conversion) {
- assert(Conversion && "Expected to receive a conversion function declaration");
- CXXRecordDecl *ClassDecl = cast<CXXRecordDecl>(Conversion->getDeclContext());
- // Make sure we aren't redeclaring the conversion function.
- QualType ConvType = Context.getCanonicalType(Conversion->getConversionType());
- // C++ [class.conv.fct]p1:
- // [...] A conversion function is never used to convert a
- // (possibly cv-qualified) object to the (possibly cv-qualified)
- // same object type (or a reference to it), to a (possibly
- // cv-qualified) base class of that type (or a reference to it),
- // or to (possibly cv-qualified) void.
- QualType ClassType
- = Context.getCanonicalType(Context.getTypeDeclType(ClassDecl));
- if (const ReferenceType *ConvTypeRef = ConvType->getAs<ReferenceType>())
- ConvType = ConvTypeRef->getPointeeType();
- if (Conversion->getTemplateSpecializationKind() != TSK_Undeclared &&
- Conversion->getTemplateSpecializationKind() != TSK_ExplicitSpecialization)
- /* Suppress diagnostics for instantiations. */;
- else if (Conversion->size_overridden_methods() != 0)
- /* Suppress diagnostics for overriding virtual function in a base class. */;
- else if (ConvType->isRecordType()) {
- ConvType = Context.getCanonicalType(ConvType).getUnqualifiedType();
- if (ConvType == ClassType)
- Diag(Conversion->getLocation(), diag::warn_conv_to_self_not_used)
- << ClassType;
- else if (IsDerivedFrom(Conversion->getLocation(), ClassType, ConvType))
- Diag(Conversion->getLocation(), diag::warn_conv_to_base_not_used)
- << ClassType << ConvType;
- } else if (ConvType->isVoidType()) {
- Diag(Conversion->getLocation(), diag::warn_conv_to_void_not_used)
- << ClassType << ConvType;
- }
- if (FunctionTemplateDecl *ConversionTemplate
- = Conversion->getDescribedFunctionTemplate())
- return ConversionTemplate;
- return Conversion;
- }
- namespace {
- /// Utility class to accumulate and print a diagnostic listing the invalid
- /// specifier(s) on a declaration.
- struct BadSpecifierDiagnoser {
- BadSpecifierDiagnoser(Sema &S, SourceLocation Loc, unsigned DiagID)
- : S(S), Diagnostic(S.Diag(Loc, DiagID)) {}
- ~BadSpecifierDiagnoser() {
- Diagnostic << Specifiers;
- }
- template<typename T> void check(SourceLocation SpecLoc, T Spec) {
- return check(SpecLoc, DeclSpec::getSpecifierName(Spec));
- }
- void check(SourceLocation SpecLoc, DeclSpec::TST Spec) {
- return check(SpecLoc,
- DeclSpec::getSpecifierName(Spec, S.getPrintingPolicy()));
- }
- void check(SourceLocation SpecLoc, const char *Spec) {
- if (SpecLoc.isInvalid()) return;
- Diagnostic << SourceRange(SpecLoc, SpecLoc);
- if (!Specifiers.empty()) Specifiers += " ";
- Specifiers += Spec;
- }
- Sema &S;
- Sema::SemaDiagnosticBuilder Diagnostic;
- std::string Specifiers;
- };
- }
- /// Check the validity of a declarator that we parsed for a deduction-guide.
- /// These aren't actually declarators in the grammar, so we need to check that
- /// the user didn't specify any pieces that are not part of the deduction-guide
- /// grammar.
- void Sema::CheckDeductionGuideDeclarator(Declarator &D, QualType &R,
- StorageClass &SC) {
- TemplateName GuidedTemplate = D.getName().TemplateName.get().get();
- TemplateDecl *GuidedTemplateDecl = GuidedTemplate.getAsTemplateDecl();
- assert(GuidedTemplateDecl && "missing template decl for deduction guide");
- // C++ [temp.deduct.guide]p3:
- // A deduction-gide shall be declared in the same scope as the
- // corresponding class template.
- if (!CurContext->getRedeclContext()->Equals(
- GuidedTemplateDecl->getDeclContext()->getRedeclContext())) {
- Diag(D.getIdentifierLoc(), diag::err_deduction_guide_wrong_scope)
- << GuidedTemplateDecl;
- Diag(GuidedTemplateDecl->getLocation(), diag::note_template_decl_here);
- }
- auto &DS = D.getMutableDeclSpec();
- // We leave 'friend' and 'virtual' to be rejected in the normal way.
- if (DS.hasTypeSpecifier() || DS.getTypeQualifiers() ||
- DS.getStorageClassSpecLoc().isValid() || DS.isInlineSpecified() ||
- DS.isNoreturnSpecified() || DS.hasConstexprSpecifier()) {
- BadSpecifierDiagnoser Diagnoser(
- *this, D.getIdentifierLoc(),
- diag::err_deduction_guide_invalid_specifier);
- Diagnoser.check(DS.getStorageClassSpecLoc(), DS.getStorageClassSpec());
- DS.ClearStorageClassSpecs();
- SC = SC_None;
- // 'explicit' is permitted.
- Diagnoser.check(DS.getInlineSpecLoc(), "inline");
- Diagnoser.check(DS.getNoreturnSpecLoc(), "_Noreturn");
- Diagnoser.check(DS.getConstexprSpecLoc(), "constexpr");
- DS.ClearConstexprSpec();
- Diagnoser.check(DS.getConstSpecLoc(), "const");
- Diagnoser.check(DS.getRestrictSpecLoc(), "__restrict");
- Diagnoser.check(DS.getVolatileSpecLoc(), "volatile");
- Diagnoser.check(DS.getAtomicSpecLoc(), "_Atomic");
- Diagnoser.check(DS.getUnalignedSpecLoc(), "__unaligned");
- DS.ClearTypeQualifiers();
- Diagnoser.check(DS.getTypeSpecComplexLoc(), DS.getTypeSpecComplex());
- Diagnoser.check(DS.getTypeSpecSignLoc(), DS.getTypeSpecSign());
- Diagnoser.check(DS.getTypeSpecWidthLoc(), DS.getTypeSpecWidth());
- Diagnoser.check(DS.getTypeSpecTypeLoc(), DS.getTypeSpecType());
- DS.ClearTypeSpecType();
- }
- if (D.isInvalidType())
- return;
- // Check the declarator is simple enough.
- bool FoundFunction = false;
- for (const DeclaratorChunk &Chunk : llvm::reverse(D.type_objects())) {
- if (Chunk.Kind == DeclaratorChunk::Paren)
- continue;
- if (Chunk.Kind != DeclaratorChunk::Function || FoundFunction) {
- Diag(D.getDeclSpec().getBeginLoc(),
- diag::err_deduction_guide_with_complex_decl)
- << D.getSourceRange();
- break;
- }
- if (!Chunk.Fun.hasTrailingReturnType()) {
- Diag(D.getName().getBeginLoc(),
- diag::err_deduction_guide_no_trailing_return_type);
- break;
- }
- // Check that the return type is written as a specialization of
- // the template specified as the deduction-guide's name.
- // The template name may not be qualified. [temp.deduct.guide]
- ParsedType TrailingReturnType = Chunk.Fun.getTrailingReturnType();
- TypeSourceInfo *TSI = nullptr;
- QualType RetTy = GetTypeFromParser(TrailingReturnType, &TSI);
- assert(TSI && "deduction guide has valid type but invalid return type?");
- bool AcceptableReturnType = false;
- bool MightInstantiateToSpecialization = false;
- if (auto RetTST =
- TSI->getTypeLoc().getAsAdjusted<TemplateSpecializationTypeLoc>()) {
- TemplateName SpecifiedName = RetTST.getTypePtr()->getTemplateName();
- bool TemplateMatches =
- Context.hasSameTemplateName(SpecifiedName, GuidedTemplate);
- auto TKind = SpecifiedName.getKind();
- // A Using TemplateName can't actually be valid (either it's qualified, or
- // we're in the wrong scope). But we have diagnosed these problems
- // already.
- bool SimplyWritten = TKind == TemplateName::Template ||
- TKind == TemplateName::UsingTemplate;
- if (SimplyWritten && TemplateMatches)
- AcceptableReturnType = true;
- else {
- // This could still instantiate to the right type, unless we know it
- // names the wrong class template.
- auto *TD = SpecifiedName.getAsTemplateDecl();
- MightInstantiateToSpecialization = !(TD && isa<ClassTemplateDecl>(TD) &&
- !TemplateMatches);
- }
- } else if (!RetTy.hasQualifiers() && RetTy->isDependentType()) {
- MightInstantiateToSpecialization = true;
- }
- if (!AcceptableReturnType) {
- Diag(TSI->getTypeLoc().getBeginLoc(),
- diag::err_deduction_guide_bad_trailing_return_type)
- << GuidedTemplate << TSI->getType()
- << MightInstantiateToSpecialization
- << TSI->getTypeLoc().getSourceRange();
- }
- // Keep going to check that we don't have any inner declarator pieces (we
- // could still have a function returning a pointer to a function).
- FoundFunction = true;
- }
- if (D.isFunctionDefinition())
- Diag(D.getIdentifierLoc(), diag::err_deduction_guide_defines_function);
- }
- //===----------------------------------------------------------------------===//
- // Namespace Handling
- //===----------------------------------------------------------------------===//
- /// Diagnose a mismatch in 'inline' qualifiers when a namespace is
- /// reopened.
- static void DiagnoseNamespaceInlineMismatch(Sema &S, SourceLocation KeywordLoc,
- SourceLocation Loc,
- IdentifierInfo *II, bool *IsInline,
- NamespaceDecl *PrevNS) {
- assert(*IsInline != PrevNS->isInline());
- // 'inline' must appear on the original definition, but not necessarily
- // on all extension definitions, so the note should point to the first
- // definition to avoid confusion.
- PrevNS = PrevNS->getFirstDecl();
- if (PrevNS->isInline())
- // The user probably just forgot the 'inline', so suggest that it
- // be added back.
- S.Diag(Loc, diag::warn_inline_namespace_reopened_noninline)
- << FixItHint::CreateInsertion(KeywordLoc, "inline ");
- else
- S.Diag(Loc, diag::err_inline_namespace_mismatch);
- S.Diag(PrevNS->getLocation(), diag::note_previous_definition);
- *IsInline = PrevNS->isInline();
- }
- /// ActOnStartNamespaceDef - This is called at the start of a namespace
- /// definition.
- Decl *Sema::ActOnStartNamespaceDef(Scope *NamespcScope,
- SourceLocation InlineLoc,
- SourceLocation NamespaceLoc,
- SourceLocation IdentLoc, IdentifierInfo *II,
- SourceLocation LBrace,
- const ParsedAttributesView &AttrList,
- UsingDirectiveDecl *&UD, bool IsNested) {
- SourceLocation StartLoc = InlineLoc.isValid() ? InlineLoc : NamespaceLoc;
- // For anonymous namespace, take the location of the left brace.
- SourceLocation Loc = II ? IdentLoc : LBrace;
- bool IsInline = InlineLoc.isValid();
- bool IsInvalid = false;
- bool IsStd = false;
- bool AddToKnown = false;
- Scope *DeclRegionScope = NamespcScope->getParent();
- NamespaceDecl *PrevNS = nullptr;
- if (II) {
- // C++ [namespace.def]p2:
- // The identifier in an original-namespace-definition shall not
- // have been previously defined in the declarative region in
- // which the original-namespace-definition appears. The
- // identifier in an original-namespace-definition is the name of
- // the namespace. Subsequently in that declarative region, it is
- // treated as an original-namespace-name.
- //
- // Since namespace names are unique in their scope, and we don't
- // look through using directives, just look for any ordinary names
- // as if by qualified name lookup.
- LookupResult R(*this, II, IdentLoc, LookupOrdinaryName,
- ForExternalRedeclaration);
- LookupQualifiedName(R, CurContext->getRedeclContext());
- NamedDecl *PrevDecl =
- R.isSingleResult() ? R.getRepresentativeDecl() : nullptr;
- PrevNS = dyn_cast_or_null<NamespaceDecl>(PrevDecl);
- if (PrevNS) {
- // This is an extended namespace definition.
- if (IsInline != PrevNS->isInline())
- DiagnoseNamespaceInlineMismatch(*this, NamespaceLoc, Loc, II,
- &IsInline, PrevNS);
- } else if (PrevDecl) {
- // This is an invalid name redefinition.
- Diag(Loc, diag::err_redefinition_different_kind)
- << II;
- Diag(PrevDecl->getLocation(), diag::note_previous_definition);
- IsInvalid = true;
- // Continue on to push Namespc as current DeclContext and return it.
- } else if (II->isStr("std") &&
- CurContext->getRedeclContext()->isTranslationUnit()) {
- // This is the first "real" definition of the namespace "std", so update
- // our cache of the "std" namespace to point at this definition.
- PrevNS = getStdNamespace();
- IsStd = true;
- AddToKnown = !IsInline;
- } else {
- // We've seen this namespace for the first time.
- AddToKnown = !IsInline;
- }
- } else {
- // Anonymous namespaces.
- // Determine whether the parent already has an anonymous namespace.
- DeclContext *Parent = CurContext->getRedeclContext();
- if (TranslationUnitDecl *TU = dyn_cast<TranslationUnitDecl>(Parent)) {
- PrevNS = TU->getAnonymousNamespace();
- } else {
- NamespaceDecl *ND = cast<NamespaceDecl>(Parent);
- PrevNS = ND->getAnonymousNamespace();
- }
- if (PrevNS && IsInline != PrevNS->isInline())
- DiagnoseNamespaceInlineMismatch(*this, NamespaceLoc, NamespaceLoc, II,
- &IsInline, PrevNS);
- }
- NamespaceDecl *Namespc = NamespaceDecl::Create(
- Context, CurContext, IsInline, StartLoc, Loc, II, PrevNS, IsNested);
- if (IsInvalid)
- Namespc->setInvalidDecl();
- ProcessDeclAttributeList(DeclRegionScope, Namespc, AttrList);
- AddPragmaAttributes(DeclRegionScope, Namespc);
- // FIXME: Should we be merging attributes?
- if (const VisibilityAttr *Attr = Namespc->getAttr<VisibilityAttr>())
- PushNamespaceVisibilityAttr(Attr, Loc);
- if (IsStd)
- StdNamespace = Namespc;
- if (AddToKnown)
- KnownNamespaces[Namespc] = false;
- if (II) {
- PushOnScopeChains(Namespc, DeclRegionScope);
- } else {
- // Link the anonymous namespace into its parent.
- DeclContext *Parent = CurContext->getRedeclContext();
- if (TranslationUnitDecl *TU = dyn_cast<TranslationUnitDecl>(Parent)) {
- TU->setAnonymousNamespace(Namespc);
- } else {
- cast<NamespaceDecl>(Parent)->setAnonymousNamespace(Namespc);
- }
- CurContext->addDecl(Namespc);
- // C++ [namespace.unnamed]p1. An unnamed-namespace-definition
- // behaves as if it were replaced by
- // namespace unique { /* empty body */ }
- // using namespace unique;
- // namespace unique { namespace-body }
- // where all occurrences of 'unique' in a translation unit are
- // replaced by the same identifier and this identifier differs
- // from all other identifiers in the entire program.
- // We just create the namespace with an empty name and then add an
- // implicit using declaration, just like the standard suggests.
- //
- // CodeGen enforces the "universally unique" aspect by giving all
- // declarations semantically contained within an anonymous
- // namespace internal linkage.
- if (!PrevNS) {
- UD = UsingDirectiveDecl::Create(Context, Parent,
- /* 'using' */ LBrace,
- /* 'namespace' */ SourceLocation(),
- /* qualifier */ NestedNameSpecifierLoc(),
- /* identifier */ SourceLocation(),
- Namespc,
- /* Ancestor */ Parent);
- UD->setImplicit();
- Parent->addDecl(UD);
- }
- }
- ActOnDocumentableDecl(Namespc);
- // Although we could have an invalid decl (i.e. the namespace name is a
- // redefinition), push it as current DeclContext and try to continue parsing.
- // FIXME: We should be able to push Namespc here, so that the each DeclContext
- // for the namespace has the declarations that showed up in that particular
- // namespace definition.
- PushDeclContext(NamespcScope, Namespc);
- return Namespc;
- }
- /// getNamespaceDecl - Returns the namespace a decl represents. If the decl
- /// is a namespace alias, returns the namespace it points to.
- static inline NamespaceDecl *getNamespaceDecl(NamedDecl *D) {
- if (NamespaceAliasDecl *AD = dyn_cast_or_null<NamespaceAliasDecl>(D))
- return AD->getNamespace();
- return dyn_cast_or_null<NamespaceDecl>(D);
- }
- /// ActOnFinishNamespaceDef - This callback is called after a namespace is
- /// exited. Decl is the DeclTy returned by ActOnStartNamespaceDef.
- void Sema::ActOnFinishNamespaceDef(Decl *Dcl, SourceLocation RBrace) {
- NamespaceDecl *Namespc = dyn_cast_or_null<NamespaceDecl>(Dcl);
- assert(Namespc && "Invalid parameter, expected NamespaceDecl");
- Namespc->setRBraceLoc(RBrace);
- PopDeclContext();
- if (Namespc->hasAttr<VisibilityAttr>())
- PopPragmaVisibility(true, RBrace);
- // If this namespace contains an export-declaration, export it now.
- if (DeferredExportedNamespaces.erase(Namespc))
- Dcl->setModuleOwnershipKind(Decl::ModuleOwnershipKind::VisibleWhenImported);
- }
- CXXRecordDecl *Sema::getStdBadAlloc() const {
- return cast_or_null<CXXRecordDecl>(
- StdBadAlloc.get(Context.getExternalSource()));
- }
- EnumDecl *Sema::getStdAlignValT() const {
- return cast_or_null<EnumDecl>(StdAlignValT.get(Context.getExternalSource()));
- }
- NamespaceDecl *Sema::getStdNamespace() const {
- return cast_or_null<NamespaceDecl>(
- StdNamespace.get(Context.getExternalSource()));
- }
- NamespaceDecl *Sema::lookupStdExperimentalNamespace() {
- if (!StdExperimentalNamespaceCache) {
- if (auto Std = getStdNamespace()) {
- LookupResult Result(*this, &PP.getIdentifierTable().get("experimental"),
- SourceLocation(), LookupNamespaceName);
- if (!LookupQualifiedName(Result, Std) ||
- !(StdExperimentalNamespaceCache =
- Result.getAsSingle<NamespaceDecl>()))
- Result.suppressDiagnostics();
- }
- }
- return StdExperimentalNamespaceCache;
- }
- namespace {
- enum UnsupportedSTLSelect {
- USS_InvalidMember,
- USS_MissingMember,
- USS_NonTrivial,
- USS_Other
- };
- struct InvalidSTLDiagnoser {
- Sema &S;
- SourceLocation Loc;
- QualType TyForDiags;
- QualType operator()(UnsupportedSTLSelect Sel = USS_Other, StringRef Name = "",
- const VarDecl *VD = nullptr) {
- {
- auto D = S.Diag(Loc, diag::err_std_compare_type_not_supported)
- << TyForDiags << ((int)Sel);
- if (Sel == USS_InvalidMember || Sel == USS_MissingMember) {
- assert(!Name.empty());
- D << Name;
- }
- }
- if (Sel == USS_InvalidMember) {
- S.Diag(VD->getLocation(), diag::note_var_declared_here)
- << VD << VD->getSourceRange();
- }
- return QualType();
- }
- };
- } // namespace
- QualType Sema::CheckComparisonCategoryType(ComparisonCategoryType Kind,
- SourceLocation Loc,
- ComparisonCategoryUsage Usage) {
- assert(getLangOpts().CPlusPlus &&
- "Looking for comparison category type outside of C++.");
- // Use an elaborated type for diagnostics which has a name containing the
- // prepended 'std' namespace but not any inline namespace names.
- auto TyForDiags = [&](ComparisonCategoryInfo *Info) {
- auto *NNS =
- NestedNameSpecifier::Create(Context, nullptr, getStdNamespace());
- return Context.getElaboratedType(ETK_None, NNS, Info->getType());
- };
- // Check if we've already successfully checked the comparison category type
- // before. If so, skip checking it again.
- ComparisonCategoryInfo *Info = Context.CompCategories.lookupInfo(Kind);
- if (Info && FullyCheckedComparisonCategories[static_cast<unsigned>(Kind)]) {
- // The only thing we need to check is that the type has a reachable
- // definition in the current context.
- if (RequireCompleteType(Loc, TyForDiags(Info), diag::err_incomplete_type))
- return QualType();
- return Info->getType();
- }
- // If lookup failed
- if (!Info) {
- std::string NameForDiags = "std::";
- NameForDiags += ComparisonCategories::getCategoryString(Kind);
- Diag(Loc, diag::err_implied_comparison_category_type_not_found)
- << NameForDiags << (int)Usage;
- return QualType();
- }
- assert(Info->Kind == Kind);
- assert(Info->Record);
- // Update the Record decl in case we encountered a forward declaration on our
- // first pass. FIXME: This is a bit of a hack.
- if (Info->Record->hasDefinition())
- Info->Record = Info->Record->getDefinition();
- if (RequireCompleteType(Loc, TyForDiags(Info), diag::err_incomplete_type))
- return QualType();
- InvalidSTLDiagnoser UnsupportedSTLError{*this, Loc, TyForDiags(Info)};
- if (!Info->Record->isTriviallyCopyable())
- return UnsupportedSTLError(USS_NonTrivial);
- for (const CXXBaseSpecifier &BaseSpec : Info->Record->bases()) {
- CXXRecordDecl *Base = BaseSpec.getType()->getAsCXXRecordDecl();
- // Tolerate empty base classes.
- if (Base->isEmpty())
- continue;
- // Reject STL implementations which have at least one non-empty base.
- return UnsupportedSTLError();
- }
- // Check that the STL has implemented the types using a single integer field.
- // This expectation allows better codegen for builtin operators. We require:
- // (1) The class has exactly one field.
- // (2) The field is an integral or enumeration type.
- auto FIt = Info->Record->field_begin(), FEnd = Info->Record->field_end();
- if (std::distance(FIt, FEnd) != 1 ||
- !FIt->getType()->isIntegralOrEnumerationType()) {
- return UnsupportedSTLError();
- }
- // Build each of the require values and store them in Info.
- for (ComparisonCategoryResult CCR :
- ComparisonCategories::getPossibleResultsForType(Kind)) {
- StringRef MemName = ComparisonCategories::getResultString(CCR);
- ComparisonCategoryInfo::ValueInfo *ValInfo = Info->lookupValueInfo(CCR);
- if (!ValInfo)
- return UnsupportedSTLError(USS_MissingMember, MemName);
- VarDecl *VD = ValInfo->VD;
- assert(VD && "should not be null!");
- // Attempt to diagnose reasons why the STL definition of this type
- // might be foobar, including it failing to be a constant expression.
- // TODO Handle more ways the lookup or result can be invalid.
- if (!VD->isStaticDataMember() ||
- !VD->isUsableInConstantExpressions(Context))
- return UnsupportedSTLError(USS_InvalidMember, MemName, VD);
- // Attempt to evaluate the var decl as a constant expression and extract
- // the value of its first field as a ICE. If this fails, the STL
- // implementation is not supported.
- if (!ValInfo->hasValidIntValue())
- return UnsupportedSTLError();
- MarkVariableReferenced(Loc, VD);
- }
- // We've successfully built the required types and expressions. Update
- // the cache and return the newly cached value.
- FullyCheckedComparisonCategories[static_cast<unsigned>(Kind)] = true;
- return Info->getType();
- }
- /// Retrieve the special "std" namespace, which may require us to
- /// implicitly define the namespace.
- NamespaceDecl *Sema::getOrCreateStdNamespace() {
- if (!StdNamespace) {
- // The "std" namespace has not yet been defined, so build one implicitly.
- StdNamespace = NamespaceDecl::Create(
- Context, Context.getTranslationUnitDecl(),
- /*Inline=*/false, SourceLocation(), SourceLocation(),
- &PP.getIdentifierTable().get("std"),
- /*PrevDecl=*/nullptr, /*Nested=*/false);
- getStdNamespace()->setImplicit(true);
- }
- return getStdNamespace();
- }
- bool Sema::isStdInitializerList(QualType Ty, QualType *Element) {
- assert(getLangOpts().CPlusPlus &&
- "Looking for std::initializer_list outside of C++.");
- // We're looking for implicit instantiations of
- // template <typename E> class std::initializer_list.
- if (!StdNamespace) // If we haven't seen namespace std yet, this can't be it.
- return false;
- ClassTemplateDecl *Template = nullptr;
- const TemplateArgument *Arguments = nullptr;
- if (const RecordType *RT = Ty->getAs<RecordType>()) {
- ClassTemplateSpecializationDecl *Specialization =
- dyn_cast<ClassTemplateSpecializationDecl>(RT->getDecl());
- if (!Specialization)
- return false;
- Template = Specialization->getSpecializedTemplate();
- Arguments = Specialization->getTemplateArgs().data();
- } else if (const TemplateSpecializationType *TST =
- Ty->getAs<TemplateSpecializationType>()) {
- Template = dyn_cast_or_null<ClassTemplateDecl>(
- TST->getTemplateName().getAsTemplateDecl());
- Arguments = TST->template_arguments().begin();
- }
- if (!Template)
- return false;
- if (!StdInitializerList) {
- // Haven't recognized std::initializer_list yet, maybe this is it.
- CXXRecordDecl *TemplateClass = Template->getTemplatedDecl();
- if (TemplateClass->getIdentifier() !=
- &PP.getIdentifierTable().get("initializer_list") ||
- !getStdNamespace()->InEnclosingNamespaceSetOf(
- TemplateClass->getDeclContext()))
- return false;
- // This is a template called std::initializer_list, but is it the right
- // template?
- TemplateParameterList *Params = Template->getTemplateParameters();
- if (Params->getMinRequiredArguments() != 1)
- return false;
- if (!isa<TemplateTypeParmDecl>(Params->getParam(0)))
- return false;
- // It's the right template.
- StdInitializerList = Template;
- }
- if (Template->getCanonicalDecl() != StdInitializerList->getCanonicalDecl())
- return false;
- // This is an instance of std::initializer_list. Find the argument type.
- if (Element)
- *Element = Arguments[0].getAsType();
- return true;
- }
- static ClassTemplateDecl *LookupStdInitializerList(Sema &S, SourceLocation Loc){
- NamespaceDecl *Std = S.getStdNamespace();
- if (!Std) {
- S.Diag(Loc, diag::err_implied_std_initializer_list_not_found);
- return nullptr;
- }
- LookupResult Result(S, &S.PP.getIdentifierTable().get("initializer_list"),
- Loc, Sema::LookupOrdinaryName);
- if (!S.LookupQualifiedName(Result, Std)) {
- S.Diag(Loc, diag::err_implied_std_initializer_list_not_found);
- return nullptr;
- }
- ClassTemplateDecl *Template = Result.getAsSingle<ClassTemplateDecl>();
- if (!Template) {
- Result.suppressDiagnostics();
- // We found something weird. Complain about the first thing we found.
- NamedDecl *Found = *Result.begin();
- S.Diag(Found->getLocation(), diag::err_malformed_std_initializer_list);
- return nullptr;
- }
- // We found some template called std::initializer_list. Now verify that it's
- // correct.
- TemplateParameterList *Params = Template->getTemplateParameters();
- if (Params->getMinRequiredArguments() != 1 ||
- !isa<TemplateTypeParmDecl>(Params->getParam(0))) {
- S.Diag(Template->getLocation(), diag::err_malformed_std_initializer_list);
- return nullptr;
- }
- return Template;
- }
- QualType Sema::BuildStdInitializerList(QualType Element, SourceLocation Loc) {
- if (!StdInitializerList) {
- StdInitializerList = LookupStdInitializerList(*this, Loc);
- if (!StdInitializerList)
- return QualType();
- }
- TemplateArgumentListInfo Args(Loc, Loc);
- Args.addArgument(TemplateArgumentLoc(TemplateArgument(Element),
- Context.getTrivialTypeSourceInfo(Element,
- Loc)));
- return Context.getElaboratedType(
- ElaboratedTypeKeyword::ETK_None,
- NestedNameSpecifier::Create(Context, nullptr, getStdNamespace()),
- CheckTemplateIdType(TemplateName(StdInitializerList), Loc, Args));
- }
- bool Sema::isInitListConstructor(const FunctionDecl *Ctor) {
- // C++ [dcl.init.list]p2:
- // A constructor is an initializer-list constructor if its first parameter
- // is of type std::initializer_list<E> or reference to possibly cv-qualified
- // std::initializer_list<E> for some type E, and either there are no other
- // parameters or else all other parameters have default arguments.
- if (!Ctor->hasOneParamOrDefaultArgs())
- return false;
- QualType ArgType = Ctor->getParamDecl(0)->getType();
- if (const ReferenceType *RT = ArgType->getAs<ReferenceType>())
- ArgType = RT->getPointeeType().getUnqualifiedType();
- return isStdInitializerList(ArgType, nullptr);
- }
- /// Determine whether a using statement is in a context where it will be
- /// apply in all contexts.
- static bool IsUsingDirectiveInToplevelContext(DeclContext *CurContext) {
- switch (CurContext->getDeclKind()) {
- case Decl::TranslationUnit:
- return true;
- case Decl::LinkageSpec:
- return IsUsingDirectiveInToplevelContext(CurContext->getParent());
- default:
- return false;
- }
- }
- namespace {
- // Callback to only accept typo corrections that are namespaces.
- class NamespaceValidatorCCC final : public CorrectionCandidateCallback {
- public:
- bool ValidateCandidate(const TypoCorrection &candidate) override {
- if (NamedDecl *ND = candidate.getCorrectionDecl())
- return isa<NamespaceDecl>(ND) || isa<NamespaceAliasDecl>(ND);
- return false;
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<NamespaceValidatorCCC>(*this);
- }
- };
- }
- static bool TryNamespaceTypoCorrection(Sema &S, LookupResult &R, Scope *Sc,
- CXXScopeSpec &SS,
- SourceLocation IdentLoc,
- IdentifierInfo *Ident) {
- R.clear();
- NamespaceValidatorCCC CCC{};
- if (TypoCorrection Corrected =
- S.CorrectTypo(R.getLookupNameInfo(), R.getLookupKind(), Sc, &SS, CCC,
- Sema::CTK_ErrorRecovery)) {
- if (DeclContext *DC = S.computeDeclContext(SS, false)) {
- std::string CorrectedStr(Corrected.getAsString(S.getLangOpts()));
- bool DroppedSpecifier = Corrected.WillReplaceSpecifier() &&
- Ident->getName().equals(CorrectedStr);
- S.diagnoseTypo(Corrected,
- S.PDiag(diag::err_using_directive_member_suggest)
- << Ident << DC << DroppedSpecifier << SS.getRange(),
- S.PDiag(diag::note_namespace_defined_here));
- } else {
- S.diagnoseTypo(Corrected,
- S.PDiag(diag::err_using_directive_suggest) << Ident,
- S.PDiag(diag::note_namespace_defined_here));
- }
- R.addDecl(Corrected.getFoundDecl());
- return true;
- }
- return false;
- }
- Decl *Sema::ActOnUsingDirective(Scope *S, SourceLocation UsingLoc,
- SourceLocation NamespcLoc, CXXScopeSpec &SS,
- SourceLocation IdentLoc,
- IdentifierInfo *NamespcName,
- const ParsedAttributesView &AttrList) {
- assert(!SS.isInvalid() && "Invalid CXXScopeSpec.");
- assert(NamespcName && "Invalid NamespcName.");
- assert(IdentLoc.isValid() && "Invalid NamespceName location.");
- // This can only happen along a recovery path.
- while (S->isTemplateParamScope())
- S = S->getParent();
- assert(S->getFlags() & Scope::DeclScope && "Invalid Scope.");
- UsingDirectiveDecl *UDir = nullptr;
- NestedNameSpecifier *Qualifier = nullptr;
- if (SS.isSet())
- Qualifier = SS.getScopeRep();
- // Lookup namespace name.
- LookupResult R(*this, NamespcName, IdentLoc, LookupNamespaceName);
- LookupParsedName(R, S, &SS);
- if (R.isAmbiguous())
- return nullptr;
- if (R.empty()) {
- R.clear();
- // Allow "using namespace std;" or "using namespace ::std;" even if
- // "std" hasn't been defined yet, for GCC compatibility.
- if ((!Qualifier || Qualifier->getKind() == NestedNameSpecifier::Global) &&
- NamespcName->isStr("std")) {
- Diag(IdentLoc, diag::ext_using_undefined_std);
- R.addDecl(getOrCreateStdNamespace());
- R.resolveKind();
- }
- // Otherwise, attempt typo correction.
- else TryNamespaceTypoCorrection(*this, R, S, SS, IdentLoc, NamespcName);
- }
- if (!R.empty()) {
- NamedDecl *Named = R.getRepresentativeDecl();
- NamespaceDecl *NS = R.getAsSingle<NamespaceDecl>();
- assert(NS && "expected namespace decl");
- // The use of a nested name specifier may trigger deprecation warnings.
- DiagnoseUseOfDecl(Named, IdentLoc);
- // C++ [namespace.udir]p1:
- // A using-directive specifies that the names in the nominated
- // namespace can be used in the scope in which the
- // using-directive appears after the using-directive. During
- // unqualified name lookup (3.4.1), the names appear as if they
- // were declared in the nearest enclosing namespace which
- // contains both the using-directive and the nominated
- // namespace. [Note: in this context, "contains" means "contains
- // directly or indirectly". ]
- // Find enclosing context containing both using-directive and
- // nominated namespace.
- DeclContext *CommonAncestor = NS;
- while (CommonAncestor && !CommonAncestor->Encloses(CurContext))
- CommonAncestor = CommonAncestor->getParent();
- UDir = UsingDirectiveDecl::Create(Context, CurContext, UsingLoc, NamespcLoc,
- SS.getWithLocInContext(Context),
- IdentLoc, Named, CommonAncestor);
- if (IsUsingDirectiveInToplevelContext(CurContext) &&
- !SourceMgr.isInMainFile(SourceMgr.getExpansionLoc(IdentLoc))) {
- Diag(IdentLoc, diag::warn_using_directive_in_header);
- }
- PushUsingDirective(S, UDir);
- } else {
- Diag(IdentLoc, diag::err_expected_namespace_name) << SS.getRange();
- }
- if (UDir)
- ProcessDeclAttributeList(S, UDir, AttrList);
- return UDir;
- }
- void Sema::PushUsingDirective(Scope *S, UsingDirectiveDecl *UDir) {
- // If the scope has an associated entity and the using directive is at
- // namespace or translation unit scope, add the UsingDirectiveDecl into
- // its lookup structure so qualified name lookup can find it.
- DeclContext *Ctx = S->getEntity();
- if (Ctx && !Ctx->isFunctionOrMethod())
- Ctx->addDecl(UDir);
- else
- // Otherwise, it is at block scope. The using-directives will affect lookup
- // only to the end of the scope.
- S->PushUsingDirective(UDir);
- }
- Decl *Sema::ActOnUsingDeclaration(Scope *S, AccessSpecifier AS,
- SourceLocation UsingLoc,
- SourceLocation TypenameLoc, CXXScopeSpec &SS,
- UnqualifiedId &Name,
- SourceLocation EllipsisLoc,
- const ParsedAttributesView &AttrList) {
- assert(S->getFlags() & Scope::DeclScope && "Invalid Scope.");
- if (SS.isEmpty()) {
- Diag(Name.getBeginLoc(), diag::err_using_requires_qualname);
- return nullptr;
- }
- switch (Name.getKind()) {
- case UnqualifiedIdKind::IK_ImplicitSelfParam:
- case UnqualifiedIdKind::IK_Identifier:
- case UnqualifiedIdKind::IK_OperatorFunctionId:
- case UnqualifiedIdKind::IK_LiteralOperatorId:
- case UnqualifiedIdKind::IK_ConversionFunctionId:
- break;
- case UnqualifiedIdKind::IK_ConstructorName:
- case UnqualifiedIdKind::IK_ConstructorTemplateId:
- // C++11 inheriting constructors.
- Diag(Name.getBeginLoc(),
- getLangOpts().CPlusPlus11
- ? diag::warn_cxx98_compat_using_decl_constructor
- : diag::err_using_decl_constructor)
- << SS.getRange();
- if (getLangOpts().CPlusPlus11) break;
- return nullptr;
- case UnqualifiedIdKind::IK_DestructorName:
- Diag(Name.getBeginLoc(), diag::err_using_decl_destructor) << SS.getRange();
- return nullptr;
- case UnqualifiedIdKind::IK_TemplateId:
- Diag(Name.getBeginLoc(), diag::err_using_decl_template_id)
- << SourceRange(Name.TemplateId->LAngleLoc, Name.TemplateId->RAngleLoc);
- return nullptr;
- case UnqualifiedIdKind::IK_DeductionGuideName:
- llvm_unreachable("cannot parse qualified deduction guide name");
- }
- DeclarationNameInfo TargetNameInfo = GetNameFromUnqualifiedId(Name);
- DeclarationName TargetName = TargetNameInfo.getName();
- if (!TargetName)
- return nullptr;
- // Warn about access declarations.
- if (UsingLoc.isInvalid()) {
- Diag(Name.getBeginLoc(), getLangOpts().CPlusPlus11
- ? diag::err_access_decl
- : diag::warn_access_decl_deprecated)
- << FixItHint::CreateInsertion(SS.getRange().getBegin(), "using ");
- }
- if (EllipsisLoc.isInvalid()) {
- if (DiagnoseUnexpandedParameterPack(SS, UPPC_UsingDeclaration) ||
- DiagnoseUnexpandedParameterPack(TargetNameInfo, UPPC_UsingDeclaration))
- return nullptr;
- } else {
- if (!SS.getScopeRep()->containsUnexpandedParameterPack() &&
- !TargetNameInfo.containsUnexpandedParameterPack()) {
- Diag(EllipsisLoc, diag::err_pack_expansion_without_parameter_packs)
- << SourceRange(SS.getBeginLoc(), TargetNameInfo.getEndLoc());
- EllipsisLoc = SourceLocation();
- }
- }
- NamedDecl *UD =
- BuildUsingDeclaration(S, AS, UsingLoc, TypenameLoc.isValid(), TypenameLoc,
- SS, TargetNameInfo, EllipsisLoc, AttrList,
- /*IsInstantiation*/ false,
- AttrList.hasAttribute(ParsedAttr::AT_UsingIfExists));
- if (UD)
- PushOnScopeChains(UD, S, /*AddToContext*/ false);
- return UD;
- }
- Decl *Sema::ActOnUsingEnumDeclaration(Scope *S, AccessSpecifier AS,
- SourceLocation UsingLoc,
- SourceLocation EnumLoc,
- SourceLocation IdentLoc,
- IdentifierInfo &II, CXXScopeSpec *SS) {
- assert(!SS->isInvalid() && "ScopeSpec is invalid");
- TypeSourceInfo *TSI = nullptr;
- QualType EnumTy = GetTypeFromParser(
- getTypeName(II, IdentLoc, S, SS, /*isClassName=*/false,
- /*HasTrailingDot=*/false,
- /*ObjectType=*/nullptr, /*IsCtorOrDtorName=*/false,
- /*WantNontrivialTypeSourceInfo=*/true),
- &TSI);
- if (EnumTy.isNull()) {
- Diag(IdentLoc, SS && isDependentScopeSpecifier(*SS)
- ? diag::err_using_enum_is_dependent
- : diag::err_unknown_typename)
- << II.getName()
- << SourceRange(SS ? SS->getBeginLoc() : IdentLoc, IdentLoc);
- return nullptr;
- }
- auto *Enum = dyn_cast_if_present<EnumDecl>(EnumTy->getAsTagDecl());
- if (!Enum) {
- Diag(IdentLoc, diag::err_using_enum_not_enum) << EnumTy;
- return nullptr;
- }
- if (auto *Def = Enum->getDefinition())
- Enum = Def;
- if (TSI == nullptr)
- TSI = Context.getTrivialTypeSourceInfo(EnumTy, IdentLoc);
- auto *UD =
- BuildUsingEnumDeclaration(S, AS, UsingLoc, EnumLoc, IdentLoc, TSI, Enum);
- if (UD)
- PushOnScopeChains(UD, S, /*AddToContext*/ false);
- return UD;
- }
- /// Determine whether a using declaration considers the given
- /// declarations as "equivalent", e.g., if they are redeclarations of
- /// the same entity or are both typedefs of the same type.
- static bool
- IsEquivalentForUsingDecl(ASTContext &Context, NamedDecl *D1, NamedDecl *D2) {
- if (D1->getCanonicalDecl() == D2->getCanonicalDecl())
- return true;
- if (TypedefNameDecl *TD1 = dyn_cast<TypedefNameDecl>(D1))
- if (TypedefNameDecl *TD2 = dyn_cast<TypedefNameDecl>(D2))
- return Context.hasSameType(TD1->getUnderlyingType(),
- TD2->getUnderlyingType());
- // Two using_if_exists using-declarations are equivalent if both are
- // unresolved.
- if (isa<UnresolvedUsingIfExistsDecl>(D1) &&
- isa<UnresolvedUsingIfExistsDecl>(D2))
- return true;
- return false;
- }
- /// Determines whether to create a using shadow decl for a particular
- /// decl, given the set of decls existing prior to this using lookup.
- bool Sema::CheckUsingShadowDecl(BaseUsingDecl *BUD, NamedDecl *Orig,
- const LookupResult &Previous,
- UsingShadowDecl *&PrevShadow) {
- // Diagnose finding a decl which is not from a base class of the
- // current class. We do this now because there are cases where this
- // function will silently decide not to build a shadow decl, which
- // will pre-empt further diagnostics.
- //
- // We don't need to do this in C++11 because we do the check once on
- // the qualifier.
- //
- // FIXME: diagnose the following if we care enough:
- // struct A { int foo; };
- // struct B : A { using A::foo; };
- // template <class T> struct C : A {};
- // template <class T> struct D : C<T> { using B::foo; } // <---
- // This is invalid (during instantiation) in C++03 because B::foo
- // resolves to the using decl in B, which is not a base class of D<T>.
- // We can't diagnose it immediately because C<T> is an unknown
- // specialization. The UsingShadowDecl in D<T> then points directly
- // to A::foo, which will look well-formed when we instantiate.
- // The right solution is to not collapse the shadow-decl chain.
- if (!getLangOpts().CPlusPlus11 && CurContext->isRecord())
- if (auto *Using = dyn_cast<UsingDecl>(BUD)) {
- DeclContext *OrigDC = Orig->getDeclContext();
- // Handle enums and anonymous structs.
- if (isa<EnumDecl>(OrigDC))
- OrigDC = OrigDC->getParent();
- CXXRecordDecl *OrigRec = cast<CXXRecordDecl>(OrigDC);
- while (OrigRec->isAnonymousStructOrUnion())
- OrigRec = cast<CXXRecordDecl>(OrigRec->getDeclContext());
- if (cast<CXXRecordDecl>(CurContext)->isProvablyNotDerivedFrom(OrigRec)) {
- if (OrigDC == CurContext) {
- Diag(Using->getLocation(),
- diag::err_using_decl_nested_name_specifier_is_current_class)
- << Using->getQualifierLoc().getSourceRange();
- Diag(Orig->getLocation(), diag::note_using_decl_target);
- Using->setInvalidDecl();
- return true;
- }
- Diag(Using->getQualifierLoc().getBeginLoc(),
- diag::err_using_decl_nested_name_specifier_is_not_base_class)
- << Using->getQualifier() << cast<CXXRecordDecl>(CurContext)
- << Using->getQualifierLoc().getSourceRange();
- Diag(Orig->getLocation(), diag::note_using_decl_target);
- Using->setInvalidDecl();
- return true;
- }
- }
- if (Previous.empty()) return false;
- NamedDecl *Target = Orig;
- if (isa<UsingShadowDecl>(Target))
- Target = cast<UsingShadowDecl>(Target)->getTargetDecl();
- // If the target happens to be one of the previous declarations, we
- // don't have a conflict.
- //
- // FIXME: but we might be increasing its access, in which case we
- // should redeclare it.
- NamedDecl *NonTag = nullptr, *Tag = nullptr;
- bool FoundEquivalentDecl = false;
- for (LookupResult::iterator I = Previous.begin(), E = Previous.end();
- I != E; ++I) {
- NamedDecl *D = (*I)->getUnderlyingDecl();
- // We can have UsingDecls in our Previous results because we use the same
- // LookupResult for checking whether the UsingDecl itself is a valid
- // redeclaration.
- if (isa<UsingDecl>(D) || isa<UsingPackDecl>(D) || isa<UsingEnumDecl>(D))
- continue;
- if (auto *RD = dyn_cast<CXXRecordDecl>(D)) {
- // C++ [class.mem]p19:
- // If T is the name of a class, then [every named member other than
- // a non-static data member] shall have a name different from T
- if (RD->isInjectedClassName() && !isa<FieldDecl>(Target) &&
- !isa<IndirectFieldDecl>(Target) &&
- !isa<UnresolvedUsingValueDecl>(Target) &&
- DiagnoseClassNameShadow(
- CurContext,
- DeclarationNameInfo(BUD->getDeclName(), BUD->getLocation())))
- return true;
- }
- if (IsEquivalentForUsingDecl(Context, D, Target)) {
- if (UsingShadowDecl *Shadow = dyn_cast<UsingShadowDecl>(*I))
- PrevShadow = Shadow;
- FoundEquivalentDecl = true;
- } else if (isEquivalentInternalLinkageDeclaration(D, Target)) {
- // We don't conflict with an existing using shadow decl of an equivalent
- // declaration, but we're not a redeclaration of it.
- FoundEquivalentDecl = true;
- }
- if (isVisible(D))
- (isa<TagDecl>(D) ? Tag : NonTag) = D;
- }
- if (FoundEquivalentDecl)
- return false;
- // Always emit a diagnostic for a mismatch between an unresolved
- // using_if_exists and a resolved using declaration in either direction.
- if (isa<UnresolvedUsingIfExistsDecl>(Target) !=
- (isa_and_nonnull<UnresolvedUsingIfExistsDecl>(NonTag))) {
- if (!NonTag && !Tag)
- return false;
- Diag(BUD->getLocation(), diag::err_using_decl_conflict);
- Diag(Target->getLocation(), diag::note_using_decl_target);
- Diag((NonTag ? NonTag : Tag)->getLocation(),
- diag::note_using_decl_conflict);
- BUD->setInvalidDecl();
- return true;
- }
- if (FunctionDecl *FD = Target->getAsFunction()) {
- NamedDecl *OldDecl = nullptr;
- switch (CheckOverload(nullptr, FD, Previous, OldDecl,
- /*IsForUsingDecl*/ true)) {
- case Ovl_Overload:
- return false;
- case Ovl_NonFunction:
- Diag(BUD->getLocation(), diag::err_using_decl_conflict);
- break;
- // We found a decl with the exact signature.
- case Ovl_Match:
- // If we're in a record, we want to hide the target, so we
- // return true (without a diagnostic) to tell the caller not to
- // build a shadow decl.
- if (CurContext->isRecord())
- return true;
- // If we're not in a record, this is an error.
- Diag(BUD->getLocation(), diag::err_using_decl_conflict);
- break;
- }
- Diag(Target->getLocation(), diag::note_using_decl_target);
- Diag(OldDecl->getLocation(), diag::note_using_decl_conflict);
- BUD->setInvalidDecl();
- return true;
- }
- // Target is not a function.
- if (isa<TagDecl>(Target)) {
- // No conflict between a tag and a non-tag.
- if (!Tag) return false;
- Diag(BUD->getLocation(), diag::err_using_decl_conflict);
- Diag(Target->getLocation(), diag::note_using_decl_target);
- Diag(Tag->getLocation(), diag::note_using_decl_conflict);
- BUD->setInvalidDecl();
- return true;
- }
- // No conflict between a tag and a non-tag.
- if (!NonTag) return false;
- Diag(BUD->getLocation(), diag::err_using_decl_conflict);
- Diag(Target->getLocation(), diag::note_using_decl_target);
- Diag(NonTag->getLocation(), diag::note_using_decl_conflict);
- BUD->setInvalidDecl();
- return true;
- }
- /// Determine whether a direct base class is a virtual base class.
- static bool isVirtualDirectBase(CXXRecordDecl *Derived, CXXRecordDecl *Base) {
- if (!Derived->getNumVBases())
- return false;
- for (auto &B : Derived->bases())
- if (B.getType()->getAsCXXRecordDecl() == Base)
- return B.isVirtual();
- llvm_unreachable("not a direct base class");
- }
- /// Builds a shadow declaration corresponding to a 'using' declaration.
- UsingShadowDecl *Sema::BuildUsingShadowDecl(Scope *S, BaseUsingDecl *BUD,
- NamedDecl *Orig,
- UsingShadowDecl *PrevDecl) {
- // If we resolved to another shadow declaration, just coalesce them.
- NamedDecl *Target = Orig;
- if (isa<UsingShadowDecl>(Target)) {
- Target = cast<UsingShadowDecl>(Target)->getTargetDecl();
- assert(!isa<UsingShadowDecl>(Target) && "nested shadow declaration");
- }
- NamedDecl *NonTemplateTarget = Target;
- if (auto *TargetTD = dyn_cast<TemplateDecl>(Target))
- NonTemplateTarget = TargetTD->getTemplatedDecl();
- UsingShadowDecl *Shadow;
- if (NonTemplateTarget && isa<CXXConstructorDecl>(NonTemplateTarget)) {
- UsingDecl *Using = cast<UsingDecl>(BUD);
- bool IsVirtualBase =
- isVirtualDirectBase(cast<CXXRecordDecl>(CurContext),
- Using->getQualifier()->getAsRecordDecl());
- Shadow = ConstructorUsingShadowDecl::Create(
- Context, CurContext, Using->getLocation(), Using, Orig, IsVirtualBase);
- } else {
- Shadow = UsingShadowDecl::Create(Context, CurContext, BUD->getLocation(),
- Target->getDeclName(), BUD, Target);
- }
- BUD->addShadowDecl(Shadow);
- Shadow->setAccess(BUD->getAccess());
- if (Orig->isInvalidDecl() || BUD->isInvalidDecl())
- Shadow->setInvalidDecl();
- Shadow->setPreviousDecl(PrevDecl);
- if (S)
- PushOnScopeChains(Shadow, S);
- else
- CurContext->addDecl(Shadow);
- return Shadow;
- }
- /// Hides a using shadow declaration. This is required by the current
- /// using-decl implementation when a resolvable using declaration in a
- /// class is followed by a declaration which would hide or override
- /// one or more of the using decl's targets; for example:
- ///
- /// struct Base { void foo(int); };
- /// struct Derived : Base {
- /// using Base::foo;
- /// void foo(int);
- /// };
- ///
- /// The governing language is C++03 [namespace.udecl]p12:
- ///
- /// When a using-declaration brings names from a base class into a
- /// derived class scope, member functions in the derived class
- /// override and/or hide member functions with the same name and
- /// parameter types in a base class (rather than conflicting).
- ///
- /// There are two ways to implement this:
- /// (1) optimistically create shadow decls when they're not hidden
- /// by existing declarations, or
- /// (2) don't create any shadow decls (or at least don't make them
- /// visible) until we've fully parsed/instantiated the class.
- /// The problem with (1) is that we might have to retroactively remove
- /// a shadow decl, which requires several O(n) operations because the
- /// decl structures are (very reasonably) not designed for removal.
- /// (2) avoids this but is very fiddly and phase-dependent.
- void Sema::HideUsingShadowDecl(Scope *S, UsingShadowDecl *Shadow) {
- if (Shadow->getDeclName().getNameKind() ==
- DeclarationName::CXXConversionFunctionName)
- cast<CXXRecordDecl>(Shadow->getDeclContext())->removeConversion(Shadow);
- // Remove it from the DeclContext...
- Shadow->getDeclContext()->removeDecl(Shadow);
- // ...and the scope, if applicable...
- if (S) {
- S->RemoveDecl(Shadow);
- IdResolver.RemoveDecl(Shadow);
- }
- // ...and the using decl.
- Shadow->getIntroducer()->removeShadowDecl(Shadow);
- // TODO: complain somehow if Shadow was used. It shouldn't
- // be possible for this to happen, because...?
- }
- /// Find the base specifier for a base class with the given type.
- static CXXBaseSpecifier *findDirectBaseWithType(CXXRecordDecl *Derived,
- QualType DesiredBase,
- bool &AnyDependentBases) {
- // Check whether the named type is a direct base class.
- CanQualType CanonicalDesiredBase = DesiredBase->getCanonicalTypeUnqualified()
- .getUnqualifiedType();
- for (auto &Base : Derived->bases()) {
- CanQualType BaseType = Base.getType()->getCanonicalTypeUnqualified();
- if (CanonicalDesiredBase == BaseType)
- return &Base;
- if (BaseType->isDependentType())
- AnyDependentBases = true;
- }
- return nullptr;
- }
- namespace {
- class UsingValidatorCCC final : public CorrectionCandidateCallback {
- public:
- UsingValidatorCCC(bool HasTypenameKeyword, bool IsInstantiation,
- NestedNameSpecifier *NNS, CXXRecordDecl *RequireMemberOf)
- : HasTypenameKeyword(HasTypenameKeyword),
- IsInstantiation(IsInstantiation), OldNNS(NNS),
- RequireMemberOf(RequireMemberOf) {}
- bool ValidateCandidate(const TypoCorrection &Candidate) override {
- NamedDecl *ND = Candidate.getCorrectionDecl();
- // Keywords are not valid here.
- if (!ND || isa<NamespaceDecl>(ND))
- return false;
- // Completely unqualified names are invalid for a 'using' declaration.
- if (Candidate.WillReplaceSpecifier() && !Candidate.getCorrectionSpecifier())
- return false;
- // FIXME: Don't correct to a name that CheckUsingDeclRedeclaration would
- // reject.
- if (RequireMemberOf) {
- auto *FoundRecord = dyn_cast<CXXRecordDecl>(ND);
- if (FoundRecord && FoundRecord->isInjectedClassName()) {
- // No-one ever wants a using-declaration to name an injected-class-name
- // of a base class, unless they're declaring an inheriting constructor.
- ASTContext &Ctx = ND->getASTContext();
- if (!Ctx.getLangOpts().CPlusPlus11)
- return false;
- QualType FoundType = Ctx.getRecordType(FoundRecord);
- // Check that the injected-class-name is named as a member of its own
- // type; we don't want to suggest 'using Derived::Base;', since that
- // means something else.
- NestedNameSpecifier *Specifier =
- Candidate.WillReplaceSpecifier()
- ? Candidate.getCorrectionSpecifier()
- : OldNNS;
- if (!Specifier->getAsType() ||
- !Ctx.hasSameType(QualType(Specifier->getAsType(), 0), FoundType))
- return false;
- // Check that this inheriting constructor declaration actually names a
- // direct base class of the current class.
- bool AnyDependentBases = false;
- if (!findDirectBaseWithType(RequireMemberOf,
- Ctx.getRecordType(FoundRecord),
- AnyDependentBases) &&
- !AnyDependentBases)
- return false;
- } else {
- auto *RD = dyn_cast<CXXRecordDecl>(ND->getDeclContext());
- if (!RD || RequireMemberOf->isProvablyNotDerivedFrom(RD))
- return false;
- // FIXME: Check that the base class member is accessible?
- }
- } else {
- auto *FoundRecord = dyn_cast<CXXRecordDecl>(ND);
- if (FoundRecord && FoundRecord->isInjectedClassName())
- return false;
- }
- if (isa<TypeDecl>(ND))
- return HasTypenameKeyword || !IsInstantiation;
- return !HasTypenameKeyword;
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<UsingValidatorCCC>(*this);
- }
- private:
- bool HasTypenameKeyword;
- bool IsInstantiation;
- NestedNameSpecifier *OldNNS;
- CXXRecordDecl *RequireMemberOf;
- };
- } // end anonymous namespace
- /// Remove decls we can't actually see from a lookup being used to declare
- /// shadow using decls.
- ///
- /// \param S - The scope of the potential shadow decl
- /// \param Previous - The lookup of a potential shadow decl's name.
- void Sema::FilterUsingLookup(Scope *S, LookupResult &Previous) {
- // It is really dumb that we have to do this.
- LookupResult::Filter F = Previous.makeFilter();
- while (F.hasNext()) {
- NamedDecl *D = F.next();
- if (!isDeclInScope(D, CurContext, S))
- F.erase();
- // If we found a local extern declaration that's not ordinarily visible,
- // and this declaration is being added to a non-block scope, ignore it.
- // We're only checking for scope conflicts here, not also for violations
- // of the linkage rules.
- else if (!CurContext->isFunctionOrMethod() && D->isLocalExternDecl() &&
- !(D->getIdentifierNamespace() & Decl::IDNS_Ordinary))
- F.erase();
- }
- F.done();
- }
- /// Builds a using declaration.
- ///
- /// \param IsInstantiation - Whether this call arises from an
- /// instantiation of an unresolved using declaration. We treat
- /// the lookup differently for these declarations.
- NamedDecl *Sema::BuildUsingDeclaration(
- Scope *S, AccessSpecifier AS, SourceLocation UsingLoc,
- bool HasTypenameKeyword, SourceLocation TypenameLoc, CXXScopeSpec &SS,
- DeclarationNameInfo NameInfo, SourceLocation EllipsisLoc,
- const ParsedAttributesView &AttrList, bool IsInstantiation,
- bool IsUsingIfExists) {
- assert(!SS.isInvalid() && "Invalid CXXScopeSpec.");
- SourceLocation IdentLoc = NameInfo.getLoc();
- assert(IdentLoc.isValid() && "Invalid TargetName location.");
- // FIXME: We ignore attributes for now.
- // For an inheriting constructor declaration, the name of the using
- // declaration is the name of a constructor in this class, not in the
- // base class.
- DeclarationNameInfo UsingName = NameInfo;
- if (UsingName.getName().getNameKind() == DeclarationName::CXXConstructorName)
- if (auto *RD = dyn_cast<CXXRecordDecl>(CurContext))
- UsingName.setName(Context.DeclarationNames.getCXXConstructorName(
- Context.getCanonicalType(Context.getRecordType(RD))));
- // Do the redeclaration lookup in the current scope.
- LookupResult Previous(*this, UsingName, LookupUsingDeclName,
- ForVisibleRedeclaration);
- Previous.setHideTags(false);
- if (S) {
- LookupName(Previous, S);
- FilterUsingLookup(S, Previous);
- } else {
- assert(IsInstantiation && "no scope in non-instantiation");
- if (CurContext->isRecord())
- LookupQualifiedName(Previous, CurContext);
- else {
- // No redeclaration check is needed here; in non-member contexts we
- // diagnosed all possible conflicts with other using-declarations when
- // building the template:
- //
- // For a dependent non-type using declaration, the only valid case is
- // if we instantiate to a single enumerator. We check for conflicts
- // between shadow declarations we introduce, and we check in the template
- // definition for conflicts between a non-type using declaration and any
- // other declaration, which together covers all cases.
- //
- // A dependent typename using declaration will never successfully
- // instantiate, since it will always name a class member, so we reject
- // that in the template definition.
- }
- }
- // Check for invalid redeclarations.
- if (CheckUsingDeclRedeclaration(UsingLoc, HasTypenameKeyword,
- SS, IdentLoc, Previous))
- return nullptr;
- // 'using_if_exists' doesn't make sense on an inherited constructor.
- if (IsUsingIfExists && UsingName.getName().getNameKind() ==
- DeclarationName::CXXConstructorName) {
- Diag(UsingLoc, diag::err_using_if_exists_on_ctor);
- return nullptr;
- }
- DeclContext *LookupContext = computeDeclContext(SS);
- NestedNameSpecifierLoc QualifierLoc = SS.getWithLocInContext(Context);
- if (!LookupContext || EllipsisLoc.isValid()) {
- NamedDecl *D;
- // Dependent scope, or an unexpanded pack
- if (!LookupContext && CheckUsingDeclQualifier(UsingLoc, HasTypenameKeyword,
- SS, NameInfo, IdentLoc))
- return nullptr;
- if (HasTypenameKeyword) {
- // FIXME: not all declaration name kinds are legal here
- D = UnresolvedUsingTypenameDecl::Create(Context, CurContext,
- UsingLoc, TypenameLoc,
- QualifierLoc,
- IdentLoc, NameInfo.getName(),
- EllipsisLoc);
- } else {
- D = UnresolvedUsingValueDecl::Create(Context, CurContext, UsingLoc,
- QualifierLoc, NameInfo, EllipsisLoc);
- }
- D->setAccess(AS);
- CurContext->addDecl(D);
- ProcessDeclAttributeList(S, D, AttrList);
- return D;
- }
- auto Build = [&](bool Invalid) {
- UsingDecl *UD =
- UsingDecl::Create(Context, CurContext, UsingLoc, QualifierLoc,
- UsingName, HasTypenameKeyword);
- UD->setAccess(AS);
- CurContext->addDecl(UD);
- ProcessDeclAttributeList(S, UD, AttrList);
- UD->setInvalidDecl(Invalid);
- return UD;
- };
- auto BuildInvalid = [&]{ return Build(true); };
- auto BuildValid = [&]{ return Build(false); };
- if (RequireCompleteDeclContext(SS, LookupContext))
- return BuildInvalid();
- // Look up the target name.
- LookupResult R(*this, NameInfo, LookupOrdinaryName);
- // Unlike most lookups, we don't always want to hide tag
- // declarations: tag names are visible through the using declaration
- // even if hidden by ordinary names, *except* in a dependent context
- // where they may be used by two-phase lookup.
- if (!IsInstantiation)
- R.setHideTags(false);
- // For the purposes of this lookup, we have a base object type
- // equal to that of the current context.
- if (CurContext->isRecord()) {
- R.setBaseObjectType(
- Context.getTypeDeclType(cast<CXXRecordDecl>(CurContext)));
- }
- LookupQualifiedName(R, LookupContext);
- // Validate the context, now we have a lookup
- if (CheckUsingDeclQualifier(UsingLoc, HasTypenameKeyword, SS, NameInfo,
- IdentLoc, &R))
- return nullptr;
- if (R.empty() && IsUsingIfExists)
- R.addDecl(UnresolvedUsingIfExistsDecl::Create(Context, CurContext, UsingLoc,
- UsingName.getName()),
- AS_public);
- // Try to correct typos if possible. If constructor name lookup finds no
- // results, that means the named class has no explicit constructors, and we
- // suppressed declaring implicit ones (probably because it's dependent or
- // invalid).
- if (R.empty() &&
- NameInfo.getName().getNameKind() != DeclarationName::CXXConstructorName) {
- // HACK 2017-01-08: Work around an issue with libstdc++'s detection of
- // ::gets. Sometimes it believes that glibc provides a ::gets in cases where
- // it does not. The issue was fixed in libstdc++ 6.3 (2016-12-21) and later.
- auto *II = NameInfo.getName().getAsIdentifierInfo();
- if (getLangOpts().CPlusPlus14 && II && II->isStr("gets") &&
- CurContext->isStdNamespace() &&
- isa<TranslationUnitDecl>(LookupContext) &&
- getSourceManager().isInSystemHeader(UsingLoc))
- return nullptr;
- UsingValidatorCCC CCC(HasTypenameKeyword, IsInstantiation, SS.getScopeRep(),
- dyn_cast<CXXRecordDecl>(CurContext));
- if (TypoCorrection Corrected =
- CorrectTypo(R.getLookupNameInfo(), R.getLookupKind(), S, &SS, CCC,
- CTK_ErrorRecovery)) {
- // We reject candidates where DroppedSpecifier == true, hence the
- // literal '0' below.
- diagnoseTypo(Corrected, PDiag(diag::err_no_member_suggest)
- << NameInfo.getName() << LookupContext << 0
- << SS.getRange());
- // If we picked a correction with no attached Decl we can't do anything
- // useful with it, bail out.
- NamedDecl *ND = Corrected.getCorrectionDecl();
- if (!ND)
- return BuildInvalid();
- // If we corrected to an inheriting constructor, handle it as one.
- auto *RD = dyn_cast<CXXRecordDecl>(ND);
- if (RD && RD->isInjectedClassName()) {
- // The parent of the injected class name is the class itself.
- RD = cast<CXXRecordDecl>(RD->getParent());
- // Fix up the information we'll use to build the using declaration.
- if (Corrected.WillReplaceSpecifier()) {
- NestedNameSpecifierLocBuilder Builder;
- Builder.MakeTrivial(Context, Corrected.getCorrectionSpecifier(),
- QualifierLoc.getSourceRange());
- QualifierLoc = Builder.getWithLocInContext(Context);
- }
- // In this case, the name we introduce is the name of a derived class
- // constructor.
- auto *CurClass = cast<CXXRecordDecl>(CurContext);
- UsingName.setName(Context.DeclarationNames.getCXXConstructorName(
- Context.getCanonicalType(Context.getRecordType(CurClass))));
- UsingName.setNamedTypeInfo(nullptr);
- for (auto *Ctor : LookupConstructors(RD))
- R.addDecl(Ctor);
- R.resolveKind();
- } else {
- // FIXME: Pick up all the declarations if we found an overloaded
- // function.
- UsingName.setName(ND->getDeclName());
- R.addDecl(ND);
- }
- } else {
- Diag(IdentLoc, diag::err_no_member)
- << NameInfo.getName() << LookupContext << SS.getRange();
- return BuildInvalid();
- }
- }
- if (R.isAmbiguous())
- return BuildInvalid();
- if (HasTypenameKeyword) {
- // If we asked for a typename and got a non-type decl, error out.
- if (!R.getAsSingle<TypeDecl>() &&
- !R.getAsSingle<UnresolvedUsingIfExistsDecl>()) {
- Diag(IdentLoc, diag::err_using_typename_non_type);
- for (LookupResult::iterator I = R.begin(), E = R.end(); I != E; ++I)
- Diag((*I)->getUnderlyingDecl()->getLocation(),
- diag::note_using_decl_target);
- return BuildInvalid();
- }
- } else {
- // If we asked for a non-typename and we got a type, error out,
- // but only if this is an instantiation of an unresolved using
- // decl. Otherwise just silently find the type name.
- if (IsInstantiation && R.getAsSingle<TypeDecl>()) {
- Diag(IdentLoc, diag::err_using_dependent_value_is_type);
- Diag(R.getFoundDecl()->getLocation(), diag::note_using_decl_target);
- return BuildInvalid();
- }
- }
- // C++14 [namespace.udecl]p6:
- // A using-declaration shall not name a namespace.
- if (R.getAsSingle<NamespaceDecl>()) {
- Diag(IdentLoc, diag::err_using_decl_can_not_refer_to_namespace)
- << SS.getRange();
- return BuildInvalid();
- }
- UsingDecl *UD = BuildValid();
- // Some additional rules apply to inheriting constructors.
- if (UsingName.getName().getNameKind() ==
- DeclarationName::CXXConstructorName) {
- // Suppress access diagnostics; the access check is instead performed at the
- // point of use for an inheriting constructor.
- R.suppressDiagnostics();
- if (CheckInheritingConstructorUsingDecl(UD))
- return UD;
- }
- for (LookupResult::iterator I = R.begin(), E = R.end(); I != E; ++I) {
- UsingShadowDecl *PrevDecl = nullptr;
- if (!CheckUsingShadowDecl(UD, *I, Previous, PrevDecl))
- BuildUsingShadowDecl(S, UD, *I, PrevDecl);
- }
- return UD;
- }
- NamedDecl *Sema::BuildUsingEnumDeclaration(Scope *S, AccessSpecifier AS,
- SourceLocation UsingLoc,
- SourceLocation EnumLoc,
- SourceLocation NameLoc,
- TypeSourceInfo *EnumType,
- EnumDecl *ED) {
- bool Invalid = false;
- if (CurContext->getRedeclContext()->isRecord()) {
- /// In class scope, check if this is a duplicate, for better a diagnostic.
- DeclarationNameInfo UsingEnumName(ED->getDeclName(), NameLoc);
- LookupResult Previous(*this, UsingEnumName, LookupUsingDeclName,
- ForVisibleRedeclaration);
- LookupName(Previous, S);
- for (NamedDecl *D : Previous)
- if (UsingEnumDecl *UED = dyn_cast<UsingEnumDecl>(D))
- if (UED->getEnumDecl() == ED) {
- Diag(UsingLoc, diag::err_using_enum_decl_redeclaration)
- << SourceRange(EnumLoc, NameLoc);
- Diag(D->getLocation(), diag::note_using_enum_decl) << 1;
- Invalid = true;
- break;
- }
- }
- if (RequireCompleteEnumDecl(ED, NameLoc))
- Invalid = true;
- UsingEnumDecl *UD = UsingEnumDecl::Create(Context, CurContext, UsingLoc,
- EnumLoc, NameLoc, EnumType);
- UD->setAccess(AS);
- CurContext->addDecl(UD);
- if (Invalid) {
- UD->setInvalidDecl();
- return UD;
- }
- // Create the shadow decls for each enumerator
- for (EnumConstantDecl *EC : ED->enumerators()) {
- UsingShadowDecl *PrevDecl = nullptr;
- DeclarationNameInfo DNI(EC->getDeclName(), EC->getLocation());
- LookupResult Previous(*this, DNI, LookupOrdinaryName,
- ForVisibleRedeclaration);
- LookupName(Previous, S);
- FilterUsingLookup(S, Previous);
- if (!CheckUsingShadowDecl(UD, EC, Previous, PrevDecl))
- BuildUsingShadowDecl(S, UD, EC, PrevDecl);
- }
- return UD;
- }
- NamedDecl *Sema::BuildUsingPackDecl(NamedDecl *InstantiatedFrom,
- ArrayRef<NamedDecl *> Expansions) {
- assert(isa<UnresolvedUsingValueDecl>(InstantiatedFrom) ||
- isa<UnresolvedUsingTypenameDecl>(InstantiatedFrom) ||
- isa<UsingPackDecl>(InstantiatedFrom));
- auto *UPD =
- UsingPackDecl::Create(Context, CurContext, InstantiatedFrom, Expansions);
- UPD->setAccess(InstantiatedFrom->getAccess());
- CurContext->addDecl(UPD);
- return UPD;
- }
- /// Additional checks for a using declaration referring to a constructor name.
- bool Sema::CheckInheritingConstructorUsingDecl(UsingDecl *UD) {
- assert(!UD->hasTypename() && "expecting a constructor name");
- const Type *SourceType = UD->getQualifier()->getAsType();
- assert(SourceType &&
- "Using decl naming constructor doesn't have type in scope spec.");
- CXXRecordDecl *TargetClass = cast<CXXRecordDecl>(CurContext);
- // Check whether the named type is a direct base class.
- bool AnyDependentBases = false;
- auto *Base = findDirectBaseWithType(TargetClass, QualType(SourceType, 0),
- AnyDependentBases);
- if (!Base && !AnyDependentBases) {
- Diag(UD->getUsingLoc(),
- diag::err_using_decl_constructor_not_in_direct_base)
- << UD->getNameInfo().getSourceRange()
- << QualType(SourceType, 0) << TargetClass;
- UD->setInvalidDecl();
- return true;
- }
- if (Base)
- Base->setInheritConstructors();
- return false;
- }
- /// Checks that the given using declaration is not an invalid
- /// redeclaration. Note that this is checking only for the using decl
- /// itself, not for any ill-formedness among the UsingShadowDecls.
- bool Sema::CheckUsingDeclRedeclaration(SourceLocation UsingLoc,
- bool HasTypenameKeyword,
- const CXXScopeSpec &SS,
- SourceLocation NameLoc,
- const LookupResult &Prev) {
- NestedNameSpecifier *Qual = SS.getScopeRep();
- // C++03 [namespace.udecl]p8:
- // C++0x [namespace.udecl]p10:
- // A using-declaration is a declaration and can therefore be used
- // repeatedly where (and only where) multiple declarations are
- // allowed.
- //
- // That's in non-member contexts.
- if (!CurContext->getRedeclContext()->isRecord()) {
- // A dependent qualifier outside a class can only ever resolve to an
- // enumeration type. Therefore it conflicts with any other non-type
- // declaration in the same scope.
- // FIXME: How should we check for dependent type-type conflicts at block
- // scope?
- if (Qual->isDependent() && !HasTypenameKeyword) {
- for (auto *D : Prev) {
- if (!isa<TypeDecl>(D) && !isa<UsingDecl>(D) && !isa<UsingPackDecl>(D)) {
- bool OldCouldBeEnumerator =
- isa<UnresolvedUsingValueDecl>(D) || isa<EnumConstantDecl>(D);
- Diag(NameLoc,
- OldCouldBeEnumerator ? diag::err_redefinition
- : diag::err_redefinition_different_kind)
- << Prev.getLookupName();
- Diag(D->getLocation(), diag::note_previous_definition);
- return true;
- }
- }
- }
- return false;
- }
- const NestedNameSpecifier *CNNS =
- Context.getCanonicalNestedNameSpecifier(Qual);
- for (LookupResult::iterator I = Prev.begin(), E = Prev.end(); I != E; ++I) {
- NamedDecl *D = *I;
- bool DTypename;
- NestedNameSpecifier *DQual;
- if (UsingDecl *UD = dyn_cast<UsingDecl>(D)) {
- DTypename = UD->hasTypename();
- DQual = UD->getQualifier();
- } else if (UnresolvedUsingValueDecl *UD
- = dyn_cast<UnresolvedUsingValueDecl>(D)) {
- DTypename = false;
- DQual = UD->getQualifier();
- } else if (UnresolvedUsingTypenameDecl *UD
- = dyn_cast<UnresolvedUsingTypenameDecl>(D)) {
- DTypename = true;
- DQual = UD->getQualifier();
- } else continue;
- // using decls differ if one says 'typename' and the other doesn't.
- // FIXME: non-dependent using decls?
- if (HasTypenameKeyword != DTypename) continue;
- // using decls differ if they name different scopes (but note that
- // template instantiation can cause this check to trigger when it
- // didn't before instantiation).
- if (CNNS != Context.getCanonicalNestedNameSpecifier(DQual))
- continue;
- Diag(NameLoc, diag::err_using_decl_redeclaration) << SS.getRange();
- Diag(D->getLocation(), diag::note_using_decl) << 1;
- return true;
- }
- return false;
- }
- /// Checks that the given nested-name qualifier used in a using decl
- /// in the current context is appropriately related to the current
- /// scope. If an error is found, diagnoses it and returns true.
- /// R is nullptr, if the caller has not (yet) done a lookup, otherwise it's the
- /// result of that lookup. UD is likewise nullptr, except when we have an
- /// already-populated UsingDecl whose shadow decls contain the same information
- /// (i.e. we're instantiating a UsingDecl with non-dependent scope).
- bool Sema::CheckUsingDeclQualifier(SourceLocation UsingLoc, bool HasTypename,
- const CXXScopeSpec &SS,
- const DeclarationNameInfo &NameInfo,
- SourceLocation NameLoc,
- const LookupResult *R, const UsingDecl *UD) {
- DeclContext *NamedContext = computeDeclContext(SS);
- assert(bool(NamedContext) == (R || UD) && !(R && UD) &&
- "resolvable context must have exactly one set of decls");
- // C++ 20 permits using an enumerator that does not have a class-hierarchy
- // relationship.
- bool Cxx20Enumerator = false;
- if (NamedContext) {
- EnumConstantDecl *EC = nullptr;
- if (R)
- EC = R->getAsSingle<EnumConstantDecl>();
- else if (UD && UD->shadow_size() == 1)
- EC = dyn_cast<EnumConstantDecl>(UD->shadow_begin()->getTargetDecl());
- if (EC)
- Cxx20Enumerator = getLangOpts().CPlusPlus20;
- if (auto *ED = dyn_cast<EnumDecl>(NamedContext)) {
- // C++14 [namespace.udecl]p7:
- // A using-declaration shall not name a scoped enumerator.
- // C++20 p1099 permits enumerators.
- if (EC && R && ED->isScoped())
- Diag(SS.getBeginLoc(),
- getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_using_decl_scoped_enumerator
- : diag::ext_using_decl_scoped_enumerator)
- << SS.getRange();
- // We want to consider the scope of the enumerator
- NamedContext = ED->getDeclContext();
- }
- }
- if (!CurContext->isRecord()) {
- // C++03 [namespace.udecl]p3:
- // C++0x [namespace.udecl]p8:
- // A using-declaration for a class member shall be a member-declaration.
- // C++20 [namespace.udecl]p7
- // ... other than an enumerator ...
- // If we weren't able to compute a valid scope, it might validly be a
- // dependent class or enumeration scope. If we have a 'typename' keyword,
- // the scope must resolve to a class type.
- if (NamedContext ? !NamedContext->getRedeclContext()->isRecord()
- : !HasTypename)
- return false; // OK
- Diag(NameLoc,
- Cxx20Enumerator
- ? diag::warn_cxx17_compat_using_decl_class_member_enumerator
- : diag::err_using_decl_can_not_refer_to_class_member)
- << SS.getRange();
- if (Cxx20Enumerator)
- return false; // OK
- auto *RD = NamedContext
- ? cast<CXXRecordDecl>(NamedContext->getRedeclContext())
- : nullptr;
- if (RD && !RequireCompleteDeclContext(const_cast<CXXScopeSpec &>(SS), RD)) {
- // See if there's a helpful fixit
- if (!R) {
- // We will have already diagnosed the problem on the template
- // definition, Maybe we should do so again?
- } else if (R->getAsSingle<TypeDecl>()) {
- if (getLangOpts().CPlusPlus11) {
- // Convert 'using X::Y;' to 'using Y = X::Y;'.
- Diag(SS.getBeginLoc(), diag::note_using_decl_class_member_workaround)
- << 0 // alias declaration
- << FixItHint::CreateInsertion(SS.getBeginLoc(),
- NameInfo.getName().getAsString() +
- " = ");
- } else {
- // Convert 'using X::Y;' to 'typedef X::Y Y;'.
- SourceLocation InsertLoc = getLocForEndOfToken(NameInfo.getEndLoc());
- Diag(InsertLoc, diag::note_using_decl_class_member_workaround)
- << 1 // typedef declaration
- << FixItHint::CreateReplacement(UsingLoc, "typedef")
- << FixItHint::CreateInsertion(
- InsertLoc, " " + NameInfo.getName().getAsString());
- }
- } else if (R->getAsSingle<VarDecl>()) {
- // Don't provide a fixit outside C++11 mode; we don't want to suggest
- // repeating the type of the static data member here.
- FixItHint FixIt;
- if (getLangOpts().CPlusPlus11) {
- // Convert 'using X::Y;' to 'auto &Y = X::Y;'.
- FixIt = FixItHint::CreateReplacement(
- UsingLoc, "auto &" + NameInfo.getName().getAsString() + " = ");
- }
- Diag(UsingLoc, diag::note_using_decl_class_member_workaround)
- << 2 // reference declaration
- << FixIt;
- } else if (R->getAsSingle<EnumConstantDecl>()) {
- // Don't provide a fixit outside C++11 mode; we don't want to suggest
- // repeating the type of the enumeration here, and we can't do so if
- // the type is anonymous.
- FixItHint FixIt;
- if (getLangOpts().CPlusPlus11) {
- // Convert 'using X::Y;' to 'auto &Y = X::Y;'.
- FixIt = FixItHint::CreateReplacement(
- UsingLoc,
- "constexpr auto " + NameInfo.getName().getAsString() + " = ");
- }
- Diag(UsingLoc, diag::note_using_decl_class_member_workaround)
- << (getLangOpts().CPlusPlus11 ? 4 : 3) // const[expr] variable
- << FixIt;
- }
- }
- return true; // Fail
- }
- // If the named context is dependent, we can't decide much.
- if (!NamedContext) {
- // FIXME: in C++0x, we can diagnose if we can prove that the
- // nested-name-specifier does not refer to a base class, which is
- // still possible in some cases.
- // Otherwise we have to conservatively report that things might be
- // okay.
- return false;
- }
- // The current scope is a record.
- if (!NamedContext->isRecord()) {
- // Ideally this would point at the last name in the specifier,
- // but we don't have that level of source info.
- Diag(SS.getBeginLoc(),
- Cxx20Enumerator
- ? diag::warn_cxx17_compat_using_decl_non_member_enumerator
- : diag::err_using_decl_nested_name_specifier_is_not_class)
- << SS.getScopeRep() << SS.getRange();
- if (Cxx20Enumerator)
- return false; // OK
- return true;
- }
- if (!NamedContext->isDependentContext() &&
- RequireCompleteDeclContext(const_cast<CXXScopeSpec&>(SS), NamedContext))
- return true;
- if (getLangOpts().CPlusPlus11) {
- // C++11 [namespace.udecl]p3:
- // In a using-declaration used as a member-declaration, the
- // nested-name-specifier shall name a base class of the class
- // being defined.
- if (cast<CXXRecordDecl>(CurContext)->isProvablyNotDerivedFrom(
- cast<CXXRecordDecl>(NamedContext))) {
- if (Cxx20Enumerator) {
- Diag(NameLoc, diag::warn_cxx17_compat_using_decl_non_member_enumerator)
- << SS.getRange();
- return false;
- }
- if (CurContext == NamedContext) {
- Diag(SS.getBeginLoc(),
- diag::err_using_decl_nested_name_specifier_is_current_class)
- << SS.getRange();
- return !getLangOpts().CPlusPlus20;
- }
- if (!cast<CXXRecordDecl>(NamedContext)->isInvalidDecl()) {
- Diag(SS.getBeginLoc(),
- diag::err_using_decl_nested_name_specifier_is_not_base_class)
- << SS.getScopeRep() << cast<CXXRecordDecl>(CurContext)
- << SS.getRange();
- }
- return true;
- }
- return false;
- }
- // C++03 [namespace.udecl]p4:
- // A using-declaration used as a member-declaration shall refer
- // to a member of a base class of the class being defined [etc.].
- // Salient point: SS doesn't have to name a base class as long as
- // lookup only finds members from base classes. Therefore we can
- // diagnose here only if we can prove that can't happen,
- // i.e. if the class hierarchies provably don't intersect.
- // TODO: it would be nice if "definitely valid" results were cached
- // in the UsingDecl and UsingShadowDecl so that these checks didn't
- // need to be repeated.
- llvm::SmallPtrSet<const CXXRecordDecl *, 4> Bases;
- auto Collect = [&Bases](const CXXRecordDecl *Base) {
- Bases.insert(Base);
- return true;
- };
- // Collect all bases. Return false if we find a dependent base.
- if (!cast<CXXRecordDecl>(CurContext)->forallBases(Collect))
- return false;
- // Returns true if the base is dependent or is one of the accumulated base
- // classes.
- auto IsNotBase = [&Bases](const CXXRecordDecl *Base) {
- return !Bases.count(Base);
- };
- // Return false if the class has a dependent base or if it or one
- // of its bases is present in the base set of the current context.
- if (Bases.count(cast<CXXRecordDecl>(NamedContext)) ||
- !cast<CXXRecordDecl>(NamedContext)->forallBases(IsNotBase))
- return false;
- Diag(SS.getRange().getBegin(),
- diag::err_using_decl_nested_name_specifier_is_not_base_class)
- << SS.getScopeRep()
- << cast<CXXRecordDecl>(CurContext)
- << SS.getRange();
- return true;
- }
- Decl *Sema::ActOnAliasDeclaration(Scope *S, AccessSpecifier AS,
- MultiTemplateParamsArg TemplateParamLists,
- SourceLocation UsingLoc, UnqualifiedId &Name,
- const ParsedAttributesView &AttrList,
- TypeResult Type, Decl *DeclFromDeclSpec) {
- // Skip up to the relevant declaration scope.
- while (S->isTemplateParamScope())
- S = S->getParent();
- assert((S->getFlags() & Scope::DeclScope) &&
- "got alias-declaration outside of declaration scope");
- if (Type.isInvalid())
- return nullptr;
- bool Invalid = false;
- DeclarationNameInfo NameInfo = GetNameFromUnqualifiedId(Name);
- TypeSourceInfo *TInfo = nullptr;
- GetTypeFromParser(Type.get(), &TInfo);
- if (DiagnoseClassNameShadow(CurContext, NameInfo))
- return nullptr;
- if (DiagnoseUnexpandedParameterPack(Name.StartLocation, TInfo,
- UPPC_DeclarationType)) {
- Invalid = true;
- TInfo = Context.getTrivialTypeSourceInfo(Context.IntTy,
- TInfo->getTypeLoc().getBeginLoc());
- }
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName,
- TemplateParamLists.size()
- ? forRedeclarationInCurContext()
- : ForVisibleRedeclaration);
- LookupName(Previous, S);
- // Warn about shadowing the name of a template parameter.
- if (Previous.isSingleResult() &&
- Previous.getFoundDecl()->isTemplateParameter()) {
- DiagnoseTemplateParameterShadow(Name.StartLocation,Previous.getFoundDecl());
- Previous.clear();
- }
- assert(Name.getKind() == UnqualifiedIdKind::IK_Identifier &&
- "name in alias declaration must be an identifier");
- TypeAliasDecl *NewTD = TypeAliasDecl::Create(Context, CurContext, UsingLoc,
- Name.StartLocation,
- Name.Identifier, TInfo);
- NewTD->setAccess(AS);
- if (Invalid)
- NewTD->setInvalidDecl();
- ProcessDeclAttributeList(S, NewTD, AttrList);
- AddPragmaAttributes(S, NewTD);
- CheckTypedefForVariablyModifiedType(S, NewTD);
- Invalid |= NewTD->isInvalidDecl();
- bool Redeclaration = false;
- NamedDecl *NewND;
- if (TemplateParamLists.size()) {
- TypeAliasTemplateDecl *OldDecl = nullptr;
- TemplateParameterList *OldTemplateParams = nullptr;
- if (TemplateParamLists.size() != 1) {
- Diag(UsingLoc, diag::err_alias_template_extra_headers)
- << SourceRange(TemplateParamLists[1]->getTemplateLoc(),
- TemplateParamLists[TemplateParamLists.size()-1]->getRAngleLoc());
- }
- TemplateParameterList *TemplateParams = TemplateParamLists[0];
- // Check that we can declare a template here.
- if (CheckTemplateDeclScope(S, TemplateParams))
- return nullptr;
- // Only consider previous declarations in the same scope.
- FilterLookupForScope(Previous, CurContext, S, /*ConsiderLinkage*/false,
- /*ExplicitInstantiationOrSpecialization*/false);
- if (!Previous.empty()) {
- Redeclaration = true;
- OldDecl = Previous.getAsSingle<TypeAliasTemplateDecl>();
- if (!OldDecl && !Invalid) {
- Diag(UsingLoc, diag::err_redefinition_different_kind)
- << Name.Identifier;
- NamedDecl *OldD = Previous.getRepresentativeDecl();
- if (OldD->getLocation().isValid())
- Diag(OldD->getLocation(), diag::note_previous_definition);
- Invalid = true;
- }
- if (!Invalid && OldDecl && !OldDecl->isInvalidDecl()) {
- if (TemplateParameterListsAreEqual(TemplateParams,
- OldDecl->getTemplateParameters(),
- /*Complain=*/true,
- TPL_TemplateMatch))
- OldTemplateParams =
- OldDecl->getMostRecentDecl()->getTemplateParameters();
- else
- Invalid = true;
- TypeAliasDecl *OldTD = OldDecl->getTemplatedDecl();
- if (!Invalid &&
- !Context.hasSameType(OldTD->getUnderlyingType(),
- NewTD->getUnderlyingType())) {
- // FIXME: The C++0x standard does not clearly say this is ill-formed,
- // but we can't reasonably accept it.
- Diag(NewTD->getLocation(), diag::err_redefinition_different_typedef)
- << 2 << NewTD->getUnderlyingType() << OldTD->getUnderlyingType();
- if (OldTD->getLocation().isValid())
- Diag(OldTD->getLocation(), diag::note_previous_definition);
- Invalid = true;
- }
- }
- }
- // Merge any previous default template arguments into our parameters,
- // and check the parameter list.
- if (CheckTemplateParameterList(TemplateParams, OldTemplateParams,
- TPC_TypeAliasTemplate))
- return nullptr;
- TypeAliasTemplateDecl *NewDecl =
- TypeAliasTemplateDecl::Create(Context, CurContext, UsingLoc,
- Name.Identifier, TemplateParams,
- NewTD);
- NewTD->setDescribedAliasTemplate(NewDecl);
- NewDecl->setAccess(AS);
- if (Invalid)
- NewDecl->setInvalidDecl();
- else if (OldDecl) {
- NewDecl->setPreviousDecl(OldDecl);
- CheckRedeclarationInModule(NewDecl, OldDecl);
- }
- NewND = NewDecl;
- } else {
- if (auto *TD = dyn_cast_or_null<TagDecl>(DeclFromDeclSpec)) {
- setTagNameForLinkagePurposes(TD, NewTD);
- handleTagNumbering(TD, S);
- }
- ActOnTypedefNameDecl(S, CurContext, NewTD, Previous, Redeclaration);
- NewND = NewTD;
- }
- PushOnScopeChains(NewND, S);
- ActOnDocumentableDecl(NewND);
- return NewND;
- }
- Decl *Sema::ActOnNamespaceAliasDef(Scope *S, SourceLocation NamespaceLoc,
- SourceLocation AliasLoc,
- IdentifierInfo *Alias, CXXScopeSpec &SS,
- SourceLocation IdentLoc,
- IdentifierInfo *Ident) {
- // Lookup the namespace name.
- LookupResult R(*this, Ident, IdentLoc, LookupNamespaceName);
- LookupParsedName(R, S, &SS);
- if (R.isAmbiguous())
- return nullptr;
- if (R.empty()) {
- if (!TryNamespaceTypoCorrection(*this, R, S, SS, IdentLoc, Ident)) {
- Diag(IdentLoc, diag::err_expected_namespace_name) << SS.getRange();
- return nullptr;
- }
- }
- assert(!R.isAmbiguous() && !R.empty());
- NamedDecl *ND = R.getRepresentativeDecl();
- // Check if we have a previous declaration with the same name.
- LookupResult PrevR(*this, Alias, AliasLoc, LookupOrdinaryName,
- ForVisibleRedeclaration);
- LookupName(PrevR, S);
- // Check we're not shadowing a template parameter.
- if (PrevR.isSingleResult() && PrevR.getFoundDecl()->isTemplateParameter()) {
- DiagnoseTemplateParameterShadow(AliasLoc, PrevR.getFoundDecl());
- PrevR.clear();
- }
- // Filter out any other lookup result from an enclosing scope.
- FilterLookupForScope(PrevR, CurContext, S, /*ConsiderLinkage*/false,
- /*AllowInlineNamespace*/false);
- // Find the previous declaration and check that we can redeclare it.
- NamespaceAliasDecl *Prev = nullptr;
- if (PrevR.isSingleResult()) {
- NamedDecl *PrevDecl = PrevR.getRepresentativeDecl();
- if (NamespaceAliasDecl *AD = dyn_cast<NamespaceAliasDecl>(PrevDecl)) {
- // We already have an alias with the same name that points to the same
- // namespace; check that it matches.
- if (AD->getNamespace()->Equals(getNamespaceDecl(ND))) {
- Prev = AD;
- } else if (isVisible(PrevDecl)) {
- Diag(AliasLoc, diag::err_redefinition_different_namespace_alias)
- << Alias;
- Diag(AD->getLocation(), diag::note_previous_namespace_alias)
- << AD->getNamespace();
- return nullptr;
- }
- } else if (isVisible(PrevDecl)) {
- unsigned DiagID = isa<NamespaceDecl>(PrevDecl->getUnderlyingDecl())
- ? diag::err_redefinition
- : diag::err_redefinition_different_kind;
- Diag(AliasLoc, DiagID) << Alias;
- Diag(PrevDecl->getLocation(), diag::note_previous_definition);
- return nullptr;
- }
- }
- // The use of a nested name specifier may trigger deprecation warnings.
- DiagnoseUseOfDecl(ND, IdentLoc);
- NamespaceAliasDecl *AliasDecl =
- NamespaceAliasDecl::Create(Context, CurContext, NamespaceLoc, AliasLoc,
- Alias, SS.getWithLocInContext(Context),
- IdentLoc, ND);
- if (Prev)
- AliasDecl->setPreviousDecl(Prev);
- PushOnScopeChains(AliasDecl, S);
- return AliasDecl;
- }
- namespace {
- struct SpecialMemberExceptionSpecInfo
- : SpecialMemberVisitor<SpecialMemberExceptionSpecInfo> {
- SourceLocation Loc;
- Sema::ImplicitExceptionSpecification ExceptSpec;
- SpecialMemberExceptionSpecInfo(Sema &S, CXXMethodDecl *MD,
- Sema::CXXSpecialMember CSM,
- Sema::InheritedConstructorInfo *ICI,
- SourceLocation Loc)
- : SpecialMemberVisitor(S, MD, CSM, ICI), Loc(Loc), ExceptSpec(S) {}
- bool visitBase(CXXBaseSpecifier *Base);
- bool visitField(FieldDecl *FD);
- void visitClassSubobject(CXXRecordDecl *Class, Subobject Subobj,
- unsigned Quals);
- void visitSubobjectCall(Subobject Subobj,
- Sema::SpecialMemberOverloadResult SMOR);
- };
- }
- bool SpecialMemberExceptionSpecInfo::visitBase(CXXBaseSpecifier *Base) {
- auto *RT = Base->getType()->getAs<RecordType>();
- if (!RT)
- return false;
- auto *BaseClass = cast<CXXRecordDecl>(RT->getDecl());
- Sema::SpecialMemberOverloadResult SMOR = lookupInheritedCtor(BaseClass);
- if (auto *BaseCtor = SMOR.getMethod()) {
- visitSubobjectCall(Base, BaseCtor);
- return false;
- }
- visitClassSubobject(BaseClass, Base, 0);
- return false;
- }
- bool SpecialMemberExceptionSpecInfo::visitField(FieldDecl *FD) {
- if (CSM == Sema::CXXDefaultConstructor && FD->hasInClassInitializer()) {
- Expr *E = FD->getInClassInitializer();
- if (!E)
- // FIXME: It's a little wasteful to build and throw away a
- // CXXDefaultInitExpr here.
- // FIXME: We should have a single context note pointing at Loc, and
- // this location should be MD->getLocation() instead, since that's
- // the location where we actually use the default init expression.
- E = S.BuildCXXDefaultInitExpr(Loc, FD).get();
- if (E)
- ExceptSpec.CalledExpr(E);
- } else if (auto *RT = S.Context.getBaseElementType(FD->getType())
- ->getAs<RecordType>()) {
- visitClassSubobject(cast<CXXRecordDecl>(RT->getDecl()), FD,
- FD->getType().getCVRQualifiers());
- }
- return false;
- }
- void SpecialMemberExceptionSpecInfo::visitClassSubobject(CXXRecordDecl *Class,
- Subobject Subobj,
- unsigned Quals) {
- FieldDecl *Field = Subobj.dyn_cast<FieldDecl*>();
- bool IsMutable = Field && Field->isMutable();
- visitSubobjectCall(Subobj, lookupIn(Class, Quals, IsMutable));
- }
- void SpecialMemberExceptionSpecInfo::visitSubobjectCall(
- Subobject Subobj, Sema::SpecialMemberOverloadResult SMOR) {
- // Note, if lookup fails, it doesn't matter what exception specification we
- // choose because the special member will be deleted.
- if (CXXMethodDecl *MD = SMOR.getMethod())
- ExceptSpec.CalledDecl(getSubobjectLoc(Subobj), MD);
- }
- bool Sema::tryResolveExplicitSpecifier(ExplicitSpecifier &ExplicitSpec) {
- llvm::APSInt Result;
- ExprResult Converted = CheckConvertedConstantExpression(
- ExplicitSpec.getExpr(), Context.BoolTy, Result, CCEK_ExplicitBool);
- ExplicitSpec.setExpr(Converted.get());
- if (Converted.isUsable() && !Converted.get()->isValueDependent()) {
- ExplicitSpec.setKind(Result.getBoolValue()
- ? ExplicitSpecKind::ResolvedTrue
- : ExplicitSpecKind::ResolvedFalse);
- return true;
- }
- ExplicitSpec.setKind(ExplicitSpecKind::Unresolved);
- return false;
- }
- ExplicitSpecifier Sema::ActOnExplicitBoolSpecifier(Expr *ExplicitExpr) {
- ExplicitSpecifier ES(ExplicitExpr, ExplicitSpecKind::Unresolved);
- if (!ExplicitExpr->isTypeDependent())
- tryResolveExplicitSpecifier(ES);
- return ES;
- }
- static Sema::ImplicitExceptionSpecification
- ComputeDefaultedSpecialMemberExceptionSpec(
- Sema &S, SourceLocation Loc, CXXMethodDecl *MD, Sema::CXXSpecialMember CSM,
- Sema::InheritedConstructorInfo *ICI) {
- ComputingExceptionSpec CES(S, MD, Loc);
- CXXRecordDecl *ClassDecl = MD->getParent();
- // C++ [except.spec]p14:
- // An implicitly declared special member function (Clause 12) shall have an
- // exception-specification. [...]
- SpecialMemberExceptionSpecInfo Info(S, MD, CSM, ICI, MD->getLocation());
- if (ClassDecl->isInvalidDecl())
- return Info.ExceptSpec;
- // FIXME: If this diagnostic fires, we're probably missing a check for
- // attempting to resolve an exception specification before it's known
- // at a higher level.
- if (S.RequireCompleteType(MD->getLocation(),
- S.Context.getRecordType(ClassDecl),
- diag::err_exception_spec_incomplete_type))
- return Info.ExceptSpec;
- // C++1z [except.spec]p7:
- // [Look for exceptions thrown by] a constructor selected [...] to
- // initialize a potentially constructed subobject,
- // C++1z [except.spec]p8:
- // The exception specification for an implicitly-declared destructor, or a
- // destructor without a noexcept-specifier, is potentially-throwing if and
- // only if any of the destructors for any of its potentially constructed
- // subojects is potentially throwing.
- // FIXME: We respect the first rule but ignore the "potentially constructed"
- // in the second rule to resolve a core issue (no number yet) that would have
- // us reject:
- // struct A { virtual void f() = 0; virtual ~A() noexcept(false) = 0; };
- // struct B : A {};
- // struct C : B { void f(); };
- // ... due to giving B::~B() a non-throwing exception specification.
- Info.visit(Info.IsConstructor ? Info.VisitPotentiallyConstructedBases
- : Info.VisitAllBases);
- return Info.ExceptSpec;
- }
- namespace {
- /// RAII object to register a special member as being currently declared.
- struct DeclaringSpecialMember {
- Sema &S;
- Sema::SpecialMemberDecl D;
- Sema::ContextRAII SavedContext;
- bool WasAlreadyBeingDeclared;
- DeclaringSpecialMember(Sema &S, CXXRecordDecl *RD, Sema::CXXSpecialMember CSM)
- : S(S), D(RD, CSM), SavedContext(S, RD) {
- WasAlreadyBeingDeclared = !S.SpecialMembersBeingDeclared.insert(D).second;
- if (WasAlreadyBeingDeclared)
- // This almost never happens, but if it does, ensure that our cache
- // doesn't contain a stale result.
- S.SpecialMemberCache.clear();
- else {
- // Register a note to be produced if we encounter an error while
- // declaring the special member.
- Sema::CodeSynthesisContext Ctx;
- Ctx.Kind = Sema::CodeSynthesisContext::DeclaringSpecialMember;
- // FIXME: We don't have a location to use here. Using the class's
- // location maintains the fiction that we declare all special members
- // with the class, but (1) it's not clear that lying about that helps our
- // users understand what's going on, and (2) there may be outer contexts
- // on the stack (some of which are relevant) and printing them exposes
- // our lies.
- Ctx.PointOfInstantiation = RD->getLocation();
- Ctx.Entity = RD;
- Ctx.SpecialMember = CSM;
- S.pushCodeSynthesisContext(Ctx);
- }
- }
- ~DeclaringSpecialMember() {
- if (!WasAlreadyBeingDeclared) {
- S.SpecialMembersBeingDeclared.erase(D);
- S.popCodeSynthesisContext();
- }
- }
- /// Are we already trying to declare this special member?
- bool isAlreadyBeingDeclared() const {
- return WasAlreadyBeingDeclared;
- }
- };
- }
- void Sema::CheckImplicitSpecialMemberDeclaration(Scope *S, FunctionDecl *FD) {
- // Look up any existing declarations, but don't trigger declaration of all
- // implicit special members with this name.
- DeclarationName Name = FD->getDeclName();
- LookupResult R(*this, Name, SourceLocation(), LookupOrdinaryName,
- ForExternalRedeclaration);
- for (auto *D : FD->getParent()->lookup(Name))
- if (auto *Acceptable = R.getAcceptableDecl(D))
- R.addDecl(Acceptable);
- R.resolveKind();
- R.suppressDiagnostics();
- CheckFunctionDeclaration(S, FD, R, /*IsMemberSpecialization*/ false,
- FD->isThisDeclarationADefinition());
- }
- void Sema::setupImplicitSpecialMemberType(CXXMethodDecl *SpecialMem,
- QualType ResultTy,
- ArrayRef<QualType> Args) {
- // Build an exception specification pointing back at this constructor.
- FunctionProtoType::ExtProtoInfo EPI = getImplicitMethodEPI(*this, SpecialMem);
- LangAS AS = getDefaultCXXMethodAddrSpace();
- if (AS != LangAS::Default) {
- EPI.TypeQuals.addAddressSpace(AS);
- }
- auto QT = Context.getFunctionType(ResultTy, Args, EPI);
- SpecialMem->setType(QT);
- // During template instantiation of implicit special member functions we need
- // a reliable TypeSourceInfo for the function prototype in order to allow
- // functions to be substituted.
- if (inTemplateInstantiation() &&
- cast<CXXRecordDecl>(SpecialMem->getParent())->isLambda()) {
- TypeSourceInfo *TSI =
- Context.getTrivialTypeSourceInfo(SpecialMem->getType());
- SpecialMem->setTypeSourceInfo(TSI);
- }
- }
- CXXConstructorDecl *Sema::DeclareImplicitDefaultConstructor(
- CXXRecordDecl *ClassDecl) {
- // C++ [class.ctor]p5:
- // A default constructor for a class X is a constructor of class X
- // that can be called without an argument. If there is no
- // user-declared constructor for class X, a default constructor is
- // implicitly declared. An implicitly-declared default constructor
- // is an inline public member of its class.
- assert(ClassDecl->needsImplicitDefaultConstructor() &&
- "Should not build implicit default constructor!");
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXDefaultConstructor);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXDefaultConstructor,
- false);
- // Create the actual constructor declaration.
- CanQualType ClassType
- = Context.getCanonicalType(Context.getTypeDeclType(ClassDecl));
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationName Name
- = Context.DeclarationNames.getCXXConstructorName(ClassType);
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- CXXConstructorDecl *DefaultCon = CXXConstructorDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, /*Type*/ QualType(),
- /*TInfo=*/nullptr, ExplicitSpecifier(),
- getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true, /*isImplicitlyDeclared=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr
- : ConstexprSpecKind::Unspecified);
- DefaultCon->setAccess(AS_public);
- DefaultCon->setDefaulted();
- setupImplicitSpecialMemberType(DefaultCon, Context.VoidTy, std::nullopt);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXDefaultConstructor,
- DefaultCon,
- /* ConstRHS */ false,
- /* Diagnose */ false);
- // We don't need to use SpecialMemberIsTrivial here; triviality for default
- // constructors is easy to compute.
- DefaultCon->setTrivial(ClassDecl->hasTrivialDefaultConstructor());
- // Note that we have declared this constructor.
- ++getASTContext().NumImplicitDefaultConstructorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, DefaultCon);
- if (ShouldDeleteSpecialMember(DefaultCon, CXXDefaultConstructor))
- SetDeclDeleted(DefaultCon, ClassLoc);
- if (S)
- PushOnScopeChains(DefaultCon, S, false);
- ClassDecl->addDecl(DefaultCon);
- return DefaultCon;
- }
- void Sema::DefineImplicitDefaultConstructor(SourceLocation CurrentLocation,
- CXXConstructorDecl *Constructor) {
- assert((Constructor->isDefaulted() && Constructor->isDefaultConstructor() &&
- !Constructor->doesThisDeclarationHaveABody() &&
- !Constructor->isDeleted()) &&
- "DefineImplicitDefaultConstructor - call it for implicit default ctor");
- if (Constructor->willHaveBody() || Constructor->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = Constructor->getParent();
- assert(ClassDecl && "DefineImplicitDefaultConstructor - invalid constructor");
- SynthesizedFunctionScope Scope(*this, Constructor);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- Constructor->getType()->castAs<FunctionProtoType>());
- MarkVTableUsed(CurrentLocation, ClassDecl);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- if (SetCtorInitializers(Constructor, /*AnyErrors=*/false)) {
- Constructor->setInvalidDecl();
- return;
- }
- SourceLocation Loc = Constructor->getEndLoc().isValid()
- ? Constructor->getEndLoc()
- : Constructor->getLocation();
- Constructor->setBody(new (Context) CompoundStmt(Loc));
- Constructor->markUsed(Context);
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(Constructor);
- }
- DiagnoseUninitializedFields(*this, Constructor);
- }
- void Sema::ActOnFinishDelayedMemberInitializers(Decl *D) {
- // Perform any delayed checks on exception specifications.
- CheckDelayedMemberExceptionSpecs();
- }
- /// Find or create the fake constructor we synthesize to model constructing an
- /// object of a derived class via a constructor of a base class.
- CXXConstructorDecl *
- Sema::findInheritingConstructor(SourceLocation Loc,
- CXXConstructorDecl *BaseCtor,
- ConstructorUsingShadowDecl *Shadow) {
- CXXRecordDecl *Derived = Shadow->getParent();
- SourceLocation UsingLoc = Shadow->getLocation();
- // FIXME: Add a new kind of DeclarationName for an inherited constructor.
- // For now we use the name of the base class constructor as a member of the
- // derived class to indicate a (fake) inherited constructor name.
- DeclarationName Name = BaseCtor->getDeclName();
- // Check to see if we already have a fake constructor for this inherited
- // constructor call.
- for (NamedDecl *Ctor : Derived->lookup(Name))
- if (declaresSameEntity(cast<CXXConstructorDecl>(Ctor)
- ->getInheritedConstructor()
- .getConstructor(),
- BaseCtor))
- return cast<CXXConstructorDecl>(Ctor);
- DeclarationNameInfo NameInfo(Name, UsingLoc);
- TypeSourceInfo *TInfo =
- Context.getTrivialTypeSourceInfo(BaseCtor->getType(), UsingLoc);
- FunctionProtoTypeLoc ProtoLoc =
- TInfo->getTypeLoc().IgnoreParens().castAs<FunctionProtoTypeLoc>();
- // Check the inherited constructor is valid and find the list of base classes
- // from which it was inherited.
- InheritedConstructorInfo ICI(*this, Loc, Shadow);
- bool Constexpr =
- BaseCtor->isConstexpr() &&
- defaultedSpecialMemberIsConstexpr(*this, Derived, CXXDefaultConstructor,
- false, BaseCtor, &ICI);
- CXXConstructorDecl *DerivedCtor = CXXConstructorDecl::Create(
- Context, Derived, UsingLoc, NameInfo, TInfo->getType(), TInfo,
- BaseCtor->getExplicitSpecifier(), getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- /*isImplicitlyDeclared=*/true,
- Constexpr ? BaseCtor->getConstexprKind() : ConstexprSpecKind::Unspecified,
- InheritedConstructor(Shadow, BaseCtor),
- BaseCtor->getTrailingRequiresClause());
- if (Shadow->isInvalidDecl())
- DerivedCtor->setInvalidDecl();
- // Build an unevaluated exception specification for this fake constructor.
- const FunctionProtoType *FPT = TInfo->getType()->castAs<FunctionProtoType>();
- FunctionProtoType::ExtProtoInfo EPI = FPT->getExtProtoInfo();
- EPI.ExceptionSpec.Type = EST_Unevaluated;
- EPI.ExceptionSpec.SourceDecl = DerivedCtor;
- DerivedCtor->setType(Context.getFunctionType(FPT->getReturnType(),
- FPT->getParamTypes(), EPI));
- // Build the parameter declarations.
- SmallVector<ParmVarDecl *, 16> ParamDecls;
- for (unsigned I = 0, N = FPT->getNumParams(); I != N; ++I) {
- TypeSourceInfo *TInfo =
- Context.getTrivialTypeSourceInfo(FPT->getParamType(I), UsingLoc);
- ParmVarDecl *PD = ParmVarDecl::Create(
- Context, DerivedCtor, UsingLoc, UsingLoc, /*IdentifierInfo=*/nullptr,
- FPT->getParamType(I), TInfo, SC_None, /*DefArg=*/nullptr);
- PD->setScopeInfo(0, I);
- PD->setImplicit();
- // Ensure attributes are propagated onto parameters (this matters for
- // format, pass_object_size, ...).
- mergeDeclAttributes(PD, BaseCtor->getParamDecl(I));
- ParamDecls.push_back(PD);
- ProtoLoc.setParam(I, PD);
- }
- // Set up the new constructor.
- assert(!BaseCtor->isDeleted() && "should not use deleted constructor");
- DerivedCtor->setAccess(BaseCtor->getAccess());
- DerivedCtor->setParams(ParamDecls);
- Derived->addDecl(DerivedCtor);
- if (ShouldDeleteSpecialMember(DerivedCtor, CXXDefaultConstructor, &ICI))
- SetDeclDeleted(DerivedCtor, UsingLoc);
- return DerivedCtor;
- }
- void Sema::NoteDeletedInheritingConstructor(CXXConstructorDecl *Ctor) {
- InheritedConstructorInfo ICI(*this, Ctor->getLocation(),
- Ctor->getInheritedConstructor().getShadowDecl());
- ShouldDeleteSpecialMember(Ctor, CXXDefaultConstructor, &ICI,
- /*Diagnose*/true);
- }
- void Sema::DefineInheritingConstructor(SourceLocation CurrentLocation,
- CXXConstructorDecl *Constructor) {
- CXXRecordDecl *ClassDecl = Constructor->getParent();
- assert(Constructor->getInheritedConstructor() &&
- !Constructor->doesThisDeclarationHaveABody() &&
- !Constructor->isDeleted());
- if (Constructor->willHaveBody() || Constructor->isInvalidDecl())
- return;
- // Initializations are performed "as if by a defaulted default constructor",
- // so enter the appropriate scope.
- SynthesizedFunctionScope Scope(*this, Constructor);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- Constructor->getType()->castAs<FunctionProtoType>());
- MarkVTableUsed(CurrentLocation, ClassDecl);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- ConstructorUsingShadowDecl *Shadow =
- Constructor->getInheritedConstructor().getShadowDecl();
- CXXConstructorDecl *InheritedCtor =
- Constructor->getInheritedConstructor().getConstructor();
- // [class.inhctor.init]p1:
- // initialization proceeds as if a defaulted default constructor is used to
- // initialize the D object and each base class subobject from which the
- // constructor was inherited
- InheritedConstructorInfo ICI(*this, CurrentLocation, Shadow);
- CXXRecordDecl *RD = Shadow->getParent();
- SourceLocation InitLoc = Shadow->getLocation();
- // Build explicit initializers for all base classes from which the
- // constructor was inherited.
- SmallVector<CXXCtorInitializer*, 8> Inits;
- for (bool VBase : {false, true}) {
- for (CXXBaseSpecifier &B : VBase ? RD->vbases() : RD->bases()) {
- if (B.isVirtual() != VBase)
- continue;
- auto *BaseRD = B.getType()->getAsCXXRecordDecl();
- if (!BaseRD)
- continue;
- auto BaseCtor = ICI.findConstructorForBase(BaseRD, InheritedCtor);
- if (!BaseCtor.first)
- continue;
- MarkFunctionReferenced(CurrentLocation, BaseCtor.first);
- ExprResult Init = new (Context) CXXInheritedCtorInitExpr(
- InitLoc, B.getType(), BaseCtor.first, VBase, BaseCtor.second);
- auto *TInfo = Context.getTrivialTypeSourceInfo(B.getType(), InitLoc);
- Inits.push_back(new (Context) CXXCtorInitializer(
- Context, TInfo, VBase, InitLoc, Init.get(), InitLoc,
- SourceLocation()));
- }
- }
- // We now proceed as if for a defaulted default constructor, with the relevant
- // initializers replaced.
- if (SetCtorInitializers(Constructor, /*AnyErrors*/false, Inits)) {
- Constructor->setInvalidDecl();
- return;
- }
- Constructor->setBody(new (Context) CompoundStmt(InitLoc));
- Constructor->markUsed(Context);
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(Constructor);
- }
- DiagnoseUninitializedFields(*this, Constructor);
- }
- CXXDestructorDecl *Sema::DeclareImplicitDestructor(CXXRecordDecl *ClassDecl) {
- // C++ [class.dtor]p2:
- // If a class has no user-declared destructor, a destructor is
- // declared implicitly. An implicitly-declared destructor is an
- // inline public member of its class.
- assert(ClassDecl->needsImplicitDestructor());
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXDestructor);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXDestructor,
- false);
- // Create the actual destructor declaration.
- CanQualType ClassType
- = Context.getCanonicalType(Context.getTypeDeclType(ClassDecl));
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationName Name
- = Context.DeclarationNames.getCXXDestructorName(ClassType);
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- CXXDestructorDecl *Destructor = CXXDestructorDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, QualType(), nullptr,
- getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- /*isImplicitlyDeclared=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr
- : ConstexprSpecKind::Unspecified);
- Destructor->setAccess(AS_public);
- Destructor->setDefaulted();
- setupImplicitSpecialMemberType(Destructor, Context.VoidTy, std::nullopt);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXDestructor,
- Destructor,
- /* ConstRHS */ false,
- /* Diagnose */ false);
- // We don't need to use SpecialMemberIsTrivial here; triviality for
- // destructors is easy to compute.
- Destructor->setTrivial(ClassDecl->hasTrivialDestructor());
- Destructor->setTrivialForCall(ClassDecl->hasAttr<TrivialABIAttr>() ||
- ClassDecl->hasTrivialDestructorForCall());
- // Note that we have declared this destructor.
- ++getASTContext().NumImplicitDestructorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, Destructor);
- // We can't check whether an implicit destructor is deleted before we complete
- // the definition of the class, because its validity depends on the alignment
- // of the class. We'll check this from ActOnFields once the class is complete.
- if (ClassDecl->isCompleteDefinition() &&
- ShouldDeleteSpecialMember(Destructor, CXXDestructor))
- SetDeclDeleted(Destructor, ClassLoc);
- // Introduce this destructor into its scope.
- if (S)
- PushOnScopeChains(Destructor, S, false);
- ClassDecl->addDecl(Destructor);
- return Destructor;
- }
- void Sema::DefineImplicitDestructor(SourceLocation CurrentLocation,
- CXXDestructorDecl *Destructor) {
- assert((Destructor->isDefaulted() &&
- !Destructor->doesThisDeclarationHaveABody() &&
- !Destructor->isDeleted()) &&
- "DefineImplicitDestructor - call it for implicit default dtor");
- if (Destructor->willHaveBody() || Destructor->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = Destructor->getParent();
- assert(ClassDecl && "DefineImplicitDestructor - invalid destructor");
- SynthesizedFunctionScope Scope(*this, Destructor);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- Destructor->getType()->castAs<FunctionProtoType>());
- MarkVTableUsed(CurrentLocation, ClassDecl);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- MarkBaseAndMemberDestructorsReferenced(Destructor->getLocation(),
- Destructor->getParent());
- if (CheckDestructor(Destructor)) {
- Destructor->setInvalidDecl();
- return;
- }
- SourceLocation Loc = Destructor->getEndLoc().isValid()
- ? Destructor->getEndLoc()
- : Destructor->getLocation();
- Destructor->setBody(new (Context) CompoundStmt(Loc));
- Destructor->markUsed(Context);
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(Destructor);
- }
- }
- void Sema::CheckCompleteDestructorVariant(SourceLocation CurrentLocation,
- CXXDestructorDecl *Destructor) {
- if (Destructor->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = Destructor->getParent();
- assert(Context.getTargetInfo().getCXXABI().isMicrosoft() &&
- "implicit complete dtors unneeded outside MS ABI");
- assert(ClassDecl->getNumVBases() > 0 &&
- "complete dtor only exists for classes with vbases");
- SynthesizedFunctionScope Scope(*this, Destructor);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- MarkVirtualBaseDestructorsReferenced(Destructor->getLocation(), ClassDecl);
- }
- /// Perform any semantic analysis which needs to be delayed until all
- /// pending class member declarations have been parsed.
- void Sema::ActOnFinishCXXMemberDecls() {
- // If the context is an invalid C++ class, just suppress these checks.
- if (CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(CurContext)) {
- if (Record->isInvalidDecl()) {
- DelayedOverridingExceptionSpecChecks.clear();
- DelayedEquivalentExceptionSpecChecks.clear();
- return;
- }
- checkForMultipleExportedDefaultConstructors(*this, Record);
- }
- }
- void Sema::ActOnFinishCXXNonNestedClass() {
- referenceDLLExportedClassMethods();
- if (!DelayedDllExportMemberFunctions.empty()) {
- SmallVector<CXXMethodDecl*, 4> WorkList;
- std::swap(DelayedDllExportMemberFunctions, WorkList);
- for (CXXMethodDecl *M : WorkList) {
- DefineDefaultedFunction(*this, M, M->getLocation());
- // Pass the method to the consumer to get emitted. This is not necessary
- // for explicit instantiation definitions, as they will get emitted
- // anyway.
- if (M->getParent()->getTemplateSpecializationKind() !=
- TSK_ExplicitInstantiationDefinition)
- ActOnFinishInlineFunctionDef(M);
- }
- }
- }
- void Sema::referenceDLLExportedClassMethods() {
- if (!DelayedDllExportClasses.empty()) {
- // Calling ReferenceDllExportedMembers might cause the current function to
- // be called again, so use a local copy of DelayedDllExportClasses.
- SmallVector<CXXRecordDecl *, 4> WorkList;
- std::swap(DelayedDllExportClasses, WorkList);
- for (CXXRecordDecl *Class : WorkList)
- ReferenceDllExportedMembers(*this, Class);
- }
- }
- void Sema::AdjustDestructorExceptionSpec(CXXDestructorDecl *Destructor) {
- assert(getLangOpts().CPlusPlus11 &&
- "adjusting dtor exception specs was introduced in c++11");
- if (Destructor->isDependentContext())
- return;
- // C++11 [class.dtor]p3:
- // A declaration of a destructor that does not have an exception-
- // specification is implicitly considered to have the same exception-
- // specification as an implicit declaration.
- const auto *DtorType = Destructor->getType()->castAs<FunctionProtoType>();
- if (DtorType->hasExceptionSpec())
- return;
- // Replace the destructor's type, building off the existing one. Fortunately,
- // the only thing of interest in the destructor type is its extended info.
- // The return and arguments are fixed.
- FunctionProtoType::ExtProtoInfo EPI = DtorType->getExtProtoInfo();
- EPI.ExceptionSpec.Type = EST_Unevaluated;
- EPI.ExceptionSpec.SourceDecl = Destructor;
- Destructor->setType(
- Context.getFunctionType(Context.VoidTy, std::nullopt, EPI));
- // FIXME: If the destructor has a body that could throw, and the newly created
- // spec doesn't allow exceptions, we should emit a warning, because this
- // change in behavior can break conforming C++03 programs at runtime.
- // However, we don't have a body or an exception specification yet, so it
- // needs to be done somewhere else.
- }
- namespace {
- /// An abstract base class for all helper classes used in building the
- // copy/move operators. These classes serve as factory functions and help us
- // avoid using the same Expr* in the AST twice.
- class ExprBuilder {
- ExprBuilder(const ExprBuilder&) = delete;
- ExprBuilder &operator=(const ExprBuilder&) = delete;
- protected:
- static Expr *assertNotNull(Expr *E) {
- assert(E && "Expression construction must not fail.");
- return E;
- }
- public:
- ExprBuilder() {}
- virtual ~ExprBuilder() {}
- virtual Expr *build(Sema &S, SourceLocation Loc) const = 0;
- };
- class RefBuilder: public ExprBuilder {
- VarDecl *Var;
- QualType VarType;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(S.BuildDeclRefExpr(Var, VarType, VK_LValue, Loc));
- }
- RefBuilder(VarDecl *Var, QualType VarType)
- : Var(Var), VarType(VarType) {}
- };
- class ThisBuilder: public ExprBuilder {
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(S.ActOnCXXThis(Loc).getAs<Expr>());
- }
- };
- class CastBuilder: public ExprBuilder {
- const ExprBuilder &Builder;
- QualType Type;
- ExprValueKind Kind;
- const CXXCastPath &Path;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(S.ImpCastExprToType(Builder.build(S, Loc), Type,
- CK_UncheckedDerivedToBase, Kind,
- &Path).get());
- }
- CastBuilder(const ExprBuilder &Builder, QualType Type, ExprValueKind Kind,
- const CXXCastPath &Path)
- : Builder(Builder), Type(Type), Kind(Kind), Path(Path) {}
- };
- class DerefBuilder: public ExprBuilder {
- const ExprBuilder &Builder;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(
- S.CreateBuiltinUnaryOp(Loc, UO_Deref, Builder.build(S, Loc)).get());
- }
- DerefBuilder(const ExprBuilder &Builder) : Builder(Builder) {}
- };
- class MemberBuilder: public ExprBuilder {
- const ExprBuilder &Builder;
- QualType Type;
- CXXScopeSpec SS;
- bool IsArrow;
- LookupResult &MemberLookup;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(S.BuildMemberReferenceExpr(
- Builder.build(S, Loc), Type, Loc, IsArrow, SS, SourceLocation(),
- nullptr, MemberLookup, nullptr, nullptr).get());
- }
- MemberBuilder(const ExprBuilder &Builder, QualType Type, bool IsArrow,
- LookupResult &MemberLookup)
- : Builder(Builder), Type(Type), IsArrow(IsArrow),
- MemberLookup(MemberLookup) {}
- };
- class MoveCastBuilder: public ExprBuilder {
- const ExprBuilder &Builder;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(CastForMoving(S, Builder.build(S, Loc)));
- }
- MoveCastBuilder(const ExprBuilder &Builder) : Builder(Builder) {}
- };
- class LvalueConvBuilder: public ExprBuilder {
- const ExprBuilder &Builder;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(
- S.DefaultLvalueConversion(Builder.build(S, Loc)).get());
- }
- LvalueConvBuilder(const ExprBuilder &Builder) : Builder(Builder) {}
- };
- class SubscriptBuilder: public ExprBuilder {
- const ExprBuilder &Base;
- const ExprBuilder &Index;
- public:
- Expr *build(Sema &S, SourceLocation Loc) const override {
- return assertNotNull(S.CreateBuiltinArraySubscriptExpr(
- Base.build(S, Loc), Loc, Index.build(S, Loc), Loc).get());
- }
- SubscriptBuilder(const ExprBuilder &Base, const ExprBuilder &Index)
- : Base(Base), Index(Index) {}
- };
- } // end anonymous namespace
- /// When generating a defaulted copy or move assignment operator, if a field
- /// should be copied with __builtin_memcpy rather than via explicit assignments,
- /// do so. This optimization only applies for arrays of scalars, and for arrays
- /// of class type where the selected copy/move-assignment operator is trivial.
- static StmtResult
- buildMemcpyForAssignmentOp(Sema &S, SourceLocation Loc, QualType T,
- const ExprBuilder &ToB, const ExprBuilder &FromB) {
- // Compute the size of the memory buffer to be copied.
- QualType SizeType = S.Context.getSizeType();
- llvm::APInt Size(S.Context.getTypeSize(SizeType),
- S.Context.getTypeSizeInChars(T).getQuantity());
- // Take the address of the field references for "from" and "to". We
- // directly construct UnaryOperators here because semantic analysis
- // does not permit us to take the address of an xvalue.
- Expr *From = FromB.build(S, Loc);
- From = UnaryOperator::Create(
- S.Context, From, UO_AddrOf, S.Context.getPointerType(From->getType()),
- VK_PRValue, OK_Ordinary, Loc, false, S.CurFPFeatureOverrides());
- Expr *To = ToB.build(S, Loc);
- To = UnaryOperator::Create(
- S.Context, To, UO_AddrOf, S.Context.getPointerType(To->getType()),
- VK_PRValue, OK_Ordinary, Loc, false, S.CurFPFeatureOverrides());
- const Type *E = T->getBaseElementTypeUnsafe();
- bool NeedsCollectableMemCpy =
- E->isRecordType() &&
- E->castAs<RecordType>()->getDecl()->hasObjectMember();
- // Create a reference to the __builtin_objc_memmove_collectable function
- StringRef MemCpyName = NeedsCollectableMemCpy ?
- "__builtin_objc_memmove_collectable" :
- "__builtin_memcpy";
- LookupResult R(S, &S.Context.Idents.get(MemCpyName), Loc,
- Sema::LookupOrdinaryName);
- S.LookupName(R, S.TUScope, true);
- FunctionDecl *MemCpy = R.getAsSingle<FunctionDecl>();
- if (!MemCpy)
- // Something went horribly wrong earlier, and we will have complained
- // about it.
- return StmtError();
- ExprResult MemCpyRef = S.BuildDeclRefExpr(MemCpy, S.Context.BuiltinFnTy,
- VK_PRValue, Loc, nullptr);
- assert(MemCpyRef.isUsable() && "Builtin reference cannot fail");
- Expr *CallArgs[] = {
- To, From, IntegerLiteral::Create(S.Context, Size, SizeType, Loc)
- };
- ExprResult Call = S.BuildCallExpr(/*Scope=*/nullptr, MemCpyRef.get(),
- Loc, CallArgs, Loc);
- assert(!Call.isInvalid() && "Call to __builtin_memcpy cannot fail!");
- return Call.getAs<Stmt>();
- }
- /// Builds a statement that copies/moves the given entity from \p From to
- /// \c To.
- ///
- /// This routine is used to copy/move the members of a class with an
- /// implicitly-declared copy/move assignment operator. When the entities being
- /// copied are arrays, this routine builds for loops to copy them.
- ///
- /// \param S The Sema object used for type-checking.
- ///
- /// \param Loc The location where the implicit copy/move is being generated.
- ///
- /// \param T The type of the expressions being copied/moved. Both expressions
- /// must have this type.
- ///
- /// \param To The expression we are copying/moving to.
- ///
- /// \param From The expression we are copying/moving from.
- ///
- /// \param CopyingBaseSubobject Whether we're copying/moving a base subobject.
- /// Otherwise, it's a non-static member subobject.
- ///
- /// \param Copying Whether we're copying or moving.
- ///
- /// \param Depth Internal parameter recording the depth of the recursion.
- ///
- /// \returns A statement or a loop that copies the expressions, or StmtResult(0)
- /// if a memcpy should be used instead.
- static StmtResult
- buildSingleCopyAssignRecursively(Sema &S, SourceLocation Loc, QualType T,
- const ExprBuilder &To, const ExprBuilder &From,
- bool CopyingBaseSubobject, bool Copying,
- unsigned Depth = 0) {
- // C++11 [class.copy]p28:
- // Each subobject is assigned in the manner appropriate to its type:
- //
- // - if the subobject is of class type, as if by a call to operator= with
- // the subobject as the object expression and the corresponding
- // subobject of x as a single function argument (as if by explicit
- // qualification; that is, ignoring any possible virtual overriding
- // functions in more derived classes);
- //
- // C++03 [class.copy]p13:
- // - if the subobject is of class type, the copy assignment operator for
- // the class is used (as if by explicit qualification; that is,
- // ignoring any possible virtual overriding functions in more derived
- // classes);
- if (const RecordType *RecordTy = T->getAs<RecordType>()) {
- CXXRecordDecl *ClassDecl = cast<CXXRecordDecl>(RecordTy->getDecl());
- // Look for operator=.
- DeclarationName Name
- = S.Context.DeclarationNames.getCXXOperatorName(OO_Equal);
- LookupResult OpLookup(S, Name, Loc, Sema::LookupOrdinaryName);
- S.LookupQualifiedName(OpLookup, ClassDecl, false);
- // Prior to C++11, filter out any result that isn't a copy/move-assignment
- // operator.
- if (!S.getLangOpts().CPlusPlus11) {
- LookupResult::Filter F = OpLookup.makeFilter();
- while (F.hasNext()) {
- NamedDecl *D = F.next();
- if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(D))
- if (Method->isCopyAssignmentOperator() ||
- (!Copying && Method->isMoveAssignmentOperator()))
- continue;
- F.erase();
- }
- F.done();
- }
- // Suppress the protected check (C++ [class.protected]) for each of the
- // assignment operators we found. This strange dance is required when
- // we're assigning via a base classes's copy-assignment operator. To
- // ensure that we're getting the right base class subobject (without
- // ambiguities), we need to cast "this" to that subobject type; to
- // ensure that we don't go through the virtual call mechanism, we need
- // to qualify the operator= name with the base class (see below). However,
- // this means that if the base class has a protected copy assignment
- // operator, the protected member access check will fail. So, we
- // rewrite "protected" access to "public" access in this case, since we
- // know by construction that we're calling from a derived class.
- if (CopyingBaseSubobject) {
- for (LookupResult::iterator L = OpLookup.begin(), LEnd = OpLookup.end();
- L != LEnd; ++L) {
- if (L.getAccess() == AS_protected)
- L.setAccess(AS_public);
- }
- }
- // Create the nested-name-specifier that will be used to qualify the
- // reference to operator=; this is required to suppress the virtual
- // call mechanism.
- CXXScopeSpec SS;
- const Type *CanonicalT = S.Context.getCanonicalType(T.getTypePtr());
- SS.MakeTrivial(S.Context,
- NestedNameSpecifier::Create(S.Context, nullptr, false,
- CanonicalT),
- Loc);
- // Create the reference to operator=.
- ExprResult OpEqualRef
- = S.BuildMemberReferenceExpr(To.build(S, Loc), T, Loc, /*IsArrow=*/false,
- SS, /*TemplateKWLoc=*/SourceLocation(),
- /*FirstQualifierInScope=*/nullptr,
- OpLookup,
- /*TemplateArgs=*/nullptr, /*S*/nullptr,
- /*SuppressQualifierCheck=*/true);
- if (OpEqualRef.isInvalid())
- return StmtError();
- // Build the call to the assignment operator.
- Expr *FromInst = From.build(S, Loc);
- ExprResult Call = S.BuildCallToMemberFunction(/*Scope=*/nullptr,
- OpEqualRef.getAs<Expr>(),
- Loc, FromInst, Loc);
- if (Call.isInvalid())
- return StmtError();
- // If we built a call to a trivial 'operator=' while copying an array,
- // bail out. We'll replace the whole shebang with a memcpy.
- CXXMemberCallExpr *CE = dyn_cast<CXXMemberCallExpr>(Call.get());
- if (CE && CE->getMethodDecl()->isTrivial() && Depth)
- return StmtResult((Stmt*)nullptr);
- // Convert to an expression-statement, and clean up any produced
- // temporaries.
- return S.ActOnExprStmt(Call);
- }
- // - if the subobject is of scalar type, the built-in assignment
- // operator is used.
- const ConstantArrayType *ArrayTy = S.Context.getAsConstantArrayType(T);
- if (!ArrayTy) {
- ExprResult Assignment = S.CreateBuiltinBinOp(
- Loc, BO_Assign, To.build(S, Loc), From.build(S, Loc));
- if (Assignment.isInvalid())
- return StmtError();
- return S.ActOnExprStmt(Assignment);
- }
- // - if the subobject is an array, each element is assigned, in the
- // manner appropriate to the element type;
- // Construct a loop over the array bounds, e.g.,
- //
- // for (__SIZE_TYPE__ i0 = 0; i0 != array-size; ++i0)
- //
- // that will copy each of the array elements.
- QualType SizeType = S.Context.getSizeType();
- // Create the iteration variable.
- IdentifierInfo *IterationVarName = nullptr;
- {
- SmallString<8> Str;
- llvm::raw_svector_ostream OS(Str);
- OS << "__i" << Depth;
- IterationVarName = &S.Context.Idents.get(OS.str());
- }
- VarDecl *IterationVar = VarDecl::Create(S.Context, S.CurContext, Loc, Loc,
- IterationVarName, SizeType,
- S.Context.getTrivialTypeSourceInfo(SizeType, Loc),
- SC_None);
- // Initialize the iteration variable to zero.
- llvm::APInt Zero(S.Context.getTypeSize(SizeType), 0);
- IterationVar->setInit(IntegerLiteral::Create(S.Context, Zero, SizeType, Loc));
- // Creates a reference to the iteration variable.
- RefBuilder IterationVarRef(IterationVar, SizeType);
- LvalueConvBuilder IterationVarRefRVal(IterationVarRef);
- // Create the DeclStmt that holds the iteration variable.
- Stmt *InitStmt = new (S.Context) DeclStmt(DeclGroupRef(IterationVar),Loc,Loc);
- // Subscript the "from" and "to" expressions with the iteration variable.
- SubscriptBuilder FromIndexCopy(From, IterationVarRefRVal);
- MoveCastBuilder FromIndexMove(FromIndexCopy);
- const ExprBuilder *FromIndex;
- if (Copying)
- FromIndex = &FromIndexCopy;
- else
- FromIndex = &FromIndexMove;
- SubscriptBuilder ToIndex(To, IterationVarRefRVal);
- // Build the copy/move for an individual element of the array.
- StmtResult Copy =
- buildSingleCopyAssignRecursively(S, Loc, ArrayTy->getElementType(),
- ToIndex, *FromIndex, CopyingBaseSubobject,
- Copying, Depth + 1);
- // Bail out if copying fails or if we determined that we should use memcpy.
- if (Copy.isInvalid() || !Copy.get())
- return Copy;
- // Create the comparison against the array bound.
- llvm::APInt Upper
- = ArrayTy->getSize().zextOrTrunc(S.Context.getTypeSize(SizeType));
- Expr *Comparison = BinaryOperator::Create(
- S.Context, IterationVarRefRVal.build(S, Loc),
- IntegerLiteral::Create(S.Context, Upper, SizeType, Loc), BO_NE,
- S.Context.BoolTy, VK_PRValue, OK_Ordinary, Loc,
- S.CurFPFeatureOverrides());
- // Create the pre-increment of the iteration variable. We can determine
- // whether the increment will overflow based on the value of the array
- // bound.
- Expr *Increment = UnaryOperator::Create(
- S.Context, IterationVarRef.build(S, Loc), UO_PreInc, SizeType, VK_LValue,
- OK_Ordinary, Loc, Upper.isMaxValue(), S.CurFPFeatureOverrides());
- // Construct the loop that copies all elements of this array.
- return S.ActOnForStmt(
- Loc, Loc, InitStmt,
- S.ActOnCondition(nullptr, Loc, Comparison, Sema::ConditionKind::Boolean),
- S.MakeFullDiscardedValueExpr(Increment), Loc, Copy.get());
- }
- static StmtResult
- buildSingleCopyAssign(Sema &S, SourceLocation Loc, QualType T,
- const ExprBuilder &To, const ExprBuilder &From,
- bool CopyingBaseSubobject, bool Copying) {
- // Maybe we should use a memcpy?
- if (T->isArrayType() && !T.isConstQualified() && !T.isVolatileQualified() &&
- T.isTriviallyCopyableType(S.Context))
- return buildMemcpyForAssignmentOp(S, Loc, T, To, From);
- StmtResult Result(buildSingleCopyAssignRecursively(S, Loc, T, To, From,
- CopyingBaseSubobject,
- Copying, 0));
- // If we ended up picking a trivial assignment operator for an array of a
- // non-trivially-copyable class type, just emit a memcpy.
- if (!Result.isInvalid() && !Result.get())
- return buildMemcpyForAssignmentOp(S, Loc, T, To, From);
- return Result;
- }
- CXXMethodDecl *Sema::DeclareImplicitCopyAssignment(CXXRecordDecl *ClassDecl) {
- // Note: The following rules are largely analoguous to the copy
- // constructor rules. Note that virtual bases are not taken into account
- // for determining the argument type of the operator. Note also that
- // operators taking an object instead of a reference are allowed.
- assert(ClassDecl->needsImplicitCopyAssignment());
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXCopyAssignment);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- QualType ArgType = Context.getTypeDeclType(ClassDecl);
- ArgType = Context.getElaboratedType(ETK_None, nullptr, ArgType, nullptr);
- LangAS AS = getDefaultCXXMethodAddrSpace();
- if (AS != LangAS::Default)
- ArgType = Context.getAddrSpaceQualType(ArgType, AS);
- QualType RetType = Context.getLValueReferenceType(ArgType);
- bool Const = ClassDecl->implicitCopyAssignmentHasConstParam();
- if (Const)
- ArgType = ArgType.withConst();
- ArgType = Context.getLValueReferenceType(ArgType);
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXCopyAssignment,
- Const);
- // An implicitly-declared copy assignment operator is an inline public
- // member of its class.
- DeclarationName Name = Context.DeclarationNames.getCXXOperatorName(OO_Equal);
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- CXXMethodDecl *CopyAssignment = CXXMethodDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, QualType(),
- /*TInfo=*/nullptr, /*StorageClass=*/SC_None,
- getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr : ConstexprSpecKind::Unspecified,
- SourceLocation());
- CopyAssignment->setAccess(AS_public);
- CopyAssignment->setDefaulted();
- CopyAssignment->setImplicit();
- setupImplicitSpecialMemberType(CopyAssignment, RetType, ArgType);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXCopyAssignment,
- CopyAssignment,
- /* ConstRHS */ Const,
- /* Diagnose */ false);
- // Add the parameter to the operator.
- ParmVarDecl *FromParam = ParmVarDecl::Create(Context, CopyAssignment,
- ClassLoc, ClassLoc,
- /*Id=*/nullptr, ArgType,
- /*TInfo=*/nullptr, SC_None,
- nullptr);
- CopyAssignment->setParams(FromParam);
- CopyAssignment->setTrivial(
- ClassDecl->needsOverloadResolutionForCopyAssignment()
- ? SpecialMemberIsTrivial(CopyAssignment, CXXCopyAssignment)
- : ClassDecl->hasTrivialCopyAssignment());
- // Note that we have added this copy-assignment operator.
- ++getASTContext().NumImplicitCopyAssignmentOperatorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, CopyAssignment);
- if (ShouldDeleteSpecialMember(CopyAssignment, CXXCopyAssignment)) {
- ClassDecl->setImplicitCopyAssignmentIsDeleted();
- SetDeclDeleted(CopyAssignment, ClassLoc);
- }
- if (S)
- PushOnScopeChains(CopyAssignment, S, false);
- ClassDecl->addDecl(CopyAssignment);
- return CopyAssignment;
- }
- /// Diagnose an implicit copy operation for a class which is odr-used, but
- /// which is deprecated because the class has a user-declared copy constructor,
- /// copy assignment operator, or destructor.
- static void diagnoseDeprecatedCopyOperation(Sema &S, CXXMethodDecl *CopyOp) {
- assert(CopyOp->isImplicit());
- CXXRecordDecl *RD = CopyOp->getParent();
- CXXMethodDecl *UserDeclaredOperation = nullptr;
- if (RD->hasUserDeclaredDestructor()) {
- UserDeclaredOperation = RD->getDestructor();
- } else if (!isa<CXXConstructorDecl>(CopyOp) &&
- RD->hasUserDeclaredCopyConstructor()) {
- // Find any user-declared copy constructor.
- for (auto *I : RD->ctors()) {
- if (I->isCopyConstructor()) {
- UserDeclaredOperation = I;
- break;
- }
- }
- assert(UserDeclaredOperation);
- } else if (isa<CXXConstructorDecl>(CopyOp) &&
- RD->hasUserDeclaredCopyAssignment()) {
- // Find any user-declared move assignment operator.
- for (auto *I : RD->methods()) {
- if (I->isCopyAssignmentOperator()) {
- UserDeclaredOperation = I;
- break;
- }
- }
- assert(UserDeclaredOperation);
- }
- if (UserDeclaredOperation) {
- bool UDOIsUserProvided = UserDeclaredOperation->isUserProvided();
- bool UDOIsDestructor = isa<CXXDestructorDecl>(UserDeclaredOperation);
- bool IsCopyAssignment = !isa<CXXConstructorDecl>(CopyOp);
- unsigned DiagID =
- (UDOIsUserProvided && UDOIsDestructor)
- ? diag::warn_deprecated_copy_with_user_provided_dtor
- : (UDOIsUserProvided && !UDOIsDestructor)
- ? diag::warn_deprecated_copy_with_user_provided_copy
- : (!UDOIsUserProvided && UDOIsDestructor)
- ? diag::warn_deprecated_copy_with_dtor
- : diag::warn_deprecated_copy;
- S.Diag(UserDeclaredOperation->getLocation(), DiagID)
- << RD << IsCopyAssignment;
- }
- }
- void Sema::DefineImplicitCopyAssignment(SourceLocation CurrentLocation,
- CXXMethodDecl *CopyAssignOperator) {
- assert((CopyAssignOperator->isDefaulted() &&
- CopyAssignOperator->isOverloadedOperator() &&
- CopyAssignOperator->getOverloadedOperator() == OO_Equal &&
- !CopyAssignOperator->doesThisDeclarationHaveABody() &&
- !CopyAssignOperator->isDeleted()) &&
- "DefineImplicitCopyAssignment called for wrong function");
- if (CopyAssignOperator->willHaveBody() || CopyAssignOperator->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = CopyAssignOperator->getParent();
- if (ClassDecl->isInvalidDecl()) {
- CopyAssignOperator->setInvalidDecl();
- return;
- }
- SynthesizedFunctionScope Scope(*this, CopyAssignOperator);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- CopyAssignOperator->getType()->castAs<FunctionProtoType>());
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- // C++11 [class.copy]p18:
- // The [definition of an implicitly declared copy assignment operator] is
- // deprecated if the class has a user-declared copy constructor or a
- // user-declared destructor.
- if (getLangOpts().CPlusPlus11 && CopyAssignOperator->isImplicit())
- diagnoseDeprecatedCopyOperation(*this, CopyAssignOperator);
- // C++0x [class.copy]p30:
- // The implicitly-defined or explicitly-defaulted copy assignment operator
- // for a non-union class X performs memberwise copy assignment of its
- // subobjects. The direct base classes of X are assigned first, in the
- // order of their declaration in the base-specifier-list, and then the
- // immediate non-static data members of X are assigned, in the order in
- // which they were declared in the class definition.
- // The statements that form the synthesized function body.
- SmallVector<Stmt*, 8> Statements;
- // The parameter for the "other" object, which we are copying from.
- ParmVarDecl *Other = CopyAssignOperator->getParamDecl(0);
- Qualifiers OtherQuals = Other->getType().getQualifiers();
- QualType OtherRefType = Other->getType();
- if (const LValueReferenceType *OtherRef
- = OtherRefType->getAs<LValueReferenceType>()) {
- OtherRefType = OtherRef->getPointeeType();
- OtherQuals = OtherRefType.getQualifiers();
- }
- // Our location for everything implicitly-generated.
- SourceLocation Loc = CopyAssignOperator->getEndLoc().isValid()
- ? CopyAssignOperator->getEndLoc()
- : CopyAssignOperator->getLocation();
- // Builds a DeclRefExpr for the "other" object.
- RefBuilder OtherRef(Other, OtherRefType);
- // Builds the "this" pointer.
- ThisBuilder This;
- // Assign base classes.
- bool Invalid = false;
- for (auto &Base : ClassDecl->bases()) {
- // Form the assignment:
- // static_cast<Base*>(this)->Base::operator=(static_cast<Base&>(other));
- QualType BaseType = Base.getType().getUnqualifiedType();
- if (!BaseType->isRecordType()) {
- Invalid = true;
- continue;
- }
- CXXCastPath BasePath;
- BasePath.push_back(&Base);
- // Construct the "from" expression, which is an implicit cast to the
- // appropriately-qualified base type.
- CastBuilder From(OtherRef, Context.getQualifiedType(BaseType, OtherQuals),
- VK_LValue, BasePath);
- // Dereference "this".
- DerefBuilder DerefThis(This);
- CastBuilder To(DerefThis,
- Context.getQualifiedType(
- BaseType, CopyAssignOperator->getMethodQualifiers()),
- VK_LValue, BasePath);
- // Build the copy.
- StmtResult Copy = buildSingleCopyAssign(*this, Loc, BaseType,
- To, From,
- /*CopyingBaseSubobject=*/true,
- /*Copying=*/true);
- if (Copy.isInvalid()) {
- CopyAssignOperator->setInvalidDecl();
- return;
- }
- // Success! Record the copy.
- Statements.push_back(Copy.getAs<Expr>());
- }
- // Assign non-static members.
- for (auto *Field : ClassDecl->fields()) {
- // FIXME: We should form some kind of AST representation for the implied
- // memcpy in a union copy operation.
- if (Field->isUnnamedBitfield() || Field->getParent()->isUnion())
- continue;
- if (Field->isInvalidDecl()) {
- Invalid = true;
- continue;
- }
- // Check for members of reference type; we can't copy those.
- if (Field->getType()->isReferenceType()) {
- Diag(ClassDecl->getLocation(), diag::err_uninitialized_member_for_assign)
- << Context.getTagDeclType(ClassDecl) << 0 << Field->getDeclName();
- Diag(Field->getLocation(), diag::note_declared_at);
- Invalid = true;
- continue;
- }
- // Check for members of const-qualified, non-class type.
- QualType BaseType = Context.getBaseElementType(Field->getType());
- if (!BaseType->getAs<RecordType>() && BaseType.isConstQualified()) {
- Diag(ClassDecl->getLocation(), diag::err_uninitialized_member_for_assign)
- << Context.getTagDeclType(ClassDecl) << 1 << Field->getDeclName();
- Diag(Field->getLocation(), diag::note_declared_at);
- Invalid = true;
- continue;
- }
- // Suppress assigning zero-width bitfields.
- if (Field->isZeroLengthBitField(Context))
- continue;
- QualType FieldType = Field->getType().getNonReferenceType();
- if (FieldType->isIncompleteArrayType()) {
- assert(ClassDecl->hasFlexibleArrayMember() &&
- "Incomplete array type is not valid");
- continue;
- }
- // Build references to the field in the object we're copying from and to.
- CXXScopeSpec SS; // Intentionally empty
- LookupResult MemberLookup(*this, Field->getDeclName(), Loc,
- LookupMemberName);
- MemberLookup.addDecl(Field);
- MemberLookup.resolveKind();
- MemberBuilder From(OtherRef, OtherRefType, /*IsArrow=*/false, MemberLookup);
- MemberBuilder To(This, getCurrentThisType(), /*IsArrow=*/!LangOpts.HLSL,
- MemberLookup);
- // Build the copy of this field.
- StmtResult Copy = buildSingleCopyAssign(*this, Loc, FieldType,
- To, From,
- /*CopyingBaseSubobject=*/false,
- /*Copying=*/true);
- if (Copy.isInvalid()) {
- CopyAssignOperator->setInvalidDecl();
- return;
- }
- // Success! Record the copy.
- Statements.push_back(Copy.getAs<Stmt>());
- }
- if (!Invalid) {
- // Add a "return *this;"
- Expr *ThisExpr = nullptr;
- if (!LangOpts.HLSL) {
- ExprResult ThisObj =
- CreateBuiltinUnaryOp(Loc, UO_Deref, This.build(*this, Loc));
- ThisExpr = ThisObj.get();
- } else {
- ThisExpr = This.build(*this, Loc);
- }
- StmtResult Return = BuildReturnStmt(Loc, ThisExpr);
- if (Return.isInvalid())
- Invalid = true;
- else
- Statements.push_back(Return.getAs<Stmt>());
- }
- if (Invalid) {
- CopyAssignOperator->setInvalidDecl();
- return;
- }
- StmtResult Body;
- {
- CompoundScopeRAII CompoundScope(*this);
- Body = ActOnCompoundStmt(Loc, Loc, Statements,
- /*isStmtExpr=*/false);
- assert(!Body.isInvalid() && "Compound statement creation cannot fail");
- }
- CopyAssignOperator->setBody(Body.getAs<Stmt>());
- CopyAssignOperator->markUsed(Context);
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(CopyAssignOperator);
- }
- }
- CXXMethodDecl *Sema::DeclareImplicitMoveAssignment(CXXRecordDecl *ClassDecl) {
- assert(ClassDecl->needsImplicitMoveAssignment());
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXMoveAssignment);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- // Note: The following rules are largely analoguous to the move
- // constructor rules.
- QualType ArgType = Context.getTypeDeclType(ClassDecl);
- ArgType = Context.getElaboratedType(ETK_None, nullptr, ArgType, nullptr);
- LangAS AS = getDefaultCXXMethodAddrSpace();
- if (AS != LangAS::Default)
- ArgType = Context.getAddrSpaceQualType(ArgType, AS);
- QualType RetType = Context.getLValueReferenceType(ArgType);
- ArgType = Context.getRValueReferenceType(ArgType);
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXMoveAssignment,
- false);
- // An implicitly-declared move assignment operator is an inline public
- // member of its class.
- DeclarationName Name = Context.DeclarationNames.getCXXOperatorName(OO_Equal);
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- CXXMethodDecl *MoveAssignment = CXXMethodDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, QualType(),
- /*TInfo=*/nullptr, /*StorageClass=*/SC_None,
- getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr : ConstexprSpecKind::Unspecified,
- SourceLocation());
- MoveAssignment->setAccess(AS_public);
- MoveAssignment->setDefaulted();
- MoveAssignment->setImplicit();
- setupImplicitSpecialMemberType(MoveAssignment, RetType, ArgType);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXMoveAssignment,
- MoveAssignment,
- /* ConstRHS */ false,
- /* Diagnose */ false);
- // Add the parameter to the operator.
- ParmVarDecl *FromParam = ParmVarDecl::Create(Context, MoveAssignment,
- ClassLoc, ClassLoc,
- /*Id=*/nullptr, ArgType,
- /*TInfo=*/nullptr, SC_None,
- nullptr);
- MoveAssignment->setParams(FromParam);
- MoveAssignment->setTrivial(
- ClassDecl->needsOverloadResolutionForMoveAssignment()
- ? SpecialMemberIsTrivial(MoveAssignment, CXXMoveAssignment)
- : ClassDecl->hasTrivialMoveAssignment());
- // Note that we have added this copy-assignment operator.
- ++getASTContext().NumImplicitMoveAssignmentOperatorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, MoveAssignment);
- if (ShouldDeleteSpecialMember(MoveAssignment, CXXMoveAssignment)) {
- ClassDecl->setImplicitMoveAssignmentIsDeleted();
- SetDeclDeleted(MoveAssignment, ClassLoc);
- }
- if (S)
- PushOnScopeChains(MoveAssignment, S, false);
- ClassDecl->addDecl(MoveAssignment);
- return MoveAssignment;
- }
- /// Check if we're implicitly defining a move assignment operator for a class
- /// with virtual bases. Such a move assignment might move-assign the virtual
- /// base multiple times.
- static void checkMoveAssignmentForRepeatedMove(Sema &S, CXXRecordDecl *Class,
- SourceLocation CurrentLocation) {
- assert(!Class->isDependentContext() && "should not define dependent move");
- // Only a virtual base could get implicitly move-assigned multiple times.
- // Only a non-trivial move assignment can observe this. We only want to
- // diagnose if we implicitly define an assignment operator that assigns
- // two base classes, both of which move-assign the same virtual base.
- if (Class->getNumVBases() == 0 || Class->hasTrivialMoveAssignment() ||
- Class->getNumBases() < 2)
- return;
- llvm::SmallVector<CXXBaseSpecifier *, 16> Worklist;
- typedef llvm::DenseMap<CXXRecordDecl*, CXXBaseSpecifier*> VBaseMap;
- VBaseMap VBases;
- for (auto &BI : Class->bases()) {
- Worklist.push_back(&BI);
- while (!Worklist.empty()) {
- CXXBaseSpecifier *BaseSpec = Worklist.pop_back_val();
- CXXRecordDecl *Base = BaseSpec->getType()->getAsCXXRecordDecl();
- // If the base has no non-trivial move assignment operators,
- // we don't care about moves from it.
- if (!Base->hasNonTrivialMoveAssignment())
- continue;
- // If there's nothing virtual here, skip it.
- if (!BaseSpec->isVirtual() && !Base->getNumVBases())
- continue;
- // If we're not actually going to call a move assignment for this base,
- // or the selected move assignment is trivial, skip it.
- Sema::SpecialMemberOverloadResult SMOR =
- S.LookupSpecialMember(Base, Sema::CXXMoveAssignment,
- /*ConstArg*/false, /*VolatileArg*/false,
- /*RValueThis*/true, /*ConstThis*/false,
- /*VolatileThis*/false);
- if (!SMOR.getMethod() || SMOR.getMethod()->isTrivial() ||
- !SMOR.getMethod()->isMoveAssignmentOperator())
- continue;
- if (BaseSpec->isVirtual()) {
- // We're going to move-assign this virtual base, and its move
- // assignment operator is not trivial. If this can happen for
- // multiple distinct direct bases of Class, diagnose it. (If it
- // only happens in one base, we'll diagnose it when synthesizing
- // that base class's move assignment operator.)
- CXXBaseSpecifier *&Existing =
- VBases.insert(std::make_pair(Base->getCanonicalDecl(), &BI))
- .first->second;
- if (Existing && Existing != &BI) {
- S.Diag(CurrentLocation, diag::warn_vbase_moved_multiple_times)
- << Class << Base;
- S.Diag(Existing->getBeginLoc(), diag::note_vbase_moved_here)
- << (Base->getCanonicalDecl() ==
- Existing->getType()->getAsCXXRecordDecl()->getCanonicalDecl())
- << Base << Existing->getType() << Existing->getSourceRange();
- S.Diag(BI.getBeginLoc(), diag::note_vbase_moved_here)
- << (Base->getCanonicalDecl() ==
- BI.getType()->getAsCXXRecordDecl()->getCanonicalDecl())
- << Base << BI.getType() << BaseSpec->getSourceRange();
- // Only diagnose each vbase once.
- Existing = nullptr;
- }
- } else {
- // Only walk over bases that have defaulted move assignment operators.
- // We assume that any user-provided move assignment operator handles
- // the multiple-moves-of-vbase case itself somehow.
- if (!SMOR.getMethod()->isDefaulted())
- continue;
- // We're going to move the base classes of Base. Add them to the list.
- llvm::append_range(Worklist, llvm::make_pointer_range(Base->bases()));
- }
- }
- }
- }
- void Sema::DefineImplicitMoveAssignment(SourceLocation CurrentLocation,
- CXXMethodDecl *MoveAssignOperator) {
- assert((MoveAssignOperator->isDefaulted() &&
- MoveAssignOperator->isOverloadedOperator() &&
- MoveAssignOperator->getOverloadedOperator() == OO_Equal &&
- !MoveAssignOperator->doesThisDeclarationHaveABody() &&
- !MoveAssignOperator->isDeleted()) &&
- "DefineImplicitMoveAssignment called for wrong function");
- if (MoveAssignOperator->willHaveBody() || MoveAssignOperator->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = MoveAssignOperator->getParent();
- if (ClassDecl->isInvalidDecl()) {
- MoveAssignOperator->setInvalidDecl();
- return;
- }
- // C++0x [class.copy]p28:
- // The implicitly-defined or move assignment operator for a non-union class
- // X performs memberwise move assignment of its subobjects. The direct base
- // classes of X are assigned first, in the order of their declaration in the
- // base-specifier-list, and then the immediate non-static data members of X
- // are assigned, in the order in which they were declared in the class
- // definition.
- // Issue a warning if our implicit move assignment operator will move
- // from a virtual base more than once.
- checkMoveAssignmentForRepeatedMove(*this, ClassDecl, CurrentLocation);
- SynthesizedFunctionScope Scope(*this, MoveAssignOperator);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- MoveAssignOperator->getType()->castAs<FunctionProtoType>());
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- // The statements that form the synthesized function body.
- SmallVector<Stmt*, 8> Statements;
- // The parameter for the "other" object, which we are move from.
- ParmVarDecl *Other = MoveAssignOperator->getParamDecl(0);
- QualType OtherRefType =
- Other->getType()->castAs<RValueReferenceType>()->getPointeeType();
- // Our location for everything implicitly-generated.
- SourceLocation Loc = MoveAssignOperator->getEndLoc().isValid()
- ? MoveAssignOperator->getEndLoc()
- : MoveAssignOperator->getLocation();
- // Builds a reference to the "other" object.
- RefBuilder OtherRef(Other, OtherRefType);
- // Cast to rvalue.
- MoveCastBuilder MoveOther(OtherRef);
- // Builds the "this" pointer.
- ThisBuilder This;
- // Assign base classes.
- bool Invalid = false;
- for (auto &Base : ClassDecl->bases()) {
- // C++11 [class.copy]p28:
- // It is unspecified whether subobjects representing virtual base classes
- // are assigned more than once by the implicitly-defined copy assignment
- // operator.
- // FIXME: Do not assign to a vbase that will be assigned by some other base
- // class. For a move-assignment, this can result in the vbase being moved
- // multiple times.
- // Form the assignment:
- // static_cast<Base*>(this)->Base::operator=(static_cast<Base&&>(other));
- QualType BaseType = Base.getType().getUnqualifiedType();
- if (!BaseType->isRecordType()) {
- Invalid = true;
- continue;
- }
- CXXCastPath BasePath;
- BasePath.push_back(&Base);
- // Construct the "from" expression, which is an implicit cast to the
- // appropriately-qualified base type.
- CastBuilder From(OtherRef, BaseType, VK_XValue, BasePath);
- // Dereference "this".
- DerefBuilder DerefThis(This);
- // Implicitly cast "this" to the appropriately-qualified base type.
- CastBuilder To(DerefThis,
- Context.getQualifiedType(
- BaseType, MoveAssignOperator->getMethodQualifiers()),
- VK_LValue, BasePath);
- // Build the move.
- StmtResult Move = buildSingleCopyAssign(*this, Loc, BaseType,
- To, From,
- /*CopyingBaseSubobject=*/true,
- /*Copying=*/false);
- if (Move.isInvalid()) {
- MoveAssignOperator->setInvalidDecl();
- return;
- }
- // Success! Record the move.
- Statements.push_back(Move.getAs<Expr>());
- }
- // Assign non-static members.
- for (auto *Field : ClassDecl->fields()) {
- // FIXME: We should form some kind of AST representation for the implied
- // memcpy in a union copy operation.
- if (Field->isUnnamedBitfield() || Field->getParent()->isUnion())
- continue;
- if (Field->isInvalidDecl()) {
- Invalid = true;
- continue;
- }
- // Check for members of reference type; we can't move those.
- if (Field->getType()->isReferenceType()) {
- Diag(ClassDecl->getLocation(), diag::err_uninitialized_member_for_assign)
- << Context.getTagDeclType(ClassDecl) << 0 << Field->getDeclName();
- Diag(Field->getLocation(), diag::note_declared_at);
- Invalid = true;
- continue;
- }
- // Check for members of const-qualified, non-class type.
- QualType BaseType = Context.getBaseElementType(Field->getType());
- if (!BaseType->getAs<RecordType>() && BaseType.isConstQualified()) {
- Diag(ClassDecl->getLocation(), diag::err_uninitialized_member_for_assign)
- << Context.getTagDeclType(ClassDecl) << 1 << Field->getDeclName();
- Diag(Field->getLocation(), diag::note_declared_at);
- Invalid = true;
- continue;
- }
- // Suppress assigning zero-width bitfields.
- if (Field->isZeroLengthBitField(Context))
- continue;
- QualType FieldType = Field->getType().getNonReferenceType();
- if (FieldType->isIncompleteArrayType()) {
- assert(ClassDecl->hasFlexibleArrayMember() &&
- "Incomplete array type is not valid");
- continue;
- }
- // Build references to the field in the object we're copying from and to.
- LookupResult MemberLookup(*this, Field->getDeclName(), Loc,
- LookupMemberName);
- MemberLookup.addDecl(Field);
- MemberLookup.resolveKind();
- MemberBuilder From(MoveOther, OtherRefType,
- /*IsArrow=*/false, MemberLookup);
- MemberBuilder To(This, getCurrentThisType(),
- /*IsArrow=*/true, MemberLookup);
- assert(!From.build(*this, Loc)->isLValue() && // could be xvalue or prvalue
- "Member reference with rvalue base must be rvalue except for reference "
- "members, which aren't allowed for move assignment.");
- // Build the move of this field.
- StmtResult Move = buildSingleCopyAssign(*this, Loc, FieldType,
- To, From,
- /*CopyingBaseSubobject=*/false,
- /*Copying=*/false);
- if (Move.isInvalid()) {
- MoveAssignOperator->setInvalidDecl();
- return;
- }
- // Success! Record the copy.
- Statements.push_back(Move.getAs<Stmt>());
- }
- if (!Invalid) {
- // Add a "return *this;"
- ExprResult ThisObj =
- CreateBuiltinUnaryOp(Loc, UO_Deref, This.build(*this, Loc));
- StmtResult Return = BuildReturnStmt(Loc, ThisObj.get());
- if (Return.isInvalid())
- Invalid = true;
- else
- Statements.push_back(Return.getAs<Stmt>());
- }
- if (Invalid) {
- MoveAssignOperator->setInvalidDecl();
- return;
- }
- StmtResult Body;
- {
- CompoundScopeRAII CompoundScope(*this);
- Body = ActOnCompoundStmt(Loc, Loc, Statements,
- /*isStmtExpr=*/false);
- assert(!Body.isInvalid() && "Compound statement creation cannot fail");
- }
- MoveAssignOperator->setBody(Body.getAs<Stmt>());
- MoveAssignOperator->markUsed(Context);
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(MoveAssignOperator);
- }
- }
- CXXConstructorDecl *Sema::DeclareImplicitCopyConstructor(
- CXXRecordDecl *ClassDecl) {
- // C++ [class.copy]p4:
- // If the class definition does not explicitly declare a copy
- // constructor, one is declared implicitly.
- assert(ClassDecl->needsImplicitCopyConstructor());
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXCopyConstructor);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- QualType ClassType = Context.getTypeDeclType(ClassDecl);
- QualType ArgType = ClassType;
- ArgType = Context.getElaboratedType(ETK_None, nullptr, ArgType, nullptr);
- bool Const = ClassDecl->implicitCopyConstructorHasConstParam();
- if (Const)
- ArgType = ArgType.withConst();
- LangAS AS = getDefaultCXXMethodAddrSpace();
- if (AS != LangAS::Default)
- ArgType = Context.getAddrSpaceQualType(ArgType, AS);
- ArgType = Context.getLValueReferenceType(ArgType);
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXCopyConstructor,
- Const);
- DeclarationName Name
- = Context.DeclarationNames.getCXXConstructorName(
- Context.getCanonicalType(ClassType));
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- // An implicitly-declared copy constructor is an inline public
- // member of its class.
- CXXConstructorDecl *CopyConstructor = CXXConstructorDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, QualType(), /*TInfo=*/nullptr,
- ExplicitSpecifier(), getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- /*isImplicitlyDeclared=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr
- : ConstexprSpecKind::Unspecified);
- CopyConstructor->setAccess(AS_public);
- CopyConstructor->setDefaulted();
- setupImplicitSpecialMemberType(CopyConstructor, Context.VoidTy, ArgType);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXCopyConstructor,
- CopyConstructor,
- /* ConstRHS */ Const,
- /* Diagnose */ false);
- // During template instantiation of special member functions we need a
- // reliable TypeSourceInfo for the parameter types in order to allow functions
- // to be substituted.
- TypeSourceInfo *TSI = nullptr;
- if (inTemplateInstantiation() && ClassDecl->isLambda())
- TSI = Context.getTrivialTypeSourceInfo(ArgType);
- // Add the parameter to the constructor.
- ParmVarDecl *FromParam =
- ParmVarDecl::Create(Context, CopyConstructor, ClassLoc, ClassLoc,
- /*IdentifierInfo=*/nullptr, ArgType,
- /*TInfo=*/TSI, SC_None, nullptr);
- CopyConstructor->setParams(FromParam);
- CopyConstructor->setTrivial(
- ClassDecl->needsOverloadResolutionForCopyConstructor()
- ? SpecialMemberIsTrivial(CopyConstructor, CXXCopyConstructor)
- : ClassDecl->hasTrivialCopyConstructor());
- CopyConstructor->setTrivialForCall(
- ClassDecl->hasAttr<TrivialABIAttr>() ||
- (ClassDecl->needsOverloadResolutionForCopyConstructor()
- ? SpecialMemberIsTrivial(CopyConstructor, CXXCopyConstructor,
- TAH_ConsiderTrivialABI)
- : ClassDecl->hasTrivialCopyConstructorForCall()));
- // Note that we have declared this constructor.
- ++getASTContext().NumImplicitCopyConstructorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, CopyConstructor);
- if (ShouldDeleteSpecialMember(CopyConstructor, CXXCopyConstructor)) {
- ClassDecl->setImplicitCopyConstructorIsDeleted();
- SetDeclDeleted(CopyConstructor, ClassLoc);
- }
- if (S)
- PushOnScopeChains(CopyConstructor, S, false);
- ClassDecl->addDecl(CopyConstructor);
- return CopyConstructor;
- }
- void Sema::DefineImplicitCopyConstructor(SourceLocation CurrentLocation,
- CXXConstructorDecl *CopyConstructor) {
- assert((CopyConstructor->isDefaulted() &&
- CopyConstructor->isCopyConstructor() &&
- !CopyConstructor->doesThisDeclarationHaveABody() &&
- !CopyConstructor->isDeleted()) &&
- "DefineImplicitCopyConstructor - call it for implicit copy ctor");
- if (CopyConstructor->willHaveBody() || CopyConstructor->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = CopyConstructor->getParent();
- assert(ClassDecl && "DefineImplicitCopyConstructor - invalid constructor");
- SynthesizedFunctionScope Scope(*this, CopyConstructor);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- CopyConstructor->getType()->castAs<FunctionProtoType>());
- MarkVTableUsed(CurrentLocation, ClassDecl);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- // C++11 [class.copy]p7:
- // The [definition of an implicitly declared copy constructor] is
- // deprecated if the class has a user-declared copy assignment operator
- // or a user-declared destructor.
- if (getLangOpts().CPlusPlus11 && CopyConstructor->isImplicit())
- diagnoseDeprecatedCopyOperation(*this, CopyConstructor);
- if (SetCtorInitializers(CopyConstructor, /*AnyErrors=*/false)) {
- CopyConstructor->setInvalidDecl();
- } else {
- SourceLocation Loc = CopyConstructor->getEndLoc().isValid()
- ? CopyConstructor->getEndLoc()
- : CopyConstructor->getLocation();
- Sema::CompoundScopeRAII CompoundScope(*this);
- CopyConstructor->setBody(
- ActOnCompoundStmt(Loc, Loc, std::nullopt, /*isStmtExpr=*/false)
- .getAs<Stmt>());
- CopyConstructor->markUsed(Context);
- }
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(CopyConstructor);
- }
- }
- CXXConstructorDecl *Sema::DeclareImplicitMoveConstructor(
- CXXRecordDecl *ClassDecl) {
- assert(ClassDecl->needsImplicitMoveConstructor());
- DeclaringSpecialMember DSM(*this, ClassDecl, CXXMoveConstructor);
- if (DSM.isAlreadyBeingDeclared())
- return nullptr;
- QualType ClassType = Context.getTypeDeclType(ClassDecl);
- QualType ArgType = ClassType;
- ArgType = Context.getElaboratedType(ETK_None, nullptr, ArgType, nullptr);
- LangAS AS = getDefaultCXXMethodAddrSpace();
- if (AS != LangAS::Default)
- ArgType = Context.getAddrSpaceQualType(ClassType, AS);
- ArgType = Context.getRValueReferenceType(ArgType);
- bool Constexpr = defaultedSpecialMemberIsConstexpr(*this, ClassDecl,
- CXXMoveConstructor,
- false);
- DeclarationName Name
- = Context.DeclarationNames.getCXXConstructorName(
- Context.getCanonicalType(ClassType));
- SourceLocation ClassLoc = ClassDecl->getLocation();
- DeclarationNameInfo NameInfo(Name, ClassLoc);
- // C++11 [class.copy]p11:
- // An implicitly-declared copy/move constructor is an inline public
- // member of its class.
- CXXConstructorDecl *MoveConstructor = CXXConstructorDecl::Create(
- Context, ClassDecl, ClassLoc, NameInfo, QualType(), /*TInfo=*/nullptr,
- ExplicitSpecifier(), getCurFPFeatures().isFPConstrained(),
- /*isInline=*/true,
- /*isImplicitlyDeclared=*/true,
- Constexpr ? ConstexprSpecKind::Constexpr
- : ConstexprSpecKind::Unspecified);
- MoveConstructor->setAccess(AS_public);
- MoveConstructor->setDefaulted();
- setupImplicitSpecialMemberType(MoveConstructor, Context.VoidTy, ArgType);
- if (getLangOpts().CUDA)
- inferCUDATargetForImplicitSpecialMember(ClassDecl, CXXMoveConstructor,
- MoveConstructor,
- /* ConstRHS */ false,
- /* Diagnose */ false);
- // Add the parameter to the constructor.
- ParmVarDecl *FromParam = ParmVarDecl::Create(Context, MoveConstructor,
- ClassLoc, ClassLoc,
- /*IdentifierInfo=*/nullptr,
- ArgType, /*TInfo=*/nullptr,
- SC_None, nullptr);
- MoveConstructor->setParams(FromParam);
- MoveConstructor->setTrivial(
- ClassDecl->needsOverloadResolutionForMoveConstructor()
- ? SpecialMemberIsTrivial(MoveConstructor, CXXMoveConstructor)
- : ClassDecl->hasTrivialMoveConstructor());
- MoveConstructor->setTrivialForCall(
- ClassDecl->hasAttr<TrivialABIAttr>() ||
- (ClassDecl->needsOverloadResolutionForMoveConstructor()
- ? SpecialMemberIsTrivial(MoveConstructor, CXXMoveConstructor,
- TAH_ConsiderTrivialABI)
- : ClassDecl->hasTrivialMoveConstructorForCall()));
- // Note that we have declared this constructor.
- ++getASTContext().NumImplicitMoveConstructorsDeclared;
- Scope *S = getScopeForContext(ClassDecl);
- CheckImplicitSpecialMemberDeclaration(S, MoveConstructor);
- if (ShouldDeleteSpecialMember(MoveConstructor, CXXMoveConstructor)) {
- ClassDecl->setImplicitMoveConstructorIsDeleted();
- SetDeclDeleted(MoveConstructor, ClassLoc);
- }
- if (S)
- PushOnScopeChains(MoveConstructor, S, false);
- ClassDecl->addDecl(MoveConstructor);
- return MoveConstructor;
- }
- void Sema::DefineImplicitMoveConstructor(SourceLocation CurrentLocation,
- CXXConstructorDecl *MoveConstructor) {
- assert((MoveConstructor->isDefaulted() &&
- MoveConstructor->isMoveConstructor() &&
- !MoveConstructor->doesThisDeclarationHaveABody() &&
- !MoveConstructor->isDeleted()) &&
- "DefineImplicitMoveConstructor - call it for implicit move ctor");
- if (MoveConstructor->willHaveBody() || MoveConstructor->isInvalidDecl())
- return;
- CXXRecordDecl *ClassDecl = MoveConstructor->getParent();
- assert(ClassDecl && "DefineImplicitMoveConstructor - invalid constructor");
- SynthesizedFunctionScope Scope(*this, MoveConstructor);
- // The exception specification is needed because we are defining the
- // function.
- ResolveExceptionSpec(CurrentLocation,
- MoveConstructor->getType()->castAs<FunctionProtoType>());
- MarkVTableUsed(CurrentLocation, ClassDecl);
- // Add a context note for diagnostics produced after this point.
- Scope.addContextNote(CurrentLocation);
- if (SetCtorInitializers(MoveConstructor, /*AnyErrors=*/false)) {
- MoveConstructor->setInvalidDecl();
- } else {
- SourceLocation Loc = MoveConstructor->getEndLoc().isValid()
- ? MoveConstructor->getEndLoc()
- : MoveConstructor->getLocation();
- Sema::CompoundScopeRAII CompoundScope(*this);
- MoveConstructor->setBody(
- ActOnCompoundStmt(Loc, Loc, std::nullopt, /*isStmtExpr=*/false)
- .getAs<Stmt>());
- MoveConstructor->markUsed(Context);
- }
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(MoveConstructor);
- }
- }
- bool Sema::isImplicitlyDeleted(FunctionDecl *FD) {
- return FD->isDeleted() && FD->isDefaulted() && isa<CXXMethodDecl>(FD);
- }
- void Sema::DefineImplicitLambdaToFunctionPointerConversion(
- SourceLocation CurrentLocation,
- CXXConversionDecl *Conv) {
- SynthesizedFunctionScope Scope(*this, Conv);
- assert(!Conv->getReturnType()->isUndeducedType());
- QualType ConvRT = Conv->getType()->castAs<FunctionType>()->getReturnType();
- CallingConv CC =
- ConvRT->getPointeeType()->castAs<FunctionType>()->getCallConv();
- CXXRecordDecl *Lambda = Conv->getParent();
- FunctionDecl *CallOp = Lambda->getLambdaCallOperator();
- FunctionDecl *Invoker =
- CallOp->isStatic() ? CallOp : Lambda->getLambdaStaticInvoker(CC);
- if (auto *TemplateArgs = Conv->getTemplateSpecializationArgs()) {
- CallOp = InstantiateFunctionDeclaration(
- CallOp->getDescribedFunctionTemplate(), TemplateArgs, CurrentLocation);
- if (!CallOp)
- return;
- if (CallOp != Invoker) {
- Invoker = InstantiateFunctionDeclaration(
- Invoker->getDescribedFunctionTemplate(), TemplateArgs,
- CurrentLocation);
- if (!Invoker)
- return;
- }
- }
- if (CallOp->isInvalidDecl())
- return;
- // Mark the call operator referenced (and add to pending instantiations
- // if necessary).
- // For both the conversion and static-invoker template specializations
- // we construct their body's in this function, so no need to add them
- // to the PendingInstantiations.
- MarkFunctionReferenced(CurrentLocation, CallOp);
- if (Invoker != CallOp) {
- // Fill in the __invoke function with a dummy implementation. IR generation
- // will fill in the actual details. Update its type in case it contained
- // an 'auto'.
- Invoker->markUsed(Context);
- Invoker->setReferenced();
- Invoker->setType(Conv->getReturnType()->getPointeeType());
- Invoker->setBody(new (Context) CompoundStmt(Conv->getLocation()));
- }
- // Construct the body of the conversion function { return __invoke; }.
- Expr *FunctionRef = BuildDeclRefExpr(Invoker, Invoker->getType(), VK_LValue,
- Conv->getLocation());
- assert(FunctionRef && "Can't refer to __invoke function?");
- Stmt *Return = BuildReturnStmt(Conv->getLocation(), FunctionRef).get();
- Conv->setBody(CompoundStmt::Create(Context, Return, FPOptionsOverride(),
- Conv->getLocation(), Conv->getLocation()));
- Conv->markUsed(Context);
- Conv->setReferenced();
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(Conv);
- if (Invoker != CallOp)
- L->CompletedImplicitDefinition(Invoker);
- }
- }
- void Sema::DefineImplicitLambdaToBlockPointerConversion(
- SourceLocation CurrentLocation, CXXConversionDecl *Conv) {
- assert(!Conv->getParent()->isGenericLambda());
- SynthesizedFunctionScope Scope(*this, Conv);
- // Copy-initialize the lambda object as needed to capture it.
- Expr *This = ActOnCXXThis(CurrentLocation).get();
- Expr *DerefThis =CreateBuiltinUnaryOp(CurrentLocation, UO_Deref, This).get();
- ExprResult BuildBlock = BuildBlockForLambdaConversion(CurrentLocation,
- Conv->getLocation(),
- Conv, DerefThis);
- // If we're not under ARC, make sure we still get the _Block_copy/autorelease
- // behavior. Note that only the general conversion function does this
- // (since it's unusable otherwise); in the case where we inline the
- // block literal, it has block literal lifetime semantics.
- if (!BuildBlock.isInvalid() && !getLangOpts().ObjCAutoRefCount)
- BuildBlock = ImplicitCastExpr::Create(
- Context, BuildBlock.get()->getType(), CK_CopyAndAutoreleaseBlockObject,
- BuildBlock.get(), nullptr, VK_PRValue, FPOptionsOverride());
- if (BuildBlock.isInvalid()) {
- Diag(CurrentLocation, diag::note_lambda_to_block_conv);
- Conv->setInvalidDecl();
- return;
- }
- // Create the return statement that returns the block from the conversion
- // function.
- StmtResult Return = BuildReturnStmt(Conv->getLocation(), BuildBlock.get());
- if (Return.isInvalid()) {
- Diag(CurrentLocation, diag::note_lambda_to_block_conv);
- Conv->setInvalidDecl();
- return;
- }
- // Set the body of the conversion function.
- Stmt *ReturnS = Return.get();
- Conv->setBody(CompoundStmt::Create(Context, ReturnS, FPOptionsOverride(),
- Conv->getLocation(), Conv->getLocation()));
- Conv->markUsed(Context);
- // We're done; notify the mutation listener, if any.
- if (ASTMutationListener *L = getASTMutationListener()) {
- L->CompletedImplicitDefinition(Conv);
- }
- }
- /// Determine whether the given list arguments contains exactly one
- /// "real" (non-default) argument.
- static bool hasOneRealArgument(MultiExprArg Args) {
- switch (Args.size()) {
- case 0:
- return false;
- default:
- if (!Args[1]->isDefaultArgument())
- return false;
- [[fallthrough]];
- case 1:
- return !Args[0]->isDefaultArgument();
- }
- return false;
- }
- ExprResult
- Sema::BuildCXXConstructExpr(SourceLocation ConstructLoc, QualType DeclInitType,
- NamedDecl *FoundDecl,
- CXXConstructorDecl *Constructor,
- MultiExprArg ExprArgs,
- bool HadMultipleCandidates,
- bool IsListInitialization,
- bool IsStdInitListInitialization,
- bool RequiresZeroInit,
- unsigned ConstructKind,
- SourceRange ParenRange) {
- bool Elidable = false;
- // C++0x [class.copy]p34:
- // When certain criteria are met, an implementation is allowed to
- // omit the copy/move construction of a class object, even if the
- // copy/move constructor and/or destructor for the object have
- // side effects. [...]
- // - when a temporary class object that has not been bound to a
- // reference (12.2) would be copied/moved to a class object
- // with the same cv-unqualified type, the copy/move operation
- // can be omitted by constructing the temporary object
- // directly into the target of the omitted copy/move
- if (ConstructKind == CXXConstructExpr::CK_Complete && Constructor &&
- // FIXME: Converting constructors should also be accepted.
- // But to fix this, the logic that digs down into a CXXConstructExpr
- // to find the source object needs to handle it.
- // Right now it assumes the source object is passed directly as the
- // first argument.
- Constructor->isCopyOrMoveConstructor() && hasOneRealArgument(ExprArgs)) {
- Expr *SubExpr = ExprArgs[0];
- // FIXME: Per above, this is also incorrect if we want to accept
- // converting constructors, as isTemporaryObject will
- // reject temporaries with different type from the
- // CXXRecord itself.
- Elidable = SubExpr->isTemporaryObject(
- Context, cast<CXXRecordDecl>(FoundDecl->getDeclContext()));
- }
- return BuildCXXConstructExpr(ConstructLoc, DeclInitType,
- FoundDecl, Constructor,
- Elidable, ExprArgs, HadMultipleCandidates,
- IsListInitialization,
- IsStdInitListInitialization, RequiresZeroInit,
- ConstructKind, ParenRange);
- }
- ExprResult
- Sema::BuildCXXConstructExpr(SourceLocation ConstructLoc, QualType DeclInitType,
- NamedDecl *FoundDecl,
- CXXConstructorDecl *Constructor,
- bool Elidable,
- MultiExprArg ExprArgs,
- bool HadMultipleCandidates,
- bool IsListInitialization,
- bool IsStdInitListInitialization,
- bool RequiresZeroInit,
- unsigned ConstructKind,
- SourceRange ParenRange) {
- if (auto *Shadow = dyn_cast<ConstructorUsingShadowDecl>(FoundDecl)) {
- Constructor = findInheritingConstructor(ConstructLoc, Constructor, Shadow);
- // The only way to get here is if we did overlaod resolution to find the
- // shadow decl, so we don't need to worry about re-checking the trailing
- // requires clause.
- if (DiagnoseUseOfOverloadedDecl(Constructor, ConstructLoc))
- return ExprError();
- }
- return BuildCXXConstructExpr(
- ConstructLoc, DeclInitType, Constructor, Elidable, ExprArgs,
- HadMultipleCandidates, IsListInitialization, IsStdInitListInitialization,
- RequiresZeroInit, ConstructKind, ParenRange);
- }
- /// BuildCXXConstructExpr - Creates a complete call to a constructor,
- /// including handling of its default argument expressions.
- ExprResult
- Sema::BuildCXXConstructExpr(SourceLocation ConstructLoc, QualType DeclInitType,
- CXXConstructorDecl *Constructor,
- bool Elidable,
- MultiExprArg ExprArgs,
- bool HadMultipleCandidates,
- bool IsListInitialization,
- bool IsStdInitListInitialization,
- bool RequiresZeroInit,
- unsigned ConstructKind,
- SourceRange ParenRange) {
- assert(declaresSameEntity(
- Constructor->getParent(),
- DeclInitType->getBaseElementTypeUnsafe()->getAsCXXRecordDecl()) &&
- "given constructor for wrong type");
- MarkFunctionReferenced(ConstructLoc, Constructor);
- if (getLangOpts().CUDA && !CheckCUDACall(ConstructLoc, Constructor))
- return ExprError();
- if (getLangOpts().SYCLIsDevice &&
- !checkSYCLDeviceFunction(ConstructLoc, Constructor))
- return ExprError();
- return CheckForImmediateInvocation(
- CXXConstructExpr::Create(
- Context, DeclInitType, ConstructLoc, Constructor, Elidable, ExprArgs,
- HadMultipleCandidates, IsListInitialization,
- IsStdInitListInitialization, RequiresZeroInit,
- static_cast<CXXConstructExpr::ConstructionKind>(ConstructKind),
- ParenRange),
- Constructor);
- }
- void Sema::FinalizeVarWithDestructor(VarDecl *VD, const RecordType *Record) {
- if (VD->isInvalidDecl()) return;
- // If initializing the variable failed, don't also diagnose problems with
- // the destructor, they're likely related.
- if (VD->getInit() && VD->getInit()->containsErrors())
- return;
- CXXRecordDecl *ClassDecl = cast<CXXRecordDecl>(Record->getDecl());
- if (ClassDecl->isInvalidDecl()) return;
- if (ClassDecl->hasIrrelevantDestructor()) return;
- if (ClassDecl->isDependentContext()) return;
- if (VD->isNoDestroy(getASTContext()))
- return;
- CXXDestructorDecl *Destructor = LookupDestructor(ClassDecl);
- // If this is an array, we'll require the destructor during initialization, so
- // we can skip over this. We still want to emit exit-time destructor warnings
- // though.
- if (!VD->getType()->isArrayType()) {
- MarkFunctionReferenced(VD->getLocation(), Destructor);
- CheckDestructorAccess(VD->getLocation(), Destructor,
- PDiag(diag::err_access_dtor_var)
- << VD->getDeclName() << VD->getType());
- DiagnoseUseOfDecl(Destructor, VD->getLocation());
- }
- if (Destructor->isTrivial()) return;
- // If the destructor is constexpr, check whether the variable has constant
- // destruction now.
- if (Destructor->isConstexpr()) {
- bool HasConstantInit = false;
- if (VD->getInit() && !VD->getInit()->isValueDependent())
- HasConstantInit = VD->evaluateValue();
- SmallVector<PartialDiagnosticAt, 8> Notes;
- if (!VD->evaluateDestruction(Notes) && VD->isConstexpr() &&
- HasConstantInit) {
- Diag(VD->getLocation(),
- diag::err_constexpr_var_requires_const_destruction) << VD;
- for (unsigned I = 0, N = Notes.size(); I != N; ++I)
- Diag(Notes[I].first, Notes[I].second);
- }
- }
- if (!VD->hasGlobalStorage()) return;
- // Emit warning for non-trivial dtor in global scope (a real global,
- // class-static, function-static).
- Diag(VD->getLocation(), diag::warn_exit_time_destructor);
- // TODO: this should be re-enabled for static locals by !CXAAtExit
- if (!VD->isStaticLocal())
- Diag(VD->getLocation(), diag::warn_global_destructor);
- }
- /// Given a constructor and the set of arguments provided for the
- /// constructor, convert the arguments and add any required default arguments
- /// to form a proper call to this constructor.
- ///
- /// \returns true if an error occurred, false otherwise.
- bool Sema::CompleteConstructorCall(CXXConstructorDecl *Constructor,
- QualType DeclInitType, MultiExprArg ArgsPtr,
- SourceLocation Loc,
- SmallVectorImpl<Expr *> &ConvertedArgs,
- bool AllowExplicit,
- bool IsListInitialization) {
- // FIXME: This duplicates a lot of code from Sema::ConvertArgumentsForCall.
- unsigned NumArgs = ArgsPtr.size();
- Expr **Args = ArgsPtr.data();
- const auto *Proto = Constructor->getType()->castAs<FunctionProtoType>();
- unsigned NumParams = Proto->getNumParams();
- // If too few arguments are available, we'll fill in the rest with defaults.
- if (NumArgs < NumParams)
- ConvertedArgs.reserve(NumParams);
- else
- ConvertedArgs.reserve(NumArgs);
- VariadicCallType CallType =
- Proto->isVariadic() ? VariadicConstructor : VariadicDoesNotApply;
- SmallVector<Expr *, 8> AllArgs;
- bool Invalid = GatherArgumentsForCall(
- Loc, Constructor, Proto, 0, llvm::ArrayRef(Args, NumArgs), AllArgs,
- CallType, AllowExplicit, IsListInitialization);
- ConvertedArgs.append(AllArgs.begin(), AllArgs.end());
- DiagnoseSentinelCalls(Constructor, Loc, AllArgs);
- CheckConstructorCall(Constructor, DeclInitType,
- llvm::ArrayRef(AllArgs.data(), AllArgs.size()), Proto,
- Loc);
- return Invalid;
- }
- static inline bool
- CheckOperatorNewDeleteDeclarationScope(Sema &SemaRef,
- const FunctionDecl *FnDecl) {
- const DeclContext *DC = FnDecl->getDeclContext()->getRedeclContext();
- if (isa<NamespaceDecl>(DC)) {
- return SemaRef.Diag(FnDecl->getLocation(),
- diag::err_operator_new_delete_declared_in_namespace)
- << FnDecl->getDeclName();
- }
- if (isa<TranslationUnitDecl>(DC) &&
- FnDecl->getStorageClass() == SC_Static) {
- return SemaRef.Diag(FnDecl->getLocation(),
- diag::err_operator_new_delete_declared_static)
- << FnDecl->getDeclName();
- }
- return false;
- }
- static CanQualType RemoveAddressSpaceFromPtr(Sema &SemaRef,
- const PointerType *PtrTy) {
- auto &Ctx = SemaRef.Context;
- Qualifiers PtrQuals = PtrTy->getPointeeType().getQualifiers();
- PtrQuals.removeAddressSpace();
- return Ctx.getPointerType(Ctx.getCanonicalType(Ctx.getQualifiedType(
- PtrTy->getPointeeType().getUnqualifiedType(), PtrQuals)));
- }
- static inline bool
- CheckOperatorNewDeleteTypes(Sema &SemaRef, const FunctionDecl *FnDecl,
- CanQualType ExpectedResultType,
- CanQualType ExpectedFirstParamType,
- unsigned DependentParamTypeDiag,
- unsigned InvalidParamTypeDiag) {
- QualType ResultType =
- FnDecl->getType()->castAs<FunctionType>()->getReturnType();
- if (SemaRef.getLangOpts().OpenCLCPlusPlus) {
- // The operator is valid on any address space for OpenCL.
- // Drop address space from actual and expected result types.
- if (const auto *PtrTy = ResultType->getAs<PointerType>())
- ResultType = RemoveAddressSpaceFromPtr(SemaRef, PtrTy);
- if (auto ExpectedPtrTy = ExpectedResultType->getAs<PointerType>())
- ExpectedResultType = RemoveAddressSpaceFromPtr(SemaRef, ExpectedPtrTy);
- }
- // Check that the result type is what we expect.
- if (SemaRef.Context.getCanonicalType(ResultType) != ExpectedResultType) {
- // Reject even if the type is dependent; an operator delete function is
- // required to have a non-dependent result type.
- return SemaRef.Diag(
- FnDecl->getLocation(),
- ResultType->isDependentType()
- ? diag::err_operator_new_delete_dependent_result_type
- : diag::err_operator_new_delete_invalid_result_type)
- << FnDecl->getDeclName() << ExpectedResultType;
- }
- // A function template must have at least 2 parameters.
- if (FnDecl->getDescribedFunctionTemplate() && FnDecl->getNumParams() < 2)
- return SemaRef.Diag(FnDecl->getLocation(),
- diag::err_operator_new_delete_template_too_few_parameters)
- << FnDecl->getDeclName();
- // The function decl must have at least 1 parameter.
- if (FnDecl->getNumParams() == 0)
- return SemaRef.Diag(FnDecl->getLocation(),
- diag::err_operator_new_delete_too_few_parameters)
- << FnDecl->getDeclName();
- QualType FirstParamType = FnDecl->getParamDecl(0)->getType();
- if (SemaRef.getLangOpts().OpenCLCPlusPlus) {
- // The operator is valid on any address space for OpenCL.
- // Drop address space from actual and expected first parameter types.
- if (const auto *PtrTy =
- FnDecl->getParamDecl(0)->getType()->getAs<PointerType>())
- FirstParamType = RemoveAddressSpaceFromPtr(SemaRef, PtrTy);
- if (auto ExpectedPtrTy = ExpectedFirstParamType->getAs<PointerType>())
- ExpectedFirstParamType =
- RemoveAddressSpaceFromPtr(SemaRef, ExpectedPtrTy);
- }
- // Check that the first parameter type is what we expect.
- if (SemaRef.Context.getCanonicalType(FirstParamType).getUnqualifiedType() !=
- ExpectedFirstParamType) {
- // The first parameter type is not allowed to be dependent. As a tentative
- // DR resolution, we allow a dependent parameter type if it is the right
- // type anyway, to allow destroying operator delete in class templates.
- return SemaRef.Diag(FnDecl->getLocation(), FirstParamType->isDependentType()
- ? DependentParamTypeDiag
- : InvalidParamTypeDiag)
- << FnDecl->getDeclName() << ExpectedFirstParamType;
- }
- return false;
- }
- static bool
- CheckOperatorNewDeclaration(Sema &SemaRef, const FunctionDecl *FnDecl) {
- // C++ [basic.stc.dynamic.allocation]p1:
- // A program is ill-formed if an allocation function is declared in a
- // namespace scope other than global scope or declared static in global
- // scope.
- if (CheckOperatorNewDeleteDeclarationScope(SemaRef, FnDecl))
- return true;
- CanQualType SizeTy =
- SemaRef.Context.getCanonicalType(SemaRef.Context.getSizeType());
- // C++ [basic.stc.dynamic.allocation]p1:
- // The return type shall be void*. The first parameter shall have type
- // std::size_t.
- if (CheckOperatorNewDeleteTypes(SemaRef, FnDecl, SemaRef.Context.VoidPtrTy,
- SizeTy,
- diag::err_operator_new_dependent_param_type,
- diag::err_operator_new_param_type))
- return true;
- // C++ [basic.stc.dynamic.allocation]p1:
- // The first parameter shall not have an associated default argument.
- if (FnDecl->getParamDecl(0)->hasDefaultArg())
- return SemaRef.Diag(FnDecl->getLocation(),
- diag::err_operator_new_default_arg)
- << FnDecl->getDeclName() << FnDecl->getParamDecl(0)->getDefaultArgRange();
- return false;
- }
- static bool
- CheckOperatorDeleteDeclaration(Sema &SemaRef, FunctionDecl *FnDecl) {
- // C++ [basic.stc.dynamic.deallocation]p1:
- // A program is ill-formed if deallocation functions are declared in a
- // namespace scope other than global scope or declared static in global
- // scope.
- if (CheckOperatorNewDeleteDeclarationScope(SemaRef, FnDecl))
- return true;
- auto *MD = dyn_cast<CXXMethodDecl>(FnDecl);
- // C++ P0722:
- // Within a class C, the first parameter of a destroying operator delete
- // shall be of type C *. The first parameter of any other deallocation
- // function shall be of type void *.
- CanQualType ExpectedFirstParamType =
- MD && MD->isDestroyingOperatorDelete()
- ? SemaRef.Context.getCanonicalType(SemaRef.Context.getPointerType(
- SemaRef.Context.getRecordType(MD->getParent())))
- : SemaRef.Context.VoidPtrTy;
- // C++ [basic.stc.dynamic.deallocation]p2:
- // Each deallocation function shall return void
- if (CheckOperatorNewDeleteTypes(
- SemaRef, FnDecl, SemaRef.Context.VoidTy, ExpectedFirstParamType,
- diag::err_operator_delete_dependent_param_type,
- diag::err_operator_delete_param_type))
- return true;
- // C++ P0722:
- // A destroying operator delete shall be a usual deallocation function.
- if (MD && !MD->getParent()->isDependentContext() &&
- MD->isDestroyingOperatorDelete() &&
- !SemaRef.isUsualDeallocationFunction(MD)) {
- SemaRef.Diag(MD->getLocation(),
- diag::err_destroying_operator_delete_not_usual);
- return true;
- }
- return false;
- }
- /// CheckOverloadedOperatorDeclaration - Check whether the declaration
- /// of this overloaded operator is well-formed. If so, returns false;
- /// otherwise, emits appropriate diagnostics and returns true.
- bool Sema::CheckOverloadedOperatorDeclaration(FunctionDecl *FnDecl) {
- assert(FnDecl && FnDecl->isOverloadedOperator() &&
- "Expected an overloaded operator declaration");
- OverloadedOperatorKind Op = FnDecl->getOverloadedOperator();
- // C++ [over.oper]p5:
- // The allocation and deallocation functions, operator new,
- // operator new[], operator delete and operator delete[], are
- // described completely in 3.7.3. The attributes and restrictions
- // found in the rest of this subclause do not apply to them unless
- // explicitly stated in 3.7.3.
- if (Op == OO_Delete || Op == OO_Array_Delete)
- return CheckOperatorDeleteDeclaration(*this, FnDecl);
- if (Op == OO_New || Op == OO_Array_New)
- return CheckOperatorNewDeclaration(*this, FnDecl);
- // C++ [over.oper]p7:
- // An operator function shall either be a member function or
- // be a non-member function and have at least one parameter
- // whose type is a class, a reference to a class, an enumeration,
- // or a reference to an enumeration.
- // Note: Before C++23, a member function could not be static. The only member
- // function allowed to be static is the call operator function.
- if (CXXMethodDecl *MethodDecl = dyn_cast<CXXMethodDecl>(FnDecl)) {
- if (MethodDecl->isStatic()) {
- if (Op == OO_Call || Op == OO_Subscript)
- Diag(FnDecl->getLocation(),
- (LangOpts.CPlusPlus2b
- ? diag::warn_cxx20_compat_operator_overload_static
- : diag::ext_operator_overload_static))
- << FnDecl;
- else
- return Diag(FnDecl->getLocation(), diag::err_operator_overload_static)
- << FnDecl;
- }
- } else {
- bool ClassOrEnumParam = false;
- for (auto *Param : FnDecl->parameters()) {
- QualType ParamType = Param->getType().getNonReferenceType();
- if (ParamType->isDependentType() || ParamType->isRecordType() ||
- ParamType->isEnumeralType()) {
- ClassOrEnumParam = true;
- break;
- }
- }
- if (!ClassOrEnumParam)
- return Diag(FnDecl->getLocation(),
- diag::err_operator_overload_needs_class_or_enum)
- << FnDecl->getDeclName();
- }
- // C++ [over.oper]p8:
- // An operator function cannot have default arguments (8.3.6),
- // except where explicitly stated below.
- //
- // Only the function-call operator (C++ [over.call]p1) and the subscript
- // operator (CWG2507) allow default arguments.
- if (Op != OO_Call) {
- ParmVarDecl *FirstDefaultedParam = nullptr;
- for (auto *Param : FnDecl->parameters()) {
- if (Param->hasDefaultArg()) {
- FirstDefaultedParam = Param;
- break;
- }
- }
- if (FirstDefaultedParam) {
- if (Op == OO_Subscript) {
- Diag(FnDecl->getLocation(), LangOpts.CPlusPlus2b
- ? diag::ext_subscript_overload
- : diag::error_subscript_overload)
- << FnDecl->getDeclName() << 1
- << FirstDefaultedParam->getDefaultArgRange();
- } else {
- return Diag(FirstDefaultedParam->getLocation(),
- diag::err_operator_overload_default_arg)
- << FnDecl->getDeclName()
- << FirstDefaultedParam->getDefaultArgRange();
- }
- }
- }
- static const bool OperatorUses[NUM_OVERLOADED_OPERATORS][3] = {
- { false, false, false }
- #define OVERLOADED_OPERATOR(Name,Spelling,Token,Unary,Binary,MemberOnly) \
- , { Unary, Binary, MemberOnly }
- #include "clang/Basic/OperatorKinds.def"
- };
- bool CanBeUnaryOperator = OperatorUses[Op][0];
- bool CanBeBinaryOperator = OperatorUses[Op][1];
- bool MustBeMemberOperator = OperatorUses[Op][2];
- // C++ [over.oper]p8:
- // [...] Operator functions cannot have more or fewer parameters
- // than the number required for the corresponding operator, as
- // described in the rest of this subclause.
- unsigned NumParams = FnDecl->getNumParams()
- + (isa<CXXMethodDecl>(FnDecl)? 1 : 0);
- if (Op != OO_Call && Op != OO_Subscript &&
- ((NumParams == 1 && !CanBeUnaryOperator) ||
- (NumParams == 2 && !CanBeBinaryOperator) || (NumParams < 1) ||
- (NumParams > 2))) {
- // We have the wrong number of parameters.
- unsigned ErrorKind;
- if (CanBeUnaryOperator && CanBeBinaryOperator) {
- ErrorKind = 2; // 2 -> unary or binary.
- } else if (CanBeUnaryOperator) {
- ErrorKind = 0; // 0 -> unary
- } else {
- assert(CanBeBinaryOperator &&
- "All non-call overloaded operators are unary or binary!");
- ErrorKind = 1; // 1 -> binary
- }
- return Diag(FnDecl->getLocation(), diag::err_operator_overload_must_be)
- << FnDecl->getDeclName() << NumParams << ErrorKind;
- }
- if (Op == OO_Subscript && NumParams != 2) {
- Diag(FnDecl->getLocation(), LangOpts.CPlusPlus2b
- ? diag::ext_subscript_overload
- : diag::error_subscript_overload)
- << FnDecl->getDeclName() << (NumParams == 1 ? 0 : 2);
- }
- // Overloaded operators other than operator() and operator[] cannot be
- // variadic.
- if (Op != OO_Call &&
- FnDecl->getType()->castAs<FunctionProtoType>()->isVariadic()) {
- return Diag(FnDecl->getLocation(), diag::err_operator_overload_variadic)
- << FnDecl->getDeclName();
- }
- // Some operators must be member functions.
- if (MustBeMemberOperator && !isa<CXXMethodDecl>(FnDecl)) {
- return Diag(FnDecl->getLocation(),
- diag::err_operator_overload_must_be_member)
- << FnDecl->getDeclName();
- }
- // C++ [over.inc]p1:
- // The user-defined function called operator++ implements the
- // prefix and postfix ++ operator. If this function is a member
- // function with no parameters, or a non-member function with one
- // parameter of class or enumeration type, it defines the prefix
- // increment operator ++ for objects of that type. If the function
- // is a member function with one parameter (which shall be of type
- // int) or a non-member function with two parameters (the second
- // of which shall be of type int), it defines the postfix
- // increment operator ++ for objects of that type.
- if ((Op == OO_PlusPlus || Op == OO_MinusMinus) && NumParams == 2) {
- ParmVarDecl *LastParam = FnDecl->getParamDecl(FnDecl->getNumParams() - 1);
- QualType ParamType = LastParam->getType();
- if (!ParamType->isSpecificBuiltinType(BuiltinType::Int) &&
- !ParamType->isDependentType())
- return Diag(LastParam->getLocation(),
- diag::err_operator_overload_post_incdec_must_be_int)
- << LastParam->getType() << (Op == OO_MinusMinus);
- }
- return false;
- }
- static bool
- checkLiteralOperatorTemplateParameterList(Sema &SemaRef,
- FunctionTemplateDecl *TpDecl) {
- TemplateParameterList *TemplateParams = TpDecl->getTemplateParameters();
- // Must have one or two template parameters.
- if (TemplateParams->size() == 1) {
- NonTypeTemplateParmDecl *PmDecl =
- dyn_cast<NonTypeTemplateParmDecl>(TemplateParams->getParam(0));
- // The template parameter must be a char parameter pack.
- if (PmDecl && PmDecl->isTemplateParameterPack() &&
- SemaRef.Context.hasSameType(PmDecl->getType(), SemaRef.Context.CharTy))
- return false;
- // C++20 [over.literal]p5:
- // A string literal operator template is a literal operator template
- // whose template-parameter-list comprises a single non-type
- // template-parameter of class type.
- //
- // As a DR resolution, we also allow placeholders for deduced class
- // template specializations.
- if (SemaRef.getLangOpts().CPlusPlus20 && PmDecl &&
- !PmDecl->isTemplateParameterPack() &&
- (PmDecl->getType()->isRecordType() ||
- PmDecl->getType()->getAs<DeducedTemplateSpecializationType>()))
- return false;
- } else if (TemplateParams->size() == 2) {
- TemplateTypeParmDecl *PmType =
- dyn_cast<TemplateTypeParmDecl>(TemplateParams->getParam(0));
- NonTypeTemplateParmDecl *PmArgs =
- dyn_cast<NonTypeTemplateParmDecl>(TemplateParams->getParam(1));
- // The second template parameter must be a parameter pack with the
- // first template parameter as its type.
- if (PmType && PmArgs && !PmType->isTemplateParameterPack() &&
- PmArgs->isTemplateParameterPack()) {
- const TemplateTypeParmType *TArgs =
- PmArgs->getType()->getAs<TemplateTypeParmType>();
- if (TArgs && TArgs->getDepth() == PmType->getDepth() &&
- TArgs->getIndex() == PmType->getIndex()) {
- if (!SemaRef.inTemplateInstantiation())
- SemaRef.Diag(TpDecl->getLocation(),
- diag::ext_string_literal_operator_template);
- return false;
- }
- }
- }
- SemaRef.Diag(TpDecl->getTemplateParameters()->getSourceRange().getBegin(),
- diag::err_literal_operator_template)
- << TpDecl->getTemplateParameters()->getSourceRange();
- return true;
- }
- /// CheckLiteralOperatorDeclaration - Check whether the declaration
- /// of this literal operator function is well-formed. If so, returns
- /// false; otherwise, emits appropriate diagnostics and returns true.
- bool Sema::CheckLiteralOperatorDeclaration(FunctionDecl *FnDecl) {
- if (isa<CXXMethodDecl>(FnDecl)) {
- Diag(FnDecl->getLocation(), diag::err_literal_operator_outside_namespace)
- << FnDecl->getDeclName();
- return true;
- }
- if (FnDecl->isExternC()) {
- Diag(FnDecl->getLocation(), diag::err_literal_operator_extern_c);
- if (const LinkageSpecDecl *LSD =
- FnDecl->getDeclContext()->getExternCContext())
- Diag(LSD->getExternLoc(), diag::note_extern_c_begins_here);
- return true;
- }
- // This might be the definition of a literal operator template.
- FunctionTemplateDecl *TpDecl = FnDecl->getDescribedFunctionTemplate();
- // This might be a specialization of a literal operator template.
- if (!TpDecl)
- TpDecl = FnDecl->getPrimaryTemplate();
- // template <char...> type operator "" name() and
- // template <class T, T...> type operator "" name() are the only valid
- // template signatures, and the only valid signatures with no parameters.
- //
- // C++20 also allows template <SomeClass T> type operator "" name().
- if (TpDecl) {
- if (FnDecl->param_size() != 0) {
- Diag(FnDecl->getLocation(),
- diag::err_literal_operator_template_with_params);
- return true;
- }
- if (checkLiteralOperatorTemplateParameterList(*this, TpDecl))
- return true;
- } else if (FnDecl->param_size() == 1) {
- const ParmVarDecl *Param = FnDecl->getParamDecl(0);
- QualType ParamType = Param->getType().getUnqualifiedType();
- // Only unsigned long long int, long double, any character type, and const
- // char * are allowed as the only parameters.
- if (ParamType->isSpecificBuiltinType(BuiltinType::ULongLong) ||
- ParamType->isSpecificBuiltinType(BuiltinType::LongDouble) ||
- Context.hasSameType(ParamType, Context.CharTy) ||
- Context.hasSameType(ParamType, Context.WideCharTy) ||
- Context.hasSameType(ParamType, Context.Char8Ty) ||
- Context.hasSameType(ParamType, Context.Char16Ty) ||
- Context.hasSameType(ParamType, Context.Char32Ty)) {
- } else if (const PointerType *Ptr = ParamType->getAs<PointerType>()) {
- QualType InnerType = Ptr->getPointeeType();
- // Pointer parameter must be a const char *.
- if (!(Context.hasSameType(InnerType.getUnqualifiedType(),
- Context.CharTy) &&
- InnerType.isConstQualified() && !InnerType.isVolatileQualified())) {
- Diag(Param->getSourceRange().getBegin(),
- diag::err_literal_operator_param)
- << ParamType << "'const char *'" << Param->getSourceRange();
- return true;
- }
- } else if (ParamType->isRealFloatingType()) {
- Diag(Param->getSourceRange().getBegin(), diag::err_literal_operator_param)
- << ParamType << Context.LongDoubleTy << Param->getSourceRange();
- return true;
- } else if (ParamType->isIntegerType()) {
- Diag(Param->getSourceRange().getBegin(), diag::err_literal_operator_param)
- << ParamType << Context.UnsignedLongLongTy << Param->getSourceRange();
- return true;
- } else {
- Diag(Param->getSourceRange().getBegin(),
- diag::err_literal_operator_invalid_param)
- << ParamType << Param->getSourceRange();
- return true;
- }
- } else if (FnDecl->param_size() == 2) {
- FunctionDecl::param_iterator Param = FnDecl->param_begin();
- // First, verify that the first parameter is correct.
- QualType FirstParamType = (*Param)->getType().getUnqualifiedType();
- // Two parameter function must have a pointer to const as a
- // first parameter; let's strip those qualifiers.
- const PointerType *PT = FirstParamType->getAs<PointerType>();
- if (!PT) {
- Diag((*Param)->getSourceRange().getBegin(),
- diag::err_literal_operator_param)
- << FirstParamType << "'const char *'" << (*Param)->getSourceRange();
- return true;
- }
- QualType PointeeType = PT->getPointeeType();
- // First parameter must be const
- if (!PointeeType.isConstQualified() || PointeeType.isVolatileQualified()) {
- Diag((*Param)->getSourceRange().getBegin(),
- diag::err_literal_operator_param)
- << FirstParamType << "'const char *'" << (*Param)->getSourceRange();
- return true;
- }
- QualType InnerType = PointeeType.getUnqualifiedType();
- // Only const char *, const wchar_t*, const char8_t*, const char16_t*, and
- // const char32_t* are allowed as the first parameter to a two-parameter
- // function
- if (!(Context.hasSameType(InnerType, Context.CharTy) ||
- Context.hasSameType(InnerType, Context.WideCharTy) ||
- Context.hasSameType(InnerType, Context.Char8Ty) ||
- Context.hasSameType(InnerType, Context.Char16Ty) ||
- Context.hasSameType(InnerType, Context.Char32Ty))) {
- Diag((*Param)->getSourceRange().getBegin(),
- diag::err_literal_operator_param)
- << FirstParamType << "'const char *'" << (*Param)->getSourceRange();
- return true;
- }
- // Move on to the second and final parameter.
- ++Param;
- // The second parameter must be a std::size_t.
- QualType SecondParamType = (*Param)->getType().getUnqualifiedType();
- if (!Context.hasSameType(SecondParamType, Context.getSizeType())) {
- Diag((*Param)->getSourceRange().getBegin(),
- diag::err_literal_operator_param)
- << SecondParamType << Context.getSizeType()
- << (*Param)->getSourceRange();
- return true;
- }
- } else {
- Diag(FnDecl->getLocation(), diag::err_literal_operator_bad_param_count);
- return true;
- }
- // Parameters are good.
- // A parameter-declaration-clause containing a default argument is not
- // equivalent to any of the permitted forms.
- for (auto *Param : FnDecl->parameters()) {
- if (Param->hasDefaultArg()) {
- Diag(Param->getDefaultArgRange().getBegin(),
- diag::err_literal_operator_default_argument)
- << Param->getDefaultArgRange();
- break;
- }
- }
- StringRef LiteralName
- = FnDecl->getDeclName().getCXXLiteralIdentifier()->getName();
- if (LiteralName[0] != '_' &&
- !getSourceManager().isInSystemHeader(FnDecl->getLocation())) {
- // C++11 [usrlit.suffix]p1:
- // Literal suffix identifiers that do not start with an underscore
- // are reserved for future standardization.
- Diag(FnDecl->getLocation(), diag::warn_user_literal_reserved)
- << StringLiteralParser::isValidUDSuffix(getLangOpts(), LiteralName);
- }
- return false;
- }
- /// ActOnStartLinkageSpecification - Parsed the beginning of a C++
- /// linkage specification, including the language and (if present)
- /// the '{'. ExternLoc is the location of the 'extern', Lang is the
- /// language string literal. LBraceLoc, if valid, provides the location of
- /// the '{' brace. Otherwise, this linkage specification does not
- /// have any braces.
- Decl *Sema::ActOnStartLinkageSpecification(Scope *S, SourceLocation ExternLoc,
- Expr *LangStr,
- SourceLocation LBraceLoc) {
- StringLiteral *Lit = cast<StringLiteral>(LangStr);
- if (!Lit->isOrdinary()) {
- Diag(LangStr->getExprLoc(), diag::err_language_linkage_spec_not_ascii)
- << LangStr->getSourceRange();
- return nullptr;
- }
- StringRef Lang = Lit->getString();
- LinkageSpecDecl::LanguageIDs Language;
- if (Lang == "C")
- Language = LinkageSpecDecl::lang_c;
- else if (Lang == "C++")
- Language = LinkageSpecDecl::lang_cxx;
- else {
- Diag(LangStr->getExprLoc(), diag::err_language_linkage_spec_unknown)
- << LangStr->getSourceRange();
- return nullptr;
- }
- // FIXME: Add all the various semantics of linkage specifications
- LinkageSpecDecl *D = LinkageSpecDecl::Create(Context, CurContext, ExternLoc,
- LangStr->getExprLoc(), Language,
- LBraceLoc.isValid());
- /// C++ [module.unit]p7.2.3
- /// - Otherwise, if the declaration
- /// - ...
- /// - ...
- /// - appears within a linkage-specification,
- /// it is attached to the global module.
- ///
- /// If the declaration is already in global module fragment, we don't
- /// need to attach it again.
- if (getLangOpts().CPlusPlusModules && isCurrentModulePurview()) {
- Module *GlobalModule =
- PushGlobalModuleFragment(ExternLoc, /*IsImplicit=*/true);
- /// According to [module.reach]p3.2,
- /// The declaration in global module fragment is reachable if it is not
- /// discarded. And the discarded declaration should be deleted. So it
- /// doesn't matter mark the declaration in global module fragment as
- /// reachable here.
- D->setModuleOwnershipKind(Decl::ModuleOwnershipKind::ReachableWhenImported);
- D->setLocalOwningModule(GlobalModule);
- }
- CurContext->addDecl(D);
- PushDeclContext(S, D);
- return D;
- }
- /// ActOnFinishLinkageSpecification - Complete the definition of
- /// the C++ linkage specification LinkageSpec. If RBraceLoc is
- /// valid, it's the position of the closing '}' brace in a linkage
- /// specification that uses braces.
- Decl *Sema::ActOnFinishLinkageSpecification(Scope *S,
- Decl *LinkageSpec,
- SourceLocation RBraceLoc) {
- if (RBraceLoc.isValid()) {
- LinkageSpecDecl* LSDecl = cast<LinkageSpecDecl>(LinkageSpec);
- LSDecl->setRBraceLoc(RBraceLoc);
- }
- // If the current module doesn't has Parent, it implies that the
- // LinkageSpec isn't in the module created by itself. So we don't
- // need to pop it.
- if (getLangOpts().CPlusPlusModules && getCurrentModule() &&
- getCurrentModule()->isGlobalModule() && getCurrentModule()->Parent)
- PopGlobalModuleFragment();
- PopDeclContext();
- return LinkageSpec;
- }
- Decl *Sema::ActOnEmptyDeclaration(Scope *S,
- const ParsedAttributesView &AttrList,
- SourceLocation SemiLoc) {
- Decl *ED = EmptyDecl::Create(Context, CurContext, SemiLoc);
- // Attribute declarations appertain to empty declaration so we handle
- // them here.
- ProcessDeclAttributeList(S, ED, AttrList);
- CurContext->addDecl(ED);
- return ED;
- }
- /// Perform semantic analysis for the variable declaration that
- /// occurs within a C++ catch clause, returning the newly-created
- /// variable.
- VarDecl *Sema::BuildExceptionDeclaration(Scope *S,
- TypeSourceInfo *TInfo,
- SourceLocation StartLoc,
- SourceLocation Loc,
- IdentifierInfo *Name) {
- bool Invalid = false;
- QualType ExDeclType = TInfo->getType();
- // Arrays and functions decay.
- if (ExDeclType->isArrayType())
- ExDeclType = Context.getArrayDecayedType(ExDeclType);
- else if (ExDeclType->isFunctionType())
- ExDeclType = Context.getPointerType(ExDeclType);
- // C++ 15.3p1: The exception-declaration shall not denote an incomplete type.
- // The exception-declaration shall not denote a pointer or reference to an
- // incomplete type, other than [cv] void*.
- // N2844 forbids rvalue references.
- if (!ExDeclType->isDependentType() && ExDeclType->isRValueReferenceType()) {
- Diag(Loc, diag::err_catch_rvalue_ref);
- Invalid = true;
- }
- if (ExDeclType->isVariablyModifiedType()) {
- Diag(Loc, diag::err_catch_variably_modified) << ExDeclType;
- Invalid = true;
- }
- QualType BaseType = ExDeclType;
- int Mode = 0; // 0 for direct type, 1 for pointer, 2 for reference
- unsigned DK = diag::err_catch_incomplete;
- if (const PointerType *Ptr = BaseType->getAs<PointerType>()) {
- BaseType = Ptr->getPointeeType();
- Mode = 1;
- DK = diag::err_catch_incomplete_ptr;
- } else if (const ReferenceType *Ref = BaseType->getAs<ReferenceType>()) {
- // For the purpose of error recovery, we treat rvalue refs like lvalue refs.
- BaseType = Ref->getPointeeType();
- Mode = 2;
- DK = diag::err_catch_incomplete_ref;
- }
- if (!Invalid && (Mode == 0 || !BaseType->isVoidType()) &&
- !BaseType->isDependentType() && RequireCompleteType(Loc, BaseType, DK))
- Invalid = true;
- if (!Invalid && Mode != 1 && BaseType->isSizelessType()) {
- Diag(Loc, diag::err_catch_sizeless) << (Mode == 2 ? 1 : 0) << BaseType;
- Invalid = true;
- }
- if (!Invalid && !ExDeclType->isDependentType() &&
- RequireNonAbstractType(Loc, ExDeclType,
- diag::err_abstract_type_in_decl,
- AbstractVariableType))
- Invalid = true;
- // Only the non-fragile NeXT runtime currently supports C++ catches
- // of ObjC types, and no runtime supports catching ObjC types by value.
- if (!Invalid && getLangOpts().ObjC) {
- QualType T = ExDeclType;
- if (const ReferenceType *RT = T->getAs<ReferenceType>())
- T = RT->getPointeeType();
- if (T->isObjCObjectType()) {
- Diag(Loc, diag::err_objc_object_catch);
- Invalid = true;
- } else if (T->isObjCObjectPointerType()) {
- // FIXME: should this be a test for macosx-fragile specifically?
- if (getLangOpts().ObjCRuntime.isFragile())
- Diag(Loc, diag::warn_objc_pointer_cxx_catch_fragile);
- }
- }
- VarDecl *ExDecl = VarDecl::Create(Context, CurContext, StartLoc, Loc, Name,
- ExDeclType, TInfo, SC_None);
- ExDecl->setExceptionVariable(true);
- // In ARC, infer 'retaining' for variables of retainable type.
- if (getLangOpts().ObjCAutoRefCount && inferObjCARCLifetime(ExDecl))
- Invalid = true;
- if (!Invalid && !ExDeclType->isDependentType()) {
- if (const RecordType *recordType = ExDeclType->getAs<RecordType>()) {
- // Insulate this from anything else we might currently be parsing.
- EnterExpressionEvaluationContext scope(
- *this, ExpressionEvaluationContext::PotentiallyEvaluated);
- // C++ [except.handle]p16:
- // The object declared in an exception-declaration or, if the
- // exception-declaration does not specify a name, a temporary (12.2) is
- // copy-initialized (8.5) from the exception object. [...]
- // The object is destroyed when the handler exits, after the destruction
- // of any automatic objects initialized within the handler.
- //
- // We just pretend to initialize the object with itself, then make sure
- // it can be destroyed later.
- QualType initType = Context.getExceptionObjectType(ExDeclType);
- InitializedEntity entity =
- InitializedEntity::InitializeVariable(ExDecl);
- InitializationKind initKind =
- InitializationKind::CreateCopy(Loc, SourceLocation());
- Expr *opaqueValue =
- new (Context) OpaqueValueExpr(Loc, initType, VK_LValue, OK_Ordinary);
- InitializationSequence sequence(*this, entity, initKind, opaqueValue);
- ExprResult result = sequence.Perform(*this, entity, initKind, opaqueValue);
- if (result.isInvalid())
- Invalid = true;
- else {
- // If the constructor used was non-trivial, set this as the
- // "initializer".
- CXXConstructExpr *construct = result.getAs<CXXConstructExpr>();
- if (!construct->getConstructor()->isTrivial()) {
- Expr *init = MaybeCreateExprWithCleanups(construct);
- ExDecl->setInit(init);
- }
- // And make sure it's destructable.
- FinalizeVarWithDestructor(ExDecl, recordType);
- }
- }
- }
- if (Invalid)
- ExDecl->setInvalidDecl();
- return ExDecl;
- }
- /// ActOnExceptionDeclarator - Parsed the exception-declarator in a C++ catch
- /// handler.
- Decl *Sema::ActOnExceptionDeclarator(Scope *S, Declarator &D) {
- TypeSourceInfo *TInfo = GetTypeForDeclarator(D, S);
- bool Invalid = D.isInvalidType();
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(D.getIdentifierLoc(), TInfo,
- UPPC_ExceptionType)) {
- TInfo = Context.getTrivialTypeSourceInfo(Context.IntTy,
- D.getIdentifierLoc());
- Invalid = true;
- }
- IdentifierInfo *II = D.getIdentifier();
- if (NamedDecl *PrevDecl = LookupSingleName(S, II, D.getIdentifierLoc(),
- LookupOrdinaryName,
- ForVisibleRedeclaration)) {
- // The scope should be freshly made just for us. There is just no way
- // it contains any previous declaration, except for function parameters in
- // a function-try-block's catch statement.
- assert(!S->isDeclScope(PrevDecl));
- if (isDeclInScope(PrevDecl, CurContext, S)) {
- Diag(D.getIdentifierLoc(), diag::err_redefinition)
- << D.getIdentifier();
- Diag(PrevDecl->getLocation(), diag::note_previous_definition);
- Invalid = true;
- } else if (PrevDecl->isTemplateParameter())
- // Maybe we will complain about the shadowed template parameter.
- DiagnoseTemplateParameterShadow(D.getIdentifierLoc(), PrevDecl);
- }
- if (D.getCXXScopeSpec().isSet() && !Invalid) {
- Diag(D.getIdentifierLoc(), diag::err_qualified_catch_declarator)
- << D.getCXXScopeSpec().getRange();
- Invalid = true;
- }
- VarDecl *ExDecl = BuildExceptionDeclaration(
- S, TInfo, D.getBeginLoc(), D.getIdentifierLoc(), D.getIdentifier());
- if (Invalid)
- ExDecl->setInvalidDecl();
- // Add the exception declaration into this scope.
- if (II)
- PushOnScopeChains(ExDecl, S);
- else
- CurContext->addDecl(ExDecl);
- ProcessDeclAttributes(S, ExDecl, D);
- return ExDecl;
- }
- Decl *Sema::ActOnStaticAssertDeclaration(SourceLocation StaticAssertLoc,
- Expr *AssertExpr,
- Expr *AssertMessageExpr,
- SourceLocation RParenLoc) {
- StringLiteral *AssertMessage =
- AssertMessageExpr ? cast<StringLiteral>(AssertMessageExpr) : nullptr;
- if (DiagnoseUnexpandedParameterPack(AssertExpr, UPPC_StaticAssertExpression))
- return nullptr;
- return BuildStaticAssertDeclaration(StaticAssertLoc, AssertExpr,
- AssertMessage, RParenLoc, false);
- }
- /// Convert \V to a string we can present to the user in a diagnostic
- /// \T is the type of the expression that has been evaluated into \V
- static bool ConvertAPValueToString(const APValue &V, QualType T,
- SmallVectorImpl<char> &Str) {
- if (!V.hasValue())
- return false;
- switch (V.getKind()) {
- case APValue::ValueKind::Int:
- if (T->isBooleanType()) {
- // Bools are reduced to ints during evaluation, but for
- // diagnostic purposes we want to print them as
- // true or false.
- int64_t BoolValue = V.getInt().getExtValue();
- assert((BoolValue == 0 || BoolValue == 1) &&
- "Bool type, but value is not 0 or 1");
- llvm::raw_svector_ostream OS(Str);
- OS << (BoolValue ? "true" : "false");
- } else if (T->isCharType()) {
- // Same is true for chars.
- Str.push_back('\'');
- Str.push_back(V.getInt().getExtValue());
- Str.push_back('\'');
- } else
- V.getInt().toString(Str);
- break;
- case APValue::ValueKind::Float:
- V.getFloat().toString(Str);
- break;
- case APValue::ValueKind::LValue:
- if (V.isNullPointer()) {
- llvm::raw_svector_ostream OS(Str);
- OS << "nullptr";
- } else
- return false;
- break;
- case APValue::ValueKind::ComplexFloat: {
- llvm::raw_svector_ostream OS(Str);
- OS << '(';
- V.getComplexFloatReal().toString(Str);
- OS << " + ";
- V.getComplexFloatImag().toString(Str);
- OS << "i)";
- } break;
- case APValue::ValueKind::ComplexInt: {
- llvm::raw_svector_ostream OS(Str);
- OS << '(';
- V.getComplexIntReal().toString(Str);
- OS << " + ";
- V.getComplexIntImag().toString(Str);
- OS << "i)";
- } break;
- default:
- return false;
- }
- return true;
- }
- /// Some Expression types are not useful to print notes about,
- /// e.g. literals and values that have already been expanded
- /// before such as int-valued template parameters.
- static bool UsefulToPrintExpr(const Expr *E) {
- E = E->IgnoreParenImpCasts();
- // Literals are pretty easy for humans to understand.
- if (isa<IntegerLiteral, FloatingLiteral, CharacterLiteral, CXXBoolLiteralExpr,
- CXXNullPtrLiteralExpr, FixedPointLiteral, ImaginaryLiteral>(E))
- return false;
- // These have been substituted from template parameters
- // and appear as literals in the static assert error.
- if (isa<SubstNonTypeTemplateParmExpr>(E))
- return false;
- // -5 is also simple to understand.
- if (const auto *UnaryOp = dyn_cast<UnaryOperator>(E))
- return UsefulToPrintExpr(UnaryOp->getSubExpr());
- // Ignore nested binary operators. This could be a FIXME for improvements
- // to the diagnostics in the future.
- if (isa<BinaryOperator>(E))
- return false;
- return true;
- }
- /// Try to print more useful information about a failed static_assert
- /// with expression \E
- void Sema::DiagnoseStaticAssertDetails(const Expr *E) {
- if (const auto *Op = dyn_cast<BinaryOperator>(E)) {
- const Expr *LHS = Op->getLHS()->IgnoreParenImpCasts();
- const Expr *RHS = Op->getRHS()->IgnoreParenImpCasts();
- // Ignore comparisons of boolean expressions with a boolean literal.
- if ((isa<CXXBoolLiteralExpr>(LHS) && RHS->getType()->isBooleanType()) ||
- (isa<CXXBoolLiteralExpr>(RHS) && LHS->getType()->isBooleanType()))
- return;
- // Don't print obvious expressions.
- if (!UsefulToPrintExpr(LHS) && !UsefulToPrintExpr(RHS))
- return;
- struct {
- const clang::Expr *Cond;
- Expr::EvalResult Result;
- SmallString<12> ValueString;
- bool Print;
- } DiagSide[2] = {{LHS, Expr::EvalResult(), {}, false},
- {RHS, Expr::EvalResult(), {}, false}};
- for (unsigned I = 0; I < 2; I++) {
- const Expr *Side = DiagSide[I].Cond;
- Side->EvaluateAsRValue(DiagSide[I].Result, Context, true);
- DiagSide[I].Print = ConvertAPValueToString(
- DiagSide[I].Result.Val, Side->getType(), DiagSide[I].ValueString);
- }
- if (DiagSide[0].Print && DiagSide[1].Print) {
- Diag(Op->getExprLoc(), diag::note_expr_evaluates_to)
- << DiagSide[0].ValueString << Op->getOpcodeStr()
- << DiagSide[1].ValueString << Op->getSourceRange();
- }
- }
- }
- Decl *Sema::BuildStaticAssertDeclaration(SourceLocation StaticAssertLoc,
- Expr *AssertExpr,
- StringLiteral *AssertMessage,
- SourceLocation RParenLoc,
- bool Failed) {
- assert(AssertExpr != nullptr && "Expected non-null condition");
- if (!AssertExpr->isTypeDependent() && !AssertExpr->isValueDependent() &&
- !Failed) {
- // In a static_assert-declaration, the constant-expression shall be a
- // constant expression that can be contextually converted to bool.
- ExprResult Converted = PerformContextuallyConvertToBool(AssertExpr);
- if (Converted.isInvalid())
- Failed = true;
- ExprResult FullAssertExpr =
- ActOnFinishFullExpr(Converted.get(), StaticAssertLoc,
- /*DiscardedValue*/ false,
- /*IsConstexpr*/ true);
- if (FullAssertExpr.isInvalid())
- Failed = true;
- else
- AssertExpr = FullAssertExpr.get();
- llvm::APSInt Cond;
- Expr *BaseExpr = AssertExpr;
- AllowFoldKind FoldKind = NoFold;
- if (!getLangOpts().CPlusPlus) {
- // In C mode, allow folding as an extension for better compatibility with
- // C++ in terms of expressions like static_assert("test") or
- // static_assert(nullptr).
- FoldKind = AllowFold;
- }
- if (!Failed && VerifyIntegerConstantExpression(
- BaseExpr, &Cond,
- diag::err_static_assert_expression_is_not_constant,
- FoldKind).isInvalid())
- Failed = true;
- if (!Failed && !Cond) {
- SmallString<256> MsgBuffer;
- llvm::raw_svector_ostream Msg(MsgBuffer);
- if (AssertMessage) {
- const auto *MsgStr = cast<StringLiteral>(AssertMessage);
- if (MsgStr->isOrdinary())
- Msg << MsgStr->getString();
- else
- MsgStr->printPretty(Msg, nullptr, getPrintingPolicy());
- }
- Expr *InnerCond = nullptr;
- std::string InnerCondDescription;
- std::tie(InnerCond, InnerCondDescription) =
- findFailedBooleanCondition(Converted.get());
- if (InnerCond && isa<ConceptSpecializationExpr>(InnerCond)) {
- // Drill down into concept specialization expressions to see why they
- // weren't satisfied.
- Diag(StaticAssertLoc, diag::err_static_assert_failed)
- << !AssertMessage << Msg.str() << AssertExpr->getSourceRange();
- ConstraintSatisfaction Satisfaction;
- if (!CheckConstraintSatisfaction(InnerCond, Satisfaction))
- DiagnoseUnsatisfiedConstraint(Satisfaction);
- } else if (InnerCond && !isa<CXXBoolLiteralExpr>(InnerCond)
- && !isa<IntegerLiteral>(InnerCond)) {
- Diag(StaticAssertLoc, diag::err_static_assert_requirement_failed)
- << InnerCondDescription << !AssertMessage
- << Msg.str() << InnerCond->getSourceRange();
- DiagnoseStaticAssertDetails(InnerCond);
- } else {
- Diag(StaticAssertLoc, diag::err_static_assert_failed)
- << !AssertMessage << Msg.str() << AssertExpr->getSourceRange();
- }
- Failed = true;
- }
- } else {
- ExprResult FullAssertExpr = ActOnFinishFullExpr(AssertExpr, StaticAssertLoc,
- /*DiscardedValue*/false,
- /*IsConstexpr*/true);
- if (FullAssertExpr.isInvalid())
- Failed = true;
- else
- AssertExpr = FullAssertExpr.get();
- }
- Decl *Decl = StaticAssertDecl::Create(Context, CurContext, StaticAssertLoc,
- AssertExpr, AssertMessage, RParenLoc,
- Failed);
- CurContext->addDecl(Decl);
- return Decl;
- }
- /// Perform semantic analysis of the given friend type declaration.
- ///
- /// \returns A friend declaration that.
- FriendDecl *Sema::CheckFriendTypeDecl(SourceLocation LocStart,
- SourceLocation FriendLoc,
- TypeSourceInfo *TSInfo) {
- assert(TSInfo && "NULL TypeSourceInfo for friend type declaration");
- QualType T = TSInfo->getType();
- SourceRange TypeRange = TSInfo->getTypeLoc().getSourceRange();
- // C++03 [class.friend]p2:
- // An elaborated-type-specifier shall be used in a friend declaration
- // for a class.*
- //
- // * The class-key of the elaborated-type-specifier is required.
- if (!CodeSynthesisContexts.empty()) {
- // Do not complain about the form of friend template types during any kind
- // of code synthesis. For template instantiation, we will have complained
- // when the template was defined.
- } else {
- if (!T->isElaboratedTypeSpecifier()) {
- // If we evaluated the type to a record type, suggest putting
- // a tag in front.
- if (const RecordType *RT = T->getAs<RecordType>()) {
- RecordDecl *RD = RT->getDecl();
- SmallString<16> InsertionText(" ");
- InsertionText += RD->getKindName();
- Diag(TypeRange.getBegin(),
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_unelaborated_friend_type :
- diag::ext_unelaborated_friend_type)
- << (unsigned) RD->getTagKind()
- << T
- << FixItHint::CreateInsertion(getLocForEndOfToken(FriendLoc),
- InsertionText);
- } else {
- Diag(FriendLoc,
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_nonclass_type_friend :
- diag::ext_nonclass_type_friend)
- << T
- << TypeRange;
- }
- } else if (T->getAs<EnumType>()) {
- Diag(FriendLoc,
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_enum_friend :
- diag::ext_enum_friend)
- << T
- << TypeRange;
- }
- // C++11 [class.friend]p3:
- // A friend declaration that does not declare a function shall have one
- // of the following forms:
- // friend elaborated-type-specifier ;
- // friend simple-type-specifier ;
- // friend typename-specifier ;
- if (getLangOpts().CPlusPlus11 && LocStart != FriendLoc)
- Diag(FriendLoc, diag::err_friend_not_first_in_declaration) << T;
- }
- // If the type specifier in a friend declaration designates a (possibly
- // cv-qualified) class type, that class is declared as a friend; otherwise,
- // the friend declaration is ignored.
- return FriendDecl::Create(Context, CurContext,
- TSInfo->getTypeLoc().getBeginLoc(), TSInfo,
- FriendLoc);
- }
- /// Handle a friend tag declaration where the scope specifier was
- /// templated.
- DeclResult Sema::ActOnTemplatedFriendTag(
- Scope *S, SourceLocation FriendLoc, unsigned TagSpec, SourceLocation TagLoc,
- CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc,
- const ParsedAttributesView &Attr, MultiTemplateParamsArg TempParamLists) {
- TagTypeKind Kind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- bool IsMemberSpecialization = false;
- bool Invalid = false;
- if (TemplateParameterList *TemplateParams =
- MatchTemplateParametersToScopeSpecifier(
- TagLoc, NameLoc, SS, nullptr, TempParamLists, /*friend*/ true,
- IsMemberSpecialization, Invalid)) {
- if (TemplateParams->size() > 0) {
- // This is a declaration of a class template.
- if (Invalid)
- return true;
- return CheckClassTemplate(S, TagSpec, TUK_Friend, TagLoc, SS, Name,
- NameLoc, Attr, TemplateParams, AS_public,
- /*ModulePrivateLoc=*/SourceLocation(),
- FriendLoc, TempParamLists.size() - 1,
- TempParamLists.data()).get();
- } else {
- // The "template<>" header is extraneous.
- Diag(TemplateParams->getTemplateLoc(), diag::err_template_tag_noparams)
- << TypeWithKeyword::getTagTypeKindName(Kind) << Name;
- IsMemberSpecialization = true;
- }
- }
- if (Invalid) return true;
- bool isAllExplicitSpecializations = true;
- for (unsigned I = TempParamLists.size(); I-- > 0; ) {
- if (TempParamLists[I]->size()) {
- isAllExplicitSpecializations = false;
- break;
- }
- }
- // FIXME: don't ignore attributes.
- // If it's explicit specializations all the way down, just forget
- // about the template header and build an appropriate non-templated
- // friend. TODO: for source fidelity, remember the headers.
- if (isAllExplicitSpecializations) {
- if (SS.isEmpty()) {
- bool Owned = false;
- bool IsDependent = false;
- return ActOnTag(S, TagSpec, TUK_Friend, TagLoc, SS, Name, NameLoc, Attr,
- AS_public,
- /*ModulePrivateLoc=*/SourceLocation(),
- MultiTemplateParamsArg(), Owned, IsDependent,
- /*ScopedEnumKWLoc=*/SourceLocation(),
- /*ScopedEnumUsesClassTag=*/false,
- /*UnderlyingType=*/TypeResult(),
- /*IsTypeSpecifier=*/false,
- /*IsTemplateParamOrArg=*/false, /*OOK=*/OOK_Outside);
- }
- NestedNameSpecifierLoc QualifierLoc = SS.getWithLocInContext(Context);
- ElaboratedTypeKeyword Keyword
- = TypeWithKeyword::getKeywordForTagTypeKind(Kind);
- QualType T = CheckTypenameType(Keyword, TagLoc, QualifierLoc,
- *Name, NameLoc);
- if (T.isNull())
- return true;
- TypeSourceInfo *TSI = Context.CreateTypeSourceInfo(T);
- if (isa<DependentNameType>(T)) {
- DependentNameTypeLoc TL =
- TSI->getTypeLoc().castAs<DependentNameTypeLoc>();
- TL.setElaboratedKeywordLoc(TagLoc);
- TL.setQualifierLoc(QualifierLoc);
- TL.setNameLoc(NameLoc);
- } else {
- ElaboratedTypeLoc TL = TSI->getTypeLoc().castAs<ElaboratedTypeLoc>();
- TL.setElaboratedKeywordLoc(TagLoc);
- TL.setQualifierLoc(QualifierLoc);
- TL.getNamedTypeLoc().castAs<TypeSpecTypeLoc>().setNameLoc(NameLoc);
- }
- FriendDecl *Friend = FriendDecl::Create(Context, CurContext, NameLoc,
- TSI, FriendLoc, TempParamLists);
- Friend->setAccess(AS_public);
- CurContext->addDecl(Friend);
- return Friend;
- }
- assert(SS.isNotEmpty() && "valid templated tag with no SS and no direct?");
- // Handle the case of a templated-scope friend class. e.g.
- // template <class T> class A<T>::B;
- // FIXME: we don't support these right now.
- Diag(NameLoc, diag::warn_template_qualified_friend_unsupported)
- << SS.getScopeRep() << SS.getRange() << cast<CXXRecordDecl>(CurContext);
- ElaboratedTypeKeyword ETK = TypeWithKeyword::getKeywordForTagTypeKind(Kind);
- QualType T = Context.getDependentNameType(ETK, SS.getScopeRep(), Name);
- TypeSourceInfo *TSI = Context.CreateTypeSourceInfo(T);
- DependentNameTypeLoc TL = TSI->getTypeLoc().castAs<DependentNameTypeLoc>();
- TL.setElaboratedKeywordLoc(TagLoc);
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- TL.setNameLoc(NameLoc);
- FriendDecl *Friend = FriendDecl::Create(Context, CurContext, NameLoc,
- TSI, FriendLoc, TempParamLists);
- Friend->setAccess(AS_public);
- Friend->setUnsupportedFriend(true);
- CurContext->addDecl(Friend);
- return Friend;
- }
- /// Handle a friend type declaration. This works in tandem with
- /// ActOnTag.
- ///
- /// Notes on friend class templates:
- ///
- /// We generally treat friend class declarations as if they were
- /// declaring a class. So, for example, the elaborated type specifier
- /// in a friend declaration is required to obey the restrictions of a
- /// class-head (i.e. no typedefs in the scope chain), template
- /// parameters are required to match up with simple template-ids, &c.
- /// However, unlike when declaring a template specialization, it's
- /// okay to refer to a template specialization without an empty
- /// template parameter declaration, e.g.
- /// friend class A<T>::B<unsigned>;
- /// We permit this as a special case; if there are any template
- /// parameters present at all, require proper matching, i.e.
- /// template <> template \<class T> friend class A<int>::B;
- Decl *Sema::ActOnFriendTypeDecl(Scope *S, const DeclSpec &DS,
- MultiTemplateParamsArg TempParams) {
- SourceLocation Loc = DS.getBeginLoc();
- assert(DS.isFriendSpecified());
- assert(DS.getStorageClassSpec() == DeclSpec::SCS_unspecified);
- // C++ [class.friend]p3:
- // A friend declaration that does not declare a function shall have one of
- // the following forms:
- // friend elaborated-type-specifier ;
- // friend simple-type-specifier ;
- // friend typename-specifier ;
- //
- // Any declaration with a type qualifier does not have that form. (It's
- // legal to specify a qualified type as a friend, you just can't write the
- // keywords.)
- if (DS.getTypeQualifiers()) {
- if (DS.getTypeQualifiers() & DeclSpec::TQ_const)
- Diag(DS.getConstSpecLoc(), diag::err_friend_decl_spec) << "const";
- if (DS.getTypeQualifiers() & DeclSpec::TQ_volatile)
- Diag(DS.getVolatileSpecLoc(), diag::err_friend_decl_spec) << "volatile";
- if (DS.getTypeQualifiers() & DeclSpec::TQ_restrict)
- Diag(DS.getRestrictSpecLoc(), diag::err_friend_decl_spec) << "restrict";
- if (DS.getTypeQualifiers() & DeclSpec::TQ_atomic)
- Diag(DS.getAtomicSpecLoc(), diag::err_friend_decl_spec) << "_Atomic";
- if (DS.getTypeQualifiers() & DeclSpec::TQ_unaligned)
- Diag(DS.getUnalignedSpecLoc(), diag::err_friend_decl_spec) << "__unaligned";
- }
- // Try to convert the decl specifier to a type. This works for
- // friend templates because ActOnTag never produces a ClassTemplateDecl
- // for a TUK_Friend.
- Declarator TheDeclarator(DS, ParsedAttributesView::none(),
- DeclaratorContext::Member);
- TypeSourceInfo *TSI = GetTypeForDeclarator(TheDeclarator, S);
- QualType T = TSI->getType();
- if (TheDeclarator.isInvalidType())
- return nullptr;
- if (DiagnoseUnexpandedParameterPack(Loc, TSI, UPPC_FriendDeclaration))
- return nullptr;
- // This is definitely an error in C++98. It's probably meant to
- // be forbidden in C++0x, too, but the specification is just
- // poorly written.
- //
- // The problem is with declarations like the following:
- // template <T> friend A<T>::foo;
- // where deciding whether a class C is a friend or not now hinges
- // on whether there exists an instantiation of A that causes
- // 'foo' to equal C. There are restrictions on class-heads
- // (which we declare (by fiat) elaborated friend declarations to
- // be) that makes this tractable.
- //
- // FIXME: handle "template <> friend class A<T>;", which
- // is possibly well-formed? Who even knows?
- if (TempParams.size() && !T->isElaboratedTypeSpecifier()) {
- Diag(Loc, diag::err_tagless_friend_type_template)
- << DS.getSourceRange();
- return nullptr;
- }
- // C++98 [class.friend]p1: A friend of a class is a function
- // or class that is not a member of the class . . .
- // This is fixed in DR77, which just barely didn't make the C++03
- // deadline. It's also a very silly restriction that seriously
- // affects inner classes and which nobody else seems to implement;
- // thus we never diagnose it, not even in -pedantic.
- //
- // But note that we could warn about it: it's always useless to
- // friend one of your own members (it's not, however, worthless to
- // friend a member of an arbitrary specialization of your template).
- Decl *D;
- if (!TempParams.empty())
- D = FriendTemplateDecl::Create(Context, CurContext, Loc,
- TempParams,
- TSI,
- DS.getFriendSpecLoc());
- else
- D = CheckFriendTypeDecl(Loc, DS.getFriendSpecLoc(), TSI);
- if (!D)
- return nullptr;
- D->setAccess(AS_public);
- CurContext->addDecl(D);
- return D;
- }
- NamedDecl *Sema::ActOnFriendFunctionDecl(Scope *S, Declarator &D,
- MultiTemplateParamsArg TemplateParams) {
- const DeclSpec &DS = D.getDeclSpec();
- assert(DS.isFriendSpecified());
- assert(DS.getStorageClassSpec() == DeclSpec::SCS_unspecified);
- SourceLocation Loc = D.getIdentifierLoc();
- TypeSourceInfo *TInfo = GetTypeForDeclarator(D, S);
- // C++ [class.friend]p1
- // A friend of a class is a function or class....
- // Note that this sees through typedefs, which is intended.
- // It *doesn't* see through dependent types, which is correct
- // according to [temp.arg.type]p3:
- // If a declaration acquires a function type through a
- // type dependent on a template-parameter and this causes
- // a declaration that does not use the syntactic form of a
- // function declarator to have a function type, the program
- // is ill-formed.
- if (!TInfo->getType()->isFunctionType()) {
- Diag(Loc, diag::err_unexpected_friend);
- // It might be worthwhile to try to recover by creating an
- // appropriate declaration.
- return nullptr;
- }
- // C++ [namespace.memdef]p3
- // - If a friend declaration in a non-local class first declares a
- // class or function, the friend class or function is a member
- // of the innermost enclosing namespace.
- // - The name of the friend is not found by simple name lookup
- // until a matching declaration is provided in that namespace
- // scope (either before or after the class declaration granting
- // friendship).
- // - If a friend function is called, its name may be found by the
- // name lookup that considers functions from namespaces and
- // classes associated with the types of the function arguments.
- // - When looking for a prior declaration of a class or a function
- // declared as a friend, scopes outside the innermost enclosing
- // namespace scope are not considered.
- CXXScopeSpec &SS = D.getCXXScopeSpec();
- DeclarationNameInfo NameInfo = GetNameForDeclarator(D);
- assert(NameInfo.getName());
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(Loc, TInfo, UPPC_FriendDeclaration) ||
- DiagnoseUnexpandedParameterPack(NameInfo, UPPC_FriendDeclaration) ||
- DiagnoseUnexpandedParameterPack(SS, UPPC_FriendDeclaration))
- return nullptr;
- // The context we found the declaration in, or in which we should
- // create the declaration.
- DeclContext *DC;
- Scope *DCScope = S;
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName,
- ForExternalRedeclaration);
- // There are five cases here.
- // - There's no scope specifier and we're in a local class. Only look
- // for functions declared in the immediately-enclosing block scope.
- // We recover from invalid scope qualifiers as if they just weren't there.
- FunctionDecl *FunctionContainingLocalClass = nullptr;
- if ((SS.isInvalid() || !SS.isSet()) &&
- (FunctionContainingLocalClass =
- cast<CXXRecordDecl>(CurContext)->isLocalClass())) {
- // C++11 [class.friend]p11:
- // If a friend declaration appears in a local class and the name
- // specified is an unqualified name, a prior declaration is
- // looked up without considering scopes that are outside the
- // innermost enclosing non-class scope. For a friend function
- // declaration, if there is no prior declaration, the program is
- // ill-formed.
- // Find the innermost enclosing non-class scope. This is the block
- // scope containing the local class definition (or for a nested class,
- // the outer local class).
- DCScope = S->getFnParent();
- // Look up the function name in the scope.
- Previous.clear(LookupLocalFriendName);
- LookupName(Previous, S, /*AllowBuiltinCreation*/false);
- if (!Previous.empty()) {
- // All possible previous declarations must have the same context:
- // either they were declared at block scope or they are members of
- // one of the enclosing local classes.
- DC = Previous.getRepresentativeDecl()->getDeclContext();
- } else {
- // This is ill-formed, but provide the context that we would have
- // declared the function in, if we were permitted to, for error recovery.
- DC = FunctionContainingLocalClass;
- }
- adjustContextForLocalExternDecl(DC);
- // C++ [class.friend]p6:
- // A function can be defined in a friend declaration of a class if and
- // only if the class is a non-local class (9.8), the function name is
- // unqualified, and the function has namespace scope.
- if (D.isFunctionDefinition()) {
- Diag(NameInfo.getBeginLoc(), diag::err_friend_def_in_local_class);
- }
- // - There's no scope specifier, in which case we just go to the
- // appropriate scope and look for a function or function template
- // there as appropriate.
- } else if (SS.isInvalid() || !SS.isSet()) {
- // C++11 [namespace.memdef]p3:
- // If the name in a friend declaration is neither qualified nor
- // a template-id and the declaration is a function or an
- // elaborated-type-specifier, the lookup to determine whether
- // the entity has been previously declared shall not consider
- // any scopes outside the innermost enclosing namespace.
- bool isTemplateId =
- D.getName().getKind() == UnqualifiedIdKind::IK_TemplateId;
- // Find the appropriate context according to the above.
- DC = CurContext;
- // Skip class contexts. If someone can cite chapter and verse
- // for this behavior, that would be nice --- it's what GCC and
- // EDG do, and it seems like a reasonable intent, but the spec
- // really only says that checks for unqualified existing
- // declarations should stop at the nearest enclosing namespace,
- // not that they should only consider the nearest enclosing
- // namespace.
- while (DC->isRecord())
- DC = DC->getParent();
- DeclContext *LookupDC = DC->getNonTransparentContext();
- while (true) {
- LookupQualifiedName(Previous, LookupDC);
- if (!Previous.empty()) {
- DC = LookupDC;
- break;
- }
- if (isTemplateId) {
- if (isa<TranslationUnitDecl>(LookupDC)) break;
- } else {
- if (LookupDC->isFileContext()) break;
- }
- LookupDC = LookupDC->getParent();
- }
- DCScope = getScopeForDeclContext(S, DC);
- // - There's a non-dependent scope specifier, in which case we
- // compute it and do a previous lookup there for a function
- // or function template.
- } else if (!SS.getScopeRep()->isDependent()) {
- DC = computeDeclContext(SS);
- if (!DC) return nullptr;
- if (RequireCompleteDeclContext(SS, DC)) return nullptr;
- LookupQualifiedName(Previous, DC);
- // C++ [class.friend]p1: A friend of a class is a function or
- // class that is not a member of the class . . .
- if (DC->Equals(CurContext))
- Diag(DS.getFriendSpecLoc(),
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_friend_is_member :
- diag::err_friend_is_member);
- if (D.isFunctionDefinition()) {
- // C++ [class.friend]p6:
- // A function can be defined in a friend declaration of a class if and
- // only if the class is a non-local class (9.8), the function name is
- // unqualified, and the function has namespace scope.
- //
- // FIXME: We should only do this if the scope specifier names the
- // innermost enclosing namespace; otherwise the fixit changes the
- // meaning of the code.
- SemaDiagnosticBuilder DB
- = Diag(SS.getRange().getBegin(), diag::err_qualified_friend_def);
- DB << SS.getScopeRep();
- if (DC->isFileContext())
- DB << FixItHint::CreateRemoval(SS.getRange());
- SS.clear();
- }
- // - There's a scope specifier that does not match any template
- // parameter lists, in which case we use some arbitrary context,
- // create a method or method template, and wait for instantiation.
- // - There's a scope specifier that does match some template
- // parameter lists, which we don't handle right now.
- } else {
- if (D.isFunctionDefinition()) {
- // C++ [class.friend]p6:
- // A function can be defined in a friend declaration of a class if and
- // only if the class is a non-local class (9.8), the function name is
- // unqualified, and the function has namespace scope.
- Diag(SS.getRange().getBegin(), diag::err_qualified_friend_def)
- << SS.getScopeRep();
- }
- DC = CurContext;
- assert(isa<CXXRecordDecl>(DC) && "friend declaration not in class?");
- }
- if (!DC->isRecord()) {
- int DiagArg = -1;
- switch (D.getName().getKind()) {
- case UnqualifiedIdKind::IK_ConstructorTemplateId:
- case UnqualifiedIdKind::IK_ConstructorName:
- DiagArg = 0;
- break;
- case UnqualifiedIdKind::IK_DestructorName:
- DiagArg = 1;
- break;
- case UnqualifiedIdKind::IK_ConversionFunctionId:
- DiagArg = 2;
- break;
- case UnqualifiedIdKind::IK_DeductionGuideName:
- DiagArg = 3;
- break;
- case UnqualifiedIdKind::IK_Identifier:
- case UnqualifiedIdKind::IK_ImplicitSelfParam:
- case UnqualifiedIdKind::IK_LiteralOperatorId:
- case UnqualifiedIdKind::IK_OperatorFunctionId:
- case UnqualifiedIdKind::IK_TemplateId:
- break;
- }
- // This implies that it has to be an operator or function.
- if (DiagArg >= 0) {
- Diag(Loc, diag::err_introducing_special_friend) << DiagArg;
- return nullptr;
- }
- }
- // FIXME: This is an egregious hack to cope with cases where the scope stack
- // does not contain the declaration context, i.e., in an out-of-line
- // definition of a class.
- Scope FakeDCScope(S, Scope::DeclScope, Diags);
- if (!DCScope) {
- FakeDCScope.setEntity(DC);
- DCScope = &FakeDCScope;
- }
- bool AddToScope = true;
- NamedDecl *ND = ActOnFunctionDeclarator(DCScope, D, DC, TInfo, Previous,
- TemplateParams, AddToScope);
- if (!ND) return nullptr;
- assert(ND->getLexicalDeclContext() == CurContext);
- // If we performed typo correction, we might have added a scope specifier
- // and changed the decl context.
- DC = ND->getDeclContext();
- // Add the function declaration to the appropriate lookup tables,
- // adjusting the redeclarations list as necessary. We don't
- // want to do this yet if the friending class is dependent.
- //
- // Also update the scope-based lookup if the target context's
- // lookup context is in lexical scope.
- if (!CurContext->isDependentContext()) {
- DC = DC->getRedeclContext();
- DC->makeDeclVisibleInContext(ND);
- if (Scope *EnclosingScope = getScopeForDeclContext(S, DC))
- PushOnScopeChains(ND, EnclosingScope, /*AddToContext=*/ false);
- }
- FriendDecl *FrD = FriendDecl::Create(Context, CurContext,
- D.getIdentifierLoc(), ND,
- DS.getFriendSpecLoc());
- FrD->setAccess(AS_public);
- CurContext->addDecl(FrD);
- if (ND->isInvalidDecl()) {
- FrD->setInvalidDecl();
- } else {
- if (DC->isRecord()) CheckFriendAccess(ND);
- FunctionDecl *FD;
- if (FunctionTemplateDecl *FTD = dyn_cast<FunctionTemplateDecl>(ND))
- FD = FTD->getTemplatedDecl();
- else
- FD = cast<FunctionDecl>(ND);
- // C++11 [dcl.fct.default]p4: If a friend declaration specifies a
- // default argument expression, that declaration shall be a definition
- // and shall be the only declaration of the function or function
- // template in the translation unit.
- if (functionDeclHasDefaultArgument(FD)) {
- // We can't look at FD->getPreviousDecl() because it may not have been set
- // if we're in a dependent context. If the function is known to be a
- // redeclaration, we will have narrowed Previous down to the right decl.
- if (D.isRedeclaration()) {
- Diag(FD->getLocation(), diag::err_friend_decl_with_def_arg_redeclared);
- Diag(Previous.getRepresentativeDecl()->getLocation(),
- diag::note_previous_declaration);
- } else if (!D.isFunctionDefinition())
- Diag(FD->getLocation(), diag::err_friend_decl_with_def_arg_must_be_def);
- }
- // Mark templated-scope function declarations as unsupported.
- if (FD->getNumTemplateParameterLists() && SS.isValid()) {
- Diag(FD->getLocation(), diag::warn_template_qualified_friend_unsupported)
- << SS.getScopeRep() << SS.getRange()
- << cast<CXXRecordDecl>(CurContext);
- FrD->setUnsupportedFriend(true);
- }
- }
- warnOnReservedIdentifier(ND);
- return ND;
- }
- void Sema::SetDeclDeleted(Decl *Dcl, SourceLocation DelLoc) {
- AdjustDeclIfTemplate(Dcl);
- FunctionDecl *Fn = dyn_cast_or_null<FunctionDecl>(Dcl);
- if (!Fn) {
- Diag(DelLoc, diag::err_deleted_non_function);
- return;
- }
- // Deleted function does not have a body.
- Fn->setWillHaveBody(false);
- if (const FunctionDecl *Prev = Fn->getPreviousDecl()) {
- // Don't consider the implicit declaration we generate for explicit
- // specializations. FIXME: Do not generate these implicit declarations.
- if ((Prev->getTemplateSpecializationKind() != TSK_ExplicitSpecialization ||
- Prev->getPreviousDecl()) &&
- !Prev->isDefined()) {
- Diag(DelLoc, diag::err_deleted_decl_not_first);
- Diag(Prev->getLocation().isInvalid() ? DelLoc : Prev->getLocation(),
- Prev->isImplicit() ? diag::note_previous_implicit_declaration
- : diag::note_previous_declaration);
- // We can't recover from this; the declaration might have already
- // been used.
- Fn->setInvalidDecl();
- return;
- }
- // To maintain the invariant that functions are only deleted on their first
- // declaration, mark the implicitly-instantiated declaration of the
- // explicitly-specialized function as deleted instead of marking the
- // instantiated redeclaration.
- Fn = Fn->getCanonicalDecl();
- }
- // dllimport/dllexport cannot be deleted.
- if (const InheritableAttr *DLLAttr = getDLLAttr(Fn)) {
- Diag(Fn->getLocation(), diag::err_attribute_dll_deleted) << DLLAttr;
- Fn->setInvalidDecl();
- }
- // C++11 [basic.start.main]p3:
- // A program that defines main as deleted [...] is ill-formed.
- if (Fn->isMain())
- Diag(DelLoc, diag::err_deleted_main);
- // C++11 [dcl.fct.def.delete]p4:
- // A deleted function is implicitly inline.
- Fn->setImplicitlyInline();
- Fn->setDeletedAsWritten();
- }
- void Sema::SetDeclDefaulted(Decl *Dcl, SourceLocation DefaultLoc) {
- if (!Dcl || Dcl->isInvalidDecl())
- return;
- auto *FD = dyn_cast<FunctionDecl>(Dcl);
- if (!FD) {
- if (auto *FTD = dyn_cast<FunctionTemplateDecl>(Dcl)) {
- if (getDefaultedFunctionKind(FTD->getTemplatedDecl()).isComparison()) {
- Diag(DefaultLoc, diag::err_defaulted_comparison_template);
- return;
- }
- }
- Diag(DefaultLoc, diag::err_default_special_members)
- << getLangOpts().CPlusPlus20;
- return;
- }
- // Reject if this can't possibly be a defaultable function.
- DefaultedFunctionKind DefKind = getDefaultedFunctionKind(FD);
- if (!DefKind &&
- // A dependent function that doesn't locally look defaultable can
- // still instantiate to a defaultable function if it's a constructor
- // or assignment operator.
- (!FD->isDependentContext() ||
- (!isa<CXXConstructorDecl>(FD) &&
- FD->getDeclName().getCXXOverloadedOperator() != OO_Equal))) {
- Diag(DefaultLoc, diag::err_default_special_members)
- << getLangOpts().CPlusPlus20;
- return;
- }
- // Issue compatibility warning. We already warned if the operator is
- // 'operator<=>' when parsing the '<=>' token.
- if (DefKind.isComparison() &&
- DefKind.asComparison() != DefaultedComparisonKind::ThreeWay) {
- Diag(DefaultLoc, getLangOpts().CPlusPlus20
- ? diag::warn_cxx17_compat_defaulted_comparison
- : diag::ext_defaulted_comparison);
- }
- FD->setDefaulted();
- FD->setExplicitlyDefaulted();
- FD->setDefaultLoc(DefaultLoc);
- // Defer checking functions that are defaulted in a dependent context.
- if (FD->isDependentContext())
- return;
- // Unset that we will have a body for this function. We might not,
- // if it turns out to be trivial, and we don't need this marking now
- // that we've marked it as defaulted.
- FD->setWillHaveBody(false);
- if (DefKind.isComparison()) {
- // If this comparison's defaulting occurs within the definition of its
- // lexical class context, we have to do the checking when complete.
- if (auto const *RD = dyn_cast<CXXRecordDecl>(FD->getLexicalDeclContext()))
- if (!RD->isCompleteDefinition())
- return;
- }
- // If this member fn was defaulted on its first declaration, we will have
- // already performed the checking in CheckCompletedCXXClass. Such a
- // declaration doesn't trigger an implicit definition.
- if (isa<CXXMethodDecl>(FD)) {
- const FunctionDecl *Primary = FD;
- if (const FunctionDecl *Pattern = FD->getTemplateInstantiationPattern())
- // Ask the template instantiation pattern that actually had the
- // '= default' on it.
- Primary = Pattern;
- if (Primary->getCanonicalDecl()->isDefaulted())
- return;
- }
- if (DefKind.isComparison()) {
- if (CheckExplicitlyDefaultedComparison(nullptr, FD, DefKind.asComparison()))
- FD->setInvalidDecl();
- else
- DefineDefaultedComparison(DefaultLoc, FD, DefKind.asComparison());
- } else {
- auto *MD = cast<CXXMethodDecl>(FD);
- if (CheckExplicitlyDefaultedSpecialMember(MD, DefKind.asSpecialMember(),
- DefaultLoc))
- MD->setInvalidDecl();
- else
- DefineDefaultedFunction(*this, MD, DefaultLoc);
- }
- }
- static void SearchForReturnInStmt(Sema &Self, Stmt *S) {
- for (Stmt *SubStmt : S->children()) {
- if (!SubStmt)
- continue;
- if (isa<ReturnStmt>(SubStmt))
- Self.Diag(SubStmt->getBeginLoc(),
- diag::err_return_in_constructor_handler);
- if (!isa<Expr>(SubStmt))
- SearchForReturnInStmt(Self, SubStmt);
- }
- }
- void Sema::DiagnoseReturnInConstructorExceptionHandler(CXXTryStmt *TryBlock) {
- for (unsigned I = 0, E = TryBlock->getNumHandlers(); I != E; ++I) {
- CXXCatchStmt *Handler = TryBlock->getHandler(I);
- SearchForReturnInStmt(*this, Handler);
- }
- }
- void Sema::SetFunctionBodyKind(Decl *D, SourceLocation Loc,
- FnBodyKind BodyKind) {
- switch (BodyKind) {
- case FnBodyKind::Delete:
- SetDeclDeleted(D, Loc);
- break;
- case FnBodyKind::Default:
- SetDeclDefaulted(D, Loc);
- break;
- case FnBodyKind::Other:
- llvm_unreachable(
- "Parsed function body should be '= delete;' or '= default;'");
- }
- }
- bool Sema::CheckOverridingFunctionAttributes(const CXXMethodDecl *New,
- const CXXMethodDecl *Old) {
- const auto *NewFT = New->getType()->castAs<FunctionProtoType>();
- const auto *OldFT = Old->getType()->castAs<FunctionProtoType>();
- if (OldFT->hasExtParameterInfos()) {
- for (unsigned I = 0, E = OldFT->getNumParams(); I != E; ++I)
- // A parameter of the overriding method should be annotated with noescape
- // if the corresponding parameter of the overridden method is annotated.
- if (OldFT->getExtParameterInfo(I).isNoEscape() &&
- !NewFT->getExtParameterInfo(I).isNoEscape()) {
- Diag(New->getParamDecl(I)->getLocation(),
- diag::warn_overriding_method_missing_noescape);
- Diag(Old->getParamDecl(I)->getLocation(),
- diag::note_overridden_marked_noescape);
- }
- }
- // Virtual overrides must have the same code_seg.
- const auto *OldCSA = Old->getAttr<CodeSegAttr>();
- const auto *NewCSA = New->getAttr<CodeSegAttr>();
- if ((NewCSA || OldCSA) &&
- (!OldCSA || !NewCSA || NewCSA->getName() != OldCSA->getName())) {
- Diag(New->getLocation(), diag::err_mismatched_code_seg_override);
- Diag(Old->getLocation(), diag::note_previous_declaration);
- return true;
- }
- CallingConv NewCC = NewFT->getCallConv(), OldCC = OldFT->getCallConv();
- // If the calling conventions match, everything is fine
- if (NewCC == OldCC)
- return false;
- // If the calling conventions mismatch because the new function is static,
- // suppress the calling convention mismatch error; the error about static
- // function override (err_static_overrides_virtual from
- // Sema::CheckFunctionDeclaration) is more clear.
- if (New->getStorageClass() == SC_Static)
- return false;
- Diag(New->getLocation(),
- diag::err_conflicting_overriding_cc_attributes)
- << New->getDeclName() << New->getType() << Old->getType();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function);
- return true;
- }
- bool Sema::CheckOverridingFunctionReturnType(const CXXMethodDecl *New,
- const CXXMethodDecl *Old) {
- QualType NewTy = New->getType()->castAs<FunctionType>()->getReturnType();
- QualType OldTy = Old->getType()->castAs<FunctionType>()->getReturnType();
- if (Context.hasSameType(NewTy, OldTy) ||
- NewTy->isDependentType() || OldTy->isDependentType())
- return false;
- // Check if the return types are covariant
- QualType NewClassTy, OldClassTy;
- /// Both types must be pointers or references to classes.
- if (const PointerType *NewPT = NewTy->getAs<PointerType>()) {
- if (const PointerType *OldPT = OldTy->getAs<PointerType>()) {
- NewClassTy = NewPT->getPointeeType();
- OldClassTy = OldPT->getPointeeType();
- }
- } else if (const ReferenceType *NewRT = NewTy->getAs<ReferenceType>()) {
- if (const ReferenceType *OldRT = OldTy->getAs<ReferenceType>()) {
- if (NewRT->getTypeClass() == OldRT->getTypeClass()) {
- NewClassTy = NewRT->getPointeeType();
- OldClassTy = OldRT->getPointeeType();
- }
- }
- }
- // The return types aren't either both pointers or references to a class type.
- if (NewClassTy.isNull()) {
- Diag(New->getLocation(),
- diag::err_different_return_type_for_overriding_virtual_function)
- << New->getDeclName() << NewTy << OldTy
- << New->getReturnTypeSourceRange();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function)
- << Old->getReturnTypeSourceRange();
- return true;
- }
- if (!Context.hasSameUnqualifiedType(NewClassTy, OldClassTy)) {
- // C++14 [class.virtual]p8:
- // If the class type in the covariant return type of D::f differs from
- // that of B::f, the class type in the return type of D::f shall be
- // complete at the point of declaration of D::f or shall be the class
- // type D.
- if (const RecordType *RT = NewClassTy->getAs<RecordType>()) {
- if (!RT->isBeingDefined() &&
- RequireCompleteType(New->getLocation(), NewClassTy,
- diag::err_covariant_return_incomplete,
- New->getDeclName()))
- return true;
- }
- // Check if the new class derives from the old class.
- if (!IsDerivedFrom(New->getLocation(), NewClassTy, OldClassTy)) {
- Diag(New->getLocation(), diag::err_covariant_return_not_derived)
- << New->getDeclName() << NewTy << OldTy
- << New->getReturnTypeSourceRange();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function)
- << Old->getReturnTypeSourceRange();
- return true;
- }
- // Check if we the conversion from derived to base is valid.
- if (CheckDerivedToBaseConversion(
- NewClassTy, OldClassTy,
- diag::err_covariant_return_inaccessible_base,
- diag::err_covariant_return_ambiguous_derived_to_base_conv,
- New->getLocation(), New->getReturnTypeSourceRange(),
- New->getDeclName(), nullptr)) {
- // FIXME: this note won't trigger for delayed access control
- // diagnostics, and it's impossible to get an undelayed error
- // here from access control during the original parse because
- // the ParsingDeclSpec/ParsingDeclarator are still in scope.
- Diag(Old->getLocation(), diag::note_overridden_virtual_function)
- << Old->getReturnTypeSourceRange();
- return true;
- }
- }
- // The qualifiers of the return types must be the same.
- if (NewTy.getLocalCVRQualifiers() != OldTy.getLocalCVRQualifiers()) {
- Diag(New->getLocation(),
- diag::err_covariant_return_type_different_qualifications)
- << New->getDeclName() << NewTy << OldTy
- << New->getReturnTypeSourceRange();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function)
- << Old->getReturnTypeSourceRange();
- return true;
- }
- // The new class type must have the same or less qualifiers as the old type.
- if (NewClassTy.isMoreQualifiedThan(OldClassTy)) {
- Diag(New->getLocation(),
- diag::err_covariant_return_type_class_type_more_qualified)
- << New->getDeclName() << NewTy << OldTy
- << New->getReturnTypeSourceRange();
- Diag(Old->getLocation(), diag::note_overridden_virtual_function)
- << Old->getReturnTypeSourceRange();
- return true;
- }
- return false;
- }
- /// Mark the given method pure.
- ///
- /// \param Method the method to be marked pure.
- ///
- /// \param InitRange the source range that covers the "0" initializer.
- bool Sema::CheckPureMethod(CXXMethodDecl *Method, SourceRange InitRange) {
- SourceLocation EndLoc = InitRange.getEnd();
- if (EndLoc.isValid())
- Method->setRangeEnd(EndLoc);
- if (Method->isVirtual() || Method->getParent()->isDependentContext()) {
- Method->setPure();
- return false;
- }
- if (!Method->isInvalidDecl())
- Diag(Method->getLocation(), diag::err_non_virtual_pure)
- << Method->getDeclName() << InitRange;
- return true;
- }
- void Sema::ActOnPureSpecifier(Decl *D, SourceLocation ZeroLoc) {
- if (D->getFriendObjectKind())
- Diag(D->getLocation(), diag::err_pure_friend);
- else if (auto *M = dyn_cast<CXXMethodDecl>(D))
- CheckPureMethod(M, ZeroLoc);
- else
- Diag(D->getLocation(), diag::err_illegal_initializer);
- }
- /// Determine whether the given declaration is a global variable or
- /// static data member.
- static bool isNonlocalVariable(const Decl *D) {
- if (const VarDecl *Var = dyn_cast_or_null<VarDecl>(D))
- return Var->hasGlobalStorage();
- return false;
- }
- /// Invoked when we are about to parse an initializer for the declaration
- /// 'Dcl'.
- ///
- /// After this method is called, according to [C++ 3.4.1p13], if 'Dcl' is a
- /// static data member of class X, names should be looked up in the scope of
- /// class X. If the declaration had a scope specifier, a scope will have
- /// been created and passed in for this purpose. Otherwise, S will be null.
- void Sema::ActOnCXXEnterDeclInitializer(Scope *S, Decl *D) {
- // If there is no declaration, there was an error parsing it.
- if (!D || D->isInvalidDecl())
- return;
- // We will always have a nested name specifier here, but this declaration
- // might not be out of line if the specifier names the current namespace:
- // extern int n;
- // int ::n = 0;
- if (S && D->isOutOfLine())
- EnterDeclaratorContext(S, D->getDeclContext());
- // If we are parsing the initializer for a static data member, push a
- // new expression evaluation context that is associated with this static
- // data member.
- if (isNonlocalVariable(D))
- PushExpressionEvaluationContext(
- ExpressionEvaluationContext::PotentiallyEvaluated, D);
- }
- /// Invoked after we are finished parsing an initializer for the declaration D.
- void Sema::ActOnCXXExitDeclInitializer(Scope *S, Decl *D) {
- // If there is no declaration, there was an error parsing it.
- if (!D || D->isInvalidDecl())
- return;
- if (isNonlocalVariable(D))
- PopExpressionEvaluationContext();
- if (S && D->isOutOfLine())
- ExitDeclaratorContext(S);
- }
- /// ActOnCXXConditionDeclarationExpr - Parsed a condition declaration of a
- /// C++ if/switch/while/for statement.
- /// e.g: "if (int x = f()) {...}"
- DeclResult Sema::ActOnCXXConditionDeclaration(Scope *S, Declarator &D) {
- // C++ 6.4p2:
- // The declarator shall not specify a function or an array.
- // The type-specifier-seq shall not contain typedef and shall not declare a
- // new class or enumeration.
- assert(D.getDeclSpec().getStorageClassSpec() != DeclSpec::SCS_typedef &&
- "Parser allowed 'typedef' as storage class of condition decl.");
- Decl *Dcl = ActOnDeclarator(S, D);
- if (!Dcl)
- return true;
- if (isa<FunctionDecl>(Dcl)) { // The declarator shall not specify a function.
- Diag(Dcl->getLocation(), diag::err_invalid_use_of_function_type)
- << D.getSourceRange();
- return true;
- }
- return Dcl;
- }
- void Sema::LoadExternalVTableUses() {
- if (!ExternalSource)
- return;
- SmallVector<ExternalVTableUse, 4> VTables;
- ExternalSource->ReadUsedVTables(VTables);
- SmallVector<VTableUse, 4> NewUses;
- for (unsigned I = 0, N = VTables.size(); I != N; ++I) {
- llvm::DenseMap<CXXRecordDecl *, bool>::iterator Pos
- = VTablesUsed.find(VTables[I].Record);
- // Even if a definition wasn't required before, it may be required now.
- if (Pos != VTablesUsed.end()) {
- if (!Pos->second && VTables[I].DefinitionRequired)
- Pos->second = true;
- continue;
- }
- VTablesUsed[VTables[I].Record] = VTables[I].DefinitionRequired;
- NewUses.push_back(VTableUse(VTables[I].Record, VTables[I].Location));
- }
- VTableUses.insert(VTableUses.begin(), NewUses.begin(), NewUses.end());
- }
- void Sema::MarkVTableUsed(SourceLocation Loc, CXXRecordDecl *Class,
- bool DefinitionRequired) {
- // Ignore any vtable uses in unevaluated operands or for classes that do
- // not have a vtable.
- if (!Class->isDynamicClass() || Class->isDependentContext() ||
- CurContext->isDependentContext() || isUnevaluatedContext())
- return;
- // Do not mark as used if compiling for the device outside of the target
- // region.
- if (TUKind != TU_Prefix && LangOpts.OpenMP && LangOpts.OpenMPIsDevice &&
- !isInOpenMPDeclareTargetContext() &&
- !isInOpenMPTargetExecutionDirective()) {
- if (!DefinitionRequired)
- MarkVirtualMembersReferenced(Loc, Class);
- return;
- }
- // Try to insert this class into the map.
- LoadExternalVTableUses();
- Class = Class->getCanonicalDecl();
- std::pair<llvm::DenseMap<CXXRecordDecl *, bool>::iterator, bool>
- Pos = VTablesUsed.insert(std::make_pair(Class, DefinitionRequired));
- if (!Pos.second) {
- // If we already had an entry, check to see if we are promoting this vtable
- // to require a definition. If so, we need to reappend to the VTableUses
- // list, since we may have already processed the first entry.
- if (DefinitionRequired && !Pos.first->second) {
- Pos.first->second = true;
- } else {
- // Otherwise, we can early exit.
- return;
- }
- } else {
- // The Microsoft ABI requires that we perform the destructor body
- // checks (i.e. operator delete() lookup) when the vtable is marked used, as
- // the deleting destructor is emitted with the vtable, not with the
- // destructor definition as in the Itanium ABI.
- if (Context.getTargetInfo().getCXXABI().isMicrosoft()) {
- CXXDestructorDecl *DD = Class->getDestructor();
- if (DD && DD->isVirtual() && !DD->isDeleted()) {
- if (Class->hasUserDeclaredDestructor() && !DD->isDefined()) {
- // If this is an out-of-line declaration, marking it referenced will
- // not do anything. Manually call CheckDestructor to look up operator
- // delete().
- ContextRAII SavedContext(*this, DD);
- CheckDestructor(DD);
- } else {
- MarkFunctionReferenced(Loc, Class->getDestructor());
- }
- }
- }
- }
- // Local classes need to have their virtual members marked
- // immediately. For all other classes, we mark their virtual members
- // at the end of the translation unit.
- if (Class->isLocalClass())
- MarkVirtualMembersReferenced(Loc, Class);
- else
- VTableUses.push_back(std::make_pair(Class, Loc));
- }
- bool Sema::DefineUsedVTables() {
- LoadExternalVTableUses();
- if (VTableUses.empty())
- return false;
- // Note: The VTableUses vector could grow as a result of marking
- // the members of a class as "used", so we check the size each
- // time through the loop and prefer indices (which are stable) to
- // iterators (which are not).
- bool DefinedAnything = false;
- for (unsigned I = 0; I != VTableUses.size(); ++I) {
- CXXRecordDecl *Class = VTableUses[I].first->getDefinition();
- if (!Class)
- continue;
- TemplateSpecializationKind ClassTSK =
- Class->getTemplateSpecializationKind();
- SourceLocation Loc = VTableUses[I].second;
- bool DefineVTable = true;
- // If this class has a key function, but that key function is
- // defined in another translation unit, we don't need to emit the
- // vtable even though we're using it.
- const CXXMethodDecl *KeyFunction = Context.getCurrentKeyFunction(Class);
- if (KeyFunction && !KeyFunction->hasBody()) {
- // The key function is in another translation unit.
- DefineVTable = false;
- TemplateSpecializationKind TSK =
- KeyFunction->getTemplateSpecializationKind();
- assert(TSK != TSK_ExplicitInstantiationDefinition &&
- TSK != TSK_ImplicitInstantiation &&
- "Instantiations don't have key functions");
- (void)TSK;
- } else if (!KeyFunction) {
- // If we have a class with no key function that is the subject
- // of an explicit instantiation declaration, suppress the
- // vtable; it will live with the explicit instantiation
- // definition.
- bool IsExplicitInstantiationDeclaration =
- ClassTSK == TSK_ExplicitInstantiationDeclaration;
- for (auto *R : Class->redecls()) {
- TemplateSpecializationKind TSK
- = cast<CXXRecordDecl>(R)->getTemplateSpecializationKind();
- if (TSK == TSK_ExplicitInstantiationDeclaration)
- IsExplicitInstantiationDeclaration = true;
- else if (TSK == TSK_ExplicitInstantiationDefinition) {
- IsExplicitInstantiationDeclaration = false;
- break;
- }
- }
- if (IsExplicitInstantiationDeclaration)
- DefineVTable = false;
- }
- // The exception specifications for all virtual members may be needed even
- // if we are not providing an authoritative form of the vtable in this TU.
- // We may choose to emit it available_externally anyway.
- if (!DefineVTable) {
- MarkVirtualMemberExceptionSpecsNeeded(Loc, Class);
- continue;
- }
- // Mark all of the virtual members of this class as referenced, so
- // that we can build a vtable. Then, tell the AST consumer that a
- // vtable for this class is required.
- DefinedAnything = true;
- MarkVirtualMembersReferenced(Loc, Class);
- CXXRecordDecl *Canonical = Class->getCanonicalDecl();
- if (VTablesUsed[Canonical])
- Consumer.HandleVTable(Class);
- // Warn if we're emitting a weak vtable. The vtable will be weak if there is
- // no key function or the key function is inlined. Don't warn in C++ ABIs
- // that lack key functions, since the user won't be able to make one.
- if (Context.getTargetInfo().getCXXABI().hasKeyFunctions() &&
- Class->isExternallyVisible() && ClassTSK != TSK_ImplicitInstantiation &&
- ClassTSK != TSK_ExplicitInstantiationDefinition) {
- const FunctionDecl *KeyFunctionDef = nullptr;
- if (!KeyFunction || (KeyFunction->hasBody(KeyFunctionDef) &&
- KeyFunctionDef->isInlined()))
- Diag(Class->getLocation(), diag::warn_weak_vtable) << Class;
- }
- }
- VTableUses.clear();
- return DefinedAnything;
- }
- void Sema::MarkVirtualMemberExceptionSpecsNeeded(SourceLocation Loc,
- const CXXRecordDecl *RD) {
- for (const auto *I : RD->methods())
- if (I->isVirtual() && !I->isPure())
- ResolveExceptionSpec(Loc, I->getType()->castAs<FunctionProtoType>());
- }
- void Sema::MarkVirtualMembersReferenced(SourceLocation Loc,
- const CXXRecordDecl *RD,
- bool ConstexprOnly) {
- // Mark all functions which will appear in RD's vtable as used.
- CXXFinalOverriderMap FinalOverriders;
- RD->getFinalOverriders(FinalOverriders);
- for (CXXFinalOverriderMap::const_iterator I = FinalOverriders.begin(),
- E = FinalOverriders.end();
- I != E; ++I) {
- for (OverridingMethods::const_iterator OI = I->second.begin(),
- OE = I->second.end();
- OI != OE; ++OI) {
- assert(OI->second.size() > 0 && "no final overrider");
- CXXMethodDecl *Overrider = OI->second.front().Method;
- // C++ [basic.def.odr]p2:
- // [...] A virtual member function is used if it is not pure. [...]
- if (!Overrider->isPure() && (!ConstexprOnly || Overrider->isConstexpr()))
- MarkFunctionReferenced(Loc, Overrider);
- }
- }
- // Only classes that have virtual bases need a VTT.
- if (RD->getNumVBases() == 0)
- return;
- for (const auto &I : RD->bases()) {
- const auto *Base =
- cast<CXXRecordDecl>(I.getType()->castAs<RecordType>()->getDecl());
- if (Base->getNumVBases() == 0)
- continue;
- MarkVirtualMembersReferenced(Loc, Base);
- }
- }
- /// SetIvarInitializers - This routine builds initialization ASTs for the
- /// Objective-C implementation whose ivars need be initialized.
- void Sema::SetIvarInitializers(ObjCImplementationDecl *ObjCImplementation) {
- if (!getLangOpts().CPlusPlus)
- return;
- if (ObjCInterfaceDecl *OID = ObjCImplementation->getClassInterface()) {
- SmallVector<ObjCIvarDecl*, 8> ivars;
- CollectIvarsToConstructOrDestruct(OID, ivars);
- if (ivars.empty())
- return;
- SmallVector<CXXCtorInitializer*, 32> AllToInit;
- for (unsigned i = 0; i < ivars.size(); i++) {
- FieldDecl *Field = ivars[i];
- if (Field->isInvalidDecl())
- continue;
- CXXCtorInitializer *Member;
- InitializedEntity InitEntity = InitializedEntity::InitializeMember(Field);
- InitializationKind InitKind =
- InitializationKind::CreateDefault(ObjCImplementation->getLocation());
- InitializationSequence InitSeq(*this, InitEntity, InitKind, std::nullopt);
- ExprResult MemberInit =
- InitSeq.Perform(*this, InitEntity, InitKind, std::nullopt);
- MemberInit = MaybeCreateExprWithCleanups(MemberInit);
- // Note, MemberInit could actually come back empty if no initialization
- // is required (e.g., because it would call a trivial default constructor)
- if (!MemberInit.get() || MemberInit.isInvalid())
- continue;
- Member =
- new (Context) CXXCtorInitializer(Context, Field, SourceLocation(),
- SourceLocation(),
- MemberInit.getAs<Expr>(),
- SourceLocation());
- AllToInit.push_back(Member);
- // Be sure that the destructor is accessible and is marked as referenced.
- if (const RecordType *RecordTy =
- Context.getBaseElementType(Field->getType())
- ->getAs<RecordType>()) {
- CXXRecordDecl *RD = cast<CXXRecordDecl>(RecordTy->getDecl());
- if (CXXDestructorDecl *Destructor = LookupDestructor(RD)) {
- MarkFunctionReferenced(Field->getLocation(), Destructor);
- CheckDestructorAccess(Field->getLocation(), Destructor,
- PDiag(diag::err_access_dtor_ivar)
- << Context.getBaseElementType(Field->getType()));
- }
- }
- }
- ObjCImplementation->setIvarInitializers(Context,
- AllToInit.data(), AllToInit.size());
- }
- }
- static
- void DelegatingCycleHelper(CXXConstructorDecl* Ctor,
- llvm::SmallPtrSet<CXXConstructorDecl*, 4> &Valid,
- llvm::SmallPtrSet<CXXConstructorDecl*, 4> &Invalid,
- llvm::SmallPtrSet<CXXConstructorDecl*, 4> &Current,
- Sema &S) {
- if (Ctor->isInvalidDecl())
- return;
- CXXConstructorDecl *Target = Ctor->getTargetConstructor();
- // Target may not be determinable yet, for instance if this is a dependent
- // call in an uninstantiated template.
- if (Target) {
- const FunctionDecl *FNTarget = nullptr;
- (void)Target->hasBody(FNTarget);
- Target = const_cast<CXXConstructorDecl*>(
- cast_or_null<CXXConstructorDecl>(FNTarget));
- }
- CXXConstructorDecl *Canonical = Ctor->getCanonicalDecl(),
- // Avoid dereferencing a null pointer here.
- *TCanonical = Target? Target->getCanonicalDecl() : nullptr;
- if (!Current.insert(Canonical).second)
- return;
- // We know that beyond here, we aren't chaining into a cycle.
- if (!Target || !Target->isDelegatingConstructor() ||
- Target->isInvalidDecl() || Valid.count(TCanonical)) {
- Valid.insert(Current.begin(), Current.end());
- Current.clear();
- // We've hit a cycle.
- } else if (TCanonical == Canonical || Invalid.count(TCanonical) ||
- Current.count(TCanonical)) {
- // If we haven't diagnosed this cycle yet, do so now.
- if (!Invalid.count(TCanonical)) {
- S.Diag((*Ctor->init_begin())->getSourceLocation(),
- diag::warn_delegating_ctor_cycle)
- << Ctor;
- // Don't add a note for a function delegating directly to itself.
- if (TCanonical != Canonical)
- S.Diag(Target->getLocation(), diag::note_it_delegates_to);
- CXXConstructorDecl *C = Target;
- while (C->getCanonicalDecl() != Canonical) {
- const FunctionDecl *FNTarget = nullptr;
- (void)C->getTargetConstructor()->hasBody(FNTarget);
- assert(FNTarget && "Ctor cycle through bodiless function");
- C = const_cast<CXXConstructorDecl*>(
- cast<CXXConstructorDecl>(FNTarget));
- S.Diag(C->getLocation(), diag::note_which_delegates_to);
- }
- }
- Invalid.insert(Current.begin(), Current.end());
- Current.clear();
- } else {
- DelegatingCycleHelper(Target, Valid, Invalid, Current, S);
- }
- }
- void Sema::CheckDelegatingCtorCycles() {
- llvm::SmallPtrSet<CXXConstructorDecl*, 4> Valid, Invalid, Current;
- for (DelegatingCtorDeclsType::iterator
- I = DelegatingCtorDecls.begin(ExternalSource.get()),
- E = DelegatingCtorDecls.end();
- I != E; ++I)
- DelegatingCycleHelper(*I, Valid, Invalid, Current, *this);
- for (auto CI = Invalid.begin(), CE = Invalid.end(); CI != CE; ++CI)
- (*CI)->setInvalidDecl();
- }
- namespace {
- /// AST visitor that finds references to the 'this' expression.
- class FindCXXThisExpr : public RecursiveASTVisitor<FindCXXThisExpr> {
- Sema &S;
- public:
- explicit FindCXXThisExpr(Sema &S) : S(S) { }
- bool VisitCXXThisExpr(CXXThisExpr *E) {
- S.Diag(E->getLocation(), diag::err_this_static_member_func)
- << E->isImplicit();
- return false;
- }
- };
- }
- bool Sema::checkThisInStaticMemberFunctionType(CXXMethodDecl *Method) {
- TypeSourceInfo *TSInfo = Method->getTypeSourceInfo();
- if (!TSInfo)
- return false;
- TypeLoc TL = TSInfo->getTypeLoc();
- FunctionProtoTypeLoc ProtoTL = TL.getAs<FunctionProtoTypeLoc>();
- if (!ProtoTL)
- return false;
- // C++11 [expr.prim.general]p3:
- // [The expression this] shall not appear before the optional
- // cv-qualifier-seq and it shall not appear within the declaration of a
- // static member function (although its type and value category are defined
- // within a static member function as they are within a non-static member
- // function). [ Note: this is because declaration matching does not occur
- // until the complete declarator is known. - end note ]
- const FunctionProtoType *Proto = ProtoTL.getTypePtr();
- FindCXXThisExpr Finder(*this);
- // If the return type came after the cv-qualifier-seq, check it now.
- if (Proto->hasTrailingReturn() &&
- !Finder.TraverseTypeLoc(ProtoTL.getReturnLoc()))
- return true;
- // Check the exception specification.
- if (checkThisInStaticMemberFunctionExceptionSpec(Method))
- return true;
- // Check the trailing requires clause
- if (Expr *E = Method->getTrailingRequiresClause())
- if (!Finder.TraverseStmt(E))
- return true;
- return checkThisInStaticMemberFunctionAttributes(Method);
- }
- bool Sema::checkThisInStaticMemberFunctionExceptionSpec(CXXMethodDecl *Method) {
- TypeSourceInfo *TSInfo = Method->getTypeSourceInfo();
- if (!TSInfo)
- return false;
- TypeLoc TL = TSInfo->getTypeLoc();
- FunctionProtoTypeLoc ProtoTL = TL.getAs<FunctionProtoTypeLoc>();
- if (!ProtoTL)
- return false;
- const FunctionProtoType *Proto = ProtoTL.getTypePtr();
- FindCXXThisExpr Finder(*this);
- switch (Proto->getExceptionSpecType()) {
- case EST_Unparsed:
- case EST_Uninstantiated:
- case EST_Unevaluated:
- case EST_BasicNoexcept:
- case EST_NoThrow:
- case EST_DynamicNone:
- case EST_MSAny:
- case EST_None:
- break;
- case EST_DependentNoexcept:
- case EST_NoexceptFalse:
- case EST_NoexceptTrue:
- if (!Finder.TraverseStmt(Proto->getNoexceptExpr()))
- return true;
- [[fallthrough]];
- case EST_Dynamic:
- for (const auto &E : Proto->exceptions()) {
- if (!Finder.TraverseType(E))
- return true;
- }
- break;
- }
- return false;
- }
- bool Sema::checkThisInStaticMemberFunctionAttributes(CXXMethodDecl *Method) {
- FindCXXThisExpr Finder(*this);
- // Check attributes.
- for (const auto *A : Method->attrs()) {
- // FIXME: This should be emitted by tblgen.
- Expr *Arg = nullptr;
- ArrayRef<Expr *> Args;
- if (const auto *G = dyn_cast<GuardedByAttr>(A))
- Arg = G->getArg();
- else if (const auto *G = dyn_cast<PtGuardedByAttr>(A))
- Arg = G->getArg();
- else if (const auto *AA = dyn_cast<AcquiredAfterAttr>(A))
- Args = llvm::ArrayRef(AA->args_begin(), AA->args_size());
- else if (const auto *AB = dyn_cast<AcquiredBeforeAttr>(A))
- Args = llvm::ArrayRef(AB->args_begin(), AB->args_size());
- else if (const auto *ETLF = dyn_cast<ExclusiveTrylockFunctionAttr>(A)) {
- Arg = ETLF->getSuccessValue();
- Args = llvm::ArrayRef(ETLF->args_begin(), ETLF->args_size());
- } else if (const auto *STLF = dyn_cast<SharedTrylockFunctionAttr>(A)) {
- Arg = STLF->getSuccessValue();
- Args = llvm::ArrayRef(STLF->args_begin(), STLF->args_size());
- } else if (const auto *LR = dyn_cast<LockReturnedAttr>(A))
- Arg = LR->getArg();
- else if (const auto *LE = dyn_cast<LocksExcludedAttr>(A))
- Args = llvm::ArrayRef(LE->args_begin(), LE->args_size());
- else if (const auto *RC = dyn_cast<RequiresCapabilityAttr>(A))
- Args = llvm::ArrayRef(RC->args_begin(), RC->args_size());
- else if (const auto *AC = dyn_cast<AcquireCapabilityAttr>(A))
- Args = llvm::ArrayRef(AC->args_begin(), AC->args_size());
- else if (const auto *AC = dyn_cast<TryAcquireCapabilityAttr>(A))
- Args = llvm::ArrayRef(AC->args_begin(), AC->args_size());
- else if (const auto *RC = dyn_cast<ReleaseCapabilityAttr>(A))
- Args = llvm::ArrayRef(RC->args_begin(), RC->args_size());
- if (Arg && !Finder.TraverseStmt(Arg))
- return true;
- for (unsigned I = 0, N = Args.size(); I != N; ++I) {
- if (!Finder.TraverseStmt(Args[I]))
- return true;
- }
- }
- return false;
- }
- void Sema::checkExceptionSpecification(
- bool IsTopLevel, ExceptionSpecificationType EST,
- ArrayRef<ParsedType> DynamicExceptions,
- ArrayRef<SourceRange> DynamicExceptionRanges, Expr *NoexceptExpr,
- SmallVectorImpl<QualType> &Exceptions,
- FunctionProtoType::ExceptionSpecInfo &ESI) {
- Exceptions.clear();
- ESI.Type = EST;
- if (EST == EST_Dynamic) {
- Exceptions.reserve(DynamicExceptions.size());
- for (unsigned ei = 0, ee = DynamicExceptions.size(); ei != ee; ++ei) {
- // FIXME: Preserve type source info.
- QualType ET = GetTypeFromParser(DynamicExceptions[ei]);
- if (IsTopLevel) {
- SmallVector<UnexpandedParameterPack, 2> Unexpanded;
- collectUnexpandedParameterPacks(ET, Unexpanded);
- if (!Unexpanded.empty()) {
- DiagnoseUnexpandedParameterPacks(
- DynamicExceptionRanges[ei].getBegin(), UPPC_ExceptionType,
- Unexpanded);
- continue;
- }
- }
- // Check that the type is valid for an exception spec, and
- // drop it if not.
- if (!CheckSpecifiedExceptionType(ET, DynamicExceptionRanges[ei]))
- Exceptions.push_back(ET);
- }
- ESI.Exceptions = Exceptions;
- return;
- }
- if (isComputedNoexcept(EST)) {
- assert((NoexceptExpr->isTypeDependent() ||
- NoexceptExpr->getType()->getCanonicalTypeUnqualified() ==
- Context.BoolTy) &&
- "Parser should have made sure that the expression is boolean");
- if (IsTopLevel && DiagnoseUnexpandedParameterPack(NoexceptExpr)) {
- ESI.Type = EST_BasicNoexcept;
- return;
- }
- ESI.NoexceptExpr = NoexceptExpr;
- return;
- }
- }
- void Sema::actOnDelayedExceptionSpecification(Decl *MethodD,
- ExceptionSpecificationType EST,
- SourceRange SpecificationRange,
- ArrayRef<ParsedType> DynamicExceptions,
- ArrayRef<SourceRange> DynamicExceptionRanges,
- Expr *NoexceptExpr) {
- if (!MethodD)
- return;
- // Dig out the method we're referring to.
- if (FunctionTemplateDecl *FunTmpl = dyn_cast<FunctionTemplateDecl>(MethodD))
- MethodD = FunTmpl->getTemplatedDecl();
- CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(MethodD);
- if (!Method)
- return;
- // Check the exception specification.
- llvm::SmallVector<QualType, 4> Exceptions;
- FunctionProtoType::ExceptionSpecInfo ESI;
- checkExceptionSpecification(/*IsTopLevel*/true, EST, DynamicExceptions,
- DynamicExceptionRanges, NoexceptExpr, Exceptions,
- ESI);
- // Update the exception specification on the function type.
- Context.adjustExceptionSpec(Method, ESI, /*AsWritten*/true);
- if (Method->isStatic())
- checkThisInStaticMemberFunctionExceptionSpec(Method);
- if (Method->isVirtual()) {
- // Check overrides, which we previously had to delay.
- for (const CXXMethodDecl *O : Method->overridden_methods())
- CheckOverridingFunctionExceptionSpec(Method, O);
- }
- }
- /// HandleMSProperty - Analyze a __delcspec(property) field of a C++ class.
- ///
- MSPropertyDecl *Sema::HandleMSProperty(Scope *S, RecordDecl *Record,
- SourceLocation DeclStart, Declarator &D,
- Expr *BitWidth,
- InClassInitStyle InitStyle,
- AccessSpecifier AS,
- const ParsedAttr &MSPropertyAttr) {
- IdentifierInfo *II = D.getIdentifier();
- if (!II) {
- Diag(DeclStart, diag::err_anonymous_property);
- return nullptr;
- }
- SourceLocation Loc = D.getIdentifierLoc();
- TypeSourceInfo *TInfo = GetTypeForDeclarator(D, S);
- QualType T = TInfo->getType();
- if (getLangOpts().CPlusPlus) {
- CheckExtraCXXDefaultArguments(D);
- if (DiagnoseUnexpandedParameterPack(D.getIdentifierLoc(), TInfo,
- UPPC_DataMemberType)) {
- D.setInvalidType();
- T = Context.IntTy;
- TInfo = Context.getTrivialTypeSourceInfo(T, Loc);
- }
- }
- DiagnoseFunctionSpecifiers(D.getDeclSpec());
- if (D.getDeclSpec().isInlineSpecified())
- Diag(D.getDeclSpec().getInlineSpecLoc(), diag::err_inline_non_function)
- << getLangOpts().CPlusPlus17;
- if (DeclSpec::TSCS TSCS = D.getDeclSpec().getThreadStorageClassSpec())
- Diag(D.getDeclSpec().getThreadStorageClassSpecLoc(),
- diag::err_invalid_thread)
- << DeclSpec::getSpecifierName(TSCS);
- // Check to see if this name was declared as a member previously
- NamedDecl *PrevDecl = nullptr;
- LookupResult Previous(*this, II, Loc, LookupMemberName,
- ForVisibleRedeclaration);
- LookupName(Previous, S);
- switch (Previous.getResultKind()) {
- case LookupResult::Found:
- case LookupResult::FoundUnresolvedValue:
- PrevDecl = Previous.getAsSingle<NamedDecl>();
- break;
- case LookupResult::FoundOverloaded:
- PrevDecl = Previous.getRepresentativeDecl();
- break;
- case LookupResult::NotFound:
- case LookupResult::NotFoundInCurrentInstantiation:
- case LookupResult::Ambiguous:
- break;
- }
- if (PrevDecl && PrevDecl->isTemplateParameter()) {
- // Maybe we will complain about the shadowed template parameter.
- DiagnoseTemplateParameterShadow(D.getIdentifierLoc(), PrevDecl);
- // Just pretend that we didn't see the previous declaration.
- PrevDecl = nullptr;
- }
- if (PrevDecl && !isDeclInScope(PrevDecl, Record, S))
- PrevDecl = nullptr;
- SourceLocation TSSL = D.getBeginLoc();
- MSPropertyDecl *NewPD =
- MSPropertyDecl::Create(Context, Record, Loc, II, T, TInfo, TSSL,
- MSPropertyAttr.getPropertyDataGetter(),
- MSPropertyAttr.getPropertyDataSetter());
- ProcessDeclAttributes(TUScope, NewPD, D);
- NewPD->setAccess(AS);
- if (NewPD->isInvalidDecl())
- Record->setInvalidDecl();
- if (D.getDeclSpec().isModulePrivateSpecified())
- NewPD->setModulePrivate();
- if (NewPD->isInvalidDecl() && PrevDecl) {
- // Don't introduce NewFD into scope; there's already something
- // with the same name in the same scope.
- } else if (II) {
- PushOnScopeChains(NewPD, S);
- } else
- Record->addDecl(NewPD);
- return NewPD;
- }
- void Sema::ActOnStartFunctionDeclarationDeclarator(
- Declarator &Declarator, unsigned TemplateParameterDepth) {
- auto &Info = InventedParameterInfos.emplace_back();
- TemplateParameterList *ExplicitParams = nullptr;
- ArrayRef<TemplateParameterList *> ExplicitLists =
- Declarator.getTemplateParameterLists();
- if (!ExplicitLists.empty()) {
- bool IsMemberSpecialization, IsInvalid;
- ExplicitParams = MatchTemplateParametersToScopeSpecifier(
- Declarator.getBeginLoc(), Declarator.getIdentifierLoc(),
- Declarator.getCXXScopeSpec(), /*TemplateId=*/nullptr,
- ExplicitLists, /*IsFriend=*/false, IsMemberSpecialization, IsInvalid,
- /*SuppressDiagnostic=*/true);
- }
- if (ExplicitParams) {
- Info.AutoTemplateParameterDepth = ExplicitParams->getDepth();
- llvm::append_range(Info.TemplateParams, *ExplicitParams);
- Info.NumExplicitTemplateParams = ExplicitParams->size();
- } else {
- Info.AutoTemplateParameterDepth = TemplateParameterDepth;
- Info.NumExplicitTemplateParams = 0;
- }
- }
- void Sema::ActOnFinishFunctionDeclarationDeclarator(Declarator &Declarator) {
- auto &FSI = InventedParameterInfos.back();
- if (FSI.TemplateParams.size() > FSI.NumExplicitTemplateParams) {
- if (FSI.NumExplicitTemplateParams != 0) {
- TemplateParameterList *ExplicitParams =
- Declarator.getTemplateParameterLists().back();
- Declarator.setInventedTemplateParameterList(
- TemplateParameterList::Create(
- Context, ExplicitParams->getTemplateLoc(),
- ExplicitParams->getLAngleLoc(), FSI.TemplateParams,
- ExplicitParams->getRAngleLoc(),
- ExplicitParams->getRequiresClause()));
- } else {
- Declarator.setInventedTemplateParameterList(
- TemplateParameterList::Create(
- Context, SourceLocation(), SourceLocation(), FSI.TemplateParams,
- SourceLocation(), /*RequiresClause=*/nullptr));
- }
- }
- InventedParameterInfos.pop_back();
- }
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