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|
//===- IndexDecl.cpp - Indexing declarations ------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "IndexingContext.h"
#include "clang/AST/ASTConcept.h"
#include "clang/AST/Attr.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclTemplate.h"
#include "clang/AST/DeclVisitor.h"
#include "clang/Index/IndexDataConsumer.h"
#include "clang/Index/IndexSymbol.h"
using namespace clang;
using namespace index;
#define TRY_DECL(D,CALL_EXPR) \
do { \
if (!IndexCtx.shouldIndex(D)) return true; \
if (!CALL_EXPR) \
return false; \
} while (0)
#define TRY_TO(CALL_EXPR) \
do { \
if (!CALL_EXPR) \
return false; \
} while (0)
namespace {
class IndexingDeclVisitor : public ConstDeclVisitor<IndexingDeclVisitor, bool> {
IndexingContext &IndexCtx;
public:
explicit IndexingDeclVisitor(IndexingContext &indexCtx)
: IndexCtx(indexCtx) { }
bool Handled = true;
bool VisitDecl(const Decl *D) {
Handled = false;
return true;
}
void handleTemplateArgumentLoc(const TemplateArgumentLoc &TALoc,
const NamedDecl *Parent,
const DeclContext *DC) {
const TemplateArgumentLocInfo &LocInfo = TALoc.getLocInfo();
switch (TALoc.getArgument().getKind()) {
case TemplateArgument::Expression:
IndexCtx.indexBody(LocInfo.getAsExpr(), Parent, DC);
break;
case TemplateArgument::Type:
IndexCtx.indexTypeSourceInfo(LocInfo.getAsTypeSourceInfo(), Parent, DC);
break;
case TemplateArgument::Template:
case TemplateArgument::TemplateExpansion:
IndexCtx.indexNestedNameSpecifierLoc(TALoc.getTemplateQualifierLoc(),
Parent, DC);
if (const TemplateDecl *TD = TALoc.getArgument()
.getAsTemplateOrTemplatePattern()
.getAsTemplateDecl()) {
if (const NamedDecl *TTD = TD->getTemplatedDecl())
IndexCtx.handleReference(TTD, TALoc.getTemplateNameLoc(), Parent, DC);
}
break;
default:
break;
}
}
/// Returns true if the given method has been defined explicitly by the
/// user.
static bool hasUserDefined(const ObjCMethodDecl *D,
const ObjCImplDecl *Container) {
const ObjCMethodDecl *MD = Container->getMethod(D->getSelector(),
D->isInstanceMethod());
return MD && !MD->isImplicit() && MD->isThisDeclarationADefinition() &&
!MD->isSynthesizedAccessorStub();
}
void handleDeclarator(const DeclaratorDecl *D,
const NamedDecl *Parent = nullptr,
bool isIBType = false) {
if (!Parent) Parent = D;
IndexCtx.indexTypeSourceInfo(D->getTypeSourceInfo(), Parent,
Parent->getLexicalDeclContext(),
/*isBase=*/false, isIBType);
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), Parent);
auto IndexDefaultParmeterArgument = [&](const ParmVarDecl *Parm,
const NamedDecl *Parent) {
if (Parm->hasDefaultArg() && !Parm->hasUninstantiatedDefaultArg() &&
!Parm->hasUnparsedDefaultArg())
IndexCtx.indexBody(Parm->getDefaultArg(), Parent);
};
if (IndexCtx.shouldIndexFunctionLocalSymbols()) {
if (const ParmVarDecl *Parm = dyn_cast<ParmVarDecl>(D)) {
auto *DC = Parm->getDeclContext();
if (auto *FD = dyn_cast<FunctionDecl>(DC)) {
if (IndexCtx.shouldIndexParametersInDeclarations() ||
FD->isThisDeclarationADefinition())
IndexCtx.handleDecl(Parm);
} else if (auto *MD = dyn_cast<ObjCMethodDecl>(DC)) {
if (MD->isThisDeclarationADefinition())
IndexCtx.handleDecl(Parm);
} else {
IndexCtx.handleDecl(Parm);
}
} else if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D)) {
if (IndexCtx.shouldIndexParametersInDeclarations() ||
FD->isThisDeclarationADefinition()) {
for (const auto *PI : FD->parameters()) {
IndexDefaultParmeterArgument(PI, D);
IndexCtx.handleDecl(PI);
}
}
}
} else {
// Index the default parameter value for function definitions.
if (const auto *FD = dyn_cast<FunctionDecl>(D)) {
if (FD->isThisDeclarationADefinition()) {
for (const auto *PV : FD->parameters()) {
IndexDefaultParmeterArgument(PV, D);
}
}
}
}
if (auto *C = D->getTrailingRequiresClause())
IndexCtx.indexBody(C, Parent);
}
bool handleObjCMethod(const ObjCMethodDecl *D,
const ObjCPropertyDecl *AssociatedProp = nullptr) {
SmallVector<SymbolRelation, 4> Relations;
SmallVector<const ObjCMethodDecl*, 4> Overriden;
D->getOverriddenMethods(Overriden);
for(auto overridden: Overriden) {
Relations.emplace_back((unsigned) SymbolRole::RelationOverrideOf,
overridden);
}
if (AssociatedProp)
Relations.emplace_back((unsigned)SymbolRole::RelationAccessorOf,
AssociatedProp);
// getLocation() returns beginning token of a method declaration, but for
// indexing purposes we want to point to the base name.
SourceLocation MethodLoc = D->getSelectorStartLoc();
if (MethodLoc.isInvalid())
MethodLoc = D->getLocation();
SourceLocation AttrLoc;
// check for (getter=/setter=)
if (AssociatedProp) {
bool isGetter = !D->param_size();
AttrLoc = isGetter ?
AssociatedProp->getGetterNameLoc():
AssociatedProp->getSetterNameLoc();
}
SymbolRoleSet Roles = (SymbolRoleSet)SymbolRole::Dynamic;
if (D->isImplicit()) {
if (AttrLoc.isValid()) {
MethodLoc = AttrLoc;
} else {
Roles |= (SymbolRoleSet)SymbolRole::Implicit;
}
} else if (AttrLoc.isValid()) {
IndexCtx.handleReference(D, AttrLoc, cast<NamedDecl>(D->getDeclContext()),
D->getDeclContext(), 0);
}
TRY_DECL(D, IndexCtx.handleDecl(D, MethodLoc, Roles, Relations));
IndexCtx.indexTypeSourceInfo(D->getReturnTypeSourceInfo(), D);
bool hasIBActionAndFirst = D->hasAttr<IBActionAttr>();
for (const auto *I : D->parameters()) {
handleDeclarator(I, D, /*isIBType=*/hasIBActionAndFirst);
hasIBActionAndFirst = false;
}
if (D->isThisDeclarationADefinition()) {
const Stmt *Body = D->getBody();
if (Body) {
IndexCtx.indexBody(Body, D, D);
}
}
return true;
}
/// Gather the declarations which the given declaration \D overrides in a
/// pseudo-override manner.
///
/// Pseudo-overrides occur when a class template specialization declares
/// a declaration that has the same name as a similar declaration in the
/// non-specialized template.
void
gatherTemplatePseudoOverrides(const NamedDecl *D,
SmallVectorImpl<SymbolRelation> &Relations) {
if (!IndexCtx.getLangOpts().CPlusPlus)
return;
const auto *CTSD =
dyn_cast<ClassTemplateSpecializationDecl>(D->getLexicalDeclContext());
if (!CTSD)
return;
llvm::PointerUnion<ClassTemplateDecl *,
ClassTemplatePartialSpecializationDecl *>
Template = CTSD->getSpecializedTemplateOrPartial();
if (const auto *CTD = Template.dyn_cast<ClassTemplateDecl *>()) {
const CXXRecordDecl *Pattern = CTD->getTemplatedDecl();
bool TypeOverride = isa<TypeDecl>(D);
for (const NamedDecl *ND : Pattern->lookup(D->getDeclName())) {
if (const auto *CTD = dyn_cast<ClassTemplateDecl>(ND))
ND = CTD->getTemplatedDecl();
if (ND->isImplicit())
continue;
// Types can override other types.
if (!TypeOverride) {
if (ND->getKind() != D->getKind())
continue;
} else if (!isa<TypeDecl>(ND))
continue;
if (const auto *FD = dyn_cast<FunctionDecl>(ND)) {
const auto *DFD = cast<FunctionDecl>(D);
// Function overrides are approximated using the number of parameters.
if (FD->getStorageClass() != DFD->getStorageClass() ||
FD->getNumParams() != DFD->getNumParams())
continue;
}
Relations.emplace_back(
SymbolRoleSet(SymbolRole::RelationSpecializationOf), ND);
}
}
}
bool VisitFunctionDecl(const FunctionDecl *D) {
SymbolRoleSet Roles{};
SmallVector<SymbolRelation, 4> Relations;
if (auto *CXXMD = dyn_cast<CXXMethodDecl>(D)) {
if (CXXMD->isVirtual())
Roles |= (unsigned)SymbolRole::Dynamic;
for (const CXXMethodDecl *O : CXXMD->overridden_methods()) {
Relations.emplace_back((unsigned)SymbolRole::RelationOverrideOf, O);
}
}
gatherTemplatePseudoOverrides(D, Relations);
if (const auto *Base = D->getPrimaryTemplate())
Relations.push_back(
SymbolRelation(SymbolRoleSet(SymbolRole::RelationSpecializationOf),
Base->getTemplatedDecl()));
TRY_DECL(D, IndexCtx.handleDecl(D, Roles, Relations));
handleDeclarator(D);
if (const CXXConstructorDecl *Ctor = dyn_cast<CXXConstructorDecl>(D)) {
IndexCtx.handleReference(Ctor->getParent(), Ctor->getLocation(),
Ctor->getParent(), Ctor->getDeclContext(),
(unsigned)SymbolRole::NameReference);
// Constructor initializers.
for (const auto *Init : Ctor->inits()) {
if (Init->isWritten()) {
IndexCtx.indexTypeSourceInfo(Init->getTypeSourceInfo(), D);
if (const FieldDecl *Member = Init->getAnyMember())
IndexCtx.handleReference(Member, Init->getMemberLocation(), D, D,
(unsigned)SymbolRole::Write);
IndexCtx.indexBody(Init->getInit(), D, D);
}
}
} else if (const CXXDestructorDecl *Dtor = dyn_cast<CXXDestructorDecl>(D)) {
if (auto TypeNameInfo = Dtor->getNameInfo().getNamedTypeInfo()) {
IndexCtx.handleReference(Dtor->getParent(),
TypeNameInfo->getTypeLoc().getBeginLoc(),
Dtor->getParent(), Dtor->getDeclContext(),
(unsigned)SymbolRole::NameReference);
}
} else if (const auto *Guide = dyn_cast<CXXDeductionGuideDecl>(D)) {
IndexCtx.handleReference(Guide->getDeducedTemplate()->getTemplatedDecl(),
Guide->getLocation(), Guide,
Guide->getDeclContext());
}
// Template specialization arguments.
if (const ASTTemplateArgumentListInfo *TemplateArgInfo =
D->getTemplateSpecializationArgsAsWritten()) {
for (const auto &Arg : TemplateArgInfo->arguments())
handleTemplateArgumentLoc(Arg, D, D->getLexicalDeclContext());
}
if (D->isThisDeclarationADefinition()) {
const Stmt *Body = D->getBody();
if (Body) {
IndexCtx.indexBody(Body, D, D);
}
}
return true;
}
bool VisitVarDecl(const VarDecl *D) {
SmallVector<SymbolRelation, 4> Relations;
gatherTemplatePseudoOverrides(D, Relations);
TRY_DECL(D, IndexCtx.handleDecl(D, SymbolRoleSet(), Relations));
handleDeclarator(D);
IndexCtx.indexBody(D->getInit(), D);
return true;
}
bool VisitDecompositionDecl(const DecompositionDecl *D) {
for (const auto *Binding : D->bindings())
TRY_DECL(Binding, IndexCtx.handleDecl(Binding));
return Base::VisitDecompositionDecl(D);
}
bool VisitFieldDecl(const FieldDecl *D) {
SmallVector<SymbolRelation, 4> Relations;
gatherTemplatePseudoOverrides(D, Relations);
TRY_DECL(D, IndexCtx.handleDecl(D, SymbolRoleSet(), Relations));
handleDeclarator(D);
if (D->isBitField())
IndexCtx.indexBody(D->getBitWidth(), D);
else if (D->hasInClassInitializer())
IndexCtx.indexBody(D->getInClassInitializer(), D);
return true;
}
bool VisitObjCIvarDecl(const ObjCIvarDecl *D) {
if (D->getSynthesize()) {
// handled in VisitObjCPropertyImplDecl
return true;
}
TRY_DECL(D, IndexCtx.handleDecl(D));
handleDeclarator(D);
return true;
}
bool VisitMSPropertyDecl(const MSPropertyDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
handleDeclarator(D);
return true;
}
bool VisitEnumConstantDecl(const EnumConstantDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
IndexCtx.indexBody(D->getInitExpr(), D);
return true;
}
bool VisitTypedefNameDecl(const TypedefNameDecl *D) {
if (!D->isTransparentTag()) {
SmallVector<SymbolRelation, 4> Relations;
gatherTemplatePseudoOverrides(D, Relations);
TRY_DECL(D, IndexCtx.handleDecl(D, SymbolRoleSet(), Relations));
IndexCtx.indexTypeSourceInfo(D->getTypeSourceInfo(), D);
}
return true;
}
bool VisitTagDecl(const TagDecl *D) {
// Non-free standing tags are handled in indexTypeSourceInfo.
if (D->isFreeStanding()) {
if (D->isThisDeclarationADefinition()) {
SmallVector<SymbolRelation, 4> Relations;
gatherTemplatePseudoOverrides(D, Relations);
IndexCtx.indexTagDecl(D, Relations);
} else {
SmallVector<SymbolRelation, 1> Relations;
gatherTemplatePseudoOverrides(D, Relations);
return IndexCtx.handleDecl(D, D->getLocation(), SymbolRoleSet(),
Relations, D->getLexicalDeclContext());
}
}
return true;
}
bool VisitEnumDecl(const EnumDecl *ED) {
TRY_TO(VisitTagDecl(ED));
// Indexing for enumdecl itself is handled inside TagDecl, we just want to
// visit integer-base here, which is different than other TagDecl bases.
if (auto *TSI = ED->getIntegerTypeSourceInfo())
IndexCtx.indexTypeSourceInfo(TSI, ED, ED, /*isBase=*/true);
return true;
}
bool handleReferencedProtocols(const ObjCProtocolList &ProtList,
const ObjCContainerDecl *ContD,
SourceLocation SuperLoc) {
ObjCInterfaceDecl::protocol_loc_iterator LI = ProtList.loc_begin();
for (ObjCInterfaceDecl::protocol_iterator
I = ProtList.begin(), E = ProtList.end(); I != E; ++I, ++LI) {
SourceLocation Loc = *LI;
ObjCProtocolDecl *PD = *I;
SymbolRoleSet roles{};
if (Loc == SuperLoc)
roles |= (SymbolRoleSet)SymbolRole::Implicit;
TRY_TO(IndexCtx.handleReference(PD, Loc, ContD, ContD, roles,
SymbolRelation{(unsigned)SymbolRole::RelationBaseOf, ContD}));
}
return true;
}
bool VisitObjCInterfaceDecl(const ObjCInterfaceDecl *D) {
if (D->isThisDeclarationADefinition()) {
TRY_DECL(D, IndexCtx.handleDecl(D));
SourceLocation SuperLoc = D->getSuperClassLoc();
if (auto *SuperD = D->getSuperClass()) {
bool hasSuperTypedef = false;
if (auto *TInfo = D->getSuperClassTInfo()) {
if (auto *TT = TInfo->getType()->getAs<TypedefType>()) {
if (auto *TD = TT->getDecl()) {
hasSuperTypedef = true;
TRY_TO(IndexCtx.handleReference(TD, SuperLoc, D, D,
SymbolRoleSet()));
}
}
}
SymbolRoleSet superRoles{};
if (hasSuperTypedef)
superRoles |= (SymbolRoleSet)SymbolRole::Implicit;
TRY_TO(IndexCtx.handleReference(SuperD, SuperLoc, D, D, superRoles,
SymbolRelation{(unsigned)SymbolRole::RelationBaseOf, D}));
}
TRY_TO(handleReferencedProtocols(D->getReferencedProtocols(), D,
SuperLoc));
TRY_TO(IndexCtx.indexDeclContext(D));
} else {
return IndexCtx.handleReference(D, D->getLocation(), nullptr,
D->getDeclContext(), SymbolRoleSet());
}
return true;
}
bool VisitObjCProtocolDecl(const ObjCProtocolDecl *D) {
if (D->isThisDeclarationADefinition()) {
TRY_DECL(D, IndexCtx.handleDecl(D));
TRY_TO(handleReferencedProtocols(D->getReferencedProtocols(), D,
/*SuperLoc=*/SourceLocation()));
TRY_TO(IndexCtx.indexDeclContext(D));
} else {
return IndexCtx.handleReference(D, D->getLocation(), nullptr,
D->getDeclContext(), SymbolRoleSet());
}
return true;
}
bool VisitObjCImplementationDecl(const ObjCImplementationDecl *D) {
const ObjCInterfaceDecl *Class = D->getClassInterface();
if (!Class)
return true;
if (Class->isImplicitInterfaceDecl())
IndexCtx.handleDecl(Class);
TRY_DECL(D, IndexCtx.handleDecl(D));
// Visit implicit @synthesize property implementations first as their
// location is reported at the name of the @implementation block. This
// serves no purpose other than to simplify the FileCheck-based tests.
for (const auto *I : D->property_impls()) {
if (I->getLocation().isInvalid())
IndexCtx.indexDecl(I);
}
for (const auto *I : D->decls()) {
if (!isa<ObjCPropertyImplDecl>(I) ||
cast<ObjCPropertyImplDecl>(I)->getLocation().isValid())
IndexCtx.indexDecl(I);
}
return true;
}
bool VisitObjCCategoryDecl(const ObjCCategoryDecl *D) {
if (!IndexCtx.shouldIndex(D))
return true;
const ObjCInterfaceDecl *C = D->getClassInterface();
if (!C)
return true;
TRY_TO(IndexCtx.handleReference(C, D->getLocation(), D, D, SymbolRoleSet(),
SymbolRelation{
(unsigned)SymbolRole::RelationExtendedBy, D
}));
SourceLocation CategoryLoc = D->getCategoryNameLoc();
if (!CategoryLoc.isValid())
CategoryLoc = D->getLocation();
TRY_TO(IndexCtx.handleDecl(D, CategoryLoc));
TRY_TO(handleReferencedProtocols(D->getReferencedProtocols(), D,
/*SuperLoc=*/SourceLocation()));
TRY_TO(IndexCtx.indexDeclContext(D));
return true;
}
bool VisitObjCCategoryImplDecl(const ObjCCategoryImplDecl *D) {
const ObjCCategoryDecl *Cat = D->getCategoryDecl();
if (!Cat)
return true;
const ObjCInterfaceDecl *C = D->getClassInterface();
if (C)
TRY_TO(IndexCtx.handleReference(C, D->getLocation(), D, D,
SymbolRoleSet()));
SourceLocation CategoryLoc = D->getCategoryNameLoc();
if (!CategoryLoc.isValid())
CategoryLoc = D->getLocation();
TRY_DECL(D, IndexCtx.handleDecl(D, CategoryLoc));
IndexCtx.indexDeclContext(D);
return true;
}
bool VisitObjCMethodDecl(const ObjCMethodDecl *D) {
// Methods associated with a property, even user-declared ones, are
// handled when we handle the property.
if (D->isPropertyAccessor())
return true;
handleObjCMethod(D);
return true;
}
bool VisitObjCPropertyDecl(const ObjCPropertyDecl *D) {
if (ObjCMethodDecl *MD = D->getGetterMethodDecl())
if (MD->getLexicalDeclContext() == D->getLexicalDeclContext())
handleObjCMethod(MD, D);
if (ObjCMethodDecl *MD = D->getSetterMethodDecl())
if (MD->getLexicalDeclContext() == D->getLexicalDeclContext())
handleObjCMethod(MD, D);
TRY_DECL(D, IndexCtx.handleDecl(D));
if (IBOutletCollectionAttr *attr = D->getAttr<IBOutletCollectionAttr>())
IndexCtx.indexTypeSourceInfo(attr->getInterfaceLoc(), D,
D->getLexicalDeclContext(), false, true);
IndexCtx.indexTypeSourceInfo(D->getTypeSourceInfo(), D);
return true;
}
bool VisitObjCPropertyImplDecl(const ObjCPropertyImplDecl *D) {
ObjCPropertyDecl *PD = D->getPropertyDecl();
auto *Container = cast<ObjCImplDecl>(D->getDeclContext());
SourceLocation Loc = D->getLocation();
SymbolRoleSet Roles = 0;
SmallVector<SymbolRelation, 1> Relations;
if (ObjCIvarDecl *ID = D->getPropertyIvarDecl())
Relations.push_back({(SymbolRoleSet)SymbolRole::RelationAccessorOf, ID});
if (Loc.isInvalid()) {
Loc = Container->getLocation();
Roles |= (SymbolRoleSet)SymbolRole::Implicit;
}
TRY_DECL(D, IndexCtx.handleDecl(D, Loc, Roles, Relations));
if (D->getPropertyImplementation() == ObjCPropertyImplDecl::Dynamic)
return true;
assert(D->getPropertyImplementation() == ObjCPropertyImplDecl::Synthesize);
SymbolRoleSet AccessorMethodRoles =
SymbolRoleSet(SymbolRole::Dynamic) | SymbolRoleSet(SymbolRole::Implicit);
if (ObjCMethodDecl *MD = PD->getGetterMethodDecl()) {
if (MD->isPropertyAccessor() && !hasUserDefined(MD, Container))
IndexCtx.handleDecl(MD, Loc, AccessorMethodRoles, {}, Container);
}
if (ObjCMethodDecl *MD = PD->getSetterMethodDecl()) {
if (MD->isPropertyAccessor() && !hasUserDefined(MD, Container))
IndexCtx.handleDecl(MD, Loc, AccessorMethodRoles, {}, Container);
}
if (ObjCIvarDecl *IvarD = D->getPropertyIvarDecl()) {
if (IvarD->getSynthesize()) {
// For synthesized ivars, use the location of its name in the
// corresponding @synthesize. If there isn't one, use the containing
// @implementation's location, rather than the property's location,
// otherwise the header file containing the @interface will have different
// indexing contents based on whether the @implementation was present or
// not in the translation unit.
SymbolRoleSet IvarRoles = 0;
SourceLocation IvarLoc = D->getPropertyIvarDeclLoc();
if (D->getLocation().isInvalid()) {
IvarLoc = Container->getLocation();
IvarRoles = (SymbolRoleSet)SymbolRole::Implicit;
} else if (D->getLocation() == IvarLoc) {
IvarRoles = (SymbolRoleSet)SymbolRole::Implicit;
}
TRY_DECL(IvarD, IndexCtx.handleDecl(IvarD, IvarLoc, IvarRoles));
} else {
IndexCtx.handleReference(IvarD, D->getPropertyIvarDeclLoc(), nullptr,
D->getDeclContext(), SymbolRoleSet());
}
}
return true;
}
bool VisitNamespaceDecl(const NamespaceDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
IndexCtx.indexDeclContext(D);
return true;
}
bool VisitNamespaceAliasDecl(const NamespaceAliasDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), D);
IndexCtx.handleReference(D->getAliasedNamespace(), D->getTargetNameLoc(), D,
D->getLexicalDeclContext());
return true;
}
bool VisitUsingDecl(const UsingDecl *D) {
IndexCtx.handleDecl(D);
const DeclContext *DC = D->getDeclContext()->getRedeclContext();
const NamedDecl *Parent = dyn_cast<NamedDecl>(DC);
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), Parent,
D->getLexicalDeclContext());
for (const auto *I : D->shadows()) {
// Skip unresolved using decls - we already have a decl for the using
// itself, so there's not much point adding another decl or reference to
// refer to the same location.
if (isa<UnresolvedUsingIfExistsDecl>(I->getUnderlyingDecl()))
continue;
IndexCtx.handleReference(I->getUnderlyingDecl(), D->getLocation(), Parent,
D->getLexicalDeclContext(), SymbolRoleSet());
}
return true;
}
bool VisitUsingDirectiveDecl(const UsingDirectiveDecl *D) {
const DeclContext *DC = D->getDeclContext()->getRedeclContext();
const NamedDecl *Parent = dyn_cast<NamedDecl>(DC);
// NNS for the local 'using namespace' directives is visited by the body
// visitor.
if (!D->getParentFunctionOrMethod())
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), Parent,
D->getLexicalDeclContext());
return IndexCtx.handleReference(D->getNominatedNamespaceAsWritten(),
D->getLocation(), Parent,
D->getLexicalDeclContext(),
SymbolRoleSet());
}
bool VisitUnresolvedUsingValueDecl(const UnresolvedUsingValueDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
const DeclContext *DC = D->getDeclContext()->getRedeclContext();
const NamedDecl *Parent = dyn_cast<NamedDecl>(DC);
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), Parent,
D->getLexicalDeclContext());
return true;
}
bool VisitUnresolvedUsingTypenameDecl(const UnresolvedUsingTypenameDecl *D) {
TRY_DECL(D, IndexCtx.handleDecl(D));
const DeclContext *DC = D->getDeclContext()->getRedeclContext();
const NamedDecl *Parent = dyn_cast<NamedDecl>(DC);
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), Parent,
D->getLexicalDeclContext());
return true;
}
bool VisitClassTemplateSpecializationDecl(const
ClassTemplateSpecializationDecl *D) {
// FIXME: Notify subsequent callbacks if info comes from implicit
// instantiation.
llvm::PointerUnion<ClassTemplateDecl *,
ClassTemplatePartialSpecializationDecl *>
Template = D->getSpecializedTemplateOrPartial();
const Decl *SpecializationOf =
Template.is<ClassTemplateDecl *>()
? (Decl *)Template.get<ClassTemplateDecl *>()
: Template.get<ClassTemplatePartialSpecializationDecl *>();
if (!D->isThisDeclarationADefinition())
IndexCtx.indexNestedNameSpecifierLoc(D->getQualifierLoc(), D);
IndexCtx.indexTagDecl(
D, SymbolRelation(SymbolRoleSet(SymbolRole::RelationSpecializationOf),
SpecializationOf));
if (TypeSourceInfo *TSI = D->getTypeAsWritten())
IndexCtx.indexTypeSourceInfo(TSI, /*Parent=*/nullptr,
D->getLexicalDeclContext());
return true;
}
static bool shouldIndexTemplateParameterDefaultValue(const NamedDecl *D) {
// We want to index the template parameters only once when indexing the
// canonical declaration.
if (!D)
return false;
if (const auto *FD = dyn_cast<FunctionDecl>(D))
return FD->getCanonicalDecl() == FD;
else if (const auto *TD = dyn_cast<TagDecl>(D))
return TD->getCanonicalDecl() == TD;
else if (const auto *VD = dyn_cast<VarDecl>(D))
return VD->getCanonicalDecl() == VD;
return true;
}
void indexTemplateParameters(TemplateParameterList *Params,
const NamedDecl *Parent) {
for (const NamedDecl *TP : *Params) {
if (IndexCtx.shouldIndexTemplateParameters())
IndexCtx.handleDecl(TP);
if (const auto *TTP = dyn_cast<TemplateTypeParmDecl>(TP)) {
if (TTP->hasDefaultArgument())
IndexCtx.indexTypeSourceInfo(TTP->getDefaultArgumentInfo(), Parent);
if (auto *C = TTP->getTypeConstraint())
IndexCtx.handleReference(C->getNamedConcept(), C->getConceptNameLoc(),
Parent, TTP->getLexicalDeclContext());
} else if (const auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(TP)) {
if (NTTP->hasDefaultArgument())
IndexCtx.indexBody(NTTP->getDefaultArgument(), Parent);
} else if (const auto *TTPD = dyn_cast<TemplateTemplateParmDecl>(TP)) {
if (TTPD->hasDefaultArgument())
handleTemplateArgumentLoc(TTPD->getDefaultArgument(), Parent,
TP->getLexicalDeclContext());
}
}
if (auto *R = Params->getRequiresClause())
IndexCtx.indexBody(R, Parent);
}
bool VisitTemplateDecl(const TemplateDecl *D) {
const NamedDecl *Parent = D->getTemplatedDecl();
if (!Parent)
return true;
// Index the default values for the template parameters.
auto *Params = D->getTemplateParameters();
if (Params && shouldIndexTemplateParameterDefaultValue(Parent)) {
indexTemplateParameters(Params, Parent);
}
return Visit(Parent);
}
bool VisitConceptDecl(const ConceptDecl *D) {
if (auto *Params = D->getTemplateParameters())
indexTemplateParameters(Params, D);
if (auto *E = D->getConstraintExpr())
IndexCtx.indexBody(E, D);
return IndexCtx.handleDecl(D);
}
bool VisitFriendDecl(const FriendDecl *D) {
if (auto ND = D->getFriendDecl()) {
// FIXME: Ignore a class template in a dependent context, these are not
// linked properly with their redeclarations, ending up with duplicate
// USRs.
// See comment "Friend templates are visible in fairly strange ways." in
// SemaTemplate.cpp which precedes code that prevents the friend template
// from becoming visible from the enclosing context.
if (isa<ClassTemplateDecl>(ND) && D->getDeclContext()->isDependentContext())
return true;
return Visit(ND);
}
if (auto Ty = D->getFriendType()) {
IndexCtx.indexTypeSourceInfo(Ty, cast<NamedDecl>(D->getDeclContext()));
}
return true;
}
bool VisitImportDecl(const ImportDecl *D) {
return IndexCtx.importedModule(D);
}
bool VisitStaticAssertDecl(const StaticAssertDecl *D) {
IndexCtx.indexBody(D->getAssertExpr(),
dyn_cast<NamedDecl>(D->getDeclContext()),
D->getLexicalDeclContext());
return true;
}
};
} // anonymous namespace
bool IndexingContext::indexDecl(const Decl *D) {
if (D->isImplicit() && shouldIgnoreIfImplicit(D))
return true;
if (isTemplateImplicitInstantiation(D) && !shouldIndexImplicitInstantiation())
return true;
IndexingDeclVisitor Visitor(*this);
bool ShouldContinue = Visitor.Visit(D);
if (!ShouldContinue)
return false;
if (!Visitor.Handled && isa<DeclContext>(D))
return indexDeclContext(cast<DeclContext>(D));
return true;
}
bool IndexingContext::indexDeclContext(const DeclContext *DC) {
for (const auto *I : DC->decls())
if (!indexDecl(I))
return false;
return true;
}
bool IndexingContext::indexTopLevelDecl(const Decl *D) {
if (!D || D->getLocation().isInvalid())
return true;
if (isa<ObjCMethodDecl>(D))
return true; // Wait for the objc container.
if (IndexOpts.ShouldTraverseDecl && !IndexOpts.ShouldTraverseDecl(D))
return true; // skip
return indexDecl(D);
}
bool IndexingContext::indexDeclGroupRef(DeclGroupRef DG) {
for (DeclGroupRef::iterator I = DG.begin(), E = DG.end(); I != E; ++I)
if (!indexTopLevelDecl(*I))
return false;
return true;
}
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