//===--- TextNodeDumper.cpp - Printing of AST nodes -----------------------===// // // 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 AST dumping of components of individual AST nodes. // //===----------------------------------------------------------------------===// #include "clang/AST/TextNodeDumper.h" #include "clang/AST/APValue.h" #include "clang/AST/DeclFriend.h" #include "clang/AST/DeclOpenMP.h" #include "clang/AST/DeclTemplate.h" #include "clang/AST/LocInfoType.h" #include "clang/AST/NestedNameSpecifier.h" #include "clang/AST/Type.h" #include "clang/Basic/Module.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/Specifiers.h" #include "clang/Basic/TypeTraits.h" #include "llvm/ADT/StringExtras.h" #include #include using namespace clang; static void dumpPreviousDeclImpl(raw_ostream &OS, ...) {} template static void dumpPreviousDeclImpl(raw_ostream &OS, const Mergeable *D) { const T *First = D->getFirstDecl(); if (First != D) OS << " first " << First; } template static void dumpPreviousDeclImpl(raw_ostream &OS, const Redeclarable *D) { const T *Prev = D->getPreviousDecl(); if (Prev) OS << " prev " << Prev; } /// Dump the previous declaration in the redeclaration chain for a declaration, /// if any. static void dumpPreviousDecl(raw_ostream &OS, const Decl *D) { switch (D->getKind()) { #define DECL(DERIVED, BASE) \ case Decl::DERIVED: \ return dumpPreviousDeclImpl(OS, cast(D)); #define ABSTRACT_DECL(DECL) #include "clang/AST/DeclNodes.inc" } llvm_unreachable("Decl that isn't part of DeclNodes.inc!"); } TextNodeDumper::TextNodeDumper(raw_ostream &OS, const ASTContext &Context, bool ShowColors) : TextTreeStructure(OS, ShowColors), OS(OS), ShowColors(ShowColors), Context(&Context), SM(&Context.getSourceManager()), PrintPolicy(Context.getPrintingPolicy()), Traits(&Context.getCommentCommandTraits()) {} TextNodeDumper::TextNodeDumper(raw_ostream &OS, bool ShowColors) : TextTreeStructure(OS, ShowColors), OS(OS), ShowColors(ShowColors) {} void TextNodeDumper::Visit(const comments::Comment *C, const comments::FullComment *FC) { if (!C) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>>"; return; } { ColorScope Color(OS, ShowColors, CommentColor); OS << C->getCommentKindName(); } dumpPointer(C); dumpSourceRange(C->getSourceRange()); ConstCommentVisitor::visit(C, FC); } void TextNodeDumper::Visit(const Attr *A) { { ColorScope Color(OS, ShowColors, AttrColor); switch (A->getKind()) { #define ATTR(X) \ case attr::X: \ OS << #X; \ break; #include "clang/Basic/AttrList.inc" } OS << "Attr"; } dumpPointer(A); dumpSourceRange(A->getRange()); if (A->isInherited()) OS << " Inherited"; if (A->isImplicit()) OS << " Implicit"; ConstAttrVisitor::Visit(A); } void TextNodeDumper::Visit(const TemplateArgument &TA, SourceRange R, const Decl *From, StringRef Label) { OS << "TemplateArgument"; if (R.isValid()) dumpSourceRange(R); if (From) dumpDeclRef(From, Label); ConstTemplateArgumentVisitor::Visit(TA); } void TextNodeDumper::Visit(const Stmt *Node) { if (!Node) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>>"; return; } { ColorScope Color(OS, ShowColors, StmtColor); OS << Node->getStmtClassName(); } dumpPointer(Node); dumpSourceRange(Node->getSourceRange()); if (const auto *E = dyn_cast(Node)) { dumpType(E->getType()); if (E->containsErrors()) { ColorScope Color(OS, ShowColors, ErrorsColor); OS << " contains-errors"; } { ColorScope Color(OS, ShowColors, ValueKindColor); switch (E->getValueKind()) { case VK_PRValue: break; case VK_LValue: OS << " lvalue"; break; case VK_XValue: OS << " xvalue"; break; } } { ColorScope Color(OS, ShowColors, ObjectKindColor); switch (E->getObjectKind()) { case OK_Ordinary: break; case OK_BitField: OS << " bitfield"; break; case OK_ObjCProperty: OS << " objcproperty"; break; case OK_ObjCSubscript: OS << " objcsubscript"; break; case OK_VectorComponent: OS << " vectorcomponent"; break; case OK_MatrixComponent: OS << " matrixcomponent"; break; } } } ConstStmtVisitor::Visit(Node); } void TextNodeDumper::Visit(const Type *T) { if (!T) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>>"; return; } if (isa(T)) { { ColorScope Color(OS, ShowColors, TypeColor); OS << "LocInfo Type"; } dumpPointer(T); return; } { ColorScope Color(OS, ShowColors, TypeColor); OS << T->getTypeClassName() << "Type"; } dumpPointer(T); OS << " "; dumpBareType(QualType(T, 0), false); QualType SingleStepDesugar = T->getLocallyUnqualifiedSingleStepDesugaredType(); if (SingleStepDesugar != QualType(T, 0)) OS << " sugar"; if (T->containsErrors()) { ColorScope Color(OS, ShowColors, ErrorsColor); OS << " contains-errors"; } if (T->isDependentType()) OS << " dependent"; else if (T->isInstantiationDependentType()) OS << " instantiation_dependent"; if (T->isVariablyModifiedType()) OS << " variably_modified"; if (T->containsUnexpandedParameterPack()) OS << " contains_unexpanded_pack"; if (T->isFromAST()) OS << " imported"; TypeVisitor::Visit(T); } void TextNodeDumper::Visit(QualType T) { OS << "QualType"; dumpPointer(T.getAsOpaquePtr()); OS << " "; dumpBareType(T, false); OS << " " << T.split().Quals.getAsString(); } void TextNodeDumper::Visit(const Decl *D) { if (!D) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>>"; return; } { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << D->getDeclKindName() << "Decl"; } dumpPointer(D); if (D->getLexicalDeclContext() != D->getDeclContext()) OS << " parent " << cast(D->getDeclContext()); dumpPreviousDecl(OS, D); dumpSourceRange(D->getSourceRange()); OS << ' '; dumpLocation(D->getLocation()); if (D->isFromASTFile()) OS << " imported"; if (Module *M = D->getOwningModule()) OS << " in " << M->getFullModuleName(); if (auto *ND = dyn_cast(D)) for (Module *M : D->getASTContext().getModulesWithMergedDefinition( const_cast(ND))) AddChild([=] { OS << "also in " << M->getFullModuleName(); }); if (const NamedDecl *ND = dyn_cast(D)) if (!ND->isUnconditionallyVisible()) OS << " hidden"; if (D->isImplicit()) OS << " implicit"; if (D->isUsed()) OS << " used"; else if (D->isThisDeclarationReferenced()) OS << " referenced"; if (D->isInvalidDecl()) OS << " invalid"; if (const FunctionDecl *FD = dyn_cast(D)) { if (FD->isConstexprSpecified()) OS << " constexpr"; if (FD->isConsteval()) OS << " consteval"; else if (FD->isImmediateFunction()) OS << " immediate"; if (FD->isMultiVersion()) OS << " multiversion"; } if (!isa(*D)) { const auto *MD = dyn_cast(D); if (!MD || !MD->isThisDeclarationADefinition()) { const auto *DC = dyn_cast(D); if (DC && DC->hasExternalLexicalStorage()) { ColorScope Color(OS, ShowColors, UndeserializedColor); OS << " "; } } } switch (D->getFriendObjectKind()) { case Decl::FOK_None: break; case Decl::FOK_Declared: OS << " friend"; break; case Decl::FOK_Undeclared: OS << " friend_undeclared"; break; } ConstDeclVisitor::Visit(D); } void TextNodeDumper::Visit(const CXXCtorInitializer *Init) { OS << "CXXCtorInitializer"; if (Init->isAnyMemberInitializer()) { OS << ' '; dumpBareDeclRef(Init->getAnyMember()); } else if (Init->isBaseInitializer()) { dumpType(QualType(Init->getBaseClass(), 0)); } else if (Init->isDelegatingInitializer()) { dumpType(Init->getTypeSourceInfo()->getType()); } else { llvm_unreachable("Unknown initializer type"); } } void TextNodeDumper::Visit(const BlockDecl::Capture &C) { OS << "capture"; if (C.isByRef()) OS << " byref"; if (C.isNested()) OS << " nested"; if (C.getVariable()) { OS << ' '; dumpBareDeclRef(C.getVariable()); } } void TextNodeDumper::Visit(const OMPClause *C) { if (!C) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>> OMPClause"; return; } { ColorScope Color(OS, ShowColors, AttrColor); StringRef ClauseName(llvm::omp::getOpenMPClauseName(C->getClauseKind())); OS << "OMP" << ClauseName.substr(/*Start=*/0, /*N=*/1).upper() << ClauseName.drop_front() << "Clause"; } dumpPointer(C); dumpSourceRange(SourceRange(C->getBeginLoc(), C->getEndLoc())); if (C->isImplicit()) OS << " "; } void TextNodeDumper::Visit(const GenericSelectionExpr::ConstAssociation &A) { const TypeSourceInfo *TSI = A.getTypeSourceInfo(); if (TSI) { OS << "case "; dumpType(TSI->getType()); } else { OS << "default"; } if (A.isSelected()) OS << " selected"; } void TextNodeDumper::Visit(const ConceptReference *R) { if (!R) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>> ConceptReference"; return; } OS << "ConceptReference"; dumpPointer(R); dumpSourceRange(R->getSourceRange()); OS << ' '; dumpBareDeclRef(R->getNamedConcept()); } void TextNodeDumper::Visit(const concepts::Requirement *R) { if (!R) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>> Requirement"; return; } { ColorScope Color(OS, ShowColors, StmtColor); switch (R->getKind()) { case concepts::Requirement::RK_Type: OS << "TypeRequirement"; break; case concepts::Requirement::RK_Simple: OS << "SimpleRequirement"; break; case concepts::Requirement::RK_Compound: OS << "CompoundRequirement"; break; case concepts::Requirement::RK_Nested: OS << "NestedRequirement"; break; } } dumpPointer(R); if (auto *ER = dyn_cast(R)) { if (ER->hasNoexceptRequirement()) OS << " noexcept"; } if (R->isDependent()) OS << " dependent"; else OS << (R->isSatisfied() ? " satisfied" : " unsatisfied"); if (R->containsUnexpandedParameterPack()) OS << " contains_unexpanded_pack"; } static double GetApproxValue(const llvm::APFloat &F) { llvm::APFloat V = F; bool ignored; V.convert(llvm::APFloat::IEEEdouble(), llvm::APFloat::rmNearestTiesToEven, &ignored); return V.convertToDouble(); } /// True if the \p APValue \p Value can be folded onto the current line. static bool isSimpleAPValue(const APValue &Value) { switch (Value.getKind()) { case APValue::None: case APValue::Indeterminate: case APValue::Int: case APValue::Float: case APValue::FixedPoint: case APValue::ComplexInt: case APValue::ComplexFloat: case APValue::LValue: case APValue::MemberPointer: case APValue::AddrLabelDiff: return true; case APValue::Vector: case APValue::Array: case APValue::Struct: return false; case APValue::Union: return isSimpleAPValue(Value.getUnionValue()); } llvm_unreachable("unexpected APValue kind!"); } /// Dump the children of the \p APValue \p Value. /// /// \param[in] Value The \p APValue to visit /// \param[in] Ty The \p QualType passed to \p Visit /// /// \param[in] IdxToChildFun A function mapping an \p APValue and an index /// to one of the child of the \p APValue /// /// \param[in] NumChildren \p IdxToChildFun will be called on \p Value with /// the indices in the range \p [0,NumChildren( /// /// \param[in] LabelSingular The label to use on a line with a single child /// \param[in] LabelPlurial The label to use on a line with multiple children void TextNodeDumper::dumpAPValueChildren( const APValue &Value, QualType Ty, const APValue &(*IdxToChildFun)(const APValue &, unsigned), unsigned NumChildren, StringRef LabelSingular, StringRef LabelPlurial) { // To save some vertical space we print up to MaxChildrenPerLine APValues // considered to be simple (by isSimpleAPValue) on a single line. constexpr unsigned MaxChildrenPerLine = 4; unsigned I = 0; while (I < NumChildren) { unsigned J = I; while (J < NumChildren) { if (isSimpleAPValue(IdxToChildFun(Value, J)) && (J - I < MaxChildrenPerLine)) { ++J; continue; } break; } J = std::max(I + 1, J); // Print [I,J) on a single line. AddChild(J - I > 1 ? LabelPlurial : LabelSingular, [=]() { for (unsigned X = I; X < J; ++X) { Visit(IdxToChildFun(Value, X), Ty); if (X + 1 != J) OS << ", "; } }); I = J; } } void TextNodeDumper::Visit(const APValue &Value, QualType Ty) { ColorScope Color(OS, ShowColors, ValueKindColor); switch (Value.getKind()) { case APValue::None: OS << "None"; return; case APValue::Indeterminate: OS << "Indeterminate"; return; case APValue::Int: OS << "Int "; { ColorScope Color(OS, ShowColors, ValueColor); OS << Value.getInt(); } return; case APValue::Float: OS << "Float "; { ColorScope Color(OS, ShowColors, ValueColor); OS << GetApproxValue(Value.getFloat()); } return; case APValue::FixedPoint: OS << "FixedPoint "; { ColorScope Color(OS, ShowColors, ValueColor); OS << Value.getFixedPoint(); } return; case APValue::Vector: { unsigned VectorLength = Value.getVectorLength(); OS << "Vector length=" << VectorLength; dumpAPValueChildren( Value, Ty, [](const APValue &Value, unsigned Index) -> const APValue & { return Value.getVectorElt(Index); }, VectorLength, "element", "elements"); return; } case APValue::ComplexInt: OS << "ComplexInt "; { ColorScope Color(OS, ShowColors, ValueColor); OS << Value.getComplexIntReal() << " + " << Value.getComplexIntImag() << 'i'; } return; case APValue::ComplexFloat: OS << "ComplexFloat "; { ColorScope Color(OS, ShowColors, ValueColor); OS << GetApproxValue(Value.getComplexFloatReal()) << " + " << GetApproxValue(Value.getComplexFloatImag()) << 'i'; } return; case APValue::LValue: (void)Context; OS << "LValue "; return; case APValue::Array: { unsigned ArraySize = Value.getArraySize(); unsigned NumInitializedElements = Value.getArrayInitializedElts(); OS << "Array size=" << ArraySize; dumpAPValueChildren( Value, Ty, [](const APValue &Value, unsigned Index) -> const APValue & { return Value.getArrayInitializedElt(Index); }, NumInitializedElements, "element", "elements"); if (Value.hasArrayFiller()) { AddChild("filler", [=] { { ColorScope Color(OS, ShowColors, ValueColor); OS << ArraySize - NumInitializedElements << " x "; } Visit(Value.getArrayFiller(), Ty); }); } return; } case APValue::Struct: { OS << "Struct"; dumpAPValueChildren( Value, Ty, [](const APValue &Value, unsigned Index) -> const APValue & { return Value.getStructBase(Index); }, Value.getStructNumBases(), "base", "bases"); dumpAPValueChildren( Value, Ty, [](const APValue &Value, unsigned Index) -> const APValue & { return Value.getStructField(Index); }, Value.getStructNumFields(), "field", "fields"); return; } case APValue::Union: { OS << "Union"; { ColorScope Color(OS, ShowColors, ValueColor); if (const FieldDecl *FD = Value.getUnionField()) OS << " ." << *cast(FD); } // If the union value is considered to be simple, fold it into the // current line to save some vertical space. const APValue &UnionValue = Value.getUnionValue(); if (isSimpleAPValue(UnionValue)) { OS << ' '; Visit(UnionValue, Ty); } else { AddChild([=] { Visit(UnionValue, Ty); }); } return; } case APValue::MemberPointer: OS << "MemberPointer "; return; case APValue::AddrLabelDiff: OS << "AddrLabelDiff "; return; } llvm_unreachable("Unknown APValue kind!"); } void TextNodeDumper::dumpPointer(const void *Ptr) { ColorScope Color(OS, ShowColors, AddressColor); OS << ' ' << Ptr; } void TextNodeDumper::dumpLocation(SourceLocation Loc) { if (!SM) return; ColorScope Color(OS, ShowColors, LocationColor); SourceLocation SpellingLoc = SM->getSpellingLoc(Loc); // The general format we print out is filename:line:col, but we drop pieces // that haven't changed since the last loc printed. PresumedLoc PLoc = SM->getPresumedLoc(SpellingLoc); if (PLoc.isInvalid()) { OS << ""; return; } if (strcmp(PLoc.getFilename(), LastLocFilename) != 0) { OS << PLoc.getFilename() << ':' << PLoc.getLine() << ':' << PLoc.getColumn(); LastLocFilename = PLoc.getFilename(); LastLocLine = PLoc.getLine(); } else if (PLoc.getLine() != LastLocLine) { OS << "line" << ':' << PLoc.getLine() << ':' << PLoc.getColumn(); LastLocLine = PLoc.getLine(); } else { OS << "col" << ':' << PLoc.getColumn(); } } void TextNodeDumper::dumpSourceRange(SourceRange R) { // Can't translate locations if a SourceManager isn't available. if (!SM) return; OS << " <"; dumpLocation(R.getBegin()); if (R.getBegin() != R.getEnd()) { OS << ", "; dumpLocation(R.getEnd()); } OS << ">"; // } void TextNodeDumper::dumpBareType(QualType T, bool Desugar) { ColorScope Color(OS, ShowColors, TypeColor); SplitQualType T_split = T.split(); std::string T_str = QualType::getAsString(T_split, PrintPolicy); OS << "'" << T_str << "'"; if (Desugar && !T.isNull()) { // If the type is sugared, also dump a (shallow) desugared type when // it is visibly different. SplitQualType D_split = T.getSplitDesugaredType(); if (T_split != D_split) { std::string D_str = QualType::getAsString(D_split, PrintPolicy); if (T_str != D_str) OS << ":'" << QualType::getAsString(D_split, PrintPolicy) << "'"; } } } void TextNodeDumper::dumpType(QualType T) { OS << ' '; dumpBareType(T); } void TextNodeDumper::dumpBareDeclRef(const Decl *D) { if (!D) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>>"; return; } { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << D->getDeclKindName(); } dumpPointer(D); if (const NamedDecl *ND = dyn_cast(D)) { ColorScope Color(OS, ShowColors, DeclNameColor); OS << " '" << ND->getDeclName() << '\''; } if (const ValueDecl *VD = dyn_cast(D)) dumpType(VD->getType()); } void TextNodeDumper::dumpName(const NamedDecl *ND) { if (ND->getDeclName()) { ColorScope Color(OS, ShowColors, DeclNameColor); OS << ' ' << ND->getDeclName(); } } void TextNodeDumper::dumpAccessSpecifier(AccessSpecifier AS) { const auto AccessSpelling = getAccessSpelling(AS); if (AccessSpelling.empty()) return; OS << AccessSpelling; } void TextNodeDumper::dumpCleanupObject( const ExprWithCleanups::CleanupObject &C) { if (auto *BD = C.dyn_cast()) dumpDeclRef(BD, "cleanup"); else if (auto *CLE = C.dyn_cast()) AddChild([=] { OS << "cleanup "; { ColorScope Color(OS, ShowColors, StmtColor); OS << CLE->getStmtClassName(); } dumpPointer(CLE); }); else llvm_unreachable("unexpected cleanup type"); } void clang::TextNodeDumper::dumpTemplateSpecializationKind( TemplateSpecializationKind TSK) { switch (TSK) { case TSK_Undeclared: break; case TSK_ImplicitInstantiation: OS << " implicit_instantiation"; break; case TSK_ExplicitSpecialization: OS << " explicit_specialization"; break; case TSK_ExplicitInstantiationDeclaration: OS << " explicit_instantiation_declaration"; break; case TSK_ExplicitInstantiationDefinition: OS << " explicit_instantiation_definition"; break; } } void clang::TextNodeDumper::dumpNestedNameSpecifier(const NestedNameSpecifier *NNS) { if (!NNS) return; AddChild([=] { OS << "NestedNameSpecifier"; switch (NNS->getKind()) { case NestedNameSpecifier::Identifier: OS << " Identifier"; OS << " '" << NNS->getAsIdentifier()->getName() << "'"; break; case NestedNameSpecifier::Namespace: OS << " "; // "Namespace" is printed as the decl kind. dumpBareDeclRef(NNS->getAsNamespace()); break; case NestedNameSpecifier::NamespaceAlias: OS << " "; // "NamespaceAlias" is printed as the decl kind. dumpBareDeclRef(NNS->getAsNamespaceAlias()); break; case NestedNameSpecifier::TypeSpec: OS << " TypeSpec"; dumpType(QualType(NNS->getAsType(), 0)); break; case NestedNameSpecifier::TypeSpecWithTemplate: OS << " TypeSpecWithTemplate"; dumpType(QualType(NNS->getAsType(), 0)); break; case NestedNameSpecifier::Global: OS << " Global"; break; case NestedNameSpecifier::Super: OS << " Super"; break; } dumpNestedNameSpecifier(NNS->getPrefix()); }); } void TextNodeDumper::dumpDeclRef(const Decl *D, StringRef Label) { if (!D) return; AddChild([=] { if (!Label.empty()) OS << Label << ' '; dumpBareDeclRef(D); }); } const char *TextNodeDumper::getCommandName(unsigned CommandID) { if (Traits) return Traits->getCommandInfo(CommandID)->Name; const comments::CommandInfo *Info = comments::CommandTraits::getBuiltinCommandInfo(CommandID); if (Info) return Info->Name; return ""; } void TextNodeDumper::printFPOptions(FPOptionsOverride FPO) { #define OPTION(NAME, TYPE, WIDTH, PREVIOUS) \ if (FPO.has##NAME##Override()) \ OS << " " #NAME "=" << FPO.get##NAME##Override(); #include "clang/Basic/FPOptions.def" } void TextNodeDumper::visitTextComment(const comments::TextComment *C, const comments::FullComment *) { OS << " Text=\"" << C->getText() << "\""; } void TextNodeDumper::visitInlineCommandComment( const comments::InlineCommandComment *C, const comments::FullComment *) { OS << " Name=\"" << getCommandName(C->getCommandID()) << "\""; switch (C->getRenderKind()) { case comments::InlineCommandRenderKind::Normal: OS << " RenderNormal"; break; case comments::InlineCommandRenderKind::Bold: OS << " RenderBold"; break; case comments::InlineCommandRenderKind::Monospaced: OS << " RenderMonospaced"; break; case comments::InlineCommandRenderKind::Emphasized: OS << " RenderEmphasized"; break; case comments::InlineCommandRenderKind::Anchor: OS << " RenderAnchor"; break; } for (unsigned i = 0, e = C->getNumArgs(); i != e; ++i) OS << " Arg[" << i << "]=\"" << C->getArgText(i) << "\""; } void TextNodeDumper::visitHTMLStartTagComment( const comments::HTMLStartTagComment *C, const comments::FullComment *) { OS << " Name=\"" << C->getTagName() << "\""; if (C->getNumAttrs() != 0) { OS << " Attrs: "; for (unsigned i = 0, e = C->getNumAttrs(); i != e; ++i) { const comments::HTMLStartTagComment::Attribute &Attr = C->getAttr(i); OS << " \"" << Attr.Name << "=\"" << Attr.Value << "\""; } } if (C->isSelfClosing()) OS << " SelfClosing"; } void TextNodeDumper::visitHTMLEndTagComment( const comments::HTMLEndTagComment *C, const comments::FullComment *) { OS << " Name=\"" << C->getTagName() << "\""; } void TextNodeDumper::visitBlockCommandComment( const comments::BlockCommandComment *C, const comments::FullComment *) { OS << " Name=\"" << getCommandName(C->getCommandID()) << "\""; for (unsigned i = 0, e = C->getNumArgs(); i != e; ++i) OS << " Arg[" << i << "]=\"" << C->getArgText(i) << "\""; } void TextNodeDumper::visitParamCommandComment( const comments::ParamCommandComment *C, const comments::FullComment *FC) { OS << " " << comments::ParamCommandComment::getDirectionAsString(C->getDirection()); if (C->isDirectionExplicit()) OS << " explicitly"; else OS << " implicitly"; if (C->hasParamName()) { if (C->isParamIndexValid()) OS << " Param=\"" << C->getParamName(FC) << "\""; else OS << " Param=\"" << C->getParamNameAsWritten() << "\""; } if (C->isParamIndexValid() && !C->isVarArgParam()) OS << " ParamIndex=" << C->getParamIndex(); } void TextNodeDumper::visitTParamCommandComment( const comments::TParamCommandComment *C, const comments::FullComment *FC) { if (C->hasParamName()) { if (C->isPositionValid()) OS << " Param=\"" << C->getParamName(FC) << "\""; else OS << " Param=\"" << C->getParamNameAsWritten() << "\""; } if (C->isPositionValid()) { OS << " Position=<"; for (unsigned i = 0, e = C->getDepth(); i != e; ++i) { OS << C->getIndex(i); if (i != e - 1) OS << ", "; } OS << ">"; } } void TextNodeDumper::visitVerbatimBlockComment( const comments::VerbatimBlockComment *C, const comments::FullComment *) { OS << " Name=\"" << getCommandName(C->getCommandID()) << "\"" " CloseName=\"" << C->getCloseName() << "\""; } void TextNodeDumper::visitVerbatimBlockLineComment( const comments::VerbatimBlockLineComment *C, const comments::FullComment *) { OS << " Text=\"" << C->getText() << "\""; } void TextNodeDumper::visitVerbatimLineComment( const comments::VerbatimLineComment *C, const comments::FullComment *) { OS << " Text=\"" << C->getText() << "\""; } void TextNodeDumper::VisitNullTemplateArgument(const TemplateArgument &) { OS << " null"; } void TextNodeDumper::VisitTypeTemplateArgument(const TemplateArgument &TA) { OS << " type"; dumpType(TA.getAsType()); } void TextNodeDumper::VisitDeclarationTemplateArgument( const TemplateArgument &TA) { OS << " decl"; dumpDeclRef(TA.getAsDecl()); } void TextNodeDumper::VisitNullPtrTemplateArgument(const TemplateArgument &) { OS << " nullptr"; } void TextNodeDumper::VisitIntegralTemplateArgument(const TemplateArgument &TA) { OS << " integral " << TA.getAsIntegral(); } void TextNodeDumper::VisitTemplateTemplateArgument(const TemplateArgument &TA) { if (TA.getAsTemplate().getKind() == TemplateName::UsingTemplate) OS << " using"; OS << " template "; TA.getAsTemplate().dump(OS); } void TextNodeDumper::VisitTemplateExpansionTemplateArgument( const TemplateArgument &TA) { if (TA.getAsTemplateOrTemplatePattern().getKind() == TemplateName::UsingTemplate) OS << " using"; OS << " template expansion "; TA.getAsTemplateOrTemplatePattern().dump(OS); } void TextNodeDumper::VisitExpressionTemplateArgument(const TemplateArgument &) { OS << " expr"; } void TextNodeDumper::VisitPackTemplateArgument(const TemplateArgument &) { OS << " pack"; } static void dumpBasePath(raw_ostream &OS, const CastExpr *Node) { if (Node->path_empty()) return; OS << " ("; bool First = true; for (CastExpr::path_const_iterator I = Node->path_begin(), E = Node->path_end(); I != E; ++I) { const CXXBaseSpecifier *Base = *I; if (!First) OS << " -> "; const auto *RD = cast(Base->getType()->castAs()->getDecl()); if (Base->isVirtual()) OS << "virtual "; OS << RD->getName(); First = false; } OS << ')'; } void TextNodeDumper::VisitIfStmt(const IfStmt *Node) { if (Node->hasInitStorage()) OS << " has_init"; if (Node->hasVarStorage()) OS << " has_var"; if (Node->hasElseStorage()) OS << " has_else"; if (Node->isConstexpr()) OS << " constexpr"; if (Node->isConsteval()) { OS << " "; if (Node->isNegatedConsteval()) OS << "!"; OS << "consteval"; } } void TextNodeDumper::VisitSwitchStmt(const SwitchStmt *Node) { if (Node->hasInitStorage()) OS << " has_init"; if (Node->hasVarStorage()) OS << " has_var"; } void TextNodeDumper::VisitWhileStmt(const WhileStmt *Node) { if (Node->hasVarStorage()) OS << " has_var"; } void TextNodeDumper::VisitLabelStmt(const LabelStmt *Node) { OS << " '" << Node->getName() << "'"; if (Node->isSideEntry()) OS << " side_entry"; } void TextNodeDumper::VisitGotoStmt(const GotoStmt *Node) { OS << " '" << Node->getLabel()->getName() << "'"; dumpPointer(Node->getLabel()); } void TextNodeDumper::VisitCaseStmt(const CaseStmt *Node) { if (Node->caseStmtIsGNURange()) OS << " gnu_range"; } void clang::TextNodeDumper::VisitReturnStmt(const ReturnStmt *Node) { if (const VarDecl *Cand = Node->getNRVOCandidate()) { OS << " nrvo_candidate("; dumpBareDeclRef(Cand); OS << ")"; } } void clang::TextNodeDumper::VisitCoawaitExpr(const CoawaitExpr *Node) { if (Node->isImplicit()) OS << " implicit"; } void clang::TextNodeDumper::VisitCoreturnStmt(const CoreturnStmt *Node) { if (Node->isImplicit()) OS << " implicit"; } void TextNodeDumper::VisitConstantExpr(const ConstantExpr *Node) { if (Node->hasAPValueResult()) AddChild("value", [=] { Visit(Node->getAPValueResult(), Node->getType()); }); } void TextNodeDumper::VisitCallExpr(const CallExpr *Node) { if (Node->usesADL()) OS << " adl"; if (Node->hasStoredFPFeatures()) printFPOptions(Node->getFPFeatures()); } void TextNodeDumper::VisitCXXOperatorCallExpr(const CXXOperatorCallExpr *Node) { const char *OperatorSpelling = clang::getOperatorSpelling(Node->getOperator()); if (OperatorSpelling) OS << " '" << OperatorSpelling << "'"; VisitCallExpr(Node); } void TextNodeDumper::VisitCastExpr(const CastExpr *Node) { OS << " <"; { ColorScope Color(OS, ShowColors, CastColor); OS << Node->getCastKindName(); } dumpBasePath(OS, Node); OS << ">"; if (Node->hasStoredFPFeatures()) printFPOptions(Node->getFPFeatures()); } void TextNodeDumper::VisitImplicitCastExpr(const ImplicitCastExpr *Node) { VisitCastExpr(Node); if (Node->isPartOfExplicitCast()) OS << " part_of_explicit_cast"; } void TextNodeDumper::VisitDeclRefExpr(const DeclRefExpr *Node) { OS << " "; dumpBareDeclRef(Node->getDecl()); dumpNestedNameSpecifier(Node->getQualifier()); if (Node->getDecl() != Node->getFoundDecl()) { OS << " ("; dumpBareDeclRef(Node->getFoundDecl()); OS << ")"; } switch (Node->isNonOdrUse()) { case NOUR_None: break; case NOUR_Unevaluated: OS << " non_odr_use_unevaluated"; break; case NOUR_Constant: OS << " non_odr_use_constant"; break; case NOUR_Discarded: OS << " non_odr_use_discarded"; break; } if (Node->refersToEnclosingVariableOrCapture()) OS << " refers_to_enclosing_variable_or_capture"; if (Node->isImmediateEscalating()) OS << " immediate-escalating"; } void clang::TextNodeDumper::VisitDependentScopeDeclRefExpr( const DependentScopeDeclRefExpr *Node) { dumpNestedNameSpecifier(Node->getQualifier()); } void TextNodeDumper::VisitUnresolvedLookupExpr( const UnresolvedLookupExpr *Node) { OS << " ("; if (!Node->requiresADL()) OS << "no "; OS << "ADL) = '" << Node->getName() << '\''; UnresolvedLookupExpr::decls_iterator I = Node->decls_begin(), E = Node->decls_end(); if (I == E) OS << " empty"; for (; I != E; ++I) dumpPointer(*I); } void TextNodeDumper::VisitObjCIvarRefExpr(const ObjCIvarRefExpr *Node) { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << " " << Node->getDecl()->getDeclKindName() << "Decl"; } OS << "='" << *Node->getDecl() << "'"; dumpPointer(Node->getDecl()); if (Node->isFreeIvar()) OS << " isFreeIvar"; } void TextNodeDumper::VisitSYCLUniqueStableNameExpr( const SYCLUniqueStableNameExpr *Node) { dumpType(Node->getTypeSourceInfo()->getType()); } void TextNodeDumper::VisitPredefinedExpr(const PredefinedExpr *Node) { OS << " " << PredefinedExpr::getIdentKindName(Node->getIdentKind()); } void TextNodeDumper::VisitCharacterLiteral(const CharacterLiteral *Node) { ColorScope Color(OS, ShowColors, ValueColor); OS << " " << Node->getValue(); } void TextNodeDumper::VisitIntegerLiteral(const IntegerLiteral *Node) { bool isSigned = Node->getType()->isSignedIntegerType(); ColorScope Color(OS, ShowColors, ValueColor); OS << " " << toString(Node->getValue(), 10, isSigned); } void TextNodeDumper::VisitFixedPointLiteral(const FixedPointLiteral *Node) { ColorScope Color(OS, ShowColors, ValueColor); OS << " " << Node->getValueAsString(/*Radix=*/10); } void TextNodeDumper::VisitFloatingLiteral(const FloatingLiteral *Node) { ColorScope Color(OS, ShowColors, ValueColor); OS << " " << Node->getValueAsApproximateDouble(); } void TextNodeDumper::VisitStringLiteral(const StringLiteral *Str) { ColorScope Color(OS, ShowColors, ValueColor); OS << " "; Str->outputString(OS); } void TextNodeDumper::VisitInitListExpr(const InitListExpr *ILE) { if (auto *Field = ILE->getInitializedFieldInUnion()) { OS << " field "; dumpBareDeclRef(Field); } } void TextNodeDumper::VisitGenericSelectionExpr(const GenericSelectionExpr *E) { if (E->isResultDependent()) OS << " result_dependent"; } void TextNodeDumper::VisitUnaryOperator(const UnaryOperator *Node) { OS << " " << (Node->isPostfix() ? "postfix" : "prefix") << " '" << UnaryOperator::getOpcodeStr(Node->getOpcode()) << "'"; if (!Node->canOverflow()) OS << " cannot overflow"; if (Node->hasStoredFPFeatures()) printFPOptions(Node->getStoredFPFeatures()); } void TextNodeDumper::VisitUnaryExprOrTypeTraitExpr( const UnaryExprOrTypeTraitExpr *Node) { OS << " " << getTraitSpelling(Node->getKind()); if (Node->isArgumentType()) dumpType(Node->getArgumentType()); } void TextNodeDumper::VisitMemberExpr(const MemberExpr *Node) { OS << " " << (Node->isArrow() ? "->" : ".") << *Node->getMemberDecl(); dumpPointer(Node->getMemberDecl()); dumpNestedNameSpecifier(Node->getQualifier()); switch (Node->isNonOdrUse()) { case NOUR_None: break; case NOUR_Unevaluated: OS << " non_odr_use_unevaluated"; break; case NOUR_Constant: OS << " non_odr_use_constant"; break; case NOUR_Discarded: OS << " non_odr_use_discarded"; break; } } void TextNodeDumper::VisitExtVectorElementExpr( const ExtVectorElementExpr *Node) { OS << " " << Node->getAccessor().getNameStart(); } void TextNodeDumper::VisitBinaryOperator(const BinaryOperator *Node) { OS << " '" << BinaryOperator::getOpcodeStr(Node->getOpcode()) << "'"; if (Node->hasStoredFPFeatures()) printFPOptions(Node->getStoredFPFeatures()); } void TextNodeDumper::VisitCompoundAssignOperator( const CompoundAssignOperator *Node) { OS << " '" << BinaryOperator::getOpcodeStr(Node->getOpcode()) << "' ComputeLHSTy="; dumpBareType(Node->getComputationLHSType()); OS << " ComputeResultTy="; dumpBareType(Node->getComputationResultType()); if (Node->hasStoredFPFeatures()) printFPOptions(Node->getStoredFPFeatures()); } void TextNodeDumper::VisitAddrLabelExpr(const AddrLabelExpr *Node) { OS << " " << Node->getLabel()->getName(); dumpPointer(Node->getLabel()); } void TextNodeDumper::VisitCXXNamedCastExpr(const CXXNamedCastExpr *Node) { OS << " " << Node->getCastName() << "<" << Node->getTypeAsWritten().getAsString() << ">" << " <" << Node->getCastKindName(); dumpBasePath(OS, Node); OS << ">"; } void TextNodeDumper::VisitCXXBoolLiteralExpr(const CXXBoolLiteralExpr *Node) { OS << " " << (Node->getValue() ? "true" : "false"); } void TextNodeDumper::VisitCXXThisExpr(const CXXThisExpr *Node) { if (Node->isImplicit()) OS << " implicit"; OS << " this"; } void TextNodeDumper::VisitCXXFunctionalCastExpr( const CXXFunctionalCastExpr *Node) { OS << " functional cast to " << Node->getTypeAsWritten().getAsString() << " <" << Node->getCastKindName() << ">"; if (Node->hasStoredFPFeatures()) printFPOptions(Node->getFPFeatures()); } void TextNodeDumper::VisitCXXStaticCastExpr(const CXXStaticCastExpr *Node) { VisitCXXNamedCastExpr(Node); if (Node->hasStoredFPFeatures()) printFPOptions(Node->getFPFeatures()); } void TextNodeDumper::VisitCXXUnresolvedConstructExpr( const CXXUnresolvedConstructExpr *Node) { dumpType(Node->getTypeAsWritten()); if (Node->isListInitialization()) OS << " list"; } void TextNodeDumper::VisitCXXConstructExpr(const CXXConstructExpr *Node) { CXXConstructorDecl *Ctor = Node->getConstructor(); dumpType(Ctor->getType()); if (Node->isElidable()) OS << " elidable"; if (Node->isListInitialization()) OS << " list"; if (Node->isStdInitListInitialization()) OS << " std::initializer_list"; if (Node->requiresZeroInitialization()) OS << " zeroing"; if (Node->isImmediateEscalating()) OS << " immediate-escalating"; } void TextNodeDumper::VisitCXXBindTemporaryExpr( const CXXBindTemporaryExpr *Node) { OS << " (CXXTemporary"; dumpPointer(Node); OS << ")"; } void TextNodeDumper::VisitCXXNewExpr(const CXXNewExpr *Node) { if (Node->isGlobalNew()) OS << " global"; if (Node->isArray()) OS << " array"; if (Node->getOperatorNew()) { OS << ' '; dumpBareDeclRef(Node->getOperatorNew()); } // We could dump the deallocation function used in case of error, but it's // usually not that interesting. } void TextNodeDumper::VisitCXXDeleteExpr(const CXXDeleteExpr *Node) { if (Node->isGlobalDelete()) OS << " global"; if (Node->isArrayForm()) OS << " array"; if (Node->getOperatorDelete()) { OS << ' '; dumpBareDeclRef(Node->getOperatorDelete()); } } void TextNodeDumper::VisitTypeTraitExpr(const TypeTraitExpr *Node) { OS << " " << getTraitSpelling(Node->getTrait()); } void TextNodeDumper::VisitArrayTypeTraitExpr(const ArrayTypeTraitExpr *Node) { OS << " " << getTraitSpelling(Node->getTrait()); } void TextNodeDumper::VisitExpressionTraitExpr(const ExpressionTraitExpr *Node) { OS << " " << getTraitSpelling(Node->getTrait()); } void TextNodeDumper::VisitMaterializeTemporaryExpr( const MaterializeTemporaryExpr *Node) { if (const ValueDecl *VD = Node->getExtendingDecl()) { OS << " extended by "; dumpBareDeclRef(VD); } } void TextNodeDumper::VisitExprWithCleanups(const ExprWithCleanups *Node) { for (unsigned i = 0, e = Node->getNumObjects(); i != e; ++i) dumpCleanupObject(Node->getObject(i)); } void TextNodeDumper::VisitSizeOfPackExpr(const SizeOfPackExpr *Node) { dumpPointer(Node->getPack()); dumpName(Node->getPack()); } void TextNodeDumper::VisitCXXDependentScopeMemberExpr( const CXXDependentScopeMemberExpr *Node) { OS << " " << (Node->isArrow() ? "->" : ".") << Node->getMember(); } void TextNodeDumper::VisitObjCMessageExpr(const ObjCMessageExpr *Node) { OS << " selector="; Node->getSelector().print(OS); switch (Node->getReceiverKind()) { case ObjCMessageExpr::Instance: break; case ObjCMessageExpr::Class: OS << " class="; dumpBareType(Node->getClassReceiver()); break; case ObjCMessageExpr::SuperInstance: OS << " super (instance)"; break; case ObjCMessageExpr::SuperClass: OS << " super (class)"; break; } } void TextNodeDumper::VisitObjCBoxedExpr(const ObjCBoxedExpr *Node) { if (auto *BoxingMethod = Node->getBoxingMethod()) { OS << " selector="; BoxingMethod->getSelector().print(OS); } } void TextNodeDumper::VisitObjCAtCatchStmt(const ObjCAtCatchStmt *Node) { if (!Node->getCatchParamDecl()) OS << " catch all"; } void TextNodeDumper::VisitObjCEncodeExpr(const ObjCEncodeExpr *Node) { dumpType(Node->getEncodedType()); } void TextNodeDumper::VisitObjCSelectorExpr(const ObjCSelectorExpr *Node) { OS << " "; Node->getSelector().print(OS); } void TextNodeDumper::VisitObjCProtocolExpr(const ObjCProtocolExpr *Node) { OS << ' ' << *Node->getProtocol(); } void TextNodeDumper::VisitObjCPropertyRefExpr(const ObjCPropertyRefExpr *Node) { if (Node->isImplicitProperty()) { OS << " Kind=MethodRef Getter=\""; if (Node->getImplicitPropertyGetter()) Node->getImplicitPropertyGetter()->getSelector().print(OS); else OS << "(null)"; OS << "\" Setter=\""; if (ObjCMethodDecl *Setter = Node->getImplicitPropertySetter()) Setter->getSelector().print(OS); else OS << "(null)"; OS << "\""; } else { OS << " Kind=PropertyRef Property=\"" << *Node->getExplicitProperty() << '"'; } if (Node->isSuperReceiver()) OS << " super"; OS << " Messaging="; if (Node->isMessagingGetter() && Node->isMessagingSetter()) OS << "Getter&Setter"; else if (Node->isMessagingGetter()) OS << "Getter"; else if (Node->isMessagingSetter()) OS << "Setter"; } void TextNodeDumper::VisitObjCSubscriptRefExpr( const ObjCSubscriptRefExpr *Node) { if (Node->isArraySubscriptRefExpr()) OS << " Kind=ArraySubscript GetterForArray=\""; else OS << " Kind=DictionarySubscript GetterForDictionary=\""; if (Node->getAtIndexMethodDecl()) Node->getAtIndexMethodDecl()->getSelector().print(OS); else OS << "(null)"; if (Node->isArraySubscriptRefExpr()) OS << "\" SetterForArray=\""; else OS << "\" SetterForDictionary=\""; if (Node->setAtIndexMethodDecl()) Node->setAtIndexMethodDecl()->getSelector().print(OS); else OS << "(null)"; } void TextNodeDumper::VisitObjCBoolLiteralExpr(const ObjCBoolLiteralExpr *Node) { OS << " " << (Node->getValue() ? "__objc_yes" : "__objc_no"); } void TextNodeDumper::VisitOMPIteratorExpr(const OMPIteratorExpr *Node) { OS << " "; for (unsigned I = 0, E = Node->numOfIterators(); I < E; ++I) { Visit(Node->getIteratorDecl(I)); OS << " = "; const OMPIteratorExpr::IteratorRange Range = Node->getIteratorRange(I); OS << " begin "; Visit(Range.Begin); OS << " end "; Visit(Range.End); if (Range.Step) { OS << " step "; Visit(Range.Step); } } } void TextNodeDumper::VisitConceptSpecializationExpr( const ConceptSpecializationExpr *Node) { OS << " "; dumpBareDeclRef(Node->getFoundDecl()); } void TextNodeDumper::VisitRequiresExpr( const RequiresExpr *Node) { if (!Node->isValueDependent()) OS << (Node->isSatisfied() ? " satisfied" : " unsatisfied"); } void TextNodeDumper::VisitRValueReferenceType(const ReferenceType *T) { if (T->isSpelledAsLValue()) OS << " written as lvalue reference"; } void TextNodeDumper::VisitArrayType(const ArrayType *T) { switch (T->getSizeModifier()) { case ArraySizeModifier::Normal: break; case ArraySizeModifier::Static: OS << " static"; break; case ArraySizeModifier::Star: OS << " *"; break; } OS << " " << T->getIndexTypeQualifiers().getAsString(); } void TextNodeDumper::VisitConstantArrayType(const ConstantArrayType *T) { OS << " " << T->getSize(); VisitArrayType(T); } void TextNodeDumper::VisitVariableArrayType(const VariableArrayType *T) { OS << " "; dumpSourceRange(T->getBracketsRange()); VisitArrayType(T); } void TextNodeDumper::VisitDependentSizedArrayType( const DependentSizedArrayType *T) { VisitArrayType(T); OS << " "; dumpSourceRange(T->getBracketsRange()); } void TextNodeDumper::VisitDependentSizedExtVectorType( const DependentSizedExtVectorType *T) { OS << " "; dumpLocation(T->getAttributeLoc()); } void TextNodeDumper::VisitVectorType(const VectorType *T) { switch (T->getVectorKind()) { case VectorKind::Generic: break; case VectorKind::AltiVecVector: OS << " altivec"; break; case VectorKind::AltiVecPixel: OS << " altivec pixel"; break; case VectorKind::AltiVecBool: OS << " altivec bool"; break; case VectorKind::Neon: OS << " neon"; break; case VectorKind::NeonPoly: OS << " neon poly"; break; case VectorKind::SveFixedLengthData: OS << " fixed-length sve data vector"; break; case VectorKind::SveFixedLengthPredicate: OS << " fixed-length sve predicate vector"; break; case VectorKind::RVVFixedLengthData: OS << " fixed-length rvv data vector"; break; case VectorKind::RVVFixedLengthMask: OS << " fixed-length rvv mask vector"; break; } OS << " " << T->getNumElements(); } void TextNodeDumper::VisitFunctionType(const FunctionType *T) { auto EI = T->getExtInfo(); if (EI.getNoReturn()) OS << " noreturn"; if (EI.getProducesResult()) OS << " produces_result"; if (EI.getHasRegParm()) OS << " regparm " << EI.getRegParm(); OS << " " << FunctionType::getNameForCallConv(EI.getCC()); } void TextNodeDumper::VisitFunctionProtoType(const FunctionProtoType *T) { auto EPI = T->getExtProtoInfo(); if (EPI.HasTrailingReturn) OS << " trailing_return"; if (T->isConst()) OS << " const"; if (T->isVolatile()) OS << " volatile"; if (T->isRestrict()) OS << " restrict"; if (T->getExtProtoInfo().Variadic) OS << " variadic"; switch (EPI.RefQualifier) { case RQ_None: break; case RQ_LValue: OS << " &"; break; case RQ_RValue: OS << " &&"; break; } switch (EPI.ExceptionSpec.Type) { case EST_None: break; case EST_DynamicNone: OS << " exceptionspec_dynamic_none"; break; case EST_Dynamic: OS << " exceptionspec_dynamic"; break; case EST_MSAny: OS << " exceptionspec_ms_any"; break; case EST_NoThrow: OS << " exceptionspec_nothrow"; break; case EST_BasicNoexcept: OS << " exceptionspec_basic_noexcept"; break; case EST_DependentNoexcept: OS << " exceptionspec_dependent_noexcept"; break; case EST_NoexceptFalse: OS << " exceptionspec_noexcept_false"; break; case EST_NoexceptTrue: OS << " exceptionspec_noexcept_true"; break; case EST_Unevaluated: OS << " exceptionspec_unevaluated"; break; case EST_Uninstantiated: OS << " exceptionspec_uninstantiated"; break; case EST_Unparsed: OS << " exceptionspec_unparsed"; break; } if (!EPI.ExceptionSpec.Exceptions.empty()) { AddChild([=] { OS << "Exceptions:"; for (unsigned I = 0, N = EPI.ExceptionSpec.Exceptions.size(); I != N; ++I) { if (I) OS << ","; dumpType(EPI.ExceptionSpec.Exceptions[I]); } }); } if (EPI.ExceptionSpec.NoexceptExpr) { AddChild([=] { OS << "NoexceptExpr: "; Visit(EPI.ExceptionSpec.NoexceptExpr); }); } dumpDeclRef(EPI.ExceptionSpec.SourceDecl, "ExceptionSourceDecl"); dumpDeclRef(EPI.ExceptionSpec.SourceTemplate, "ExceptionSourceTemplate"); // FIXME: Consumed parameters. VisitFunctionType(T); } void TextNodeDumper::VisitUnresolvedUsingType(const UnresolvedUsingType *T) { dumpDeclRef(T->getDecl()); } void TextNodeDumper::VisitUsingType(const UsingType *T) { dumpDeclRef(T->getFoundDecl()); if (!T->typeMatchesDecl()) OS << " divergent"; } void TextNodeDumper::VisitTypedefType(const TypedefType *T) { dumpDeclRef(T->getDecl()); if (!T->typeMatchesDecl()) OS << " divergent"; } void TextNodeDumper::VisitUnaryTransformType(const UnaryTransformType *T) { switch (T->getUTTKind()) { #define TRANSFORM_TYPE_TRAIT_DEF(Enum, Trait) \ case UnaryTransformType::Enum: \ OS << " " #Trait; \ break; #include "clang/Basic/TransformTypeTraits.def" } } void TextNodeDumper::VisitTagType(const TagType *T) { dumpDeclRef(T->getDecl()); } void TextNodeDumper::VisitTemplateTypeParmType(const TemplateTypeParmType *T) { OS << " depth " << T->getDepth() << " index " << T->getIndex(); if (T->isParameterPack()) OS << " pack"; dumpDeclRef(T->getDecl()); } void TextNodeDumper::VisitSubstTemplateTypeParmType( const SubstTemplateTypeParmType *T) { dumpDeclRef(T->getAssociatedDecl()); VisitTemplateTypeParmDecl(T->getReplacedParameter()); if (auto PackIndex = T->getPackIndex()) OS << " pack_index " << *PackIndex; } void TextNodeDumper::VisitSubstTemplateTypeParmPackType( const SubstTemplateTypeParmPackType *T) { dumpDeclRef(T->getAssociatedDecl()); VisitTemplateTypeParmDecl(T->getReplacedParameter()); } void TextNodeDumper::VisitAutoType(const AutoType *T) { if (T->isDecltypeAuto()) OS << " decltype(auto)"; if (!T->isDeduced()) OS << " undeduced"; if (T->isConstrained()) { dumpDeclRef(T->getTypeConstraintConcept()); for (const auto &Arg : T->getTypeConstraintArguments()) VisitTemplateArgument(Arg); } } void TextNodeDumper::VisitDeducedTemplateSpecializationType( const DeducedTemplateSpecializationType *T) { if (T->getTemplateName().getKind() == TemplateName::UsingTemplate) OS << " using"; } void TextNodeDumper::VisitTemplateSpecializationType( const TemplateSpecializationType *T) { if (T->isTypeAlias()) OS << " alias"; if (T->getTemplateName().getKind() == TemplateName::UsingTemplate) OS << " using"; OS << " "; T->getTemplateName().dump(OS); } void TextNodeDumper::VisitInjectedClassNameType( const InjectedClassNameType *T) { dumpDeclRef(T->getDecl()); } void TextNodeDumper::VisitObjCInterfaceType(const ObjCInterfaceType *T) { dumpDeclRef(T->getDecl()); } void TextNodeDumper::VisitPackExpansionType(const PackExpansionType *T) { if (auto N = T->getNumExpansions()) OS << " expansions " << *N; } void TextNodeDumper::VisitLabelDecl(const LabelDecl *D) { dumpName(D); } void TextNodeDumper::VisitTypedefDecl(const TypedefDecl *D) { dumpName(D); dumpType(D->getUnderlyingType()); if (D->isModulePrivate()) OS << " __module_private__"; } void TextNodeDumper::VisitEnumDecl(const EnumDecl *D) { if (D->isScoped()) { if (D->isScopedUsingClassTag()) OS << " class"; else OS << " struct"; } dumpName(D); if (D->isModulePrivate()) OS << " __module_private__"; if (D->isFixed()) dumpType(D->getIntegerType()); } void TextNodeDumper::VisitRecordDecl(const RecordDecl *D) { OS << ' ' << D->getKindName(); dumpName(D); if (D->isModulePrivate()) OS << " __module_private__"; if (D->isCompleteDefinition()) OS << " definition"; } void TextNodeDumper::VisitEnumConstantDecl(const EnumConstantDecl *D) { dumpName(D); dumpType(D->getType()); } void TextNodeDumper::VisitIndirectFieldDecl(const IndirectFieldDecl *D) { dumpName(D); dumpType(D->getType()); for (const auto *Child : D->chain()) dumpDeclRef(Child); } void TextNodeDumper::VisitFunctionDecl(const FunctionDecl *D) { dumpName(D); dumpType(D->getType()); dumpTemplateSpecializationKind(D->getTemplateSpecializationKind()); StorageClass SC = D->getStorageClass(); if (SC != SC_None) OS << ' ' << VarDecl::getStorageClassSpecifierString(SC); if (D->isInlineSpecified()) OS << " inline"; if (D->isVirtualAsWritten()) OS << " virtual"; if (D->isModulePrivate()) OS << " __module_private__"; if (D->isPureVirtual()) OS << " pure"; if (D->isDefaulted()) { OS << " default"; if (D->isDeleted()) OS << "_delete"; } if (D->isDeletedAsWritten()) OS << " delete"; if (D->isTrivial()) OS << " trivial"; if (D->isIneligibleOrNotSelected()) OS << (isa(D) ? " not_selected" : " ineligible"); if (const auto *FPT = D->getType()->getAs()) { FunctionProtoType::ExtProtoInfo EPI = FPT->getExtProtoInfo(); switch (EPI.ExceptionSpec.Type) { default: break; case EST_Unevaluated: OS << " noexcept-unevaluated " << EPI.ExceptionSpec.SourceDecl; break; case EST_Uninstantiated: OS << " noexcept-uninstantiated " << EPI.ExceptionSpec.SourceTemplate; break; } } if (const auto *MD = dyn_cast(D)) { if (MD->size_overridden_methods() != 0) { auto dumpOverride = [=](const CXXMethodDecl *D) { SplitQualType T_split = D->getType().split(); OS << D << " " << D->getParent()->getName() << "::" << D->getDeclName() << " '" << QualType::getAsString(T_split, PrintPolicy) << "'"; }; AddChild([=] { auto Overrides = MD->overridden_methods(); OS << "Overrides: [ "; dumpOverride(*Overrides.begin()); for (const auto *Override : llvm::drop_begin(Overrides)) { OS << ", "; dumpOverride(Override); } OS << " ]"; }); } } if (!D->isInlineSpecified() && D->isInlined()) { OS << " implicit-inline"; } // Since NumParams comes from the FunctionProtoType of the FunctionDecl and // the Params are set later, it is possible for a dump during debugging to // encounter a FunctionDecl that has been created but hasn't been assigned // ParmVarDecls yet. if (!D->param_empty() && !D->param_begin()) OS << " <<getNumParams() << ">>>"; if (const auto *Instance = D->getInstantiatedFromMemberFunction()) { OS << " instantiated_from"; dumpPointer(Instance); } } void TextNodeDumper::VisitLifetimeExtendedTemporaryDecl( const LifetimeExtendedTemporaryDecl *D) { OS << " extended by "; dumpBareDeclRef(D->getExtendingDecl()); OS << " mangling "; { ColorScope Color(OS, ShowColors, ValueColor); OS << D->getManglingNumber(); } } void TextNodeDumper::VisitFieldDecl(const FieldDecl *D) { dumpName(D); dumpType(D->getType()); if (D->isMutable()) OS << " mutable"; if (D->isModulePrivate()) OS << " __module_private__"; } void TextNodeDumper::VisitVarDecl(const VarDecl *D) { dumpNestedNameSpecifier(D->getQualifier()); dumpName(D); if (const auto *P = dyn_cast(D); P && P->isExplicitObjectParameter()) OS << " this"; dumpType(D->getType()); dumpTemplateSpecializationKind(D->getTemplateSpecializationKind()); StorageClass SC = D->getStorageClass(); if (SC != SC_None) OS << ' ' << VarDecl::getStorageClassSpecifierString(SC); switch (D->getTLSKind()) { case VarDecl::TLS_None: break; case VarDecl::TLS_Static: OS << " tls"; break; case VarDecl::TLS_Dynamic: OS << " tls_dynamic"; break; } if (D->isModulePrivate()) OS << " __module_private__"; if (D->isNRVOVariable()) OS << " nrvo"; if (D->isInline()) OS << " inline"; if (D->isConstexpr()) OS << " constexpr"; if (D->hasInit()) { switch (D->getInitStyle()) { case VarDecl::CInit: OS << " cinit"; break; case VarDecl::CallInit: OS << " callinit"; break; case VarDecl::ListInit: OS << " listinit"; break; case VarDecl::ParenListInit: OS << " parenlistinit"; } } if (D->needsDestruction(D->getASTContext())) OS << " destroyed"; if (D->isParameterPack()) OS << " pack"; if (D->hasInit()) { const Expr *E = D->getInit(); // Only dump the value of constexpr VarDecls for now. if (E && !E->isValueDependent() && D->isConstexpr() && !D->getType()->isDependentType()) { const APValue *Value = D->evaluateValue(); if (Value) AddChild("value", [=] { Visit(*Value, E->getType()); }); } } } void TextNodeDumper::VisitBindingDecl(const BindingDecl *D) { dumpName(D); dumpType(D->getType()); } void TextNodeDumper::VisitCapturedDecl(const CapturedDecl *D) { if (D->isNothrow()) OS << " nothrow"; } void TextNodeDumper::VisitImportDecl(const ImportDecl *D) { OS << ' ' << D->getImportedModule()->getFullModuleName(); for (Decl *InitD : D->getASTContext().getModuleInitializers(D->getImportedModule())) dumpDeclRef(InitD, "initializer"); } void TextNodeDumper::VisitPragmaCommentDecl(const PragmaCommentDecl *D) { OS << ' '; switch (D->getCommentKind()) { case PCK_Unknown: llvm_unreachable("unexpected pragma comment kind"); case PCK_Compiler: OS << "compiler"; break; case PCK_ExeStr: OS << "exestr"; break; case PCK_Lib: OS << "lib"; break; case PCK_Linker: OS << "linker"; break; case PCK_User: OS << "user"; break; } StringRef Arg = D->getArg(); if (!Arg.empty()) OS << " \"" << Arg << "\""; } void TextNodeDumper::VisitPragmaDetectMismatchDecl( const PragmaDetectMismatchDecl *D) { OS << " \"" << D->getName() << "\" \"" << D->getValue() << "\""; } void TextNodeDumper::VisitOMPExecutableDirective( const OMPExecutableDirective *D) { if (D->isStandaloneDirective()) OS << " openmp_standalone_directive"; } void TextNodeDumper::VisitOMPDeclareReductionDecl( const OMPDeclareReductionDecl *D) { dumpName(D); dumpType(D->getType()); OS << " combiner"; dumpPointer(D->getCombiner()); if (const auto *Initializer = D->getInitializer()) { OS << " initializer"; dumpPointer(Initializer); switch (D->getInitializerKind()) { case OMPDeclareReductionInitKind::Direct: OS << " omp_priv = "; break; case OMPDeclareReductionInitKind::Copy: OS << " omp_priv ()"; break; case OMPDeclareReductionInitKind::Call: break; } } } void TextNodeDumper::VisitOMPRequiresDecl(const OMPRequiresDecl *D) { for (const auto *C : D->clauselists()) { AddChild([=] { if (!C) { ColorScope Color(OS, ShowColors, NullColor); OS << "<<>> OMPClause"; return; } { ColorScope Color(OS, ShowColors, AttrColor); StringRef ClauseName( llvm::omp::getOpenMPClauseName(C->getClauseKind())); OS << "OMP" << ClauseName.substr(/*Start=*/0, /*N=*/1).upper() << ClauseName.drop_front() << "Clause"; } dumpPointer(C); dumpSourceRange(SourceRange(C->getBeginLoc(), C->getEndLoc())); }); } } void TextNodeDumper::VisitOMPCapturedExprDecl(const OMPCapturedExprDecl *D) { dumpName(D); dumpType(D->getType()); } void TextNodeDumper::VisitNamespaceDecl(const NamespaceDecl *D) { dumpName(D); if (D->isInline()) OS << " inline"; if (D->isNested()) OS << " nested"; if (!D->isOriginalNamespace()) dumpDeclRef(D->getOriginalNamespace(), "original"); } void TextNodeDumper::VisitUsingDirectiveDecl(const UsingDirectiveDecl *D) { OS << ' '; dumpBareDeclRef(D->getNominatedNamespace()); } void TextNodeDumper::VisitNamespaceAliasDecl(const NamespaceAliasDecl *D) { dumpName(D); dumpDeclRef(D->getAliasedNamespace()); } void TextNodeDumper::VisitTypeAliasDecl(const TypeAliasDecl *D) { dumpName(D); dumpType(D->getUnderlyingType()); } void TextNodeDumper::VisitTypeAliasTemplateDecl( const TypeAliasTemplateDecl *D) { dumpName(D); } void TextNodeDumper::VisitCXXRecordDecl(const CXXRecordDecl *D) { VisitRecordDecl(D); if (const auto *Instance = D->getInstantiatedFromMemberClass()) { OS << " instantiated_from"; dumpPointer(Instance); } if (const auto *CTSD = dyn_cast(D)) dumpTemplateSpecializationKind(CTSD->getSpecializationKind()); dumpNestedNameSpecifier(D->getQualifier()); if (!D->isCompleteDefinition()) return; AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "DefinitionData"; } #define FLAG(fn, name) \ if (D->fn()) \ OS << " " #name; FLAG(isParsingBaseSpecifiers, parsing_base_specifiers); FLAG(isGenericLambda, generic); FLAG(isLambda, lambda); FLAG(isAnonymousStructOrUnion, is_anonymous); FLAG(canPassInRegisters, pass_in_registers); FLAG(isEmpty, empty); FLAG(isAggregate, aggregate); FLAG(isStandardLayout, standard_layout); FLAG(isTriviallyCopyable, trivially_copyable); FLAG(isPOD, pod); FLAG(isTrivial, trivial); FLAG(isPolymorphic, polymorphic); FLAG(isAbstract, abstract); FLAG(isLiteral, literal); FLAG(hasUserDeclaredConstructor, has_user_declared_ctor); FLAG(hasConstexprNonCopyMoveConstructor, has_constexpr_non_copy_move_ctor); FLAG(hasMutableFields, has_mutable_fields); FLAG(hasVariantMembers, has_variant_members); FLAG(allowConstDefaultInit, can_const_default_init); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "DefaultConstructor"; } FLAG(hasDefaultConstructor, exists); FLAG(hasTrivialDefaultConstructor, trivial); FLAG(hasNonTrivialDefaultConstructor, non_trivial); FLAG(hasUserProvidedDefaultConstructor, user_provided); FLAG(hasConstexprDefaultConstructor, constexpr); FLAG(needsImplicitDefaultConstructor, needs_implicit); FLAG(defaultedDefaultConstructorIsConstexpr, defaulted_is_constexpr); }); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "CopyConstructor"; } FLAG(hasSimpleCopyConstructor, simple); FLAG(hasTrivialCopyConstructor, trivial); FLAG(hasNonTrivialCopyConstructor, non_trivial); FLAG(hasUserDeclaredCopyConstructor, user_declared); FLAG(hasCopyConstructorWithConstParam, has_const_param); FLAG(needsImplicitCopyConstructor, needs_implicit); FLAG(needsOverloadResolutionForCopyConstructor, needs_overload_resolution); if (!D->needsOverloadResolutionForCopyConstructor()) FLAG(defaultedCopyConstructorIsDeleted, defaulted_is_deleted); FLAG(implicitCopyConstructorHasConstParam, implicit_has_const_param); }); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "MoveConstructor"; } FLAG(hasMoveConstructor, exists); FLAG(hasSimpleMoveConstructor, simple); FLAG(hasTrivialMoveConstructor, trivial); FLAG(hasNonTrivialMoveConstructor, non_trivial); FLAG(hasUserDeclaredMoveConstructor, user_declared); FLAG(needsImplicitMoveConstructor, needs_implicit); FLAG(needsOverloadResolutionForMoveConstructor, needs_overload_resolution); if (!D->needsOverloadResolutionForMoveConstructor()) FLAG(defaultedMoveConstructorIsDeleted, defaulted_is_deleted); }); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "CopyAssignment"; } FLAG(hasSimpleCopyAssignment, simple); FLAG(hasTrivialCopyAssignment, trivial); FLAG(hasNonTrivialCopyAssignment, non_trivial); FLAG(hasCopyAssignmentWithConstParam, has_const_param); FLAG(hasUserDeclaredCopyAssignment, user_declared); FLAG(needsImplicitCopyAssignment, needs_implicit); FLAG(needsOverloadResolutionForCopyAssignment, needs_overload_resolution); FLAG(implicitCopyAssignmentHasConstParam, implicit_has_const_param); }); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "MoveAssignment"; } FLAG(hasMoveAssignment, exists); FLAG(hasSimpleMoveAssignment, simple); FLAG(hasTrivialMoveAssignment, trivial); FLAG(hasNonTrivialMoveAssignment, non_trivial); FLAG(hasUserDeclaredMoveAssignment, user_declared); FLAG(needsImplicitMoveAssignment, needs_implicit); FLAG(needsOverloadResolutionForMoveAssignment, needs_overload_resolution); }); AddChild([=] { { ColorScope Color(OS, ShowColors, DeclKindNameColor); OS << "Destructor"; } FLAG(hasSimpleDestructor, simple); FLAG(hasIrrelevantDestructor, irrelevant); FLAG(hasTrivialDestructor, trivial); FLAG(hasNonTrivialDestructor, non_trivial); FLAG(hasUserDeclaredDestructor, user_declared); FLAG(hasConstexprDestructor, constexpr); FLAG(needsImplicitDestructor, needs_implicit); FLAG(needsOverloadResolutionForDestructor, needs_overload_resolution); if (!D->needsOverloadResolutionForDestructor()) FLAG(defaultedDestructorIsDeleted, defaulted_is_deleted); }); }); for (const auto &I : D->bases()) { AddChild([=] { if (I.isVirtual()) OS << "virtual "; dumpAccessSpecifier(I.getAccessSpecifier()); dumpType(I.getType()); if (I.isPackExpansion()) OS << "..."; }); } } void TextNodeDumper::VisitFunctionTemplateDecl(const FunctionTemplateDecl *D) { dumpName(D); } void TextNodeDumper::VisitClassTemplateDecl(const ClassTemplateDecl *D) { dumpName(D); } void TextNodeDumper::VisitVarTemplateDecl(const VarTemplateDecl *D) { dumpName(D); } void TextNodeDumper::VisitBuiltinTemplateDecl(const BuiltinTemplateDecl *D) { dumpName(D); } void TextNodeDumper::VisitTemplateTypeParmDecl(const TemplateTypeParmDecl *D) { if (const auto *TC = D->getTypeConstraint()) { OS << " "; dumpBareDeclRef(TC->getNamedConcept()); if (TC->getNamedConcept() != TC->getFoundDecl()) { OS << " ("; dumpBareDeclRef(TC->getFoundDecl()); OS << ")"; } } else if (D->wasDeclaredWithTypename()) OS << " typename"; else OS << " class"; OS << " depth " << D->getDepth() << " index " << D->getIndex(); if (D->isParameterPack()) OS << " ..."; dumpName(D); } void TextNodeDumper::VisitNonTypeTemplateParmDecl( const NonTypeTemplateParmDecl *D) { dumpType(D->getType()); OS << " depth " << D->getDepth() << " index " << D->getIndex(); if (D->isParameterPack()) OS << " ..."; dumpName(D); } void TextNodeDumper::VisitTemplateTemplateParmDecl( const TemplateTemplateParmDecl *D) { OS << " depth " << D->getDepth() << " index " << D->getIndex(); if (D->isParameterPack()) OS << " ..."; dumpName(D); } void TextNodeDumper::VisitUsingDecl(const UsingDecl *D) { OS << ' '; if (D->getQualifier()) D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); OS << D->getDeclName(); dumpNestedNameSpecifier(D->getQualifier()); } void TextNodeDumper::VisitUsingEnumDecl(const UsingEnumDecl *D) { OS << ' '; dumpBareDeclRef(D->getEnumDecl()); } void TextNodeDumper::VisitUnresolvedUsingTypenameDecl( const UnresolvedUsingTypenameDecl *D) { OS << ' '; if (D->getQualifier()) D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); OS << D->getDeclName(); } void TextNodeDumper::VisitUnresolvedUsingValueDecl( const UnresolvedUsingValueDecl *D) { OS << ' '; if (D->getQualifier()) D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); OS << D->getDeclName(); dumpType(D->getType()); } void TextNodeDumper::VisitUsingShadowDecl(const UsingShadowDecl *D) { OS << ' '; dumpBareDeclRef(D->getTargetDecl()); } void TextNodeDumper::VisitConstructorUsingShadowDecl( const ConstructorUsingShadowDecl *D) { if (D->constructsVirtualBase()) OS << " virtual"; AddChild([=] { OS << "target "; dumpBareDeclRef(D->getTargetDecl()); }); AddChild([=] { OS << "nominated "; dumpBareDeclRef(D->getNominatedBaseClass()); OS << ' '; dumpBareDeclRef(D->getNominatedBaseClassShadowDecl()); }); AddChild([=] { OS << "constructed "; dumpBareDeclRef(D->getConstructedBaseClass()); OS << ' '; dumpBareDeclRef(D->getConstructedBaseClassShadowDecl()); }); } void TextNodeDumper::VisitLinkageSpecDecl(const LinkageSpecDecl *D) { switch (D->getLanguage()) { case LinkageSpecLanguageIDs::C: OS << " C"; break; case LinkageSpecLanguageIDs::CXX: OS << " C++"; break; } } void TextNodeDumper::VisitAccessSpecDecl(const AccessSpecDecl *D) { OS << ' '; dumpAccessSpecifier(D->getAccess()); } void TextNodeDumper::VisitFriendDecl(const FriendDecl *D) { if (TypeSourceInfo *T = D->getFriendType()) dumpType(T->getType()); } void TextNodeDumper::VisitObjCIvarDecl(const ObjCIvarDecl *D) { dumpName(D); dumpType(D->getType()); if (D->getSynthesize()) OS << " synthesize"; switch (D->getAccessControl()) { case ObjCIvarDecl::None: OS << " none"; break; case ObjCIvarDecl::Private: OS << " private"; break; case ObjCIvarDecl::Protected: OS << " protected"; break; case ObjCIvarDecl::Public: OS << " public"; break; case ObjCIvarDecl::Package: OS << " package"; break; } } void TextNodeDumper::VisitObjCMethodDecl(const ObjCMethodDecl *D) { if (D->isInstanceMethod()) OS << " -"; else OS << " +"; dumpName(D); dumpType(D->getReturnType()); if (D->isVariadic()) OS << " variadic"; } void TextNodeDumper::VisitObjCTypeParamDecl(const ObjCTypeParamDecl *D) { dumpName(D); switch (D->getVariance()) { case ObjCTypeParamVariance::Invariant: break; case ObjCTypeParamVariance::Covariant: OS << " covariant"; break; case ObjCTypeParamVariance::Contravariant: OS << " contravariant"; break; } if (D->hasExplicitBound()) OS << " bounded"; dumpType(D->getUnderlyingType()); } void TextNodeDumper::VisitObjCCategoryDecl(const ObjCCategoryDecl *D) { dumpName(D); dumpDeclRef(D->getClassInterface()); dumpDeclRef(D->getImplementation()); for (const auto *P : D->protocols()) dumpDeclRef(P); } void TextNodeDumper::VisitObjCCategoryImplDecl(const ObjCCategoryImplDecl *D) { dumpName(D); dumpDeclRef(D->getClassInterface()); dumpDeclRef(D->getCategoryDecl()); } void TextNodeDumper::VisitObjCProtocolDecl(const ObjCProtocolDecl *D) { dumpName(D); for (const auto *Child : D->protocols()) dumpDeclRef(Child); } void TextNodeDumper::VisitObjCInterfaceDecl(const ObjCInterfaceDecl *D) { dumpName(D); dumpDeclRef(D->getSuperClass(), "super"); dumpDeclRef(D->getImplementation()); for (const auto *Child : D->protocols()) dumpDeclRef(Child); } void TextNodeDumper::VisitObjCImplementationDecl( const ObjCImplementationDecl *D) { dumpName(D); dumpDeclRef(D->getSuperClass(), "super"); dumpDeclRef(D->getClassInterface()); } void TextNodeDumper::VisitObjCCompatibleAliasDecl( const ObjCCompatibleAliasDecl *D) { dumpName(D); dumpDeclRef(D->getClassInterface()); } void TextNodeDumper::VisitObjCPropertyDecl(const ObjCPropertyDecl *D) { dumpName(D); dumpType(D->getType()); if (D->getPropertyImplementation() == ObjCPropertyDecl::Required) OS << " required"; else if (D->getPropertyImplementation() == ObjCPropertyDecl::Optional) OS << " optional"; ObjCPropertyAttribute::Kind Attrs = D->getPropertyAttributes(); if (Attrs != ObjCPropertyAttribute::kind_noattr) { if (Attrs & ObjCPropertyAttribute::kind_readonly) OS << " readonly"; if (Attrs & ObjCPropertyAttribute::kind_assign) OS << " assign"; if (Attrs & ObjCPropertyAttribute::kind_readwrite) OS << " readwrite"; if (Attrs & ObjCPropertyAttribute::kind_retain) OS << " retain"; if (Attrs & ObjCPropertyAttribute::kind_copy) OS << " copy"; if (Attrs & ObjCPropertyAttribute::kind_nonatomic) OS << " nonatomic"; if (Attrs & ObjCPropertyAttribute::kind_atomic) OS << " atomic"; if (Attrs & ObjCPropertyAttribute::kind_weak) OS << " weak"; if (Attrs & ObjCPropertyAttribute::kind_strong) OS << " strong"; if (Attrs & ObjCPropertyAttribute::kind_unsafe_unretained) OS << " unsafe_unretained"; if (Attrs & ObjCPropertyAttribute::kind_class) OS << " class"; if (Attrs & ObjCPropertyAttribute::kind_direct) OS << " direct"; if (Attrs & ObjCPropertyAttribute::kind_getter) dumpDeclRef(D->getGetterMethodDecl(), "getter"); if (Attrs & ObjCPropertyAttribute::kind_setter) dumpDeclRef(D->getSetterMethodDecl(), "setter"); } } void TextNodeDumper::VisitObjCPropertyImplDecl(const ObjCPropertyImplDecl *D) { dumpName(D->getPropertyDecl()); if (D->getPropertyImplementation() == ObjCPropertyImplDecl::Synthesize) OS << " synthesize"; else OS << " dynamic"; dumpDeclRef(D->getPropertyDecl()); dumpDeclRef(D->getPropertyIvarDecl()); } void TextNodeDumper::VisitBlockDecl(const BlockDecl *D) { if (D->isVariadic()) OS << " variadic"; if (D->capturesCXXThis()) OS << " captures_this"; } void TextNodeDumper::VisitConceptDecl(const ConceptDecl *D) { dumpName(D); } void TextNodeDumper::VisitCompoundStmt(const CompoundStmt *S) { VisitStmt(S); if (S->hasStoredFPFeatures()) printFPOptions(S->getStoredFPFeatures()); } void TextNodeDumper::VisitHLSLBufferDecl(const HLSLBufferDecl *D) { if (D->isCBuffer()) OS << " cbuffer"; else OS << " tbuffer"; dumpName(D); }