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- //===------- SemaTemplate.cpp - Semantic Analysis for C++ Templates -------===//
- //
- // 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++ templates.
- //===----------------------------------------------------------------------===//
- #include "TreeTransform.h"
- #include "clang/AST/ASTConsumer.h"
- #include "clang/AST/ASTContext.h"
- #include "clang/AST/Decl.h"
- #include "clang/AST/DeclFriend.h"
- #include "clang/AST/DeclTemplate.h"
- #include "clang/AST/Expr.h"
- #include "clang/AST/ExprCXX.h"
- #include "clang/AST/RecursiveASTVisitor.h"
- #include "clang/AST/TemplateName.h"
- #include "clang/AST/TypeVisitor.h"
- #include "clang/Basic/Builtins.h"
- #include "clang/Basic/DiagnosticSema.h"
- #include "clang/Basic/LangOptions.h"
- #include "clang/Basic/PartialDiagnostic.h"
- #include "clang/Basic/Stack.h"
- #include "clang/Basic/TargetInfo.h"
- #include "clang/Sema/DeclSpec.h"
- #include "clang/Sema/Initialization.h"
- #include "clang/Sema/Lookup.h"
- #include "clang/Sema/Overload.h"
- #include "clang/Sema/ParsedTemplate.h"
- #include "clang/Sema/Scope.h"
- #include "clang/Sema/SemaInternal.h"
- #include "clang/Sema/Template.h"
- #include "clang/Sema/TemplateDeduction.h"
- #include "llvm/ADT/SmallBitVector.h"
- #include "llvm/ADT/SmallString.h"
- #include "llvm/ADT/StringExtras.h"
- #include <iterator>
- #include <optional>
- using namespace clang;
- using namespace sema;
- // Exported for use by Parser.
- SourceRange
- clang::getTemplateParamsRange(TemplateParameterList const * const *Ps,
- unsigned N) {
- if (!N) return SourceRange();
- return SourceRange(Ps[0]->getTemplateLoc(), Ps[N-1]->getRAngleLoc());
- }
- unsigned Sema::getTemplateDepth(Scope *S) const {
- unsigned Depth = 0;
- // Each template parameter scope represents one level of template parameter
- // depth.
- for (Scope *TempParamScope = S->getTemplateParamParent(); TempParamScope;
- TempParamScope = TempParamScope->getParent()->getTemplateParamParent()) {
- ++Depth;
- }
- // Note that there are template parameters with the given depth.
- auto ParamsAtDepth = [&](unsigned D) { Depth = std::max(Depth, D + 1); };
- // Look for parameters of an enclosing generic lambda. We don't create a
- // template parameter scope for these.
- for (FunctionScopeInfo *FSI : getFunctionScopes()) {
- if (auto *LSI = dyn_cast<LambdaScopeInfo>(FSI)) {
- if (!LSI->TemplateParams.empty()) {
- ParamsAtDepth(LSI->AutoTemplateParameterDepth);
- break;
- }
- if (LSI->GLTemplateParameterList) {
- ParamsAtDepth(LSI->GLTemplateParameterList->getDepth());
- break;
- }
- }
- }
- // Look for parameters of an enclosing terse function template. We don't
- // create a template parameter scope for these either.
- for (const InventedTemplateParameterInfo &Info :
- getInventedParameterInfos()) {
- if (!Info.TemplateParams.empty()) {
- ParamsAtDepth(Info.AutoTemplateParameterDepth);
- break;
- }
- }
- return Depth;
- }
- /// \brief Determine whether the declaration found is acceptable as the name
- /// of a template and, if so, return that template declaration. Otherwise,
- /// returns null.
- ///
- /// Note that this may return an UnresolvedUsingValueDecl if AllowDependent
- /// is true. In all other cases it will return a TemplateDecl (or null).
- NamedDecl *Sema::getAsTemplateNameDecl(NamedDecl *D,
- bool AllowFunctionTemplates,
- bool AllowDependent) {
- D = D->getUnderlyingDecl();
- if (isa<TemplateDecl>(D)) {
- if (!AllowFunctionTemplates && isa<FunctionTemplateDecl>(D))
- return nullptr;
- return D;
- }
- if (const auto *Record = dyn_cast<CXXRecordDecl>(D)) {
- // C++ [temp.local]p1:
- // Like normal (non-template) classes, class templates have an
- // injected-class-name (Clause 9). The injected-class-name
- // can be used with or without a template-argument-list. When
- // it is used without a template-argument-list, it is
- // equivalent to the injected-class-name followed by the
- // template-parameters of the class template enclosed in
- // <>. When it is used with a template-argument-list, it
- // refers to the specified class template specialization,
- // which could be the current specialization or another
- // specialization.
- if (Record->isInjectedClassName()) {
- Record = cast<CXXRecordDecl>(Record->getDeclContext());
- if (Record->getDescribedClassTemplate())
- return Record->getDescribedClassTemplate();
- if (const auto *Spec = dyn_cast<ClassTemplateSpecializationDecl>(Record))
- return Spec->getSpecializedTemplate();
- }
- return nullptr;
- }
- // 'using Dependent::foo;' can resolve to a template name.
- // 'using typename Dependent::foo;' cannot (not even if 'foo' is an
- // injected-class-name).
- if (AllowDependent && isa<UnresolvedUsingValueDecl>(D))
- return D;
- return nullptr;
- }
- void Sema::FilterAcceptableTemplateNames(LookupResult &R,
- bool AllowFunctionTemplates,
- bool AllowDependent) {
- LookupResult::Filter filter = R.makeFilter();
- while (filter.hasNext()) {
- NamedDecl *Orig = filter.next();
- if (!getAsTemplateNameDecl(Orig, AllowFunctionTemplates, AllowDependent))
- filter.erase();
- }
- filter.done();
- }
- bool Sema::hasAnyAcceptableTemplateNames(LookupResult &R,
- bool AllowFunctionTemplates,
- bool AllowDependent,
- bool AllowNonTemplateFunctions) {
- for (LookupResult::iterator I = R.begin(), IEnd = R.end(); I != IEnd; ++I) {
- if (getAsTemplateNameDecl(*I, AllowFunctionTemplates, AllowDependent))
- return true;
- if (AllowNonTemplateFunctions &&
- isa<FunctionDecl>((*I)->getUnderlyingDecl()))
- return true;
- }
- return false;
- }
- TemplateNameKind Sema::isTemplateName(Scope *S,
- CXXScopeSpec &SS,
- bool hasTemplateKeyword,
- const UnqualifiedId &Name,
- ParsedType ObjectTypePtr,
- bool EnteringContext,
- TemplateTy &TemplateResult,
- bool &MemberOfUnknownSpecialization,
- bool Disambiguation) {
- assert(getLangOpts().CPlusPlus && "No template names in C!");
- DeclarationName TName;
- MemberOfUnknownSpecialization = false;
- switch (Name.getKind()) {
- case UnqualifiedIdKind::IK_Identifier:
- TName = DeclarationName(Name.Identifier);
- break;
- case UnqualifiedIdKind::IK_OperatorFunctionId:
- TName = Context.DeclarationNames.getCXXOperatorName(
- Name.OperatorFunctionId.Operator);
- break;
- case UnqualifiedIdKind::IK_LiteralOperatorId:
- TName = Context.DeclarationNames.getCXXLiteralOperatorName(Name.Identifier);
- break;
- default:
- return TNK_Non_template;
- }
- QualType ObjectType = ObjectTypePtr.get();
- AssumedTemplateKind AssumedTemplate;
- LookupResult R(*this, TName, Name.getBeginLoc(), LookupOrdinaryName);
- if (LookupTemplateName(R, S, SS, ObjectType, EnteringContext,
- MemberOfUnknownSpecialization, SourceLocation(),
- &AssumedTemplate,
- /*AllowTypoCorrection=*/!Disambiguation))
- return TNK_Non_template;
- if (AssumedTemplate != AssumedTemplateKind::None) {
- TemplateResult = TemplateTy::make(Context.getAssumedTemplateName(TName));
- // Let the parser know whether we found nothing or found functions; if we
- // found nothing, we want to more carefully check whether this is actually
- // a function template name versus some other kind of undeclared identifier.
- return AssumedTemplate == AssumedTemplateKind::FoundNothing
- ? TNK_Undeclared_template
- : TNK_Function_template;
- }
- if (R.empty())
- return TNK_Non_template;
- NamedDecl *D = nullptr;
- UsingShadowDecl *FoundUsingShadow = dyn_cast<UsingShadowDecl>(*R.begin());
- if (R.isAmbiguous()) {
- // If we got an ambiguity involving a non-function template, treat this
- // as a template name, and pick an arbitrary template for error recovery.
- bool AnyFunctionTemplates = false;
- for (NamedDecl *FoundD : R) {
- if (NamedDecl *FoundTemplate = getAsTemplateNameDecl(FoundD)) {
- if (isa<FunctionTemplateDecl>(FoundTemplate))
- AnyFunctionTemplates = true;
- else {
- D = FoundTemplate;
- FoundUsingShadow = dyn_cast<UsingShadowDecl>(FoundD);
- break;
- }
- }
- }
- // If we didn't find any templates at all, this isn't a template name.
- // Leave the ambiguity for a later lookup to diagnose.
- if (!D && !AnyFunctionTemplates) {
- R.suppressDiagnostics();
- return TNK_Non_template;
- }
- // If the only templates were function templates, filter out the rest.
- // We'll diagnose the ambiguity later.
- if (!D)
- FilterAcceptableTemplateNames(R);
- }
- // At this point, we have either picked a single template name declaration D
- // or we have a non-empty set of results R containing either one template name
- // declaration or a set of function templates.
- TemplateName Template;
- TemplateNameKind TemplateKind;
- unsigned ResultCount = R.end() - R.begin();
- if (!D && ResultCount > 1) {
- // We assume that we'll preserve the qualifier from a function
- // template name in other ways.
- Template = Context.getOverloadedTemplateName(R.begin(), R.end());
- TemplateKind = TNK_Function_template;
- // We'll do this lookup again later.
- R.suppressDiagnostics();
- } else {
- if (!D) {
- D = getAsTemplateNameDecl(*R.begin());
- assert(D && "unambiguous result is not a template name");
- }
- if (isa<UnresolvedUsingValueDecl>(D)) {
- // We don't yet know whether this is a template-name or not.
- MemberOfUnknownSpecialization = true;
- return TNK_Non_template;
- }
- TemplateDecl *TD = cast<TemplateDecl>(D);
- Template =
- FoundUsingShadow ? TemplateName(FoundUsingShadow) : TemplateName(TD);
- assert(!FoundUsingShadow || FoundUsingShadow->getTargetDecl() == TD);
- if (SS.isSet() && !SS.isInvalid()) {
- NestedNameSpecifier *Qualifier = SS.getScopeRep();
- Template = Context.getQualifiedTemplateName(Qualifier, hasTemplateKeyword,
- Template);
- }
- if (isa<FunctionTemplateDecl>(TD)) {
- TemplateKind = TNK_Function_template;
- // We'll do this lookup again later.
- R.suppressDiagnostics();
- } else {
- assert(isa<ClassTemplateDecl>(TD) || isa<TemplateTemplateParmDecl>(TD) ||
- isa<TypeAliasTemplateDecl>(TD) || isa<VarTemplateDecl>(TD) ||
- isa<BuiltinTemplateDecl>(TD) || isa<ConceptDecl>(TD));
- TemplateKind =
- isa<VarTemplateDecl>(TD) ? TNK_Var_template :
- isa<ConceptDecl>(TD) ? TNK_Concept_template :
- TNK_Type_template;
- }
- }
- TemplateResult = TemplateTy::make(Template);
- return TemplateKind;
- }
- bool Sema::isDeductionGuideName(Scope *S, const IdentifierInfo &Name,
- SourceLocation NameLoc,
- ParsedTemplateTy *Template) {
- CXXScopeSpec SS;
- bool MemberOfUnknownSpecialization = false;
- // We could use redeclaration lookup here, but we don't need to: the
- // syntactic form of a deduction guide is enough to identify it even
- // if we can't look up the template name at all.
- LookupResult R(*this, DeclarationName(&Name), NameLoc, LookupOrdinaryName);
- if (LookupTemplateName(R, S, SS, /*ObjectType*/ QualType(),
- /*EnteringContext*/ false,
- MemberOfUnknownSpecialization))
- return false;
- if (R.empty()) return false;
- if (R.isAmbiguous()) {
- // FIXME: Diagnose an ambiguity if we find at least one template.
- R.suppressDiagnostics();
- return false;
- }
- // We only treat template-names that name type templates as valid deduction
- // guide names.
- TemplateDecl *TD = R.getAsSingle<TemplateDecl>();
- if (!TD || !getAsTypeTemplateDecl(TD))
- return false;
- if (Template)
- *Template = TemplateTy::make(TemplateName(TD));
- return true;
- }
- bool Sema::DiagnoseUnknownTemplateName(const IdentifierInfo &II,
- SourceLocation IILoc,
- Scope *S,
- const CXXScopeSpec *SS,
- TemplateTy &SuggestedTemplate,
- TemplateNameKind &SuggestedKind) {
- // We can't recover unless there's a dependent scope specifier preceding the
- // template name.
- // FIXME: Typo correction?
- if (!SS || !SS->isSet() || !isDependentScopeSpecifier(*SS) ||
- computeDeclContext(*SS))
- return false;
- // The code is missing a 'template' keyword prior to the dependent template
- // name.
- NestedNameSpecifier *Qualifier = (NestedNameSpecifier*)SS->getScopeRep();
- Diag(IILoc, diag::err_template_kw_missing)
- << Qualifier << II.getName()
- << FixItHint::CreateInsertion(IILoc, "template ");
- SuggestedTemplate
- = TemplateTy::make(Context.getDependentTemplateName(Qualifier, &II));
- SuggestedKind = TNK_Dependent_template_name;
- return true;
- }
- bool Sema::LookupTemplateName(LookupResult &Found,
- Scope *S, CXXScopeSpec &SS,
- QualType ObjectType,
- bool EnteringContext,
- bool &MemberOfUnknownSpecialization,
- RequiredTemplateKind RequiredTemplate,
- AssumedTemplateKind *ATK,
- bool AllowTypoCorrection) {
- if (ATK)
- *ATK = AssumedTemplateKind::None;
- if (SS.isInvalid())
- return true;
- Found.setTemplateNameLookup(true);
- // Determine where to perform name lookup
- MemberOfUnknownSpecialization = false;
- DeclContext *LookupCtx = nullptr;
- bool IsDependent = false;
- if (!ObjectType.isNull()) {
- // This nested-name-specifier occurs in a member access expression, e.g.,
- // x->B::f, and we are looking into the type of the object.
- assert(SS.isEmpty() && "ObjectType and scope specifier cannot coexist");
- LookupCtx = computeDeclContext(ObjectType);
- IsDependent = !LookupCtx && ObjectType->isDependentType();
- assert((IsDependent || !ObjectType->isIncompleteType() ||
- !ObjectType->getAs<TagType>() ||
- ObjectType->castAs<TagType>()->isBeingDefined()) &&
- "Caller should have completed object type");
- // Template names cannot appear inside an Objective-C class or object type
- // or a vector type.
- //
- // FIXME: This is wrong. For example:
- //
- // template<typename T> using Vec = T __attribute__((ext_vector_type(4)));
- // Vec<int> vi;
- // vi.Vec<int>::~Vec<int>();
- //
- // ... should be accepted but we will not treat 'Vec' as a template name
- // here. The right thing to do would be to check if the name is a valid
- // vector component name, and look up a template name if not. And similarly
- // for lookups into Objective-C class and object types, where the same
- // problem can arise.
- if (ObjectType->isObjCObjectOrInterfaceType() ||
- ObjectType->isVectorType()) {
- Found.clear();
- return false;
- }
- } else if (SS.isNotEmpty()) {
- // This nested-name-specifier occurs after another nested-name-specifier,
- // so long into the context associated with the prior nested-name-specifier.
- LookupCtx = computeDeclContext(SS, EnteringContext);
- IsDependent = !LookupCtx && isDependentScopeSpecifier(SS);
- // The declaration context must be complete.
- if (LookupCtx && RequireCompleteDeclContext(SS, LookupCtx))
- return true;
- }
- bool ObjectTypeSearchedInScope = false;
- bool AllowFunctionTemplatesInLookup = true;
- if (LookupCtx) {
- // Perform "qualified" name lookup into the declaration context we
- // computed, which is either the type of the base of a member access
- // expression or the declaration context associated with a prior
- // nested-name-specifier.
- LookupQualifiedName(Found, LookupCtx);
- // FIXME: The C++ standard does not clearly specify what happens in the
- // case where the object type is dependent, and implementations vary. In
- // Clang, we treat a name after a . or -> as a template-name if lookup
- // finds a non-dependent member or member of the current instantiation that
- // is a type template, or finds no such members and lookup in the context
- // of the postfix-expression finds a type template. In the latter case, the
- // name is nonetheless dependent, and we may resolve it to a member of an
- // unknown specialization when we come to instantiate the template.
- IsDependent |= Found.wasNotFoundInCurrentInstantiation();
- }
- if (SS.isEmpty() && (ObjectType.isNull() || Found.empty())) {
- // C++ [basic.lookup.classref]p1:
- // In a class member access expression (5.2.5), if the . or -> token is
- // immediately followed by an identifier followed by a <, the
- // identifier must be looked up to determine whether the < is the
- // beginning of a template argument list (14.2) or a less-than operator.
- // The identifier is first looked up in the class of the object
- // expression. If the identifier is not found, it is then looked up in
- // the context of the entire postfix-expression and shall name a class
- // template.
- if (S)
- LookupName(Found, S);
- if (!ObjectType.isNull()) {
- // FIXME: We should filter out all non-type templates here, particularly
- // variable templates and concepts. But the exclusion of alias templates
- // and template template parameters is a wording defect.
- AllowFunctionTemplatesInLookup = false;
- ObjectTypeSearchedInScope = true;
- }
- IsDependent |= Found.wasNotFoundInCurrentInstantiation();
- }
- if (Found.isAmbiguous())
- return false;
- if (ATK && SS.isEmpty() && ObjectType.isNull() &&
- !RequiredTemplate.hasTemplateKeyword()) {
- // C++2a [temp.names]p2:
- // A name is also considered to refer to a template if it is an
- // unqualified-id followed by a < and name lookup finds either one or more
- // functions or finds nothing.
- //
- // To keep our behavior consistent, we apply the "finds nothing" part in
- // all language modes, and diagnose the empty lookup in ActOnCallExpr if we
- // successfully form a call to an undeclared template-id.
- bool AllFunctions =
- getLangOpts().CPlusPlus20 && llvm::all_of(Found, [](NamedDecl *ND) {
- return isa<FunctionDecl>(ND->getUnderlyingDecl());
- });
- if (AllFunctions || (Found.empty() && !IsDependent)) {
- // If lookup found any functions, or if this is a name that can only be
- // used for a function, then strongly assume this is a function
- // template-id.
- *ATK = (Found.empty() && Found.getLookupName().isIdentifier())
- ? AssumedTemplateKind::FoundNothing
- : AssumedTemplateKind::FoundFunctions;
- Found.clear();
- return false;
- }
- }
- if (Found.empty() && !IsDependent && AllowTypoCorrection) {
- // If we did not find any names, and this is not a disambiguation, attempt
- // to correct any typos.
- DeclarationName Name = Found.getLookupName();
- Found.clear();
- // Simple filter callback that, for keywords, only accepts the C++ *_cast
- DefaultFilterCCC FilterCCC{};
- FilterCCC.WantTypeSpecifiers = false;
- FilterCCC.WantExpressionKeywords = false;
- FilterCCC.WantRemainingKeywords = false;
- FilterCCC.WantCXXNamedCasts = true;
- if (TypoCorrection Corrected =
- CorrectTypo(Found.getLookupNameInfo(), Found.getLookupKind(), S,
- &SS, FilterCCC, CTK_ErrorRecovery, LookupCtx)) {
- if (auto *ND = Corrected.getFoundDecl())
- Found.addDecl(ND);
- FilterAcceptableTemplateNames(Found);
- if (Found.isAmbiguous()) {
- Found.clear();
- } else if (!Found.empty()) {
- Found.setLookupName(Corrected.getCorrection());
- if (LookupCtx) {
- std::string CorrectedStr(Corrected.getAsString(getLangOpts()));
- bool DroppedSpecifier = Corrected.WillReplaceSpecifier() &&
- Name.getAsString() == CorrectedStr;
- diagnoseTypo(Corrected, PDiag(diag::err_no_member_template_suggest)
- << Name << LookupCtx << DroppedSpecifier
- << SS.getRange());
- } else {
- diagnoseTypo(Corrected, PDiag(diag::err_no_template_suggest) << Name);
- }
- }
- }
- }
- NamedDecl *ExampleLookupResult =
- Found.empty() ? nullptr : Found.getRepresentativeDecl();
- FilterAcceptableTemplateNames(Found, AllowFunctionTemplatesInLookup);
- if (Found.empty()) {
- if (IsDependent) {
- MemberOfUnknownSpecialization = true;
- return false;
- }
- // If a 'template' keyword was used, a lookup that finds only non-template
- // names is an error.
- if (ExampleLookupResult && RequiredTemplate) {
- Diag(Found.getNameLoc(), diag::err_template_kw_refers_to_non_template)
- << Found.getLookupName() << SS.getRange()
- << RequiredTemplate.hasTemplateKeyword()
- << RequiredTemplate.getTemplateKeywordLoc();
- Diag(ExampleLookupResult->getUnderlyingDecl()->getLocation(),
- diag::note_template_kw_refers_to_non_template)
- << Found.getLookupName();
- return true;
- }
- return false;
- }
- if (S && !ObjectType.isNull() && !ObjectTypeSearchedInScope &&
- !getLangOpts().CPlusPlus11) {
- // C++03 [basic.lookup.classref]p1:
- // [...] If the lookup in the class of the object expression finds a
- // template, the name is also looked up in the context of the entire
- // postfix-expression and [...]
- //
- // Note: C++11 does not perform this second lookup.
- LookupResult FoundOuter(*this, Found.getLookupName(), Found.getNameLoc(),
- LookupOrdinaryName);
- FoundOuter.setTemplateNameLookup(true);
- LookupName(FoundOuter, S);
- // FIXME: We silently accept an ambiguous lookup here, in violation of
- // [basic.lookup]/1.
- FilterAcceptableTemplateNames(FoundOuter, /*AllowFunctionTemplates=*/false);
- NamedDecl *OuterTemplate;
- if (FoundOuter.empty()) {
- // - if the name is not found, the name found in the class of the
- // object expression is used, otherwise
- } else if (FoundOuter.isAmbiguous() || !FoundOuter.isSingleResult() ||
- !(OuterTemplate =
- getAsTemplateNameDecl(FoundOuter.getFoundDecl()))) {
- // - if the name is found in the context of the entire
- // postfix-expression and does not name a class template, the name
- // found in the class of the object expression is used, otherwise
- FoundOuter.clear();
- } else if (!Found.isSuppressingDiagnostics()) {
- // - if the name found is a class template, it must refer to the same
- // entity as the one found in the class of the object expression,
- // otherwise the program is ill-formed.
- if (!Found.isSingleResult() ||
- getAsTemplateNameDecl(Found.getFoundDecl())->getCanonicalDecl() !=
- OuterTemplate->getCanonicalDecl()) {
- Diag(Found.getNameLoc(),
- diag::ext_nested_name_member_ref_lookup_ambiguous)
- << Found.getLookupName()
- << ObjectType;
- Diag(Found.getRepresentativeDecl()->getLocation(),
- diag::note_ambig_member_ref_object_type)
- << ObjectType;
- Diag(FoundOuter.getFoundDecl()->getLocation(),
- diag::note_ambig_member_ref_scope);
- // Recover by taking the template that we found in the object
- // expression's type.
- }
- }
- }
- return false;
- }
- void Sema::diagnoseExprIntendedAsTemplateName(Scope *S, ExprResult TemplateName,
- SourceLocation Less,
- SourceLocation Greater) {
- if (TemplateName.isInvalid())
- return;
- DeclarationNameInfo NameInfo;
- CXXScopeSpec SS;
- LookupNameKind LookupKind;
- DeclContext *LookupCtx = nullptr;
- NamedDecl *Found = nullptr;
- bool MissingTemplateKeyword = false;
- // Figure out what name we looked up.
- if (auto *DRE = dyn_cast<DeclRefExpr>(TemplateName.get())) {
- NameInfo = DRE->getNameInfo();
- SS.Adopt(DRE->getQualifierLoc());
- LookupKind = LookupOrdinaryName;
- Found = DRE->getFoundDecl();
- } else if (auto *ME = dyn_cast<MemberExpr>(TemplateName.get())) {
- NameInfo = ME->getMemberNameInfo();
- SS.Adopt(ME->getQualifierLoc());
- LookupKind = LookupMemberName;
- LookupCtx = ME->getBase()->getType()->getAsCXXRecordDecl();
- Found = ME->getMemberDecl();
- } else if (auto *DSDRE =
- dyn_cast<DependentScopeDeclRefExpr>(TemplateName.get())) {
- NameInfo = DSDRE->getNameInfo();
- SS.Adopt(DSDRE->getQualifierLoc());
- MissingTemplateKeyword = true;
- } else if (auto *DSME =
- dyn_cast<CXXDependentScopeMemberExpr>(TemplateName.get())) {
- NameInfo = DSME->getMemberNameInfo();
- SS.Adopt(DSME->getQualifierLoc());
- MissingTemplateKeyword = true;
- } else {
- llvm_unreachable("unexpected kind of potential template name");
- }
- // If this is a dependent-scope lookup, diagnose that the 'template' keyword
- // was missing.
- if (MissingTemplateKeyword) {
- Diag(NameInfo.getBeginLoc(), diag::err_template_kw_missing)
- << "" << NameInfo.getName().getAsString() << SourceRange(Less, Greater);
- return;
- }
- // Try to correct the name by looking for templates and C++ named casts.
- struct TemplateCandidateFilter : CorrectionCandidateCallback {
- Sema &S;
- TemplateCandidateFilter(Sema &S) : S(S) {
- WantTypeSpecifiers = false;
- WantExpressionKeywords = false;
- WantRemainingKeywords = false;
- WantCXXNamedCasts = true;
- };
- bool ValidateCandidate(const TypoCorrection &Candidate) override {
- if (auto *ND = Candidate.getCorrectionDecl())
- return S.getAsTemplateNameDecl(ND);
- return Candidate.isKeyword();
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<TemplateCandidateFilter>(*this);
- }
- };
- DeclarationName Name = NameInfo.getName();
- TemplateCandidateFilter CCC(*this);
- if (TypoCorrection Corrected = CorrectTypo(NameInfo, LookupKind, S, &SS, CCC,
- CTK_ErrorRecovery, LookupCtx)) {
- auto *ND = Corrected.getFoundDecl();
- if (ND)
- ND = getAsTemplateNameDecl(ND);
- if (ND || Corrected.isKeyword()) {
- if (LookupCtx) {
- std::string CorrectedStr(Corrected.getAsString(getLangOpts()));
- bool DroppedSpecifier = Corrected.WillReplaceSpecifier() &&
- Name.getAsString() == CorrectedStr;
- diagnoseTypo(Corrected,
- PDiag(diag::err_non_template_in_member_template_id_suggest)
- << Name << LookupCtx << DroppedSpecifier
- << SS.getRange(), false);
- } else {
- diagnoseTypo(Corrected,
- PDiag(diag::err_non_template_in_template_id_suggest)
- << Name, false);
- }
- if (Found)
- Diag(Found->getLocation(),
- diag::note_non_template_in_template_id_found);
- return;
- }
- }
- Diag(NameInfo.getLoc(), diag::err_non_template_in_template_id)
- << Name << SourceRange(Less, Greater);
- if (Found)
- Diag(Found->getLocation(), diag::note_non_template_in_template_id_found);
- }
- /// ActOnDependentIdExpression - Handle a dependent id-expression that
- /// was just parsed. This is only possible with an explicit scope
- /// specifier naming a dependent type.
- ExprResult
- Sema::ActOnDependentIdExpression(const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- const DeclarationNameInfo &NameInfo,
- bool isAddressOfOperand,
- const TemplateArgumentListInfo *TemplateArgs) {
- DeclContext *DC = getFunctionLevelDeclContext();
- // C++11 [expr.prim.general]p12:
- // An id-expression that denotes a non-static data member or non-static
- // member function of a class can only be used:
- // (...)
- // - if that id-expression denotes a non-static data member and it
- // appears in an unevaluated operand.
- //
- // If this might be the case, form a DependentScopeDeclRefExpr instead of a
- // CXXDependentScopeMemberExpr. The former can instantiate to either
- // DeclRefExpr or MemberExpr depending on lookup results, while the latter is
- // always a MemberExpr.
- bool MightBeCxx11UnevalField =
- getLangOpts().CPlusPlus11 && isUnevaluatedContext();
- // Check if the nested name specifier is an enum type.
- bool IsEnum = false;
- if (NestedNameSpecifier *NNS = SS.getScopeRep())
- IsEnum = isa_and_nonnull<EnumType>(NNS->getAsType());
- if (!MightBeCxx11UnevalField && !isAddressOfOperand && !IsEnum &&
- isa<CXXMethodDecl>(DC) && cast<CXXMethodDecl>(DC)->isInstance()) {
- QualType ThisType = cast<CXXMethodDecl>(DC)->getThisType();
- // Since the 'this' expression is synthesized, we don't need to
- // perform the double-lookup check.
- NamedDecl *FirstQualifierInScope = nullptr;
- return CXXDependentScopeMemberExpr::Create(
- Context, /*This*/ nullptr, ThisType, /*IsArrow*/ true,
- /*Op*/ SourceLocation(), SS.getWithLocInContext(Context), TemplateKWLoc,
- FirstQualifierInScope, NameInfo, TemplateArgs);
- }
- return BuildDependentDeclRefExpr(SS, TemplateKWLoc, NameInfo, TemplateArgs);
- }
- ExprResult
- Sema::BuildDependentDeclRefExpr(const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- const DeclarationNameInfo &NameInfo,
- const TemplateArgumentListInfo *TemplateArgs) {
- // DependentScopeDeclRefExpr::Create requires a valid QualifierLoc
- NestedNameSpecifierLoc QualifierLoc = SS.getWithLocInContext(Context);
- if (!QualifierLoc)
- return ExprError();
- return DependentScopeDeclRefExpr::Create(
- Context, QualifierLoc, TemplateKWLoc, NameInfo, TemplateArgs);
- }
- /// Determine whether we would be unable to instantiate this template (because
- /// it either has no definition, or is in the process of being instantiated).
- bool Sema::DiagnoseUninstantiableTemplate(SourceLocation PointOfInstantiation,
- NamedDecl *Instantiation,
- bool InstantiatedFromMember,
- const NamedDecl *Pattern,
- const NamedDecl *PatternDef,
- TemplateSpecializationKind TSK,
- bool Complain /*= true*/) {
- assert(isa<TagDecl>(Instantiation) || isa<FunctionDecl>(Instantiation) ||
- isa<VarDecl>(Instantiation));
- bool IsEntityBeingDefined = false;
- if (const TagDecl *TD = dyn_cast_or_null<TagDecl>(PatternDef))
- IsEntityBeingDefined = TD->isBeingDefined();
- if (PatternDef && !IsEntityBeingDefined) {
- NamedDecl *SuggestedDef = nullptr;
- if (!hasReachableDefinition(const_cast<NamedDecl *>(PatternDef),
- &SuggestedDef,
- /*OnlyNeedComplete*/ false)) {
- // If we're allowed to diagnose this and recover, do so.
- bool Recover = Complain && !isSFINAEContext();
- if (Complain)
- diagnoseMissingImport(PointOfInstantiation, SuggestedDef,
- Sema::MissingImportKind::Definition, Recover);
- return !Recover;
- }
- return false;
- }
- if (!Complain || (PatternDef && PatternDef->isInvalidDecl()))
- return true;
- std::optional<unsigned> Note;
- QualType InstantiationTy;
- if (TagDecl *TD = dyn_cast<TagDecl>(Instantiation))
- InstantiationTy = Context.getTypeDeclType(TD);
- if (PatternDef) {
- Diag(PointOfInstantiation,
- diag::err_template_instantiate_within_definition)
- << /*implicit|explicit*/(TSK != TSK_ImplicitInstantiation)
- << InstantiationTy;
- // Not much point in noting the template declaration here, since
- // we're lexically inside it.
- Instantiation->setInvalidDecl();
- } else if (InstantiatedFromMember) {
- if (isa<FunctionDecl>(Instantiation)) {
- Diag(PointOfInstantiation,
- diag::err_explicit_instantiation_undefined_member)
- << /*member function*/ 1 << Instantiation->getDeclName()
- << Instantiation->getDeclContext();
- Note = diag::note_explicit_instantiation_here;
- } else {
- assert(isa<TagDecl>(Instantiation) && "Must be a TagDecl!");
- Diag(PointOfInstantiation,
- diag::err_implicit_instantiate_member_undefined)
- << InstantiationTy;
- Note = diag::note_member_declared_at;
- }
- } else {
- if (isa<FunctionDecl>(Instantiation)) {
- Diag(PointOfInstantiation,
- diag::err_explicit_instantiation_undefined_func_template)
- << Pattern;
- Note = diag::note_explicit_instantiation_here;
- } else if (isa<TagDecl>(Instantiation)) {
- Diag(PointOfInstantiation, diag::err_template_instantiate_undefined)
- << (TSK != TSK_ImplicitInstantiation)
- << InstantiationTy;
- Note = diag::note_template_decl_here;
- } else {
- assert(isa<VarDecl>(Instantiation) && "Must be a VarDecl!");
- if (isa<VarTemplateSpecializationDecl>(Instantiation)) {
- Diag(PointOfInstantiation,
- diag::err_explicit_instantiation_undefined_var_template)
- << Instantiation;
- Instantiation->setInvalidDecl();
- } else
- Diag(PointOfInstantiation,
- diag::err_explicit_instantiation_undefined_member)
- << /*static data member*/ 2 << Instantiation->getDeclName()
- << Instantiation->getDeclContext();
- Note = diag::note_explicit_instantiation_here;
- }
- }
- if (Note) // Diagnostics were emitted.
- Diag(Pattern->getLocation(), *Note);
- // In general, Instantiation isn't marked invalid to get more than one
- // error for multiple undefined instantiations. But the code that does
- // explicit declaration -> explicit definition conversion can't handle
- // invalid declarations, so mark as invalid in that case.
- if (TSK == TSK_ExplicitInstantiationDeclaration)
- Instantiation->setInvalidDecl();
- return true;
- }
- /// DiagnoseTemplateParameterShadow - Produce a diagnostic complaining
- /// that the template parameter 'PrevDecl' is being shadowed by a new
- /// declaration at location Loc. Returns true to indicate that this is
- /// an error, and false otherwise.
- void Sema::DiagnoseTemplateParameterShadow(SourceLocation Loc, Decl *PrevDecl) {
- assert(PrevDecl->isTemplateParameter() && "Not a template parameter");
- // C++ [temp.local]p4:
- // A template-parameter shall not be redeclared within its
- // scope (including nested scopes).
- //
- // Make this a warning when MSVC compatibility is requested.
- unsigned DiagId = getLangOpts().MSVCCompat ? diag::ext_template_param_shadow
- : diag::err_template_param_shadow;
- Diag(Loc, DiagId) << cast<NamedDecl>(PrevDecl)->getDeclName();
- Diag(PrevDecl->getLocation(), diag::note_template_param_here);
- }
- /// AdjustDeclIfTemplate - If the given decl happens to be a template, reset
- /// the parameter D to reference the templated declaration and return a pointer
- /// to the template declaration. Otherwise, do nothing to D and return null.
- TemplateDecl *Sema::AdjustDeclIfTemplate(Decl *&D) {
- if (TemplateDecl *Temp = dyn_cast_or_null<TemplateDecl>(D)) {
- D = Temp->getTemplatedDecl();
- return Temp;
- }
- return nullptr;
- }
- ParsedTemplateArgument ParsedTemplateArgument::getTemplatePackExpansion(
- SourceLocation EllipsisLoc) const {
- assert(Kind == Template &&
- "Only template template arguments can be pack expansions here");
- assert(getAsTemplate().get().containsUnexpandedParameterPack() &&
- "Template template argument pack expansion without packs");
- ParsedTemplateArgument Result(*this);
- Result.EllipsisLoc = EllipsisLoc;
- return Result;
- }
- static TemplateArgumentLoc translateTemplateArgument(Sema &SemaRef,
- const ParsedTemplateArgument &Arg) {
- switch (Arg.getKind()) {
- case ParsedTemplateArgument::Type: {
- TypeSourceInfo *DI;
- QualType T = SemaRef.GetTypeFromParser(Arg.getAsType(), &DI);
- if (!DI)
- DI = SemaRef.Context.getTrivialTypeSourceInfo(T, Arg.getLocation());
- return TemplateArgumentLoc(TemplateArgument(T), DI);
- }
- case ParsedTemplateArgument::NonType: {
- Expr *E = static_cast<Expr *>(Arg.getAsExpr());
- return TemplateArgumentLoc(TemplateArgument(E), E);
- }
- case ParsedTemplateArgument::Template: {
- TemplateName Template = Arg.getAsTemplate().get();
- TemplateArgument TArg;
- if (Arg.getEllipsisLoc().isValid())
- TArg = TemplateArgument(Template, std::optional<unsigned int>());
- else
- TArg = Template;
- return TemplateArgumentLoc(
- SemaRef.Context, TArg,
- Arg.getScopeSpec().getWithLocInContext(SemaRef.Context),
- Arg.getLocation(), Arg.getEllipsisLoc());
- }
- }
- llvm_unreachable("Unhandled parsed template argument");
- }
- /// Translates template arguments as provided by the parser
- /// into template arguments used by semantic analysis.
- void Sema::translateTemplateArguments(const ASTTemplateArgsPtr &TemplateArgsIn,
- TemplateArgumentListInfo &TemplateArgs) {
- for (unsigned I = 0, Last = TemplateArgsIn.size(); I != Last; ++I)
- TemplateArgs.addArgument(translateTemplateArgument(*this,
- TemplateArgsIn[I]));
- }
- static void maybeDiagnoseTemplateParameterShadow(Sema &SemaRef, Scope *S,
- SourceLocation Loc,
- IdentifierInfo *Name) {
- NamedDecl *PrevDecl = SemaRef.LookupSingleName(
- S, Name, Loc, Sema::LookupOrdinaryName, Sema::ForVisibleRedeclaration);
- if (PrevDecl && PrevDecl->isTemplateParameter())
- SemaRef.DiagnoseTemplateParameterShadow(Loc, PrevDecl);
- }
- /// Convert a parsed type into a parsed template argument. This is mostly
- /// trivial, except that we may have parsed a C++17 deduced class template
- /// specialization type, in which case we should form a template template
- /// argument instead of a type template argument.
- ParsedTemplateArgument Sema::ActOnTemplateTypeArgument(TypeResult ParsedType) {
- TypeSourceInfo *TInfo;
- QualType T = GetTypeFromParser(ParsedType.get(), &TInfo);
- if (T.isNull())
- return ParsedTemplateArgument();
- assert(TInfo && "template argument with no location");
- // If we might have formed a deduced template specialization type, convert
- // it to a template template argument.
- if (getLangOpts().CPlusPlus17) {
- TypeLoc TL = TInfo->getTypeLoc();
- SourceLocation EllipsisLoc;
- if (auto PET = TL.getAs<PackExpansionTypeLoc>()) {
- EllipsisLoc = PET.getEllipsisLoc();
- TL = PET.getPatternLoc();
- }
- CXXScopeSpec SS;
- if (auto ET = TL.getAs<ElaboratedTypeLoc>()) {
- SS.Adopt(ET.getQualifierLoc());
- TL = ET.getNamedTypeLoc();
- }
- if (auto DTST = TL.getAs<DeducedTemplateSpecializationTypeLoc>()) {
- TemplateName Name = DTST.getTypePtr()->getTemplateName();
- if (SS.isSet())
- Name = Context.getQualifiedTemplateName(SS.getScopeRep(),
- /*HasTemplateKeyword=*/false,
- Name);
- ParsedTemplateArgument Result(SS, TemplateTy::make(Name),
- DTST.getTemplateNameLoc());
- if (EllipsisLoc.isValid())
- Result = Result.getTemplatePackExpansion(EllipsisLoc);
- return Result;
- }
- }
- // This is a normal type template argument. Note, if the type template
- // argument is an injected-class-name for a template, it has a dual nature
- // and can be used as either a type or a template. We handle that in
- // convertTypeTemplateArgumentToTemplate.
- return ParsedTemplateArgument(ParsedTemplateArgument::Type,
- ParsedType.get().getAsOpaquePtr(),
- TInfo->getTypeLoc().getBeginLoc());
- }
- /// ActOnTypeParameter - Called when a C++ template type parameter
- /// (e.g., "typename T") has been parsed. Typename specifies whether
- /// the keyword "typename" was used to declare the type parameter
- /// (otherwise, "class" was used), and KeyLoc is the location of the
- /// "class" or "typename" keyword. ParamName is the name of the
- /// parameter (NULL indicates an unnamed template parameter) and
- /// ParamNameLoc is the location of the parameter name (if any).
- /// If the type parameter has a default argument, it will be added
- /// later via ActOnTypeParameterDefault.
- NamedDecl *Sema::ActOnTypeParameter(Scope *S, bool Typename,
- SourceLocation EllipsisLoc,
- SourceLocation KeyLoc,
- IdentifierInfo *ParamName,
- SourceLocation ParamNameLoc,
- unsigned Depth, unsigned Position,
- SourceLocation EqualLoc,
- ParsedType DefaultArg,
- bool HasTypeConstraint) {
- assert(S->isTemplateParamScope() &&
- "Template type parameter not in template parameter scope!");
- bool IsParameterPack = EllipsisLoc.isValid();
- TemplateTypeParmDecl *Param
- = TemplateTypeParmDecl::Create(Context, Context.getTranslationUnitDecl(),
- KeyLoc, ParamNameLoc, Depth, Position,
- ParamName, Typename, IsParameterPack,
- HasTypeConstraint);
- Param->setAccess(AS_public);
- if (Param->isParameterPack())
- if (auto *LSI = getEnclosingLambda())
- LSI->LocalPacks.push_back(Param);
- if (ParamName) {
- maybeDiagnoseTemplateParameterShadow(*this, S, ParamNameLoc, ParamName);
- // Add the template parameter into the current scope.
- S->AddDecl(Param);
- IdResolver.AddDecl(Param);
- }
- // C++0x [temp.param]p9:
- // A default template-argument may be specified for any kind of
- // template-parameter that is not a template parameter pack.
- if (DefaultArg && IsParameterPack) {
- Diag(EqualLoc, diag::err_template_param_pack_default_arg);
- DefaultArg = nullptr;
- }
- // Handle the default argument, if provided.
- if (DefaultArg) {
- TypeSourceInfo *DefaultTInfo;
- GetTypeFromParser(DefaultArg, &DefaultTInfo);
- assert(DefaultTInfo && "expected source information for type");
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(ParamNameLoc, DefaultTInfo,
- UPPC_DefaultArgument))
- return Param;
- // Check the template argument itself.
- if (CheckTemplateArgument(DefaultTInfo)) {
- Param->setInvalidDecl();
- return Param;
- }
- Param->setDefaultArgument(DefaultTInfo);
- }
- return Param;
- }
- /// Convert the parser's template argument list representation into our form.
- static TemplateArgumentListInfo
- makeTemplateArgumentListInfo(Sema &S, TemplateIdAnnotation &TemplateId) {
- TemplateArgumentListInfo TemplateArgs(TemplateId.LAngleLoc,
- TemplateId.RAngleLoc);
- ASTTemplateArgsPtr TemplateArgsPtr(TemplateId.getTemplateArgs(),
- TemplateId.NumArgs);
- S.translateTemplateArguments(TemplateArgsPtr, TemplateArgs);
- return TemplateArgs;
- }
- bool Sema::ActOnTypeConstraint(const CXXScopeSpec &SS,
- TemplateIdAnnotation *TypeConstr,
- TemplateTypeParmDecl *ConstrainedParameter,
- SourceLocation EllipsisLoc) {
- return BuildTypeConstraint(SS, TypeConstr, ConstrainedParameter, EllipsisLoc,
- false);
- }
- bool Sema::BuildTypeConstraint(const CXXScopeSpec &SS,
- TemplateIdAnnotation *TypeConstr,
- TemplateTypeParmDecl *ConstrainedParameter,
- SourceLocation EllipsisLoc,
- bool AllowUnexpandedPack) {
- TemplateName TN = TypeConstr->Template.get();
- ConceptDecl *CD = cast<ConceptDecl>(TN.getAsTemplateDecl());
- // C++2a [temp.param]p4:
- // [...] The concept designated by a type-constraint shall be a type
- // concept ([temp.concept]).
- if (!CD->isTypeConcept()) {
- Diag(TypeConstr->TemplateNameLoc,
- diag::err_type_constraint_non_type_concept);
- return true;
- }
- bool WereArgsSpecified = TypeConstr->LAngleLoc.isValid();
- if (!WereArgsSpecified &&
- CD->getTemplateParameters()->getMinRequiredArguments() > 1) {
- Diag(TypeConstr->TemplateNameLoc,
- diag::err_type_constraint_missing_arguments) << CD;
- return true;
- }
- DeclarationNameInfo ConceptName(DeclarationName(TypeConstr->Name),
- TypeConstr->TemplateNameLoc);
- TemplateArgumentListInfo TemplateArgs;
- if (TypeConstr->LAngleLoc.isValid()) {
- TemplateArgs =
- makeTemplateArgumentListInfo(*this, *TypeConstr);
- if (EllipsisLoc.isInvalid() && !AllowUnexpandedPack) {
- for (TemplateArgumentLoc Arg : TemplateArgs.arguments()) {
- if (DiagnoseUnexpandedParameterPack(Arg, UPPC_TypeConstraint))
- return true;
- }
- }
- }
- return AttachTypeConstraint(
- SS.isSet() ? SS.getWithLocInContext(Context) : NestedNameSpecifierLoc(),
- ConceptName, CD,
- TypeConstr->LAngleLoc.isValid() ? &TemplateArgs : nullptr,
- ConstrainedParameter, EllipsisLoc);
- }
- template<typename ArgumentLocAppender>
- static ExprResult formImmediatelyDeclaredConstraint(
- Sema &S, NestedNameSpecifierLoc NS, DeclarationNameInfo NameInfo,
- ConceptDecl *NamedConcept, SourceLocation LAngleLoc,
- SourceLocation RAngleLoc, QualType ConstrainedType,
- SourceLocation ParamNameLoc, ArgumentLocAppender Appender,
- SourceLocation EllipsisLoc) {
- TemplateArgumentListInfo ConstraintArgs;
- ConstraintArgs.addArgument(
- S.getTrivialTemplateArgumentLoc(TemplateArgument(ConstrainedType),
- /*NTTPType=*/QualType(), ParamNameLoc));
- ConstraintArgs.setRAngleLoc(RAngleLoc);
- ConstraintArgs.setLAngleLoc(LAngleLoc);
- Appender(ConstraintArgs);
- // C++2a [temp.param]p4:
- // [...] This constraint-expression E is called the immediately-declared
- // constraint of T. [...]
- CXXScopeSpec SS;
- SS.Adopt(NS);
- ExprResult ImmediatelyDeclaredConstraint = S.CheckConceptTemplateId(
- SS, /*TemplateKWLoc=*/SourceLocation(), NameInfo,
- /*FoundDecl=*/NamedConcept, NamedConcept, &ConstraintArgs);
- if (ImmediatelyDeclaredConstraint.isInvalid() || !EllipsisLoc.isValid())
- return ImmediatelyDeclaredConstraint;
- // C++2a [temp.param]p4:
- // [...] If T is not a pack, then E is E', otherwise E is (E' && ...).
- //
- // We have the following case:
- //
- // template<typename T> concept C1 = true;
- // template<C1... T> struct s1;
- //
- // The constraint: (C1<T> && ...)
- //
- // Note that the type of C1<T> is known to be 'bool', so we don't need to do
- // any unqualified lookups for 'operator&&' here.
- return S.BuildCXXFoldExpr(/*UnqualifiedLookup=*/nullptr,
- /*LParenLoc=*/SourceLocation(),
- ImmediatelyDeclaredConstraint.get(), BO_LAnd,
- EllipsisLoc, /*RHS=*/nullptr,
- /*RParenLoc=*/SourceLocation(),
- /*NumExpansions=*/std::nullopt);
- }
- /// Attach a type-constraint to a template parameter.
- /// \returns true if an error occurred. This can happen if the
- /// immediately-declared constraint could not be formed (e.g. incorrect number
- /// of arguments for the named concept).
- bool Sema::AttachTypeConstraint(NestedNameSpecifierLoc NS,
- DeclarationNameInfo NameInfo,
- ConceptDecl *NamedConcept,
- const TemplateArgumentListInfo *TemplateArgs,
- TemplateTypeParmDecl *ConstrainedParameter,
- SourceLocation EllipsisLoc) {
- // C++2a [temp.param]p4:
- // [...] If Q is of the form C<A1, ..., An>, then let E' be
- // C<T, A1, ..., An>. Otherwise, let E' be C<T>. [...]
- const ASTTemplateArgumentListInfo *ArgsAsWritten =
- TemplateArgs ? ASTTemplateArgumentListInfo::Create(Context,
- *TemplateArgs) : nullptr;
- QualType ParamAsArgument(ConstrainedParameter->getTypeForDecl(), 0);
- ExprResult ImmediatelyDeclaredConstraint =
- formImmediatelyDeclaredConstraint(
- *this, NS, NameInfo, NamedConcept,
- TemplateArgs ? TemplateArgs->getLAngleLoc() : SourceLocation(),
- TemplateArgs ? TemplateArgs->getRAngleLoc() : SourceLocation(),
- ParamAsArgument, ConstrainedParameter->getLocation(),
- [&] (TemplateArgumentListInfo &ConstraintArgs) {
- if (TemplateArgs)
- for (const auto &ArgLoc : TemplateArgs->arguments())
- ConstraintArgs.addArgument(ArgLoc);
- }, EllipsisLoc);
- if (ImmediatelyDeclaredConstraint.isInvalid())
- return true;
- ConstrainedParameter->setTypeConstraint(NS, NameInfo,
- /*FoundDecl=*/NamedConcept,
- NamedConcept, ArgsAsWritten,
- ImmediatelyDeclaredConstraint.get());
- return false;
- }
- bool Sema::AttachTypeConstraint(AutoTypeLoc TL, NonTypeTemplateParmDecl *NTTP,
- SourceLocation EllipsisLoc) {
- if (NTTP->getType() != TL.getType() ||
- TL.getAutoKeyword() != AutoTypeKeyword::Auto) {
- Diag(NTTP->getTypeSourceInfo()->getTypeLoc().getBeginLoc(),
- diag::err_unsupported_placeholder_constraint)
- << NTTP->getTypeSourceInfo()->getTypeLoc().getSourceRange();
- return true;
- }
- // FIXME: Concepts: This should be the type of the placeholder, but this is
- // unclear in the wording right now.
- DeclRefExpr *Ref =
- BuildDeclRefExpr(NTTP, NTTP->getType(), VK_PRValue, NTTP->getLocation());
- if (!Ref)
- return true;
- ExprResult ImmediatelyDeclaredConstraint = formImmediatelyDeclaredConstraint(
- *this, TL.getNestedNameSpecifierLoc(), TL.getConceptNameInfo(),
- TL.getNamedConcept(), TL.getLAngleLoc(), TL.getRAngleLoc(),
- BuildDecltypeType(Ref), NTTP->getLocation(),
- [&](TemplateArgumentListInfo &ConstraintArgs) {
- for (unsigned I = 0, C = TL.getNumArgs(); I != C; ++I)
- ConstraintArgs.addArgument(TL.getArgLoc(I));
- },
- EllipsisLoc);
- if (ImmediatelyDeclaredConstraint.isInvalid() ||
- !ImmediatelyDeclaredConstraint.isUsable())
- return true;
- NTTP->setPlaceholderTypeConstraint(ImmediatelyDeclaredConstraint.get());
- return false;
- }
- /// Check that the type of a non-type template parameter is
- /// well-formed.
- ///
- /// \returns the (possibly-promoted) parameter type if valid;
- /// otherwise, produces a diagnostic and returns a NULL type.
- QualType Sema::CheckNonTypeTemplateParameterType(TypeSourceInfo *&TSI,
- SourceLocation Loc) {
- if (TSI->getType()->isUndeducedType()) {
- // C++17 [temp.dep.expr]p3:
- // An id-expression is type-dependent if it contains
- // - an identifier associated by name lookup with a non-type
- // template-parameter declared with a type that contains a
- // placeholder type (7.1.7.4),
- TSI = SubstAutoTypeSourceInfoDependent(TSI);
- }
- return CheckNonTypeTemplateParameterType(TSI->getType(), Loc);
- }
- /// Require the given type to be a structural type, and diagnose if it is not.
- ///
- /// \return \c true if an error was produced.
- bool Sema::RequireStructuralType(QualType T, SourceLocation Loc) {
- if (T->isDependentType())
- return false;
- if (RequireCompleteType(Loc, T, diag::err_template_nontype_parm_incomplete))
- return true;
- if (T->isStructuralType())
- return false;
- // Structural types are required to be object types or lvalue references.
- if (T->isRValueReferenceType()) {
- Diag(Loc, diag::err_template_nontype_parm_rvalue_ref) << T;
- return true;
- }
- // Don't mention structural types in our diagnostic prior to C++20. Also,
- // there's not much more we can say about non-scalar non-class types --
- // because we can't see functions or arrays here, those can only be language
- // extensions.
- if (!getLangOpts().CPlusPlus20 ||
- (!T->isScalarType() && !T->isRecordType())) {
- Diag(Loc, diag::err_template_nontype_parm_bad_type) << T;
- return true;
- }
- // Structural types are required to be literal types.
- if (RequireLiteralType(Loc, T, diag::err_template_nontype_parm_not_literal))
- return true;
- Diag(Loc, diag::err_template_nontype_parm_not_structural) << T;
- // Drill down into the reason why the class is non-structural.
- while (const CXXRecordDecl *RD = T->getAsCXXRecordDecl()) {
- // All members are required to be public and non-mutable, and can't be of
- // rvalue reference type. Check these conditions first to prefer a "local"
- // reason over a more distant one.
- for (const FieldDecl *FD : RD->fields()) {
- if (FD->getAccess() != AS_public) {
- Diag(FD->getLocation(), diag::note_not_structural_non_public) << T << 0;
- return true;
- }
- if (FD->isMutable()) {
- Diag(FD->getLocation(), diag::note_not_structural_mutable_field) << T;
- return true;
- }
- if (FD->getType()->isRValueReferenceType()) {
- Diag(FD->getLocation(), diag::note_not_structural_rvalue_ref_field)
- << T;
- return true;
- }
- }
- // All bases are required to be public.
- for (const auto &BaseSpec : RD->bases()) {
- if (BaseSpec.getAccessSpecifier() != AS_public) {
- Diag(BaseSpec.getBaseTypeLoc(), diag::note_not_structural_non_public)
- << T << 1;
- return true;
- }
- }
- // All subobjects are required to be of structural types.
- SourceLocation SubLoc;
- QualType SubType;
- int Kind = -1;
- for (const FieldDecl *FD : RD->fields()) {
- QualType T = Context.getBaseElementType(FD->getType());
- if (!T->isStructuralType()) {
- SubLoc = FD->getLocation();
- SubType = T;
- Kind = 0;
- break;
- }
- }
- if (Kind == -1) {
- for (const auto &BaseSpec : RD->bases()) {
- QualType T = BaseSpec.getType();
- if (!T->isStructuralType()) {
- SubLoc = BaseSpec.getBaseTypeLoc();
- SubType = T;
- Kind = 1;
- break;
- }
- }
- }
- assert(Kind != -1 && "couldn't find reason why type is not structural");
- Diag(SubLoc, diag::note_not_structural_subobject)
- << T << Kind << SubType;
- T = SubType;
- RD = T->getAsCXXRecordDecl();
- }
- return true;
- }
- QualType Sema::CheckNonTypeTemplateParameterType(QualType T,
- SourceLocation Loc) {
- // We don't allow variably-modified types as the type of non-type template
- // parameters.
- if (T->isVariablyModifiedType()) {
- Diag(Loc, diag::err_variably_modified_nontype_template_param)
- << T;
- return QualType();
- }
- // C++ [temp.param]p4:
- //
- // A non-type template-parameter shall have one of the following
- // (optionally cv-qualified) types:
- //
- // -- integral or enumeration type,
- if (T->isIntegralOrEnumerationType() ||
- // -- pointer to object or pointer to function,
- T->isPointerType() ||
- // -- lvalue reference to object or lvalue reference to function,
- T->isLValueReferenceType() ||
- // -- pointer to member,
- T->isMemberPointerType() ||
- // -- std::nullptr_t, or
- T->isNullPtrType() ||
- // -- a type that contains a placeholder type.
- T->isUndeducedType()) {
- // C++ [temp.param]p5: The top-level cv-qualifiers on the template-parameter
- // are ignored when determining its type.
- return T.getUnqualifiedType();
- }
- // C++ [temp.param]p8:
- //
- // A non-type template-parameter of type "array of T" or
- // "function returning T" is adjusted to be of type "pointer to
- // T" or "pointer to function returning T", respectively.
- if (T->isArrayType() || T->isFunctionType())
- return Context.getDecayedType(T);
- // If T is a dependent type, we can't do the check now, so we
- // assume that it is well-formed. Note that stripping off the
- // qualifiers here is not really correct if T turns out to be
- // an array type, but we'll recompute the type everywhere it's
- // used during instantiation, so that should be OK. (Using the
- // qualified type is equally wrong.)
- if (T->isDependentType())
- return T.getUnqualifiedType();
- // C++20 [temp.param]p6:
- // -- a structural type
- if (RequireStructuralType(T, Loc))
- return QualType();
- if (!getLangOpts().CPlusPlus20) {
- // FIXME: Consider allowing structural types as an extension in C++17. (In
- // earlier language modes, the template argument evaluation rules are too
- // inflexible.)
- Diag(Loc, diag::err_template_nontype_parm_bad_structural_type) << T;
- return QualType();
- }
- Diag(Loc, diag::warn_cxx17_compat_template_nontype_parm_type) << T;
- return T.getUnqualifiedType();
- }
- NamedDecl *Sema::ActOnNonTypeTemplateParameter(Scope *S, Declarator &D,
- unsigned Depth,
- unsigned Position,
- SourceLocation EqualLoc,
- Expr *Default) {
- TypeSourceInfo *TInfo = GetTypeForDeclarator(D, S);
- // Check that we have valid decl-specifiers specified.
- auto CheckValidDeclSpecifiers = [this, &D] {
- // C++ [temp.param]
- // p1
- // template-parameter:
- // ...
- // parameter-declaration
- // p2
- // ... A storage class shall not be specified in a template-parameter
- // declaration.
- // [dcl.typedef]p1:
- // The typedef specifier [...] shall not be used in the decl-specifier-seq
- // of a parameter-declaration
- const DeclSpec &DS = D.getDeclSpec();
- auto EmitDiag = [this](SourceLocation Loc) {
- Diag(Loc, diag::err_invalid_decl_specifier_in_nontype_parm)
- << FixItHint::CreateRemoval(Loc);
- };
- if (DS.getStorageClassSpec() != DeclSpec::SCS_unspecified)
- EmitDiag(DS.getStorageClassSpecLoc());
- if (DS.getThreadStorageClassSpec() != TSCS_unspecified)
- EmitDiag(DS.getThreadStorageClassSpecLoc());
- // [dcl.inline]p1:
- // The inline specifier can be applied only to the declaration or
- // definition of a variable or function.
- if (DS.isInlineSpecified())
- EmitDiag(DS.getInlineSpecLoc());
- // [dcl.constexpr]p1:
- // The constexpr specifier shall be applied only to the definition of a
- // variable or variable template or the declaration of a function or
- // function template.
- if (DS.hasConstexprSpecifier())
- EmitDiag(DS.getConstexprSpecLoc());
- // [dcl.fct.spec]p1:
- // Function-specifiers can be used only in function declarations.
- if (DS.isVirtualSpecified())
- EmitDiag(DS.getVirtualSpecLoc());
- if (DS.hasExplicitSpecifier())
- EmitDiag(DS.getExplicitSpecLoc());
- if (DS.isNoreturnSpecified())
- EmitDiag(DS.getNoreturnSpecLoc());
- };
- CheckValidDeclSpecifiers();
- if (const auto *T = TInfo->getType()->getContainedDeducedType())
- if (isa<AutoType>(T))
- Diag(D.getIdentifierLoc(),
- diag::warn_cxx14_compat_template_nontype_parm_auto_type)
- << QualType(TInfo->getType()->getContainedAutoType(), 0);
- assert(S->isTemplateParamScope() &&
- "Non-type template parameter not in template parameter scope!");
- bool Invalid = false;
- QualType T = CheckNonTypeTemplateParameterType(TInfo, D.getIdentifierLoc());
- if (T.isNull()) {
- T = Context.IntTy; // Recover with an 'int' type.
- Invalid = true;
- }
- CheckFunctionOrTemplateParamDeclarator(S, D);
- IdentifierInfo *ParamName = D.getIdentifier();
- bool IsParameterPack = D.hasEllipsis();
- NonTypeTemplateParmDecl *Param = NonTypeTemplateParmDecl::Create(
- Context, Context.getTranslationUnitDecl(), D.getBeginLoc(),
- D.getIdentifierLoc(), Depth, Position, ParamName, T, IsParameterPack,
- TInfo);
- Param->setAccess(AS_public);
- if (AutoTypeLoc TL = TInfo->getTypeLoc().getContainedAutoTypeLoc())
- if (TL.isConstrained())
- if (AttachTypeConstraint(TL, Param, D.getEllipsisLoc()))
- Invalid = true;
- if (Invalid)
- Param->setInvalidDecl();
- if (Param->isParameterPack())
- if (auto *LSI = getEnclosingLambda())
- LSI->LocalPacks.push_back(Param);
- if (ParamName) {
- maybeDiagnoseTemplateParameterShadow(*this, S, D.getIdentifierLoc(),
- ParamName);
- // Add the template parameter into the current scope.
- S->AddDecl(Param);
- IdResolver.AddDecl(Param);
- }
- // C++0x [temp.param]p9:
- // A default template-argument may be specified for any kind of
- // template-parameter that is not a template parameter pack.
- if (Default && IsParameterPack) {
- Diag(EqualLoc, diag::err_template_param_pack_default_arg);
- Default = nullptr;
- }
- // Check the well-formedness of the default template argument, if provided.
- if (Default) {
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(Default, UPPC_DefaultArgument))
- return Param;
- TemplateArgument SugaredConverted, CanonicalConverted;
- ExprResult DefaultRes = CheckTemplateArgument(
- Param, Param->getType(), Default, SugaredConverted, CanonicalConverted,
- CTAK_Specified);
- if (DefaultRes.isInvalid()) {
- Param->setInvalidDecl();
- return Param;
- }
- Default = DefaultRes.get();
- Param->setDefaultArgument(Default);
- }
- return Param;
- }
- /// ActOnTemplateTemplateParameter - Called when a C++ template template
- /// parameter (e.g. T in template <template \<typename> class T> class array)
- /// has been parsed. S is the current scope.
- NamedDecl *Sema::ActOnTemplateTemplateParameter(Scope* S,
- SourceLocation TmpLoc,
- TemplateParameterList *Params,
- SourceLocation EllipsisLoc,
- IdentifierInfo *Name,
- SourceLocation NameLoc,
- unsigned Depth,
- unsigned Position,
- SourceLocation EqualLoc,
- ParsedTemplateArgument Default) {
- assert(S->isTemplateParamScope() &&
- "Template template parameter not in template parameter scope!");
- // Construct the parameter object.
- bool IsParameterPack = EllipsisLoc.isValid();
- TemplateTemplateParmDecl *Param =
- TemplateTemplateParmDecl::Create(Context, Context.getTranslationUnitDecl(),
- NameLoc.isInvalid()? TmpLoc : NameLoc,
- Depth, Position, IsParameterPack,
- Name, Params);
- Param->setAccess(AS_public);
- if (Param->isParameterPack())
- if (auto *LSI = getEnclosingLambda())
- LSI->LocalPacks.push_back(Param);
- // If the template template parameter has a name, then link the identifier
- // into the scope and lookup mechanisms.
- if (Name) {
- maybeDiagnoseTemplateParameterShadow(*this, S, NameLoc, Name);
- S->AddDecl(Param);
- IdResolver.AddDecl(Param);
- }
- if (Params->size() == 0) {
- Diag(Param->getLocation(), diag::err_template_template_parm_no_parms)
- << SourceRange(Params->getLAngleLoc(), Params->getRAngleLoc());
- Param->setInvalidDecl();
- }
- // C++0x [temp.param]p9:
- // A default template-argument may be specified for any kind of
- // template-parameter that is not a template parameter pack.
- if (IsParameterPack && !Default.isInvalid()) {
- Diag(EqualLoc, diag::err_template_param_pack_default_arg);
- Default = ParsedTemplateArgument();
- }
- if (!Default.isInvalid()) {
- // Check only that we have a template template argument. We don't want to
- // try to check well-formedness now, because our template template parameter
- // might have dependent types in its template parameters, which we wouldn't
- // be able to match now.
- //
- // If none of the template template parameter's template arguments mention
- // other template parameters, we could actually perform more checking here.
- // However, it isn't worth doing.
- TemplateArgumentLoc DefaultArg = translateTemplateArgument(*this, Default);
- if (DefaultArg.getArgument().getAsTemplate().isNull()) {
- Diag(DefaultArg.getLocation(), diag::err_template_arg_not_valid_template)
- << DefaultArg.getSourceRange();
- return Param;
- }
- // Check for unexpanded parameter packs.
- if (DiagnoseUnexpandedParameterPack(DefaultArg.getLocation(),
- DefaultArg.getArgument().getAsTemplate(),
- UPPC_DefaultArgument))
- return Param;
- Param->setDefaultArgument(Context, DefaultArg);
- }
- return Param;
- }
- namespace {
- class ConstraintRefersToContainingTemplateChecker
- : public TreeTransform<ConstraintRefersToContainingTemplateChecker> {
- bool Result = false;
- const FunctionDecl *Friend = nullptr;
- unsigned TemplateDepth = 0;
- // Check a record-decl that we've seen to see if it is a lexical parent of the
- // Friend, likely because it was referred to without its template arguments.
- void CheckIfContainingRecord(const CXXRecordDecl *CheckingRD) {
- CheckingRD = CheckingRD->getMostRecentDecl();
- for (const DeclContext *DC = Friend->getLexicalDeclContext();
- DC && !DC->isFileContext(); DC = DC->getParent())
- if (const auto *RD = dyn_cast<CXXRecordDecl>(DC))
- if (CheckingRD == RD->getMostRecentDecl())
- Result = true;
- }
- void CheckNonTypeTemplateParmDecl(NonTypeTemplateParmDecl *D) {
- assert(D->getDepth() <= TemplateDepth &&
- "Nothing should reference a value below the actual template depth, "
- "depth is likely wrong");
- if (D->getDepth() != TemplateDepth)
- Result = true;
- // Necessary because the type of the NTTP might be what refers to the parent
- // constriant.
- TransformType(D->getType());
- }
- public:
- using inherited = TreeTransform<ConstraintRefersToContainingTemplateChecker>;
- ConstraintRefersToContainingTemplateChecker(Sema &SemaRef,
- const FunctionDecl *Friend,
- unsigned TemplateDepth)
- : inherited(SemaRef), Friend(Friend), TemplateDepth(TemplateDepth) {}
- bool getResult() const { return Result; }
- // This should be the only template parm type that we have to deal with.
- // SubstTempalteTypeParmPack, SubstNonTypeTemplateParmPack, and
- // FunctionParmPackExpr are all partially substituted, which cannot happen
- // with concepts at this point in translation.
- using inherited::TransformTemplateTypeParmType;
- QualType TransformTemplateTypeParmType(TypeLocBuilder &TLB,
- TemplateTypeParmTypeLoc TL, bool) {
- assert(TL.getDecl()->getDepth() <= TemplateDepth &&
- "Nothing should reference a value below the actual template depth, "
- "depth is likely wrong");
- if (TL.getDecl()->getDepth() != TemplateDepth)
- Result = true;
- return inherited::TransformTemplateTypeParmType(
- TLB, TL,
- /*SuppressObjCLifetime=*/false);
- }
- Decl *TransformDecl(SourceLocation Loc, Decl *D) {
- if (!D)
- return D;
- // FIXME : This is possibly an incomplete list, but it is unclear what other
- // Decl kinds could be used to refer to the template parameters. This is a
- // best guess so far based on examples currently available, but the
- // unreachable should catch future instances/cases.
- if (auto *TD = dyn_cast<TypedefNameDecl>(D))
- TransformType(TD->getUnderlyingType());
- else if (auto *NTTPD = dyn_cast<NonTypeTemplateParmDecl>(D))
- CheckNonTypeTemplateParmDecl(NTTPD);
- else if (auto *VD = dyn_cast<ValueDecl>(D))
- TransformType(VD->getType());
- else if (auto *TD = dyn_cast<TemplateDecl>(D))
- TransformTemplateParameterList(TD->getTemplateParameters());
- else if (auto *RD = dyn_cast<CXXRecordDecl>(D))
- CheckIfContainingRecord(RD);
- else if (isa<NamedDecl>(D)) {
- // No direct types to visit here I believe.
- } else
- llvm_unreachable("Don't know how to handle this declaration type yet");
- return D;
- }
- };
- } // namespace
- bool Sema::ConstraintExpressionDependsOnEnclosingTemplate(
- const FunctionDecl *Friend, unsigned TemplateDepth,
- const Expr *Constraint) {
- assert(Friend->getFriendObjectKind() && "Only works on a friend");
- ConstraintRefersToContainingTemplateChecker Checker(*this, Friend,
- TemplateDepth);
- Checker.TransformExpr(const_cast<Expr *>(Constraint));
- return Checker.getResult();
- }
- /// ActOnTemplateParameterList - Builds a TemplateParameterList, optionally
- /// constrained by RequiresClause, that contains the template parameters in
- /// Params.
- TemplateParameterList *
- Sema::ActOnTemplateParameterList(unsigned Depth,
- SourceLocation ExportLoc,
- SourceLocation TemplateLoc,
- SourceLocation LAngleLoc,
- ArrayRef<NamedDecl *> Params,
- SourceLocation RAngleLoc,
- Expr *RequiresClause) {
- if (ExportLoc.isValid())
- Diag(ExportLoc, diag::warn_template_export_unsupported);
- for (NamedDecl *P : Params)
- warnOnReservedIdentifier(P);
- return TemplateParameterList::Create(
- Context, TemplateLoc, LAngleLoc,
- llvm::ArrayRef(Params.data(), Params.size()), RAngleLoc, RequiresClause);
- }
- static void SetNestedNameSpecifier(Sema &S, TagDecl *T,
- const CXXScopeSpec &SS) {
- if (SS.isSet())
- T->setQualifierInfo(SS.getWithLocInContext(S.Context));
- }
- DeclResult Sema::CheckClassTemplate(
- Scope *S, unsigned TagSpec, TagUseKind TUK, SourceLocation KWLoc,
- CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc,
- const ParsedAttributesView &Attr, TemplateParameterList *TemplateParams,
- AccessSpecifier AS, SourceLocation ModulePrivateLoc,
- SourceLocation FriendLoc, unsigned NumOuterTemplateParamLists,
- TemplateParameterList **OuterTemplateParamLists, SkipBodyInfo *SkipBody) {
- assert(TemplateParams && TemplateParams->size() > 0 &&
- "No template parameters");
- assert(TUK != TUK_Reference && "Can only declare or define class templates");
- bool Invalid = false;
- // Check that we can declare a template here.
- if (CheckTemplateDeclScope(S, TemplateParams))
- return true;
- TagTypeKind Kind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- assert(Kind != TTK_Enum && "can't build template of enumerated type");
- // There is no such thing as an unnamed class template.
- if (!Name) {
- Diag(KWLoc, diag::err_template_unnamed_class);
- return true;
- }
- // Find any previous declaration with this name. For a friend with no
- // scope explicitly specified, we only look for tag declarations (per
- // C++11 [basic.lookup.elab]p2).
- DeclContext *SemanticContext;
- LookupResult Previous(*this, Name, NameLoc,
- (SS.isEmpty() && TUK == TUK_Friend)
- ? LookupTagName : LookupOrdinaryName,
- forRedeclarationInCurContext());
- if (SS.isNotEmpty() && !SS.isInvalid()) {
- SemanticContext = computeDeclContext(SS, true);
- if (!SemanticContext) {
- // FIXME: Horrible, horrible hack! We can't currently represent this
- // in the AST, and historically we have just ignored such friend
- // class templates, so don't complain here.
- Diag(NameLoc, TUK == TUK_Friend
- ? diag::warn_template_qualified_friend_ignored
- : diag::err_template_qualified_declarator_no_match)
- << SS.getScopeRep() << SS.getRange();
- return TUK != TUK_Friend;
- }
- if (RequireCompleteDeclContext(SS, SemanticContext))
- return true;
- // If we're adding a template to a dependent context, we may need to
- // rebuilding some of the types used within the template parameter list,
- // now that we know what the current instantiation is.
- if (SemanticContext->isDependentContext()) {
- ContextRAII SavedContext(*this, SemanticContext);
- if (RebuildTemplateParamsInCurrentInstantiation(TemplateParams))
- Invalid = true;
- } else if (TUK != TUK_Friend && TUK != TUK_Reference)
- diagnoseQualifiedDeclaration(SS, SemanticContext, Name, NameLoc, false);
- LookupQualifiedName(Previous, SemanticContext);
- } else {
- SemanticContext = CurContext;
- // C++14 [class.mem]p14:
- // If T is the name of a class, then each of the following shall have a
- // name different from T:
- // -- every member template of class T
- if (TUK != TUK_Friend &&
- DiagnoseClassNameShadow(SemanticContext,
- DeclarationNameInfo(Name, NameLoc)))
- return true;
- LookupName(Previous, S);
- }
- if (Previous.isAmbiguous())
- return true;
- NamedDecl *PrevDecl = nullptr;
- if (Previous.begin() != Previous.end())
- PrevDecl = (*Previous.begin())->getUnderlyingDecl();
- if (PrevDecl && PrevDecl->isTemplateParameter()) {
- // Maybe we will complain about the shadowed template parameter.
- DiagnoseTemplateParameterShadow(NameLoc, PrevDecl);
- // Just pretend that we didn't see the previous declaration.
- PrevDecl = nullptr;
- }
- // If there is a previous declaration with the same name, check
- // whether this is a valid redeclaration.
- ClassTemplateDecl *PrevClassTemplate =
- dyn_cast_or_null<ClassTemplateDecl>(PrevDecl);
- // We may have found the injected-class-name of a class template,
- // class template partial specialization, or class template specialization.
- // In these cases, grab the template that is being defined or specialized.
- if (!PrevClassTemplate && PrevDecl && isa<CXXRecordDecl>(PrevDecl) &&
- cast<CXXRecordDecl>(PrevDecl)->isInjectedClassName()) {
- PrevDecl = cast<CXXRecordDecl>(PrevDecl->getDeclContext());
- PrevClassTemplate
- = cast<CXXRecordDecl>(PrevDecl)->getDescribedClassTemplate();
- if (!PrevClassTemplate && isa<ClassTemplateSpecializationDecl>(PrevDecl)) {
- PrevClassTemplate
- = cast<ClassTemplateSpecializationDecl>(PrevDecl)
- ->getSpecializedTemplate();
- }
- }
- if (TUK == TUK_Friend) {
- // C++ [namespace.memdef]p3:
- // [...] When looking for a prior declaration of a class or a function
- // declared as a friend, and when the name of the friend class or
- // function is neither a qualified name nor a template-id, scopes outside
- // the innermost enclosing namespace scope are not considered.
- if (!SS.isSet()) {
- DeclContext *OutermostContext = CurContext;
- while (!OutermostContext->isFileContext())
- OutermostContext = OutermostContext->getLookupParent();
- if (PrevDecl &&
- (OutermostContext->Equals(PrevDecl->getDeclContext()) ||
- OutermostContext->Encloses(PrevDecl->getDeclContext()))) {
- SemanticContext = PrevDecl->getDeclContext();
- } else {
- // Declarations in outer scopes don't matter. However, the outermost
- // context we computed is the semantic context for our new
- // declaration.
- PrevDecl = PrevClassTemplate = nullptr;
- SemanticContext = OutermostContext;
- // Check that the chosen semantic context doesn't already contain a
- // declaration of this name as a non-tag type.
- Previous.clear(LookupOrdinaryName);
- DeclContext *LookupContext = SemanticContext;
- while (LookupContext->isTransparentContext())
- LookupContext = LookupContext->getLookupParent();
- LookupQualifiedName(Previous, LookupContext);
- if (Previous.isAmbiguous())
- return true;
- if (Previous.begin() != Previous.end())
- PrevDecl = (*Previous.begin())->getUnderlyingDecl();
- }
- }
- } else if (PrevDecl &&
- !isDeclInScope(Previous.getRepresentativeDecl(), SemanticContext,
- S, SS.isValid()))
- PrevDecl = PrevClassTemplate = nullptr;
- if (auto *Shadow = dyn_cast_or_null<UsingShadowDecl>(
- PrevDecl ? Previous.getRepresentativeDecl() : nullptr)) {
- if (SS.isEmpty() &&
- !(PrevClassTemplate &&
- PrevClassTemplate->getDeclContext()->getRedeclContext()->Equals(
- SemanticContext->getRedeclContext()))) {
- Diag(KWLoc, diag::err_using_decl_conflict_reverse);
- Diag(Shadow->getTargetDecl()->getLocation(),
- diag::note_using_decl_target);
- Diag(Shadow->getIntroducer()->getLocation(), diag::note_using_decl) << 0;
- // Recover by ignoring the old declaration.
- PrevDecl = PrevClassTemplate = nullptr;
- }
- }
- if (PrevClassTemplate) {
- // Ensure that the template parameter lists are compatible. Skip this check
- // for a friend in a dependent context: the template parameter list itself
- // could be dependent.
- if (!(TUK == TUK_Friend && CurContext->isDependentContext()) &&
- !TemplateParameterListsAreEqual(TemplateParams,
- PrevClassTemplate->getTemplateParameters(),
- /*Complain=*/true,
- TPL_TemplateMatch))
- return true;
- // C++ [temp.class]p4:
- // In a redeclaration, partial specialization, explicit
- // specialization or explicit instantiation of a class template,
- // the class-key shall agree in kind with the original class
- // template declaration (7.1.5.3).
- RecordDecl *PrevRecordDecl = PrevClassTemplate->getTemplatedDecl();
- if (!isAcceptableTagRedeclaration(PrevRecordDecl, Kind,
- TUK == TUK_Definition, KWLoc, Name)) {
- Diag(KWLoc, diag::err_use_with_wrong_tag)
- << Name
- << FixItHint::CreateReplacement(KWLoc, PrevRecordDecl->getKindName());
- Diag(PrevRecordDecl->getLocation(), diag::note_previous_use);
- Kind = PrevRecordDecl->getTagKind();
- }
- // Check for redefinition of this class template.
- if (TUK == TUK_Definition) {
- if (TagDecl *Def = PrevRecordDecl->getDefinition()) {
- // If we have a prior definition that is not visible, treat this as
- // simply making that previous definition visible.
- NamedDecl *Hidden = nullptr;
- if (SkipBody && !hasVisibleDefinition(Def, &Hidden)) {
- SkipBody->ShouldSkip = true;
- SkipBody->Previous = Def;
- auto *Tmpl = cast<CXXRecordDecl>(Hidden)->getDescribedClassTemplate();
- assert(Tmpl && "original definition of a class template is not a "
- "class template?");
- makeMergedDefinitionVisible(Hidden);
- makeMergedDefinitionVisible(Tmpl);
- } else {
- Diag(NameLoc, diag::err_redefinition) << Name;
- Diag(Def->getLocation(), diag::note_previous_definition);
- // FIXME: Would it make sense to try to "forget" the previous
- // definition, as part of error recovery?
- return true;
- }
- }
- }
- } else if (PrevDecl) {
- // C++ [temp]p5:
- // A class template shall not have the same name as any other
- // template, class, function, object, enumeration, enumerator,
- // namespace, or type in the same scope (3.3), except as specified
- // in (14.5.4).
- Diag(NameLoc, diag::err_redefinition_different_kind) << Name;
- Diag(PrevDecl->getLocation(), diag::note_previous_definition);
- return true;
- }
- // Check the template parameter list of this declaration, possibly
- // merging in the template parameter list from the previous class
- // template declaration. Skip this check for a friend in a dependent
- // context, because the template parameter list might be dependent.
- if (!(TUK == TUK_Friend && CurContext->isDependentContext()) &&
- CheckTemplateParameterList(
- TemplateParams,
- PrevClassTemplate
- ? PrevClassTemplate->getMostRecentDecl()->getTemplateParameters()
- : nullptr,
- (SS.isSet() && SemanticContext && SemanticContext->isRecord() &&
- SemanticContext->isDependentContext())
- ? TPC_ClassTemplateMember
- : TUK == TUK_Friend ? TPC_FriendClassTemplate : TPC_ClassTemplate,
- SkipBody))
- Invalid = true;
- if (SS.isSet()) {
- // If the name of the template was qualified, we must be defining the
- // template out-of-line.
- if (!SS.isInvalid() && !Invalid && !PrevClassTemplate) {
- Diag(NameLoc, TUK == TUK_Friend ? diag::err_friend_decl_does_not_match
- : diag::err_member_decl_does_not_match)
- << Name << SemanticContext << /*IsDefinition*/true << SS.getRange();
- Invalid = true;
- }
- }
- // If this is a templated friend in a dependent context we should not put it
- // on the redecl chain. In some cases, the templated friend can be the most
- // recent declaration tricking the template instantiator to make substitutions
- // there.
- // FIXME: Figure out how to combine with shouldLinkDependentDeclWithPrevious
- bool ShouldAddRedecl
- = !(TUK == TUK_Friend && CurContext->isDependentContext());
- CXXRecordDecl *NewClass =
- CXXRecordDecl::Create(Context, Kind, SemanticContext, KWLoc, NameLoc, Name,
- PrevClassTemplate && ShouldAddRedecl ?
- PrevClassTemplate->getTemplatedDecl() : nullptr,
- /*DelayTypeCreation=*/true);
- SetNestedNameSpecifier(*this, NewClass, SS);
- if (NumOuterTemplateParamLists > 0)
- NewClass->setTemplateParameterListsInfo(
- Context,
- llvm::ArrayRef(OuterTemplateParamLists, NumOuterTemplateParamLists));
- // Add alignment attributes if necessary; these attributes are checked when
- // the ASTContext lays out the structure.
- if (TUK == TUK_Definition && (!SkipBody || !SkipBody->ShouldSkip)) {
- AddAlignmentAttributesForRecord(NewClass);
- AddMsStructLayoutForRecord(NewClass);
- }
- ClassTemplateDecl *NewTemplate
- = ClassTemplateDecl::Create(Context, SemanticContext, NameLoc,
- DeclarationName(Name), TemplateParams,
- NewClass);
- if (ShouldAddRedecl)
- NewTemplate->setPreviousDecl(PrevClassTemplate);
- NewClass->setDescribedClassTemplate(NewTemplate);
- if (ModulePrivateLoc.isValid())
- NewTemplate->setModulePrivate();
- // Build the type for the class template declaration now.
- QualType T = NewTemplate->getInjectedClassNameSpecialization();
- T = Context.getInjectedClassNameType(NewClass, T);
- assert(T->isDependentType() && "Class template type is not dependent?");
- (void)T;
- // If we are providing an explicit specialization of a member that is a
- // class template, make a note of that.
- if (PrevClassTemplate &&
- PrevClassTemplate->getInstantiatedFromMemberTemplate())
- PrevClassTemplate->setMemberSpecialization();
- // Set the access specifier.
- if (!Invalid && TUK != TUK_Friend && NewTemplate->getDeclContext()->isRecord())
- SetMemberAccessSpecifier(NewTemplate, PrevClassTemplate, AS);
- // Set the lexical context of these templates
- NewClass->setLexicalDeclContext(CurContext);
- NewTemplate->setLexicalDeclContext(CurContext);
- if (TUK == TUK_Definition && (!SkipBody || !SkipBody->ShouldSkip))
- NewClass->startDefinition();
- ProcessDeclAttributeList(S, NewClass, Attr);
- if (PrevClassTemplate)
- mergeDeclAttributes(NewClass, PrevClassTemplate->getTemplatedDecl());
- AddPushedVisibilityAttribute(NewClass);
- inferGslOwnerPointerAttribute(NewClass);
- if (TUK != TUK_Friend) {
- // Per C++ [basic.scope.temp]p2, skip the template parameter scopes.
- Scope *Outer = S;
- while ((Outer->getFlags() & Scope::TemplateParamScope) != 0)
- Outer = Outer->getParent();
- PushOnScopeChains(NewTemplate, Outer);
- } else {
- if (PrevClassTemplate && PrevClassTemplate->getAccess() != AS_none) {
- NewTemplate->setAccess(PrevClassTemplate->getAccess());
- NewClass->setAccess(PrevClassTemplate->getAccess());
- }
- NewTemplate->setObjectOfFriendDecl();
- // Friend templates are visible in fairly strange ways.
- if (!CurContext->isDependentContext()) {
- DeclContext *DC = SemanticContext->getRedeclContext();
- DC->makeDeclVisibleInContext(NewTemplate);
- if (Scope *EnclosingScope = getScopeForDeclContext(S, DC))
- PushOnScopeChains(NewTemplate, EnclosingScope,
- /* AddToContext = */ false);
- }
- FriendDecl *Friend = FriendDecl::Create(
- Context, CurContext, NewClass->getLocation(), NewTemplate, FriendLoc);
- Friend->setAccess(AS_public);
- CurContext->addDecl(Friend);
- }
- if (PrevClassTemplate)
- CheckRedeclarationInModule(NewTemplate, PrevClassTemplate);
- if (Invalid) {
- NewTemplate->setInvalidDecl();
- NewClass->setInvalidDecl();
- }
- ActOnDocumentableDecl(NewTemplate);
- if (SkipBody && SkipBody->ShouldSkip)
- return SkipBody->Previous;
- return NewTemplate;
- }
- namespace {
- /// Tree transform to "extract" a transformed type from a class template's
- /// constructor to a deduction guide.
- class ExtractTypeForDeductionGuide
- : public TreeTransform<ExtractTypeForDeductionGuide> {
- llvm::SmallVectorImpl<TypedefNameDecl *> &MaterializedTypedefs;
- public:
- typedef TreeTransform<ExtractTypeForDeductionGuide> Base;
- ExtractTypeForDeductionGuide(
- Sema &SemaRef,
- llvm::SmallVectorImpl<TypedefNameDecl *> &MaterializedTypedefs)
- : Base(SemaRef), MaterializedTypedefs(MaterializedTypedefs) {}
- TypeSourceInfo *transform(TypeSourceInfo *TSI) { return TransformType(TSI); }
- QualType TransformTypedefType(TypeLocBuilder &TLB, TypedefTypeLoc TL) {
- ASTContext &Context = SemaRef.getASTContext();
- TypedefNameDecl *OrigDecl = TL.getTypedefNameDecl();
- TypedefNameDecl *Decl = OrigDecl;
- // Transform the underlying type of the typedef and clone the Decl only if
- // the typedef has a dependent context.
- if (OrigDecl->getDeclContext()->isDependentContext()) {
- TypeLocBuilder InnerTLB;
- QualType Transformed =
- TransformType(InnerTLB, OrigDecl->getTypeSourceInfo()->getTypeLoc());
- TypeSourceInfo *TSI = InnerTLB.getTypeSourceInfo(Context, Transformed);
- if (isa<TypeAliasDecl>(OrigDecl))
- Decl = TypeAliasDecl::Create(
- Context, Context.getTranslationUnitDecl(), OrigDecl->getBeginLoc(),
- OrigDecl->getLocation(), OrigDecl->getIdentifier(), TSI);
- else {
- assert(isa<TypedefDecl>(OrigDecl) && "Not a Type alias or typedef");
- Decl = TypedefDecl::Create(
- Context, Context.getTranslationUnitDecl(), OrigDecl->getBeginLoc(),
- OrigDecl->getLocation(), OrigDecl->getIdentifier(), TSI);
- }
- MaterializedTypedefs.push_back(Decl);
- }
- QualType TDTy = Context.getTypedefType(Decl);
- TypedefTypeLoc TypedefTL = TLB.push<TypedefTypeLoc>(TDTy);
- TypedefTL.setNameLoc(TL.getNameLoc());
- return TDTy;
- }
- };
- /// Transform to convert portions of a constructor declaration into the
- /// corresponding deduction guide, per C++1z [over.match.class.deduct]p1.
- struct ConvertConstructorToDeductionGuideTransform {
- ConvertConstructorToDeductionGuideTransform(Sema &S,
- ClassTemplateDecl *Template)
- : SemaRef(S), Template(Template) {}
- Sema &SemaRef;
- ClassTemplateDecl *Template;
- DeclContext *DC = Template->getDeclContext();
- CXXRecordDecl *Primary = Template->getTemplatedDecl();
- DeclarationName DeductionGuideName =
- SemaRef.Context.DeclarationNames.getCXXDeductionGuideName(Template);
- QualType DeducedType = SemaRef.Context.getTypeDeclType(Primary);
- // Index adjustment to apply to convert depth-1 template parameters into
- // depth-0 template parameters.
- unsigned Depth1IndexAdjustment = Template->getTemplateParameters()->size();
- /// Transform a constructor declaration into a deduction guide.
- NamedDecl *transformConstructor(FunctionTemplateDecl *FTD,
- CXXConstructorDecl *CD) {
- SmallVector<TemplateArgument, 16> SubstArgs;
- LocalInstantiationScope Scope(SemaRef);
- // C++ [over.match.class.deduct]p1:
- // -- For each constructor of the class template designated by the
- // template-name, a function template with the following properties:
- // -- The template parameters are the template parameters of the class
- // template followed by the template parameters (including default
- // template arguments) of the constructor, if any.
- TemplateParameterList *TemplateParams = Template->getTemplateParameters();
- if (FTD) {
- TemplateParameterList *InnerParams = FTD->getTemplateParameters();
- SmallVector<NamedDecl *, 16> AllParams;
- AllParams.reserve(TemplateParams->size() + InnerParams->size());
- AllParams.insert(AllParams.begin(),
- TemplateParams->begin(), TemplateParams->end());
- SubstArgs.reserve(InnerParams->size());
- // Later template parameters could refer to earlier ones, so build up
- // a list of substituted template arguments as we go.
- for (NamedDecl *Param : *InnerParams) {
- MultiLevelTemplateArgumentList Args;
- Args.setKind(TemplateSubstitutionKind::Rewrite);
- Args.addOuterTemplateArguments(SubstArgs);
- Args.addOuterRetainedLevel();
- NamedDecl *NewParam = transformTemplateParameter(Param, Args);
- if (!NewParam)
- return nullptr;
- AllParams.push_back(NewParam);
- SubstArgs.push_back(SemaRef.Context.getCanonicalTemplateArgument(
- SemaRef.Context.getInjectedTemplateArg(NewParam)));
- }
- // Substitute new template parameters into requires-clause if present.
- Expr *RequiresClause = nullptr;
- if (Expr *InnerRC = InnerParams->getRequiresClause()) {
- MultiLevelTemplateArgumentList Args;
- Args.setKind(TemplateSubstitutionKind::Rewrite);
- Args.addOuterTemplateArguments(SubstArgs);
- Args.addOuterRetainedLevel();
- ExprResult E = SemaRef.SubstExpr(InnerRC, Args);
- if (E.isInvalid())
- return nullptr;
- RequiresClause = E.getAs<Expr>();
- }
- TemplateParams = TemplateParameterList::Create(
- SemaRef.Context, InnerParams->getTemplateLoc(),
- InnerParams->getLAngleLoc(), AllParams, InnerParams->getRAngleLoc(),
- RequiresClause);
- }
- // If we built a new template-parameter-list, track that we need to
- // substitute references to the old parameters into references to the
- // new ones.
- MultiLevelTemplateArgumentList Args;
- Args.setKind(TemplateSubstitutionKind::Rewrite);
- if (FTD) {
- Args.addOuterTemplateArguments(SubstArgs);
- Args.addOuterRetainedLevel();
- }
- FunctionProtoTypeLoc FPTL = CD->getTypeSourceInfo()->getTypeLoc()
- .getAsAdjusted<FunctionProtoTypeLoc>();
- assert(FPTL && "no prototype for constructor declaration");
- // Transform the type of the function, adjusting the return type and
- // replacing references to the old parameters with references to the
- // new ones.
- TypeLocBuilder TLB;
- SmallVector<ParmVarDecl*, 8> Params;
- SmallVector<TypedefNameDecl *, 4> MaterializedTypedefs;
- QualType NewType = transformFunctionProtoType(TLB, FPTL, Params, Args,
- MaterializedTypedefs);
- if (NewType.isNull())
- return nullptr;
- TypeSourceInfo *NewTInfo = TLB.getTypeSourceInfo(SemaRef.Context, NewType);
- return buildDeductionGuide(TemplateParams, CD, CD->getExplicitSpecifier(),
- NewTInfo, CD->getBeginLoc(), CD->getLocation(),
- CD->getEndLoc(), MaterializedTypedefs);
- }
- /// Build a deduction guide with the specified parameter types.
- NamedDecl *buildSimpleDeductionGuide(MutableArrayRef<QualType> ParamTypes) {
- SourceLocation Loc = Template->getLocation();
- // Build the requested type.
- FunctionProtoType::ExtProtoInfo EPI;
- EPI.HasTrailingReturn = true;
- QualType Result = SemaRef.BuildFunctionType(DeducedType, ParamTypes, Loc,
- DeductionGuideName, EPI);
- TypeSourceInfo *TSI = SemaRef.Context.getTrivialTypeSourceInfo(Result, Loc);
- FunctionProtoTypeLoc FPTL =
- TSI->getTypeLoc().castAs<FunctionProtoTypeLoc>();
- // Build the parameters, needed during deduction / substitution.
- SmallVector<ParmVarDecl*, 4> Params;
- for (auto T : ParamTypes) {
- ParmVarDecl *NewParam = ParmVarDecl::Create(
- SemaRef.Context, DC, Loc, Loc, nullptr, T,
- SemaRef.Context.getTrivialTypeSourceInfo(T, Loc), SC_None, nullptr);
- NewParam->setScopeInfo(0, Params.size());
- FPTL.setParam(Params.size(), NewParam);
- Params.push_back(NewParam);
- }
- return buildDeductionGuide(Template->getTemplateParameters(), nullptr,
- ExplicitSpecifier(), TSI, Loc, Loc, Loc);
- }
- private:
- /// Transform a constructor template parameter into a deduction guide template
- /// parameter, rebuilding any internal references to earlier parameters and
- /// renumbering as we go.
- NamedDecl *transformTemplateParameter(NamedDecl *TemplateParam,
- MultiLevelTemplateArgumentList &Args) {
- if (auto *TTP = dyn_cast<TemplateTypeParmDecl>(TemplateParam)) {
- // TemplateTypeParmDecl's index cannot be changed after creation, so
- // substitute it directly.
- auto *NewTTP = TemplateTypeParmDecl::Create(
- SemaRef.Context, DC, TTP->getBeginLoc(), TTP->getLocation(),
- /*Depth*/ 0, Depth1IndexAdjustment + TTP->getIndex(),
- TTP->getIdentifier(), TTP->wasDeclaredWithTypename(),
- TTP->isParameterPack(), TTP->hasTypeConstraint(),
- TTP->isExpandedParameterPack()
- ? std::optional<unsigned>(TTP->getNumExpansionParameters())
- : std::nullopt);
- if (const auto *TC = TTP->getTypeConstraint())
- SemaRef.SubstTypeConstraint(NewTTP, TC, Args,
- /*EvaluateConstraint*/ true);
- if (TTP->hasDefaultArgument()) {
- TypeSourceInfo *InstantiatedDefaultArg =
- SemaRef.SubstType(TTP->getDefaultArgumentInfo(), Args,
- TTP->getDefaultArgumentLoc(), TTP->getDeclName());
- if (InstantiatedDefaultArg)
- NewTTP->setDefaultArgument(InstantiatedDefaultArg);
- }
- SemaRef.CurrentInstantiationScope->InstantiatedLocal(TemplateParam,
- NewTTP);
- return NewTTP;
- }
- if (auto *TTP = dyn_cast<TemplateTemplateParmDecl>(TemplateParam))
- return transformTemplateParameterImpl(TTP, Args);
- return transformTemplateParameterImpl(
- cast<NonTypeTemplateParmDecl>(TemplateParam), Args);
- }
- template<typename TemplateParmDecl>
- TemplateParmDecl *
- transformTemplateParameterImpl(TemplateParmDecl *OldParam,
- MultiLevelTemplateArgumentList &Args) {
- // Ask the template instantiator to do the heavy lifting for us, then adjust
- // the index of the parameter once it's done.
- auto *NewParam =
- cast<TemplateParmDecl>(SemaRef.SubstDecl(OldParam, DC, Args));
- assert(NewParam->getDepth() == 0 && "unexpected template param depth");
- NewParam->setPosition(NewParam->getPosition() + Depth1IndexAdjustment);
- return NewParam;
- }
- QualType transformFunctionProtoType(
- TypeLocBuilder &TLB, FunctionProtoTypeLoc TL,
- SmallVectorImpl<ParmVarDecl *> &Params,
- MultiLevelTemplateArgumentList &Args,
- SmallVectorImpl<TypedefNameDecl *> &MaterializedTypedefs) {
- SmallVector<QualType, 4> ParamTypes;
- const FunctionProtoType *T = TL.getTypePtr();
- // -- The types of the function parameters are those of the constructor.
- for (auto *OldParam : TL.getParams()) {
- ParmVarDecl *NewParam =
- transformFunctionTypeParam(OldParam, Args, MaterializedTypedefs);
- if (!NewParam)
- return QualType();
- ParamTypes.push_back(NewParam->getType());
- Params.push_back(NewParam);
- }
- // -- The return type is the class template specialization designated by
- // the template-name and template arguments corresponding to the
- // template parameters obtained from the class template.
- //
- // We use the injected-class-name type of the primary template instead.
- // This has the convenient property that it is different from any type that
- // the user can write in a deduction-guide (because they cannot enter the
- // context of the template), so implicit deduction guides can never collide
- // with explicit ones.
- QualType ReturnType = DeducedType;
- TLB.pushTypeSpec(ReturnType).setNameLoc(Primary->getLocation());
- // Resolving a wording defect, we also inherit the variadicness of the
- // constructor.
- FunctionProtoType::ExtProtoInfo EPI;
- EPI.Variadic = T->isVariadic();
- EPI.HasTrailingReturn = true;
- QualType Result = SemaRef.BuildFunctionType(
- ReturnType, ParamTypes, TL.getBeginLoc(), DeductionGuideName, EPI);
- if (Result.isNull())
- return QualType();
- FunctionProtoTypeLoc NewTL = TLB.push<FunctionProtoTypeLoc>(Result);
- NewTL.setLocalRangeBegin(TL.getLocalRangeBegin());
- NewTL.setLParenLoc(TL.getLParenLoc());
- NewTL.setRParenLoc(TL.getRParenLoc());
- NewTL.setExceptionSpecRange(SourceRange());
- NewTL.setLocalRangeEnd(TL.getLocalRangeEnd());
- for (unsigned I = 0, E = NewTL.getNumParams(); I != E; ++I)
- NewTL.setParam(I, Params[I]);
- return Result;
- }
- ParmVarDecl *transformFunctionTypeParam(
- ParmVarDecl *OldParam, MultiLevelTemplateArgumentList &Args,
- llvm::SmallVectorImpl<TypedefNameDecl *> &MaterializedTypedefs) {
- TypeSourceInfo *OldDI = OldParam->getTypeSourceInfo();
- TypeSourceInfo *NewDI;
- if (auto PackTL = OldDI->getTypeLoc().getAs<PackExpansionTypeLoc>()) {
- // Expand out the one and only element in each inner pack.
- Sema::ArgumentPackSubstitutionIndexRAII SubstIndex(SemaRef, 0);
- NewDI =
- SemaRef.SubstType(PackTL.getPatternLoc(), Args,
- OldParam->getLocation(), OldParam->getDeclName());
- if (!NewDI) return nullptr;
- NewDI =
- SemaRef.CheckPackExpansion(NewDI, PackTL.getEllipsisLoc(),
- PackTL.getTypePtr()->getNumExpansions());
- } else
- NewDI = SemaRef.SubstType(OldDI, Args, OldParam->getLocation(),
- OldParam->getDeclName());
- if (!NewDI)
- return nullptr;
- // Extract the type. This (for instance) replaces references to typedef
- // members of the current instantiations with the definitions of those
- // typedefs, avoiding triggering instantiation of the deduced type during
- // deduction.
- NewDI = ExtractTypeForDeductionGuide(SemaRef, MaterializedTypedefs)
- .transform(NewDI);
- // Resolving a wording defect, we also inherit default arguments from the
- // constructor.
- ExprResult NewDefArg;
- if (OldParam->hasDefaultArg()) {
- // We don't care what the value is (we won't use it); just create a
- // placeholder to indicate there is a default argument.
- QualType ParamTy = NewDI->getType();
- NewDefArg = new (SemaRef.Context)
- OpaqueValueExpr(OldParam->getDefaultArg()->getBeginLoc(),
- ParamTy.getNonLValueExprType(SemaRef.Context),
- ParamTy->isLValueReferenceType() ? VK_LValue
- : ParamTy->isRValueReferenceType() ? VK_XValue
- : VK_PRValue);
- }
- ParmVarDecl *NewParam = ParmVarDecl::Create(SemaRef.Context, DC,
- OldParam->getInnerLocStart(),
- OldParam->getLocation(),
- OldParam->getIdentifier(),
- NewDI->getType(),
- NewDI,
- OldParam->getStorageClass(),
- NewDefArg.get());
- NewParam->setScopeInfo(OldParam->getFunctionScopeDepth(),
- OldParam->getFunctionScopeIndex());
- SemaRef.CurrentInstantiationScope->InstantiatedLocal(OldParam, NewParam);
- return NewParam;
- }
- FunctionTemplateDecl *buildDeductionGuide(
- TemplateParameterList *TemplateParams, CXXConstructorDecl *Ctor,
- ExplicitSpecifier ES, TypeSourceInfo *TInfo, SourceLocation LocStart,
- SourceLocation Loc, SourceLocation LocEnd,
- llvm::ArrayRef<TypedefNameDecl *> MaterializedTypedefs = {}) {
- DeclarationNameInfo Name(DeductionGuideName, Loc);
- ArrayRef<ParmVarDecl *> Params =
- TInfo->getTypeLoc().castAs<FunctionProtoTypeLoc>().getParams();
- // Build the implicit deduction guide template.
- auto *Guide =
- CXXDeductionGuideDecl::Create(SemaRef.Context, DC, LocStart, ES, Name,
- TInfo->getType(), TInfo, LocEnd, Ctor);
- Guide->setImplicit();
- Guide->setParams(Params);
- for (auto *Param : Params)
- Param->setDeclContext(Guide);
- for (auto *TD : MaterializedTypedefs)
- TD->setDeclContext(Guide);
- auto *GuideTemplate = FunctionTemplateDecl::Create(
- SemaRef.Context, DC, Loc, DeductionGuideName, TemplateParams, Guide);
- GuideTemplate->setImplicit();
- Guide->setDescribedFunctionTemplate(GuideTemplate);
- if (isa<CXXRecordDecl>(DC)) {
- Guide->setAccess(AS_public);
- GuideTemplate->setAccess(AS_public);
- }
- DC->addDecl(GuideTemplate);
- return GuideTemplate;
- }
- };
- }
- void Sema::DeclareImplicitDeductionGuides(TemplateDecl *Template,
- SourceLocation Loc) {
- if (CXXRecordDecl *DefRecord =
- cast<CXXRecordDecl>(Template->getTemplatedDecl())->getDefinition()) {
- TemplateDecl *DescribedTemplate = DefRecord->getDescribedClassTemplate();
- Template = DescribedTemplate ? DescribedTemplate : Template;
- }
- DeclContext *DC = Template->getDeclContext();
- if (DC->isDependentContext())
- return;
- ConvertConstructorToDeductionGuideTransform Transform(
- *this, cast<ClassTemplateDecl>(Template));
- if (!isCompleteType(Loc, Transform.DeducedType))
- return;
- // Check whether we've already declared deduction guides for this template.
- // FIXME: Consider storing a flag on the template to indicate this.
- auto Existing = DC->lookup(Transform.DeductionGuideName);
- for (auto *D : Existing)
- if (D->isImplicit())
- return;
- // In case we were expanding a pack when we attempted to declare deduction
- // guides, turn off pack expansion for everything we're about to do.
- ArgumentPackSubstitutionIndexRAII SubstIndex(*this, -1);
- // Create a template instantiation record to track the "instantiation" of
- // constructors into deduction guides.
- // FIXME: Add a kind for this to give more meaningful diagnostics. But can
- // this substitution process actually fail?
- InstantiatingTemplate BuildingDeductionGuides(*this, Loc, Template);
- if (BuildingDeductionGuides.isInvalid())
- return;
- // Convert declared constructors into deduction guide templates.
- // FIXME: Skip constructors for which deduction must necessarily fail (those
- // for which some class template parameter without a default argument never
- // appears in a deduced context).
- bool AddedAny = false;
- for (NamedDecl *D : LookupConstructors(Transform.Primary)) {
- D = D->getUnderlyingDecl();
- if (D->isInvalidDecl() || D->isImplicit())
- continue;
- D = cast<NamedDecl>(D->getCanonicalDecl());
- auto *FTD = dyn_cast<FunctionTemplateDecl>(D);
- auto *CD =
- dyn_cast_or_null<CXXConstructorDecl>(FTD ? FTD->getTemplatedDecl() : D);
- // Class-scope explicit specializations (MS extension) do not result in
- // deduction guides.
- if (!CD || (!FTD && CD->isFunctionTemplateSpecialization()))
- continue;
- // Cannot make a deduction guide when unparsed arguments are present.
- if (llvm::any_of(CD->parameters(), [](ParmVarDecl *P) {
- return !P || P->hasUnparsedDefaultArg();
- }))
- continue;
- Transform.transformConstructor(FTD, CD);
- AddedAny = true;
- }
- // C++17 [over.match.class.deduct]
- // -- If C is not defined or does not declare any constructors, an
- // additional function template derived as above from a hypothetical
- // constructor C().
- if (!AddedAny)
- Transform.buildSimpleDeductionGuide(std::nullopt);
- // -- An additional function template derived as above from a hypothetical
- // constructor C(C), called the copy deduction candidate.
- cast<CXXDeductionGuideDecl>(
- cast<FunctionTemplateDecl>(
- Transform.buildSimpleDeductionGuide(Transform.DeducedType))
- ->getTemplatedDecl())
- ->setIsCopyDeductionCandidate();
- }
- /// Diagnose the presence of a default template argument on a
- /// template parameter, which is ill-formed in certain contexts.
- ///
- /// \returns true if the default template argument should be dropped.
- static bool DiagnoseDefaultTemplateArgument(Sema &S,
- Sema::TemplateParamListContext TPC,
- SourceLocation ParamLoc,
- SourceRange DefArgRange) {
- switch (TPC) {
- case Sema::TPC_ClassTemplate:
- case Sema::TPC_VarTemplate:
- case Sema::TPC_TypeAliasTemplate:
- return false;
- case Sema::TPC_FunctionTemplate:
- case Sema::TPC_FriendFunctionTemplateDefinition:
- // C++ [temp.param]p9:
- // A default template-argument shall not be specified in a
- // function template declaration or a function template
- // definition [...]
- // If a friend function template declaration specifies a default
- // template-argument, that declaration shall be a definition and shall be
- // the only declaration of the function template in the translation unit.
- // (C++98/03 doesn't have this wording; see DR226).
- S.Diag(ParamLoc, S.getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_template_parameter_default_in_function_template
- : diag::ext_template_parameter_default_in_function_template)
- << DefArgRange;
- return false;
- case Sema::TPC_ClassTemplateMember:
- // C++0x [temp.param]p9:
- // A default template-argument shall not be specified in the
- // template-parameter-lists of the definition of a member of a
- // class template that appears outside of the member's class.
- S.Diag(ParamLoc, diag::err_template_parameter_default_template_member)
- << DefArgRange;
- return true;
- case Sema::TPC_FriendClassTemplate:
- case Sema::TPC_FriendFunctionTemplate:
- // C++ [temp.param]p9:
- // A default template-argument shall not be specified in a
- // friend template declaration.
- S.Diag(ParamLoc, diag::err_template_parameter_default_friend_template)
- << DefArgRange;
- return true;
- // FIXME: C++0x [temp.param]p9 allows default template-arguments
- // for friend function templates if there is only a single
- // declaration (and it is a definition). Strange!
- }
- llvm_unreachable("Invalid TemplateParamListContext!");
- }
- /// Check for unexpanded parameter packs within the template parameters
- /// of a template template parameter, recursively.
- static bool DiagnoseUnexpandedParameterPacks(Sema &S,
- TemplateTemplateParmDecl *TTP) {
- // A template template parameter which is a parameter pack is also a pack
- // expansion.
- if (TTP->isParameterPack())
- return false;
- TemplateParameterList *Params = TTP->getTemplateParameters();
- for (unsigned I = 0, N = Params->size(); I != N; ++I) {
- NamedDecl *P = Params->getParam(I);
- if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(P)) {
- if (!TTP->isParameterPack())
- if (const TypeConstraint *TC = TTP->getTypeConstraint())
- if (TC->hasExplicitTemplateArgs())
- for (auto &ArgLoc : TC->getTemplateArgsAsWritten()->arguments())
- if (S.DiagnoseUnexpandedParameterPack(ArgLoc,
- Sema::UPPC_TypeConstraint))
- return true;
- continue;
- }
- if (NonTypeTemplateParmDecl *NTTP = dyn_cast<NonTypeTemplateParmDecl>(P)) {
- if (!NTTP->isParameterPack() &&
- S.DiagnoseUnexpandedParameterPack(NTTP->getLocation(),
- NTTP->getTypeSourceInfo(),
- Sema::UPPC_NonTypeTemplateParameterType))
- return true;
- continue;
- }
- if (TemplateTemplateParmDecl *InnerTTP
- = dyn_cast<TemplateTemplateParmDecl>(P))
- if (DiagnoseUnexpandedParameterPacks(S, InnerTTP))
- return true;
- }
- return false;
- }
- /// Checks the validity of a template parameter list, possibly
- /// considering the template parameter list from a previous
- /// declaration.
- ///
- /// If an "old" template parameter list is provided, it must be
- /// equivalent (per TemplateParameterListsAreEqual) to the "new"
- /// template parameter list.
- ///
- /// \param NewParams Template parameter list for a new template
- /// declaration. This template parameter list will be updated with any
- /// default arguments that are carried through from the previous
- /// template parameter list.
- ///
- /// \param OldParams If provided, template parameter list from a
- /// previous declaration of the same template. Default template
- /// arguments will be merged from the old template parameter list to
- /// the new template parameter list.
- ///
- /// \param TPC Describes the context in which we are checking the given
- /// template parameter list.
- ///
- /// \param SkipBody If we might have already made a prior merged definition
- /// of this template visible, the corresponding body-skipping information.
- /// Default argument redefinition is not an error when skipping such a body,
- /// because (under the ODR) we can assume the default arguments are the same
- /// as the prior merged definition.
- ///
- /// \returns true if an error occurred, false otherwise.
- bool Sema::CheckTemplateParameterList(TemplateParameterList *NewParams,
- TemplateParameterList *OldParams,
- TemplateParamListContext TPC,
- SkipBodyInfo *SkipBody) {
- bool Invalid = false;
- // C++ [temp.param]p10:
- // The set of default template-arguments available for use with a
- // template declaration or definition is obtained by merging the
- // default arguments from the definition (if in scope) and all
- // declarations in scope in the same way default function
- // arguments are (8.3.6).
- bool SawDefaultArgument = false;
- SourceLocation PreviousDefaultArgLoc;
- // Dummy initialization to avoid warnings.
- TemplateParameterList::iterator OldParam = NewParams->end();
- if (OldParams)
- OldParam = OldParams->begin();
- bool RemoveDefaultArguments = false;
- for (TemplateParameterList::iterator NewParam = NewParams->begin(),
- NewParamEnd = NewParams->end();
- NewParam != NewParamEnd; ++NewParam) {
- // Whether we've seen a duplicate default argument in the same translation
- // unit.
- bool RedundantDefaultArg = false;
- // Whether we've found inconsis inconsitent default arguments in different
- // translation unit.
- bool InconsistentDefaultArg = false;
- // The name of the module which contains the inconsistent default argument.
- std::string PrevModuleName;
- SourceLocation OldDefaultLoc;
- SourceLocation NewDefaultLoc;
- // Variable used to diagnose missing default arguments
- bool MissingDefaultArg = false;
- // Variable used to diagnose non-final parameter packs
- bool SawParameterPack = false;
- if (TemplateTypeParmDecl *NewTypeParm
- = dyn_cast<TemplateTypeParmDecl>(*NewParam)) {
- // Check the presence of a default argument here.
- if (NewTypeParm->hasDefaultArgument() &&
- DiagnoseDefaultTemplateArgument(*this, TPC,
- NewTypeParm->getLocation(),
- NewTypeParm->getDefaultArgumentInfo()->getTypeLoc()
- .getSourceRange()))
- NewTypeParm->removeDefaultArgument();
- // Merge default arguments for template type parameters.
- TemplateTypeParmDecl *OldTypeParm
- = OldParams? cast<TemplateTypeParmDecl>(*OldParam) : nullptr;
- if (NewTypeParm->isParameterPack()) {
- assert(!NewTypeParm->hasDefaultArgument() &&
- "Parameter packs can't have a default argument!");
- SawParameterPack = true;
- } else if (OldTypeParm && hasVisibleDefaultArgument(OldTypeParm) &&
- NewTypeParm->hasDefaultArgument() &&
- (!SkipBody || !SkipBody->ShouldSkip)) {
- OldDefaultLoc = OldTypeParm->getDefaultArgumentLoc();
- NewDefaultLoc = NewTypeParm->getDefaultArgumentLoc();
- SawDefaultArgument = true;
- if (!OldTypeParm->getOwningModule() ||
- isModuleUnitOfCurrentTU(OldTypeParm->getOwningModule()))
- RedundantDefaultArg = true;
- else if (!getASTContext().isSameDefaultTemplateArgument(OldTypeParm,
- NewTypeParm)) {
- InconsistentDefaultArg = true;
- PrevModuleName =
- OldTypeParm->getImportedOwningModule()->getFullModuleName();
- }
- PreviousDefaultArgLoc = NewDefaultLoc;
- } else if (OldTypeParm && OldTypeParm->hasDefaultArgument()) {
- // Merge the default argument from the old declaration to the
- // new declaration.
- NewTypeParm->setInheritedDefaultArgument(Context, OldTypeParm);
- PreviousDefaultArgLoc = OldTypeParm->getDefaultArgumentLoc();
- } else if (NewTypeParm->hasDefaultArgument()) {
- SawDefaultArgument = true;
- PreviousDefaultArgLoc = NewTypeParm->getDefaultArgumentLoc();
- } else if (SawDefaultArgument)
- MissingDefaultArg = true;
- } else if (NonTypeTemplateParmDecl *NewNonTypeParm
- = dyn_cast<NonTypeTemplateParmDecl>(*NewParam)) {
- // Check for unexpanded parameter packs.
- if (!NewNonTypeParm->isParameterPack() &&
- DiagnoseUnexpandedParameterPack(NewNonTypeParm->getLocation(),
- NewNonTypeParm->getTypeSourceInfo(),
- UPPC_NonTypeTemplateParameterType)) {
- Invalid = true;
- continue;
- }
- // Check the presence of a default argument here.
- if (NewNonTypeParm->hasDefaultArgument() &&
- DiagnoseDefaultTemplateArgument(*this, TPC,
- NewNonTypeParm->getLocation(),
- NewNonTypeParm->getDefaultArgument()->getSourceRange())) {
- NewNonTypeParm->removeDefaultArgument();
- }
- // Merge default arguments for non-type template parameters
- NonTypeTemplateParmDecl *OldNonTypeParm
- = OldParams? cast<NonTypeTemplateParmDecl>(*OldParam) : nullptr;
- if (NewNonTypeParm->isParameterPack()) {
- assert(!NewNonTypeParm->hasDefaultArgument() &&
- "Parameter packs can't have a default argument!");
- if (!NewNonTypeParm->isPackExpansion())
- SawParameterPack = true;
- } else if (OldNonTypeParm && hasVisibleDefaultArgument(OldNonTypeParm) &&
- NewNonTypeParm->hasDefaultArgument() &&
- (!SkipBody || !SkipBody->ShouldSkip)) {
- OldDefaultLoc = OldNonTypeParm->getDefaultArgumentLoc();
- NewDefaultLoc = NewNonTypeParm->getDefaultArgumentLoc();
- SawDefaultArgument = true;
- if (!OldNonTypeParm->getOwningModule() ||
- isModuleUnitOfCurrentTU(OldNonTypeParm->getOwningModule()))
- RedundantDefaultArg = true;
- else if (!getASTContext().isSameDefaultTemplateArgument(
- OldNonTypeParm, NewNonTypeParm)) {
- InconsistentDefaultArg = true;
- PrevModuleName =
- OldNonTypeParm->getImportedOwningModule()->getFullModuleName();
- }
- PreviousDefaultArgLoc = NewDefaultLoc;
- } else if (OldNonTypeParm && OldNonTypeParm->hasDefaultArgument()) {
- // Merge the default argument from the old declaration to the
- // new declaration.
- NewNonTypeParm->setInheritedDefaultArgument(Context, OldNonTypeParm);
- PreviousDefaultArgLoc = OldNonTypeParm->getDefaultArgumentLoc();
- } else if (NewNonTypeParm->hasDefaultArgument()) {
- SawDefaultArgument = true;
- PreviousDefaultArgLoc = NewNonTypeParm->getDefaultArgumentLoc();
- } else if (SawDefaultArgument)
- MissingDefaultArg = true;
- } else {
- TemplateTemplateParmDecl *NewTemplateParm
- = cast<TemplateTemplateParmDecl>(*NewParam);
- // Check for unexpanded parameter packs, recursively.
- if (::DiagnoseUnexpandedParameterPacks(*this, NewTemplateParm)) {
- Invalid = true;
- continue;
- }
- // Check the presence of a default argument here.
- if (NewTemplateParm->hasDefaultArgument() &&
- DiagnoseDefaultTemplateArgument(*this, TPC,
- NewTemplateParm->getLocation(),
- NewTemplateParm->getDefaultArgument().getSourceRange()))
- NewTemplateParm->removeDefaultArgument();
- // Merge default arguments for template template parameters
- TemplateTemplateParmDecl *OldTemplateParm
- = OldParams? cast<TemplateTemplateParmDecl>(*OldParam) : nullptr;
- if (NewTemplateParm->isParameterPack()) {
- assert(!NewTemplateParm->hasDefaultArgument() &&
- "Parameter packs can't have a default argument!");
- if (!NewTemplateParm->isPackExpansion())
- SawParameterPack = true;
- } else if (OldTemplateParm &&
- hasVisibleDefaultArgument(OldTemplateParm) &&
- NewTemplateParm->hasDefaultArgument() &&
- (!SkipBody || !SkipBody->ShouldSkip)) {
- OldDefaultLoc = OldTemplateParm->getDefaultArgument().getLocation();
- NewDefaultLoc = NewTemplateParm->getDefaultArgument().getLocation();
- SawDefaultArgument = true;
- if (!OldTemplateParm->getOwningModule() ||
- isModuleUnitOfCurrentTU(OldTemplateParm->getOwningModule()))
- RedundantDefaultArg = true;
- else if (!getASTContext().isSameDefaultTemplateArgument(
- OldTemplateParm, NewTemplateParm)) {
- InconsistentDefaultArg = true;
- PrevModuleName =
- OldTemplateParm->getImportedOwningModule()->getFullModuleName();
- }
- PreviousDefaultArgLoc = NewDefaultLoc;
- } else if (OldTemplateParm && OldTemplateParm->hasDefaultArgument()) {
- // Merge the default argument from the old declaration to the
- // new declaration.
- NewTemplateParm->setInheritedDefaultArgument(Context, OldTemplateParm);
- PreviousDefaultArgLoc
- = OldTemplateParm->getDefaultArgument().getLocation();
- } else if (NewTemplateParm->hasDefaultArgument()) {
- SawDefaultArgument = true;
- PreviousDefaultArgLoc
- = NewTemplateParm->getDefaultArgument().getLocation();
- } else if (SawDefaultArgument)
- MissingDefaultArg = true;
- }
- // C++11 [temp.param]p11:
- // If a template parameter of a primary class template or alias template
- // is a template parameter pack, it shall be the last template parameter.
- if (SawParameterPack && (NewParam + 1) != NewParamEnd &&
- (TPC == TPC_ClassTemplate || TPC == TPC_VarTemplate ||
- TPC == TPC_TypeAliasTemplate)) {
- Diag((*NewParam)->getLocation(),
- diag::err_template_param_pack_must_be_last_template_parameter);
- Invalid = true;
- }
- // [basic.def.odr]/13:
- // There can be more than one definition of a
- // ...
- // default template argument
- // ...
- // in a program provided that each definition appears in a different
- // translation unit and the definitions satisfy the [same-meaning
- // criteria of the ODR].
- //
- // Simply, the design of modules allows the definition of template default
- // argument to be repeated across translation unit. Note that the ODR is
- // checked elsewhere. But it is still not allowed to repeat template default
- // argument in the same translation unit.
- if (RedundantDefaultArg) {
- Diag(NewDefaultLoc, diag::err_template_param_default_arg_redefinition);
- Diag(OldDefaultLoc, diag::note_template_param_prev_default_arg);
- Invalid = true;
- } else if (InconsistentDefaultArg) {
- // We could only diagnose about the case that the OldParam is imported.
- // The case NewParam is imported should be handled in ASTReader.
- Diag(NewDefaultLoc,
- diag::err_template_param_default_arg_inconsistent_redefinition);
- Diag(OldDefaultLoc,
- diag::note_template_param_prev_default_arg_in_other_module)
- << PrevModuleName;
- Invalid = true;
- } else if (MissingDefaultArg && TPC != TPC_FunctionTemplate) {
- // C++ [temp.param]p11:
- // If a template-parameter of a class template has a default
- // template-argument, each subsequent template-parameter shall either
- // have a default template-argument supplied or be a template parameter
- // pack.
- Diag((*NewParam)->getLocation(),
- diag::err_template_param_default_arg_missing);
- Diag(PreviousDefaultArgLoc, diag::note_template_param_prev_default_arg);
- Invalid = true;
- RemoveDefaultArguments = true;
- }
- // If we have an old template parameter list that we're merging
- // in, move on to the next parameter.
- if (OldParams)
- ++OldParam;
- }
- // We were missing some default arguments at the end of the list, so remove
- // all of the default arguments.
- if (RemoveDefaultArguments) {
- for (TemplateParameterList::iterator NewParam = NewParams->begin(),
- NewParamEnd = NewParams->end();
- NewParam != NewParamEnd; ++NewParam) {
- if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(*NewParam))
- TTP->removeDefaultArgument();
- else if (NonTypeTemplateParmDecl *NTTP
- = dyn_cast<NonTypeTemplateParmDecl>(*NewParam))
- NTTP->removeDefaultArgument();
- else
- cast<TemplateTemplateParmDecl>(*NewParam)->removeDefaultArgument();
- }
- }
- return Invalid;
- }
- namespace {
- /// A class which looks for a use of a certain level of template
- /// parameter.
- struct DependencyChecker : RecursiveASTVisitor<DependencyChecker> {
- typedef RecursiveASTVisitor<DependencyChecker> super;
- unsigned Depth;
- // Whether we're looking for a use of a template parameter that makes the
- // overall construct type-dependent / a dependent type. This is strictly
- // best-effort for now; we may fail to match at all for a dependent type
- // in some cases if this is set.
- bool IgnoreNonTypeDependent;
- bool Match;
- SourceLocation MatchLoc;
- DependencyChecker(unsigned Depth, bool IgnoreNonTypeDependent)
- : Depth(Depth), IgnoreNonTypeDependent(IgnoreNonTypeDependent),
- Match(false) {}
- DependencyChecker(TemplateParameterList *Params, bool IgnoreNonTypeDependent)
- : IgnoreNonTypeDependent(IgnoreNonTypeDependent), Match(false) {
- NamedDecl *ND = Params->getParam(0);
- if (TemplateTypeParmDecl *PD = dyn_cast<TemplateTypeParmDecl>(ND)) {
- Depth = PD->getDepth();
- } else if (NonTypeTemplateParmDecl *PD =
- dyn_cast<NonTypeTemplateParmDecl>(ND)) {
- Depth = PD->getDepth();
- } else {
- Depth = cast<TemplateTemplateParmDecl>(ND)->getDepth();
- }
- }
- bool Matches(unsigned ParmDepth, SourceLocation Loc = SourceLocation()) {
- if (ParmDepth >= Depth) {
- Match = true;
- MatchLoc = Loc;
- return true;
- }
- return false;
- }
- bool TraverseStmt(Stmt *S, DataRecursionQueue *Q = nullptr) {
- // Prune out non-type-dependent expressions if requested. This can
- // sometimes result in us failing to find a template parameter reference
- // (if a value-dependent expression creates a dependent type), but this
- // mode is best-effort only.
- if (auto *E = dyn_cast_or_null<Expr>(S))
- if (IgnoreNonTypeDependent && !E->isTypeDependent())
- return true;
- return super::TraverseStmt(S, Q);
- }
- bool TraverseTypeLoc(TypeLoc TL) {
- if (IgnoreNonTypeDependent && !TL.isNull() &&
- !TL.getType()->isDependentType())
- return true;
- return super::TraverseTypeLoc(TL);
- }
- bool VisitTemplateTypeParmTypeLoc(TemplateTypeParmTypeLoc TL) {
- return !Matches(TL.getTypePtr()->getDepth(), TL.getNameLoc());
- }
- bool VisitTemplateTypeParmType(const TemplateTypeParmType *T) {
- // For a best-effort search, keep looking until we find a location.
- return IgnoreNonTypeDependent || !Matches(T->getDepth());
- }
- bool TraverseTemplateName(TemplateName N) {
- if (TemplateTemplateParmDecl *PD =
- dyn_cast_or_null<TemplateTemplateParmDecl>(N.getAsTemplateDecl()))
- if (Matches(PD->getDepth()))
- return false;
- return super::TraverseTemplateName(N);
- }
- bool VisitDeclRefExpr(DeclRefExpr *E) {
- if (NonTypeTemplateParmDecl *PD =
- dyn_cast<NonTypeTemplateParmDecl>(E->getDecl()))
- if (Matches(PD->getDepth(), E->getExprLoc()))
- return false;
- return super::VisitDeclRefExpr(E);
- }
- bool VisitSubstTemplateTypeParmType(const SubstTemplateTypeParmType *T) {
- return TraverseType(T->getReplacementType());
- }
- bool
- VisitSubstTemplateTypeParmPackType(const SubstTemplateTypeParmPackType *T) {
- return TraverseTemplateArgument(T->getArgumentPack());
- }
- bool TraverseInjectedClassNameType(const InjectedClassNameType *T) {
- return TraverseType(T->getInjectedSpecializationType());
- }
- };
- } // end anonymous namespace
- /// Determines whether a given type depends on the given parameter
- /// list.
- static bool
- DependsOnTemplateParameters(QualType T, TemplateParameterList *Params) {
- if (!Params->size())
- return false;
- DependencyChecker Checker(Params, /*IgnoreNonTypeDependent*/false);
- Checker.TraverseType(T);
- return Checker.Match;
- }
- // Find the source range corresponding to the named type in the given
- // nested-name-specifier, if any.
- static SourceRange getRangeOfTypeInNestedNameSpecifier(ASTContext &Context,
- QualType T,
- const CXXScopeSpec &SS) {
- NestedNameSpecifierLoc NNSLoc(SS.getScopeRep(), SS.location_data());
- while (NestedNameSpecifier *NNS = NNSLoc.getNestedNameSpecifier()) {
- if (const Type *CurType = NNS->getAsType()) {
- if (Context.hasSameUnqualifiedType(T, QualType(CurType, 0)))
- return NNSLoc.getTypeLoc().getSourceRange();
- } else
- break;
- NNSLoc = NNSLoc.getPrefix();
- }
- return SourceRange();
- }
- /// Match the given template parameter lists to the given scope
- /// specifier, returning the template parameter list that applies to the
- /// name.
- ///
- /// \param DeclStartLoc the start of the declaration that has a scope
- /// specifier or a template parameter list.
- ///
- /// \param DeclLoc The location of the declaration itself.
- ///
- /// \param SS the scope specifier that will be matched to the given template
- /// parameter lists. This scope specifier precedes a qualified name that is
- /// being declared.
- ///
- /// \param TemplateId The template-id following the scope specifier, if there
- /// is one. Used to check for a missing 'template<>'.
- ///
- /// \param ParamLists the template parameter lists, from the outermost to the
- /// innermost template parameter lists.
- ///
- /// \param IsFriend Whether to apply the slightly different rules for
- /// matching template parameters to scope specifiers in friend
- /// declarations.
- ///
- /// \param IsMemberSpecialization will be set true if the scope specifier
- /// denotes a fully-specialized type, and therefore this is a declaration of
- /// a member specialization.
- ///
- /// \returns the template parameter list, if any, that corresponds to the
- /// name that is preceded by the scope specifier @p SS. This template
- /// parameter list may have template parameters (if we're declaring a
- /// template) or may have no template parameters (if we're declaring a
- /// template specialization), or may be NULL (if what we're declaring isn't
- /// itself a template).
- TemplateParameterList *Sema::MatchTemplateParametersToScopeSpecifier(
- SourceLocation DeclStartLoc, SourceLocation DeclLoc, const CXXScopeSpec &SS,
- TemplateIdAnnotation *TemplateId,
- ArrayRef<TemplateParameterList *> ParamLists, bool IsFriend,
- bool &IsMemberSpecialization, bool &Invalid, bool SuppressDiagnostic) {
- IsMemberSpecialization = false;
- Invalid = false;
- // The sequence of nested types to which we will match up the template
- // parameter lists. We first build this list by starting with the type named
- // by the nested-name-specifier and walking out until we run out of types.
- SmallVector<QualType, 4> NestedTypes;
- QualType T;
- if (SS.getScopeRep()) {
- if (CXXRecordDecl *Record
- = dyn_cast_or_null<CXXRecordDecl>(computeDeclContext(SS, true)))
- T = Context.getTypeDeclType(Record);
- else
- T = QualType(SS.getScopeRep()->getAsType(), 0);
- }
- // If we found an explicit specialization that prevents us from needing
- // 'template<>' headers, this will be set to the location of that
- // explicit specialization.
- SourceLocation ExplicitSpecLoc;
- while (!T.isNull()) {
- NestedTypes.push_back(T);
- // Retrieve the parent of a record type.
- if (CXXRecordDecl *Record = T->getAsCXXRecordDecl()) {
- // If this type is an explicit specialization, we're done.
- if (ClassTemplateSpecializationDecl *Spec
- = dyn_cast<ClassTemplateSpecializationDecl>(Record)) {
- if (!isa<ClassTemplatePartialSpecializationDecl>(Spec) &&
- Spec->getSpecializationKind() == TSK_ExplicitSpecialization) {
- ExplicitSpecLoc = Spec->getLocation();
- break;
- }
- } else if (Record->getTemplateSpecializationKind()
- == TSK_ExplicitSpecialization) {
- ExplicitSpecLoc = Record->getLocation();
- break;
- }
- if (TypeDecl *Parent = dyn_cast<TypeDecl>(Record->getParent()))
- T = Context.getTypeDeclType(Parent);
- else
- T = QualType();
- continue;
- }
- if (const TemplateSpecializationType *TST
- = T->getAs<TemplateSpecializationType>()) {
- if (TemplateDecl *Template = TST->getTemplateName().getAsTemplateDecl()) {
- if (TypeDecl *Parent = dyn_cast<TypeDecl>(Template->getDeclContext()))
- T = Context.getTypeDeclType(Parent);
- else
- T = QualType();
- continue;
- }
- }
- // Look one step prior in a dependent template specialization type.
- if (const DependentTemplateSpecializationType *DependentTST
- = T->getAs<DependentTemplateSpecializationType>()) {
- if (NestedNameSpecifier *NNS = DependentTST->getQualifier())
- T = QualType(NNS->getAsType(), 0);
- else
- T = QualType();
- continue;
- }
- // Look one step prior in a dependent name type.
- if (const DependentNameType *DependentName = T->getAs<DependentNameType>()){
- if (NestedNameSpecifier *NNS = DependentName->getQualifier())
- T = QualType(NNS->getAsType(), 0);
- else
- T = QualType();
- continue;
- }
- // Retrieve the parent of an enumeration type.
- if (const EnumType *EnumT = T->getAs<EnumType>()) {
- // FIXME: Forward-declared enums require a TSK_ExplicitSpecialization
- // check here.
- EnumDecl *Enum = EnumT->getDecl();
- // Get to the parent type.
- if (TypeDecl *Parent = dyn_cast<TypeDecl>(Enum->getParent()))
- T = Context.getTypeDeclType(Parent);
- else
- T = QualType();
- continue;
- }
- T = QualType();
- }
- // Reverse the nested types list, since we want to traverse from the outermost
- // to the innermost while checking template-parameter-lists.
- std::reverse(NestedTypes.begin(), NestedTypes.end());
- // C++0x [temp.expl.spec]p17:
- // A member or a member template may be nested within many
- // enclosing class templates. In an explicit specialization for
- // such a member, the member declaration shall be preceded by a
- // template<> for each enclosing class template that is
- // explicitly specialized.
- bool SawNonEmptyTemplateParameterList = false;
- auto CheckExplicitSpecialization = [&](SourceRange Range, bool Recovery) {
- if (SawNonEmptyTemplateParameterList) {
- if (!SuppressDiagnostic)
- Diag(DeclLoc, diag::err_specialize_member_of_template)
- << !Recovery << Range;
- Invalid = true;
- IsMemberSpecialization = false;
- return true;
- }
- return false;
- };
- auto DiagnoseMissingExplicitSpecialization = [&] (SourceRange Range) {
- // Check that we can have an explicit specialization here.
- if (CheckExplicitSpecialization(Range, true))
- return true;
- // We don't have a template header, but we should.
- SourceLocation ExpectedTemplateLoc;
- if (!ParamLists.empty())
- ExpectedTemplateLoc = ParamLists[0]->getTemplateLoc();
- else
- ExpectedTemplateLoc = DeclStartLoc;
- if (!SuppressDiagnostic)
- Diag(DeclLoc, diag::err_template_spec_needs_header)
- << Range
- << FixItHint::CreateInsertion(ExpectedTemplateLoc, "template<> ");
- return false;
- };
- unsigned ParamIdx = 0;
- for (unsigned TypeIdx = 0, NumTypes = NestedTypes.size(); TypeIdx != NumTypes;
- ++TypeIdx) {
- T = NestedTypes[TypeIdx];
- // Whether we expect a 'template<>' header.
- bool NeedEmptyTemplateHeader = false;
- // Whether we expect a template header with parameters.
- bool NeedNonemptyTemplateHeader = false;
- // For a dependent type, the set of template parameters that we
- // expect to see.
- TemplateParameterList *ExpectedTemplateParams = nullptr;
- // C++0x [temp.expl.spec]p15:
- // A member or a member template may be nested within many enclosing
- // class templates. In an explicit specialization for such a member, the
- // member declaration shall be preceded by a template<> for each
- // enclosing class template that is explicitly specialized.
- if (CXXRecordDecl *Record = T->getAsCXXRecordDecl()) {
- if (ClassTemplatePartialSpecializationDecl *Partial
- = dyn_cast<ClassTemplatePartialSpecializationDecl>(Record)) {
- ExpectedTemplateParams = Partial->getTemplateParameters();
- NeedNonemptyTemplateHeader = true;
- } else if (Record->isDependentType()) {
- if (Record->getDescribedClassTemplate()) {
- ExpectedTemplateParams = Record->getDescribedClassTemplate()
- ->getTemplateParameters();
- NeedNonemptyTemplateHeader = true;
- }
- } else if (ClassTemplateSpecializationDecl *Spec
- = dyn_cast<ClassTemplateSpecializationDecl>(Record)) {
- // C++0x [temp.expl.spec]p4:
- // Members of an explicitly specialized class template are defined
- // in the same manner as members of normal classes, and not using
- // the template<> syntax.
- if (Spec->getSpecializationKind() != TSK_ExplicitSpecialization)
- NeedEmptyTemplateHeader = true;
- else
- continue;
- } else if (Record->getTemplateSpecializationKind()) {
- if (Record->getTemplateSpecializationKind()
- != TSK_ExplicitSpecialization &&
- TypeIdx == NumTypes - 1)
- IsMemberSpecialization = true;
- continue;
- }
- } else if (const TemplateSpecializationType *TST
- = T->getAs<TemplateSpecializationType>()) {
- if (TemplateDecl *Template = TST->getTemplateName().getAsTemplateDecl()) {
- ExpectedTemplateParams = Template->getTemplateParameters();
- NeedNonemptyTemplateHeader = true;
- }
- } else if (T->getAs<DependentTemplateSpecializationType>()) {
- // FIXME: We actually could/should check the template arguments here
- // against the corresponding template parameter list.
- NeedNonemptyTemplateHeader = false;
- }
- // C++ [temp.expl.spec]p16:
- // In an explicit specialization declaration for a member of a class
- // template or a member template that ap- pears in namespace scope, the
- // member template and some of its enclosing class templates may remain
- // unspecialized, except that the declaration shall not explicitly
- // specialize a class member template if its en- closing class templates
- // are not explicitly specialized as well.
- if (ParamIdx < ParamLists.size()) {
- if (ParamLists[ParamIdx]->size() == 0) {
- if (CheckExplicitSpecialization(ParamLists[ParamIdx]->getSourceRange(),
- false))
- return nullptr;
- } else
- SawNonEmptyTemplateParameterList = true;
- }
- if (NeedEmptyTemplateHeader) {
- // If we're on the last of the types, and we need a 'template<>' header
- // here, then it's a member specialization.
- if (TypeIdx == NumTypes - 1)
- IsMemberSpecialization = true;
- if (ParamIdx < ParamLists.size()) {
- if (ParamLists[ParamIdx]->size() > 0) {
- // The header has template parameters when it shouldn't. Complain.
- if (!SuppressDiagnostic)
- Diag(ParamLists[ParamIdx]->getTemplateLoc(),
- diag::err_template_param_list_matches_nontemplate)
- << T
- << SourceRange(ParamLists[ParamIdx]->getLAngleLoc(),
- ParamLists[ParamIdx]->getRAngleLoc())
- << getRangeOfTypeInNestedNameSpecifier(Context, T, SS);
- Invalid = true;
- return nullptr;
- }
- // Consume this template header.
- ++ParamIdx;
- continue;
- }
- if (!IsFriend)
- if (DiagnoseMissingExplicitSpecialization(
- getRangeOfTypeInNestedNameSpecifier(Context, T, SS)))
- return nullptr;
- continue;
- }
- if (NeedNonemptyTemplateHeader) {
- // In friend declarations we can have template-ids which don't
- // depend on the corresponding template parameter lists. But
- // assume that empty parameter lists are supposed to match this
- // template-id.
- if (IsFriend && T->isDependentType()) {
- if (ParamIdx < ParamLists.size() &&
- DependsOnTemplateParameters(T, ParamLists[ParamIdx]))
- ExpectedTemplateParams = nullptr;
- else
- continue;
- }
- if (ParamIdx < ParamLists.size()) {
- // Check the template parameter list, if we can.
- if (ExpectedTemplateParams &&
- !TemplateParameterListsAreEqual(ParamLists[ParamIdx],
- ExpectedTemplateParams,
- !SuppressDiagnostic, TPL_TemplateMatch))
- Invalid = true;
- if (!Invalid &&
- CheckTemplateParameterList(ParamLists[ParamIdx], nullptr,
- TPC_ClassTemplateMember))
- Invalid = true;
- ++ParamIdx;
- continue;
- }
- if (!SuppressDiagnostic)
- Diag(DeclLoc, diag::err_template_spec_needs_template_parameters)
- << T
- << getRangeOfTypeInNestedNameSpecifier(Context, T, SS);
- Invalid = true;
- continue;
- }
- }
- // If there were at least as many template-ids as there were template
- // parameter lists, then there are no template parameter lists remaining for
- // the declaration itself.
- if (ParamIdx >= ParamLists.size()) {
- if (TemplateId && !IsFriend) {
- // We don't have a template header for the declaration itself, but we
- // should.
- DiagnoseMissingExplicitSpecialization(SourceRange(TemplateId->LAngleLoc,
- TemplateId->RAngleLoc));
- // Fabricate an empty template parameter list for the invented header.
- return TemplateParameterList::Create(Context, SourceLocation(),
- SourceLocation(), std::nullopt,
- SourceLocation(), nullptr);
- }
- return nullptr;
- }
- // If there were too many template parameter lists, complain about that now.
- if (ParamIdx < ParamLists.size() - 1) {
- bool HasAnyExplicitSpecHeader = false;
- bool AllExplicitSpecHeaders = true;
- for (unsigned I = ParamIdx, E = ParamLists.size() - 1; I != E; ++I) {
- if (ParamLists[I]->size() == 0)
- HasAnyExplicitSpecHeader = true;
- else
- AllExplicitSpecHeaders = false;
- }
- if (!SuppressDiagnostic)
- Diag(ParamLists[ParamIdx]->getTemplateLoc(),
- AllExplicitSpecHeaders ? diag::warn_template_spec_extra_headers
- : diag::err_template_spec_extra_headers)
- << SourceRange(ParamLists[ParamIdx]->getTemplateLoc(),
- ParamLists[ParamLists.size() - 2]->getRAngleLoc());
- // If there was a specialization somewhere, such that 'template<>' is
- // not required, and there were any 'template<>' headers, note where the
- // specialization occurred.
- if (ExplicitSpecLoc.isValid() && HasAnyExplicitSpecHeader &&
- !SuppressDiagnostic)
- Diag(ExplicitSpecLoc,
- diag::note_explicit_template_spec_does_not_need_header)
- << NestedTypes.back();
- // We have a template parameter list with no corresponding scope, which
- // means that the resulting template declaration can't be instantiated
- // properly (we'll end up with dependent nodes when we shouldn't).
- if (!AllExplicitSpecHeaders)
- Invalid = true;
- }
- // C++ [temp.expl.spec]p16:
- // In an explicit specialization declaration for a member of a class
- // template or a member template that ap- pears in namespace scope, the
- // member template and some of its enclosing class templates may remain
- // unspecialized, except that the declaration shall not explicitly
- // specialize a class member template if its en- closing class templates
- // are not explicitly specialized as well.
- if (ParamLists.back()->size() == 0 &&
- CheckExplicitSpecialization(ParamLists[ParamIdx]->getSourceRange(),
- false))
- return nullptr;
- // Return the last template parameter list, which corresponds to the
- // entity being declared.
- return ParamLists.back();
- }
- void Sema::NoteAllFoundTemplates(TemplateName Name) {
- if (TemplateDecl *Template = Name.getAsTemplateDecl()) {
- Diag(Template->getLocation(), diag::note_template_declared_here)
- << (isa<FunctionTemplateDecl>(Template)
- ? 0
- : isa<ClassTemplateDecl>(Template)
- ? 1
- : isa<VarTemplateDecl>(Template)
- ? 2
- : isa<TypeAliasTemplateDecl>(Template) ? 3 : 4)
- << Template->getDeclName();
- return;
- }
- if (OverloadedTemplateStorage *OST = Name.getAsOverloadedTemplate()) {
- for (OverloadedTemplateStorage::iterator I = OST->begin(),
- IEnd = OST->end();
- I != IEnd; ++I)
- Diag((*I)->getLocation(), diag::note_template_declared_here)
- << 0 << (*I)->getDeclName();
- return;
- }
- }
- static QualType
- checkBuiltinTemplateIdType(Sema &SemaRef, BuiltinTemplateDecl *BTD,
- ArrayRef<TemplateArgument> Converted,
- SourceLocation TemplateLoc,
- TemplateArgumentListInfo &TemplateArgs) {
- ASTContext &Context = SemaRef.getASTContext();
- switch (BTD->getBuiltinTemplateKind()) {
- case BTK__make_integer_seq: {
- // Specializations of __make_integer_seq<S, T, N> are treated like
- // S<T, 0, ..., N-1>.
- QualType OrigType = Converted[1].getAsType();
- // C++14 [inteseq.intseq]p1:
- // T shall be an integer type.
- if (!OrigType->isDependentType() && !OrigType->isIntegralType(Context)) {
- SemaRef.Diag(TemplateArgs[1].getLocation(),
- diag::err_integer_sequence_integral_element_type);
- return QualType();
- }
- TemplateArgument NumArgsArg = Converted[2];
- if (NumArgsArg.isDependent())
- return Context.getCanonicalTemplateSpecializationType(TemplateName(BTD),
- Converted);
- TemplateArgumentListInfo SyntheticTemplateArgs;
- // The type argument, wrapped in substitution sugar, gets reused as the
- // first template argument in the synthetic template argument list.
- SyntheticTemplateArgs.addArgument(
- TemplateArgumentLoc(TemplateArgument(OrigType),
- SemaRef.Context.getTrivialTypeSourceInfo(
- OrigType, TemplateArgs[1].getLocation())));
- if (llvm::APSInt NumArgs = NumArgsArg.getAsIntegral(); NumArgs >= 0) {
- // Expand N into 0 ... N-1.
- for (llvm::APSInt I(NumArgs.getBitWidth(), NumArgs.isUnsigned());
- I < NumArgs; ++I) {
- TemplateArgument TA(Context, I, OrigType);
- SyntheticTemplateArgs.addArgument(SemaRef.getTrivialTemplateArgumentLoc(
- TA, OrigType, TemplateArgs[2].getLocation()));
- }
- } else {
- // C++14 [inteseq.make]p1:
- // If N is negative the program is ill-formed.
- SemaRef.Diag(TemplateArgs[2].getLocation(),
- diag::err_integer_sequence_negative_length);
- return QualType();
- }
- // The first template argument will be reused as the template decl that
- // our synthetic template arguments will be applied to.
- return SemaRef.CheckTemplateIdType(Converted[0].getAsTemplate(),
- TemplateLoc, SyntheticTemplateArgs);
- }
- case BTK__type_pack_element:
- // Specializations of
- // __type_pack_element<Index, T_1, ..., T_N>
- // are treated like T_Index.
- assert(Converted.size() == 2 &&
- "__type_pack_element should be given an index and a parameter pack");
- TemplateArgument IndexArg = Converted[0], Ts = Converted[1];
- if (IndexArg.isDependent() || Ts.isDependent())
- return Context.getCanonicalTemplateSpecializationType(TemplateName(BTD),
- Converted);
- llvm::APSInt Index = IndexArg.getAsIntegral();
- assert(Index >= 0 && "the index used with __type_pack_element should be of "
- "type std::size_t, and hence be non-negative");
- // If the Index is out of bounds, the program is ill-formed.
- if (Index >= Ts.pack_size()) {
- SemaRef.Diag(TemplateArgs[0].getLocation(),
- diag::err_type_pack_element_out_of_bounds);
- return QualType();
- }
- // We simply return the type at index `Index`.
- int64_t N = Index.getExtValue();
- return Ts.getPackAsArray()[N].getAsType();
- }
- llvm_unreachable("unexpected BuiltinTemplateDecl!");
- }
- /// Determine whether this alias template is "enable_if_t".
- /// libc++ >=14 uses "__enable_if_t" in C++11 mode.
- static bool isEnableIfAliasTemplate(TypeAliasTemplateDecl *AliasTemplate) {
- return AliasTemplate->getName().equals("enable_if_t") ||
- AliasTemplate->getName().equals("__enable_if_t");
- }
- /// Collect all of the separable terms in the given condition, which
- /// might be a conjunction.
- ///
- /// FIXME: The right answer is to convert the logical expression into
- /// disjunctive normal form, so we can find the first failed term
- /// within each possible clause.
- static void collectConjunctionTerms(Expr *Clause,
- SmallVectorImpl<Expr *> &Terms) {
- if (auto BinOp = dyn_cast<BinaryOperator>(Clause->IgnoreParenImpCasts())) {
- if (BinOp->getOpcode() == BO_LAnd) {
- collectConjunctionTerms(BinOp->getLHS(), Terms);
- collectConjunctionTerms(BinOp->getRHS(), Terms);
- return;
- }
- }
- Terms.push_back(Clause);
- }
- // The ranges-v3 library uses an odd pattern of a top-level "||" with
- // a left-hand side that is value-dependent but never true. Identify
- // the idiom and ignore that term.
- static Expr *lookThroughRangesV3Condition(Preprocessor &PP, Expr *Cond) {
- // Top-level '||'.
- auto *BinOp = dyn_cast<BinaryOperator>(Cond->IgnoreParenImpCasts());
- if (!BinOp) return Cond;
- if (BinOp->getOpcode() != BO_LOr) return Cond;
- // With an inner '==' that has a literal on the right-hand side.
- Expr *LHS = BinOp->getLHS();
- auto *InnerBinOp = dyn_cast<BinaryOperator>(LHS->IgnoreParenImpCasts());
- if (!InnerBinOp) return Cond;
- if (InnerBinOp->getOpcode() != BO_EQ ||
- !isa<IntegerLiteral>(InnerBinOp->getRHS()))
- return Cond;
- // If the inner binary operation came from a macro expansion named
- // CONCEPT_REQUIRES or CONCEPT_REQUIRES_, return the right-hand side
- // of the '||', which is the real, user-provided condition.
- SourceLocation Loc = InnerBinOp->getExprLoc();
- if (!Loc.isMacroID()) return Cond;
- StringRef MacroName = PP.getImmediateMacroName(Loc);
- if (MacroName == "CONCEPT_REQUIRES" || MacroName == "CONCEPT_REQUIRES_")
- return BinOp->getRHS();
- return Cond;
- }
- namespace {
- // A PrinterHelper that prints more helpful diagnostics for some sub-expressions
- // within failing boolean expression, such as substituting template parameters
- // for actual types.
- class FailedBooleanConditionPrinterHelper : public PrinterHelper {
- public:
- explicit FailedBooleanConditionPrinterHelper(const PrintingPolicy &P)
- : Policy(P) {}
- bool handledStmt(Stmt *E, raw_ostream &OS) override {
- const auto *DR = dyn_cast<DeclRefExpr>(E);
- if (DR && DR->getQualifier()) {
- // If this is a qualified name, expand the template arguments in nested
- // qualifiers.
- DR->getQualifier()->print(OS, Policy, true);
- // Then print the decl itself.
- const ValueDecl *VD = DR->getDecl();
- OS << VD->getName();
- if (const auto *IV = dyn_cast<VarTemplateSpecializationDecl>(VD)) {
- // This is a template variable, print the expanded template arguments.
- printTemplateArgumentList(
- OS, IV->getTemplateArgs().asArray(), Policy,
- IV->getSpecializedTemplate()->getTemplateParameters());
- }
- return true;
- }
- return false;
- }
- private:
- const PrintingPolicy Policy;
- };
- } // end anonymous namespace
- std::pair<Expr *, std::string>
- Sema::findFailedBooleanCondition(Expr *Cond) {
- Cond = lookThroughRangesV3Condition(PP, Cond);
- // Separate out all of the terms in a conjunction.
- SmallVector<Expr *, 4> Terms;
- collectConjunctionTerms(Cond, Terms);
- // Determine which term failed.
- Expr *FailedCond = nullptr;
- for (Expr *Term : Terms) {
- Expr *TermAsWritten = Term->IgnoreParenImpCasts();
- // Literals are uninteresting.
- if (isa<CXXBoolLiteralExpr>(TermAsWritten) ||
- isa<IntegerLiteral>(TermAsWritten))
- continue;
- // The initialization of the parameter from the argument is
- // a constant-evaluated context.
- EnterExpressionEvaluationContext ConstantEvaluated(
- *this, Sema::ExpressionEvaluationContext::ConstantEvaluated);
- bool Succeeded;
- if (Term->EvaluateAsBooleanCondition(Succeeded, Context) &&
- !Succeeded) {
- FailedCond = TermAsWritten;
- break;
- }
- }
- if (!FailedCond)
- FailedCond = Cond->IgnoreParenImpCasts();
- std::string Description;
- {
- llvm::raw_string_ostream Out(Description);
- PrintingPolicy Policy = getPrintingPolicy();
- Policy.PrintCanonicalTypes = true;
- FailedBooleanConditionPrinterHelper Helper(Policy);
- FailedCond->printPretty(Out, &Helper, Policy, 0, "\n", nullptr);
- }
- return { FailedCond, Description };
- }
- QualType Sema::CheckTemplateIdType(TemplateName Name,
- SourceLocation TemplateLoc,
- TemplateArgumentListInfo &TemplateArgs) {
- DependentTemplateName *DTN
- = Name.getUnderlying().getAsDependentTemplateName();
- if (DTN && DTN->isIdentifier())
- // When building a template-id where the template-name is dependent,
- // assume the template is a type template. Either our assumption is
- // correct, or the code is ill-formed and will be diagnosed when the
- // dependent name is substituted.
- return Context.getDependentTemplateSpecializationType(
- ETK_None, DTN->getQualifier(), DTN->getIdentifier(),
- TemplateArgs.arguments());
- if (Name.getAsAssumedTemplateName() &&
- resolveAssumedTemplateNameAsType(/*Scope*/nullptr, Name, TemplateLoc))
- return QualType();
- TemplateDecl *Template = Name.getAsTemplateDecl();
- if (!Template || isa<FunctionTemplateDecl>(Template) ||
- isa<VarTemplateDecl>(Template) || isa<ConceptDecl>(Template)) {
- // We might have a substituted template template parameter pack. If so,
- // build a template specialization type for it.
- if (Name.getAsSubstTemplateTemplateParmPack())
- return Context.getTemplateSpecializationType(Name,
- TemplateArgs.arguments());
- Diag(TemplateLoc, diag::err_template_id_not_a_type)
- << Name;
- NoteAllFoundTemplates(Name);
- return QualType();
- }
- // Check that the template argument list is well-formed for this
- // template.
- SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(Template, TemplateLoc, TemplateArgs, false,
- SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/true))
- return QualType();
- QualType CanonType;
- if (TypeAliasTemplateDecl *AliasTemplate =
- dyn_cast<TypeAliasTemplateDecl>(Template)) {
- // Find the canonical type for this type alias template specialization.
- TypeAliasDecl *Pattern = AliasTemplate->getTemplatedDecl();
- if (Pattern->isInvalidDecl())
- return QualType();
- // Only substitute for the innermost template argument list.
- MultiLevelTemplateArgumentList TemplateArgLists;
- TemplateArgLists.addOuterTemplateArguments(Template, CanonicalConverted,
- /*Final=*/false);
- TemplateArgLists.addOuterRetainedLevels(
- AliasTemplate->getTemplateParameters()->getDepth());
- LocalInstantiationScope Scope(*this);
- InstantiatingTemplate Inst(*this, TemplateLoc, Template);
- if (Inst.isInvalid())
- return QualType();
- CanonType = SubstType(Pattern->getUnderlyingType(),
- TemplateArgLists, AliasTemplate->getLocation(),
- AliasTemplate->getDeclName());
- if (CanonType.isNull()) {
- // If this was enable_if and we failed to find the nested type
- // within enable_if in a SFINAE context, dig out the specific
- // enable_if condition that failed and present that instead.
- if (isEnableIfAliasTemplate(AliasTemplate)) {
- if (auto DeductionInfo = isSFINAEContext()) {
- if (*DeductionInfo &&
- (*DeductionInfo)->hasSFINAEDiagnostic() &&
- (*DeductionInfo)->peekSFINAEDiagnostic().second.getDiagID() ==
- diag::err_typename_nested_not_found_enable_if &&
- TemplateArgs[0].getArgument().getKind()
- == TemplateArgument::Expression) {
- Expr *FailedCond;
- std::string FailedDescription;
- std::tie(FailedCond, FailedDescription) =
- findFailedBooleanCondition(TemplateArgs[0].getSourceExpression());
- // Remove the old SFINAE diagnostic.
- PartialDiagnosticAt OldDiag =
- {SourceLocation(), PartialDiagnostic::NullDiagnostic()};
- (*DeductionInfo)->takeSFINAEDiagnostic(OldDiag);
- // Add a new SFINAE diagnostic specifying which condition
- // failed.
- (*DeductionInfo)->addSFINAEDiagnostic(
- OldDiag.first,
- PDiag(diag::err_typename_nested_not_found_requirement)
- << FailedDescription
- << FailedCond->getSourceRange());
- }
- }
- }
- return QualType();
- }
- } else if (auto *BTD = dyn_cast<BuiltinTemplateDecl>(Template)) {
- CanonType = checkBuiltinTemplateIdType(*this, BTD, SugaredConverted,
- TemplateLoc, TemplateArgs);
- } else if (Name.isDependent() ||
- TemplateSpecializationType::anyDependentTemplateArguments(
- TemplateArgs, CanonicalConverted)) {
- // This class template specialization is a dependent
- // type. Therefore, its canonical type is another class template
- // specialization type that contains all of the converted
- // arguments in canonical form. This ensures that, e.g., A<T> and
- // A<T, T> have identical types when A is declared as:
- //
- // template<typename T, typename U = T> struct A;
- CanonType = Context.getCanonicalTemplateSpecializationType(
- Name, CanonicalConverted);
- // This might work out to be a current instantiation, in which
- // case the canonical type needs to be the InjectedClassNameType.
- //
- // TODO: in theory this could be a simple hashtable lookup; most
- // changes to CurContext don't change the set of current
- // instantiations.
- if (isa<ClassTemplateDecl>(Template)) {
- for (DeclContext *Ctx = CurContext; Ctx; Ctx = Ctx->getLookupParent()) {
- // If we get out to a namespace, we're done.
- if (Ctx->isFileContext()) break;
- // If this isn't a record, keep looking.
- CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(Ctx);
- if (!Record) continue;
- // Look for one of the two cases with InjectedClassNameTypes
- // and check whether it's the same template.
- if (!isa<ClassTemplatePartialSpecializationDecl>(Record) &&
- !Record->getDescribedClassTemplate())
- continue;
- // Fetch the injected class name type and check whether its
- // injected type is equal to the type we just built.
- QualType ICNT = Context.getTypeDeclType(Record);
- QualType Injected = cast<InjectedClassNameType>(ICNT)
- ->getInjectedSpecializationType();
- if (CanonType != Injected->getCanonicalTypeInternal())
- continue;
- // If so, the canonical type of this TST is the injected
- // class name type of the record we just found.
- assert(ICNT.isCanonical());
- CanonType = ICNT;
- break;
- }
- }
- } else if (ClassTemplateDecl *ClassTemplate =
- dyn_cast<ClassTemplateDecl>(Template)) {
- // Find the class template specialization declaration that
- // corresponds to these arguments.
- void *InsertPos = nullptr;
- ClassTemplateSpecializationDecl *Decl =
- ClassTemplate->findSpecialization(CanonicalConverted, InsertPos);
- if (!Decl) {
- // This is the first time we have referenced this class template
- // specialization. Create the canonical declaration and add it to
- // the set of specializations.
- Decl = ClassTemplateSpecializationDecl::Create(
- Context, ClassTemplate->getTemplatedDecl()->getTagKind(),
- ClassTemplate->getDeclContext(),
- ClassTemplate->getTemplatedDecl()->getBeginLoc(),
- ClassTemplate->getLocation(), ClassTemplate, CanonicalConverted,
- nullptr);
- ClassTemplate->AddSpecialization(Decl, InsertPos);
- if (ClassTemplate->isOutOfLine())
- Decl->setLexicalDeclContext(ClassTemplate->getLexicalDeclContext());
- }
- if (Decl->getSpecializationKind() == TSK_Undeclared &&
- ClassTemplate->getTemplatedDecl()->hasAttrs()) {
- InstantiatingTemplate Inst(*this, TemplateLoc, Decl);
- if (!Inst.isInvalid()) {
- MultiLevelTemplateArgumentList TemplateArgLists(Template,
- CanonicalConverted,
- /*Final=*/false);
- InstantiateAttrsForDecl(TemplateArgLists,
- ClassTemplate->getTemplatedDecl(), Decl);
- }
- }
- // Diagnose uses of this specialization.
- (void)DiagnoseUseOfDecl(Decl, TemplateLoc);
- CanonType = Context.getTypeDeclType(Decl);
- assert(isa<RecordType>(CanonType) &&
- "type of non-dependent specialization is not a RecordType");
- } else {
- llvm_unreachable("Unhandled template kind");
- }
- // Build the fully-sugared type for this class template
- // specialization, which refers back to the class template
- // specialization we created or found.
- return Context.getTemplateSpecializationType(Name, TemplateArgs.arguments(),
- CanonType);
- }
- void Sema::ActOnUndeclaredTypeTemplateName(Scope *S, TemplateTy &ParsedName,
- TemplateNameKind &TNK,
- SourceLocation NameLoc,
- IdentifierInfo *&II) {
- assert(TNK == TNK_Undeclared_template && "not an undeclared template name");
- TemplateName Name = ParsedName.get();
- auto *ATN = Name.getAsAssumedTemplateName();
- assert(ATN && "not an assumed template name");
- II = ATN->getDeclName().getAsIdentifierInfo();
- if (!resolveAssumedTemplateNameAsType(S, Name, NameLoc, /*Diagnose*/false)) {
- // Resolved to a type template name.
- ParsedName = TemplateTy::make(Name);
- TNK = TNK_Type_template;
- }
- }
- bool Sema::resolveAssumedTemplateNameAsType(Scope *S, TemplateName &Name,
- SourceLocation NameLoc,
- bool Diagnose) {
- // We assumed this undeclared identifier to be an (ADL-only) function
- // template name, but it was used in a context where a type was required.
- // Try to typo-correct it now.
- AssumedTemplateStorage *ATN = Name.getAsAssumedTemplateName();
- assert(ATN && "not an assumed template name");
- LookupResult R(*this, ATN->getDeclName(), NameLoc, LookupOrdinaryName);
- struct CandidateCallback : CorrectionCandidateCallback {
- bool ValidateCandidate(const TypoCorrection &TC) override {
- return TC.getCorrectionDecl() &&
- getAsTypeTemplateDecl(TC.getCorrectionDecl());
- }
- std::unique_ptr<CorrectionCandidateCallback> clone() override {
- return std::make_unique<CandidateCallback>(*this);
- }
- } FilterCCC;
- TypoCorrection Corrected =
- CorrectTypo(R.getLookupNameInfo(), R.getLookupKind(), S, nullptr,
- FilterCCC, CTK_ErrorRecovery);
- if (Corrected && Corrected.getFoundDecl()) {
- diagnoseTypo(Corrected, PDiag(diag::err_no_template_suggest)
- << ATN->getDeclName());
- Name = TemplateName(Corrected.getCorrectionDeclAs<TemplateDecl>());
- return false;
- }
- if (Diagnose)
- Diag(R.getNameLoc(), diag::err_no_template) << R.getLookupName();
- return true;
- }
- TypeResult Sema::ActOnTemplateIdType(
- Scope *S, CXXScopeSpec &SS, SourceLocation TemplateKWLoc,
- TemplateTy TemplateD, IdentifierInfo *TemplateII,
- SourceLocation TemplateIILoc, SourceLocation LAngleLoc,
- ASTTemplateArgsPtr TemplateArgsIn, SourceLocation RAngleLoc,
- bool IsCtorOrDtorName, bool IsClassName,
- ImplicitTypenameContext AllowImplicitTypename) {
- if (SS.isInvalid())
- return true;
- if (!IsCtorOrDtorName && !IsClassName && SS.isSet()) {
- DeclContext *LookupCtx = computeDeclContext(SS, /*EnteringContext*/false);
- // C++ [temp.res]p3:
- // A qualified-id that refers to a type and in which the
- // nested-name-specifier depends on a template-parameter (14.6.2)
- // shall be prefixed by the keyword typename to indicate that the
- // qualified-id denotes a type, forming an
- // elaborated-type-specifier (7.1.5.3).
- if (!LookupCtx && isDependentScopeSpecifier(SS)) {
- // C++2a relaxes some of those restrictions in [temp.res]p5.
- if (AllowImplicitTypename == ImplicitTypenameContext::Yes) {
- if (getLangOpts().CPlusPlus20)
- Diag(SS.getBeginLoc(), diag::warn_cxx17_compat_implicit_typename);
- else
- Diag(SS.getBeginLoc(), diag::ext_implicit_typename)
- << SS.getScopeRep() << TemplateII->getName()
- << FixItHint::CreateInsertion(SS.getBeginLoc(), "typename ");
- } else
- Diag(SS.getBeginLoc(), diag::err_typename_missing_template)
- << SS.getScopeRep() << TemplateII->getName();
- // FIXME: This is not quite correct recovery as we don't transform SS
- // into the corresponding dependent form (and we don't diagnose missing
- // 'template' keywords within SS as a result).
- return ActOnTypenameType(nullptr, SourceLocation(), SS, TemplateKWLoc,
- TemplateD, TemplateII, TemplateIILoc, LAngleLoc,
- TemplateArgsIn, RAngleLoc);
- }
- // Per C++ [class.qual]p2, if the template-id was an injected-class-name,
- // it's not actually allowed to be used as a type in most cases. Because
- // we annotate it before we know whether it's valid, we have to check for
- // this case here.
- auto *LookupRD = dyn_cast_or_null<CXXRecordDecl>(LookupCtx);
- if (LookupRD && LookupRD->getIdentifier() == TemplateII) {
- Diag(TemplateIILoc,
- TemplateKWLoc.isInvalid()
- ? diag::err_out_of_line_qualified_id_type_names_constructor
- : diag::ext_out_of_line_qualified_id_type_names_constructor)
- << TemplateII << 0 /*injected-class-name used as template name*/
- << 1 /*if any keyword was present, it was 'template'*/;
- }
- }
- TemplateName Template = TemplateD.get();
- if (Template.getAsAssumedTemplateName() &&
- resolveAssumedTemplateNameAsType(S, Template, TemplateIILoc))
- return true;
- // Translate the parser's template argument list in our AST format.
- TemplateArgumentListInfo TemplateArgs(LAngleLoc, RAngleLoc);
- translateTemplateArguments(TemplateArgsIn, TemplateArgs);
- if (DependentTemplateName *DTN = Template.getAsDependentTemplateName()) {
- assert(SS.getScopeRep() == DTN->getQualifier());
- QualType T = Context.getDependentTemplateSpecializationType(
- ETK_None, DTN->getQualifier(), DTN->getIdentifier(),
- TemplateArgs.arguments());
- // Build type-source information.
- TypeLocBuilder TLB;
- DependentTemplateSpecializationTypeLoc SpecTL
- = TLB.push<DependentTemplateSpecializationTypeLoc>(T);
- SpecTL.setElaboratedKeywordLoc(SourceLocation());
- SpecTL.setQualifierLoc(SS.getWithLocInContext(Context));
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateIILoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned I = 0, N = SpecTL.getNumArgs(); I != N; ++I)
- SpecTL.setArgLocInfo(I, TemplateArgs[I].getLocInfo());
- return CreateParsedType(T, TLB.getTypeSourceInfo(Context, T));
- }
- QualType SpecTy = CheckTemplateIdType(Template, TemplateIILoc, TemplateArgs);
- if (SpecTy.isNull())
- return true;
- // Build type-source information.
- TypeLocBuilder TLB;
- TemplateSpecializationTypeLoc SpecTL =
- TLB.push<TemplateSpecializationTypeLoc>(SpecTy);
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateIILoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned i = 0, e = SpecTL.getNumArgs(); i != e; ++i)
- SpecTL.setArgLocInfo(i, TemplateArgs[i].getLocInfo());
- // Create an elaborated-type-specifier containing the nested-name-specifier.
- QualType ElTy = getElaboratedType(
- ETK_None, !IsCtorOrDtorName ? SS : CXXScopeSpec(), SpecTy);
- ElaboratedTypeLoc ElabTL = TLB.push<ElaboratedTypeLoc>(ElTy);
- ElabTL.setElaboratedKeywordLoc(SourceLocation());
- if (!ElabTL.isEmpty())
- ElabTL.setQualifierLoc(SS.getWithLocInContext(Context));
- return CreateParsedType(ElTy, TLB.getTypeSourceInfo(Context, ElTy));
- }
- TypeResult Sema::ActOnTagTemplateIdType(TagUseKind TUK,
- TypeSpecifierType TagSpec,
- SourceLocation TagLoc,
- CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- TemplateTy TemplateD,
- SourceLocation TemplateLoc,
- SourceLocation LAngleLoc,
- ASTTemplateArgsPtr TemplateArgsIn,
- SourceLocation RAngleLoc) {
- if (SS.isInvalid())
- return TypeResult(true);
- TemplateName Template = TemplateD.get();
- // Translate the parser's template argument list in our AST format.
- TemplateArgumentListInfo TemplateArgs(LAngleLoc, RAngleLoc);
- translateTemplateArguments(TemplateArgsIn, TemplateArgs);
- // Determine the tag kind
- TagTypeKind TagKind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- ElaboratedTypeKeyword Keyword
- = TypeWithKeyword::getKeywordForTagTypeKind(TagKind);
- if (DependentTemplateName *DTN = Template.getAsDependentTemplateName()) {
- assert(SS.getScopeRep() == DTN->getQualifier());
- QualType T = Context.getDependentTemplateSpecializationType(
- Keyword, DTN->getQualifier(), DTN->getIdentifier(),
- TemplateArgs.arguments());
- // Build type-source information.
- TypeLocBuilder TLB;
- DependentTemplateSpecializationTypeLoc SpecTL
- = TLB.push<DependentTemplateSpecializationTypeLoc>(T);
- SpecTL.setElaboratedKeywordLoc(TagLoc);
- SpecTL.setQualifierLoc(SS.getWithLocInContext(Context));
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateLoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned I = 0, N = SpecTL.getNumArgs(); I != N; ++I)
- SpecTL.setArgLocInfo(I, TemplateArgs[I].getLocInfo());
- return CreateParsedType(T, TLB.getTypeSourceInfo(Context, T));
- }
- if (TypeAliasTemplateDecl *TAT =
- dyn_cast_or_null<TypeAliasTemplateDecl>(Template.getAsTemplateDecl())) {
- // C++0x [dcl.type.elab]p2:
- // If the identifier resolves to a typedef-name or the simple-template-id
- // resolves to an alias template specialization, the
- // elaborated-type-specifier is ill-formed.
- Diag(TemplateLoc, diag::err_tag_reference_non_tag)
- << TAT << NTK_TypeAliasTemplate << TagKind;
- Diag(TAT->getLocation(), diag::note_declared_at);
- }
- QualType Result = CheckTemplateIdType(Template, TemplateLoc, TemplateArgs);
- if (Result.isNull())
- return TypeResult(true);
- // Check the tag kind
- if (const RecordType *RT = Result->getAs<RecordType>()) {
- RecordDecl *D = RT->getDecl();
- IdentifierInfo *Id = D->getIdentifier();
- assert(Id && "templated class must have an identifier");
- if (!isAcceptableTagRedeclaration(D, TagKind, TUK == TUK_Definition,
- TagLoc, Id)) {
- Diag(TagLoc, diag::err_use_with_wrong_tag)
- << Result
- << FixItHint::CreateReplacement(SourceRange(TagLoc), D->getKindName());
- Diag(D->getLocation(), diag::note_previous_use);
- }
- }
- // Provide source-location information for the template specialization.
- TypeLocBuilder TLB;
- TemplateSpecializationTypeLoc SpecTL
- = TLB.push<TemplateSpecializationTypeLoc>(Result);
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateLoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned i = 0, e = SpecTL.getNumArgs(); i != e; ++i)
- SpecTL.setArgLocInfo(i, TemplateArgs[i].getLocInfo());
- // Construct an elaborated type containing the nested-name-specifier (if any)
- // and tag keyword.
- Result = Context.getElaboratedType(Keyword, SS.getScopeRep(), Result);
- ElaboratedTypeLoc ElabTL = TLB.push<ElaboratedTypeLoc>(Result);
- ElabTL.setElaboratedKeywordLoc(TagLoc);
- ElabTL.setQualifierLoc(SS.getWithLocInContext(Context));
- return CreateParsedType(Result, TLB.getTypeSourceInfo(Context, Result));
- }
- static bool CheckTemplateSpecializationScope(Sema &S, NamedDecl *Specialized,
- NamedDecl *PrevDecl,
- SourceLocation Loc,
- bool IsPartialSpecialization);
- static TemplateSpecializationKind getTemplateSpecializationKind(Decl *D);
- static bool isTemplateArgumentTemplateParameter(
- const TemplateArgument &Arg, unsigned Depth, unsigned Index) {
- switch (Arg.getKind()) {
- case TemplateArgument::Null:
- case TemplateArgument::NullPtr:
- case TemplateArgument::Integral:
- case TemplateArgument::Declaration:
- case TemplateArgument::Pack:
- case TemplateArgument::TemplateExpansion:
- return false;
- case TemplateArgument::Type: {
- QualType Type = Arg.getAsType();
- const TemplateTypeParmType *TPT =
- Arg.getAsType()->getAs<TemplateTypeParmType>();
- return TPT && !Type.hasQualifiers() &&
- TPT->getDepth() == Depth && TPT->getIndex() == Index;
- }
- case TemplateArgument::Expression: {
- DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(Arg.getAsExpr());
- if (!DRE || !DRE->getDecl())
- return false;
- const NonTypeTemplateParmDecl *NTTP =
- dyn_cast<NonTypeTemplateParmDecl>(DRE->getDecl());
- return NTTP && NTTP->getDepth() == Depth && NTTP->getIndex() == Index;
- }
- case TemplateArgument::Template:
- const TemplateTemplateParmDecl *TTP =
- dyn_cast_or_null<TemplateTemplateParmDecl>(
- Arg.getAsTemplateOrTemplatePattern().getAsTemplateDecl());
- return TTP && TTP->getDepth() == Depth && TTP->getIndex() == Index;
- }
- llvm_unreachable("unexpected kind of template argument");
- }
- static bool isSameAsPrimaryTemplate(TemplateParameterList *Params,
- ArrayRef<TemplateArgument> Args) {
- if (Params->size() != Args.size())
- return false;
- unsigned Depth = Params->getDepth();
- for (unsigned I = 0, N = Args.size(); I != N; ++I) {
- TemplateArgument Arg = Args[I];
- // If the parameter is a pack expansion, the argument must be a pack
- // whose only element is a pack expansion.
- if (Params->getParam(I)->isParameterPack()) {
- if (Arg.getKind() != TemplateArgument::Pack || Arg.pack_size() != 1 ||
- !Arg.pack_begin()->isPackExpansion())
- return false;
- Arg = Arg.pack_begin()->getPackExpansionPattern();
- }
- if (!isTemplateArgumentTemplateParameter(Arg, Depth, I))
- return false;
- }
- return true;
- }
- template<typename PartialSpecDecl>
- static void checkMoreSpecializedThanPrimary(Sema &S, PartialSpecDecl *Partial) {
- if (Partial->getDeclContext()->isDependentContext())
- return;
- // FIXME: Get the TDK from deduction in order to provide better diagnostics
- // for non-substitution-failure issues?
- TemplateDeductionInfo Info(Partial->getLocation());
- if (S.isMoreSpecializedThanPrimary(Partial, Info))
- return;
- auto *Template = Partial->getSpecializedTemplate();
- S.Diag(Partial->getLocation(),
- diag::ext_partial_spec_not_more_specialized_than_primary)
- << isa<VarTemplateDecl>(Template);
- if (Info.hasSFINAEDiagnostic()) {
- PartialDiagnosticAt Diag = {SourceLocation(),
- PartialDiagnostic::NullDiagnostic()};
- Info.takeSFINAEDiagnostic(Diag);
- SmallString<128> SFINAEArgString;
- Diag.second.EmitToString(S.getDiagnostics(), SFINAEArgString);
- S.Diag(Diag.first,
- diag::note_partial_spec_not_more_specialized_than_primary)
- << SFINAEArgString;
- }
- S.Diag(Template->getLocation(), diag::note_template_decl_here);
- SmallVector<const Expr *, 3> PartialAC, TemplateAC;
- Template->getAssociatedConstraints(TemplateAC);
- Partial->getAssociatedConstraints(PartialAC);
- S.MaybeEmitAmbiguousAtomicConstraintsDiagnostic(Partial, PartialAC, Template,
- TemplateAC);
- }
- static void
- noteNonDeducibleParameters(Sema &S, TemplateParameterList *TemplateParams,
- const llvm::SmallBitVector &DeducibleParams) {
- for (unsigned I = 0, N = DeducibleParams.size(); I != N; ++I) {
- if (!DeducibleParams[I]) {
- NamedDecl *Param = TemplateParams->getParam(I);
- if (Param->getDeclName())
- S.Diag(Param->getLocation(), diag::note_non_deducible_parameter)
- << Param->getDeclName();
- else
- S.Diag(Param->getLocation(), diag::note_non_deducible_parameter)
- << "(anonymous)";
- }
- }
- }
- template<typename PartialSpecDecl>
- static void checkTemplatePartialSpecialization(Sema &S,
- PartialSpecDecl *Partial) {
- // C++1z [temp.class.spec]p8: (DR1495)
- // - The specialization shall be more specialized than the primary
- // template (14.5.5.2).
- checkMoreSpecializedThanPrimary(S, Partial);
- // C++ [temp.class.spec]p8: (DR1315)
- // - Each template-parameter shall appear at least once in the
- // template-id outside a non-deduced context.
- // C++1z [temp.class.spec.match]p3 (P0127R2)
- // If the template arguments of a partial specialization cannot be
- // deduced because of the structure of its template-parameter-list
- // and the template-id, the program is ill-formed.
- auto *TemplateParams = Partial->getTemplateParameters();
- llvm::SmallBitVector DeducibleParams(TemplateParams->size());
- S.MarkUsedTemplateParameters(Partial->getTemplateArgs(), true,
- TemplateParams->getDepth(), DeducibleParams);
- if (!DeducibleParams.all()) {
- unsigned NumNonDeducible = DeducibleParams.size() - DeducibleParams.count();
- S.Diag(Partial->getLocation(), diag::ext_partial_specs_not_deducible)
- << isa<VarTemplatePartialSpecializationDecl>(Partial)
- << (NumNonDeducible > 1)
- << SourceRange(Partial->getLocation(),
- Partial->getTemplateArgsAsWritten()->RAngleLoc);
- noteNonDeducibleParameters(S, TemplateParams, DeducibleParams);
- }
- }
- void Sema::CheckTemplatePartialSpecialization(
- ClassTemplatePartialSpecializationDecl *Partial) {
- checkTemplatePartialSpecialization(*this, Partial);
- }
- void Sema::CheckTemplatePartialSpecialization(
- VarTemplatePartialSpecializationDecl *Partial) {
- checkTemplatePartialSpecialization(*this, Partial);
- }
- void Sema::CheckDeductionGuideTemplate(FunctionTemplateDecl *TD) {
- // C++1z [temp.param]p11:
- // A template parameter of a deduction guide template that does not have a
- // default-argument shall be deducible from the parameter-type-list of the
- // deduction guide template.
- auto *TemplateParams = TD->getTemplateParameters();
- llvm::SmallBitVector DeducibleParams(TemplateParams->size());
- MarkDeducedTemplateParameters(TD, DeducibleParams);
- for (unsigned I = 0; I != TemplateParams->size(); ++I) {
- // A parameter pack is deducible (to an empty pack).
- auto *Param = TemplateParams->getParam(I);
- if (Param->isParameterPack() || hasVisibleDefaultArgument(Param))
- DeducibleParams[I] = true;
- }
- if (!DeducibleParams.all()) {
- unsigned NumNonDeducible = DeducibleParams.size() - DeducibleParams.count();
- Diag(TD->getLocation(), diag::err_deduction_guide_template_not_deducible)
- << (NumNonDeducible > 1);
- noteNonDeducibleParameters(*this, TemplateParams, DeducibleParams);
- }
- }
- DeclResult Sema::ActOnVarTemplateSpecialization(
- Scope *S, Declarator &D, TypeSourceInfo *DI, SourceLocation TemplateKWLoc,
- TemplateParameterList *TemplateParams, StorageClass SC,
- bool IsPartialSpecialization) {
- // D must be variable template id.
- assert(D.getName().getKind() == UnqualifiedIdKind::IK_TemplateId &&
- "Variable template specialization is declared with a template id.");
- TemplateIdAnnotation *TemplateId = D.getName().TemplateId;
- TemplateArgumentListInfo TemplateArgs =
- makeTemplateArgumentListInfo(*this, *TemplateId);
- SourceLocation TemplateNameLoc = D.getIdentifierLoc();
- SourceLocation LAngleLoc = TemplateId->LAngleLoc;
- SourceLocation RAngleLoc = TemplateId->RAngleLoc;
- TemplateName Name = TemplateId->Template.get();
- // The template-id must name a variable template.
- VarTemplateDecl *VarTemplate =
- dyn_cast_or_null<VarTemplateDecl>(Name.getAsTemplateDecl());
- if (!VarTemplate) {
- NamedDecl *FnTemplate;
- if (auto *OTS = Name.getAsOverloadedTemplate())
- FnTemplate = *OTS->begin();
- else
- FnTemplate = dyn_cast_or_null<FunctionTemplateDecl>(Name.getAsTemplateDecl());
- if (FnTemplate)
- return Diag(D.getIdentifierLoc(), diag::err_var_spec_no_template_but_method)
- << FnTemplate->getDeclName();
- return Diag(D.getIdentifierLoc(), diag::err_var_spec_no_template)
- << IsPartialSpecialization;
- }
- // Check for unexpanded parameter packs in any of the template arguments.
- for (unsigned I = 0, N = TemplateArgs.size(); I != N; ++I)
- if (DiagnoseUnexpandedParameterPack(TemplateArgs[I],
- UPPC_PartialSpecialization))
- return true;
- // Check that the template argument list is well-formed for this
- // template.
- SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(VarTemplate, TemplateNameLoc, TemplateArgs,
- false, SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/true))
- return true;
- // Find the variable template (partial) specialization declaration that
- // corresponds to these arguments.
- if (IsPartialSpecialization) {
- if (CheckTemplatePartialSpecializationArgs(TemplateNameLoc, VarTemplate,
- TemplateArgs.size(),
- CanonicalConverted))
- return true;
- // FIXME: Move these checks to CheckTemplatePartialSpecializationArgs so we
- // also do them during instantiation.
- if (!Name.isDependent() &&
- !TemplateSpecializationType::anyDependentTemplateArguments(
- TemplateArgs, CanonicalConverted)) {
- Diag(TemplateNameLoc, diag::err_partial_spec_fully_specialized)
- << VarTemplate->getDeclName();
- IsPartialSpecialization = false;
- }
- if (isSameAsPrimaryTemplate(VarTemplate->getTemplateParameters(),
- CanonicalConverted) &&
- (!Context.getLangOpts().CPlusPlus20 ||
- !TemplateParams->hasAssociatedConstraints())) {
- // C++ [temp.class.spec]p9b3:
- //
- // -- The argument list of the specialization shall not be identical
- // to the implicit argument list of the primary template.
- Diag(TemplateNameLoc, diag::err_partial_spec_args_match_primary_template)
- << /*variable template*/ 1
- << /*is definition*/(SC != SC_Extern && !CurContext->isRecord())
- << FixItHint::CreateRemoval(SourceRange(LAngleLoc, RAngleLoc));
- // FIXME: Recover from this by treating the declaration as a redeclaration
- // of the primary template.
- return true;
- }
- }
- void *InsertPos = nullptr;
- VarTemplateSpecializationDecl *PrevDecl = nullptr;
- if (IsPartialSpecialization)
- PrevDecl = VarTemplate->findPartialSpecialization(
- CanonicalConverted, TemplateParams, InsertPos);
- else
- PrevDecl = VarTemplate->findSpecialization(CanonicalConverted, InsertPos);
- VarTemplateSpecializationDecl *Specialization = nullptr;
- // Check whether we can declare a variable template specialization in
- // the current scope.
- if (CheckTemplateSpecializationScope(*this, VarTemplate, PrevDecl,
- TemplateNameLoc,
- IsPartialSpecialization))
- return true;
- if (PrevDecl && PrevDecl->getSpecializationKind() == TSK_Undeclared) {
- // Since the only prior variable template specialization with these
- // arguments was referenced but not declared, reuse that
- // declaration node as our own, updating its source location and
- // the list of outer template parameters to reflect our new declaration.
- Specialization = PrevDecl;
- Specialization->setLocation(TemplateNameLoc);
- PrevDecl = nullptr;
- } else if (IsPartialSpecialization) {
- // Create a new class template partial specialization declaration node.
- VarTemplatePartialSpecializationDecl *PrevPartial =
- cast_or_null<VarTemplatePartialSpecializationDecl>(PrevDecl);
- VarTemplatePartialSpecializationDecl *Partial =
- VarTemplatePartialSpecializationDecl::Create(
- Context, VarTemplate->getDeclContext(), TemplateKWLoc,
- TemplateNameLoc, TemplateParams, VarTemplate, DI->getType(), DI, SC,
- CanonicalConverted, TemplateArgs);
- if (!PrevPartial)
- VarTemplate->AddPartialSpecialization(Partial, InsertPos);
- Specialization = Partial;
- // If we are providing an explicit specialization of a member variable
- // template specialization, make a note of that.
- if (PrevPartial && PrevPartial->getInstantiatedFromMember())
- PrevPartial->setMemberSpecialization();
- CheckTemplatePartialSpecialization(Partial);
- } else {
- // Create a new class template specialization declaration node for
- // this explicit specialization or friend declaration.
- Specialization = VarTemplateSpecializationDecl::Create(
- Context, VarTemplate->getDeclContext(), TemplateKWLoc, TemplateNameLoc,
- VarTemplate, DI->getType(), DI, SC, CanonicalConverted);
- Specialization->setTemplateArgsInfo(TemplateArgs);
- if (!PrevDecl)
- VarTemplate->AddSpecialization(Specialization, InsertPos);
- }
- // C++ [temp.expl.spec]p6:
- // If a template, a member template or the member of a class template is
- // explicitly specialized then that specialization shall be declared
- // before the first use of that specialization that would cause an implicit
- // instantiation to take place, in every translation unit in which such a
- // use occurs; no diagnostic is required.
- if (PrevDecl && PrevDecl->getPointOfInstantiation().isValid()) {
- bool Okay = false;
- for (Decl *Prev = PrevDecl; Prev; Prev = Prev->getPreviousDecl()) {
- // Is there any previous explicit specialization declaration?
- if (getTemplateSpecializationKind(Prev) == TSK_ExplicitSpecialization) {
- Okay = true;
- break;
- }
- }
- if (!Okay) {
- SourceRange Range(TemplateNameLoc, RAngleLoc);
- Diag(TemplateNameLoc, diag::err_specialization_after_instantiation)
- << Name << Range;
- Diag(PrevDecl->getPointOfInstantiation(),
- diag::note_instantiation_required_here)
- << (PrevDecl->getTemplateSpecializationKind() !=
- TSK_ImplicitInstantiation);
- return true;
- }
- }
- Specialization->setTemplateKeywordLoc(TemplateKWLoc);
- Specialization->setLexicalDeclContext(CurContext);
- // Add the specialization into its lexical context, so that it can
- // be seen when iterating through the list of declarations in that
- // context. However, specializations are not found by name lookup.
- CurContext->addDecl(Specialization);
- // Note that this is an explicit specialization.
- Specialization->setSpecializationKind(TSK_ExplicitSpecialization);
- if (PrevDecl) {
- // Check that this isn't a redefinition of this specialization,
- // merging with previous declarations.
- LookupResult PrevSpec(*this, GetNameForDeclarator(D), LookupOrdinaryName,
- forRedeclarationInCurContext());
- PrevSpec.addDecl(PrevDecl);
- D.setRedeclaration(CheckVariableDeclaration(Specialization, PrevSpec));
- } else if (Specialization->isStaticDataMember() &&
- Specialization->isOutOfLine()) {
- Specialization->setAccess(VarTemplate->getAccess());
- }
- return Specialization;
- }
- namespace {
- /// A partial specialization whose template arguments have matched
- /// a given template-id.
- struct PartialSpecMatchResult {
- VarTemplatePartialSpecializationDecl *Partial;
- TemplateArgumentList *Args;
- };
- } // end anonymous namespace
- DeclResult
- Sema::CheckVarTemplateId(VarTemplateDecl *Template, SourceLocation TemplateLoc,
- SourceLocation TemplateNameLoc,
- const TemplateArgumentListInfo &TemplateArgs) {
- assert(Template && "A variable template id without template?");
- // Check that the template argument list is well-formed for this template.
- SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(
- Template, TemplateNameLoc,
- const_cast<TemplateArgumentListInfo &>(TemplateArgs), false,
- SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/true))
- return true;
- // Produce a placeholder value if the specialization is dependent.
- if (Template->getDeclContext()->isDependentContext() ||
- TemplateSpecializationType::anyDependentTemplateArguments(
- TemplateArgs, CanonicalConverted))
- return DeclResult();
- // Find the variable template specialization declaration that
- // corresponds to these arguments.
- void *InsertPos = nullptr;
- if (VarTemplateSpecializationDecl *Spec =
- Template->findSpecialization(CanonicalConverted, InsertPos)) {
- checkSpecializationReachability(TemplateNameLoc, Spec);
- // If we already have a variable template specialization, return it.
- return Spec;
- }
- // This is the first time we have referenced this variable template
- // specialization. Create the canonical declaration and add it to
- // the set of specializations, based on the closest partial specialization
- // that it represents. That is,
- VarDecl *InstantiationPattern = Template->getTemplatedDecl();
- TemplateArgumentList TemplateArgList(TemplateArgumentList::OnStack,
- CanonicalConverted);
- TemplateArgumentList *InstantiationArgs = &TemplateArgList;
- bool AmbiguousPartialSpec = false;
- typedef PartialSpecMatchResult MatchResult;
- SmallVector<MatchResult, 4> Matched;
- SourceLocation PointOfInstantiation = TemplateNameLoc;
- TemplateSpecCandidateSet FailedCandidates(PointOfInstantiation,
- /*ForTakingAddress=*/false);
- // 1. Attempt to find the closest partial specialization that this
- // specializes, if any.
- // TODO: Unify with InstantiateClassTemplateSpecialization()?
- // Perhaps better after unification of DeduceTemplateArguments() and
- // getMoreSpecializedPartialSpecialization().
- SmallVector<VarTemplatePartialSpecializationDecl *, 4> PartialSpecs;
- Template->getPartialSpecializations(PartialSpecs);
- for (unsigned I = 0, N = PartialSpecs.size(); I != N; ++I) {
- VarTemplatePartialSpecializationDecl *Partial = PartialSpecs[I];
- TemplateDeductionInfo Info(FailedCandidates.getLocation());
- if (TemplateDeductionResult Result =
- DeduceTemplateArguments(Partial, TemplateArgList, Info)) {
- // Store the failed-deduction information for use in diagnostics, later.
- // TODO: Actually use the failed-deduction info?
- FailedCandidates.addCandidate().set(
- DeclAccessPair::make(Template, AS_public), Partial,
- MakeDeductionFailureInfo(Context, Result, Info));
- (void)Result;
- } else {
- Matched.push_back(PartialSpecMatchResult());
- Matched.back().Partial = Partial;
- Matched.back().Args = Info.takeCanonical();
- }
- }
- if (Matched.size() >= 1) {
- SmallVector<MatchResult, 4>::iterator Best = Matched.begin();
- if (Matched.size() == 1) {
- // -- If exactly one matching specialization is found, the
- // instantiation is generated from that specialization.
- // We don't need to do anything for this.
- } else {
- // -- If more than one matching specialization is found, the
- // partial order rules (14.5.4.2) are used to determine
- // whether one of the specializations is more specialized
- // than the others. If none of the specializations is more
- // specialized than all of the other matching
- // specializations, then the use of the variable template is
- // ambiguous and the program is ill-formed.
- for (SmallVector<MatchResult, 4>::iterator P = Best + 1,
- PEnd = Matched.end();
- P != PEnd; ++P) {
- if (getMoreSpecializedPartialSpecialization(P->Partial, Best->Partial,
- PointOfInstantiation) ==
- P->Partial)
- Best = P;
- }
- // Determine if the best partial specialization is more specialized than
- // the others.
- for (SmallVector<MatchResult, 4>::iterator P = Matched.begin(),
- PEnd = Matched.end();
- P != PEnd; ++P) {
- if (P != Best && getMoreSpecializedPartialSpecialization(
- P->Partial, Best->Partial,
- PointOfInstantiation) != Best->Partial) {
- AmbiguousPartialSpec = true;
- break;
- }
- }
- }
- // Instantiate using the best variable template partial specialization.
- InstantiationPattern = Best->Partial;
- InstantiationArgs = Best->Args;
- } else {
- // -- If no match is found, the instantiation is generated
- // from the primary template.
- // InstantiationPattern = Template->getTemplatedDecl();
- }
- // 2. Create the canonical declaration.
- // Note that we do not instantiate a definition until we see an odr-use
- // in DoMarkVarDeclReferenced().
- // FIXME: LateAttrs et al.?
- VarTemplateSpecializationDecl *Decl = BuildVarTemplateInstantiation(
- Template, InstantiationPattern, *InstantiationArgs, TemplateArgs,
- CanonicalConverted, TemplateNameLoc /*, LateAttrs, StartingScope*/);
- if (!Decl)
- return true;
- if (AmbiguousPartialSpec) {
- // Partial ordering did not produce a clear winner. Complain.
- Decl->setInvalidDecl();
- Diag(PointOfInstantiation, diag::err_partial_spec_ordering_ambiguous)
- << Decl;
- // Print the matching partial specializations.
- for (MatchResult P : Matched)
- Diag(P.Partial->getLocation(), diag::note_partial_spec_match)
- << getTemplateArgumentBindingsText(P.Partial->getTemplateParameters(),
- *P.Args);
- return true;
- }
- if (VarTemplatePartialSpecializationDecl *D =
- dyn_cast<VarTemplatePartialSpecializationDecl>(InstantiationPattern))
- Decl->setInstantiationOf(D, InstantiationArgs);
- checkSpecializationReachability(TemplateNameLoc, Decl);
- assert(Decl && "No variable template specialization?");
- return Decl;
- }
- ExprResult
- Sema::CheckVarTemplateId(const CXXScopeSpec &SS,
- const DeclarationNameInfo &NameInfo,
- VarTemplateDecl *Template, SourceLocation TemplateLoc,
- const TemplateArgumentListInfo *TemplateArgs) {
- DeclResult Decl = CheckVarTemplateId(Template, TemplateLoc, NameInfo.getLoc(),
- *TemplateArgs);
- if (Decl.isInvalid())
- return ExprError();
- if (!Decl.get())
- return ExprResult();
- VarDecl *Var = cast<VarDecl>(Decl.get());
- if (!Var->getTemplateSpecializationKind())
- Var->setTemplateSpecializationKind(TSK_ImplicitInstantiation,
- NameInfo.getLoc());
- // Build an ordinary singleton decl ref.
- return BuildDeclarationNameExpr(SS, NameInfo, Var,
- /*FoundD=*/nullptr, TemplateArgs);
- }
- void Sema::diagnoseMissingTemplateArguments(TemplateName Name,
- SourceLocation Loc) {
- Diag(Loc, diag::err_template_missing_args)
- << (int)getTemplateNameKindForDiagnostics(Name) << Name;
- if (TemplateDecl *TD = Name.getAsTemplateDecl()) {
- Diag(TD->getLocation(), diag::note_template_decl_here)
- << TD->getTemplateParameters()->getSourceRange();
- }
- }
- ExprResult
- Sema::CheckConceptTemplateId(const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- const DeclarationNameInfo &ConceptNameInfo,
- NamedDecl *FoundDecl,
- ConceptDecl *NamedConcept,
- const TemplateArgumentListInfo *TemplateArgs) {
- assert(NamedConcept && "A concept template id without a template?");
- llvm::SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(
- NamedConcept, ConceptNameInfo.getLoc(),
- const_cast<TemplateArgumentListInfo &>(*TemplateArgs),
- /*PartialTemplateArgs=*/false, SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/false))
- return ExprError();
- auto *CSD = ImplicitConceptSpecializationDecl::Create(
- Context, NamedConcept->getDeclContext(), NamedConcept->getLocation(),
- CanonicalConverted);
- ConstraintSatisfaction Satisfaction;
- bool AreArgsDependent =
- TemplateSpecializationType::anyDependentTemplateArguments(
- *TemplateArgs, CanonicalConverted);
- MultiLevelTemplateArgumentList MLTAL(NamedConcept, CanonicalConverted,
- /*Final=*/false);
- LocalInstantiationScope Scope(*this);
- EnterExpressionEvaluationContext EECtx{
- *this, ExpressionEvaluationContext::ConstantEvaluated, CSD};
- if (!AreArgsDependent &&
- CheckConstraintSatisfaction(
- NamedConcept, {NamedConcept->getConstraintExpr()}, MLTAL,
- SourceRange(SS.isSet() ? SS.getBeginLoc() : ConceptNameInfo.getLoc(),
- TemplateArgs->getRAngleLoc()),
- Satisfaction))
- return ExprError();
- return ConceptSpecializationExpr::Create(
- Context,
- SS.isSet() ? SS.getWithLocInContext(Context) : NestedNameSpecifierLoc{},
- TemplateKWLoc, ConceptNameInfo, FoundDecl, NamedConcept,
- ASTTemplateArgumentListInfo::Create(Context, *TemplateArgs), CSD,
- AreArgsDependent ? nullptr : &Satisfaction);
- }
- ExprResult Sema::BuildTemplateIdExpr(const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- LookupResult &R,
- bool RequiresADL,
- const TemplateArgumentListInfo *TemplateArgs) {
- // FIXME: Can we do any checking at this point? I guess we could check the
- // template arguments that we have against the template name, if the template
- // name refers to a single template. That's not a terribly common case,
- // though.
- // foo<int> could identify a single function unambiguously
- // This approach does NOT work, since f<int>(1);
- // gets resolved prior to resorting to overload resolution
- // i.e., template<class T> void f(double);
- // vs template<class T, class U> void f(U);
- // These should be filtered out by our callers.
- assert(!R.isAmbiguous() && "ambiguous lookup when building templateid");
- // Non-function templates require a template argument list.
- if (auto *TD = R.getAsSingle<TemplateDecl>()) {
- if (!TemplateArgs && !isa<FunctionTemplateDecl>(TD)) {
- diagnoseMissingTemplateArguments(TemplateName(TD), R.getNameLoc());
- return ExprError();
- }
- }
- // In C++1y, check variable template ids.
- if (R.getAsSingle<VarTemplateDecl>()) {
- ExprResult Res = CheckVarTemplateId(SS, R.getLookupNameInfo(),
- R.getAsSingle<VarTemplateDecl>(),
- TemplateKWLoc, TemplateArgs);
- if (Res.isInvalid() || Res.isUsable())
- return Res;
- // Result is dependent. Carry on to build an UnresolvedLookupEpxr.
- }
- if (R.getAsSingle<ConceptDecl>()) {
- return CheckConceptTemplateId(SS, TemplateKWLoc, R.getLookupNameInfo(),
- R.getFoundDecl(),
- R.getAsSingle<ConceptDecl>(), TemplateArgs);
- }
- // We don't want lookup warnings at this point.
- R.suppressDiagnostics();
- UnresolvedLookupExpr *ULE
- = UnresolvedLookupExpr::Create(Context, R.getNamingClass(),
- SS.getWithLocInContext(Context),
- TemplateKWLoc,
- R.getLookupNameInfo(),
- RequiresADL, TemplateArgs,
- R.begin(), R.end());
- return ULE;
- }
- // We actually only call this from template instantiation.
- ExprResult
- Sema::BuildQualifiedTemplateIdExpr(CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- const DeclarationNameInfo &NameInfo,
- const TemplateArgumentListInfo *TemplateArgs) {
- assert(TemplateArgs || TemplateKWLoc.isValid());
- DeclContext *DC;
- if (!(DC = computeDeclContext(SS, false)) ||
- DC->isDependentContext() ||
- RequireCompleteDeclContext(SS, DC))
- return BuildDependentDeclRefExpr(SS, TemplateKWLoc, NameInfo, TemplateArgs);
- bool MemberOfUnknownSpecialization;
- LookupResult R(*this, NameInfo, LookupOrdinaryName);
- if (LookupTemplateName(R, (Scope *)nullptr, SS, QualType(),
- /*Entering*/false, MemberOfUnknownSpecialization,
- TemplateKWLoc))
- return ExprError();
- if (R.isAmbiguous())
- return ExprError();
- if (R.empty()) {
- Diag(NameInfo.getLoc(), diag::err_no_member)
- << NameInfo.getName() << DC << SS.getRange();
- return ExprError();
- }
- if (ClassTemplateDecl *Temp = R.getAsSingle<ClassTemplateDecl>()) {
- Diag(NameInfo.getLoc(), diag::err_template_kw_refers_to_class_template)
- << SS.getScopeRep()
- << NameInfo.getName().getAsString() << SS.getRange();
- Diag(Temp->getLocation(), diag::note_referenced_class_template);
- return ExprError();
- }
- return BuildTemplateIdExpr(SS, TemplateKWLoc, R, /*ADL*/ false, TemplateArgs);
- }
- /// Form a template name from a name that is syntactically required to name a
- /// template, either due to use of the 'template' keyword or because a name in
- /// this syntactic context is assumed to name a template (C++ [temp.names]p2-4).
- ///
- /// This action forms a template name given the name of the template and its
- /// optional scope specifier. This is used when the 'template' keyword is used
- /// or when the parsing context unambiguously treats a following '<' as
- /// introducing a template argument list. Note that this may produce a
- /// non-dependent template name if we can perform the lookup now and identify
- /// the named template.
- ///
- /// For example, given "x.MetaFun::template apply", the scope specifier
- /// \p SS will be "MetaFun::", \p TemplateKWLoc contains the location
- /// of the "template" keyword, and "apply" is the \p Name.
- TemplateNameKind Sema::ActOnTemplateName(Scope *S,
- CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- const UnqualifiedId &Name,
- ParsedType ObjectType,
- bool EnteringContext,
- TemplateTy &Result,
- bool AllowInjectedClassName) {
- if (TemplateKWLoc.isValid() && S && !S->getTemplateParamParent())
- Diag(TemplateKWLoc,
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_template_outside_of_template :
- diag::ext_template_outside_of_template)
- << FixItHint::CreateRemoval(TemplateKWLoc);
- if (SS.isInvalid())
- return TNK_Non_template;
- // Figure out where isTemplateName is going to look.
- DeclContext *LookupCtx = nullptr;
- if (SS.isNotEmpty())
- LookupCtx = computeDeclContext(SS, EnteringContext);
- else if (ObjectType)
- LookupCtx = computeDeclContext(GetTypeFromParser(ObjectType));
- // C++0x [temp.names]p5:
- // If a name prefixed by the keyword template is not the name of
- // a template, the program is ill-formed. [Note: the keyword
- // template may not be applied to non-template members of class
- // templates. -end note ] [ Note: as is the case with the
- // typename prefix, the template prefix is allowed in cases
- // where it is not strictly necessary; i.e., when the
- // nested-name-specifier or the expression on the left of the ->
- // or . is not dependent on a template-parameter, or the use
- // does not appear in the scope of a template. -end note]
- //
- // Note: C++03 was more strict here, because it banned the use of
- // the "template" keyword prior to a template-name that was not a
- // dependent name. C++ DR468 relaxed this requirement (the
- // "template" keyword is now permitted). We follow the C++0x
- // rules, even in C++03 mode with a warning, retroactively applying the DR.
- bool MemberOfUnknownSpecialization;
- TemplateNameKind TNK = isTemplateName(S, SS, TemplateKWLoc.isValid(), Name,
- ObjectType, EnteringContext, Result,
- MemberOfUnknownSpecialization);
- if (TNK != TNK_Non_template) {
- // We resolved this to a (non-dependent) template name. Return it.
- auto *LookupRD = dyn_cast_or_null<CXXRecordDecl>(LookupCtx);
- if (!AllowInjectedClassName && SS.isNotEmpty() && LookupRD &&
- Name.getKind() == UnqualifiedIdKind::IK_Identifier &&
- Name.Identifier && LookupRD->getIdentifier() == Name.Identifier) {
- // C++14 [class.qual]p2:
- // In a lookup in which function names are not ignored and the
- // nested-name-specifier nominates a class C, if the name specified
- // [...] is the injected-class-name of C, [...] the name is instead
- // considered to name the constructor
- //
- // We don't get here if naming the constructor would be valid, so we
- // just reject immediately and recover by treating the
- // injected-class-name as naming the template.
- Diag(Name.getBeginLoc(),
- diag::ext_out_of_line_qualified_id_type_names_constructor)
- << Name.Identifier
- << 0 /*injected-class-name used as template name*/
- << TemplateKWLoc.isValid();
- }
- return TNK;
- }
- if (!MemberOfUnknownSpecialization) {
- // Didn't find a template name, and the lookup wasn't dependent.
- // Do the lookup again to determine if this is a "nothing found" case or
- // a "not a template" case. FIXME: Refactor isTemplateName so we don't
- // need to do this.
- DeclarationNameInfo DNI = GetNameFromUnqualifiedId(Name);
- LookupResult R(*this, DNI.getName(), Name.getBeginLoc(),
- LookupOrdinaryName);
- bool MOUS;
- // Tell LookupTemplateName that we require a template so that it diagnoses
- // cases where it finds a non-template.
- RequiredTemplateKind RTK = TemplateKWLoc.isValid()
- ? RequiredTemplateKind(TemplateKWLoc)
- : TemplateNameIsRequired;
- if (!LookupTemplateName(R, S, SS, ObjectType.get(), EnteringContext, MOUS,
- RTK, nullptr, /*AllowTypoCorrection=*/false) &&
- !R.isAmbiguous()) {
- if (LookupCtx)
- Diag(Name.getBeginLoc(), diag::err_no_member)
- << DNI.getName() << LookupCtx << SS.getRange();
- else
- Diag(Name.getBeginLoc(), diag::err_undeclared_use)
- << DNI.getName() << SS.getRange();
- }
- return TNK_Non_template;
- }
- NestedNameSpecifier *Qualifier = SS.getScopeRep();
- switch (Name.getKind()) {
- case UnqualifiedIdKind::IK_Identifier:
- Result = TemplateTy::make(
- Context.getDependentTemplateName(Qualifier, Name.Identifier));
- return TNK_Dependent_template_name;
- case UnqualifiedIdKind::IK_OperatorFunctionId:
- Result = TemplateTy::make(Context.getDependentTemplateName(
- Qualifier, Name.OperatorFunctionId.Operator));
- return TNK_Function_template;
- case UnqualifiedIdKind::IK_LiteralOperatorId:
- // This is a kind of template name, but can never occur in a dependent
- // scope (literal operators can only be declared at namespace scope).
- break;
- default:
- break;
- }
- // This name cannot possibly name a dependent template. Diagnose this now
- // rather than building a dependent template name that can never be valid.
- Diag(Name.getBeginLoc(),
- diag::err_template_kw_refers_to_dependent_non_template)
- << GetNameFromUnqualifiedId(Name).getName() << Name.getSourceRange()
- << TemplateKWLoc.isValid() << TemplateKWLoc;
- return TNK_Non_template;
- }
- bool Sema::CheckTemplateTypeArgument(
- TemplateTypeParmDecl *Param, TemplateArgumentLoc &AL,
- SmallVectorImpl<TemplateArgument> &SugaredConverted,
- SmallVectorImpl<TemplateArgument> &CanonicalConverted) {
- const TemplateArgument &Arg = AL.getArgument();
- QualType ArgType;
- TypeSourceInfo *TSI = nullptr;
- // Check template type parameter.
- switch(Arg.getKind()) {
- case TemplateArgument::Type:
- // C++ [temp.arg.type]p1:
- // A template-argument for a template-parameter which is a
- // type shall be a type-id.
- ArgType = Arg.getAsType();
- TSI = AL.getTypeSourceInfo();
- break;
- case TemplateArgument::Template:
- case TemplateArgument::TemplateExpansion: {
- // We have a template type parameter but the template argument
- // is a template without any arguments.
- SourceRange SR = AL.getSourceRange();
- TemplateName Name = Arg.getAsTemplateOrTemplatePattern();
- diagnoseMissingTemplateArguments(Name, SR.getEnd());
- return true;
- }
- case TemplateArgument::Expression: {
- // We have a template type parameter but the template argument is an
- // expression; see if maybe it is missing the "typename" keyword.
- CXXScopeSpec SS;
- DeclarationNameInfo NameInfo;
- if (DependentScopeDeclRefExpr *ArgExpr =
- dyn_cast<DependentScopeDeclRefExpr>(Arg.getAsExpr())) {
- SS.Adopt(ArgExpr->getQualifierLoc());
- NameInfo = ArgExpr->getNameInfo();
- } else if (CXXDependentScopeMemberExpr *ArgExpr =
- dyn_cast<CXXDependentScopeMemberExpr>(Arg.getAsExpr())) {
- if (ArgExpr->isImplicitAccess()) {
- SS.Adopt(ArgExpr->getQualifierLoc());
- NameInfo = ArgExpr->getMemberNameInfo();
- }
- }
- if (auto *II = NameInfo.getName().getAsIdentifierInfo()) {
- LookupResult Result(*this, NameInfo, LookupOrdinaryName);
- LookupParsedName(Result, CurScope, &SS);
- if (Result.getAsSingle<TypeDecl>() ||
- Result.getResultKind() ==
- LookupResult::NotFoundInCurrentInstantiation) {
- assert(SS.getScopeRep() && "dependent scope expr must has a scope!");
- // Suggest that the user add 'typename' before the NNS.
- SourceLocation Loc = AL.getSourceRange().getBegin();
- Diag(Loc, getLangOpts().MSVCCompat
- ? diag::ext_ms_template_type_arg_missing_typename
- : diag::err_template_arg_must_be_type_suggest)
- << FixItHint::CreateInsertion(Loc, "typename ");
- Diag(Param->getLocation(), diag::note_template_param_here);
- // Recover by synthesizing a type using the location information that we
- // already have.
- ArgType =
- Context.getDependentNameType(ETK_Typename, SS.getScopeRep(), II);
- TypeLocBuilder TLB;
- DependentNameTypeLoc TL = TLB.push<DependentNameTypeLoc>(ArgType);
- TL.setElaboratedKeywordLoc(SourceLocation(/*synthesized*/));
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- TL.setNameLoc(NameInfo.getLoc());
- TSI = TLB.getTypeSourceInfo(Context, ArgType);
- // Overwrite our input TemplateArgumentLoc so that we can recover
- // properly.
- AL = TemplateArgumentLoc(TemplateArgument(ArgType),
- TemplateArgumentLocInfo(TSI));
- break;
- }
- }
- // fallthrough
- [[fallthrough]];
- }
- default: {
- // We have a template type parameter but the template argument
- // is not a type.
- SourceRange SR = AL.getSourceRange();
- Diag(SR.getBegin(), diag::err_template_arg_must_be_type) << SR;
- Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- }
- if (CheckTemplateArgument(TSI))
- return true;
- // Objective-C ARC:
- // If an explicitly-specified template argument type is a lifetime type
- // with no lifetime qualifier, the __strong lifetime qualifier is inferred.
- if (getLangOpts().ObjCAutoRefCount &&
- ArgType->isObjCLifetimeType() &&
- !ArgType.getObjCLifetime()) {
- Qualifiers Qs;
- Qs.setObjCLifetime(Qualifiers::OCL_Strong);
- ArgType = Context.getQualifiedType(ArgType, Qs);
- }
- SugaredConverted.push_back(TemplateArgument(ArgType));
- CanonicalConverted.push_back(
- TemplateArgument(Context.getCanonicalType(ArgType)));
- return false;
- }
- /// Substitute template arguments into the default template argument for
- /// the given template type parameter.
- ///
- /// \param SemaRef the semantic analysis object for which we are performing
- /// the substitution.
- ///
- /// \param Template the template that we are synthesizing template arguments
- /// for.
- ///
- /// \param TemplateLoc the location of the template name that started the
- /// template-id we are checking.
- ///
- /// \param RAngleLoc the location of the right angle bracket ('>') that
- /// terminates the template-id.
- ///
- /// \param Param the template template parameter whose default we are
- /// substituting into.
- ///
- /// \param Converted the list of template arguments provided for template
- /// parameters that precede \p Param in the template parameter list.
- /// \returns the substituted template argument, or NULL if an error occurred.
- static TypeSourceInfo *SubstDefaultTemplateArgument(
- Sema &SemaRef, TemplateDecl *Template, SourceLocation TemplateLoc,
- SourceLocation RAngleLoc, TemplateTypeParmDecl *Param,
- ArrayRef<TemplateArgument> SugaredConverted,
- ArrayRef<TemplateArgument> CanonicalConverted) {
- TypeSourceInfo *ArgType = Param->getDefaultArgumentInfo();
- // If the argument type is dependent, instantiate it now based
- // on the previously-computed template arguments.
- if (ArgType->getType()->isInstantiationDependentType()) {
- Sema::InstantiatingTemplate Inst(SemaRef, TemplateLoc, Param, Template,
- SugaredConverted,
- SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return nullptr;
- // Only substitute for the innermost template argument list.
- MultiLevelTemplateArgumentList TemplateArgLists(Template, SugaredConverted,
- /*Final=*/true);
- for (unsigned i = 0, e = Param->getDepth(); i != e; ++i)
- TemplateArgLists.addOuterTemplateArguments(std::nullopt);
- bool ForLambdaCallOperator = false;
- if (const auto *Rec = dyn_cast<CXXRecordDecl>(Template->getDeclContext()))
- ForLambdaCallOperator = Rec->isLambda();
- Sema::ContextRAII SavedContext(SemaRef, Template->getDeclContext(),
- !ForLambdaCallOperator);
- ArgType =
- SemaRef.SubstType(ArgType, TemplateArgLists,
- Param->getDefaultArgumentLoc(), Param->getDeclName());
- }
- return ArgType;
- }
- /// Substitute template arguments into the default template argument for
- /// the given non-type template parameter.
- ///
- /// \param SemaRef the semantic analysis object for which we are performing
- /// the substitution.
- ///
- /// \param Template the template that we are synthesizing template arguments
- /// for.
- ///
- /// \param TemplateLoc the location of the template name that started the
- /// template-id we are checking.
- ///
- /// \param RAngleLoc the location of the right angle bracket ('>') that
- /// terminates the template-id.
- ///
- /// \param Param the non-type template parameter whose default we are
- /// substituting into.
- ///
- /// \param Converted the list of template arguments provided for template
- /// parameters that precede \p Param in the template parameter list.
- ///
- /// \returns the substituted template argument, or NULL if an error occurred.
- static ExprResult SubstDefaultTemplateArgument(
- Sema &SemaRef, TemplateDecl *Template, SourceLocation TemplateLoc,
- SourceLocation RAngleLoc, NonTypeTemplateParmDecl *Param,
- ArrayRef<TemplateArgument> SugaredConverted,
- ArrayRef<TemplateArgument> CanonicalConverted) {
- Sema::InstantiatingTemplate Inst(SemaRef, TemplateLoc, Param, Template,
- SugaredConverted,
- SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return ExprError();
- // Only substitute for the innermost template argument list.
- MultiLevelTemplateArgumentList TemplateArgLists(Template, SugaredConverted,
- /*Final=*/true);
- for (unsigned i = 0, e = Param->getDepth(); i != e; ++i)
- TemplateArgLists.addOuterTemplateArguments(std::nullopt);
- Sema::ContextRAII SavedContext(SemaRef, Template->getDeclContext());
- EnterExpressionEvaluationContext ConstantEvaluated(
- SemaRef, Sema::ExpressionEvaluationContext::ConstantEvaluated);
- return SemaRef.SubstExpr(Param->getDefaultArgument(), TemplateArgLists);
- }
- /// Substitute template arguments into the default template argument for
- /// the given template template parameter.
- ///
- /// \param SemaRef the semantic analysis object for which we are performing
- /// the substitution.
- ///
- /// \param Template the template that we are synthesizing template arguments
- /// for.
- ///
- /// \param TemplateLoc the location of the template name that started the
- /// template-id we are checking.
- ///
- /// \param RAngleLoc the location of the right angle bracket ('>') that
- /// terminates the template-id.
- ///
- /// \param Param the template template parameter whose default we are
- /// substituting into.
- ///
- /// \param Converted the list of template arguments provided for template
- /// parameters that precede \p Param in the template parameter list.
- ///
- /// \param QualifierLoc Will be set to the nested-name-specifier (with
- /// source-location information) that precedes the template name.
- ///
- /// \returns the substituted template argument, or NULL if an error occurred.
- static TemplateName SubstDefaultTemplateArgument(
- Sema &SemaRef, TemplateDecl *Template, SourceLocation TemplateLoc,
- SourceLocation RAngleLoc, TemplateTemplateParmDecl *Param,
- ArrayRef<TemplateArgument> SugaredConverted,
- ArrayRef<TemplateArgument> CanonicalConverted,
- NestedNameSpecifierLoc &QualifierLoc) {
- Sema::InstantiatingTemplate Inst(
- SemaRef, TemplateLoc, TemplateParameter(Param), Template,
- SugaredConverted, SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return TemplateName();
- // Only substitute for the innermost template argument list.
- MultiLevelTemplateArgumentList TemplateArgLists(Template, SugaredConverted,
- /*Final=*/true);
- for (unsigned i = 0, e = Param->getDepth(); i != e; ++i)
- TemplateArgLists.addOuterTemplateArguments(std::nullopt);
- Sema::ContextRAII SavedContext(SemaRef, Template->getDeclContext());
- // Substitute into the nested-name-specifier first,
- QualifierLoc = Param->getDefaultArgument().getTemplateQualifierLoc();
- if (QualifierLoc) {
- QualifierLoc =
- SemaRef.SubstNestedNameSpecifierLoc(QualifierLoc, TemplateArgLists);
- if (!QualifierLoc)
- return TemplateName();
- }
- return SemaRef.SubstTemplateName(
- QualifierLoc,
- Param->getDefaultArgument().getArgument().getAsTemplate(),
- Param->getDefaultArgument().getTemplateNameLoc(),
- TemplateArgLists);
- }
- /// If the given template parameter has a default template
- /// argument, substitute into that default template argument and
- /// return the corresponding template argument.
- TemplateArgumentLoc Sema::SubstDefaultTemplateArgumentIfAvailable(
- TemplateDecl *Template, SourceLocation TemplateLoc,
- SourceLocation RAngleLoc, Decl *Param,
- ArrayRef<TemplateArgument> SugaredConverted,
- ArrayRef<TemplateArgument> CanonicalConverted, bool &HasDefaultArg) {
- HasDefaultArg = false;
- if (TemplateTypeParmDecl *TypeParm = dyn_cast<TemplateTypeParmDecl>(Param)) {
- if (!hasReachableDefaultArgument(TypeParm))
- return TemplateArgumentLoc();
- HasDefaultArg = true;
- TypeSourceInfo *DI = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, TypeParm, SugaredConverted,
- CanonicalConverted);
- if (DI)
- return TemplateArgumentLoc(TemplateArgument(DI->getType()), DI);
- return TemplateArgumentLoc();
- }
- if (NonTypeTemplateParmDecl *NonTypeParm
- = dyn_cast<NonTypeTemplateParmDecl>(Param)) {
- if (!hasReachableDefaultArgument(NonTypeParm))
- return TemplateArgumentLoc();
- HasDefaultArg = true;
- ExprResult Arg = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, NonTypeParm, SugaredConverted,
- CanonicalConverted);
- if (Arg.isInvalid())
- return TemplateArgumentLoc();
- Expr *ArgE = Arg.getAs<Expr>();
- return TemplateArgumentLoc(TemplateArgument(ArgE), ArgE);
- }
- TemplateTemplateParmDecl *TempTempParm
- = cast<TemplateTemplateParmDecl>(Param);
- if (!hasReachableDefaultArgument(TempTempParm))
- return TemplateArgumentLoc();
- HasDefaultArg = true;
- NestedNameSpecifierLoc QualifierLoc;
- TemplateName TName = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, TempTempParm, SugaredConverted,
- CanonicalConverted, QualifierLoc);
- if (TName.isNull())
- return TemplateArgumentLoc();
- return TemplateArgumentLoc(
- Context, TemplateArgument(TName),
- TempTempParm->getDefaultArgument().getTemplateQualifierLoc(),
- TempTempParm->getDefaultArgument().getTemplateNameLoc());
- }
- /// Convert a template-argument that we parsed as a type into a template, if
- /// possible. C++ permits injected-class-names to perform dual service as
- /// template template arguments and as template type arguments.
- static TemplateArgumentLoc
- convertTypeTemplateArgumentToTemplate(ASTContext &Context, TypeLoc TLoc) {
- // Extract and step over any surrounding nested-name-specifier.
- NestedNameSpecifierLoc QualLoc;
- if (auto ETLoc = TLoc.getAs<ElaboratedTypeLoc>()) {
- if (ETLoc.getTypePtr()->getKeyword() != ETK_None)
- return TemplateArgumentLoc();
- QualLoc = ETLoc.getQualifierLoc();
- TLoc = ETLoc.getNamedTypeLoc();
- }
- // If this type was written as an injected-class-name, it can be used as a
- // template template argument.
- if (auto InjLoc = TLoc.getAs<InjectedClassNameTypeLoc>())
- return TemplateArgumentLoc(Context, InjLoc.getTypePtr()->getTemplateName(),
- QualLoc, InjLoc.getNameLoc());
- // If this type was written as an injected-class-name, it may have been
- // converted to a RecordType during instantiation. If the RecordType is
- // *not* wrapped in a TemplateSpecializationType and denotes a class
- // template specialization, it must have come from an injected-class-name.
- if (auto RecLoc = TLoc.getAs<RecordTypeLoc>())
- if (auto *CTSD =
- dyn_cast<ClassTemplateSpecializationDecl>(RecLoc.getDecl()))
- return TemplateArgumentLoc(Context,
- TemplateName(CTSD->getSpecializedTemplate()),
- QualLoc, RecLoc.getNameLoc());
- return TemplateArgumentLoc();
- }
- /// Check that the given template argument corresponds to the given
- /// template parameter.
- ///
- /// \param Param The template parameter against which the argument will be
- /// checked.
- ///
- /// \param Arg The template argument, which may be updated due to conversions.
- ///
- /// \param Template The template in which the template argument resides.
- ///
- /// \param TemplateLoc The location of the template name for the template
- /// whose argument list we're matching.
- ///
- /// \param RAngleLoc The location of the right angle bracket ('>') that closes
- /// the template argument list.
- ///
- /// \param ArgumentPackIndex The index into the argument pack where this
- /// argument will be placed. Only valid if the parameter is a parameter pack.
- ///
- /// \param Converted The checked, converted argument will be added to the
- /// end of this small vector.
- ///
- /// \param CTAK Describes how we arrived at this particular template argument:
- /// explicitly written, deduced, etc.
- ///
- /// \returns true on error, false otherwise.
- bool Sema::CheckTemplateArgument(
- NamedDecl *Param, TemplateArgumentLoc &Arg, NamedDecl *Template,
- SourceLocation TemplateLoc, SourceLocation RAngleLoc,
- unsigned ArgumentPackIndex,
- SmallVectorImpl<TemplateArgument> &SugaredConverted,
- SmallVectorImpl<TemplateArgument> &CanonicalConverted,
- CheckTemplateArgumentKind CTAK) {
- // Check template type parameters.
- if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(Param))
- return CheckTemplateTypeArgument(TTP, Arg, SugaredConverted,
- CanonicalConverted);
- // Check non-type template parameters.
- if (NonTypeTemplateParmDecl *NTTP =dyn_cast<NonTypeTemplateParmDecl>(Param)) {
- // Do substitution on the type of the non-type template parameter
- // with the template arguments we've seen thus far. But if the
- // template has a dependent context then we cannot substitute yet.
- QualType NTTPType = NTTP->getType();
- if (NTTP->isParameterPack() && NTTP->isExpandedParameterPack())
- NTTPType = NTTP->getExpansionType(ArgumentPackIndex);
- if (NTTPType->isInstantiationDependentType() &&
- !isa<TemplateTemplateParmDecl>(Template) &&
- !Template->getDeclContext()->isDependentContext()) {
- // Do substitution on the type of the non-type template parameter.
- InstantiatingTemplate Inst(*this, TemplateLoc, Template, NTTP,
- SugaredConverted,
- SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return true;
- MultiLevelTemplateArgumentList MLTAL(Template, SugaredConverted,
- /*Final=*/true);
- // If the parameter is a pack expansion, expand this slice of the pack.
- if (auto *PET = NTTPType->getAs<PackExpansionType>()) {
- Sema::ArgumentPackSubstitutionIndexRAII SubstIndex(*this,
- ArgumentPackIndex);
- NTTPType = SubstType(PET->getPattern(), MLTAL, NTTP->getLocation(),
- NTTP->getDeclName());
- } else {
- NTTPType = SubstType(NTTPType, MLTAL, NTTP->getLocation(),
- NTTP->getDeclName());
- }
- // If that worked, check the non-type template parameter type
- // for validity.
- if (!NTTPType.isNull())
- NTTPType = CheckNonTypeTemplateParameterType(NTTPType,
- NTTP->getLocation());
- if (NTTPType.isNull())
- return true;
- }
- switch (Arg.getArgument().getKind()) {
- case TemplateArgument::Null:
- llvm_unreachable("Should never see a NULL template argument here");
- case TemplateArgument::Expression: {
- Expr *E = Arg.getArgument().getAsExpr();
- TemplateArgument SugaredResult, CanonicalResult;
- unsigned CurSFINAEErrors = NumSFINAEErrors;
- ExprResult Res = CheckTemplateArgument(NTTP, NTTPType, E, SugaredResult,
- CanonicalResult, CTAK);
- if (Res.isInvalid())
- return true;
- // If the current template argument causes an error, give up now.
- if (CurSFINAEErrors < NumSFINAEErrors)
- return true;
- // If the resulting expression is new, then use it in place of the
- // old expression in the template argument.
- if (Res.get() != E) {
- TemplateArgument TA(Res.get());
- Arg = TemplateArgumentLoc(TA, Res.get());
- }
- SugaredConverted.push_back(SugaredResult);
- CanonicalConverted.push_back(CanonicalResult);
- break;
- }
- case TemplateArgument::Declaration:
- case TemplateArgument::Integral:
- case TemplateArgument::NullPtr:
- // We've already checked this template argument, so just copy
- // it to the list of converted arguments.
- SugaredConverted.push_back(Arg.getArgument());
- CanonicalConverted.push_back(
- Context.getCanonicalTemplateArgument(Arg.getArgument()));
- break;
- case TemplateArgument::Template:
- case TemplateArgument::TemplateExpansion:
- // We were given a template template argument. It may not be ill-formed;
- // see below.
- if (DependentTemplateName *DTN
- = Arg.getArgument().getAsTemplateOrTemplatePattern()
- .getAsDependentTemplateName()) {
- // We have a template argument such as \c T::template X, which we
- // parsed as a template template argument. However, since we now
- // know that we need a non-type template argument, convert this
- // template name into an expression.
- DeclarationNameInfo NameInfo(DTN->getIdentifier(),
- Arg.getTemplateNameLoc());
- CXXScopeSpec SS;
- SS.Adopt(Arg.getTemplateQualifierLoc());
- // FIXME: the template-template arg was a DependentTemplateName,
- // so it was provided with a template keyword. However, its source
- // location is not stored in the template argument structure.
- SourceLocation TemplateKWLoc;
- ExprResult E = DependentScopeDeclRefExpr::Create(
- Context, SS.getWithLocInContext(Context), TemplateKWLoc, NameInfo,
- nullptr);
- // If we parsed the template argument as a pack expansion, create a
- // pack expansion expression.
- if (Arg.getArgument().getKind() == TemplateArgument::TemplateExpansion){
- E = ActOnPackExpansion(E.get(), Arg.getTemplateEllipsisLoc());
- if (E.isInvalid())
- return true;
- }
- TemplateArgument SugaredResult, CanonicalResult;
- E = CheckTemplateArgument(NTTP, NTTPType, E.get(), SugaredResult,
- CanonicalResult, CTAK_Specified);
- if (E.isInvalid())
- return true;
- SugaredConverted.push_back(SugaredResult);
- CanonicalConverted.push_back(CanonicalResult);
- break;
- }
- // We have a template argument that actually does refer to a class
- // template, alias template, or template template parameter, and
- // therefore cannot be a non-type template argument.
- Diag(Arg.getLocation(), diag::err_template_arg_must_be_expr)
- << Arg.getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- case TemplateArgument::Type: {
- // We have a non-type template parameter but the template
- // argument is a type.
- // C++ [temp.arg]p2:
- // In a template-argument, an ambiguity between a type-id and
- // an expression is resolved to a type-id, regardless of the
- // form of the corresponding template-parameter.
- //
- // We warn specifically about this case, since it can be rather
- // confusing for users.
- QualType T = Arg.getArgument().getAsType();
- SourceRange SR = Arg.getSourceRange();
- if (T->isFunctionType())
- Diag(SR.getBegin(), diag::err_template_arg_nontype_ambig) << SR << T;
- else
- Diag(SR.getBegin(), diag::err_template_arg_must_be_expr) << SR;
- Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- case TemplateArgument::Pack:
- llvm_unreachable("Caller must expand template argument packs");
- }
- return false;
- }
- // Check template template parameters.
- TemplateTemplateParmDecl *TempParm = cast<TemplateTemplateParmDecl>(Param);
- TemplateParameterList *Params = TempParm->getTemplateParameters();
- if (TempParm->isExpandedParameterPack())
- Params = TempParm->getExpansionTemplateParameters(ArgumentPackIndex);
- // Substitute into the template parameter list of the template
- // template parameter, since previously-supplied template arguments
- // may appear within the template template parameter.
- //
- // FIXME: Skip this if the parameters aren't instantiation-dependent.
- {
- // Set up a template instantiation context.
- LocalInstantiationScope Scope(*this);
- InstantiatingTemplate Inst(*this, TemplateLoc, Template, TempParm,
- SugaredConverted,
- SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return true;
- Params =
- SubstTemplateParams(Params, CurContext,
- MultiLevelTemplateArgumentList(
- Template, SugaredConverted, /*Final=*/true),
- /*EvaluateConstraints=*/false);
- if (!Params)
- return true;
- }
- // C++1z [temp.local]p1: (DR1004)
- // When [the injected-class-name] is used [...] as a template-argument for
- // a template template-parameter [...] it refers to the class template
- // itself.
- if (Arg.getArgument().getKind() == TemplateArgument::Type) {
- TemplateArgumentLoc ConvertedArg = convertTypeTemplateArgumentToTemplate(
- Context, Arg.getTypeSourceInfo()->getTypeLoc());
- if (!ConvertedArg.getArgument().isNull())
- Arg = ConvertedArg;
- }
- switch (Arg.getArgument().getKind()) {
- case TemplateArgument::Null:
- llvm_unreachable("Should never see a NULL template argument here");
- case TemplateArgument::Template:
- case TemplateArgument::TemplateExpansion:
- if (CheckTemplateTemplateArgument(TempParm, Params, Arg))
- return true;
- SugaredConverted.push_back(Arg.getArgument());
- CanonicalConverted.push_back(
- Context.getCanonicalTemplateArgument(Arg.getArgument()));
- break;
- case TemplateArgument::Expression:
- case TemplateArgument::Type:
- // We have a template template parameter but the template
- // argument does not refer to a template.
- Diag(Arg.getLocation(), diag::err_template_arg_must_be_template)
- << getLangOpts().CPlusPlus11;
- return true;
- case TemplateArgument::Declaration:
- llvm_unreachable("Declaration argument with template template parameter");
- case TemplateArgument::Integral:
- llvm_unreachable("Integral argument with template template parameter");
- case TemplateArgument::NullPtr:
- llvm_unreachable("Null pointer argument with template template parameter");
- case TemplateArgument::Pack:
- llvm_unreachable("Caller must expand template argument packs");
- }
- return false;
- }
- /// Diagnose a missing template argument.
- template<typename TemplateParmDecl>
- static bool diagnoseMissingArgument(Sema &S, SourceLocation Loc,
- TemplateDecl *TD,
- const TemplateParmDecl *D,
- TemplateArgumentListInfo &Args) {
- // Dig out the most recent declaration of the template parameter; there may be
- // declarations of the template that are more recent than TD.
- D = cast<TemplateParmDecl>(cast<TemplateDecl>(TD->getMostRecentDecl())
- ->getTemplateParameters()
- ->getParam(D->getIndex()));
- // If there's a default argument that's not reachable, diagnose that we're
- // missing a module import.
- llvm::SmallVector<Module*, 8> Modules;
- if (D->hasDefaultArgument() && !S.hasReachableDefaultArgument(D, &Modules)) {
- S.diagnoseMissingImport(Loc, cast<NamedDecl>(TD),
- D->getDefaultArgumentLoc(), Modules,
- Sema::MissingImportKind::DefaultArgument,
- /*Recover*/true);
- return true;
- }
- // FIXME: If there's a more recent default argument that *is* visible,
- // diagnose that it was declared too late.
- TemplateParameterList *Params = TD->getTemplateParameters();
- S.Diag(Loc, diag::err_template_arg_list_different_arity)
- << /*not enough args*/0
- << (int)S.getTemplateNameKindForDiagnostics(TemplateName(TD))
- << TD;
- S.Diag(TD->getLocation(), diag::note_template_decl_here)
- << Params->getSourceRange();
- return true;
- }
- /// Check that the given template argument list is well-formed
- /// for specializing the given template.
- bool Sema::CheckTemplateArgumentList(
- TemplateDecl *Template, SourceLocation TemplateLoc,
- TemplateArgumentListInfo &TemplateArgs, bool PartialTemplateArgs,
- SmallVectorImpl<TemplateArgument> &SugaredConverted,
- SmallVectorImpl<TemplateArgument> &CanonicalConverted,
- bool UpdateArgsWithConversions, bool *ConstraintsNotSatisfied) {
- if (ConstraintsNotSatisfied)
- *ConstraintsNotSatisfied = false;
- // Make a copy of the template arguments for processing. Only make the
- // changes at the end when successful in matching the arguments to the
- // template.
- TemplateArgumentListInfo NewArgs = TemplateArgs;
- // Make sure we get the template parameter list from the most
- // recent declaration, since that is the only one that is guaranteed to
- // have all the default template argument information.
- TemplateParameterList *Params =
- cast<TemplateDecl>(Template->getMostRecentDecl())
- ->getTemplateParameters();
- SourceLocation RAngleLoc = NewArgs.getRAngleLoc();
- // C++ [temp.arg]p1:
- // [...] The type and form of each template-argument specified in
- // a template-id shall match the type and form specified for the
- // corresponding parameter declared by the template in its
- // template-parameter-list.
- bool isTemplateTemplateParameter = isa<TemplateTemplateParmDecl>(Template);
- SmallVector<TemplateArgument, 2> SugaredArgumentPack;
- SmallVector<TemplateArgument, 2> CanonicalArgumentPack;
- unsigned ArgIdx = 0, NumArgs = NewArgs.size();
- LocalInstantiationScope InstScope(*this, true);
- for (TemplateParameterList::iterator Param = Params->begin(),
- ParamEnd = Params->end();
- Param != ParamEnd; /* increment in loop */) {
- // If we have an expanded parameter pack, make sure we don't have too
- // many arguments.
- if (std::optional<unsigned> Expansions = getExpandedPackSize(*Param)) {
- if (*Expansions == SugaredArgumentPack.size()) {
- // We're done with this parameter pack. Pack up its arguments and add
- // them to the list.
- SugaredConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, SugaredArgumentPack));
- SugaredArgumentPack.clear();
- CanonicalConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, CanonicalArgumentPack));
- CanonicalArgumentPack.clear();
- // This argument is assigned to the next parameter.
- ++Param;
- continue;
- } else if (ArgIdx == NumArgs && !PartialTemplateArgs) {
- // Not enough arguments for this parameter pack.
- Diag(TemplateLoc, diag::err_template_arg_list_different_arity)
- << /*not enough args*/0
- << (int)getTemplateNameKindForDiagnostics(TemplateName(Template))
- << Template;
- Diag(Template->getLocation(), diag::note_template_decl_here)
- << Params->getSourceRange();
- return true;
- }
- }
- if (ArgIdx < NumArgs) {
- // Check the template argument we were given.
- if (CheckTemplateArgument(*Param, NewArgs[ArgIdx], Template, TemplateLoc,
- RAngleLoc, SugaredArgumentPack.size(),
- SugaredConverted, CanonicalConverted,
- CTAK_Specified))
- return true;
- bool PackExpansionIntoNonPack =
- NewArgs[ArgIdx].getArgument().isPackExpansion() &&
- (!(*Param)->isTemplateParameterPack() || getExpandedPackSize(*Param));
- if (PackExpansionIntoNonPack && (isa<TypeAliasTemplateDecl>(Template) ||
- isa<ConceptDecl>(Template))) {
- // Core issue 1430: we have a pack expansion as an argument to an
- // alias template, and it's not part of a parameter pack. This
- // can't be canonicalized, so reject it now.
- // As for concepts - we cannot normalize constraints where this
- // situation exists.
- Diag(NewArgs[ArgIdx].getLocation(),
- diag::err_template_expansion_into_fixed_list)
- << (isa<ConceptDecl>(Template) ? 1 : 0)
- << NewArgs[ArgIdx].getSourceRange();
- Diag((*Param)->getLocation(), diag::note_template_param_here);
- return true;
- }
- // We're now done with this argument.
- ++ArgIdx;
- if ((*Param)->isTemplateParameterPack()) {
- // The template parameter was a template parameter pack, so take the
- // deduced argument and place it on the argument pack. Note that we
- // stay on the same template parameter so that we can deduce more
- // arguments.
- SugaredArgumentPack.push_back(SugaredConverted.pop_back_val());
- CanonicalArgumentPack.push_back(CanonicalConverted.pop_back_val());
- } else {
- // Move to the next template parameter.
- ++Param;
- }
- // If we just saw a pack expansion into a non-pack, then directly convert
- // the remaining arguments, because we don't know what parameters they'll
- // match up with.
- if (PackExpansionIntoNonPack) {
- if (!SugaredArgumentPack.empty()) {
- // If we were part way through filling in an expanded parameter pack,
- // fall back to just producing individual arguments.
- SugaredConverted.insert(SugaredConverted.end(),
- SugaredArgumentPack.begin(),
- SugaredArgumentPack.end());
- SugaredArgumentPack.clear();
- CanonicalConverted.insert(CanonicalConverted.end(),
- CanonicalArgumentPack.begin(),
- CanonicalArgumentPack.end());
- CanonicalArgumentPack.clear();
- }
- while (ArgIdx < NumArgs) {
- const TemplateArgument &Arg = NewArgs[ArgIdx].getArgument();
- SugaredConverted.push_back(Arg);
- CanonicalConverted.push_back(
- Context.getCanonicalTemplateArgument(Arg));
- ++ArgIdx;
- }
- return false;
- }
- continue;
- }
- // If we're checking a partial template argument list, we're done.
- if (PartialTemplateArgs) {
- if ((*Param)->isTemplateParameterPack() && !SugaredArgumentPack.empty()) {
- SugaredConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, SugaredArgumentPack));
- CanonicalConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, CanonicalArgumentPack));
- }
- return false;
- }
- // If we have a template parameter pack with no more corresponding
- // arguments, just break out now and we'll fill in the argument pack below.
- if ((*Param)->isTemplateParameterPack()) {
- assert(!getExpandedPackSize(*Param) &&
- "Should have dealt with this already");
- // A non-expanded parameter pack before the end of the parameter list
- // only occurs for an ill-formed template parameter list, unless we've
- // got a partial argument list for a function template, so just bail out.
- if (Param + 1 != ParamEnd) {
- assert(
- (Template->getMostRecentDecl()->getKind() != Decl::Kind::Concept) &&
- "Concept templates must have parameter packs at the end.");
- return true;
- }
- SugaredConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, SugaredArgumentPack));
- SugaredArgumentPack.clear();
- CanonicalConverted.push_back(
- TemplateArgument::CreatePackCopy(Context, CanonicalArgumentPack));
- CanonicalArgumentPack.clear();
- ++Param;
- continue;
- }
- // Check whether we have a default argument.
- TemplateArgumentLoc Arg;
- // Retrieve the default template argument from the template
- // parameter. For each kind of template parameter, we substitute the
- // template arguments provided thus far and any "outer" template arguments
- // (when the template parameter was part of a nested template) into
- // the default argument.
- if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(*Param)) {
- if (!hasReachableDefaultArgument(TTP))
- return diagnoseMissingArgument(*this, TemplateLoc, Template, TTP,
- NewArgs);
- TypeSourceInfo *ArgType = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, TTP, SugaredConverted,
- CanonicalConverted);
- if (!ArgType)
- return true;
- Arg = TemplateArgumentLoc(TemplateArgument(ArgType->getType()),
- ArgType);
- } else if (NonTypeTemplateParmDecl *NTTP
- = dyn_cast<NonTypeTemplateParmDecl>(*Param)) {
- if (!hasReachableDefaultArgument(NTTP))
- return diagnoseMissingArgument(*this, TemplateLoc, Template, NTTP,
- NewArgs);
- ExprResult E = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, NTTP, SugaredConverted,
- CanonicalConverted);
- if (E.isInvalid())
- return true;
- Expr *Ex = E.getAs<Expr>();
- Arg = TemplateArgumentLoc(TemplateArgument(Ex), Ex);
- } else {
- TemplateTemplateParmDecl *TempParm
- = cast<TemplateTemplateParmDecl>(*Param);
- if (!hasReachableDefaultArgument(TempParm))
- return diagnoseMissingArgument(*this, TemplateLoc, Template, TempParm,
- NewArgs);
- NestedNameSpecifierLoc QualifierLoc;
- TemplateName Name = SubstDefaultTemplateArgument(
- *this, Template, TemplateLoc, RAngleLoc, TempParm, SugaredConverted,
- CanonicalConverted, QualifierLoc);
- if (Name.isNull())
- return true;
- Arg = TemplateArgumentLoc(
- Context, TemplateArgument(Name), QualifierLoc,
- TempParm->getDefaultArgument().getTemplateNameLoc());
- }
- // Introduce an instantiation record that describes where we are using
- // the default template argument. We're not actually instantiating a
- // template here, we just create this object to put a note into the
- // context stack.
- InstantiatingTemplate Inst(*this, RAngleLoc, Template, *Param,
- SugaredConverted,
- SourceRange(TemplateLoc, RAngleLoc));
- if (Inst.isInvalid())
- return true;
- // Check the default template argument.
- if (CheckTemplateArgument(*Param, Arg, Template, TemplateLoc, RAngleLoc, 0,
- SugaredConverted, CanonicalConverted,
- CTAK_Specified))
- return true;
- // Core issue 150 (assumed resolution): if this is a template template
- // parameter, keep track of the default template arguments from the
- // template definition.
- if (isTemplateTemplateParameter)
- NewArgs.addArgument(Arg);
- // Move to the next template parameter and argument.
- ++Param;
- ++ArgIdx;
- }
- // If we're performing a partial argument substitution, allow any trailing
- // pack expansions; they might be empty. This can happen even if
- // PartialTemplateArgs is false (the list of arguments is complete but
- // still dependent).
- if (ArgIdx < NumArgs && CurrentInstantiationScope &&
- CurrentInstantiationScope->getPartiallySubstitutedPack()) {
- while (ArgIdx < NumArgs &&
- NewArgs[ArgIdx].getArgument().isPackExpansion()) {
- const TemplateArgument &Arg = NewArgs[ArgIdx++].getArgument();
- SugaredConverted.push_back(Arg);
- CanonicalConverted.push_back(Context.getCanonicalTemplateArgument(Arg));
- }
- }
- // If we have any leftover arguments, then there were too many arguments.
- // Complain and fail.
- if (ArgIdx < NumArgs) {
- Diag(TemplateLoc, diag::err_template_arg_list_different_arity)
- << /*too many args*/1
- << (int)getTemplateNameKindForDiagnostics(TemplateName(Template))
- << Template
- << SourceRange(NewArgs[ArgIdx].getLocation(), NewArgs.getRAngleLoc());
- Diag(Template->getLocation(), diag::note_template_decl_here)
- << Params->getSourceRange();
- return true;
- }
- // No problems found with the new argument list, propagate changes back
- // to caller.
- if (UpdateArgsWithConversions)
- TemplateArgs = std::move(NewArgs);
- if (!PartialTemplateArgs) {
- TemplateArgumentList StackTemplateArgs(TemplateArgumentList::OnStack,
- CanonicalConverted);
- // Setup the context/ThisScope for the case where we are needing to
- // re-instantiate constraints outside of normal instantiation.
- DeclContext *NewContext = Template->getDeclContext();
- // If this template is in a template, make sure we extract the templated
- // decl.
- if (auto *TD = dyn_cast<TemplateDecl>(NewContext))
- NewContext = Decl::castToDeclContext(TD->getTemplatedDecl());
- auto *RD = dyn_cast<CXXRecordDecl>(NewContext);
- Qualifiers ThisQuals;
- if (const auto *Method =
- dyn_cast_or_null<CXXMethodDecl>(Template->getTemplatedDecl()))
- ThisQuals = Method->getMethodQualifiers();
- ContextRAII Context(*this, NewContext);
- CXXThisScopeRAII(*this, RD, ThisQuals, RD != nullptr);
- MultiLevelTemplateArgumentList MLTAL = getTemplateInstantiationArgs(
- Template, /*Final=*/false, &StackTemplateArgs,
- /*RelativeToPrimary=*/true,
- /*Pattern=*/nullptr,
- /*ForConceptInstantiation=*/true);
- if (EnsureTemplateArgumentListConstraints(
- Template, MLTAL,
- SourceRange(TemplateLoc, TemplateArgs.getRAngleLoc()))) {
- if (ConstraintsNotSatisfied)
- *ConstraintsNotSatisfied = true;
- return true;
- }
- }
- return false;
- }
- namespace {
- class UnnamedLocalNoLinkageFinder
- : public TypeVisitor<UnnamedLocalNoLinkageFinder, bool>
- {
- Sema &S;
- SourceRange SR;
- typedef TypeVisitor<UnnamedLocalNoLinkageFinder, bool> inherited;
- public:
- UnnamedLocalNoLinkageFinder(Sema &S, SourceRange SR) : S(S), SR(SR) { }
- bool Visit(QualType T) {
- return T.isNull() ? false : inherited::Visit(T.getTypePtr());
- }
- #define TYPE(Class, Parent) \
- bool Visit##Class##Type(const Class##Type *);
- #define ABSTRACT_TYPE(Class, Parent) \
- bool Visit##Class##Type(const Class##Type *) { return false; }
- #define NON_CANONICAL_TYPE(Class, Parent) \
- bool Visit##Class##Type(const Class##Type *) { return false; }
- #include "clang/AST/TypeNodes.inc"
- bool VisitTagDecl(const TagDecl *Tag);
- bool VisitNestedNameSpecifier(NestedNameSpecifier *NNS);
- };
- } // end anonymous namespace
- bool UnnamedLocalNoLinkageFinder::VisitBuiltinType(const BuiltinType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitComplexType(const ComplexType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitPointerType(const PointerType* T) {
- return Visit(T->getPointeeType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitBlockPointerType(
- const BlockPointerType* T) {
- return Visit(T->getPointeeType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitLValueReferenceType(
- const LValueReferenceType* T) {
- return Visit(T->getPointeeType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitRValueReferenceType(
- const RValueReferenceType* T) {
- return Visit(T->getPointeeType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitMemberPointerType(
- const MemberPointerType* T) {
- return Visit(T->getPointeeType()) || Visit(QualType(T->getClass(), 0));
- }
- bool UnnamedLocalNoLinkageFinder::VisitConstantArrayType(
- const ConstantArrayType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitIncompleteArrayType(
- const IncompleteArrayType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitVariableArrayType(
- const VariableArrayType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentSizedArrayType(
- const DependentSizedArrayType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentSizedExtVectorType(
- const DependentSizedExtVectorType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentSizedMatrixType(
- const DependentSizedMatrixType *T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentAddressSpaceType(
- const DependentAddressSpaceType *T) {
- return Visit(T->getPointeeType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitVectorType(const VectorType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentVectorType(
- const DependentVectorType *T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitExtVectorType(const ExtVectorType* T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitConstantMatrixType(
- const ConstantMatrixType *T) {
- return Visit(T->getElementType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitFunctionProtoType(
- const FunctionProtoType* T) {
- for (const auto &A : T->param_types()) {
- if (Visit(A))
- return true;
- }
- return Visit(T->getReturnType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitFunctionNoProtoType(
- const FunctionNoProtoType* T) {
- return Visit(T->getReturnType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitUnresolvedUsingType(
- const UnresolvedUsingType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitTypeOfExprType(const TypeOfExprType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitTypeOfType(const TypeOfType* T) {
- return Visit(T->getUnmodifiedType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDecltypeType(const DecltypeType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitUnaryTransformType(
- const UnaryTransformType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitAutoType(const AutoType *T) {
- return Visit(T->getDeducedType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDeducedTemplateSpecializationType(
- const DeducedTemplateSpecializationType *T) {
- return Visit(T->getDeducedType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitRecordType(const RecordType* T) {
- return VisitTagDecl(T->getDecl());
- }
- bool UnnamedLocalNoLinkageFinder::VisitEnumType(const EnumType* T) {
- return VisitTagDecl(T->getDecl());
- }
- bool UnnamedLocalNoLinkageFinder::VisitTemplateTypeParmType(
- const TemplateTypeParmType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitSubstTemplateTypeParmPackType(
- const SubstTemplateTypeParmPackType *) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitTemplateSpecializationType(
- const TemplateSpecializationType*) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitInjectedClassNameType(
- const InjectedClassNameType* T) {
- return VisitTagDecl(T->getDecl());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentNameType(
- const DependentNameType* T) {
- return VisitNestedNameSpecifier(T->getQualifier());
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentTemplateSpecializationType(
- const DependentTemplateSpecializationType* T) {
- if (auto *Q = T->getQualifier())
- return VisitNestedNameSpecifier(Q);
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitPackExpansionType(
- const PackExpansionType* T) {
- return Visit(T->getPattern());
- }
- bool UnnamedLocalNoLinkageFinder::VisitObjCObjectType(const ObjCObjectType *) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitObjCInterfaceType(
- const ObjCInterfaceType *) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitObjCObjectPointerType(
- const ObjCObjectPointerType *) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitAtomicType(const AtomicType* T) {
- return Visit(T->getValueType());
- }
- bool UnnamedLocalNoLinkageFinder::VisitPipeType(const PipeType* T) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitBitIntType(const BitIntType *T) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitDependentBitIntType(
- const DependentBitIntType *T) {
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitTagDecl(const TagDecl *Tag) {
- if (Tag->getDeclContext()->isFunctionOrMethod()) {
- S.Diag(SR.getBegin(),
- S.getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_template_arg_local_type :
- diag::ext_template_arg_local_type)
- << S.Context.getTypeDeclType(Tag) << SR;
- return true;
- }
- if (!Tag->hasNameForLinkage()) {
- S.Diag(SR.getBegin(),
- S.getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_template_arg_unnamed_type :
- diag::ext_template_arg_unnamed_type) << SR;
- S.Diag(Tag->getLocation(), diag::note_template_unnamed_type_here);
- return true;
- }
- return false;
- }
- bool UnnamedLocalNoLinkageFinder::VisitNestedNameSpecifier(
- NestedNameSpecifier *NNS) {
- assert(NNS);
- if (NNS->getPrefix() && VisitNestedNameSpecifier(NNS->getPrefix()))
- return true;
- switch (NNS->getKind()) {
- case NestedNameSpecifier::Identifier:
- case NestedNameSpecifier::Namespace:
- case NestedNameSpecifier::NamespaceAlias:
- case NestedNameSpecifier::Global:
- case NestedNameSpecifier::Super:
- return false;
- case NestedNameSpecifier::TypeSpec:
- case NestedNameSpecifier::TypeSpecWithTemplate:
- return Visit(QualType(NNS->getAsType(), 0));
- }
- llvm_unreachable("Invalid NestedNameSpecifier::Kind!");
- }
- /// Check a template argument against its corresponding
- /// template type parameter.
- ///
- /// This routine implements the semantics of C++ [temp.arg.type]. It
- /// returns true if an error occurred, and false otherwise.
- bool Sema::CheckTemplateArgument(TypeSourceInfo *ArgInfo) {
- assert(ArgInfo && "invalid TypeSourceInfo");
- QualType Arg = ArgInfo->getType();
- SourceRange SR = ArgInfo->getTypeLoc().getSourceRange();
- QualType CanonArg = Context.getCanonicalType(Arg);
- if (CanonArg->isVariablyModifiedType()) {
- return Diag(SR.getBegin(), diag::err_variably_modified_template_arg) << Arg;
- } else if (Context.hasSameUnqualifiedType(Arg, Context.OverloadTy)) {
- return Diag(SR.getBegin(), diag::err_template_arg_overload_type) << SR;
- }
- // C++03 [temp.arg.type]p2:
- // A local type, a type with no linkage, an unnamed type or a type
- // compounded from any of these types shall not be used as a
- // template-argument for a template type-parameter.
- //
- // C++11 allows these, and even in C++03 we allow them as an extension with
- // a warning.
- if (LangOpts.CPlusPlus11 || CanonArg->hasUnnamedOrLocalType()) {
- UnnamedLocalNoLinkageFinder Finder(*this, SR);
- (void)Finder.Visit(CanonArg);
- }
- return false;
- }
- enum NullPointerValueKind {
- NPV_NotNullPointer,
- NPV_NullPointer,
- NPV_Error
- };
- /// Determine whether the given template argument is a null pointer
- /// value of the appropriate type.
- static NullPointerValueKind
- isNullPointerValueTemplateArgument(Sema &S, NonTypeTemplateParmDecl *Param,
- QualType ParamType, Expr *Arg,
- Decl *Entity = nullptr) {
- if (Arg->isValueDependent() || Arg->isTypeDependent())
- return NPV_NotNullPointer;
- // dllimport'd entities aren't constant but are available inside of template
- // arguments.
- if (Entity && Entity->hasAttr<DLLImportAttr>())
- return NPV_NotNullPointer;
- if (!S.isCompleteType(Arg->getExprLoc(), ParamType))
- llvm_unreachable(
- "Incomplete parameter type in isNullPointerValueTemplateArgument!");
- if (!S.getLangOpts().CPlusPlus11)
- return NPV_NotNullPointer;
- // Determine whether we have a constant expression.
- ExprResult ArgRV = S.DefaultFunctionArrayConversion(Arg);
- if (ArgRV.isInvalid())
- return NPV_Error;
- Arg = ArgRV.get();
- Expr::EvalResult EvalResult;
- SmallVector<PartialDiagnosticAt, 8> Notes;
- EvalResult.Diag = &Notes;
- if (!Arg->EvaluateAsRValue(EvalResult, S.Context) ||
- EvalResult.HasSideEffects) {
- SourceLocation DiagLoc = Arg->getExprLoc();
- // If our only note is the usual "invalid subexpression" note, just point
- // the caret at its location rather than producing an essentially
- // redundant note.
- if (Notes.size() == 1 && Notes[0].second.getDiagID() ==
- diag::note_invalid_subexpr_in_const_expr) {
- DiagLoc = Notes[0].first;
- Notes.clear();
- }
- S.Diag(DiagLoc, diag::err_template_arg_not_address_constant)
- << Arg->getType() << Arg->getSourceRange();
- for (unsigned I = 0, N = Notes.size(); I != N; ++I)
- S.Diag(Notes[I].first, Notes[I].second);
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return NPV_Error;
- }
- // C++11 [temp.arg.nontype]p1:
- // - an address constant expression of type std::nullptr_t
- if (Arg->getType()->isNullPtrType())
- return NPV_NullPointer;
- // - a constant expression that evaluates to a null pointer value (4.10); or
- // - a constant expression that evaluates to a null member pointer value
- // (4.11); or
- if ((EvalResult.Val.isLValue() && EvalResult.Val.isNullPointer()) ||
- (EvalResult.Val.isMemberPointer() &&
- !EvalResult.Val.getMemberPointerDecl())) {
- // If our expression has an appropriate type, we've succeeded.
- bool ObjCLifetimeConversion;
- if (S.Context.hasSameUnqualifiedType(Arg->getType(), ParamType) ||
- S.IsQualificationConversion(Arg->getType(), ParamType, false,
- ObjCLifetimeConversion))
- return NPV_NullPointer;
- // The types didn't match, but we know we got a null pointer; complain,
- // then recover as if the types were correct.
- S.Diag(Arg->getExprLoc(), diag::err_template_arg_wrongtype_null_constant)
- << Arg->getType() << ParamType << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return NPV_NullPointer;
- }
- if (EvalResult.Val.isLValue() && !EvalResult.Val.getLValueBase()) {
- // We found a pointer that isn't null, but doesn't refer to an object.
- // We could just return NPV_NotNullPointer, but we can print a better
- // message with the information we have here.
- S.Diag(Arg->getExprLoc(), diag::err_template_arg_invalid)
- << EvalResult.Val.getAsString(S.Context, ParamType);
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return NPV_Error;
- }
- // If we don't have a null pointer value, but we do have a NULL pointer
- // constant, suggest a cast to the appropriate type.
- if (Arg->isNullPointerConstant(S.Context, Expr::NPC_NeverValueDependent)) {
- std::string Code = "static_cast<" + ParamType.getAsString() + ">(";
- S.Diag(Arg->getExprLoc(), diag::err_template_arg_untyped_null_constant)
- << ParamType << FixItHint::CreateInsertion(Arg->getBeginLoc(), Code)
- << FixItHint::CreateInsertion(S.getLocForEndOfToken(Arg->getEndLoc()),
- ")");
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return NPV_NullPointer;
- }
- // FIXME: If we ever want to support general, address-constant expressions
- // as non-type template arguments, we should return the ExprResult here to
- // be interpreted by the caller.
- return NPV_NotNullPointer;
- }
- /// Checks whether the given template argument is compatible with its
- /// template parameter.
- static bool CheckTemplateArgumentIsCompatibleWithParameter(
- Sema &S, NonTypeTemplateParmDecl *Param, QualType ParamType, Expr *ArgIn,
- Expr *Arg, QualType ArgType) {
- bool ObjCLifetimeConversion;
- if (ParamType->isPointerType() &&
- !ParamType->castAs<PointerType>()->getPointeeType()->isFunctionType() &&
- S.IsQualificationConversion(ArgType, ParamType, false,
- ObjCLifetimeConversion)) {
- // For pointer-to-object types, qualification conversions are
- // permitted.
- } else {
- if (const ReferenceType *ParamRef = ParamType->getAs<ReferenceType>()) {
- if (!ParamRef->getPointeeType()->isFunctionType()) {
- // C++ [temp.arg.nontype]p5b3:
- // For a non-type template-parameter of type reference to
- // object, no conversions apply. The type referred to by the
- // reference may be more cv-qualified than the (otherwise
- // identical) type of the template- argument. The
- // template-parameter is bound directly to the
- // template-argument, which shall be an lvalue.
- // FIXME: Other qualifiers?
- unsigned ParamQuals = ParamRef->getPointeeType().getCVRQualifiers();
- unsigned ArgQuals = ArgType.getCVRQualifiers();
- if ((ParamQuals | ArgQuals) != ParamQuals) {
- S.Diag(Arg->getBeginLoc(),
- diag::err_template_arg_ref_bind_ignores_quals)
- << ParamType << Arg->getType() << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- }
- }
- // At this point, the template argument refers to an object or
- // function with external linkage. We now need to check whether the
- // argument and parameter types are compatible.
- if (!S.Context.hasSameUnqualifiedType(ArgType,
- ParamType.getNonReferenceType())) {
- // We can't perform this conversion or binding.
- if (ParamType->isReferenceType())
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_no_ref_bind)
- << ParamType << ArgIn->getType() << Arg->getSourceRange();
- else
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_convertible)
- << ArgIn->getType() << ParamType << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- }
- return false;
- }
- /// Checks whether the given template argument is the address
- /// of an object or function according to C++ [temp.arg.nontype]p1.
- static bool CheckTemplateArgumentAddressOfObjectOrFunction(
- Sema &S, NonTypeTemplateParmDecl *Param, QualType ParamType, Expr *ArgIn,
- TemplateArgument &SugaredConverted, TemplateArgument &CanonicalConverted) {
- bool Invalid = false;
- Expr *Arg = ArgIn;
- QualType ArgType = Arg->getType();
- bool AddressTaken = false;
- SourceLocation AddrOpLoc;
- if (S.getLangOpts().MicrosoftExt) {
- // Microsoft Visual C++ strips all casts, allows an arbitrary number of
- // dereference and address-of operators.
- Arg = Arg->IgnoreParenCasts();
- bool ExtWarnMSTemplateArg = false;
- UnaryOperatorKind FirstOpKind;
- SourceLocation FirstOpLoc;
- while (UnaryOperator *UnOp = dyn_cast<UnaryOperator>(Arg)) {
- UnaryOperatorKind UnOpKind = UnOp->getOpcode();
- if (UnOpKind == UO_Deref)
- ExtWarnMSTemplateArg = true;
- if (UnOpKind == UO_AddrOf || UnOpKind == UO_Deref) {
- Arg = UnOp->getSubExpr()->IgnoreParenCasts();
- if (!AddrOpLoc.isValid()) {
- FirstOpKind = UnOpKind;
- FirstOpLoc = UnOp->getOperatorLoc();
- }
- } else
- break;
- }
- if (FirstOpLoc.isValid()) {
- if (ExtWarnMSTemplateArg)
- S.Diag(ArgIn->getBeginLoc(), diag::ext_ms_deref_template_argument)
- << ArgIn->getSourceRange();
- if (FirstOpKind == UO_AddrOf)
- AddressTaken = true;
- else if (Arg->getType()->isPointerType()) {
- // We cannot let pointers get dereferenced here, that is obviously not a
- // constant expression.
- assert(FirstOpKind == UO_Deref);
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_decl_ref)
- << Arg->getSourceRange();
- }
- }
- } else {
- // See through any implicit casts we added to fix the type.
- Arg = Arg->IgnoreImpCasts();
- // C++ [temp.arg.nontype]p1:
- //
- // A template-argument for a non-type, non-template
- // template-parameter shall be one of: [...]
- //
- // -- the address of an object or function with external
- // linkage, including function templates and function
- // template-ids but excluding non-static class members,
- // expressed as & id-expression where the & is optional if
- // the name refers to a function or array, or if the
- // corresponding template-parameter is a reference; or
- // In C++98/03 mode, give an extension warning on any extra parentheses.
- // See http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_defects.html#773
- bool ExtraParens = false;
- while (ParenExpr *Parens = dyn_cast<ParenExpr>(Arg)) {
- if (!Invalid && !ExtraParens) {
- S.Diag(Arg->getBeginLoc(),
- S.getLangOpts().CPlusPlus11
- ? diag::warn_cxx98_compat_template_arg_extra_parens
- : diag::ext_template_arg_extra_parens)
- << Arg->getSourceRange();
- ExtraParens = true;
- }
- Arg = Parens->getSubExpr();
- }
- while (SubstNonTypeTemplateParmExpr *subst =
- dyn_cast<SubstNonTypeTemplateParmExpr>(Arg))
- Arg = subst->getReplacement()->IgnoreImpCasts();
- if (UnaryOperator *UnOp = dyn_cast<UnaryOperator>(Arg)) {
- if (UnOp->getOpcode() == UO_AddrOf) {
- Arg = UnOp->getSubExpr();
- AddressTaken = true;
- AddrOpLoc = UnOp->getOperatorLoc();
- }
- }
- while (SubstNonTypeTemplateParmExpr *subst =
- dyn_cast<SubstNonTypeTemplateParmExpr>(Arg))
- Arg = subst->getReplacement()->IgnoreImpCasts();
- }
- ValueDecl *Entity = nullptr;
- if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(Arg))
- Entity = DRE->getDecl();
- else if (CXXUuidofExpr *CUE = dyn_cast<CXXUuidofExpr>(Arg))
- Entity = CUE->getGuidDecl();
- // If our parameter has pointer type, check for a null template value.
- if (ParamType->isPointerType() || ParamType->isNullPtrType()) {
- switch (isNullPointerValueTemplateArgument(S, Param, ParamType, ArgIn,
- Entity)) {
- case NPV_NullPointer:
- S.Diag(Arg->getExprLoc(), diag::warn_cxx98_compat_template_arg_null);
- SugaredConverted = TemplateArgument(ParamType,
- /*isNullPtr=*/true);
- CanonicalConverted =
- TemplateArgument(S.Context.getCanonicalType(ParamType),
- /*isNullPtr=*/true);
- return false;
- case NPV_Error:
- return true;
- case NPV_NotNullPointer:
- break;
- }
- }
- // Stop checking the precise nature of the argument if it is value dependent,
- // it should be checked when instantiated.
- if (Arg->isValueDependent()) {
- SugaredConverted = TemplateArgument(ArgIn);
- CanonicalConverted =
- S.Context.getCanonicalTemplateArgument(SugaredConverted);
- return false;
- }
- if (!Entity) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_decl_ref)
- << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- // Cannot refer to non-static data members
- if (isa<FieldDecl>(Entity) || isa<IndirectFieldDecl>(Entity)) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_field)
- << Entity << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- // Cannot refer to non-static member functions
- if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(Entity)) {
- if (!Method->isStatic()) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_method)
- << Method << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- }
- FunctionDecl *Func = dyn_cast<FunctionDecl>(Entity);
- VarDecl *Var = dyn_cast<VarDecl>(Entity);
- MSGuidDecl *Guid = dyn_cast<MSGuidDecl>(Entity);
- // A non-type template argument must refer to an object or function.
- if (!Func && !Var && !Guid) {
- // We found something, but we don't know specifically what it is.
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_object_or_func)
- << Arg->getSourceRange();
- S.Diag(Entity->getLocation(), diag::note_template_arg_refers_here);
- return true;
- }
- // Address / reference template args must have external linkage in C++98.
- if (Entity->getFormalLinkage() == InternalLinkage) {
- S.Diag(Arg->getBeginLoc(),
- S.getLangOpts().CPlusPlus11
- ? diag::warn_cxx98_compat_template_arg_object_internal
- : diag::ext_template_arg_object_internal)
- << !Func << Entity << Arg->getSourceRange();
- S.Diag(Entity->getLocation(), diag::note_template_arg_internal_object)
- << !Func;
- } else if (!Entity->hasLinkage()) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_object_no_linkage)
- << !Func << Entity << Arg->getSourceRange();
- S.Diag(Entity->getLocation(), diag::note_template_arg_internal_object)
- << !Func;
- return true;
- }
- if (Var) {
- // A value of reference type is not an object.
- if (Var->getType()->isReferenceType()) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_reference_var)
- << Var->getType() << Arg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- // A template argument must have static storage duration.
- if (Var->getTLSKind()) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_thread_local)
- << Arg->getSourceRange();
- S.Diag(Var->getLocation(), diag::note_template_arg_refers_here);
- return true;
- }
- }
- if (AddressTaken && ParamType->isReferenceType()) {
- // If we originally had an address-of operator, but the
- // parameter has reference type, complain and (if things look
- // like they will work) drop the address-of operator.
- if (!S.Context.hasSameUnqualifiedType(Entity->getType(),
- ParamType.getNonReferenceType())) {
- S.Diag(AddrOpLoc, diag::err_template_arg_address_of_non_pointer)
- << ParamType;
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- S.Diag(AddrOpLoc, diag::err_template_arg_address_of_non_pointer)
- << ParamType
- << FixItHint::CreateRemoval(AddrOpLoc);
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- ArgType = Entity->getType();
- }
- // If the template parameter has pointer type, either we must have taken the
- // address or the argument must decay to a pointer.
- if (!AddressTaken && ParamType->isPointerType()) {
- if (Func) {
- // Function-to-pointer decay.
- ArgType = S.Context.getPointerType(Func->getType());
- } else if (Entity->getType()->isArrayType()) {
- // Array-to-pointer decay.
- ArgType = S.Context.getArrayDecayedType(Entity->getType());
- } else {
- // If the template parameter has pointer type but the address of
- // this object was not taken, complain and (possibly) recover by
- // taking the address of the entity.
- ArgType = S.Context.getPointerType(Entity->getType());
- if (!S.Context.hasSameUnqualifiedType(ArgType, ParamType)) {
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_address_of)
- << ParamType;
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_address_of)
- << ParamType << FixItHint::CreateInsertion(Arg->getBeginLoc(), "&");
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- }
- }
- if (CheckTemplateArgumentIsCompatibleWithParameter(S, Param, ParamType, ArgIn,
- Arg, ArgType))
- return true;
- // Create the template argument.
- SugaredConverted = TemplateArgument(Entity, ParamType);
- CanonicalConverted =
- TemplateArgument(cast<ValueDecl>(Entity->getCanonicalDecl()),
- S.Context.getCanonicalType(ParamType));
- S.MarkAnyDeclReferenced(Arg->getBeginLoc(), Entity, false);
- return false;
- }
- /// Checks whether the given template argument is a pointer to
- /// member constant according to C++ [temp.arg.nontype]p1.
- static bool
- CheckTemplateArgumentPointerToMember(Sema &S, NonTypeTemplateParmDecl *Param,
- QualType ParamType, Expr *&ResultArg,
- TemplateArgument &SugaredConverted,
- TemplateArgument &CanonicalConverted) {
- bool Invalid = false;
- Expr *Arg = ResultArg;
- bool ObjCLifetimeConversion;
- // C++ [temp.arg.nontype]p1:
- //
- // A template-argument for a non-type, non-template
- // template-parameter shall be one of: [...]
- //
- // -- a pointer to member expressed as described in 5.3.1.
- DeclRefExpr *DRE = nullptr;
- // In C++98/03 mode, give an extension warning on any extra parentheses.
- // See http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_defects.html#773
- bool ExtraParens = false;
- while (ParenExpr *Parens = dyn_cast<ParenExpr>(Arg)) {
- if (!Invalid && !ExtraParens) {
- S.Diag(Arg->getBeginLoc(),
- S.getLangOpts().CPlusPlus11
- ? diag::warn_cxx98_compat_template_arg_extra_parens
- : diag::ext_template_arg_extra_parens)
- << Arg->getSourceRange();
- ExtraParens = true;
- }
- Arg = Parens->getSubExpr();
- }
- while (SubstNonTypeTemplateParmExpr *subst =
- dyn_cast<SubstNonTypeTemplateParmExpr>(Arg))
- Arg = subst->getReplacement()->IgnoreImpCasts();
- // A pointer-to-member constant written &Class::member.
- if (UnaryOperator *UnOp = dyn_cast<UnaryOperator>(Arg)) {
- if (UnOp->getOpcode() == UO_AddrOf) {
- DRE = dyn_cast<DeclRefExpr>(UnOp->getSubExpr());
- if (DRE && !DRE->getQualifier())
- DRE = nullptr;
- }
- }
- // A constant of pointer-to-member type.
- else if ((DRE = dyn_cast<DeclRefExpr>(Arg))) {
- ValueDecl *VD = DRE->getDecl();
- if (VD->getType()->isMemberPointerType()) {
- if (isa<NonTypeTemplateParmDecl>(VD)) {
- if (Arg->isTypeDependent() || Arg->isValueDependent()) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted =
- S.Context.getCanonicalTemplateArgument(SugaredConverted);
- } else {
- SugaredConverted = TemplateArgument(VD, ParamType);
- CanonicalConverted =
- TemplateArgument(cast<ValueDecl>(VD->getCanonicalDecl()),
- S.Context.getCanonicalType(ParamType));
- }
- return Invalid;
- }
- }
- DRE = nullptr;
- }
- ValueDecl *Entity = DRE ? DRE->getDecl() : nullptr;
- // Check for a null pointer value.
- switch (isNullPointerValueTemplateArgument(S, Param, ParamType, ResultArg,
- Entity)) {
- case NPV_Error:
- return true;
- case NPV_NullPointer:
- S.Diag(ResultArg->getExprLoc(), diag::warn_cxx98_compat_template_arg_null);
- SugaredConverted = TemplateArgument(ParamType,
- /*isNullPtr*/ true);
- CanonicalConverted = TemplateArgument(S.Context.getCanonicalType(ParamType),
- /*isNullPtr*/ true);
- return false;
- case NPV_NotNullPointer:
- break;
- }
- if (S.IsQualificationConversion(ResultArg->getType(),
- ParamType.getNonReferenceType(), false,
- ObjCLifetimeConversion)) {
- ResultArg = S.ImpCastExprToType(ResultArg, ParamType, CK_NoOp,
- ResultArg->getValueKind())
- .get();
- } else if (!S.Context.hasSameUnqualifiedType(
- ResultArg->getType(), ParamType.getNonReferenceType())) {
- // We can't perform this conversion.
- S.Diag(ResultArg->getBeginLoc(), diag::err_template_arg_not_convertible)
- << ResultArg->getType() << ParamType << ResultArg->getSourceRange();
- S.Diag(Param->getLocation(), diag::note_template_param_here);
- return true;
- }
- if (!DRE)
- return S.Diag(Arg->getBeginLoc(),
- diag::err_template_arg_not_pointer_to_member_form)
- << Arg->getSourceRange();
- if (isa<FieldDecl>(DRE->getDecl()) ||
- isa<IndirectFieldDecl>(DRE->getDecl()) ||
- isa<CXXMethodDecl>(DRE->getDecl())) {
- assert((isa<FieldDecl>(DRE->getDecl()) ||
- isa<IndirectFieldDecl>(DRE->getDecl()) ||
- !cast<CXXMethodDecl>(DRE->getDecl())->isStatic()) &&
- "Only non-static member pointers can make it here");
- // Okay: this is the address of a non-static member, and therefore
- // a member pointer constant.
- if (Arg->isTypeDependent() || Arg->isValueDependent()) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted =
- S.Context.getCanonicalTemplateArgument(SugaredConverted);
- } else {
- ValueDecl *D = DRE->getDecl();
- SugaredConverted = TemplateArgument(D, ParamType);
- CanonicalConverted =
- TemplateArgument(cast<ValueDecl>(D->getCanonicalDecl()),
- S.Context.getCanonicalType(ParamType));
- }
- return Invalid;
- }
- // We found something else, but we don't know specifically what it is.
- S.Diag(Arg->getBeginLoc(), diag::err_template_arg_not_pointer_to_member_form)
- << Arg->getSourceRange();
- S.Diag(DRE->getDecl()->getLocation(), diag::note_template_arg_refers_here);
- return true;
- }
- /// Check a template argument against its corresponding
- /// non-type template parameter.
- ///
- /// This routine implements the semantics of C++ [temp.arg.nontype].
- /// If an error occurred, it returns ExprError(); otherwise, it
- /// returns the converted template argument. \p ParamType is the
- /// type of the non-type template parameter after it has been instantiated.
- ExprResult Sema::CheckTemplateArgument(NonTypeTemplateParmDecl *Param,
- QualType ParamType, Expr *Arg,
- TemplateArgument &SugaredConverted,
- TemplateArgument &CanonicalConverted,
- CheckTemplateArgumentKind CTAK) {
- SourceLocation StartLoc = Arg->getBeginLoc();
- // If the parameter type somehow involves auto, deduce the type now.
- DeducedType *DeducedT = ParamType->getContainedDeducedType();
- if (getLangOpts().CPlusPlus17 && DeducedT && !DeducedT->isDeduced()) {
- // During template argument deduction, we allow 'decltype(auto)' to
- // match an arbitrary dependent argument.
- // FIXME: The language rules don't say what happens in this case.
- // FIXME: We get an opaque dependent type out of decltype(auto) if the
- // expression is merely instantiation-dependent; is this enough?
- if (CTAK == CTAK_Deduced && Arg->isTypeDependent()) {
- auto *AT = dyn_cast<AutoType>(DeducedT);
- if (AT && AT->isDecltypeAuto()) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted = TemplateArgument(
- Context.getCanonicalTemplateArgument(SugaredConverted));
- return Arg;
- }
- }
- // When checking a deduced template argument, deduce from its type even if
- // the type is dependent, in order to check the types of non-type template
- // arguments line up properly in partial ordering.
- Expr *DeductionArg = Arg;
- if (auto *PE = dyn_cast<PackExpansionExpr>(DeductionArg))
- DeductionArg = PE->getPattern();
- TypeSourceInfo *TSI =
- Context.getTrivialTypeSourceInfo(ParamType, Param->getLocation());
- if (isa<DeducedTemplateSpecializationType>(DeducedT)) {
- InitializedEntity Entity =
- InitializedEntity::InitializeTemplateParameter(ParamType, Param);
- InitializationKind Kind = InitializationKind::CreateForInit(
- DeductionArg->getBeginLoc(), /*DirectInit*/false, DeductionArg);
- Expr *Inits[1] = {DeductionArg};
- ParamType =
- DeduceTemplateSpecializationFromInitializer(TSI, Entity, Kind, Inits);
- if (ParamType.isNull())
- return ExprError();
- } else {
- TemplateDeductionInfo Info(DeductionArg->getExprLoc(),
- Param->getDepth() + 1);
- ParamType = QualType();
- TemplateDeductionResult Result =
- DeduceAutoType(TSI->getTypeLoc(), DeductionArg, ParamType, Info,
- /*DependentDeduction=*/true,
- // We do not check constraints right now because the
- // immediately-declared constraint of the auto type is
- // also an associated constraint, and will be checked
- // along with the other associated constraints after
- // checking the template argument list.
- /*IgnoreConstraints=*/true);
- if (Result == TDK_AlreadyDiagnosed) {
- if (ParamType.isNull())
- return ExprError();
- } else if (Result != TDK_Success) {
- Diag(Arg->getExprLoc(),
- diag::err_non_type_template_parm_type_deduction_failure)
- << Param->getDeclName() << Param->getType() << Arg->getType()
- << Arg->getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- }
- }
- // CheckNonTypeTemplateParameterType will produce a diagnostic if there's
- // an error. The error message normally references the parameter
- // declaration, but here we'll pass the argument location because that's
- // where the parameter type is deduced.
- ParamType = CheckNonTypeTemplateParameterType(ParamType, Arg->getExprLoc());
- if (ParamType.isNull()) {
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- }
- }
- // We should have already dropped all cv-qualifiers by now.
- assert(!ParamType.hasQualifiers() &&
- "non-type template parameter type cannot be qualified");
- // FIXME: When Param is a reference, should we check that Arg is an lvalue?
- if (CTAK == CTAK_Deduced &&
- (ParamType->isReferenceType()
- ? !Context.hasSameType(ParamType.getNonReferenceType(),
- Arg->getType())
- : !Context.hasSameUnqualifiedType(ParamType, Arg->getType()))) {
- // FIXME: If either type is dependent, we skip the check. This isn't
- // correct, since during deduction we're supposed to have replaced each
- // template parameter with some unique (non-dependent) placeholder.
- // FIXME: If the argument type contains 'auto', we carry on and fail the
- // type check in order to force specific types to be more specialized than
- // 'auto'. It's not clear how partial ordering with 'auto' is supposed to
- // work. Similarly for CTAD, when comparing 'A<x>' against 'A'.
- if ((ParamType->isDependentType() || Arg->isTypeDependent()) &&
- !Arg->getType()->getContainedDeducedType()) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted = TemplateArgument(
- Context.getCanonicalTemplateArgument(SugaredConverted));
- return Arg;
- }
- // FIXME: This attempts to implement C++ [temp.deduct.type]p17. Per DR1770,
- // we should actually be checking the type of the template argument in P,
- // not the type of the template argument deduced from A, against the
- // template parameter type.
- Diag(StartLoc, diag::err_deduced_non_type_template_arg_type_mismatch)
- << Arg->getType()
- << ParamType.getUnqualifiedType();
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- }
- // If either the parameter has a dependent type or the argument is
- // type-dependent, there's nothing we can check now.
- if (ParamType->isDependentType() || Arg->isTypeDependent()) {
- // Force the argument to the type of the parameter to maintain invariants.
- auto *PE = dyn_cast<PackExpansionExpr>(Arg);
- if (PE)
- Arg = PE->getPattern();
- ExprResult E = ImpCastExprToType(
- Arg, ParamType.getNonLValueExprType(Context), CK_Dependent,
- ParamType->isLValueReferenceType() ? VK_LValue
- : ParamType->isRValueReferenceType() ? VK_XValue
- : VK_PRValue);
- if (E.isInvalid())
- return ExprError();
- if (PE) {
- // Recreate a pack expansion if we unwrapped one.
- E = new (Context)
- PackExpansionExpr(E.get()->getType(), E.get(), PE->getEllipsisLoc(),
- PE->getNumExpansions());
- }
- SugaredConverted = TemplateArgument(E.get());
- CanonicalConverted = TemplateArgument(
- Context.getCanonicalTemplateArgument(SugaredConverted));
- return E;
- }
- // The initialization of the parameter from the argument is
- // a constant-evaluated context.
- EnterExpressionEvaluationContext ConstantEvaluated(
- *this, Sema::ExpressionEvaluationContext::ConstantEvaluated);
- if (getLangOpts().CPlusPlus17) {
- QualType CanonParamType = Context.getCanonicalType(ParamType);
- // Avoid making a copy when initializing a template parameter of class type
- // from a template parameter object of the same type. This is going beyond
- // the standard, but is required for soundness: in
- // template<A a> struct X { X *p; X<a> *q; };
- // ... we need p and q to have the same type.
- //
- // Similarly, don't inject a call to a copy constructor when initializing
- // from a template parameter of the same type.
- Expr *InnerArg = Arg->IgnoreParenImpCasts();
- if (ParamType->isRecordType() && isa<DeclRefExpr>(InnerArg) &&
- Context.hasSameUnqualifiedType(ParamType, InnerArg->getType())) {
- NamedDecl *ND = cast<DeclRefExpr>(InnerArg)->getDecl();
- if (auto *TPO = dyn_cast<TemplateParamObjectDecl>(ND)) {
- SugaredConverted = TemplateArgument(TPO, ParamType);
- CanonicalConverted =
- TemplateArgument(TPO->getCanonicalDecl(), CanonParamType);
- return Arg;
- }
- if (isa<NonTypeTemplateParmDecl>(ND)) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted =
- Context.getCanonicalTemplateArgument(SugaredConverted);
- return Arg;
- }
- }
- // C++17 [temp.arg.nontype]p1:
- // A template-argument for a non-type template parameter shall be
- // a converted constant expression of the type of the template-parameter.
- APValue Value;
- ExprResult ArgResult = CheckConvertedConstantExpression(
- Arg, ParamType, Value, CCEK_TemplateArg, Param);
- if (ArgResult.isInvalid())
- return ExprError();
- // For a value-dependent argument, CheckConvertedConstantExpression is
- // permitted (and expected) to be unable to determine a value.
- if (ArgResult.get()->isValueDependent()) {
- SugaredConverted = TemplateArgument(ArgResult.get());
- CanonicalConverted =
- Context.getCanonicalTemplateArgument(SugaredConverted);
- return ArgResult;
- }
- // Convert the APValue to a TemplateArgument.
- switch (Value.getKind()) {
- case APValue::None:
- assert(ParamType->isNullPtrType());
- SugaredConverted = TemplateArgument(ParamType, /*isNullPtr=*/true);
- CanonicalConverted = TemplateArgument(CanonParamType, /*isNullPtr=*/true);
- break;
- case APValue::Indeterminate:
- llvm_unreachable("result of constant evaluation should be initialized");
- break;
- case APValue::Int:
- assert(ParamType->isIntegralOrEnumerationType());
- SugaredConverted = TemplateArgument(Context, Value.getInt(), ParamType);
- CanonicalConverted =
- TemplateArgument(Context, Value.getInt(), CanonParamType);
- break;
- case APValue::MemberPointer: {
- assert(ParamType->isMemberPointerType());
- // FIXME: We need TemplateArgument representation and mangling for these.
- if (!Value.getMemberPointerPath().empty()) {
- Diag(Arg->getBeginLoc(),
- diag::err_template_arg_member_ptr_base_derived_not_supported)
- << Value.getMemberPointerDecl() << ParamType
- << Arg->getSourceRange();
- return ExprError();
- }
- auto *VD = const_cast<ValueDecl*>(Value.getMemberPointerDecl());
- SugaredConverted = VD ? TemplateArgument(VD, ParamType)
- : TemplateArgument(ParamType, /*isNullPtr=*/true);
- CanonicalConverted =
- VD ? TemplateArgument(cast<ValueDecl>(VD->getCanonicalDecl()),
- CanonParamType)
- : TemplateArgument(CanonParamType, /*isNullPtr=*/true);
- break;
- }
- case APValue::LValue: {
- // For a non-type template-parameter of pointer or reference type,
- // the value of the constant expression shall not refer to
- assert(ParamType->isPointerType() || ParamType->isReferenceType() ||
- ParamType->isNullPtrType());
- // -- a temporary object
- // -- a string literal
- // -- the result of a typeid expression, or
- // -- a predefined __func__ variable
- APValue::LValueBase Base = Value.getLValueBase();
- auto *VD = const_cast<ValueDecl *>(Base.dyn_cast<const ValueDecl *>());
- if (Base &&
- (!VD ||
- isa<LifetimeExtendedTemporaryDecl, UnnamedGlobalConstantDecl>(VD))) {
- Diag(Arg->getBeginLoc(), diag::err_template_arg_not_decl_ref)
- << Arg->getSourceRange();
- return ExprError();
- }
- // -- a subobject
- // FIXME: Until C++20
- if (Value.hasLValuePath() && Value.getLValuePath().size() == 1 &&
- VD && VD->getType()->isArrayType() &&
- Value.getLValuePath()[0].getAsArrayIndex() == 0 &&
- !Value.isLValueOnePastTheEnd() && ParamType->isPointerType()) {
- // Per defect report (no number yet):
- // ... other than a pointer to the first element of a complete array
- // object.
- } else if (!Value.hasLValuePath() || Value.getLValuePath().size() ||
- Value.isLValueOnePastTheEnd()) {
- Diag(StartLoc, diag::err_non_type_template_arg_subobject)
- << Value.getAsString(Context, ParamType);
- return ExprError();
- }
- assert((VD || !ParamType->isReferenceType()) &&
- "null reference should not be a constant expression");
- assert((!VD || !ParamType->isNullPtrType()) &&
- "non-null value of type nullptr_t?");
- SugaredConverted = VD ? TemplateArgument(VD, ParamType)
- : TemplateArgument(ParamType, /*isNullPtr=*/true);
- CanonicalConverted =
- VD ? TemplateArgument(cast<ValueDecl>(VD->getCanonicalDecl()),
- CanonParamType)
- : TemplateArgument(CanonParamType, /*isNullPtr=*/true);
- break;
- }
- case APValue::Struct:
- case APValue::Union: {
- // Get or create the corresponding template parameter object.
- TemplateParamObjectDecl *D =
- Context.getTemplateParamObjectDecl(ParamType, Value);
- SugaredConverted = TemplateArgument(D, ParamType);
- CanonicalConverted =
- TemplateArgument(D->getCanonicalDecl(), CanonParamType);
- break;
- }
- case APValue::AddrLabelDiff:
- return Diag(StartLoc, diag::err_non_type_template_arg_addr_label_diff);
- case APValue::FixedPoint:
- case APValue::Float:
- case APValue::ComplexInt:
- case APValue::ComplexFloat:
- case APValue::Vector:
- case APValue::Array:
- return Diag(StartLoc, diag::err_non_type_template_arg_unsupported)
- << ParamType;
- }
- return ArgResult.get();
- }
- // C++ [temp.arg.nontype]p5:
- // The following conversions are performed on each expression used
- // as a non-type template-argument. If a non-type
- // template-argument cannot be converted to the type of the
- // corresponding template-parameter then the program is
- // ill-formed.
- if (ParamType->isIntegralOrEnumerationType()) {
- // C++11:
- // -- for a non-type template-parameter of integral or
- // enumeration type, conversions permitted in a converted
- // constant expression are applied.
- //
- // C++98:
- // -- for a non-type template-parameter of integral or
- // enumeration type, integral promotions (4.5) and integral
- // conversions (4.7) are applied.
- if (getLangOpts().CPlusPlus11) {
- // C++ [temp.arg.nontype]p1:
- // A template-argument for a non-type, non-template template-parameter
- // shall be one of:
- //
- // -- for a non-type template-parameter of integral or enumeration
- // type, a converted constant expression of the type of the
- // template-parameter; or
- llvm::APSInt Value;
- ExprResult ArgResult =
- CheckConvertedConstantExpression(Arg, ParamType, Value,
- CCEK_TemplateArg);
- if (ArgResult.isInvalid())
- return ExprError();
- // We can't check arbitrary value-dependent arguments.
- if (ArgResult.get()->isValueDependent()) {
- SugaredConverted = TemplateArgument(ArgResult.get());
- CanonicalConverted =
- Context.getCanonicalTemplateArgument(SugaredConverted);
- return ArgResult;
- }
- // Widen the argument value to sizeof(parameter type). This is almost
- // always a no-op, except when the parameter type is bool. In
- // that case, this may extend the argument from 1 bit to 8 bits.
- QualType IntegerType = ParamType;
- if (const EnumType *Enum = IntegerType->getAs<EnumType>())
- IntegerType = Enum->getDecl()->getIntegerType();
- Value = Value.extOrTrunc(IntegerType->isBitIntType()
- ? Context.getIntWidth(IntegerType)
- : Context.getTypeSize(IntegerType));
- SugaredConverted = TemplateArgument(Context, Value, ParamType);
- CanonicalConverted =
- TemplateArgument(Context, Value, Context.getCanonicalType(ParamType));
- return ArgResult;
- }
- ExprResult ArgResult = DefaultLvalueConversion(Arg);
- if (ArgResult.isInvalid())
- return ExprError();
- Arg = ArgResult.get();
- QualType ArgType = Arg->getType();
- // C++ [temp.arg.nontype]p1:
- // A template-argument for a non-type, non-template
- // template-parameter shall be one of:
- //
- // -- an integral constant-expression of integral or enumeration
- // type; or
- // -- the name of a non-type template-parameter; or
- llvm::APSInt Value;
- if (!ArgType->isIntegralOrEnumerationType()) {
- Diag(Arg->getBeginLoc(), diag::err_template_arg_not_integral_or_enumeral)
- << ArgType << Arg->getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- } else if (!Arg->isValueDependent()) {
- class TmplArgICEDiagnoser : public VerifyICEDiagnoser {
- QualType T;
- public:
- TmplArgICEDiagnoser(QualType T) : T(T) { }
- SemaDiagnosticBuilder diagnoseNotICE(Sema &S,
- SourceLocation Loc) override {
- return S.Diag(Loc, diag::err_template_arg_not_ice) << T;
- }
- } Diagnoser(ArgType);
- Arg = VerifyIntegerConstantExpression(Arg, &Value, Diagnoser).get();
- if (!Arg)
- return ExprError();
- }
- // From here on out, all we care about is the unqualified form
- // of the argument type.
- ArgType = ArgType.getUnqualifiedType();
- // Try to convert the argument to the parameter's type.
- if (Context.hasSameType(ParamType, ArgType)) {
- // Okay: no conversion necessary
- } else if (ParamType->isBooleanType()) {
- // This is an integral-to-boolean conversion.
- Arg = ImpCastExprToType(Arg, ParamType, CK_IntegralToBoolean).get();
- } else if (IsIntegralPromotion(Arg, ArgType, ParamType) ||
- !ParamType->isEnumeralType()) {
- // This is an integral promotion or conversion.
- Arg = ImpCastExprToType(Arg, ParamType, CK_IntegralCast).get();
- } else {
- // We can't perform this conversion.
- Diag(Arg->getBeginLoc(), diag::err_template_arg_not_convertible)
- << Arg->getType() << ParamType << Arg->getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- }
- // Add the value of this argument to the list of converted
- // arguments. We use the bitwidth and signedness of the template
- // parameter.
- if (Arg->isValueDependent()) {
- // The argument is value-dependent. Create a new
- // TemplateArgument with the converted expression.
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted =
- Context.getCanonicalTemplateArgument(SugaredConverted);
- return Arg;
- }
- QualType IntegerType = ParamType;
- if (const EnumType *Enum = IntegerType->getAs<EnumType>()) {
- IntegerType = Enum->getDecl()->getIntegerType();
- }
- if (ParamType->isBooleanType()) {
- // Value must be zero or one.
- Value = Value != 0;
- unsigned AllowedBits = Context.getTypeSize(IntegerType);
- if (Value.getBitWidth() != AllowedBits)
- Value = Value.extOrTrunc(AllowedBits);
- Value.setIsSigned(IntegerType->isSignedIntegerOrEnumerationType());
- } else {
- llvm::APSInt OldValue = Value;
- // Coerce the template argument's value to the value it will have
- // based on the template parameter's type.
- unsigned AllowedBits = IntegerType->isBitIntType()
- ? Context.getIntWidth(IntegerType)
- : Context.getTypeSize(IntegerType);
- if (Value.getBitWidth() != AllowedBits)
- Value = Value.extOrTrunc(AllowedBits);
- Value.setIsSigned(IntegerType->isSignedIntegerOrEnumerationType());
- // Complain if an unsigned parameter received a negative value.
- if (IntegerType->isUnsignedIntegerOrEnumerationType() &&
- (OldValue.isSigned() && OldValue.isNegative())) {
- Diag(Arg->getBeginLoc(), diag::warn_template_arg_negative)
- << toString(OldValue, 10) << toString(Value, 10) << Param->getType()
- << Arg->getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- }
- // Complain if we overflowed the template parameter's type.
- unsigned RequiredBits;
- if (IntegerType->isUnsignedIntegerOrEnumerationType())
- RequiredBits = OldValue.getActiveBits();
- else if (OldValue.isUnsigned())
- RequiredBits = OldValue.getActiveBits() + 1;
- else
- RequiredBits = OldValue.getMinSignedBits();
- if (RequiredBits > AllowedBits) {
- Diag(Arg->getBeginLoc(), diag::warn_template_arg_too_large)
- << toString(OldValue, 10) << toString(Value, 10) << Param->getType()
- << Arg->getSourceRange();
- Diag(Param->getLocation(), diag::note_template_param_here);
- }
- }
- QualType T = ParamType->isEnumeralType() ? ParamType : IntegerType;
- SugaredConverted = TemplateArgument(Context, Value, T);
- CanonicalConverted =
- TemplateArgument(Context, Value, Context.getCanonicalType(T));
- return Arg;
- }
- QualType ArgType = Arg->getType();
- DeclAccessPair FoundResult; // temporary for ResolveOverloadedFunction
- // Handle pointer-to-function, reference-to-function, and
- // pointer-to-member-function all in (roughly) the same way.
- if (// -- For a non-type template-parameter of type pointer to
- // function, only the function-to-pointer conversion (4.3) is
- // applied. If the template-argument represents a set of
- // overloaded functions (or a pointer to such), the matching
- // function is selected from the set (13.4).
- (ParamType->isPointerType() &&
- ParamType->castAs<PointerType>()->getPointeeType()->isFunctionType()) ||
- // -- For a non-type template-parameter of type reference to
- // function, no conversions apply. If the template-argument
- // represents a set of overloaded functions, the matching
- // function is selected from the set (13.4).
- (ParamType->isReferenceType() &&
- ParamType->castAs<ReferenceType>()->getPointeeType()->isFunctionType()) ||
- // -- For a non-type template-parameter of type pointer to
- // member function, no conversions apply. If the
- // template-argument represents a set of overloaded member
- // functions, the matching member function is selected from
- // the set (13.4).
- (ParamType->isMemberPointerType() &&
- ParamType->castAs<MemberPointerType>()->getPointeeType()
- ->isFunctionType())) {
- if (Arg->getType() == Context.OverloadTy) {
- if (FunctionDecl *Fn = ResolveAddressOfOverloadedFunction(Arg, ParamType,
- true,
- FoundResult)) {
- if (DiagnoseUseOfDecl(Fn, Arg->getBeginLoc()))
- return ExprError();
- Arg = FixOverloadedFunctionReference(Arg, FoundResult, Fn);
- ArgType = Arg->getType();
- } else
- return ExprError();
- }
- if (!ParamType->isMemberPointerType()) {
- if (CheckTemplateArgumentAddressOfObjectOrFunction(
- *this, Param, ParamType, Arg, SugaredConverted,
- CanonicalConverted))
- return ExprError();
- return Arg;
- }
- if (CheckTemplateArgumentPointerToMember(
- *this, Param, ParamType, Arg, SugaredConverted, CanonicalConverted))
- return ExprError();
- return Arg;
- }
- if (ParamType->isPointerType()) {
- // -- for a non-type template-parameter of type pointer to
- // object, qualification conversions (4.4) and the
- // array-to-pointer conversion (4.2) are applied.
- // C++0x also allows a value of std::nullptr_t.
- assert(ParamType->getPointeeType()->isIncompleteOrObjectType() &&
- "Only object pointers allowed here");
- if (CheckTemplateArgumentAddressOfObjectOrFunction(
- *this, Param, ParamType, Arg, SugaredConverted, CanonicalConverted))
- return ExprError();
- return Arg;
- }
- if (const ReferenceType *ParamRefType = ParamType->getAs<ReferenceType>()) {
- // -- For a non-type template-parameter of type reference to
- // object, no conversions apply. The type referred to by the
- // reference may be more cv-qualified than the (otherwise
- // identical) type of the template-argument. The
- // template-parameter is bound directly to the
- // template-argument, which must be an lvalue.
- assert(ParamRefType->getPointeeType()->isIncompleteOrObjectType() &&
- "Only object references allowed here");
- if (Arg->getType() == Context.OverloadTy) {
- if (FunctionDecl *Fn = ResolveAddressOfOverloadedFunction(Arg,
- ParamRefType->getPointeeType(),
- true,
- FoundResult)) {
- if (DiagnoseUseOfDecl(Fn, Arg->getBeginLoc()))
- return ExprError();
- Arg = FixOverloadedFunctionReference(Arg, FoundResult, Fn);
- ArgType = Arg->getType();
- } else
- return ExprError();
- }
- if (CheckTemplateArgumentAddressOfObjectOrFunction(
- *this, Param, ParamType, Arg, SugaredConverted, CanonicalConverted))
- return ExprError();
- return Arg;
- }
- // Deal with parameters of type std::nullptr_t.
- if (ParamType->isNullPtrType()) {
- if (Arg->isTypeDependent() || Arg->isValueDependent()) {
- SugaredConverted = TemplateArgument(Arg);
- CanonicalConverted =
- Context.getCanonicalTemplateArgument(SugaredConverted);
- return Arg;
- }
- switch (isNullPointerValueTemplateArgument(*this, Param, ParamType, Arg)) {
- case NPV_NotNullPointer:
- Diag(Arg->getExprLoc(), diag::err_template_arg_not_convertible)
- << Arg->getType() << ParamType;
- Diag(Param->getLocation(), diag::note_template_param_here);
- return ExprError();
- case NPV_Error:
- return ExprError();
- case NPV_NullPointer:
- Diag(Arg->getExprLoc(), diag::warn_cxx98_compat_template_arg_null);
- SugaredConverted = TemplateArgument(ParamType,
- /*isNullPtr=*/true);
- CanonicalConverted = TemplateArgument(Context.getCanonicalType(ParamType),
- /*isNullPtr=*/true);
- return Arg;
- }
- }
- // -- For a non-type template-parameter of type pointer to data
- // member, qualification conversions (4.4) are applied.
- assert(ParamType->isMemberPointerType() && "Only pointers to members remain");
- if (CheckTemplateArgumentPointerToMember(
- *this, Param, ParamType, Arg, SugaredConverted, CanonicalConverted))
- return ExprError();
- return Arg;
- }
- static void DiagnoseTemplateParameterListArityMismatch(
- Sema &S, TemplateParameterList *New, TemplateParameterList *Old,
- Sema::TemplateParameterListEqualKind Kind, SourceLocation TemplateArgLoc);
- /// Check a template argument against its corresponding
- /// template template parameter.
- ///
- /// This routine implements the semantics of C++ [temp.arg.template].
- /// It returns true if an error occurred, and false otherwise.
- bool Sema::CheckTemplateTemplateArgument(TemplateTemplateParmDecl *Param,
- TemplateParameterList *Params,
- TemplateArgumentLoc &Arg) {
- TemplateName Name = Arg.getArgument().getAsTemplateOrTemplatePattern();
- TemplateDecl *Template = Name.getAsTemplateDecl();
- if (!Template) {
- // Any dependent template name is fine.
- assert(Name.isDependent() && "Non-dependent template isn't a declaration?");
- return false;
- }
- if (Template->isInvalidDecl())
- return true;
- // C++0x [temp.arg.template]p1:
- // A template-argument for a template template-parameter shall be
- // the name of a class template or an alias template, expressed as an
- // id-expression. When the template-argument names a class template, only
- // primary class templates are considered when matching the
- // template template argument with the corresponding parameter;
- // partial specializations are not considered even if their
- // parameter lists match that of the template template parameter.
- //
- // Note that we also allow template template parameters here, which
- // will happen when we are dealing with, e.g., class template
- // partial specializations.
- if (!isa<ClassTemplateDecl>(Template) &&
- !isa<TemplateTemplateParmDecl>(Template) &&
- !isa<TypeAliasTemplateDecl>(Template) &&
- !isa<BuiltinTemplateDecl>(Template)) {
- assert(isa<FunctionTemplateDecl>(Template) &&
- "Only function templates are possible here");
- Diag(Arg.getLocation(), diag::err_template_arg_not_valid_template);
- Diag(Template->getLocation(), diag::note_template_arg_refers_here_func)
- << Template;
- }
- // C++1z [temp.arg.template]p3: (DR 150)
- // A template-argument matches a template template-parameter P when P
- // is at least as specialized as the template-argument A.
- // FIXME: We should enable RelaxedTemplateTemplateArgs by default as it is a
- // defect report resolution from C++17 and shouldn't be introduced by
- // concepts.
- if (getLangOpts().RelaxedTemplateTemplateArgs) {
- // Quick check for the common case:
- // If P contains a parameter pack, then A [...] matches P if each of A's
- // template parameters matches the corresponding template parameter in
- // the template-parameter-list of P.
- if (TemplateParameterListsAreEqual(
- Template->getTemplateParameters(), Params, false,
- TPL_TemplateTemplateArgumentMatch, Arg.getLocation()) &&
- // If the argument has no associated constraints, then the parameter is
- // definitely at least as specialized as the argument.
- // Otherwise - we need a more thorough check.
- !Template->hasAssociatedConstraints())
- return false;
- if (isTemplateTemplateParameterAtLeastAsSpecializedAs(Params, Template,
- Arg.getLocation())) {
- // P2113
- // C++20[temp.func.order]p2
- // [...] If both deductions succeed, the partial ordering selects the
- // more constrained template (if one exists) as determined below.
- SmallVector<const Expr *, 3> ParamsAC, TemplateAC;
- Params->getAssociatedConstraints(ParamsAC);
- // C++2a[temp.arg.template]p3
- // [...] In this comparison, if P is unconstrained, the constraints on A
- // are not considered.
- if (ParamsAC.empty())
- return false;
- Template->getAssociatedConstraints(TemplateAC);
- bool IsParamAtLeastAsConstrained;
- if (IsAtLeastAsConstrained(Param, ParamsAC, Template, TemplateAC,
- IsParamAtLeastAsConstrained))
- return true;
- if (!IsParamAtLeastAsConstrained) {
- Diag(Arg.getLocation(),
- diag::err_template_template_parameter_not_at_least_as_constrained)
- << Template << Param << Arg.getSourceRange();
- Diag(Param->getLocation(), diag::note_entity_declared_at) << Param;
- Diag(Template->getLocation(), diag::note_entity_declared_at)
- << Template;
- MaybeEmitAmbiguousAtomicConstraintsDiagnostic(Param, ParamsAC, Template,
- TemplateAC);
- return true;
- }
- return false;
- }
- // FIXME: Produce better diagnostics for deduction failures.
- }
- return !TemplateParameterListsAreEqual(Template->getTemplateParameters(),
- Params,
- true,
- TPL_TemplateTemplateArgumentMatch,
- Arg.getLocation());
- }
- /// Given a non-type template argument that refers to a
- /// declaration and the type of its corresponding non-type template
- /// parameter, produce an expression that properly refers to that
- /// declaration.
- ExprResult
- Sema::BuildExpressionFromDeclTemplateArgument(const TemplateArgument &Arg,
- QualType ParamType,
- SourceLocation Loc) {
- // C++ [temp.param]p8:
- //
- // A non-type template-parameter of type "array of T" or
- // "function returning T" is adjusted to be of type "pointer to
- // T" or "pointer to function returning T", respectively.
- if (ParamType->isArrayType())
- ParamType = Context.getArrayDecayedType(ParamType);
- else if (ParamType->isFunctionType())
- ParamType = Context.getPointerType(ParamType);
- // For a NULL non-type template argument, return nullptr casted to the
- // parameter's type.
- if (Arg.getKind() == TemplateArgument::NullPtr) {
- return ImpCastExprToType(
- new (Context) CXXNullPtrLiteralExpr(Context.NullPtrTy, Loc),
- ParamType,
- ParamType->getAs<MemberPointerType>()
- ? CK_NullToMemberPointer
- : CK_NullToPointer);
- }
- assert(Arg.getKind() == TemplateArgument::Declaration &&
- "Only declaration template arguments permitted here");
- ValueDecl *VD = Arg.getAsDecl();
- CXXScopeSpec SS;
- if (ParamType->isMemberPointerType()) {
- // If this is a pointer to member, we need to use a qualified name to
- // form a suitable pointer-to-member constant.
- assert(VD->getDeclContext()->isRecord() &&
- (isa<CXXMethodDecl>(VD) || isa<FieldDecl>(VD) ||
- isa<IndirectFieldDecl>(VD)));
- QualType ClassType
- = Context.getTypeDeclType(cast<RecordDecl>(VD->getDeclContext()));
- NestedNameSpecifier *Qualifier
- = NestedNameSpecifier::Create(Context, nullptr, false,
- ClassType.getTypePtr());
- SS.MakeTrivial(Context, Qualifier, Loc);
- }
- ExprResult RefExpr = BuildDeclarationNameExpr(
- SS, DeclarationNameInfo(VD->getDeclName(), Loc), VD);
- if (RefExpr.isInvalid())
- return ExprError();
- // For a pointer, the argument declaration is the pointee. Take its address.
- QualType ElemT(RefExpr.get()->getType()->getArrayElementTypeNoTypeQual(), 0);
- if (ParamType->isPointerType() && !ElemT.isNull() &&
- Context.hasSimilarType(ElemT, ParamType->getPointeeType())) {
- // Decay an array argument if we want a pointer to its first element.
- RefExpr = DefaultFunctionArrayConversion(RefExpr.get());
- if (RefExpr.isInvalid())
- return ExprError();
- } else if (ParamType->isPointerType() || ParamType->isMemberPointerType()) {
- // For any other pointer, take the address (or form a pointer-to-member).
- RefExpr = CreateBuiltinUnaryOp(Loc, UO_AddrOf, RefExpr.get());
- if (RefExpr.isInvalid())
- return ExprError();
- } else if (ParamType->isRecordType()) {
- assert(isa<TemplateParamObjectDecl>(VD) &&
- "arg for class template param not a template parameter object");
- // No conversions apply in this case.
- return RefExpr;
- } else {
- assert(ParamType->isReferenceType() &&
- "unexpected type for decl template argument");
- }
- // At this point we should have the right value category.
- assert(ParamType->isReferenceType() == RefExpr.get()->isLValue() &&
- "value kind mismatch for non-type template argument");
- // The type of the template parameter can differ from the type of the
- // argument in various ways; convert it now if necessary.
- QualType DestExprType = ParamType.getNonLValueExprType(Context);
- if (!Context.hasSameType(RefExpr.get()->getType(), DestExprType)) {
- CastKind CK;
- QualType Ignored;
- if (Context.hasSimilarType(RefExpr.get()->getType(), DestExprType) ||
- IsFunctionConversion(RefExpr.get()->getType(), DestExprType, Ignored)) {
- CK = CK_NoOp;
- } else if (ParamType->isVoidPointerType() &&
- RefExpr.get()->getType()->isPointerType()) {
- CK = CK_BitCast;
- } else {
- // FIXME: Pointers to members can need conversion derived-to-base or
- // base-to-derived conversions. We currently don't retain enough
- // information to convert properly (we need to track a cast path or
- // subobject number in the template argument).
- llvm_unreachable(
- "unexpected conversion required for non-type template argument");
- }
- RefExpr = ImpCastExprToType(RefExpr.get(), DestExprType, CK,
- RefExpr.get()->getValueKind());
- }
- return RefExpr;
- }
- /// Construct a new expression that refers to the given
- /// integral template argument with the given source-location
- /// information.
- ///
- /// This routine takes care of the mapping from an integral template
- /// argument (which may have any integral type) to the appropriate
- /// literal value.
- ExprResult
- Sema::BuildExpressionFromIntegralTemplateArgument(const TemplateArgument &Arg,
- SourceLocation Loc) {
- assert(Arg.getKind() == TemplateArgument::Integral &&
- "Operation is only valid for integral template arguments");
- QualType OrigT = Arg.getIntegralType();
- // If this is an enum type that we're instantiating, we need to use an integer
- // type the same size as the enumerator. We don't want to build an
- // IntegerLiteral with enum type. The integer type of an enum type can be of
- // any integral type with C++11 enum classes, make sure we create the right
- // type of literal for it.
- QualType T = OrigT;
- if (const EnumType *ET = OrigT->getAs<EnumType>())
- T = ET->getDecl()->getIntegerType();
- Expr *E;
- if (T->isAnyCharacterType()) {
- CharacterLiteral::CharacterKind Kind;
- if (T->isWideCharType())
- Kind = CharacterLiteral::Wide;
- else if (T->isChar8Type() && getLangOpts().Char8)
- Kind = CharacterLiteral::UTF8;
- else if (T->isChar16Type())
- Kind = CharacterLiteral::UTF16;
- else if (T->isChar32Type())
- Kind = CharacterLiteral::UTF32;
- else
- Kind = CharacterLiteral::Ascii;
- E = new (Context) CharacterLiteral(Arg.getAsIntegral().getZExtValue(),
- Kind, T, Loc);
- } else if (T->isBooleanType()) {
- E = CXXBoolLiteralExpr::Create(Context, Arg.getAsIntegral().getBoolValue(),
- T, Loc);
- } else if (T->isNullPtrType()) {
- E = new (Context) CXXNullPtrLiteralExpr(Context.NullPtrTy, Loc);
- } else {
- E = IntegerLiteral::Create(Context, Arg.getAsIntegral(), T, Loc);
- }
- if (OrigT->isEnumeralType()) {
- // FIXME: This is a hack. We need a better way to handle substituted
- // non-type template parameters.
- E = CStyleCastExpr::Create(Context, OrigT, VK_PRValue, CK_IntegralCast, E,
- nullptr, CurFPFeatureOverrides(),
- Context.getTrivialTypeSourceInfo(OrigT, Loc),
- Loc, Loc);
- }
- return E;
- }
- /// Match two template parameters within template parameter lists.
- static bool MatchTemplateParameterKind(
- Sema &S, NamedDecl *New, const NamedDecl *NewInstFrom, NamedDecl *Old,
- const NamedDecl *OldInstFrom, bool Complain,
- Sema::TemplateParameterListEqualKind Kind, SourceLocation TemplateArgLoc,
- bool PartialOrdering) {
- // Check the actual kind (type, non-type, template).
- if (Old->getKind() != New->getKind()) {
- if (Complain) {
- unsigned NextDiag = diag::err_template_param_different_kind;
- if (TemplateArgLoc.isValid()) {
- S.Diag(TemplateArgLoc, diag::err_template_arg_template_params_mismatch);
- NextDiag = diag::note_template_param_different_kind;
- }
- S.Diag(New->getLocation(), NextDiag)
- << (Kind != Sema::TPL_TemplateMatch);
- S.Diag(Old->getLocation(), diag::note_template_prev_declaration)
- << (Kind != Sema::TPL_TemplateMatch);
- }
- return false;
- }
- // Check that both are parameter packs or neither are parameter packs.
- // However, if we are matching a template template argument to a
- // template template parameter, the template template parameter can have
- // a parameter pack where the template template argument does not.
- if (Old->isTemplateParameterPack() != New->isTemplateParameterPack() &&
- !(Kind == Sema::TPL_TemplateTemplateArgumentMatch &&
- Old->isTemplateParameterPack())) {
- if (Complain) {
- unsigned NextDiag = diag::err_template_parameter_pack_non_pack;
- if (TemplateArgLoc.isValid()) {
- S.Diag(TemplateArgLoc,
- diag::err_template_arg_template_params_mismatch);
- NextDiag = diag::note_template_parameter_pack_non_pack;
- }
- unsigned ParamKind = isa<TemplateTypeParmDecl>(New)? 0
- : isa<NonTypeTemplateParmDecl>(New)? 1
- : 2;
- S.Diag(New->getLocation(), NextDiag)
- << ParamKind << New->isParameterPack();
- S.Diag(Old->getLocation(), diag::note_template_parameter_pack_here)
- << ParamKind << Old->isParameterPack();
- }
- return false;
- }
- // For non-type template parameters, check the type of the parameter.
- if (NonTypeTemplateParmDecl *OldNTTP
- = dyn_cast<NonTypeTemplateParmDecl>(Old)) {
- NonTypeTemplateParmDecl *NewNTTP = cast<NonTypeTemplateParmDecl>(New);
- // If we are matching a template template argument to a template
- // template parameter and one of the non-type template parameter types
- // is dependent, then we must wait until template instantiation time
- // to actually compare the arguments.
- if (Kind != Sema::TPL_TemplateTemplateArgumentMatch ||
- (!OldNTTP->getType()->isDependentType() &&
- !NewNTTP->getType()->isDependentType()))
- if (!S.Context.hasSameType(OldNTTP->getType(), NewNTTP->getType())) {
- if (Complain) {
- unsigned NextDiag = diag::err_template_nontype_parm_different_type;
- if (TemplateArgLoc.isValid()) {
- S.Diag(TemplateArgLoc,
- diag::err_template_arg_template_params_mismatch);
- NextDiag = diag::note_template_nontype_parm_different_type;
- }
- S.Diag(NewNTTP->getLocation(), NextDiag)
- << NewNTTP->getType()
- << (Kind != Sema::TPL_TemplateMatch);
- S.Diag(OldNTTP->getLocation(),
- diag::note_template_nontype_parm_prev_declaration)
- << OldNTTP->getType();
- }
- return false;
- }
- }
- // For template template parameters, check the template parameter types.
- // The template parameter lists of template template
- // parameters must agree.
- else if (TemplateTemplateParmDecl *OldTTP
- = dyn_cast<TemplateTemplateParmDecl>(Old)) {
- TemplateTemplateParmDecl *NewTTP = cast<TemplateTemplateParmDecl>(New);
- if (!S.TemplateParameterListsAreEqual(
- NewInstFrom, NewTTP->getTemplateParameters(), OldInstFrom,
- OldTTP->getTemplateParameters(), Complain,
- (Kind == Sema::TPL_TemplateMatch
- ? Sema::TPL_TemplateTemplateParmMatch
- : Kind),
- TemplateArgLoc, PartialOrdering))
- return false;
- }
- if (!PartialOrdering && Kind != Sema::TPL_TemplateTemplateArgumentMatch &&
- !isa<TemplateTemplateParmDecl>(Old)) {
- const Expr *NewC = nullptr, *OldC = nullptr;
- if (isa<TemplateTypeParmDecl>(New)) {
- if (const auto *TC = cast<TemplateTypeParmDecl>(New)->getTypeConstraint())
- NewC = TC->getImmediatelyDeclaredConstraint();
- if (const auto *TC = cast<TemplateTypeParmDecl>(Old)->getTypeConstraint())
- OldC = TC->getImmediatelyDeclaredConstraint();
- } else if (isa<NonTypeTemplateParmDecl>(New)) {
- if (const Expr *E = cast<NonTypeTemplateParmDecl>(New)
- ->getPlaceholderTypeConstraint())
- NewC = E;
- if (const Expr *E = cast<NonTypeTemplateParmDecl>(Old)
- ->getPlaceholderTypeConstraint())
- OldC = E;
- } else
- llvm_unreachable("unexpected template parameter type");
- auto Diagnose = [&] {
- S.Diag(NewC ? NewC->getBeginLoc() : New->getBeginLoc(),
- diag::err_template_different_type_constraint);
- S.Diag(OldC ? OldC->getBeginLoc() : Old->getBeginLoc(),
- diag::note_template_prev_declaration) << /*declaration*/0;
- };
- if (!NewC != !OldC) {
- if (Complain)
- Diagnose();
- return false;
- }
- if (NewC) {
- if (!S.AreConstraintExpressionsEqual(OldInstFrom, OldC, NewInstFrom,
- NewC)) {
- if (Complain)
- Diagnose();
- return false;
- }
- }
- }
- return true;
- }
- /// Diagnose a known arity mismatch when comparing template argument
- /// lists.
- static
- void DiagnoseTemplateParameterListArityMismatch(Sema &S,
- TemplateParameterList *New,
- TemplateParameterList *Old,
- Sema::TemplateParameterListEqualKind Kind,
- SourceLocation TemplateArgLoc) {
- unsigned NextDiag = diag::err_template_param_list_different_arity;
- if (TemplateArgLoc.isValid()) {
- S.Diag(TemplateArgLoc, diag::err_template_arg_template_params_mismatch);
- NextDiag = diag::note_template_param_list_different_arity;
- }
- S.Diag(New->getTemplateLoc(), NextDiag)
- << (New->size() > Old->size())
- << (Kind != Sema::TPL_TemplateMatch)
- << SourceRange(New->getTemplateLoc(), New->getRAngleLoc());
- S.Diag(Old->getTemplateLoc(), diag::note_template_prev_declaration)
- << (Kind != Sema::TPL_TemplateMatch)
- << SourceRange(Old->getTemplateLoc(), Old->getRAngleLoc());
- }
- /// Determine whether the given template parameter lists are
- /// equivalent.
- ///
- /// \param New The new template parameter list, typically written in the
- /// source code as part of a new template declaration.
- ///
- /// \param Old The old template parameter list, typically found via
- /// name lookup of the template declared with this template parameter
- /// list.
- ///
- /// \param Complain If true, this routine will produce a diagnostic if
- /// the template parameter lists are not equivalent.
- ///
- /// \param Kind describes how we are to match the template parameter lists.
- ///
- /// \param TemplateArgLoc If this source location is valid, then we
- /// are actually checking the template parameter list of a template
- /// argument (New) against the template parameter list of its
- /// corresponding template template parameter (Old). We produce
- /// slightly different diagnostics in this scenario.
- ///
- /// \returns True if the template parameter lists are equal, false
- /// otherwise.
- bool Sema::TemplateParameterListsAreEqual(
- const NamedDecl *NewInstFrom, TemplateParameterList *New,
- const NamedDecl *OldInstFrom, TemplateParameterList *Old, bool Complain,
- TemplateParameterListEqualKind Kind, SourceLocation TemplateArgLoc,
- bool PartialOrdering) {
- if (Old->size() != New->size() && Kind != TPL_TemplateTemplateArgumentMatch) {
- if (Complain)
- DiagnoseTemplateParameterListArityMismatch(*this, New, Old, Kind,
- TemplateArgLoc);
- return false;
- }
- // C++0x [temp.arg.template]p3:
- // A template-argument matches a template template-parameter (call it P)
- // when each of the template parameters in the template-parameter-list of
- // the template-argument's corresponding class template or alias template
- // (call it A) matches the corresponding template parameter in the
- // template-parameter-list of P. [...]
- TemplateParameterList::iterator NewParm = New->begin();
- TemplateParameterList::iterator NewParmEnd = New->end();
- for (TemplateParameterList::iterator OldParm = Old->begin(),
- OldParmEnd = Old->end();
- OldParm != OldParmEnd; ++OldParm) {
- if (Kind != TPL_TemplateTemplateArgumentMatch ||
- !(*OldParm)->isTemplateParameterPack()) {
- if (NewParm == NewParmEnd) {
- if (Complain)
- DiagnoseTemplateParameterListArityMismatch(*this, New, Old, Kind,
- TemplateArgLoc);
- return false;
- }
- if (!MatchTemplateParameterKind(*this, *NewParm, NewInstFrom, *OldParm,
- OldInstFrom, Complain, Kind,
- TemplateArgLoc, PartialOrdering))
- return false;
- ++NewParm;
- continue;
- }
- // C++0x [temp.arg.template]p3:
- // [...] When P's template- parameter-list contains a template parameter
- // pack (14.5.3), the template parameter pack will match zero or more
- // template parameters or template parameter packs in the
- // template-parameter-list of A with the same type and form as the
- // template parameter pack in P (ignoring whether those template
- // parameters are template parameter packs).
- for (; NewParm != NewParmEnd; ++NewParm) {
- if (!MatchTemplateParameterKind(*this, *NewParm, NewInstFrom, *OldParm,
- OldInstFrom, Complain, Kind,
- TemplateArgLoc, PartialOrdering))
- return false;
- }
- }
- // Make sure we exhausted all of the arguments.
- if (NewParm != NewParmEnd) {
- if (Complain)
- DiagnoseTemplateParameterListArityMismatch(*this, New, Old, Kind,
- TemplateArgLoc);
- return false;
- }
- if (!PartialOrdering && Kind != TPL_TemplateTemplateArgumentMatch) {
- const Expr *NewRC = New->getRequiresClause();
- const Expr *OldRC = Old->getRequiresClause();
- auto Diagnose = [&] {
- Diag(NewRC ? NewRC->getBeginLoc() : New->getTemplateLoc(),
- diag::err_template_different_requires_clause);
- Diag(OldRC ? OldRC->getBeginLoc() : Old->getTemplateLoc(),
- diag::note_template_prev_declaration) << /*declaration*/0;
- };
- if (!NewRC != !OldRC) {
- if (Complain)
- Diagnose();
- return false;
- }
- if (NewRC) {
- if (!AreConstraintExpressionsEqual(OldInstFrom, OldRC, NewInstFrom,
- NewRC)) {
- if (Complain)
- Diagnose();
- return false;
- }
- }
- }
- return true;
- }
- /// Check whether a template can be declared within this scope.
- ///
- /// If the template declaration is valid in this scope, returns
- /// false. Otherwise, issues a diagnostic and returns true.
- bool
- Sema::CheckTemplateDeclScope(Scope *S, TemplateParameterList *TemplateParams) {
- if (!S)
- return false;
- // Find the nearest enclosing declaration scope.
- while ((S->getFlags() & Scope::DeclScope) == 0 ||
- (S->getFlags() & Scope::TemplateParamScope) != 0)
- S = S->getParent();
- // C++ [temp.pre]p6: [P2096]
- // A template, explicit specialization, or partial specialization shall not
- // have C linkage.
- DeclContext *Ctx = S->getEntity();
- if (Ctx && Ctx->isExternCContext()) {
- Diag(TemplateParams->getTemplateLoc(), diag::err_template_linkage)
- << TemplateParams->getSourceRange();
- if (const LinkageSpecDecl *LSD = Ctx->getExternCContext())
- Diag(LSD->getExternLoc(), diag::note_extern_c_begins_here);
- return true;
- }
- Ctx = Ctx ? Ctx->getRedeclContext() : nullptr;
- // C++ [temp]p2:
- // A template-declaration can appear only as a namespace scope or
- // class scope declaration.
- // C++ [temp.expl.spec]p3:
- // An explicit specialization may be declared in any scope in which the
- // corresponding primary template may be defined.
- // C++ [temp.class.spec]p6: [P2096]
- // A partial specialization may be declared in any scope in which the
- // corresponding primary template may be defined.
- if (Ctx) {
- if (Ctx->isFileContext())
- return false;
- if (CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(Ctx)) {
- // C++ [temp.mem]p2:
- // A local class shall not have member templates.
- if (RD->isLocalClass())
- return Diag(TemplateParams->getTemplateLoc(),
- diag::err_template_inside_local_class)
- << TemplateParams->getSourceRange();
- else
- return false;
- }
- }
- return Diag(TemplateParams->getTemplateLoc(),
- diag::err_template_outside_namespace_or_class_scope)
- << TemplateParams->getSourceRange();
- }
- /// Determine what kind of template specialization the given declaration
- /// is.
- static TemplateSpecializationKind getTemplateSpecializationKind(Decl *D) {
- if (!D)
- return TSK_Undeclared;
- if (CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(D))
- return Record->getTemplateSpecializationKind();
- if (FunctionDecl *Function = dyn_cast<FunctionDecl>(D))
- return Function->getTemplateSpecializationKind();
- if (VarDecl *Var = dyn_cast<VarDecl>(D))
- return Var->getTemplateSpecializationKind();
- return TSK_Undeclared;
- }
- /// Check whether a specialization is well-formed in the current
- /// context.
- ///
- /// This routine determines whether a template specialization can be declared
- /// in the current context (C++ [temp.expl.spec]p2).
- ///
- /// \param S the semantic analysis object for which this check is being
- /// performed.
- ///
- /// \param Specialized the entity being specialized or instantiated, which
- /// may be a kind of template (class template, function template, etc.) or
- /// a member of a class template (member function, static data member,
- /// member class).
- ///
- /// \param PrevDecl the previous declaration of this entity, if any.
- ///
- /// \param Loc the location of the explicit specialization or instantiation of
- /// this entity.
- ///
- /// \param IsPartialSpecialization whether this is a partial specialization of
- /// a class template.
- ///
- /// \returns true if there was an error that we cannot recover from, false
- /// otherwise.
- static bool CheckTemplateSpecializationScope(Sema &S,
- NamedDecl *Specialized,
- NamedDecl *PrevDecl,
- SourceLocation Loc,
- bool IsPartialSpecialization) {
- // Keep these "kind" numbers in sync with the %select statements in the
- // various diagnostics emitted by this routine.
- int EntityKind = 0;
- if (isa<ClassTemplateDecl>(Specialized))
- EntityKind = IsPartialSpecialization? 1 : 0;
- else if (isa<VarTemplateDecl>(Specialized))
- EntityKind = IsPartialSpecialization ? 3 : 2;
- else if (isa<FunctionTemplateDecl>(Specialized))
- EntityKind = 4;
- else if (isa<CXXMethodDecl>(Specialized))
- EntityKind = 5;
- else if (isa<VarDecl>(Specialized))
- EntityKind = 6;
- else if (isa<RecordDecl>(Specialized))
- EntityKind = 7;
- else if (isa<EnumDecl>(Specialized) && S.getLangOpts().CPlusPlus11)
- EntityKind = 8;
- else {
- S.Diag(Loc, diag::err_template_spec_unknown_kind)
- << S.getLangOpts().CPlusPlus11;
- S.Diag(Specialized->getLocation(), diag::note_specialized_entity);
- return true;
- }
- // C++ [temp.expl.spec]p2:
- // An explicit specialization may be declared in any scope in which
- // the corresponding primary template may be defined.
- if (S.CurContext->getRedeclContext()->isFunctionOrMethod()) {
- S.Diag(Loc, diag::err_template_spec_decl_function_scope)
- << Specialized;
- return true;
- }
- // C++ [temp.class.spec]p6:
- // A class template partial specialization may be declared in any
- // scope in which the primary template may be defined.
- DeclContext *SpecializedContext =
- Specialized->getDeclContext()->getRedeclContext();
- DeclContext *DC = S.CurContext->getRedeclContext();
- // Make sure that this redeclaration (or definition) occurs in the same
- // scope or an enclosing namespace.
- if (!(DC->isFileContext() ? DC->Encloses(SpecializedContext)
- : DC->Equals(SpecializedContext))) {
- if (isa<TranslationUnitDecl>(SpecializedContext))
- S.Diag(Loc, diag::err_template_spec_redecl_global_scope)
- << EntityKind << Specialized;
- else {
- auto *ND = cast<NamedDecl>(SpecializedContext);
- int Diag = diag::err_template_spec_redecl_out_of_scope;
- if (S.getLangOpts().MicrosoftExt && !DC->isRecord())
- Diag = diag::ext_ms_template_spec_redecl_out_of_scope;
- S.Diag(Loc, Diag) << EntityKind << Specialized
- << ND << isa<CXXRecordDecl>(ND);
- }
- S.Diag(Specialized->getLocation(), diag::note_specialized_entity);
- // Don't allow specializing in the wrong class during error recovery.
- // Otherwise, things can go horribly wrong.
- if (DC->isRecord())
- return true;
- }
- return false;
- }
- static SourceRange findTemplateParameterInType(unsigned Depth, Expr *E) {
- if (!E->isTypeDependent())
- return SourceLocation();
- DependencyChecker Checker(Depth, /*IgnoreNonTypeDependent*/true);
- Checker.TraverseStmt(E);
- if (Checker.MatchLoc.isInvalid())
- return E->getSourceRange();
- return Checker.MatchLoc;
- }
- static SourceRange findTemplateParameter(unsigned Depth, TypeLoc TL) {
- if (!TL.getType()->isDependentType())
- return SourceLocation();
- DependencyChecker Checker(Depth, /*IgnoreNonTypeDependent*/true);
- Checker.TraverseTypeLoc(TL);
- if (Checker.MatchLoc.isInvalid())
- return TL.getSourceRange();
- return Checker.MatchLoc;
- }
- /// Subroutine of Sema::CheckTemplatePartialSpecializationArgs
- /// that checks non-type template partial specialization arguments.
- static bool CheckNonTypeTemplatePartialSpecializationArgs(
- Sema &S, SourceLocation TemplateNameLoc, NonTypeTemplateParmDecl *Param,
- const TemplateArgument *Args, unsigned NumArgs, bool IsDefaultArgument) {
- for (unsigned I = 0; I != NumArgs; ++I) {
- if (Args[I].getKind() == TemplateArgument::Pack) {
- if (CheckNonTypeTemplatePartialSpecializationArgs(
- S, TemplateNameLoc, Param, Args[I].pack_begin(),
- Args[I].pack_size(), IsDefaultArgument))
- return true;
- continue;
- }
- if (Args[I].getKind() != TemplateArgument::Expression)
- continue;
- Expr *ArgExpr = Args[I].getAsExpr();
- // We can have a pack expansion of any of the bullets below.
- if (PackExpansionExpr *Expansion = dyn_cast<PackExpansionExpr>(ArgExpr))
- ArgExpr = Expansion->getPattern();
- // Strip off any implicit casts we added as part of type checking.
- while (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(ArgExpr))
- ArgExpr = ICE->getSubExpr();
- // C++ [temp.class.spec]p8:
- // A non-type argument is non-specialized if it is the name of a
- // non-type parameter. All other non-type arguments are
- // specialized.
- //
- // Below, we check the two conditions that only apply to
- // specialized non-type arguments, so skip any non-specialized
- // arguments.
- if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(ArgExpr))
- if (isa<NonTypeTemplateParmDecl>(DRE->getDecl()))
- continue;
- // C++ [temp.class.spec]p9:
- // Within the argument list of a class template partial
- // specialization, the following restrictions apply:
- // -- A partially specialized non-type argument expression
- // shall not involve a template parameter of the partial
- // specialization except when the argument expression is a
- // simple identifier.
- // -- The type of a template parameter corresponding to a
- // specialized non-type argument shall not be dependent on a
- // parameter of the specialization.
- // DR1315 removes the first bullet, leaving an incoherent set of rules.
- // We implement a compromise between the original rules and DR1315:
- // -- A specialized non-type template argument shall not be
- // type-dependent and the corresponding template parameter
- // shall have a non-dependent type.
- SourceRange ParamUseRange =
- findTemplateParameterInType(Param->getDepth(), ArgExpr);
- if (ParamUseRange.isValid()) {
- if (IsDefaultArgument) {
- S.Diag(TemplateNameLoc,
- diag::err_dependent_non_type_arg_in_partial_spec);
- S.Diag(ParamUseRange.getBegin(),
- diag::note_dependent_non_type_default_arg_in_partial_spec)
- << ParamUseRange;
- } else {
- S.Diag(ParamUseRange.getBegin(),
- diag::err_dependent_non_type_arg_in_partial_spec)
- << ParamUseRange;
- }
- return true;
- }
- ParamUseRange = findTemplateParameter(
- Param->getDepth(), Param->getTypeSourceInfo()->getTypeLoc());
- if (ParamUseRange.isValid()) {
- S.Diag(IsDefaultArgument ? TemplateNameLoc : ArgExpr->getBeginLoc(),
- diag::err_dependent_typed_non_type_arg_in_partial_spec)
- << Param->getType();
- S.Diag(Param->getLocation(), diag::note_template_param_here)
- << (IsDefaultArgument ? ParamUseRange : SourceRange())
- << ParamUseRange;
- return true;
- }
- }
- return false;
- }
- /// Check the non-type template arguments of a class template
- /// partial specialization according to C++ [temp.class.spec]p9.
- ///
- /// \param TemplateNameLoc the location of the template name.
- /// \param PrimaryTemplate the template parameters of the primary class
- /// template.
- /// \param NumExplicit the number of explicitly-specified template arguments.
- /// \param TemplateArgs the template arguments of the class template
- /// partial specialization.
- ///
- /// \returns \c true if there was an error, \c false otherwise.
- bool Sema::CheckTemplatePartialSpecializationArgs(
- SourceLocation TemplateNameLoc, TemplateDecl *PrimaryTemplate,
- unsigned NumExplicit, ArrayRef<TemplateArgument> TemplateArgs) {
- // We have to be conservative when checking a template in a dependent
- // context.
- if (PrimaryTemplate->getDeclContext()->isDependentContext())
- return false;
- TemplateParameterList *TemplateParams =
- PrimaryTemplate->getTemplateParameters();
- for (unsigned I = 0, N = TemplateParams->size(); I != N; ++I) {
- NonTypeTemplateParmDecl *Param
- = dyn_cast<NonTypeTemplateParmDecl>(TemplateParams->getParam(I));
- if (!Param)
- continue;
- if (CheckNonTypeTemplatePartialSpecializationArgs(*this, TemplateNameLoc,
- Param, &TemplateArgs[I],
- 1, I >= NumExplicit))
- return true;
- }
- return false;
- }
- DeclResult Sema::ActOnClassTemplateSpecialization(
- Scope *S, unsigned TagSpec, TagUseKind TUK, SourceLocation KWLoc,
- SourceLocation ModulePrivateLoc, CXXScopeSpec &SS,
- TemplateIdAnnotation &TemplateId, const ParsedAttributesView &Attr,
- MultiTemplateParamsArg TemplateParameterLists, SkipBodyInfo *SkipBody) {
- assert(TUK != TUK_Reference && "References are not specializations");
- // NOTE: KWLoc is the location of the tag keyword. This will instead
- // store the location of the outermost template keyword in the declaration.
- SourceLocation TemplateKWLoc = TemplateParameterLists.size() > 0
- ? TemplateParameterLists[0]->getTemplateLoc() : KWLoc;
- SourceLocation TemplateNameLoc = TemplateId.TemplateNameLoc;
- SourceLocation LAngleLoc = TemplateId.LAngleLoc;
- SourceLocation RAngleLoc = TemplateId.RAngleLoc;
- // Find the class template we're specializing
- TemplateName Name = TemplateId.Template.get();
- ClassTemplateDecl *ClassTemplate
- = dyn_cast_or_null<ClassTemplateDecl>(Name.getAsTemplateDecl());
- if (!ClassTemplate) {
- Diag(TemplateNameLoc, diag::err_not_class_template_specialization)
- << (Name.getAsTemplateDecl() &&
- isa<TemplateTemplateParmDecl>(Name.getAsTemplateDecl()));
- return true;
- }
- bool isMemberSpecialization = false;
- bool isPartialSpecialization = false;
- // Check the validity of the template headers that introduce this
- // template.
- // FIXME: We probably shouldn't complain about these headers for
- // friend declarations.
- bool Invalid = false;
- TemplateParameterList *TemplateParams =
- MatchTemplateParametersToScopeSpecifier(
- KWLoc, TemplateNameLoc, SS, &TemplateId,
- TemplateParameterLists, TUK == TUK_Friend, isMemberSpecialization,
- Invalid);
- if (Invalid)
- return true;
- // Check that we can declare a template specialization here.
- if (TemplateParams && CheckTemplateDeclScope(S, TemplateParams))
- return true;
- if (TemplateParams && TemplateParams->size() > 0) {
- isPartialSpecialization = true;
- if (TUK == TUK_Friend) {
- Diag(KWLoc, diag::err_partial_specialization_friend)
- << SourceRange(LAngleLoc, RAngleLoc);
- return true;
- }
- // C++ [temp.class.spec]p10:
- // The template parameter list of a specialization shall not
- // contain default template argument values.
- for (unsigned I = 0, N = TemplateParams->size(); I != N; ++I) {
- Decl *Param = TemplateParams->getParam(I);
- if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(Param)) {
- if (TTP->hasDefaultArgument()) {
- Diag(TTP->getDefaultArgumentLoc(),
- diag::err_default_arg_in_partial_spec);
- TTP->removeDefaultArgument();
- }
- } else if (NonTypeTemplateParmDecl *NTTP
- = dyn_cast<NonTypeTemplateParmDecl>(Param)) {
- if (Expr *DefArg = NTTP->getDefaultArgument()) {
- Diag(NTTP->getDefaultArgumentLoc(),
- diag::err_default_arg_in_partial_spec)
- << DefArg->getSourceRange();
- NTTP->removeDefaultArgument();
- }
- } else {
- TemplateTemplateParmDecl *TTP = cast<TemplateTemplateParmDecl>(Param);
- if (TTP->hasDefaultArgument()) {
- Diag(TTP->getDefaultArgument().getLocation(),
- diag::err_default_arg_in_partial_spec)
- << TTP->getDefaultArgument().getSourceRange();
- TTP->removeDefaultArgument();
- }
- }
- }
- } else if (TemplateParams) {
- if (TUK == TUK_Friend)
- Diag(KWLoc, diag::err_template_spec_friend)
- << FixItHint::CreateRemoval(
- SourceRange(TemplateParams->getTemplateLoc(),
- TemplateParams->getRAngleLoc()))
- << SourceRange(LAngleLoc, RAngleLoc);
- } else {
- assert(TUK == TUK_Friend && "should have a 'template<>' for this decl");
- }
- // Check that the specialization uses the same tag kind as the
- // original template.
- TagTypeKind Kind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- assert(Kind != TTK_Enum && "Invalid enum tag in class template spec!");
- if (!isAcceptableTagRedeclaration(ClassTemplate->getTemplatedDecl(),
- Kind, TUK == TUK_Definition, KWLoc,
- ClassTemplate->getIdentifier())) {
- Diag(KWLoc, diag::err_use_with_wrong_tag)
- << ClassTemplate
- << FixItHint::CreateReplacement(KWLoc,
- ClassTemplate->getTemplatedDecl()->getKindName());
- Diag(ClassTemplate->getTemplatedDecl()->getLocation(),
- diag::note_previous_use);
- Kind = ClassTemplate->getTemplatedDecl()->getTagKind();
- }
- // Translate the parser's template argument list in our AST format.
- TemplateArgumentListInfo TemplateArgs =
- makeTemplateArgumentListInfo(*this, TemplateId);
- // Check for unexpanded parameter packs in any of the template arguments.
- for (unsigned I = 0, N = TemplateArgs.size(); I != N; ++I)
- if (DiagnoseUnexpandedParameterPack(TemplateArgs[I],
- UPPC_PartialSpecialization))
- return true;
- // Check that the template argument list is well-formed for this
- // template.
- SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(ClassTemplate, TemplateNameLoc, TemplateArgs,
- false, SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/true))
- return true;
- // Find the class template (partial) specialization declaration that
- // corresponds to these arguments.
- if (isPartialSpecialization) {
- if (CheckTemplatePartialSpecializationArgs(TemplateNameLoc, ClassTemplate,
- TemplateArgs.size(),
- CanonicalConverted))
- return true;
- // FIXME: Move this to CheckTemplatePartialSpecializationArgs so we
- // also do it during instantiation.
- if (!Name.isDependent() &&
- !TemplateSpecializationType::anyDependentTemplateArguments(
- TemplateArgs, CanonicalConverted)) {
- Diag(TemplateNameLoc, diag::err_partial_spec_fully_specialized)
- << ClassTemplate->getDeclName();
- isPartialSpecialization = false;
- }
- }
- void *InsertPos = nullptr;
- ClassTemplateSpecializationDecl *PrevDecl = nullptr;
- if (isPartialSpecialization)
- PrevDecl = ClassTemplate->findPartialSpecialization(
- CanonicalConverted, TemplateParams, InsertPos);
- else
- PrevDecl = ClassTemplate->findSpecialization(CanonicalConverted, InsertPos);
- ClassTemplateSpecializationDecl *Specialization = nullptr;
- // Check whether we can declare a class template specialization in
- // the current scope.
- if (TUK != TUK_Friend &&
- CheckTemplateSpecializationScope(*this, ClassTemplate, PrevDecl,
- TemplateNameLoc,
- isPartialSpecialization))
- return true;
- // The canonical type
- QualType CanonType;
- if (isPartialSpecialization) {
- // Build the canonical type that describes the converted template
- // arguments of the class template partial specialization.
- TemplateName CanonTemplate = Context.getCanonicalTemplateName(Name);
- CanonType = Context.getTemplateSpecializationType(CanonTemplate,
- CanonicalConverted);
- if (Context.hasSameType(CanonType,
- ClassTemplate->getInjectedClassNameSpecialization()) &&
- (!Context.getLangOpts().CPlusPlus20 ||
- !TemplateParams->hasAssociatedConstraints())) {
- // C++ [temp.class.spec]p9b3:
- //
- // -- The argument list of the specialization shall not be identical
- // to the implicit argument list of the primary template.
- //
- // This rule has since been removed, because it's redundant given DR1495,
- // but we keep it because it produces better diagnostics and recovery.
- Diag(TemplateNameLoc, diag::err_partial_spec_args_match_primary_template)
- << /*class template*/0 << (TUK == TUK_Definition)
- << FixItHint::CreateRemoval(SourceRange(LAngleLoc, RAngleLoc));
- return CheckClassTemplate(S, TagSpec, TUK, KWLoc, SS,
- ClassTemplate->getIdentifier(),
- TemplateNameLoc,
- Attr,
- TemplateParams,
- AS_none, /*ModulePrivateLoc=*/SourceLocation(),
- /*FriendLoc*/SourceLocation(),
- TemplateParameterLists.size() - 1,
- TemplateParameterLists.data());
- }
- // Create a new class template partial specialization declaration node.
- ClassTemplatePartialSpecializationDecl *PrevPartial
- = cast_or_null<ClassTemplatePartialSpecializationDecl>(PrevDecl);
- ClassTemplatePartialSpecializationDecl *Partial =
- ClassTemplatePartialSpecializationDecl::Create(
- Context, Kind, ClassTemplate->getDeclContext(), KWLoc,
- TemplateNameLoc, TemplateParams, ClassTemplate, CanonicalConverted,
- TemplateArgs, CanonType, PrevPartial);
- SetNestedNameSpecifier(*this, Partial, SS);
- if (TemplateParameterLists.size() > 1 && SS.isSet()) {
- Partial->setTemplateParameterListsInfo(
- Context, TemplateParameterLists.drop_back(1));
- }
- if (!PrevPartial)
- ClassTemplate->AddPartialSpecialization(Partial, InsertPos);
- Specialization = Partial;
- // If we are providing an explicit specialization of a member class
- // template specialization, make a note of that.
- if (PrevPartial && PrevPartial->getInstantiatedFromMember())
- PrevPartial->setMemberSpecialization();
- CheckTemplatePartialSpecialization(Partial);
- } else {
- // Create a new class template specialization declaration node for
- // this explicit specialization or friend declaration.
- Specialization = ClassTemplateSpecializationDecl::Create(
- Context, Kind, ClassTemplate->getDeclContext(), KWLoc, TemplateNameLoc,
- ClassTemplate, CanonicalConverted, PrevDecl);
- SetNestedNameSpecifier(*this, Specialization, SS);
- if (TemplateParameterLists.size() > 0) {
- Specialization->setTemplateParameterListsInfo(Context,
- TemplateParameterLists);
- }
- if (!PrevDecl)
- ClassTemplate->AddSpecialization(Specialization, InsertPos);
- if (CurContext->isDependentContext()) {
- TemplateName CanonTemplate = Context.getCanonicalTemplateName(Name);
- CanonType = Context.getTemplateSpecializationType(CanonTemplate,
- CanonicalConverted);
- } else {
- CanonType = Context.getTypeDeclType(Specialization);
- }
- }
- // C++ [temp.expl.spec]p6:
- // If a template, a member template or the member of a class template is
- // explicitly specialized then that specialization shall be declared
- // before the first use of that specialization that would cause an implicit
- // instantiation to take place, in every translation unit in which such a
- // use occurs; no diagnostic is required.
- if (PrevDecl && PrevDecl->getPointOfInstantiation().isValid()) {
- bool Okay = false;
- for (Decl *Prev = PrevDecl; Prev; Prev = Prev->getPreviousDecl()) {
- // Is there any previous explicit specialization declaration?
- if (getTemplateSpecializationKind(Prev) == TSK_ExplicitSpecialization) {
- Okay = true;
- break;
- }
- }
- if (!Okay) {
- SourceRange Range(TemplateNameLoc, RAngleLoc);
- Diag(TemplateNameLoc, diag::err_specialization_after_instantiation)
- << Context.getTypeDeclType(Specialization) << Range;
- Diag(PrevDecl->getPointOfInstantiation(),
- diag::note_instantiation_required_here)
- << (PrevDecl->getTemplateSpecializationKind()
- != TSK_ImplicitInstantiation);
- return true;
- }
- }
- // If this is not a friend, note that this is an explicit specialization.
- if (TUK != TUK_Friend)
- Specialization->setSpecializationKind(TSK_ExplicitSpecialization);
- // Check that this isn't a redefinition of this specialization.
- if (TUK == TUK_Definition) {
- RecordDecl *Def = Specialization->getDefinition();
- NamedDecl *Hidden = nullptr;
- if (Def && SkipBody && !hasVisibleDefinition(Def, &Hidden)) {
- SkipBody->ShouldSkip = true;
- SkipBody->Previous = Def;
- makeMergedDefinitionVisible(Hidden);
- } else if (Def) {
- SourceRange Range(TemplateNameLoc, RAngleLoc);
- Diag(TemplateNameLoc, diag::err_redefinition) << Specialization << Range;
- Diag(Def->getLocation(), diag::note_previous_definition);
- Specialization->setInvalidDecl();
- return true;
- }
- }
- ProcessDeclAttributeList(S, Specialization, Attr);
- // Add alignment attributes if necessary; these attributes are checked when
- // the ASTContext lays out the structure.
- if (TUK == TUK_Definition && (!SkipBody || !SkipBody->ShouldSkip)) {
- AddAlignmentAttributesForRecord(Specialization);
- AddMsStructLayoutForRecord(Specialization);
- }
- if (ModulePrivateLoc.isValid())
- Diag(Specialization->getLocation(), diag::err_module_private_specialization)
- << (isPartialSpecialization? 1 : 0)
- << FixItHint::CreateRemoval(ModulePrivateLoc);
- // Build the fully-sugared type for this class template
- // specialization as the user wrote in the specialization
- // itself. This means that we'll pretty-print the type retrieved
- // from the specialization's declaration the way that the user
- // actually wrote the specialization, rather than formatting the
- // name based on the "canonical" representation used to store the
- // template arguments in the specialization.
- TypeSourceInfo *WrittenTy
- = Context.getTemplateSpecializationTypeInfo(Name, TemplateNameLoc,
- TemplateArgs, CanonType);
- if (TUK != TUK_Friend) {
- Specialization->setTypeAsWritten(WrittenTy);
- Specialization->setTemplateKeywordLoc(TemplateKWLoc);
- }
- // C++ [temp.expl.spec]p9:
- // A template explicit specialization is in the scope of the
- // namespace in which the template was defined.
- //
- // We actually implement this paragraph where we set the semantic
- // context (in the creation of the ClassTemplateSpecializationDecl),
- // but we also maintain the lexical context where the actual
- // definition occurs.
- Specialization->setLexicalDeclContext(CurContext);
- // We may be starting the definition of this specialization.
- if (TUK == TUK_Definition && (!SkipBody || !SkipBody->ShouldSkip))
- Specialization->startDefinition();
- if (TUK == TUK_Friend) {
- FriendDecl *Friend = FriendDecl::Create(Context, CurContext,
- TemplateNameLoc,
- WrittenTy,
- /*FIXME:*/KWLoc);
- Friend->setAccess(AS_public);
- CurContext->addDecl(Friend);
- } else {
- // Add the specialization into its lexical context, so that it can
- // be seen when iterating through the list of declarations in that
- // context. However, specializations are not found by name lookup.
- CurContext->addDecl(Specialization);
- }
- if (SkipBody && SkipBody->ShouldSkip)
- return SkipBody->Previous;
- return Specialization;
- }
- Decl *Sema::ActOnTemplateDeclarator(Scope *S,
- MultiTemplateParamsArg TemplateParameterLists,
- Declarator &D) {
- Decl *NewDecl = HandleDeclarator(S, D, TemplateParameterLists);
- ActOnDocumentableDecl(NewDecl);
- return NewDecl;
- }
- Decl *Sema::ActOnConceptDefinition(Scope *S,
- MultiTemplateParamsArg TemplateParameterLists,
- IdentifierInfo *Name, SourceLocation NameLoc,
- Expr *ConstraintExpr) {
- DeclContext *DC = CurContext;
- if (!DC->getRedeclContext()->isFileContext()) {
- Diag(NameLoc,
- diag::err_concept_decls_may_only_appear_in_global_namespace_scope);
- return nullptr;
- }
- if (TemplateParameterLists.size() > 1) {
- Diag(NameLoc, diag::err_concept_extra_headers);
- return nullptr;
- }
- TemplateParameterList *Params = TemplateParameterLists.front();
- if (Params->size() == 0) {
- Diag(NameLoc, diag::err_concept_no_parameters);
- return nullptr;
- }
- // Ensure that the parameter pack, if present, is the last parameter in the
- // template.
- for (TemplateParameterList::const_iterator ParamIt = Params->begin(),
- ParamEnd = Params->end();
- ParamIt != ParamEnd; ++ParamIt) {
- Decl const *Param = *ParamIt;
- if (Param->isParameterPack()) {
- if (++ParamIt == ParamEnd)
- break;
- Diag(Param->getLocation(),
- diag::err_template_param_pack_must_be_last_template_parameter);
- return nullptr;
- }
- }
- if (DiagnoseUnexpandedParameterPack(ConstraintExpr))
- return nullptr;
- ConceptDecl *NewDecl =
- ConceptDecl::Create(Context, DC, NameLoc, Name, Params, ConstraintExpr);
- if (NewDecl->hasAssociatedConstraints()) {
- // C++2a [temp.concept]p4:
- // A concept shall not have associated constraints.
- Diag(NameLoc, diag::err_concept_no_associated_constraints);
- NewDecl->setInvalidDecl();
- }
- // Check for conflicting previous declaration.
- DeclarationNameInfo NameInfo(NewDecl->getDeclName(), NameLoc);
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName,
- forRedeclarationInCurContext());
- LookupName(Previous, S);
- FilterLookupForScope(Previous, DC, S, /*ConsiderLinkage=*/false,
- /*AllowInlineNamespace*/false);
- bool AddToScope = true;
- CheckConceptRedefinition(NewDecl, Previous, AddToScope);
- ActOnDocumentableDecl(NewDecl);
- if (AddToScope)
- PushOnScopeChains(NewDecl, S);
- return NewDecl;
- }
- void Sema::CheckConceptRedefinition(ConceptDecl *NewDecl,
- LookupResult &Previous, bool &AddToScope) {
- AddToScope = true;
- if (Previous.empty())
- return;
- auto *OldConcept = dyn_cast<ConceptDecl>(Previous.getRepresentativeDecl()->getUnderlyingDecl());
- if (!OldConcept) {
- auto *Old = Previous.getRepresentativeDecl();
- Diag(NewDecl->getLocation(), diag::err_redefinition_different_kind)
- << NewDecl->getDeclName();
- notePreviousDefinition(Old, NewDecl->getLocation());
- AddToScope = false;
- return;
- }
- // Check if we can merge with a concept declaration.
- bool IsSame = Context.isSameEntity(NewDecl, OldConcept);
- if (!IsSame) {
- Diag(NewDecl->getLocation(), diag::err_redefinition_different_concept)
- << NewDecl->getDeclName();
- notePreviousDefinition(OldConcept, NewDecl->getLocation());
- AddToScope = false;
- return;
- }
- if (hasReachableDefinition(OldConcept) &&
- IsRedefinitionInModule(NewDecl, OldConcept)) {
- Diag(NewDecl->getLocation(), diag::err_redefinition)
- << NewDecl->getDeclName();
- notePreviousDefinition(OldConcept, NewDecl->getLocation());
- AddToScope = false;
- return;
- }
- if (!Previous.isSingleResult()) {
- // FIXME: we should produce an error in case of ambig and failed lookups.
- // Other decls (e.g. namespaces) also have this shortcoming.
- return;
- }
- // We unwrap canonical decl late to check for module visibility.
- Context.setPrimaryMergedDecl(NewDecl, OldConcept->getCanonicalDecl());
- }
- /// \brief Strips various properties off an implicit instantiation
- /// that has just been explicitly specialized.
- static void StripImplicitInstantiation(NamedDecl *D, bool MinGW) {
- if (MinGW || (isa<FunctionDecl>(D) &&
- cast<FunctionDecl>(D)->isFunctionTemplateSpecialization())) {
- D->dropAttr<DLLImportAttr>();
- D->dropAttr<DLLExportAttr>();
- }
- if (FunctionDecl *FD = dyn_cast<FunctionDecl>(D))
- FD->setInlineSpecified(false);
- }
- /// Compute the diagnostic location for an explicit instantiation
- // declaration or definition.
- static SourceLocation DiagLocForExplicitInstantiation(
- NamedDecl* D, SourceLocation PointOfInstantiation) {
- // Explicit instantiations following a specialization have no effect and
- // hence no PointOfInstantiation. In that case, walk decl backwards
- // until a valid name loc is found.
- SourceLocation PrevDiagLoc = PointOfInstantiation;
- for (Decl *Prev = D; Prev && !PrevDiagLoc.isValid();
- Prev = Prev->getPreviousDecl()) {
- PrevDiagLoc = Prev->getLocation();
- }
- assert(PrevDiagLoc.isValid() &&
- "Explicit instantiation without point of instantiation?");
- return PrevDiagLoc;
- }
- /// Diagnose cases where we have an explicit template specialization
- /// before/after an explicit template instantiation, producing diagnostics
- /// for those cases where they are required and determining whether the
- /// new specialization/instantiation will have any effect.
- ///
- /// \param NewLoc the location of the new explicit specialization or
- /// instantiation.
- ///
- /// \param NewTSK the kind of the new explicit specialization or instantiation.
- ///
- /// \param PrevDecl the previous declaration of the entity.
- ///
- /// \param PrevTSK the kind of the old explicit specialization or instantiatin.
- ///
- /// \param PrevPointOfInstantiation if valid, indicates where the previous
- /// declaration was instantiated (either implicitly or explicitly).
- ///
- /// \param HasNoEffect will be set to true to indicate that the new
- /// specialization or instantiation has no effect and should be ignored.
- ///
- /// \returns true if there was an error that should prevent the introduction of
- /// the new declaration into the AST, false otherwise.
- bool
- Sema::CheckSpecializationInstantiationRedecl(SourceLocation NewLoc,
- TemplateSpecializationKind NewTSK,
- NamedDecl *PrevDecl,
- TemplateSpecializationKind PrevTSK,
- SourceLocation PrevPointOfInstantiation,
- bool &HasNoEffect) {
- HasNoEffect = false;
- switch (NewTSK) {
- case TSK_Undeclared:
- case TSK_ImplicitInstantiation:
- assert(
- (PrevTSK == TSK_Undeclared || PrevTSK == TSK_ImplicitInstantiation) &&
- "previous declaration must be implicit!");
- return false;
- case TSK_ExplicitSpecialization:
- switch (PrevTSK) {
- case TSK_Undeclared:
- case TSK_ExplicitSpecialization:
- // Okay, we're just specializing something that is either already
- // explicitly specialized or has merely been mentioned without any
- // instantiation.
- return false;
- case TSK_ImplicitInstantiation:
- if (PrevPointOfInstantiation.isInvalid()) {
- // The declaration itself has not actually been instantiated, so it is
- // still okay to specialize it.
- StripImplicitInstantiation(
- PrevDecl,
- Context.getTargetInfo().getTriple().isWindowsGNUEnvironment());
- return false;
- }
- // Fall through
- [[fallthrough]];
- case TSK_ExplicitInstantiationDeclaration:
- case TSK_ExplicitInstantiationDefinition:
- assert((PrevTSK == TSK_ImplicitInstantiation ||
- PrevPointOfInstantiation.isValid()) &&
- "Explicit instantiation without point of instantiation?");
- // C++ [temp.expl.spec]p6:
- // If a template, a member template or the member of a class template
- // is explicitly specialized then that specialization shall be declared
- // before the first use of that specialization that would cause an
- // implicit instantiation to take place, in every translation unit in
- // which such a use occurs; no diagnostic is required.
- for (Decl *Prev = PrevDecl; Prev; Prev = Prev->getPreviousDecl()) {
- // Is there any previous explicit specialization declaration?
- if (getTemplateSpecializationKind(Prev) == TSK_ExplicitSpecialization)
- return false;
- }
- Diag(NewLoc, diag::err_specialization_after_instantiation)
- << PrevDecl;
- Diag(PrevPointOfInstantiation, diag::note_instantiation_required_here)
- << (PrevTSK != TSK_ImplicitInstantiation);
- return true;
- }
- llvm_unreachable("The switch over PrevTSK must be exhaustive.");
- case TSK_ExplicitInstantiationDeclaration:
- switch (PrevTSK) {
- case TSK_ExplicitInstantiationDeclaration:
- // This explicit instantiation declaration is redundant (that's okay).
- HasNoEffect = true;
- return false;
- case TSK_Undeclared:
- case TSK_ImplicitInstantiation:
- // We're explicitly instantiating something that may have already been
- // implicitly instantiated; that's fine.
- return false;
- case TSK_ExplicitSpecialization:
- // C++0x [temp.explicit]p4:
- // For a given set of template parameters, if an explicit instantiation
- // of a template appears after a declaration of an explicit
- // specialization for that template, the explicit instantiation has no
- // effect.
- HasNoEffect = true;
- return false;
- case TSK_ExplicitInstantiationDefinition:
- // C++0x [temp.explicit]p10:
- // If an entity is the subject of both an explicit instantiation
- // declaration and an explicit instantiation definition in the same
- // translation unit, the definition shall follow the declaration.
- Diag(NewLoc,
- diag::err_explicit_instantiation_declaration_after_definition);
- // Explicit instantiations following a specialization have no effect and
- // hence no PrevPointOfInstantiation. In that case, walk decl backwards
- // until a valid name loc is found.
- Diag(DiagLocForExplicitInstantiation(PrevDecl, PrevPointOfInstantiation),
- diag::note_explicit_instantiation_definition_here);
- HasNoEffect = true;
- return false;
- }
- llvm_unreachable("Unexpected TemplateSpecializationKind!");
- case TSK_ExplicitInstantiationDefinition:
- switch (PrevTSK) {
- case TSK_Undeclared:
- case TSK_ImplicitInstantiation:
- // We're explicitly instantiating something that may have already been
- // implicitly instantiated; that's fine.
- return false;
- case TSK_ExplicitSpecialization:
- // C++ DR 259, C++0x [temp.explicit]p4:
- // For a given set of template parameters, if an explicit
- // instantiation of a template appears after a declaration of
- // an explicit specialization for that template, the explicit
- // instantiation has no effect.
- Diag(NewLoc, diag::warn_explicit_instantiation_after_specialization)
- << PrevDecl;
- Diag(PrevDecl->getLocation(),
- diag::note_previous_template_specialization);
- HasNoEffect = true;
- return false;
- case TSK_ExplicitInstantiationDeclaration:
- // We're explicitly instantiating a definition for something for which we
- // were previously asked to suppress instantiations. That's fine.
- // C++0x [temp.explicit]p4:
- // For a given set of template parameters, if an explicit instantiation
- // of a template appears after a declaration of an explicit
- // specialization for that template, the explicit instantiation has no
- // effect.
- for (Decl *Prev = PrevDecl; Prev; Prev = Prev->getPreviousDecl()) {
- // Is there any previous explicit specialization declaration?
- if (getTemplateSpecializationKind(Prev) == TSK_ExplicitSpecialization) {
- HasNoEffect = true;
- break;
- }
- }
- return false;
- case TSK_ExplicitInstantiationDefinition:
- // C++0x [temp.spec]p5:
- // For a given template and a given set of template-arguments,
- // - an explicit instantiation definition shall appear at most once
- // in a program,
- // MSVCCompat: MSVC silently ignores duplicate explicit instantiations.
- Diag(NewLoc, (getLangOpts().MSVCCompat)
- ? diag::ext_explicit_instantiation_duplicate
- : diag::err_explicit_instantiation_duplicate)
- << PrevDecl;
- Diag(DiagLocForExplicitInstantiation(PrevDecl, PrevPointOfInstantiation),
- diag::note_previous_explicit_instantiation);
- HasNoEffect = true;
- return false;
- }
- }
- llvm_unreachable("Missing specialization/instantiation case?");
- }
- /// Perform semantic analysis for the given dependent function
- /// template specialization.
- ///
- /// The only possible way to get a dependent function template specialization
- /// is with a friend declaration, like so:
- ///
- /// \code
- /// template \<class T> void foo(T);
- /// template \<class T> class A {
- /// friend void foo<>(T);
- /// };
- /// \endcode
- ///
- /// There really isn't any useful analysis we can do here, so we
- /// just store the information.
- bool
- Sema::CheckDependentFunctionTemplateSpecialization(FunctionDecl *FD,
- const TemplateArgumentListInfo &ExplicitTemplateArgs,
- LookupResult &Previous) {
- // Remove anything from Previous that isn't a function template in
- // the correct context.
- DeclContext *FDLookupContext = FD->getDeclContext()->getRedeclContext();
- LookupResult::Filter F = Previous.makeFilter();
- enum DiscardReason { NotAFunctionTemplate, NotAMemberOfEnclosing };
- SmallVector<std::pair<DiscardReason, Decl *>, 8> DiscardedCandidates;
- while (F.hasNext()) {
- NamedDecl *D = F.next()->getUnderlyingDecl();
- if (!isa<FunctionTemplateDecl>(D)) {
- F.erase();
- DiscardedCandidates.push_back(std::make_pair(NotAFunctionTemplate, D));
- continue;
- }
- if (!FDLookupContext->InEnclosingNamespaceSetOf(
- D->getDeclContext()->getRedeclContext())) {
- F.erase();
- DiscardedCandidates.push_back(std::make_pair(NotAMemberOfEnclosing, D));
- continue;
- }
- }
- F.done();
- if (Previous.empty()) {
- Diag(FD->getLocation(),
- diag::err_dependent_function_template_spec_no_match);
- for (auto &P : DiscardedCandidates)
- Diag(P.second->getLocation(),
- diag::note_dependent_function_template_spec_discard_reason)
- << P.first;
- return true;
- }
- FD->setDependentTemplateSpecialization(Context, Previous.asUnresolvedSet(),
- ExplicitTemplateArgs);
- return false;
- }
- /// Perform semantic analysis for the given function template
- /// specialization.
- ///
- /// This routine performs all of the semantic analysis required for an
- /// explicit function template specialization. On successful completion,
- /// the function declaration \p FD will become a function template
- /// specialization.
- ///
- /// \param FD the function declaration, which will be updated to become a
- /// function template specialization.
- ///
- /// \param ExplicitTemplateArgs the explicitly-provided template arguments,
- /// if any. Note that this may be valid info even when 0 arguments are
- /// explicitly provided as in, e.g., \c void sort<>(char*, char*);
- /// as it anyway contains info on the angle brackets locations.
- ///
- /// \param Previous the set of declarations that may be specialized by
- /// this function specialization.
- ///
- /// \param QualifiedFriend whether this is a lookup for a qualified friend
- /// declaration with no explicit template argument list that might be
- /// befriending a function template specialization.
- bool Sema::CheckFunctionTemplateSpecialization(
- FunctionDecl *FD, TemplateArgumentListInfo *ExplicitTemplateArgs,
- LookupResult &Previous, bool QualifiedFriend) {
- // The set of function template specializations that could match this
- // explicit function template specialization.
- UnresolvedSet<8> Candidates;
- TemplateSpecCandidateSet FailedCandidates(FD->getLocation(),
- /*ForTakingAddress=*/false);
- llvm::SmallDenseMap<FunctionDecl *, TemplateArgumentListInfo, 8>
- ConvertedTemplateArgs;
- DeclContext *FDLookupContext = FD->getDeclContext()->getRedeclContext();
- for (LookupResult::iterator I = Previous.begin(), E = Previous.end();
- I != E; ++I) {
- NamedDecl *Ovl = (*I)->getUnderlyingDecl();
- if (FunctionTemplateDecl *FunTmpl = dyn_cast<FunctionTemplateDecl>(Ovl)) {
- // Only consider templates found within the same semantic lookup scope as
- // FD.
- if (!FDLookupContext->InEnclosingNamespaceSetOf(
- Ovl->getDeclContext()->getRedeclContext()))
- continue;
- // When matching a constexpr member function template specialization
- // against the primary template, we don't yet know whether the
- // specialization has an implicit 'const' (because we don't know whether
- // it will be a static member function until we know which template it
- // specializes), so adjust it now assuming it specializes this template.
- QualType FT = FD->getType();
- if (FD->isConstexpr()) {
- CXXMethodDecl *OldMD =
- dyn_cast<CXXMethodDecl>(FunTmpl->getTemplatedDecl());
- if (OldMD && OldMD->isConst()) {
- const FunctionProtoType *FPT = FT->castAs<FunctionProtoType>();
- FunctionProtoType::ExtProtoInfo EPI = FPT->getExtProtoInfo();
- EPI.TypeQuals.addConst();
- FT = Context.getFunctionType(FPT->getReturnType(),
- FPT->getParamTypes(), EPI);
- }
- }
- TemplateArgumentListInfo Args;
- if (ExplicitTemplateArgs)
- Args = *ExplicitTemplateArgs;
- // C++ [temp.expl.spec]p11:
- // A trailing template-argument can be left unspecified in the
- // template-id naming an explicit function template specialization
- // provided it can be deduced from the function argument type.
- // Perform template argument deduction to determine whether we may be
- // specializing this template.
- // FIXME: It is somewhat wasteful to build
- TemplateDeductionInfo Info(FailedCandidates.getLocation());
- FunctionDecl *Specialization = nullptr;
- if (TemplateDeductionResult TDK = DeduceTemplateArguments(
- cast<FunctionTemplateDecl>(FunTmpl->getFirstDecl()),
- ExplicitTemplateArgs ? &Args : nullptr, FT, Specialization,
- Info)) {
- // Template argument deduction failed; record why it failed, so
- // that we can provide nifty diagnostics.
- FailedCandidates.addCandidate().set(
- I.getPair(), FunTmpl->getTemplatedDecl(),
- MakeDeductionFailureInfo(Context, TDK, Info));
- (void)TDK;
- continue;
- }
- // Target attributes are part of the cuda function signature, so
- // the deduced template's cuda target must match that of the
- // specialization. Given that C++ template deduction does not
- // take target attributes into account, we reject candidates
- // here that have a different target.
- if (LangOpts.CUDA &&
- IdentifyCUDATarget(Specialization,
- /* IgnoreImplicitHDAttr = */ true) !=
- IdentifyCUDATarget(FD, /* IgnoreImplicitHDAttr = */ true)) {
- FailedCandidates.addCandidate().set(
- I.getPair(), FunTmpl->getTemplatedDecl(),
- MakeDeductionFailureInfo(Context, TDK_CUDATargetMismatch, Info));
- continue;
- }
- // Record this candidate.
- if (ExplicitTemplateArgs)
- ConvertedTemplateArgs[Specialization] = std::move(Args);
- Candidates.addDecl(Specialization, I.getAccess());
- }
- }
- // For a qualified friend declaration (with no explicit marker to indicate
- // that a template specialization was intended), note all (template and
- // non-template) candidates.
- if (QualifiedFriend && Candidates.empty()) {
- Diag(FD->getLocation(), diag::err_qualified_friend_no_match)
- << FD->getDeclName() << FDLookupContext;
- // FIXME: We should form a single candidate list and diagnose all
- // candidates at once, to get proper sorting and limiting.
- for (auto *OldND : Previous) {
- if (auto *OldFD = dyn_cast<FunctionDecl>(OldND->getUnderlyingDecl()))
- NoteOverloadCandidate(OldND, OldFD, CRK_None, FD->getType(), false);
- }
- FailedCandidates.NoteCandidates(*this, FD->getLocation());
- return true;
- }
- // Find the most specialized function template.
- UnresolvedSetIterator Result = getMostSpecialized(
- Candidates.begin(), Candidates.end(), FailedCandidates, FD->getLocation(),
- PDiag(diag::err_function_template_spec_no_match) << FD->getDeclName(),
- PDiag(diag::err_function_template_spec_ambiguous)
- << FD->getDeclName() << (ExplicitTemplateArgs != nullptr),
- PDiag(diag::note_function_template_spec_matched));
- if (Result == Candidates.end())
- return true;
- // Ignore access information; it doesn't figure into redeclaration checking.
- FunctionDecl *Specialization = cast<FunctionDecl>(*Result);
- FunctionTemplateSpecializationInfo *SpecInfo
- = Specialization->getTemplateSpecializationInfo();
- assert(SpecInfo && "Function template specialization info missing?");
- // Note: do not overwrite location info if previous template
- // specialization kind was explicit.
- TemplateSpecializationKind TSK = SpecInfo->getTemplateSpecializationKind();
- if (TSK == TSK_Undeclared || TSK == TSK_ImplicitInstantiation) {
- Specialization->setLocation(FD->getLocation());
- Specialization->setLexicalDeclContext(FD->getLexicalDeclContext());
- // C++11 [dcl.constexpr]p1: An explicit specialization of a constexpr
- // function can differ from the template declaration with respect to
- // the constexpr specifier.
- // FIXME: We need an update record for this AST mutation.
- // FIXME: What if there are multiple such prior declarations (for instance,
- // from different modules)?
- Specialization->setConstexprKind(FD->getConstexprKind());
- }
- // FIXME: Check if the prior specialization has a point of instantiation.
- // If so, we have run afoul of .
- // If this is a friend declaration, then we're not really declaring
- // an explicit specialization.
- bool isFriend = (FD->getFriendObjectKind() != Decl::FOK_None);
- // Check the scope of this explicit specialization.
- if (!isFriend &&
- CheckTemplateSpecializationScope(*this,
- Specialization->getPrimaryTemplate(),
- Specialization, FD->getLocation(),
- false))
- return true;
- // C++ [temp.expl.spec]p6:
- // If a template, a member template or the member of a class template is
- // explicitly specialized then that specialization shall be declared
- // before the first use of that specialization that would cause an implicit
- // instantiation to take place, in every translation unit in which such a
- // use occurs; no diagnostic is required.
- bool HasNoEffect = false;
- if (!isFriend &&
- CheckSpecializationInstantiationRedecl(FD->getLocation(),
- TSK_ExplicitSpecialization,
- Specialization,
- SpecInfo->getTemplateSpecializationKind(),
- SpecInfo->getPointOfInstantiation(),
- HasNoEffect))
- return true;
- // Mark the prior declaration as an explicit specialization, so that later
- // clients know that this is an explicit specialization.
- if (!isFriend) {
- // Since explicit specializations do not inherit '=delete' from their
- // primary function template - check if the 'specialization' that was
- // implicitly generated (during template argument deduction for partial
- // ordering) from the most specialized of all the function templates that
- // 'FD' could have been specializing, has a 'deleted' definition. If so,
- // first check that it was implicitly generated during template argument
- // deduction by making sure it wasn't referenced, and then reset the deleted
- // flag to not-deleted, so that we can inherit that information from 'FD'.
- if (Specialization->isDeleted() && !SpecInfo->isExplicitSpecialization() &&
- !Specialization->getCanonicalDecl()->isReferenced()) {
- // FIXME: This assert will not hold in the presence of modules.
- assert(
- Specialization->getCanonicalDecl() == Specialization &&
- "This must be the only existing declaration of this specialization");
- // FIXME: We need an update record for this AST mutation.
- Specialization->setDeletedAsWritten(false);
- }
- // FIXME: We need an update record for this AST mutation.
- SpecInfo->setTemplateSpecializationKind(TSK_ExplicitSpecialization);
- MarkUnusedFileScopedDecl(Specialization);
- }
- // Turn the given function declaration into a function template
- // specialization, with the template arguments from the previous
- // specialization.
- // Take copies of (semantic and syntactic) template argument lists.
- const TemplateArgumentList* TemplArgs = new (Context)
- TemplateArgumentList(Specialization->getTemplateSpecializationArgs());
- FD->setFunctionTemplateSpecialization(
- Specialization->getPrimaryTemplate(), TemplArgs, /*InsertPos=*/nullptr,
- SpecInfo->getTemplateSpecializationKind(),
- ExplicitTemplateArgs ? &ConvertedTemplateArgs[Specialization] : nullptr);
- // A function template specialization inherits the target attributes
- // of its template. (We require the attributes explicitly in the
- // code to match, but a template may have implicit attributes by
- // virtue e.g. of being constexpr, and it passes these implicit
- // attributes on to its specializations.)
- if (LangOpts.CUDA)
- inheritCUDATargetAttrs(FD, *Specialization->getPrimaryTemplate());
- // The "previous declaration" for this function template specialization is
- // the prior function template specialization.
- Previous.clear();
- Previous.addDecl(Specialization);
- return false;
- }
- /// Perform semantic analysis for the given non-template member
- /// specialization.
- ///
- /// This routine performs all of the semantic analysis required for an
- /// explicit member function specialization. On successful completion,
- /// the function declaration \p FD will become a member function
- /// specialization.
- ///
- /// \param Member the member declaration, which will be updated to become a
- /// specialization.
- ///
- /// \param Previous the set of declarations, one of which may be specialized
- /// by this function specialization; the set will be modified to contain the
- /// redeclared member.
- bool
- Sema::CheckMemberSpecialization(NamedDecl *Member, LookupResult &Previous) {
- assert(!isa<TemplateDecl>(Member) && "Only for non-template members");
- // Try to find the member we are instantiating.
- NamedDecl *FoundInstantiation = nullptr;
- NamedDecl *Instantiation = nullptr;
- NamedDecl *InstantiatedFrom = nullptr;
- MemberSpecializationInfo *MSInfo = nullptr;
- if (Previous.empty()) {
- // Nowhere to look anyway.
- } else if (FunctionDecl *Function = dyn_cast<FunctionDecl>(Member)) {
- for (LookupResult::iterator I = Previous.begin(), E = Previous.end();
- I != E; ++I) {
- NamedDecl *D = (*I)->getUnderlyingDecl();
- if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(D)) {
- QualType Adjusted = Function->getType();
- if (!hasExplicitCallingConv(Adjusted))
- Adjusted = adjustCCAndNoReturn(Adjusted, Method->getType());
- // This doesn't handle deduced return types, but both function
- // declarations should be undeduced at this point.
- if (Context.hasSameType(Adjusted, Method->getType())) {
- FoundInstantiation = *I;
- Instantiation = Method;
- InstantiatedFrom = Method->getInstantiatedFromMemberFunction();
- MSInfo = Method->getMemberSpecializationInfo();
- break;
- }
- }
- }
- } else if (isa<VarDecl>(Member)) {
- VarDecl *PrevVar;
- if (Previous.isSingleResult() &&
- (PrevVar = dyn_cast<VarDecl>(Previous.getFoundDecl())))
- if (PrevVar->isStaticDataMember()) {
- FoundInstantiation = Previous.getRepresentativeDecl();
- Instantiation = PrevVar;
- InstantiatedFrom = PrevVar->getInstantiatedFromStaticDataMember();
- MSInfo = PrevVar->getMemberSpecializationInfo();
- }
- } else if (isa<RecordDecl>(Member)) {
- CXXRecordDecl *PrevRecord;
- if (Previous.isSingleResult() &&
- (PrevRecord = dyn_cast<CXXRecordDecl>(Previous.getFoundDecl()))) {
- FoundInstantiation = Previous.getRepresentativeDecl();
- Instantiation = PrevRecord;
- InstantiatedFrom = PrevRecord->getInstantiatedFromMemberClass();
- MSInfo = PrevRecord->getMemberSpecializationInfo();
- }
- } else if (isa<EnumDecl>(Member)) {
- EnumDecl *PrevEnum;
- if (Previous.isSingleResult() &&
- (PrevEnum = dyn_cast<EnumDecl>(Previous.getFoundDecl()))) {
- FoundInstantiation = Previous.getRepresentativeDecl();
- Instantiation = PrevEnum;
- InstantiatedFrom = PrevEnum->getInstantiatedFromMemberEnum();
- MSInfo = PrevEnum->getMemberSpecializationInfo();
- }
- }
- if (!Instantiation) {
- // There is no previous declaration that matches. Since member
- // specializations are always out-of-line, the caller will complain about
- // this mismatch later.
- return false;
- }
- // A member specialization in a friend declaration isn't really declaring
- // an explicit specialization, just identifying a specific (possibly implicit)
- // specialization. Don't change the template specialization kind.
- //
- // FIXME: Is this really valid? Other compilers reject.
- if (Member->getFriendObjectKind() != Decl::FOK_None) {
- // Preserve instantiation information.
- if (InstantiatedFrom && isa<CXXMethodDecl>(Member)) {
- cast<CXXMethodDecl>(Member)->setInstantiationOfMemberFunction(
- cast<CXXMethodDecl>(InstantiatedFrom),
- cast<CXXMethodDecl>(Instantiation)->getTemplateSpecializationKind());
- } else if (InstantiatedFrom && isa<CXXRecordDecl>(Member)) {
- cast<CXXRecordDecl>(Member)->setInstantiationOfMemberClass(
- cast<CXXRecordDecl>(InstantiatedFrom),
- cast<CXXRecordDecl>(Instantiation)->getTemplateSpecializationKind());
- }
- Previous.clear();
- Previous.addDecl(FoundInstantiation);
- return false;
- }
- // Make sure that this is a specialization of a member.
- if (!InstantiatedFrom) {
- Diag(Member->getLocation(), diag::err_spec_member_not_instantiated)
- << Member;
- Diag(Instantiation->getLocation(), diag::note_specialized_decl);
- return true;
- }
- // C++ [temp.expl.spec]p6:
- // If a template, a member template or the member of a class template is
- // explicitly specialized then that specialization shall be declared
- // before the first use of that specialization that would cause an implicit
- // instantiation to take place, in every translation unit in which such a
- // use occurs; no diagnostic is required.
- assert(MSInfo && "Member specialization info missing?");
- bool HasNoEffect = false;
- if (CheckSpecializationInstantiationRedecl(Member->getLocation(),
- TSK_ExplicitSpecialization,
- Instantiation,
- MSInfo->getTemplateSpecializationKind(),
- MSInfo->getPointOfInstantiation(),
- HasNoEffect))
- return true;
- // Check the scope of this explicit specialization.
- if (CheckTemplateSpecializationScope(*this,
- InstantiatedFrom,
- Instantiation, Member->getLocation(),
- false))
- return true;
- // Note that this member specialization is an "instantiation of" the
- // corresponding member of the original template.
- if (auto *MemberFunction = dyn_cast<FunctionDecl>(Member)) {
- FunctionDecl *InstantiationFunction = cast<FunctionDecl>(Instantiation);
- if (InstantiationFunction->getTemplateSpecializationKind() ==
- TSK_ImplicitInstantiation) {
- // Explicit specializations of member functions of class templates do not
- // inherit '=delete' from the member function they are specializing.
- if (InstantiationFunction->isDeleted()) {
- // FIXME: This assert will not hold in the presence of modules.
- assert(InstantiationFunction->getCanonicalDecl() ==
- InstantiationFunction);
- // FIXME: We need an update record for this AST mutation.
- InstantiationFunction->setDeletedAsWritten(false);
- }
- }
- MemberFunction->setInstantiationOfMemberFunction(
- cast<CXXMethodDecl>(InstantiatedFrom), TSK_ExplicitSpecialization);
- } else if (auto *MemberVar = dyn_cast<VarDecl>(Member)) {
- MemberVar->setInstantiationOfStaticDataMember(
- cast<VarDecl>(InstantiatedFrom), TSK_ExplicitSpecialization);
- } else if (auto *MemberClass = dyn_cast<CXXRecordDecl>(Member)) {
- MemberClass->setInstantiationOfMemberClass(
- cast<CXXRecordDecl>(InstantiatedFrom), TSK_ExplicitSpecialization);
- } else if (auto *MemberEnum = dyn_cast<EnumDecl>(Member)) {
- MemberEnum->setInstantiationOfMemberEnum(
- cast<EnumDecl>(InstantiatedFrom), TSK_ExplicitSpecialization);
- } else {
- llvm_unreachable("unknown member specialization kind");
- }
- // Save the caller the trouble of having to figure out which declaration
- // this specialization matches.
- Previous.clear();
- Previous.addDecl(FoundInstantiation);
- return false;
- }
- /// Complete the explicit specialization of a member of a class template by
- /// updating the instantiated member to be marked as an explicit specialization.
- ///
- /// \param OrigD The member declaration instantiated from the template.
- /// \param Loc The location of the explicit specialization of the member.
- template<typename DeclT>
- static void completeMemberSpecializationImpl(Sema &S, DeclT *OrigD,
- SourceLocation Loc) {
- if (OrigD->getTemplateSpecializationKind() != TSK_ImplicitInstantiation)
- return;
- // FIXME: Inform AST mutation listeners of this AST mutation.
- // FIXME: If there are multiple in-class declarations of the member (from
- // multiple modules, or a declaration and later definition of a member type),
- // should we update all of them?
- OrigD->setTemplateSpecializationKind(TSK_ExplicitSpecialization);
- OrigD->setLocation(Loc);
- }
- void Sema::CompleteMemberSpecialization(NamedDecl *Member,
- LookupResult &Previous) {
- NamedDecl *Instantiation = cast<NamedDecl>(Member->getCanonicalDecl());
- if (Instantiation == Member)
- return;
- if (auto *Function = dyn_cast<CXXMethodDecl>(Instantiation))
- completeMemberSpecializationImpl(*this, Function, Member->getLocation());
- else if (auto *Var = dyn_cast<VarDecl>(Instantiation))
- completeMemberSpecializationImpl(*this, Var, Member->getLocation());
- else if (auto *Record = dyn_cast<CXXRecordDecl>(Instantiation))
- completeMemberSpecializationImpl(*this, Record, Member->getLocation());
- else if (auto *Enum = dyn_cast<EnumDecl>(Instantiation))
- completeMemberSpecializationImpl(*this, Enum, Member->getLocation());
- else
- llvm_unreachable("unknown member specialization kind");
- }
- /// Check the scope of an explicit instantiation.
- ///
- /// \returns true if a serious error occurs, false otherwise.
- static bool CheckExplicitInstantiationScope(Sema &S, NamedDecl *D,
- SourceLocation InstLoc,
- bool WasQualifiedName) {
- DeclContext *OrigContext= D->getDeclContext()->getEnclosingNamespaceContext();
- DeclContext *CurContext = S.CurContext->getRedeclContext();
- if (CurContext->isRecord()) {
- S.Diag(InstLoc, diag::err_explicit_instantiation_in_class)
- << D;
- return true;
- }
- // C++11 [temp.explicit]p3:
- // An explicit instantiation shall appear in an enclosing namespace of its
- // template. If the name declared in the explicit instantiation is an
- // unqualified name, the explicit instantiation shall appear in the
- // namespace where its template is declared or, if that namespace is inline
- // (7.3.1), any namespace from its enclosing namespace set.
- //
- // This is DR275, which we do not retroactively apply to C++98/03.
- if (WasQualifiedName) {
- if (CurContext->Encloses(OrigContext))
- return false;
- } else {
- if (CurContext->InEnclosingNamespaceSetOf(OrigContext))
- return false;
- }
- if (NamespaceDecl *NS = dyn_cast<NamespaceDecl>(OrigContext)) {
- if (WasQualifiedName)
- S.Diag(InstLoc,
- S.getLangOpts().CPlusPlus11?
- diag::err_explicit_instantiation_out_of_scope :
- diag::warn_explicit_instantiation_out_of_scope_0x)
- << D << NS;
- else
- S.Diag(InstLoc,
- S.getLangOpts().CPlusPlus11?
- diag::err_explicit_instantiation_unqualified_wrong_namespace :
- diag::warn_explicit_instantiation_unqualified_wrong_namespace_0x)
- << D << NS;
- } else
- S.Diag(InstLoc,
- S.getLangOpts().CPlusPlus11?
- diag::err_explicit_instantiation_must_be_global :
- diag::warn_explicit_instantiation_must_be_global_0x)
- << D;
- S.Diag(D->getLocation(), diag::note_explicit_instantiation_here);
- return false;
- }
- /// Common checks for whether an explicit instantiation of \p D is valid.
- static bool CheckExplicitInstantiation(Sema &S, NamedDecl *D,
- SourceLocation InstLoc,
- bool WasQualifiedName,
- TemplateSpecializationKind TSK) {
- // C++ [temp.explicit]p13:
- // An explicit instantiation declaration shall not name a specialization of
- // a template with internal linkage.
- if (TSK == TSK_ExplicitInstantiationDeclaration &&
- D->getFormalLinkage() == InternalLinkage) {
- S.Diag(InstLoc, diag::err_explicit_instantiation_internal_linkage) << D;
- return true;
- }
- // C++11 [temp.explicit]p3: [DR 275]
- // An explicit instantiation shall appear in an enclosing namespace of its
- // template.
- if (CheckExplicitInstantiationScope(S, D, InstLoc, WasQualifiedName))
- return true;
- return false;
- }
- /// Determine whether the given scope specifier has a template-id in it.
- static bool ScopeSpecifierHasTemplateId(const CXXScopeSpec &SS) {
- if (!SS.isSet())
- return false;
- // C++11 [temp.explicit]p3:
- // If the explicit instantiation is for a member function, a member class
- // or a static data member of a class template specialization, the name of
- // the class template specialization in the qualified-id for the member
- // name shall be a simple-template-id.
- //
- // C++98 has the same restriction, just worded differently.
- for (NestedNameSpecifier *NNS = SS.getScopeRep(); NNS;
- NNS = NNS->getPrefix())
- if (const Type *T = NNS->getAsType())
- if (isa<TemplateSpecializationType>(T))
- return true;
- return false;
- }
- /// Make a dllexport or dllimport attr on a class template specialization take
- /// effect.
- static void dllExportImportClassTemplateSpecialization(
- Sema &S, ClassTemplateSpecializationDecl *Def) {
- auto *A = cast_or_null<InheritableAttr>(getDLLAttr(Def));
- assert(A && "dllExportImportClassTemplateSpecialization called "
- "on Def without dllexport or dllimport");
- // We reject explicit instantiations in class scope, so there should
- // never be any delayed exported classes to worry about.
- assert(S.DelayedDllExportClasses.empty() &&
- "delayed exports present at explicit instantiation");
- S.checkClassLevelDLLAttribute(Def);
- // Propagate attribute to base class templates.
- for (auto &B : Def->bases()) {
- if (auto *BT = dyn_cast_or_null<ClassTemplateSpecializationDecl>(
- B.getType()->getAsCXXRecordDecl()))
- S.propagateDLLAttrToBaseClassTemplate(Def, A, BT, B.getBeginLoc());
- }
- S.referenceDLLExportedClassMethods();
- }
- // Explicit instantiation of a class template specialization
- DeclResult Sema::ActOnExplicitInstantiation(
- Scope *S, SourceLocation ExternLoc, SourceLocation TemplateLoc,
- unsigned TagSpec, SourceLocation KWLoc, const CXXScopeSpec &SS,
- TemplateTy TemplateD, SourceLocation TemplateNameLoc,
- SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgsIn,
- SourceLocation RAngleLoc, const ParsedAttributesView &Attr) {
- // Find the class template we're specializing
- TemplateName Name = TemplateD.get();
- TemplateDecl *TD = Name.getAsTemplateDecl();
- // Check that the specialization uses the same tag kind as the
- // original template.
- TagTypeKind Kind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- assert(Kind != TTK_Enum &&
- "Invalid enum tag in class template explicit instantiation!");
- ClassTemplateDecl *ClassTemplate = dyn_cast<ClassTemplateDecl>(TD);
- if (!ClassTemplate) {
- NonTagKind NTK = getNonTagTypeDeclKind(TD, Kind);
- Diag(TemplateNameLoc, diag::err_tag_reference_non_tag) << TD << NTK << Kind;
- Diag(TD->getLocation(), diag::note_previous_use);
- return true;
- }
- if (!isAcceptableTagRedeclaration(ClassTemplate->getTemplatedDecl(),
- Kind, /*isDefinition*/false, KWLoc,
- ClassTemplate->getIdentifier())) {
- Diag(KWLoc, diag::err_use_with_wrong_tag)
- << ClassTemplate
- << FixItHint::CreateReplacement(KWLoc,
- ClassTemplate->getTemplatedDecl()->getKindName());
- Diag(ClassTemplate->getTemplatedDecl()->getLocation(),
- diag::note_previous_use);
- Kind = ClassTemplate->getTemplatedDecl()->getTagKind();
- }
- // C++0x [temp.explicit]p2:
- // There are two forms of explicit instantiation: an explicit instantiation
- // definition and an explicit instantiation declaration. An explicit
- // instantiation declaration begins with the extern keyword. [...]
- TemplateSpecializationKind TSK = ExternLoc.isInvalid()
- ? TSK_ExplicitInstantiationDefinition
- : TSK_ExplicitInstantiationDeclaration;
- if (TSK == TSK_ExplicitInstantiationDeclaration &&
- !Context.getTargetInfo().getTriple().isWindowsGNUEnvironment()) {
- // Check for dllexport class template instantiation declarations,
- // except for MinGW mode.
- for (const ParsedAttr &AL : Attr) {
- if (AL.getKind() == ParsedAttr::AT_DLLExport) {
- Diag(ExternLoc,
- diag::warn_attribute_dllexport_explicit_instantiation_decl);
- Diag(AL.getLoc(), diag::note_attribute);
- break;
- }
- }
- if (auto *A = ClassTemplate->getTemplatedDecl()->getAttr<DLLExportAttr>()) {
- Diag(ExternLoc,
- diag::warn_attribute_dllexport_explicit_instantiation_decl);
- Diag(A->getLocation(), diag::note_attribute);
- }
- }
- // In MSVC mode, dllimported explicit instantiation definitions are treated as
- // instantiation declarations for most purposes.
- bool DLLImportExplicitInstantiationDef = false;
- if (TSK == TSK_ExplicitInstantiationDefinition &&
- Context.getTargetInfo().getCXXABI().isMicrosoft()) {
- // Check for dllimport class template instantiation definitions.
- bool DLLImport =
- ClassTemplate->getTemplatedDecl()->getAttr<DLLImportAttr>();
- for (const ParsedAttr &AL : Attr) {
- if (AL.getKind() == ParsedAttr::AT_DLLImport)
- DLLImport = true;
- if (AL.getKind() == ParsedAttr::AT_DLLExport) {
- // dllexport trumps dllimport here.
- DLLImport = false;
- break;
- }
- }
- if (DLLImport) {
- TSK = TSK_ExplicitInstantiationDeclaration;
- DLLImportExplicitInstantiationDef = true;
- }
- }
- // Translate the parser's template argument list in our AST format.
- TemplateArgumentListInfo TemplateArgs(LAngleLoc, RAngleLoc);
- translateTemplateArguments(TemplateArgsIn, TemplateArgs);
- // Check that the template argument list is well-formed for this
- // template.
- SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
- if (CheckTemplateArgumentList(ClassTemplate, TemplateNameLoc, TemplateArgs,
- false, SugaredConverted, CanonicalConverted,
- /*UpdateArgsWithConversions=*/true))
- return true;
- // Find the class template specialization declaration that
- // corresponds to these arguments.
- void *InsertPos = nullptr;
- ClassTemplateSpecializationDecl *PrevDecl =
- ClassTemplate->findSpecialization(CanonicalConverted, InsertPos);
- TemplateSpecializationKind PrevDecl_TSK
- = PrevDecl ? PrevDecl->getTemplateSpecializationKind() : TSK_Undeclared;
- if (TSK == TSK_ExplicitInstantiationDefinition && PrevDecl != nullptr &&
- Context.getTargetInfo().getTriple().isWindowsGNUEnvironment()) {
- // Check for dllexport class template instantiation definitions in MinGW
- // mode, if a previous declaration of the instantiation was seen.
- for (const ParsedAttr &AL : Attr) {
- if (AL.getKind() == ParsedAttr::AT_DLLExport) {
- Diag(AL.getLoc(),
- diag::warn_attribute_dllexport_explicit_instantiation_def);
- break;
- }
- }
- }
- if (CheckExplicitInstantiation(*this, ClassTemplate, TemplateNameLoc,
- SS.isSet(), TSK))
- return true;
- ClassTemplateSpecializationDecl *Specialization = nullptr;
- bool HasNoEffect = false;
- if (PrevDecl) {
- if (CheckSpecializationInstantiationRedecl(TemplateNameLoc, TSK,
- PrevDecl, PrevDecl_TSK,
- PrevDecl->getPointOfInstantiation(),
- HasNoEffect))
- return PrevDecl;
- // Even though HasNoEffect == true means that this explicit instantiation
- // has no effect on semantics, we go on to put its syntax in the AST.
- if (PrevDecl_TSK == TSK_ImplicitInstantiation ||
- PrevDecl_TSK == TSK_Undeclared) {
- // Since the only prior class template specialization with these
- // arguments was referenced but not declared, reuse that
- // declaration node as our own, updating the source location
- // for the template name to reflect our new declaration.
- // (Other source locations will be updated later.)
- Specialization = PrevDecl;
- Specialization->setLocation(TemplateNameLoc);
- PrevDecl = nullptr;
- }
- if (PrevDecl_TSK == TSK_ExplicitInstantiationDeclaration &&
- DLLImportExplicitInstantiationDef) {
- // The new specialization might add a dllimport attribute.
- HasNoEffect = false;
- }
- }
- if (!Specialization) {
- // Create a new class template specialization declaration node for
- // this explicit specialization.
- Specialization = ClassTemplateSpecializationDecl::Create(
- Context, Kind, ClassTemplate->getDeclContext(), KWLoc, TemplateNameLoc,
- ClassTemplate, CanonicalConverted, PrevDecl);
- SetNestedNameSpecifier(*this, Specialization, SS);
- if (!HasNoEffect && !PrevDecl) {
- // Insert the new specialization.
- ClassTemplate->AddSpecialization(Specialization, InsertPos);
- }
- }
- // Build the fully-sugared type for this explicit instantiation as
- // the user wrote in the explicit instantiation itself. This means
- // that we'll pretty-print the type retrieved from the
- // specialization's declaration the way that the user actually wrote
- // the explicit instantiation, rather than formatting the name based
- // on the "canonical" representation used to store the template
- // arguments in the specialization.
- TypeSourceInfo *WrittenTy
- = Context.getTemplateSpecializationTypeInfo(Name, TemplateNameLoc,
- TemplateArgs,
- Context.getTypeDeclType(Specialization));
- Specialization->setTypeAsWritten(WrittenTy);
- // Set source locations for keywords.
- Specialization->setExternLoc(ExternLoc);
- Specialization->setTemplateKeywordLoc(TemplateLoc);
- Specialization->setBraceRange(SourceRange());
- bool PreviouslyDLLExported = Specialization->hasAttr<DLLExportAttr>();
- ProcessDeclAttributeList(S, Specialization, Attr);
- // Add the explicit instantiation into its lexical context. However,
- // since explicit instantiations are never found by name lookup, we
- // just put it into the declaration context directly.
- Specialization->setLexicalDeclContext(CurContext);
- CurContext->addDecl(Specialization);
- // Syntax is now OK, so return if it has no other effect on semantics.
- if (HasNoEffect) {
- // Set the template specialization kind.
- Specialization->setTemplateSpecializationKind(TSK);
- return Specialization;
- }
- // C++ [temp.explicit]p3:
- // A definition of a class template or class member template
- // shall be in scope at the point of the explicit instantiation of
- // the class template or class member template.
- //
- // This check comes when we actually try to perform the
- // instantiation.
- ClassTemplateSpecializationDecl *Def
- = cast_or_null<ClassTemplateSpecializationDecl>(
- Specialization->getDefinition());
- if (!Def)
- InstantiateClassTemplateSpecialization(TemplateNameLoc, Specialization, TSK);
- else if (TSK == TSK_ExplicitInstantiationDefinition) {
- MarkVTableUsed(TemplateNameLoc, Specialization, true);
- Specialization->setPointOfInstantiation(Def->getPointOfInstantiation());
- }
- // Instantiate the members of this class template specialization.
- Def = cast_or_null<ClassTemplateSpecializationDecl>(
- Specialization->getDefinition());
- if (Def) {
- TemplateSpecializationKind Old_TSK = Def->getTemplateSpecializationKind();
- // Fix a TSK_ExplicitInstantiationDeclaration followed by a
- // TSK_ExplicitInstantiationDefinition
- if (Old_TSK == TSK_ExplicitInstantiationDeclaration &&
- (TSK == TSK_ExplicitInstantiationDefinition ||
- DLLImportExplicitInstantiationDef)) {
- // FIXME: Need to notify the ASTMutationListener that we did this.
- Def->setTemplateSpecializationKind(TSK);
- if (!getDLLAttr(Def) && getDLLAttr(Specialization) &&
- (Context.getTargetInfo().shouldDLLImportComdatSymbols() &&
- !Context.getTargetInfo().getTriple().isPS())) {
- // An explicit instantiation definition can add a dll attribute to a
- // template with a previous instantiation declaration. MinGW doesn't
- // allow this.
- auto *A = cast<InheritableAttr>(
- getDLLAttr(Specialization)->clone(getASTContext()));
- A->setInherited(true);
- Def->addAttr(A);
- dllExportImportClassTemplateSpecialization(*this, Def);
- }
- }
- // Fix a TSK_ImplicitInstantiation followed by a
- // TSK_ExplicitInstantiationDefinition
- bool NewlyDLLExported =
- !PreviouslyDLLExported && Specialization->hasAttr<DLLExportAttr>();
- if (Old_TSK == TSK_ImplicitInstantiation && NewlyDLLExported &&
- (Context.getTargetInfo().shouldDLLImportComdatSymbols() &&
- !Context.getTargetInfo().getTriple().isPS())) {
- // An explicit instantiation definition can add a dll attribute to a
- // template with a previous implicit instantiation. MinGW doesn't allow
- // this. We limit clang to only adding dllexport, to avoid potentially
- // strange codegen behavior. For example, if we extend this conditional
- // to dllimport, and we have a source file calling a method on an
- // implicitly instantiated template class instance and then declaring a
- // dllimport explicit instantiation definition for the same template
- // class, the codegen for the method call will not respect the dllimport,
- // while it will with cl. The Def will already have the DLL attribute,
- // since the Def and Specialization will be the same in the case of
- // Old_TSK == TSK_ImplicitInstantiation, and we already added the
- // attribute to the Specialization; we just need to make it take effect.
- assert(Def == Specialization &&
- "Def and Specialization should match for implicit instantiation");
- dllExportImportClassTemplateSpecialization(*this, Def);
- }
- // In MinGW mode, export the template instantiation if the declaration
- // was marked dllexport.
- if (PrevDecl_TSK == TSK_ExplicitInstantiationDeclaration &&
- Context.getTargetInfo().getTriple().isWindowsGNUEnvironment() &&
- PrevDecl->hasAttr<DLLExportAttr>()) {
- dllExportImportClassTemplateSpecialization(*this, Def);
- }
- if (Def->hasAttr<MSInheritanceAttr>()) {
- Specialization->addAttr(Def->getAttr<MSInheritanceAttr>());
- Consumer.AssignInheritanceModel(Specialization);
- }
- // Set the template specialization kind. Make sure it is set before
- // instantiating the members which will trigger ASTConsumer callbacks.
- Specialization->setTemplateSpecializationKind(TSK);
- InstantiateClassTemplateSpecializationMembers(TemplateNameLoc, Def, TSK);
- } else {
- // Set the template specialization kind.
- Specialization->setTemplateSpecializationKind(TSK);
- }
- return Specialization;
- }
- // Explicit instantiation of a member class of a class template.
- DeclResult
- Sema::ActOnExplicitInstantiation(Scope *S, SourceLocation ExternLoc,
- SourceLocation TemplateLoc, unsigned TagSpec,
- SourceLocation KWLoc, CXXScopeSpec &SS,
- IdentifierInfo *Name, SourceLocation NameLoc,
- const ParsedAttributesView &Attr) {
- bool Owned = false;
- bool IsDependent = false;
- Decl *TagD = ActOnTag(S, TagSpec, Sema::TUK_Reference, KWLoc, SS, Name,
- NameLoc, Attr, AS_none, /*ModulePrivateLoc=*/SourceLocation(),
- MultiTemplateParamsArg(), Owned, IsDependent, SourceLocation(),
- false, TypeResult(), /*IsTypeSpecifier*/ false,
- /*IsTemplateParamOrArg*/ false, /*OOK=*/OOK_Outside).get();
- assert(!IsDependent && "explicit instantiation of dependent name not yet handled");
- if (!TagD)
- return true;
- TagDecl *Tag = cast<TagDecl>(TagD);
- assert(!Tag->isEnum() && "shouldn't see enumerations here");
- if (Tag->isInvalidDecl())
- return true;
- CXXRecordDecl *Record = cast<CXXRecordDecl>(Tag);
- CXXRecordDecl *Pattern = Record->getInstantiatedFromMemberClass();
- if (!Pattern) {
- Diag(TemplateLoc, diag::err_explicit_instantiation_nontemplate_type)
- << Context.getTypeDeclType(Record);
- Diag(Record->getLocation(), diag::note_nontemplate_decl_here);
- return true;
- }
- // C++0x [temp.explicit]p2:
- // If the explicit instantiation is for a class or member class, the
- // elaborated-type-specifier in the declaration shall include a
- // simple-template-id.
- //
- // C++98 has the same restriction, just worded differently.
- if (!ScopeSpecifierHasTemplateId(SS))
- Diag(TemplateLoc, diag::ext_explicit_instantiation_without_qualified_id)
- << Record << SS.getRange();
- // C++0x [temp.explicit]p2:
- // There are two forms of explicit instantiation: an explicit instantiation
- // definition and an explicit instantiation declaration. An explicit
- // instantiation declaration begins with the extern keyword. [...]
- TemplateSpecializationKind TSK
- = ExternLoc.isInvalid()? TSK_ExplicitInstantiationDefinition
- : TSK_ExplicitInstantiationDeclaration;
- CheckExplicitInstantiation(*this, Record, NameLoc, true, TSK);
- // Verify that it is okay to explicitly instantiate here.
- CXXRecordDecl *PrevDecl
- = cast_or_null<CXXRecordDecl>(Record->getPreviousDecl());
- if (!PrevDecl && Record->getDefinition())
- PrevDecl = Record;
- if (PrevDecl) {
- MemberSpecializationInfo *MSInfo = PrevDecl->getMemberSpecializationInfo();
- bool HasNoEffect = false;
- assert(MSInfo && "No member specialization information?");
- if (CheckSpecializationInstantiationRedecl(TemplateLoc, TSK,
- PrevDecl,
- MSInfo->getTemplateSpecializationKind(),
- MSInfo->getPointOfInstantiation(),
- HasNoEffect))
- return true;
- if (HasNoEffect)
- return TagD;
- }
- CXXRecordDecl *RecordDef
- = cast_or_null<CXXRecordDecl>(Record->getDefinition());
- if (!RecordDef) {
- // C++ [temp.explicit]p3:
- // A definition of a member class of a class template shall be in scope
- // at the point of an explicit instantiation of the member class.
- CXXRecordDecl *Def
- = cast_or_null<CXXRecordDecl>(Pattern->getDefinition());
- if (!Def) {
- Diag(TemplateLoc, diag::err_explicit_instantiation_undefined_member)
- << 0 << Record->getDeclName() << Record->getDeclContext();
- Diag(Pattern->getLocation(), diag::note_forward_declaration)
- << Pattern;
- return true;
- } else {
- if (InstantiateClass(NameLoc, Record, Def,
- getTemplateInstantiationArgs(Record),
- TSK))
- return true;
- RecordDef = cast_or_null<CXXRecordDecl>(Record->getDefinition());
- if (!RecordDef)
- return true;
- }
- }
- // Instantiate all of the members of the class.
- InstantiateClassMembers(NameLoc, RecordDef,
- getTemplateInstantiationArgs(Record), TSK);
- if (TSK == TSK_ExplicitInstantiationDefinition)
- MarkVTableUsed(NameLoc, RecordDef, true);
- // FIXME: We don't have any representation for explicit instantiations of
- // member classes. Such a representation is not needed for compilation, but it
- // should be available for clients that want to see all of the declarations in
- // the source code.
- return TagD;
- }
- DeclResult Sema::ActOnExplicitInstantiation(Scope *S,
- SourceLocation ExternLoc,
- SourceLocation TemplateLoc,
- Declarator &D) {
- // Explicit instantiations always require a name.
- // TODO: check if/when DNInfo should replace Name.
- DeclarationNameInfo NameInfo = GetNameForDeclarator(D);
- DeclarationName Name = NameInfo.getName();
- if (!Name) {
- if (!D.isInvalidType())
- Diag(D.getDeclSpec().getBeginLoc(),
- diag::err_explicit_instantiation_requires_name)
- << D.getDeclSpec().getSourceRange() << D.getSourceRange();
- return true;
- }
- // The scope passed in may not be a decl scope. Zip up the scope tree until
- // we find one that is.
- while ((S->getFlags() & Scope::DeclScope) == 0 ||
- (S->getFlags() & Scope::TemplateParamScope) != 0)
- S = S->getParent();
- // Determine the type of the declaration.
- TypeSourceInfo *T = GetTypeForDeclarator(D, S);
- QualType R = T->getType();
- if (R.isNull())
- return true;
- // C++ [dcl.stc]p1:
- // A storage-class-specifier shall not be specified in [...] an explicit
- // instantiation (14.7.2) directive.
- if (D.getDeclSpec().getStorageClassSpec() == DeclSpec::SCS_typedef) {
- Diag(D.getIdentifierLoc(), diag::err_explicit_instantiation_of_typedef)
- << Name;
- return true;
- } else if (D.getDeclSpec().getStorageClassSpec()
- != DeclSpec::SCS_unspecified) {
- // Complain about then remove the storage class specifier.
- Diag(D.getIdentifierLoc(), diag::err_explicit_instantiation_storage_class)
- << FixItHint::CreateRemoval(D.getDeclSpec().getStorageClassSpecLoc());
- D.getMutableDeclSpec().ClearStorageClassSpecs();
- }
- // C++0x [temp.explicit]p1:
- // [...] An explicit instantiation of a function template shall not use the
- // inline or constexpr specifiers.
- // Presumably, this also applies to member functions of class templates as
- // well.
- if (D.getDeclSpec().isInlineSpecified())
- Diag(D.getDeclSpec().getInlineSpecLoc(),
- getLangOpts().CPlusPlus11 ?
- diag::err_explicit_instantiation_inline :
- diag::warn_explicit_instantiation_inline_0x)
- << FixItHint::CreateRemoval(D.getDeclSpec().getInlineSpecLoc());
- if (D.getDeclSpec().hasConstexprSpecifier() && R->isFunctionType())
- // FIXME: Add a fix-it to remove the 'constexpr' and add a 'const' if one is
- // not already specified.
- Diag(D.getDeclSpec().getConstexprSpecLoc(),
- diag::err_explicit_instantiation_constexpr);
- // A deduction guide is not on the list of entities that can be explicitly
- // instantiated.
- if (Name.getNameKind() == DeclarationName::CXXDeductionGuideName) {
- Diag(D.getDeclSpec().getBeginLoc(), diag::err_deduction_guide_specialized)
- << /*explicit instantiation*/ 0;
- return true;
- }
- // C++0x [temp.explicit]p2:
- // There are two forms of explicit instantiation: an explicit instantiation
- // definition and an explicit instantiation declaration. An explicit
- // instantiation declaration begins with the extern keyword. [...]
- TemplateSpecializationKind TSK
- = ExternLoc.isInvalid()? TSK_ExplicitInstantiationDefinition
- : TSK_ExplicitInstantiationDeclaration;
- LookupResult Previous(*this, NameInfo, LookupOrdinaryName);
- LookupParsedName(Previous, S, &D.getCXXScopeSpec());
- if (!R->isFunctionType()) {
- // C++ [temp.explicit]p1:
- // A [...] static data member of a class template can be explicitly
- // instantiated from the member definition associated with its class
- // template.
- // C++1y [temp.explicit]p1:
- // A [...] variable [...] template specialization can be explicitly
- // instantiated from its template.
- if (Previous.isAmbiguous())
- return true;
- VarDecl *Prev = Previous.getAsSingle<VarDecl>();
- VarTemplateDecl *PrevTemplate = Previous.getAsSingle<VarTemplateDecl>();
- if (!PrevTemplate) {
- if (!Prev || !Prev->isStaticDataMember()) {
- // We expect to see a static data member here.
- Diag(D.getIdentifierLoc(), diag::err_explicit_instantiation_not_known)
- << Name;
- for (LookupResult::iterator P = Previous.begin(), PEnd = Previous.end();
- P != PEnd; ++P)
- Diag((*P)->getLocation(), diag::note_explicit_instantiation_here);
- return true;
- }
- if (!Prev->getInstantiatedFromStaticDataMember()) {
- // FIXME: Check for explicit specialization?
- Diag(D.getIdentifierLoc(),
- diag::err_explicit_instantiation_data_member_not_instantiated)
- << Prev;
- Diag(Prev->getLocation(), diag::note_explicit_instantiation_here);
- // FIXME: Can we provide a note showing where this was declared?
- return true;
- }
- } else {
- // Explicitly instantiate a variable template.
- // C++1y [dcl.spec.auto]p6:
- // ... A program that uses auto or decltype(auto) in a context not
- // explicitly allowed in this section is ill-formed.
- //
- // This includes auto-typed variable template instantiations.
- if (R->isUndeducedType()) {
- Diag(T->getTypeLoc().getBeginLoc(),
- diag::err_auto_not_allowed_var_inst);
- return true;
- }
- if (D.getName().getKind() != UnqualifiedIdKind::IK_TemplateId) {
- // C++1y [temp.explicit]p3:
- // If the explicit instantiation is for a variable, the unqualified-id
- // in the declaration shall be a template-id.
- Diag(D.getIdentifierLoc(),
- diag::err_explicit_instantiation_without_template_id)
- << PrevTemplate;
- Diag(PrevTemplate->getLocation(),
- diag::note_explicit_instantiation_here);
- return true;
- }
- // Translate the parser's template argument list into our AST format.
- TemplateArgumentListInfo TemplateArgs =
- makeTemplateArgumentListInfo(*this, *D.getName().TemplateId);
- DeclResult Res = CheckVarTemplateId(PrevTemplate, TemplateLoc,
- D.getIdentifierLoc(), TemplateArgs);
- if (Res.isInvalid())
- return true;
- if (!Res.isUsable()) {
- // We somehow specified dependent template arguments in an explicit
- // instantiation. This should probably only happen during error
- // recovery.
- Diag(D.getIdentifierLoc(), diag::err_explicit_instantiation_dependent);
- return true;
- }
- // Ignore access control bits, we don't need them for redeclaration
- // checking.
- Prev = cast<VarDecl>(Res.get());
- }
- // C++0x [temp.explicit]p2:
- // If the explicit instantiation is for a member function, a member class
- // or a static data member of a class template specialization, the name of
- // the class template specialization in the qualified-id for the member
- // name shall be a simple-template-id.
- //
- // C++98 has the same restriction, just worded differently.
- //
- // This does not apply to variable template specializations, where the
- // template-id is in the unqualified-id instead.
- if (!ScopeSpecifierHasTemplateId(D.getCXXScopeSpec()) && !PrevTemplate)
- Diag(D.getIdentifierLoc(),
- diag::ext_explicit_instantiation_without_qualified_id)
- << Prev << D.getCXXScopeSpec().getRange();
- CheckExplicitInstantiation(*this, Prev, D.getIdentifierLoc(), true, TSK);
- // Verify that it is okay to explicitly instantiate here.
- TemplateSpecializationKind PrevTSK = Prev->getTemplateSpecializationKind();
- SourceLocation POI = Prev->getPointOfInstantiation();
- bool HasNoEffect = false;
- if (CheckSpecializationInstantiationRedecl(D.getIdentifierLoc(), TSK, Prev,
- PrevTSK, POI, HasNoEffect))
- return true;
- if (!HasNoEffect) {
- // Instantiate static data member or variable template.
- Prev->setTemplateSpecializationKind(TSK, D.getIdentifierLoc());
- // Merge attributes.
- ProcessDeclAttributeList(S, Prev, D.getDeclSpec().getAttributes());
- if (TSK == TSK_ExplicitInstantiationDefinition)
- InstantiateVariableDefinition(D.getIdentifierLoc(), Prev);
- }
- // Check the new variable specialization against the parsed input.
- if (PrevTemplate && !Context.hasSameType(Prev->getType(), R)) {
- Diag(T->getTypeLoc().getBeginLoc(),
- diag::err_invalid_var_template_spec_type)
- << 0 << PrevTemplate << R << Prev->getType();
- Diag(PrevTemplate->getLocation(), diag::note_template_declared_here)
- << 2 << PrevTemplate->getDeclName();
- return true;
- }
- // FIXME: Create an ExplicitInstantiation node?
- return (Decl*) nullptr;
- }
- // If the declarator is a template-id, translate the parser's template
- // argument list into our AST format.
- bool HasExplicitTemplateArgs = false;
- TemplateArgumentListInfo TemplateArgs;
- if (D.getName().getKind() == UnqualifiedIdKind::IK_TemplateId) {
- TemplateArgs = makeTemplateArgumentListInfo(*this, *D.getName().TemplateId);
- HasExplicitTemplateArgs = true;
- }
- // C++ [temp.explicit]p1:
- // A [...] function [...] can be explicitly instantiated from its template.
- // A member function [...] of a class template can be explicitly
- // instantiated from the member definition associated with its class
- // template.
- UnresolvedSet<8> TemplateMatches;
- FunctionDecl *NonTemplateMatch = nullptr;
- TemplateSpecCandidateSet FailedCandidates(D.getIdentifierLoc());
- for (LookupResult::iterator P = Previous.begin(), PEnd = Previous.end();
- P != PEnd; ++P) {
- NamedDecl *Prev = *P;
- if (!HasExplicitTemplateArgs) {
- if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(Prev)) {
- QualType Adjusted = adjustCCAndNoReturn(R, Method->getType(),
- /*AdjustExceptionSpec*/true);
- if (Context.hasSameUnqualifiedType(Method->getType(), Adjusted)) {
- if (Method->getPrimaryTemplate()) {
- TemplateMatches.addDecl(Method, P.getAccess());
- } else {
- // FIXME: Can this assert ever happen? Needs a test.
- assert(!NonTemplateMatch && "Multiple NonTemplateMatches");
- NonTemplateMatch = Method;
- }
- }
- }
- }
- FunctionTemplateDecl *FunTmpl = dyn_cast<FunctionTemplateDecl>(Prev);
- if (!FunTmpl)
- continue;
- TemplateDeductionInfo Info(FailedCandidates.getLocation());
- FunctionDecl *Specialization = nullptr;
- if (TemplateDeductionResult TDK
- = DeduceTemplateArguments(FunTmpl,
- (HasExplicitTemplateArgs ? &TemplateArgs
- : nullptr),
- R, Specialization, Info)) {
- // Keep track of almost-matches.
- FailedCandidates.addCandidate()
- .set(P.getPair(), FunTmpl->getTemplatedDecl(),
- MakeDeductionFailureInfo(Context, TDK, Info));
- (void)TDK;
- continue;
- }
- // Target attributes are part of the cuda function signature, so
- // the cuda target of the instantiated function must match that of its
- // template. Given that C++ template deduction does not take
- // target attributes into account, we reject candidates here that
- // have a different target.
- if (LangOpts.CUDA &&
- IdentifyCUDATarget(Specialization,
- /* IgnoreImplicitHDAttr = */ true) !=
- IdentifyCUDATarget(D.getDeclSpec().getAttributes())) {
- FailedCandidates.addCandidate().set(
- P.getPair(), FunTmpl->getTemplatedDecl(),
- MakeDeductionFailureInfo(Context, TDK_CUDATargetMismatch, Info));
- continue;
- }
- TemplateMatches.addDecl(Specialization, P.getAccess());
- }
- FunctionDecl *Specialization = NonTemplateMatch;
- if (!Specialization) {
- // Find the most specialized function template specialization.
- UnresolvedSetIterator Result = getMostSpecialized(
- TemplateMatches.begin(), TemplateMatches.end(), FailedCandidates,
- D.getIdentifierLoc(),
- PDiag(diag::err_explicit_instantiation_not_known) << Name,
- PDiag(diag::err_explicit_instantiation_ambiguous) << Name,
- PDiag(diag::note_explicit_instantiation_candidate));
- if (Result == TemplateMatches.end())
- return true;
- // Ignore access control bits, we don't need them for redeclaration checking.
- Specialization = cast<FunctionDecl>(*Result);
- }
- // C++11 [except.spec]p4
- // In an explicit instantiation an exception-specification may be specified,
- // but is not required.
- // If an exception-specification is specified in an explicit instantiation
- // directive, it shall be compatible with the exception-specifications of
- // other declarations of that function.
- if (auto *FPT = R->getAs<FunctionProtoType>())
- if (FPT->hasExceptionSpec()) {
- unsigned DiagID =
- diag::err_mismatched_exception_spec_explicit_instantiation;
- if (getLangOpts().MicrosoftExt)
- DiagID = diag::ext_mismatched_exception_spec_explicit_instantiation;
- bool Result = CheckEquivalentExceptionSpec(
- PDiag(DiagID) << Specialization->getType(),
- PDiag(diag::note_explicit_instantiation_here),
- Specialization->getType()->getAs<FunctionProtoType>(),
- Specialization->getLocation(), FPT, D.getBeginLoc());
- // In Microsoft mode, mismatching exception specifications just cause a
- // warning.
- if (!getLangOpts().MicrosoftExt && Result)
- return true;
- }
- if (Specialization->getTemplateSpecializationKind() == TSK_Undeclared) {
- Diag(D.getIdentifierLoc(),
- diag::err_explicit_instantiation_member_function_not_instantiated)
- << Specialization
- << (Specialization->getTemplateSpecializationKind() ==
- TSK_ExplicitSpecialization);
- Diag(Specialization->getLocation(), diag::note_explicit_instantiation_here);
- return true;
- }
- FunctionDecl *PrevDecl = Specialization->getPreviousDecl();
- if (!PrevDecl && Specialization->isThisDeclarationADefinition())
- PrevDecl = Specialization;
- if (PrevDecl) {
- bool HasNoEffect = false;
- if (CheckSpecializationInstantiationRedecl(D.getIdentifierLoc(), TSK,
- PrevDecl,
- PrevDecl->getTemplateSpecializationKind(),
- PrevDecl->getPointOfInstantiation(),
- HasNoEffect))
- return true;
- // FIXME: We may still want to build some representation of this
- // explicit specialization.
- if (HasNoEffect)
- return (Decl*) nullptr;
- }
- // HACK: libc++ has a bug where it attempts to explicitly instantiate the
- // functions
- // valarray<size_t>::valarray(size_t) and
- // valarray<size_t>::~valarray()
- // that it declared to have internal linkage with the internal_linkage
- // attribute. Ignore the explicit instantiation declaration in this case.
- if (Specialization->hasAttr<InternalLinkageAttr>() &&
- TSK == TSK_ExplicitInstantiationDeclaration) {
- if (auto *RD = dyn_cast<CXXRecordDecl>(Specialization->getDeclContext()))
- if (RD->getIdentifier() && RD->getIdentifier()->isStr("valarray") &&
- RD->isInStdNamespace())
- return (Decl*) nullptr;
- }
- ProcessDeclAttributeList(S, Specialization, D.getDeclSpec().getAttributes());
- // In MSVC mode, dllimported explicit instantiation definitions are treated as
- // instantiation declarations.
- if (TSK == TSK_ExplicitInstantiationDefinition &&
- Specialization->hasAttr<DLLImportAttr>() &&
- Context.getTargetInfo().getCXXABI().isMicrosoft())
- TSK = TSK_ExplicitInstantiationDeclaration;
- Specialization->setTemplateSpecializationKind(TSK, D.getIdentifierLoc());
- if (Specialization->isDefined()) {
- // Let the ASTConsumer know that this function has been explicitly
- // instantiated now, and its linkage might have changed.
- Consumer.HandleTopLevelDecl(DeclGroupRef(Specialization));
- } else if (TSK == TSK_ExplicitInstantiationDefinition)
- InstantiateFunctionDefinition(D.getIdentifierLoc(), Specialization);
- // C++0x [temp.explicit]p2:
- // If the explicit instantiation is for a member function, a member class
- // or a static data member of a class template specialization, the name of
- // the class template specialization in the qualified-id for the member
- // name shall be a simple-template-id.
- //
- // C++98 has the same restriction, just worded differently.
- FunctionTemplateDecl *FunTmpl = Specialization->getPrimaryTemplate();
- if (D.getName().getKind() != UnqualifiedIdKind::IK_TemplateId && !FunTmpl &&
- D.getCXXScopeSpec().isSet() &&
- !ScopeSpecifierHasTemplateId(D.getCXXScopeSpec()))
- Diag(D.getIdentifierLoc(),
- diag::ext_explicit_instantiation_without_qualified_id)
- << Specialization << D.getCXXScopeSpec().getRange();
- CheckExplicitInstantiation(
- *this,
- FunTmpl ? (NamedDecl *)FunTmpl
- : Specialization->getInstantiatedFromMemberFunction(),
- D.getIdentifierLoc(), D.getCXXScopeSpec().isSet(), TSK);
- // FIXME: Create some kind of ExplicitInstantiationDecl here.
- return (Decl*) nullptr;
- }
- TypeResult
- Sema::ActOnDependentTag(Scope *S, unsigned TagSpec, TagUseKind TUK,
- const CXXScopeSpec &SS, IdentifierInfo *Name,
- SourceLocation TagLoc, SourceLocation NameLoc) {
- // This has to hold, because SS is expected to be defined.
- assert(Name && "Expected a name in a dependent tag");
- NestedNameSpecifier *NNS = SS.getScopeRep();
- if (!NNS)
- return true;
- TagTypeKind Kind = TypeWithKeyword::getTagTypeKindForTypeSpec(TagSpec);
- if (TUK == TUK_Declaration || TUK == TUK_Definition) {
- Diag(NameLoc, diag::err_dependent_tag_decl)
- << (TUK == TUK_Definition) << Kind << SS.getRange();
- return true;
- }
- // Create the resulting type.
- ElaboratedTypeKeyword Kwd = TypeWithKeyword::getKeywordForTagTypeKind(Kind);
- QualType Result = Context.getDependentNameType(Kwd, NNS, Name);
- // Create type-source location information for this type.
- TypeLocBuilder TLB;
- DependentNameTypeLoc TL = TLB.push<DependentNameTypeLoc>(Result);
- TL.setElaboratedKeywordLoc(TagLoc);
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- TL.setNameLoc(NameLoc);
- return CreateParsedType(Result, TLB.getTypeSourceInfo(Context, Result));
- }
- TypeResult Sema::ActOnTypenameType(Scope *S, SourceLocation TypenameLoc,
- const CXXScopeSpec &SS,
- const IdentifierInfo &II,
- SourceLocation IdLoc,
- ImplicitTypenameContext IsImplicitTypename) {
- if (SS.isInvalid())
- return true;
- if (TypenameLoc.isValid() && S && !S->getTemplateParamParent())
- Diag(TypenameLoc,
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_typename_outside_of_template :
- diag::ext_typename_outside_of_template)
- << FixItHint::CreateRemoval(TypenameLoc);
- NestedNameSpecifierLoc QualifierLoc = SS.getWithLocInContext(Context);
- TypeSourceInfo *TSI = nullptr;
- QualType T =
- CheckTypenameType((TypenameLoc.isValid() ||
- IsImplicitTypename == ImplicitTypenameContext::Yes)
- ? ETK_Typename
- : ETK_None,
- TypenameLoc, QualifierLoc, II, IdLoc, &TSI,
- /*DeducedTSTContext=*/true);
- if (T.isNull())
- return true;
- return CreateParsedType(T, TSI);
- }
- TypeResult
- Sema::ActOnTypenameType(Scope *S,
- SourceLocation TypenameLoc,
- const CXXScopeSpec &SS,
- SourceLocation TemplateKWLoc,
- TemplateTy TemplateIn,
- IdentifierInfo *TemplateII,
- SourceLocation TemplateIILoc,
- SourceLocation LAngleLoc,
- ASTTemplateArgsPtr TemplateArgsIn,
- SourceLocation RAngleLoc) {
- if (TypenameLoc.isValid() && S && !S->getTemplateParamParent())
- Diag(TypenameLoc,
- getLangOpts().CPlusPlus11 ?
- diag::warn_cxx98_compat_typename_outside_of_template :
- diag::ext_typename_outside_of_template)
- << FixItHint::CreateRemoval(TypenameLoc);
- // Strangely, non-type results are not ignored by this lookup, so the
- // program is ill-formed if it finds an injected-class-name.
- if (TypenameLoc.isValid()) {
- auto *LookupRD =
- dyn_cast_or_null<CXXRecordDecl>(computeDeclContext(SS, false));
- if (LookupRD && LookupRD->getIdentifier() == TemplateII) {
- Diag(TemplateIILoc,
- diag::ext_out_of_line_qualified_id_type_names_constructor)
- << TemplateII << 0 /*injected-class-name used as template name*/
- << (TemplateKWLoc.isValid() ? 1 : 0 /*'template'/'typename' keyword*/);
- }
- }
- // Translate the parser's template argument list in our AST format.
- TemplateArgumentListInfo TemplateArgs(LAngleLoc, RAngleLoc);
- translateTemplateArguments(TemplateArgsIn, TemplateArgs);
- TemplateName Template = TemplateIn.get();
- if (DependentTemplateName *DTN = Template.getAsDependentTemplateName()) {
- // Construct a dependent template specialization type.
- assert(DTN && "dependent template has non-dependent name?");
- assert(DTN->getQualifier() == SS.getScopeRep());
- QualType T = Context.getDependentTemplateSpecializationType(
- ETK_Typename, DTN->getQualifier(), DTN->getIdentifier(),
- TemplateArgs.arguments());
- // Create source-location information for this type.
- TypeLocBuilder Builder;
- DependentTemplateSpecializationTypeLoc SpecTL
- = Builder.push<DependentTemplateSpecializationTypeLoc>(T);
- SpecTL.setElaboratedKeywordLoc(TypenameLoc);
- SpecTL.setQualifierLoc(SS.getWithLocInContext(Context));
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateIILoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned I = 0, N = TemplateArgs.size(); I != N; ++I)
- SpecTL.setArgLocInfo(I, TemplateArgs[I].getLocInfo());
- return CreateParsedType(T, Builder.getTypeSourceInfo(Context, T));
- }
- QualType T = CheckTemplateIdType(Template, TemplateIILoc, TemplateArgs);
- if (T.isNull())
- return true;
- // Provide source-location information for the template specialization type.
- TypeLocBuilder Builder;
- TemplateSpecializationTypeLoc SpecTL
- = Builder.push<TemplateSpecializationTypeLoc>(T);
- SpecTL.setTemplateKeywordLoc(TemplateKWLoc);
- SpecTL.setTemplateNameLoc(TemplateIILoc);
- SpecTL.setLAngleLoc(LAngleLoc);
- SpecTL.setRAngleLoc(RAngleLoc);
- for (unsigned I = 0, N = TemplateArgs.size(); I != N; ++I)
- SpecTL.setArgLocInfo(I, TemplateArgs[I].getLocInfo());
- T = Context.getElaboratedType(ETK_Typename, SS.getScopeRep(), T);
- ElaboratedTypeLoc TL = Builder.push<ElaboratedTypeLoc>(T);
- TL.setElaboratedKeywordLoc(TypenameLoc);
- TL.setQualifierLoc(SS.getWithLocInContext(Context));
- TypeSourceInfo *TSI = Builder.getTypeSourceInfo(Context, T);
- return CreateParsedType(T, TSI);
- }
- /// Determine whether this failed name lookup should be treated as being
- /// disabled by a usage of std::enable_if.
- static bool isEnableIf(NestedNameSpecifierLoc NNS, const IdentifierInfo &II,
- SourceRange &CondRange, Expr *&Cond) {
- // We must be looking for a ::type...
- if (!II.isStr("type"))
- return false;
- // ... within an explicitly-written template specialization...
- if (!NNS || !NNS.getNestedNameSpecifier()->getAsType())
- return false;
- TypeLoc EnableIfTy = NNS.getTypeLoc();
- TemplateSpecializationTypeLoc EnableIfTSTLoc =
- EnableIfTy.getAs<TemplateSpecializationTypeLoc>();
- if (!EnableIfTSTLoc || EnableIfTSTLoc.getNumArgs() == 0)
- return false;
- const TemplateSpecializationType *EnableIfTST = EnableIfTSTLoc.getTypePtr();
- // ... which names a complete class template declaration...
- const TemplateDecl *EnableIfDecl =
- EnableIfTST->getTemplateName().getAsTemplateDecl();
- if (!EnableIfDecl || EnableIfTST->isIncompleteType())
- return false;
- // ... called "enable_if".
- const IdentifierInfo *EnableIfII =
- EnableIfDecl->getDeclName().getAsIdentifierInfo();
- if (!EnableIfII || !EnableIfII->isStr("enable_if"))
- return false;
- // Assume the first template argument is the condition.
- CondRange = EnableIfTSTLoc.getArgLoc(0).getSourceRange();
- // Dig out the condition.
- Cond = nullptr;
- if (EnableIfTSTLoc.getArgLoc(0).getArgument().getKind()
- != TemplateArgument::Expression)
- return true;
- Cond = EnableIfTSTLoc.getArgLoc(0).getSourceExpression();
- // Ignore Boolean literals; they add no value.
- if (isa<CXXBoolLiteralExpr>(Cond->IgnoreParenCasts()))
- Cond = nullptr;
- return true;
- }
- QualType
- Sema::CheckTypenameType(ElaboratedTypeKeyword Keyword,
- SourceLocation KeywordLoc,
- NestedNameSpecifierLoc QualifierLoc,
- const IdentifierInfo &II,
- SourceLocation IILoc,
- TypeSourceInfo **TSI,
- bool DeducedTSTContext) {
- QualType T = CheckTypenameType(Keyword, KeywordLoc, QualifierLoc, II, IILoc,
- DeducedTSTContext);
- if (T.isNull())
- return QualType();
- *TSI = Context.CreateTypeSourceInfo(T);
- if (isa<DependentNameType>(T)) {
- DependentNameTypeLoc TL =
- (*TSI)->getTypeLoc().castAs<DependentNameTypeLoc>();
- TL.setElaboratedKeywordLoc(KeywordLoc);
- TL.setQualifierLoc(QualifierLoc);
- TL.setNameLoc(IILoc);
- } else {
- ElaboratedTypeLoc TL = (*TSI)->getTypeLoc().castAs<ElaboratedTypeLoc>();
- TL.setElaboratedKeywordLoc(KeywordLoc);
- TL.setQualifierLoc(QualifierLoc);
- TL.getNamedTypeLoc().castAs<TypeSpecTypeLoc>().setNameLoc(IILoc);
- }
- return T;
- }
- /// Build the type that describes a C++ typename specifier,
- /// e.g., "typename T::type".
- QualType
- Sema::CheckTypenameType(ElaboratedTypeKeyword Keyword,
- SourceLocation KeywordLoc,
- NestedNameSpecifierLoc QualifierLoc,
- const IdentifierInfo &II,
- SourceLocation IILoc, bool DeducedTSTContext) {
- CXXScopeSpec SS;
- SS.Adopt(QualifierLoc);
- DeclContext *Ctx = nullptr;
- if (QualifierLoc) {
- Ctx = computeDeclContext(SS);
- if (!Ctx) {
- // If the nested-name-specifier is dependent and couldn't be
- // resolved to a type, build a typename type.
- assert(QualifierLoc.getNestedNameSpecifier()->isDependent());
- return Context.getDependentNameType(Keyword,
- QualifierLoc.getNestedNameSpecifier(),
- &II);
- }
- // If the nested-name-specifier refers to the current instantiation,
- // the "typename" keyword itself is superfluous. In C++03, the
- // program is actually ill-formed. However, DR 382 (in C++0x CD1)
- // allows such extraneous "typename" keywords, and we retroactively
- // apply this DR to C++03 code with only a warning. In any case we continue.
- if (RequireCompleteDeclContext(SS, Ctx))
- return QualType();
- }
- DeclarationName Name(&II);
- LookupResult Result(*this, Name, IILoc, LookupOrdinaryName);
- if (Ctx)
- LookupQualifiedName(Result, Ctx, SS);
- else
- LookupName(Result, CurScope);
- unsigned DiagID = 0;
- Decl *Referenced = nullptr;
- switch (Result.getResultKind()) {
- case LookupResult::NotFound: {
- // If we're looking up 'type' within a template named 'enable_if', produce
- // a more specific diagnostic.
- SourceRange CondRange;
- Expr *Cond = nullptr;
- if (Ctx && isEnableIf(QualifierLoc, II, CondRange, Cond)) {
- // If we have a condition, narrow it down to the specific failed
- // condition.
- if (Cond) {
- Expr *FailedCond;
- std::string FailedDescription;
- std::tie(FailedCond, FailedDescription) =
- findFailedBooleanCondition(Cond);
- Diag(FailedCond->getExprLoc(),
- diag::err_typename_nested_not_found_requirement)
- << FailedDescription
- << FailedCond->getSourceRange();
- return QualType();
- }
- Diag(CondRange.getBegin(),
- diag::err_typename_nested_not_found_enable_if)
- << Ctx << CondRange;
- return QualType();
- }
- DiagID = Ctx ? diag::err_typename_nested_not_found
- : diag::err_unknown_typename;
- break;
- }
- case LookupResult::FoundUnresolvedValue: {
- // We found a using declaration that is a value. Most likely, the using
- // declaration itself is meant to have the 'typename' keyword.
- SourceRange FullRange(KeywordLoc.isValid() ? KeywordLoc : SS.getBeginLoc(),
- IILoc);
- Diag(IILoc, diag::err_typename_refers_to_using_value_decl)
- << Name << Ctx << FullRange;
- if (UnresolvedUsingValueDecl *Using
- = dyn_cast<UnresolvedUsingValueDecl>(Result.getRepresentativeDecl())){
- SourceLocation Loc = Using->getQualifierLoc().getBeginLoc();
- Diag(Loc, diag::note_using_value_decl_missing_typename)
- << FixItHint::CreateInsertion(Loc, "typename ");
- }
- }
- // Fall through to create a dependent typename type, from which we can recover
- // better.
- [[fallthrough]];
- case LookupResult::NotFoundInCurrentInstantiation:
- // Okay, it's a member of an unknown instantiation.
- return Context.getDependentNameType(Keyword,
- QualifierLoc.getNestedNameSpecifier(),
- &II);
- case LookupResult::Found:
- if (TypeDecl *Type = dyn_cast<TypeDecl>(Result.getFoundDecl())) {
- // C++ [class.qual]p2:
- // In a lookup in which function names are not ignored and the
- // nested-name-specifier nominates a class C, if the name specified
- // after the nested-name-specifier, when looked up in C, is the
- // injected-class-name of C [...] then the name is instead considered
- // to name the constructor of class C.
- //
- // Unlike in an elaborated-type-specifier, function names are not ignored
- // in typename-specifier lookup. However, they are ignored in all the
- // contexts where we form a typename type with no keyword (that is, in
- // mem-initializer-ids, base-specifiers, and elaborated-type-specifiers).
- //
- // FIXME: That's not strictly true: mem-initializer-id lookup does not
- // ignore functions, but that appears to be an oversight.
- auto *LookupRD = dyn_cast_or_null<CXXRecordDecl>(Ctx);
- auto *FoundRD = dyn_cast<CXXRecordDecl>(Type);
- if (Keyword == ETK_Typename && LookupRD && FoundRD &&
- FoundRD->isInjectedClassName() &&
- declaresSameEntity(LookupRD, cast<Decl>(FoundRD->getParent())))
- Diag(IILoc, diag::ext_out_of_line_qualified_id_type_names_constructor)
- << &II << 1 << 0 /*'typename' keyword used*/;
- // We found a type. Build an ElaboratedType, since the
- // typename-specifier was just sugar.
- MarkAnyDeclReferenced(Type->getLocation(), Type, /*OdrUse=*/false);
- return Context.getElaboratedType(Keyword,
- QualifierLoc.getNestedNameSpecifier(),
- Context.getTypeDeclType(Type));
- }
- // C++ [dcl.type.simple]p2:
- // A type-specifier of the form
- // typename[opt] nested-name-specifier[opt] template-name
- // is a placeholder for a deduced class type [...].
- if (getLangOpts().CPlusPlus17) {
- if (auto *TD = getAsTypeTemplateDecl(Result.getFoundDecl())) {
- if (!DeducedTSTContext) {
- QualType T(QualifierLoc
- ? QualifierLoc.getNestedNameSpecifier()->getAsType()
- : nullptr, 0);
- if (!T.isNull())
- Diag(IILoc, diag::err_dependent_deduced_tst)
- << (int)getTemplateNameKindForDiagnostics(TemplateName(TD)) << T;
- else
- Diag(IILoc, diag::err_deduced_tst)
- << (int)getTemplateNameKindForDiagnostics(TemplateName(TD));
- Diag(TD->getLocation(), diag::note_template_decl_here);
- return QualType();
- }
- return Context.getElaboratedType(
- Keyword, QualifierLoc.getNestedNameSpecifier(),
- Context.getDeducedTemplateSpecializationType(TemplateName(TD),
- QualType(), false));
- }
- }
- DiagID = Ctx ? diag::err_typename_nested_not_type
- : diag::err_typename_not_type;
- Referenced = Result.getFoundDecl();
- break;
- case LookupResult::FoundOverloaded:
- DiagID = Ctx ? diag::err_typename_nested_not_type
- : diag::err_typename_not_type;
- Referenced = *Result.begin();
- break;
- case LookupResult::Ambiguous:
- return QualType();
- }
- // If we get here, it's because name lookup did not find a
- // type. Emit an appropriate diagnostic and return an error.
- SourceRange FullRange(KeywordLoc.isValid() ? KeywordLoc : SS.getBeginLoc(),
- IILoc);
- if (Ctx)
- Diag(IILoc, DiagID) << FullRange << Name << Ctx;
- else
- Diag(IILoc, DiagID) << FullRange << Name;
- if (Referenced)
- Diag(Referenced->getLocation(),
- Ctx ? diag::note_typename_member_refers_here
- : diag::note_typename_refers_here)
- << Name;
- return QualType();
- }
- namespace {
- // See Sema::RebuildTypeInCurrentInstantiation
- class CurrentInstantiationRebuilder
- : public TreeTransform<CurrentInstantiationRebuilder> {
- SourceLocation Loc;
- DeclarationName Entity;
- public:
- typedef TreeTransform<CurrentInstantiationRebuilder> inherited;
- CurrentInstantiationRebuilder(Sema &SemaRef,
- SourceLocation Loc,
- DeclarationName Entity)
- : TreeTransform<CurrentInstantiationRebuilder>(SemaRef),
- Loc(Loc), Entity(Entity) { }
- /// Determine whether the given type \p T has already been
- /// transformed.
- ///
- /// For the purposes of type reconstruction, a type has already been
- /// transformed if it is NULL or if it is not dependent.
- bool AlreadyTransformed(QualType T) {
- return T.isNull() || !T->isInstantiationDependentType();
- }
- /// Returns the location of the entity whose type is being
- /// rebuilt.
- SourceLocation getBaseLocation() { return Loc; }
- /// Returns the name of the entity whose type is being rebuilt.
- DeclarationName getBaseEntity() { return Entity; }
- /// Sets the "base" location and entity when that
- /// information is known based on another transformation.
- void setBase(SourceLocation Loc, DeclarationName Entity) {
- this->Loc = Loc;
- this->Entity = Entity;
- }
- ExprResult TransformLambdaExpr(LambdaExpr *E) {
- // Lambdas never need to be transformed.
- return E;
- }
- };
- } // end anonymous namespace
- /// Rebuilds a type within the context of the current instantiation.
- ///
- /// The type \p T is part of the type of an out-of-line member definition of
- /// a class template (or class template partial specialization) that was parsed
- /// and constructed before we entered the scope of the class template (or
- /// partial specialization thereof). This routine will rebuild that type now
- /// that we have entered the declarator's scope, which may produce different
- /// canonical types, e.g.,
- ///
- /// \code
- /// template<typename T>
- /// struct X {
- /// typedef T* pointer;
- /// pointer data();
- /// };
- ///
- /// template<typename T>
- /// typename X<T>::pointer X<T>::data() { ... }
- /// \endcode
- ///
- /// Here, the type "typename X<T>::pointer" will be created as a DependentNameType,
- /// since we do not know that we can look into X<T> when we parsed the type.
- /// This function will rebuild the type, performing the lookup of "pointer"
- /// in X<T> and returning an ElaboratedType whose canonical type is the same
- /// as the canonical type of T*, allowing the return types of the out-of-line
- /// definition and the declaration to match.
- TypeSourceInfo *Sema::RebuildTypeInCurrentInstantiation(TypeSourceInfo *T,
- SourceLocation Loc,
- DeclarationName Name) {
- if (!T || !T->getType()->isInstantiationDependentType())
- return T;
- CurrentInstantiationRebuilder Rebuilder(*this, Loc, Name);
- return Rebuilder.TransformType(T);
- }
- ExprResult Sema::RebuildExprInCurrentInstantiation(Expr *E) {
- CurrentInstantiationRebuilder Rebuilder(*this, E->getExprLoc(),
- DeclarationName());
- return Rebuilder.TransformExpr(E);
- }
- bool Sema::RebuildNestedNameSpecifierInCurrentInstantiation(CXXScopeSpec &SS) {
- if (SS.isInvalid())
- return true;
- NestedNameSpecifierLoc QualifierLoc = SS.getWithLocInContext(Context);
- CurrentInstantiationRebuilder Rebuilder(*this, SS.getRange().getBegin(),
- DeclarationName());
- NestedNameSpecifierLoc Rebuilt
- = Rebuilder.TransformNestedNameSpecifierLoc(QualifierLoc);
- if (!Rebuilt)
- return true;
- SS.Adopt(Rebuilt);
- return false;
- }
- /// Rebuild the template parameters now that we know we're in a current
- /// instantiation.
- bool Sema::RebuildTemplateParamsInCurrentInstantiation(
- TemplateParameterList *Params) {
- for (unsigned I = 0, N = Params->size(); I != N; ++I) {
- Decl *Param = Params->getParam(I);
- // There is nothing to rebuild in a type parameter.
- if (isa<TemplateTypeParmDecl>(Param))
- continue;
- // Rebuild the template parameter list of a template template parameter.
- if (TemplateTemplateParmDecl *TTP
- = dyn_cast<TemplateTemplateParmDecl>(Param)) {
- if (RebuildTemplateParamsInCurrentInstantiation(
- TTP->getTemplateParameters()))
- return true;
- continue;
- }
- // Rebuild the type of a non-type template parameter.
- NonTypeTemplateParmDecl *NTTP = cast<NonTypeTemplateParmDecl>(Param);
- TypeSourceInfo *NewTSI
- = RebuildTypeInCurrentInstantiation(NTTP->getTypeSourceInfo(),
- NTTP->getLocation(),
- NTTP->getDeclName());
- if (!NewTSI)
- return true;
- if (NewTSI->getType()->isUndeducedType()) {
- // C++17 [temp.dep.expr]p3:
- // An id-expression is type-dependent if it contains
- // - an identifier associated by name lookup with a non-type
- // template-parameter declared with a type that contains a
- // placeholder type (7.1.7.4),
- NewTSI = SubstAutoTypeSourceInfoDependent(NewTSI);
- }
- if (NewTSI != NTTP->getTypeSourceInfo()) {
- NTTP->setTypeSourceInfo(NewTSI);
- NTTP->setType(NewTSI->getType());
- }
- }
- return false;
- }
- /// Produces a formatted string that describes the binding of
- /// template parameters to template arguments.
- std::string
- Sema::getTemplateArgumentBindingsText(const TemplateParameterList *Params,
- const TemplateArgumentList &Args) {
- return getTemplateArgumentBindingsText(Params, Args.data(), Args.size());
- }
- std::string
- Sema::getTemplateArgumentBindingsText(const TemplateParameterList *Params,
- const TemplateArgument *Args,
- unsigned NumArgs) {
- SmallString<128> Str;
- llvm::raw_svector_ostream Out(Str);
- if (!Params || Params->size() == 0 || NumArgs == 0)
- return std::string();
- for (unsigned I = 0, N = Params->size(); I != N; ++I) {
- if (I >= NumArgs)
- break;
- if (I == 0)
- Out << "[with ";
- else
- Out << ", ";
- if (const IdentifierInfo *Id = Params->getParam(I)->getIdentifier()) {
- Out << Id->getName();
- } else {
- Out << '$' << I;
- }
- Out << " = ";
- Args[I].print(getPrintingPolicy(), Out,
- TemplateParameterList::shouldIncludeTypeForArgument(
- getPrintingPolicy(), Params, I));
- }
- Out << ']';
- return std::string(Out.str());
- }
- void Sema::MarkAsLateParsedTemplate(FunctionDecl *FD, Decl *FnD,
- CachedTokens &Toks) {
- if (!FD)
- return;
- auto LPT = std::make_unique<LateParsedTemplate>();
- // Take tokens to avoid allocations
- LPT->Toks.swap(Toks);
- LPT->D = FnD;
- LateParsedTemplateMap.insert(std::make_pair(FD, std::move(LPT)));
- FD->setLateTemplateParsed(true);
- }
- void Sema::UnmarkAsLateParsedTemplate(FunctionDecl *FD) {
- if (!FD)
- return;
- FD->setLateTemplateParsed(false);
- }
- bool Sema::IsInsideALocalClassWithinATemplateFunction() {
- DeclContext *DC = CurContext;
- while (DC) {
- if (CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(CurContext)) {
- const FunctionDecl *FD = RD->isLocalClass();
- return (FD && FD->getTemplatedKind() != FunctionDecl::TK_NonTemplate);
- } else if (DC->isTranslationUnit() || DC->isNamespace())
- return false;
- DC = DC->getParent();
- }
- return false;
- }
- namespace {
- /// Walk the path from which a declaration was instantiated, and check
- /// that every explicit specialization along that path is visible. This enforces
- /// C++ [temp.expl.spec]/6:
- ///
- /// If a template, a member template or a member of a class template is
- /// explicitly specialized then that specialization shall be declared before
- /// the first use of that specialization that would cause an implicit
- /// instantiation to take place, in every translation unit in which such a
- /// use occurs; no diagnostic is required.
- ///
- /// and also C++ [temp.class.spec]/1:
- ///
- /// A partial specialization shall be declared before the first use of a
- /// class template specialization that would make use of the partial
- /// specialization as the result of an implicit or explicit instantiation
- /// in every translation unit in which such a use occurs; no diagnostic is
- /// required.
- class ExplicitSpecializationVisibilityChecker {
- Sema &S;
- SourceLocation Loc;
- llvm::SmallVector<Module *, 8> Modules;
- Sema::AcceptableKind Kind;
- public:
- ExplicitSpecializationVisibilityChecker(Sema &S, SourceLocation Loc,
- Sema::AcceptableKind Kind)
- : S(S), Loc(Loc), Kind(Kind) {}
- void check(NamedDecl *ND) {
- if (auto *FD = dyn_cast<FunctionDecl>(ND))
- return checkImpl(FD);
- if (auto *RD = dyn_cast<CXXRecordDecl>(ND))
- return checkImpl(RD);
- if (auto *VD = dyn_cast<VarDecl>(ND))
- return checkImpl(VD);
- if (auto *ED = dyn_cast<EnumDecl>(ND))
- return checkImpl(ED);
- }
- private:
- void diagnose(NamedDecl *D, bool IsPartialSpec) {
- auto Kind = IsPartialSpec ? Sema::MissingImportKind::PartialSpecialization
- : Sema::MissingImportKind::ExplicitSpecialization;
- const bool Recover = true;
- // If we got a custom set of modules (because only a subset of the
- // declarations are interesting), use them, otherwise let
- // diagnoseMissingImport intelligently pick some.
- if (Modules.empty())
- S.diagnoseMissingImport(Loc, D, Kind, Recover);
- else
- S.diagnoseMissingImport(Loc, D, D->getLocation(), Modules, Kind, Recover);
- }
- bool CheckMemberSpecialization(const NamedDecl *D) {
- return Kind == Sema::AcceptableKind::Visible
- ? S.hasVisibleMemberSpecialization(D)
- : S.hasReachableMemberSpecialization(D);
- }
- bool CheckExplicitSpecialization(const NamedDecl *D) {
- return Kind == Sema::AcceptableKind::Visible
- ? S.hasVisibleExplicitSpecialization(D)
- : S.hasReachableExplicitSpecialization(D);
- }
- bool CheckDeclaration(const NamedDecl *D) {
- return Kind == Sema::AcceptableKind::Visible ? S.hasVisibleDeclaration(D)
- : S.hasReachableDeclaration(D);
- }
- // Check a specific declaration. There are three problematic cases:
- //
- // 1) The declaration is an explicit specialization of a template
- // specialization.
- // 2) The declaration is an explicit specialization of a member of an
- // templated class.
- // 3) The declaration is an instantiation of a template, and that template
- // is an explicit specialization of a member of a templated class.
- //
- // We don't need to go any deeper than that, as the instantiation of the
- // surrounding class / etc is not triggered by whatever triggered this
- // instantiation, and thus should be checked elsewhere.
- template<typename SpecDecl>
- void checkImpl(SpecDecl *Spec) {
- bool IsHiddenExplicitSpecialization = false;
- if (Spec->getTemplateSpecializationKind() == TSK_ExplicitSpecialization) {
- IsHiddenExplicitSpecialization = Spec->getMemberSpecializationInfo()
- ? !CheckMemberSpecialization(Spec)
- : !CheckExplicitSpecialization(Spec);
- } else {
- checkInstantiated(Spec);
- }
- if (IsHiddenExplicitSpecialization)
- diagnose(Spec->getMostRecentDecl(), false);
- }
- void checkInstantiated(FunctionDecl *FD) {
- if (auto *TD = FD->getPrimaryTemplate())
- checkTemplate(TD);
- }
- void checkInstantiated(CXXRecordDecl *RD) {
- auto *SD = dyn_cast<ClassTemplateSpecializationDecl>(RD);
- if (!SD)
- return;
- auto From = SD->getSpecializedTemplateOrPartial();
- if (auto *TD = From.dyn_cast<ClassTemplateDecl *>())
- checkTemplate(TD);
- else if (auto *TD =
- From.dyn_cast<ClassTemplatePartialSpecializationDecl *>()) {
- if (!CheckDeclaration(TD))
- diagnose(TD, true);
- checkTemplate(TD);
- }
- }
- void checkInstantiated(VarDecl *RD) {
- auto *SD = dyn_cast<VarTemplateSpecializationDecl>(RD);
- if (!SD)
- return;
- auto From = SD->getSpecializedTemplateOrPartial();
- if (auto *TD = From.dyn_cast<VarTemplateDecl *>())
- checkTemplate(TD);
- else if (auto *TD =
- From.dyn_cast<VarTemplatePartialSpecializationDecl *>()) {
- if (!CheckDeclaration(TD))
- diagnose(TD, true);
- checkTemplate(TD);
- }
- }
- void checkInstantiated(EnumDecl *FD) {}
- template<typename TemplDecl>
- void checkTemplate(TemplDecl *TD) {
- if (TD->isMemberSpecialization()) {
- if (!CheckMemberSpecialization(TD))
- diagnose(TD->getMostRecentDecl(), false);
- }
- }
- };
- } // end anonymous namespace
- void Sema::checkSpecializationVisibility(SourceLocation Loc, NamedDecl *Spec) {
- if (!getLangOpts().Modules)
- return;
- ExplicitSpecializationVisibilityChecker(*this, Loc,
- Sema::AcceptableKind::Visible)
- .check(Spec);
- }
- void Sema::checkSpecializationReachability(SourceLocation Loc,
- NamedDecl *Spec) {
- if (!getLangOpts().CPlusPlusModules)
- return checkSpecializationVisibility(Loc, Spec);
- ExplicitSpecializationVisibilityChecker(*this, Loc,
- Sema::AcceptableKind::Reachable)
- .check(Spec);
- }
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