#include "clang/AST/JSONNodeDumper.h" #include "clang/AST/Type.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/Specifiers.h" #include "clang/Lex/Lexer.h" #include "llvm/ADT/StringExtras.h" #include using namespace clang; void JSONNodeDumper::addPreviousDeclaration(const Decl *D) { switch (D->getKind()) { #define DECL(DERIVED, BASE) \ case Decl::DERIVED: \ return writePreviousDeclImpl(cast(D)); #define ABSTRACT_DECL(DECL) #include "clang/AST/DeclNodes.inc" #undef ABSTRACT_DECL #undef DECL } llvm_unreachable("Decl that isn't part of DeclNodes.inc!"); } void JSONNodeDumper::Visit(const Attr *A) { const char *AttrName = nullptr; switch (A->getKind()) { #define ATTR(X) \ case attr::X: \ AttrName = #X"Attr"; \ break; #include "clang/Basic/AttrList.inc" #undef ATTR } JOS.attribute("id", createPointerRepresentation(A)); JOS.attribute("kind", AttrName); JOS.attributeObject("range", [A, this] { writeSourceRange(A->getRange()); }); attributeOnlyIfTrue("inherited", A->isInherited()); attributeOnlyIfTrue("implicit", A->isImplicit()); // FIXME: it would be useful for us to output the spelling kind as well as // the actual spelling. This would allow us to distinguish between the // various attribute syntaxes, but we don't currently track that information // within the AST. //JOS.attribute("spelling", A->getSpelling()); InnerAttrVisitor::Visit(A); } void JSONNodeDumper::Visit(const Stmt *S) { if (!S) return; JOS.attribute("id", createPointerRepresentation(S)); JOS.attribute("kind", S->getStmtClassName()); JOS.attributeObject("range", [S, this] { writeSourceRange(S->getSourceRange()); }); if (const auto *E = dyn_cast(S)) { JOS.attribute("type", createQualType(E->getType())); const char *Category = nullptr; switch (E->getValueKind()) { case VK_LValue: Category = "lvalue"; break; case VK_XValue: Category = "xvalue"; break; case VK_PRValue: Category = "prvalue"; break; } JOS.attribute("valueCategory", Category); } InnerStmtVisitor::Visit(S); } void JSONNodeDumper::Visit(const Type *T) { JOS.attribute("id", createPointerRepresentation(T)); if (!T) return; JOS.attribute("kind", (llvm::Twine(T->getTypeClassName()) + "Type").str()); JOS.attribute("type", createQualType(QualType(T, 0), /*Desugar*/ false)); attributeOnlyIfTrue("containsErrors", T->containsErrors()); attributeOnlyIfTrue("isDependent", T->isDependentType()); attributeOnlyIfTrue("isInstantiationDependent", T->isInstantiationDependentType()); attributeOnlyIfTrue("isVariablyModified", T->isVariablyModifiedType()); attributeOnlyIfTrue("containsUnexpandedPack", T->containsUnexpandedParameterPack()); attributeOnlyIfTrue("isImported", T->isFromAST()); InnerTypeVisitor::Visit(T); } void JSONNodeDumper::Visit(QualType T) { JOS.attribute("id", createPointerRepresentation(T.getAsOpaquePtr())); JOS.attribute("kind", "QualType"); JOS.attribute("type", createQualType(T)); JOS.attribute("qualifiers", T.split().Quals.getAsString()); } void JSONNodeDumper::Visit(const Decl *D) { JOS.attribute("id", createPointerRepresentation(D)); if (!D) return; JOS.attribute("kind", (llvm::Twine(D->getDeclKindName()) + "Decl").str()); JOS.attributeObject("loc", [D, this] { writeSourceLocation(D->getLocation()); }); JOS.attributeObject("range", [D, this] { writeSourceRange(D->getSourceRange()); }); attributeOnlyIfTrue("isImplicit", D->isImplicit()); attributeOnlyIfTrue("isInvalid", D->isInvalidDecl()); if (D->isUsed()) JOS.attribute("isUsed", true); else if (D->isThisDeclarationReferenced()) JOS.attribute("isReferenced", true); if (const auto *ND = dyn_cast(D)) attributeOnlyIfTrue("isHidden", !ND->isUnconditionallyVisible()); if (D->getLexicalDeclContext() != D->getDeclContext()) { // Because of multiple inheritance, a DeclContext pointer does not produce // the same pointer representation as a Decl pointer that references the // same AST Node. const auto *ParentDeclContextDecl = dyn_cast(D->getDeclContext()); JOS.attribute("parentDeclContextId", createPointerRepresentation(ParentDeclContextDecl)); } addPreviousDeclaration(D); InnerDeclVisitor::Visit(D); } void JSONNodeDumper::Visit(const comments::Comment *C, const comments::FullComment *FC) { if (!C) return; JOS.attribute("id", createPointerRepresentation(C)); JOS.attribute("kind", C->getCommentKindName()); JOS.attributeObject("loc", [C, this] { writeSourceLocation(C->getLocation()); }); JOS.attributeObject("range", [C, this] { writeSourceRange(C->getSourceRange()); }); InnerCommentVisitor::visit(C, FC); } void JSONNodeDumper::Visit(const TemplateArgument &TA, SourceRange R, const Decl *From, StringRef Label) { JOS.attribute("kind", "TemplateArgument"); if (R.isValid()) JOS.attributeObject("range", [R, this] { writeSourceRange(R); }); if (From) JOS.attribute(Label.empty() ? "fromDecl" : Label, createBareDeclRef(From)); InnerTemplateArgVisitor::Visit(TA); } void JSONNodeDumper::Visit(const CXXCtorInitializer *Init) { JOS.attribute("kind", "CXXCtorInitializer"); if (Init->isAnyMemberInitializer()) JOS.attribute("anyInit", createBareDeclRef(Init->getAnyMember())); else if (Init->isBaseInitializer()) JOS.attribute("baseInit", createQualType(QualType(Init->getBaseClass(), 0))); else if (Init->isDelegatingInitializer()) JOS.attribute("delegatingInit", createQualType(Init->getTypeSourceInfo()->getType())); else llvm_unreachable("Unknown initializer type"); } void JSONNodeDumper::Visit(const OMPClause *C) {} void JSONNodeDumper::Visit(const BlockDecl::Capture &C) { JOS.attribute("kind", "Capture"); attributeOnlyIfTrue("byref", C.isByRef()); attributeOnlyIfTrue("nested", C.isNested()); if (C.getVariable()) JOS.attribute("var", createBareDeclRef(C.getVariable())); } void JSONNodeDumper::Visit(const GenericSelectionExpr::ConstAssociation &A) { JOS.attribute("associationKind", A.getTypeSourceInfo() ? "case" : "default"); attributeOnlyIfTrue("selected", A.isSelected()); } void JSONNodeDumper::Visit(const concepts::Requirement *R) { if (!R) return; switch (R->getKind()) { case concepts::Requirement::RK_Type: JOS.attribute("kind", "TypeRequirement"); break; case concepts::Requirement::RK_Simple: JOS.attribute("kind", "SimpleRequirement"); break; case concepts::Requirement::RK_Compound: JOS.attribute("kind", "CompoundRequirement"); break; case concepts::Requirement::RK_Nested: JOS.attribute("kind", "NestedRequirement"); break; } if (auto *ER = dyn_cast(R)) attributeOnlyIfTrue("noexcept", ER->hasNoexceptRequirement()); attributeOnlyIfTrue("isDependent", R->isDependent()); if (!R->isDependent()) JOS.attribute("satisfied", R->isSatisfied()); attributeOnlyIfTrue("containsUnexpandedPack", R->containsUnexpandedParameterPack()); } void JSONNodeDumper::Visit(const APValue &Value, QualType Ty) { std::string Str; llvm::raw_string_ostream OS(Str); Value.printPretty(OS, Ctx, Ty); JOS.attribute("value", OS.str()); } void JSONNodeDumper::writeIncludeStack(PresumedLoc Loc, bool JustFirst) { if (Loc.isInvalid()) return; JOS.attributeBegin("includedFrom"); JOS.objectBegin(); if (!JustFirst) { // Walk the stack recursively, then print out the presumed location. writeIncludeStack(SM.getPresumedLoc(Loc.getIncludeLoc())); } JOS.attribute("file", Loc.getFilename()); JOS.objectEnd(); JOS.attributeEnd(); } void JSONNodeDumper::writeBareSourceLocation(SourceLocation Loc, bool IsSpelling) { PresumedLoc Presumed = SM.getPresumedLoc(Loc); unsigned ActualLine = IsSpelling ? SM.getSpellingLineNumber(Loc) : SM.getExpansionLineNumber(Loc); StringRef ActualFile = SM.getBufferName(Loc); if (Presumed.isValid()) { JOS.attribute("offset", SM.getDecomposedLoc(Loc).second); if (LastLocFilename != ActualFile) { JOS.attribute("file", ActualFile); JOS.attribute("line", ActualLine); } else if (LastLocLine != ActualLine) JOS.attribute("line", ActualLine); StringRef PresumedFile = Presumed.getFilename(); if (PresumedFile != ActualFile && LastLocPresumedFilename != PresumedFile) JOS.attribute("presumedFile", PresumedFile); unsigned PresumedLine = Presumed.getLine(); if (ActualLine != PresumedLine && LastLocPresumedLine != PresumedLine) JOS.attribute("presumedLine", PresumedLine); JOS.attribute("col", Presumed.getColumn()); JOS.attribute("tokLen", Lexer::MeasureTokenLength(Loc, SM, Ctx.getLangOpts())); LastLocFilename = ActualFile; LastLocPresumedFilename = PresumedFile; LastLocPresumedLine = PresumedLine; LastLocLine = ActualLine; // Orthogonal to the file, line, and column de-duplication is whether the // given location was a result of an include. If so, print where the // include location came from. writeIncludeStack(SM.getPresumedLoc(Presumed.getIncludeLoc()), /*JustFirst*/ true); } } void JSONNodeDumper::writeSourceLocation(SourceLocation Loc) { SourceLocation Spelling = SM.getSpellingLoc(Loc); SourceLocation Expansion = SM.getExpansionLoc(Loc); if (Expansion != Spelling) { // If the expansion and the spelling are different, output subobjects // describing both locations. JOS.attributeObject("spellingLoc", [Spelling, this] { writeBareSourceLocation(Spelling, /*IsSpelling*/ true); }); JOS.attributeObject("expansionLoc", [Expansion, Loc, this] { writeBareSourceLocation(Expansion, /*IsSpelling*/ false); // If there is a macro expansion, add extra information if the interesting // bit is the macro arg expansion. if (SM.isMacroArgExpansion(Loc)) JOS.attribute("isMacroArgExpansion", true); }); } else writeBareSourceLocation(Spelling, /*IsSpelling*/ true); } void JSONNodeDumper::writeSourceRange(SourceRange R) { JOS.attributeObject("begin", [R, this] { writeSourceLocation(R.getBegin()); }); JOS.attributeObject("end", [R, this] { writeSourceLocation(R.getEnd()); }); } std::string JSONNodeDumper::createPointerRepresentation(const void *Ptr) { // Because JSON stores integer values as signed 64-bit integers, trying to // represent them as such makes for very ugly pointer values in the resulting // output. Instead, we convert the value to hex and treat it as a string. return "0x" + llvm::utohexstr(reinterpret_cast(Ptr), true); } llvm::json::Object JSONNodeDumper::createQualType(QualType QT, bool Desugar) { SplitQualType SQT = QT.split(); llvm::json::Object Ret{{"qualType", QualType::getAsString(SQT, PrintPolicy)}}; if (Desugar && !QT.isNull()) { SplitQualType DSQT = QT.getSplitDesugaredType(); if (DSQT != SQT) Ret["desugaredQualType"] = QualType::getAsString(DSQT, PrintPolicy); if (const auto *TT = QT->getAs()) Ret["typeAliasDeclId"] = createPointerRepresentation(TT->getDecl()); } return Ret; } void JSONNodeDumper::writeBareDeclRef(const Decl *D) { JOS.attribute("id", createPointerRepresentation(D)); if (!D) return; JOS.attribute("kind", (llvm::Twine(D->getDeclKindName()) + "Decl").str()); if (const auto *ND = dyn_cast(D)) JOS.attribute("name", ND->getDeclName().getAsString()); if (const auto *VD = dyn_cast(D)) JOS.attribute("type", createQualType(VD->getType())); } llvm::json::Object JSONNodeDumper::createBareDeclRef(const Decl *D) { llvm::json::Object Ret{{"id", createPointerRepresentation(D)}}; if (!D) return Ret; Ret["kind"] = (llvm::Twine(D->getDeclKindName()) + "Decl").str(); if (const auto *ND = dyn_cast(D)) Ret["name"] = ND->getDeclName().getAsString(); if (const auto *VD = dyn_cast(D)) Ret["type"] = createQualType(VD->getType()); return Ret; } llvm::json::Array JSONNodeDumper::createCastPath(const CastExpr *C) { llvm::json::Array Ret; if (C->path_empty()) return Ret; for (auto I = C->path_begin(), E = C->path_end(); I != E; ++I) { const CXXBaseSpecifier *Base = *I; const auto *RD = cast(Base->getType()->castAs()->getDecl()); llvm::json::Object Val{{"name", RD->getName()}}; if (Base->isVirtual()) Val["isVirtual"] = true; Ret.push_back(std::move(Val)); } return Ret; } #define FIELD2(Name, Flag) if (RD->Flag()) Ret[Name] = true #define FIELD1(Flag) FIELD2(#Flag, Flag) static llvm::json::Object createDefaultConstructorDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("exists", hasDefaultConstructor); FIELD2("trivial", hasTrivialDefaultConstructor); FIELD2("nonTrivial", hasNonTrivialDefaultConstructor); FIELD2("userProvided", hasUserProvidedDefaultConstructor); FIELD2("isConstexpr", hasConstexprDefaultConstructor); FIELD2("needsImplicit", needsImplicitDefaultConstructor); FIELD2("defaultedIsConstexpr", defaultedDefaultConstructorIsConstexpr); return Ret; } static llvm::json::Object createCopyConstructorDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("simple", hasSimpleCopyConstructor); FIELD2("trivial", hasTrivialCopyConstructor); FIELD2("nonTrivial", hasNonTrivialCopyConstructor); FIELD2("userDeclared", hasUserDeclaredCopyConstructor); FIELD2("hasConstParam", hasCopyConstructorWithConstParam); FIELD2("implicitHasConstParam", implicitCopyConstructorHasConstParam); FIELD2("needsImplicit", needsImplicitCopyConstructor); FIELD2("needsOverloadResolution", needsOverloadResolutionForCopyConstructor); if (!RD->needsOverloadResolutionForCopyConstructor()) FIELD2("defaultedIsDeleted", defaultedCopyConstructorIsDeleted); return Ret; } static llvm::json::Object createMoveConstructorDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("exists", hasMoveConstructor); FIELD2("simple", hasSimpleMoveConstructor); FIELD2("trivial", hasTrivialMoveConstructor); FIELD2("nonTrivial", hasNonTrivialMoveConstructor); FIELD2("userDeclared", hasUserDeclaredMoveConstructor); FIELD2("needsImplicit", needsImplicitMoveConstructor); FIELD2("needsOverloadResolution", needsOverloadResolutionForMoveConstructor); if (!RD->needsOverloadResolutionForMoveConstructor()) FIELD2("defaultedIsDeleted", defaultedMoveConstructorIsDeleted); return Ret; } static llvm::json::Object createCopyAssignmentDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("simple", hasSimpleCopyAssignment); FIELD2("trivial", hasTrivialCopyAssignment); FIELD2("nonTrivial", hasNonTrivialCopyAssignment); FIELD2("hasConstParam", hasCopyAssignmentWithConstParam); FIELD2("implicitHasConstParam", implicitCopyAssignmentHasConstParam); FIELD2("userDeclared", hasUserDeclaredCopyAssignment); FIELD2("needsImplicit", needsImplicitCopyAssignment); FIELD2("needsOverloadResolution", needsOverloadResolutionForCopyAssignment); return Ret; } static llvm::json::Object createMoveAssignmentDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("exists", hasMoveAssignment); FIELD2("simple", hasSimpleMoveAssignment); FIELD2("trivial", hasTrivialMoveAssignment); FIELD2("nonTrivial", hasNonTrivialMoveAssignment); FIELD2("userDeclared", hasUserDeclaredMoveAssignment); FIELD2("needsImplicit", needsImplicitMoveAssignment); FIELD2("needsOverloadResolution", needsOverloadResolutionForMoveAssignment); return Ret; } static llvm::json::Object createDestructorDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; FIELD2("simple", hasSimpleDestructor); FIELD2("irrelevant", hasIrrelevantDestructor); FIELD2("trivial", hasTrivialDestructor); FIELD2("nonTrivial", hasNonTrivialDestructor); FIELD2("userDeclared", hasUserDeclaredDestructor); FIELD2("needsImplicit", needsImplicitDestructor); FIELD2("needsOverloadResolution", needsOverloadResolutionForDestructor); if (!RD->needsOverloadResolutionForDestructor()) FIELD2("defaultedIsDeleted", defaultedDestructorIsDeleted); return Ret; } llvm::json::Object JSONNodeDumper::createCXXRecordDefinitionData(const CXXRecordDecl *RD) { llvm::json::Object Ret; // This data is common to all C++ classes. FIELD1(isGenericLambda); FIELD1(isLambda); FIELD1(isEmpty); FIELD1(isAggregate); FIELD1(isStandardLayout); FIELD1(isTriviallyCopyable); FIELD1(isPOD); FIELD1(isTrivial); FIELD1(isPolymorphic); FIELD1(isAbstract); FIELD1(isLiteral); FIELD1(canPassInRegisters); FIELD1(hasUserDeclaredConstructor); FIELD1(hasConstexprNonCopyMoveConstructor); FIELD1(hasMutableFields); FIELD1(hasVariantMembers); FIELD2("canConstDefaultInit", allowConstDefaultInit); Ret["defaultCtor"] = createDefaultConstructorDefinitionData(RD); Ret["copyCtor"] = createCopyConstructorDefinitionData(RD); Ret["moveCtor"] = createMoveConstructorDefinitionData(RD); Ret["copyAssign"] = createCopyAssignmentDefinitionData(RD); Ret["moveAssign"] = createMoveAssignmentDefinitionData(RD); Ret["dtor"] = createDestructorDefinitionData(RD); return Ret; } #undef FIELD1 #undef FIELD2 std::string JSONNodeDumper::createAccessSpecifier(AccessSpecifier AS) { const auto AccessSpelling = getAccessSpelling(AS); if (AccessSpelling.empty()) return "none"; return AccessSpelling.str(); } llvm::json::Object JSONNodeDumper::createCXXBaseSpecifier(const CXXBaseSpecifier &BS) { llvm::json::Object Ret; Ret["type"] = createQualType(BS.getType()); Ret["access"] = createAccessSpecifier(BS.getAccessSpecifier()); Ret["writtenAccess"] = createAccessSpecifier(BS.getAccessSpecifierAsWritten()); if (BS.isVirtual()) Ret["isVirtual"] = true; if (BS.isPackExpansion()) Ret["isPackExpansion"] = true; return Ret; } void JSONNodeDumper::VisitTypedefType(const TypedefType *TT) { JOS.attribute("decl", createBareDeclRef(TT->getDecl())); if (!TT->typeMatchesDecl()) JOS.attribute("type", createQualType(TT->desugar())); } void JSONNodeDumper::VisitUsingType(const UsingType *TT) { JOS.attribute("decl", createBareDeclRef(TT->getFoundDecl())); if (!TT->typeMatchesDecl()) JOS.attribute("type", createQualType(TT->desugar())); } void JSONNodeDumper::VisitFunctionType(const FunctionType *T) { FunctionType::ExtInfo E = T->getExtInfo(); attributeOnlyIfTrue("noreturn", E.getNoReturn()); attributeOnlyIfTrue("producesResult", E.getProducesResult()); if (E.getHasRegParm()) JOS.attribute("regParm", E.getRegParm()); JOS.attribute("cc", FunctionType::getNameForCallConv(E.getCC())); } void JSONNodeDumper::VisitFunctionProtoType(const FunctionProtoType *T) { FunctionProtoType::ExtProtoInfo E = T->getExtProtoInfo(); attributeOnlyIfTrue("trailingReturn", E.HasTrailingReturn); attributeOnlyIfTrue("const", T->isConst()); attributeOnlyIfTrue("volatile", T->isVolatile()); attributeOnlyIfTrue("restrict", T->isRestrict()); attributeOnlyIfTrue("variadic", E.Variadic); switch (E.RefQualifier) { case RQ_LValue: JOS.attribute("refQualifier", "&"); break; case RQ_RValue: JOS.attribute("refQualifier", "&&"); break; case RQ_None: break; } switch (E.ExceptionSpec.Type) { case EST_DynamicNone: case EST_Dynamic: { JOS.attribute("exceptionSpec", "throw"); llvm::json::Array Types; for (QualType QT : E.ExceptionSpec.Exceptions) Types.push_back(createQualType(QT)); JOS.attribute("exceptionTypes", std::move(Types)); } break; case EST_MSAny: JOS.attribute("exceptionSpec", "throw"); JOS.attribute("throwsAny", true); break; case EST_BasicNoexcept: JOS.attribute("exceptionSpec", "noexcept"); break; case EST_NoexceptTrue: case EST_NoexceptFalse: JOS.attribute("exceptionSpec", "noexcept"); JOS.attribute("conditionEvaluatesTo", E.ExceptionSpec.Type == EST_NoexceptTrue); //JOS.attributeWithCall("exceptionSpecExpr", // [this, E]() { Visit(E.ExceptionSpec.NoexceptExpr); }); break; case EST_NoThrow: JOS.attribute("exceptionSpec", "nothrow"); break; // FIXME: I cannot find a way to trigger these cases while dumping the AST. I // suspect you can only run into them when executing an AST dump from within // the debugger, which is not a use case we worry about for the JSON dumping // feature. case EST_DependentNoexcept: case EST_Unevaluated: case EST_Uninstantiated: case EST_Unparsed: case EST_None: break; } VisitFunctionType(T); } void JSONNodeDumper::VisitRValueReferenceType(const ReferenceType *RT) { attributeOnlyIfTrue("spelledAsLValue", RT->isSpelledAsLValue()); } void JSONNodeDumper::VisitArrayType(const ArrayType *AT) { switch (AT->getSizeModifier()) { case ArrayType::Star: JOS.attribute("sizeModifier", "*"); break; case ArrayType::Static: JOS.attribute("sizeModifier", "static"); break; case ArrayType::Normal: break; } std::string Str = AT->getIndexTypeQualifiers().getAsString(); if (!Str.empty()) JOS.attribute("indexTypeQualifiers", Str); } void JSONNodeDumper::VisitConstantArrayType(const ConstantArrayType *CAT) { // FIXME: this should use ZExt instead of SExt, but JSON doesn't allow a // narrowing conversion to int64_t so it cannot be expressed. JOS.attribute("size", CAT->getSize().getSExtValue()); VisitArrayType(CAT); } void JSONNodeDumper::VisitDependentSizedExtVectorType( const DependentSizedExtVectorType *VT) { JOS.attributeObject( "attrLoc", [VT, this] { writeSourceLocation(VT->getAttributeLoc()); }); } void JSONNodeDumper::VisitVectorType(const VectorType *VT) { JOS.attribute("numElements", VT->getNumElements()); switch (VT->getVectorKind()) { case VectorType::GenericVector: break; case VectorType::AltiVecVector: JOS.attribute("vectorKind", "altivec"); break; case VectorType::AltiVecPixel: JOS.attribute("vectorKind", "altivec pixel"); break; case VectorType::AltiVecBool: JOS.attribute("vectorKind", "altivec bool"); break; case VectorType::NeonVector: JOS.attribute("vectorKind", "neon"); break; case VectorType::NeonPolyVector: JOS.attribute("vectorKind", "neon poly"); break; case VectorType::SveFixedLengthDataVector: JOS.attribute("vectorKind", "fixed-length sve data vector"); break; case VectorType::SveFixedLengthPredicateVector: JOS.attribute("vectorKind", "fixed-length sve predicate vector"); break; case VectorType::RVVFixedLengthDataVector: JOS.attribute("vectorKind", "fixed-length rvv data vector"); break; } } void JSONNodeDumper::VisitUnresolvedUsingType(const UnresolvedUsingType *UUT) { JOS.attribute("decl", createBareDeclRef(UUT->getDecl())); } void JSONNodeDumper::VisitUnaryTransformType(const UnaryTransformType *UTT) { switch (UTT->getUTTKind()) { #define TRANSFORM_TYPE_TRAIT_DEF(Enum, Trait) \ case UnaryTransformType::Enum: \ JOS.attribute("transformKind", #Trait); \ break; #include "clang/Basic/TransformTypeTraits.def" } } void JSONNodeDumper::VisitTagType(const TagType *TT) { JOS.attribute("decl", createBareDeclRef(TT->getDecl())); } void JSONNodeDumper::VisitTemplateTypeParmType( const TemplateTypeParmType *TTPT) { JOS.attribute("depth", TTPT->getDepth()); JOS.attribute("index", TTPT->getIndex()); attributeOnlyIfTrue("isPack", TTPT->isParameterPack()); JOS.attribute("decl", createBareDeclRef(TTPT->getDecl())); } void JSONNodeDumper::VisitSubstTemplateTypeParmType( const SubstTemplateTypeParmType *STTPT) { JOS.attribute("index", STTPT->getIndex()); if (auto PackIndex = STTPT->getPackIndex()) JOS.attribute("pack_index", *PackIndex); } void JSONNodeDumper::VisitSubstTemplateTypeParmPackType( const SubstTemplateTypeParmPackType *T) { JOS.attribute("index", T->getIndex()); } void JSONNodeDumper::VisitAutoType(const AutoType *AT) { JOS.attribute("undeduced", !AT->isDeduced()); switch (AT->getKeyword()) { case AutoTypeKeyword::Auto: JOS.attribute("typeKeyword", "auto"); break; case AutoTypeKeyword::DecltypeAuto: JOS.attribute("typeKeyword", "decltype(auto)"); break; case AutoTypeKeyword::GNUAutoType: JOS.attribute("typeKeyword", "__auto_type"); break; } } void JSONNodeDumper::VisitTemplateSpecializationType( const TemplateSpecializationType *TST) { attributeOnlyIfTrue("isAlias", TST->isTypeAlias()); std::string Str; llvm::raw_string_ostream OS(Str); TST->getTemplateName().print(OS, PrintPolicy); JOS.attribute("templateName", OS.str()); } void JSONNodeDumper::VisitInjectedClassNameType( const InjectedClassNameType *ICNT) { JOS.attribute("decl", createBareDeclRef(ICNT->getDecl())); } void JSONNodeDumper::VisitObjCInterfaceType(const ObjCInterfaceType *OIT) { JOS.attribute("decl", createBareDeclRef(OIT->getDecl())); } void JSONNodeDumper::VisitPackExpansionType(const PackExpansionType *PET) { if (std::optional N = PET->getNumExpansions()) JOS.attribute("numExpansions", *N); } void JSONNodeDumper::VisitElaboratedType(const ElaboratedType *ET) { if (const NestedNameSpecifier *NNS = ET->getQualifier()) { std::string Str; llvm::raw_string_ostream OS(Str); NNS->print(OS, PrintPolicy, /*ResolveTemplateArgs*/ true); JOS.attribute("qualifier", OS.str()); } if (const TagDecl *TD = ET->getOwnedTagDecl()) JOS.attribute("ownedTagDecl", createBareDeclRef(TD)); } void JSONNodeDumper::VisitMacroQualifiedType(const MacroQualifiedType *MQT) { JOS.attribute("macroName", MQT->getMacroIdentifier()->getName()); } void JSONNodeDumper::VisitMemberPointerType(const MemberPointerType *MPT) { attributeOnlyIfTrue("isData", MPT->isMemberDataPointer()); attributeOnlyIfTrue("isFunction", MPT->isMemberFunctionPointer()); } void JSONNodeDumper::VisitNamedDecl(const NamedDecl *ND) { if (ND && ND->getDeclName()) { JOS.attribute("name", ND->getNameAsString()); // FIXME: There are likely other contexts in which it makes no sense to ask // for a mangled name. if (isa(ND->getDeclContext())) return; // If the declaration is dependent or is in a dependent context, then the // mangling is unlikely to be meaningful (and in some cases may cause // "don't know how to mangle this" assertion failures. if (ND->isTemplated()) return; // Mangled names are not meaningful for locals, and may not be well-defined // in the case of VLAs. auto *VD = dyn_cast(ND); if (VD && VD->hasLocalStorage()) return; std::string MangledName = ASTNameGen.getName(ND); if (!MangledName.empty()) JOS.attribute("mangledName", MangledName); } } void JSONNodeDumper::VisitTypedefDecl(const TypedefDecl *TD) { VisitNamedDecl(TD); JOS.attribute("type", createQualType(TD->getUnderlyingType())); } void JSONNodeDumper::VisitTypeAliasDecl(const TypeAliasDecl *TAD) { VisitNamedDecl(TAD); JOS.attribute("type", createQualType(TAD->getUnderlyingType())); } void JSONNodeDumper::VisitNamespaceDecl(const NamespaceDecl *ND) { VisitNamedDecl(ND); attributeOnlyIfTrue("isInline", ND->isInline()); attributeOnlyIfTrue("isNested", ND->isNested()); if (!ND->isOriginalNamespace()) JOS.attribute("originalNamespace", createBareDeclRef(ND->getOriginalNamespace())); } void JSONNodeDumper::VisitUsingDirectiveDecl(const UsingDirectiveDecl *UDD) { JOS.attribute("nominatedNamespace", createBareDeclRef(UDD->getNominatedNamespace())); } void JSONNodeDumper::VisitNamespaceAliasDecl(const NamespaceAliasDecl *NAD) { VisitNamedDecl(NAD); JOS.attribute("aliasedNamespace", createBareDeclRef(NAD->getAliasedNamespace())); } void JSONNodeDumper::VisitUsingDecl(const UsingDecl *UD) { std::string Name; if (const NestedNameSpecifier *NNS = UD->getQualifier()) { llvm::raw_string_ostream SOS(Name); NNS->print(SOS, UD->getASTContext().getPrintingPolicy()); } Name += UD->getNameAsString(); JOS.attribute("name", Name); } void JSONNodeDumper::VisitUsingEnumDecl(const UsingEnumDecl *UED) { JOS.attribute("target", createBareDeclRef(UED->getEnumDecl())); } void JSONNodeDumper::VisitUsingShadowDecl(const UsingShadowDecl *USD) { JOS.attribute("target", createBareDeclRef(USD->getTargetDecl())); } void JSONNodeDumper::VisitVarDecl(const VarDecl *VD) { VisitNamedDecl(VD); JOS.attribute("type", createQualType(VD->getType())); StorageClass SC = VD->getStorageClass(); if (SC != SC_None) JOS.attribute("storageClass", VarDecl::getStorageClassSpecifierString(SC)); switch (VD->getTLSKind()) { case VarDecl::TLS_Dynamic: JOS.attribute("tls", "dynamic"); break; case VarDecl::TLS_Static: JOS.attribute("tls", "static"); break; case VarDecl::TLS_None: break; } attributeOnlyIfTrue("nrvo", VD->isNRVOVariable()); attributeOnlyIfTrue("inline", VD->isInline()); attributeOnlyIfTrue("constexpr", VD->isConstexpr()); attributeOnlyIfTrue("modulePrivate", VD->isModulePrivate()); if (VD->hasInit()) { switch (VD->getInitStyle()) { case VarDecl::CInit: JOS.attribute("init", "c"); break; case VarDecl::CallInit: JOS.attribute("init", "call"); break; case VarDecl::ListInit: JOS.attribute("init", "list"); break; case VarDecl::ParenListInit: JOS.attribute("init", "paren-list"); break; } } attributeOnlyIfTrue("isParameterPack", VD->isParameterPack()); } void JSONNodeDumper::VisitFieldDecl(const FieldDecl *FD) { VisitNamedDecl(FD); JOS.attribute("type", createQualType(FD->getType())); attributeOnlyIfTrue("mutable", FD->isMutable()); attributeOnlyIfTrue("modulePrivate", FD->isModulePrivate()); attributeOnlyIfTrue("isBitfield", FD->isBitField()); attributeOnlyIfTrue("hasInClassInitializer", FD->hasInClassInitializer()); } void JSONNodeDumper::VisitFunctionDecl(const FunctionDecl *FD) { VisitNamedDecl(FD); JOS.attribute("type", createQualType(FD->getType())); StorageClass SC = FD->getStorageClass(); if (SC != SC_None) JOS.attribute("storageClass", VarDecl::getStorageClassSpecifierString(SC)); attributeOnlyIfTrue("inline", FD->isInlineSpecified()); attributeOnlyIfTrue("virtual", FD->isVirtualAsWritten()); attributeOnlyIfTrue("pure", FD->isPure()); attributeOnlyIfTrue("explicitlyDeleted", FD->isDeletedAsWritten()); attributeOnlyIfTrue("constexpr", FD->isConstexpr()); attributeOnlyIfTrue("variadic", FD->isVariadic()); attributeOnlyIfTrue("immediate", FD->isImmediateFunction()); if (FD->isDefaulted()) JOS.attribute("explicitlyDefaulted", FD->isDeleted() ? "deleted" : "default"); } void JSONNodeDumper::VisitEnumDecl(const EnumDecl *ED) { VisitNamedDecl(ED); if (ED->isFixed()) JOS.attribute("fixedUnderlyingType", createQualType(ED->getIntegerType())); if (ED->isScoped()) JOS.attribute("scopedEnumTag", ED->isScopedUsingClassTag() ? "class" : "struct"); } void JSONNodeDumper::VisitEnumConstantDecl(const EnumConstantDecl *ECD) { VisitNamedDecl(ECD); JOS.attribute("type", createQualType(ECD->getType())); } void JSONNodeDumper::VisitRecordDecl(const RecordDecl *RD) { VisitNamedDecl(RD); JOS.attribute("tagUsed", RD->getKindName()); attributeOnlyIfTrue("completeDefinition", RD->isCompleteDefinition()); } void JSONNodeDumper::VisitCXXRecordDecl(const CXXRecordDecl *RD) { VisitRecordDecl(RD); // All other information requires a complete definition. if (!RD->isCompleteDefinition()) return; JOS.attribute("definitionData", createCXXRecordDefinitionData(RD)); if (RD->getNumBases()) { JOS.attributeArray("bases", [this, RD] { for (const auto &Spec : RD->bases()) JOS.value(createCXXBaseSpecifier(Spec)); }); } } void JSONNodeDumper::VisitHLSLBufferDecl(const HLSLBufferDecl *D) { VisitNamedDecl(D); JOS.attribute("bufferKind", D->isCBuffer() ? "cbuffer" : "tbuffer"); } void JSONNodeDumper::VisitTemplateTypeParmDecl(const TemplateTypeParmDecl *D) { VisitNamedDecl(D); JOS.attribute("tagUsed", D->wasDeclaredWithTypename() ? "typename" : "class"); JOS.attribute("depth", D->getDepth()); JOS.attribute("index", D->getIndex()); attributeOnlyIfTrue("isParameterPack", D->isParameterPack()); if (D->hasDefaultArgument()) JOS.attributeObject("defaultArg", [=] { Visit(D->getDefaultArgument(), SourceRange(), D->getDefaultArgStorage().getInheritedFrom(), D->defaultArgumentWasInherited() ? "inherited from" : "previous"); }); } void JSONNodeDumper::VisitNonTypeTemplateParmDecl( const NonTypeTemplateParmDecl *D) { VisitNamedDecl(D); JOS.attribute("type", createQualType(D->getType())); JOS.attribute("depth", D->getDepth()); JOS.attribute("index", D->getIndex()); attributeOnlyIfTrue("isParameterPack", D->isParameterPack()); if (D->hasDefaultArgument()) JOS.attributeObject("defaultArg", [=] { Visit(D->getDefaultArgument(), SourceRange(), D->getDefaultArgStorage().getInheritedFrom(), D->defaultArgumentWasInherited() ? "inherited from" : "previous"); }); } void JSONNodeDumper::VisitTemplateTemplateParmDecl( const TemplateTemplateParmDecl *D) { VisitNamedDecl(D); JOS.attribute("depth", D->getDepth()); JOS.attribute("index", D->getIndex()); attributeOnlyIfTrue("isParameterPack", D->isParameterPack()); if (D->hasDefaultArgument()) JOS.attributeObject("defaultArg", [=] { const auto *InheritedFrom = D->getDefaultArgStorage().getInheritedFrom(); Visit(D->getDefaultArgument().getArgument(), InheritedFrom ? InheritedFrom->getSourceRange() : SourceLocation{}, InheritedFrom, D->defaultArgumentWasInherited() ? "inherited from" : "previous"); }); } void JSONNodeDumper::VisitLinkageSpecDecl(const LinkageSpecDecl *LSD) { StringRef Lang; switch (LSD->getLanguage()) { case LinkageSpecDecl::lang_c: Lang = "C"; break; case LinkageSpecDecl::lang_cxx: Lang = "C++"; break; } JOS.attribute("language", Lang); attributeOnlyIfTrue("hasBraces", LSD->hasBraces()); } void JSONNodeDumper::VisitAccessSpecDecl(const AccessSpecDecl *ASD) { JOS.attribute("access", createAccessSpecifier(ASD->getAccess())); } void JSONNodeDumper::VisitFriendDecl(const FriendDecl *FD) { if (const TypeSourceInfo *T = FD->getFriendType()) JOS.attribute("type", createQualType(T->getType())); } void JSONNodeDumper::VisitObjCIvarDecl(const ObjCIvarDecl *D) { VisitNamedDecl(D); JOS.attribute("type", createQualType(D->getType())); attributeOnlyIfTrue("synthesized", D->getSynthesize()); switch (D->getAccessControl()) { case ObjCIvarDecl::None: JOS.attribute("access", "none"); break; case ObjCIvarDecl::Private: JOS.attribute("access", "private"); break; case ObjCIvarDecl::Protected: JOS.attribute("access", "protected"); break; case ObjCIvarDecl::Public: JOS.attribute("access", "public"); break; case ObjCIvarDecl::Package: JOS.attribute("access", "package"); break; } } void JSONNodeDumper::VisitObjCMethodDecl(const ObjCMethodDecl *D) { VisitNamedDecl(D); JOS.attribute("returnType", createQualType(D->getReturnType())); JOS.attribute("instance", D->isInstanceMethod()); attributeOnlyIfTrue("variadic", D->isVariadic()); } void JSONNodeDumper::VisitObjCTypeParamDecl(const ObjCTypeParamDecl *D) { VisitNamedDecl(D); JOS.attribute("type", createQualType(D->getUnderlyingType())); attributeOnlyIfTrue("bounded", D->hasExplicitBound()); switch (D->getVariance()) { case ObjCTypeParamVariance::Invariant: break; case ObjCTypeParamVariance::Covariant: JOS.attribute("variance", "covariant"); break; case ObjCTypeParamVariance::Contravariant: JOS.attribute("variance", "contravariant"); break; } } void JSONNodeDumper::VisitObjCCategoryDecl(const ObjCCategoryDecl *D) { VisitNamedDecl(D); JOS.attribute("interface", createBareDeclRef(D->getClassInterface())); JOS.attribute("implementation", createBareDeclRef(D->getImplementation())); llvm::json::Array Protocols; for (const auto* P : D->protocols()) Protocols.push_back(createBareDeclRef(P)); if (!Protocols.empty()) JOS.attribute("protocols", std::move(Protocols)); } void JSONNodeDumper::VisitObjCCategoryImplDecl(const ObjCCategoryImplDecl *D) { VisitNamedDecl(D); JOS.attribute("interface", createBareDeclRef(D->getClassInterface())); JOS.attribute("categoryDecl", createBareDeclRef(D->getCategoryDecl())); } void JSONNodeDumper::VisitObjCProtocolDecl(const ObjCProtocolDecl *D) { VisitNamedDecl(D); llvm::json::Array Protocols; for (const auto *P : D->protocols()) Protocols.push_back(createBareDeclRef(P)); if (!Protocols.empty()) JOS.attribute("protocols", std::move(Protocols)); } void JSONNodeDumper::VisitObjCInterfaceDecl(const ObjCInterfaceDecl *D) { VisitNamedDecl(D); JOS.attribute("super", createBareDeclRef(D->getSuperClass())); JOS.attribute("implementation", createBareDeclRef(D->getImplementation())); llvm::json::Array Protocols; for (const auto* P : D->protocols()) Protocols.push_back(createBareDeclRef(P)); if (!Protocols.empty()) JOS.attribute("protocols", std::move(Protocols)); } void JSONNodeDumper::VisitObjCImplementationDecl( const ObjCImplementationDecl *D) { VisitNamedDecl(D); JOS.attribute("super", createBareDeclRef(D->getSuperClass())); JOS.attribute("interface", createBareDeclRef(D->getClassInterface())); } void JSONNodeDumper::VisitObjCCompatibleAliasDecl( const ObjCCompatibleAliasDecl *D) { VisitNamedDecl(D); JOS.attribute("interface", createBareDeclRef(D->getClassInterface())); } void JSONNodeDumper::VisitObjCPropertyDecl(const ObjCPropertyDecl *D) { VisitNamedDecl(D); JOS.attribute("type", createQualType(D->getType())); switch (D->getPropertyImplementation()) { case ObjCPropertyDecl::None: break; case ObjCPropertyDecl::Required: JOS.attribute("control", "required"); break; case ObjCPropertyDecl::Optional: JOS.attribute("control", "optional"); break; } ObjCPropertyAttribute::Kind Attrs = D->getPropertyAttributes(); if (Attrs != ObjCPropertyAttribute::kind_noattr) { if (Attrs & ObjCPropertyAttribute::kind_getter) JOS.attribute("getter", createBareDeclRef(D->getGetterMethodDecl())); if (Attrs & ObjCPropertyAttribute::kind_setter) JOS.attribute("setter", createBareDeclRef(D->getSetterMethodDecl())); attributeOnlyIfTrue("readonly", Attrs & ObjCPropertyAttribute::kind_readonly); attributeOnlyIfTrue("assign", Attrs & ObjCPropertyAttribute::kind_assign); attributeOnlyIfTrue("readwrite", Attrs & ObjCPropertyAttribute::kind_readwrite); attributeOnlyIfTrue("retain", Attrs & ObjCPropertyAttribute::kind_retain); attributeOnlyIfTrue("copy", Attrs & ObjCPropertyAttribute::kind_copy); attributeOnlyIfTrue("nonatomic", Attrs & ObjCPropertyAttribute::kind_nonatomic); attributeOnlyIfTrue("atomic", Attrs & ObjCPropertyAttribute::kind_atomic); attributeOnlyIfTrue("weak", Attrs & ObjCPropertyAttribute::kind_weak); attributeOnlyIfTrue("strong", Attrs & ObjCPropertyAttribute::kind_strong); attributeOnlyIfTrue("unsafe_unretained", Attrs & ObjCPropertyAttribute::kind_unsafe_unretained); attributeOnlyIfTrue("class", Attrs & ObjCPropertyAttribute::kind_class); attributeOnlyIfTrue("direct", Attrs & ObjCPropertyAttribute::kind_direct); attributeOnlyIfTrue("nullability", Attrs & ObjCPropertyAttribute::kind_nullability); attributeOnlyIfTrue("null_resettable", Attrs & ObjCPropertyAttribute::kind_null_resettable); } } void JSONNodeDumper::VisitObjCPropertyImplDecl(const ObjCPropertyImplDecl *D) { VisitNamedDecl(D->getPropertyDecl()); JOS.attribute("implKind", D->getPropertyImplementation() == ObjCPropertyImplDecl::Synthesize ? "synthesize" : "dynamic"); JOS.attribute("propertyDecl", createBareDeclRef(D->getPropertyDecl())); JOS.attribute("ivarDecl", createBareDeclRef(D->getPropertyIvarDecl())); } void JSONNodeDumper::VisitBlockDecl(const BlockDecl *D) { attributeOnlyIfTrue("variadic", D->isVariadic()); attributeOnlyIfTrue("capturesThis", D->capturesCXXThis()); } void JSONNodeDumper::VisitObjCEncodeExpr(const ObjCEncodeExpr *OEE) { JOS.attribute("encodedType", createQualType(OEE->getEncodedType())); } void JSONNodeDumper::VisitObjCMessageExpr(const ObjCMessageExpr *OME) { std::string Str; llvm::raw_string_ostream OS(Str); OME->getSelector().print(OS); JOS.attribute("selector", OS.str()); switch (OME->getReceiverKind()) { case ObjCMessageExpr::Instance: JOS.attribute("receiverKind", "instance"); break; case ObjCMessageExpr::Class: JOS.attribute("receiverKind", "class"); JOS.attribute("classType", createQualType(OME->getClassReceiver())); break; case ObjCMessageExpr::SuperInstance: JOS.attribute("receiverKind", "super (instance)"); JOS.attribute("superType", createQualType(OME->getSuperType())); break; case ObjCMessageExpr::SuperClass: JOS.attribute("receiverKind", "super (class)"); JOS.attribute("superType", createQualType(OME->getSuperType())); break; } QualType CallReturnTy = OME->getCallReturnType(Ctx); if (OME->getType() != CallReturnTy) JOS.attribute("callReturnType", createQualType(CallReturnTy)); } void JSONNodeDumper::VisitObjCBoxedExpr(const ObjCBoxedExpr *OBE) { if (const ObjCMethodDecl *MD = OBE->getBoxingMethod()) { std::string Str; llvm::raw_string_ostream OS(Str); MD->getSelector().print(OS); JOS.attribute("selector", OS.str()); } } void JSONNodeDumper::VisitObjCSelectorExpr(const ObjCSelectorExpr *OSE) { std::string Str; llvm::raw_string_ostream OS(Str); OSE->getSelector().print(OS); JOS.attribute("selector", OS.str()); } void JSONNodeDumper::VisitObjCProtocolExpr(const ObjCProtocolExpr *OPE) { JOS.attribute("protocol", createBareDeclRef(OPE->getProtocol())); } void JSONNodeDumper::VisitObjCPropertyRefExpr(const ObjCPropertyRefExpr *OPRE) { if (OPRE->isImplicitProperty()) { JOS.attribute("propertyKind", "implicit"); if (const ObjCMethodDecl *MD = OPRE->getImplicitPropertyGetter()) JOS.attribute("getter", createBareDeclRef(MD)); if (const ObjCMethodDecl *MD = OPRE->getImplicitPropertySetter()) JOS.attribute("setter", createBareDeclRef(MD)); } else { JOS.attribute("propertyKind", "explicit"); JOS.attribute("property", createBareDeclRef(OPRE->getExplicitProperty())); } attributeOnlyIfTrue("isSuperReceiver", OPRE->isSuperReceiver()); attributeOnlyIfTrue("isMessagingGetter", OPRE->isMessagingGetter()); attributeOnlyIfTrue("isMessagingSetter", OPRE->isMessagingSetter()); } void JSONNodeDumper::VisitObjCSubscriptRefExpr( const ObjCSubscriptRefExpr *OSRE) { JOS.attribute("subscriptKind", OSRE->isArraySubscriptRefExpr() ? "array" : "dictionary"); if (const ObjCMethodDecl *MD = OSRE->getAtIndexMethodDecl()) JOS.attribute("getter", createBareDeclRef(MD)); if (const ObjCMethodDecl *MD = OSRE->setAtIndexMethodDecl()) JOS.attribute("setter", createBareDeclRef(MD)); } void JSONNodeDumper::VisitObjCIvarRefExpr(const ObjCIvarRefExpr *OIRE) { JOS.attribute("decl", createBareDeclRef(OIRE->getDecl())); attributeOnlyIfTrue("isFreeIvar", OIRE->isFreeIvar()); JOS.attribute("isArrow", OIRE->isArrow()); } void JSONNodeDumper::VisitObjCBoolLiteralExpr(const ObjCBoolLiteralExpr *OBLE) { JOS.attribute("value", OBLE->getValue() ? "__objc_yes" : "__objc_no"); } void JSONNodeDumper::VisitDeclRefExpr(const DeclRefExpr *DRE) { JOS.attribute("referencedDecl", createBareDeclRef(DRE->getDecl())); if (DRE->getDecl() != DRE->getFoundDecl()) JOS.attribute("foundReferencedDecl", createBareDeclRef(DRE->getFoundDecl())); switch (DRE->isNonOdrUse()) { case NOUR_None: break; case NOUR_Unevaluated: JOS.attribute("nonOdrUseReason", "unevaluated"); break; case NOUR_Constant: JOS.attribute("nonOdrUseReason", "constant"); break; case NOUR_Discarded: JOS.attribute("nonOdrUseReason", "discarded"); break; } attributeOnlyIfTrue("isImmediateEscalating", DRE->isImmediateEscalating()); } void JSONNodeDumper::VisitSYCLUniqueStableNameExpr( const SYCLUniqueStableNameExpr *E) { JOS.attribute("typeSourceInfo", createQualType(E->getTypeSourceInfo()->getType())); } void JSONNodeDumper::VisitPredefinedExpr(const PredefinedExpr *PE) { JOS.attribute("name", PredefinedExpr::getIdentKindName(PE->getIdentKind())); } void JSONNodeDumper::VisitUnaryOperator(const UnaryOperator *UO) { JOS.attribute("isPostfix", UO->isPostfix()); JOS.attribute("opcode", UnaryOperator::getOpcodeStr(UO->getOpcode())); if (!UO->canOverflow()) JOS.attribute("canOverflow", false); } void JSONNodeDumper::VisitBinaryOperator(const BinaryOperator *BO) { JOS.attribute("opcode", BinaryOperator::getOpcodeStr(BO->getOpcode())); } void JSONNodeDumper::VisitCompoundAssignOperator( const CompoundAssignOperator *CAO) { VisitBinaryOperator(CAO); JOS.attribute("computeLHSType", createQualType(CAO->getComputationLHSType())); JOS.attribute("computeResultType", createQualType(CAO->getComputationResultType())); } void JSONNodeDumper::VisitMemberExpr(const MemberExpr *ME) { // Note, we always write this Boolean field because the information it conveys // is critical to understanding the AST node. ValueDecl *VD = ME->getMemberDecl(); JOS.attribute("name", VD && VD->getDeclName() ? VD->getNameAsString() : ""); JOS.attribute("isArrow", ME->isArrow()); JOS.attribute("referencedMemberDecl", createPointerRepresentation(VD)); switch (ME->isNonOdrUse()) { case NOUR_None: break; case NOUR_Unevaluated: JOS.attribute("nonOdrUseReason", "unevaluated"); break; case NOUR_Constant: JOS.attribute("nonOdrUseReason", "constant"); break; case NOUR_Discarded: JOS.attribute("nonOdrUseReason", "discarded"); break; } } void JSONNodeDumper::VisitCXXNewExpr(const CXXNewExpr *NE) { attributeOnlyIfTrue("isGlobal", NE->isGlobalNew()); attributeOnlyIfTrue("isArray", NE->isArray()); attributeOnlyIfTrue("isPlacement", NE->getNumPlacementArgs() != 0); switch (NE->getInitializationStyle()) { case CXXNewExpr::NoInit: break; case CXXNewExpr::CallInit: JOS.attribute("initStyle", "call"); break; case CXXNewExpr::ListInit: JOS.attribute("initStyle", "list"); break; } if (const FunctionDecl *FD = NE->getOperatorNew()) JOS.attribute("operatorNewDecl", createBareDeclRef(FD)); if (const FunctionDecl *FD = NE->getOperatorDelete()) JOS.attribute("operatorDeleteDecl", createBareDeclRef(FD)); } void JSONNodeDumper::VisitCXXDeleteExpr(const CXXDeleteExpr *DE) { attributeOnlyIfTrue("isGlobal", DE->isGlobalDelete()); attributeOnlyIfTrue("isArray", DE->isArrayForm()); attributeOnlyIfTrue("isArrayAsWritten", DE->isArrayFormAsWritten()); if (const FunctionDecl *FD = DE->getOperatorDelete()) JOS.attribute("operatorDeleteDecl", createBareDeclRef(FD)); } void JSONNodeDumper::VisitCXXThisExpr(const CXXThisExpr *TE) { attributeOnlyIfTrue("implicit", TE->isImplicit()); } void JSONNodeDumper::VisitCastExpr(const CastExpr *CE) { JOS.attribute("castKind", CE->getCastKindName()); llvm::json::Array Path = createCastPath(CE); if (!Path.empty()) JOS.attribute("path", std::move(Path)); // FIXME: This may not be useful information as it can be obtusely gleaned // from the inner[] array. if (const NamedDecl *ND = CE->getConversionFunction()) JOS.attribute("conversionFunc", createBareDeclRef(ND)); } void JSONNodeDumper::VisitImplicitCastExpr(const ImplicitCastExpr *ICE) { VisitCastExpr(ICE); attributeOnlyIfTrue("isPartOfExplicitCast", ICE->isPartOfExplicitCast()); } void JSONNodeDumper::VisitCallExpr(const CallExpr *CE) { attributeOnlyIfTrue("adl", CE->usesADL()); } void JSONNodeDumper::VisitUnaryExprOrTypeTraitExpr( const UnaryExprOrTypeTraitExpr *TTE) { JOS.attribute("name", getTraitSpelling(TTE->getKind())); if (TTE->isArgumentType()) JOS.attribute("argType", createQualType(TTE->getArgumentType())); } void JSONNodeDumper::VisitSizeOfPackExpr(const SizeOfPackExpr *SOPE) { VisitNamedDecl(SOPE->getPack()); } void JSONNodeDumper::VisitUnresolvedLookupExpr( const UnresolvedLookupExpr *ULE) { JOS.attribute("usesADL", ULE->requiresADL()); JOS.attribute("name", ULE->getName().getAsString()); JOS.attributeArray("lookups", [this, ULE] { for (const NamedDecl *D : ULE->decls()) JOS.value(createBareDeclRef(D)); }); } void JSONNodeDumper::VisitAddrLabelExpr(const AddrLabelExpr *ALE) { JOS.attribute("name", ALE->getLabel()->getName()); JOS.attribute("labelDeclId", createPointerRepresentation(ALE->getLabel())); } void JSONNodeDumper::VisitCXXTypeidExpr(const CXXTypeidExpr *CTE) { if (CTE->isTypeOperand()) { QualType Adjusted = CTE->getTypeOperand(Ctx); QualType Unadjusted = CTE->getTypeOperandSourceInfo()->getType(); JOS.attribute("typeArg", createQualType(Unadjusted)); if (Adjusted != Unadjusted) JOS.attribute("adjustedTypeArg", createQualType(Adjusted)); } } void JSONNodeDumper::VisitConstantExpr(const ConstantExpr *CE) { if (CE->getResultAPValueKind() != APValue::None) Visit(CE->getAPValueResult(), CE->getType()); } void JSONNodeDumper::VisitInitListExpr(const InitListExpr *ILE) { if (const FieldDecl *FD = ILE->getInitializedFieldInUnion()) JOS.attribute("field", createBareDeclRef(FD)); } void JSONNodeDumper::VisitGenericSelectionExpr( const GenericSelectionExpr *GSE) { attributeOnlyIfTrue("resultDependent", GSE->isResultDependent()); } void JSONNodeDumper::VisitCXXUnresolvedConstructExpr( const CXXUnresolvedConstructExpr *UCE) { if (UCE->getType() != UCE->getTypeAsWritten()) JOS.attribute("typeAsWritten", createQualType(UCE->getTypeAsWritten())); attributeOnlyIfTrue("list", UCE->isListInitialization()); } void JSONNodeDumper::VisitCXXConstructExpr(const CXXConstructExpr *CE) { CXXConstructorDecl *Ctor = CE->getConstructor(); JOS.attribute("ctorType", createQualType(Ctor->getType())); attributeOnlyIfTrue("elidable", CE->isElidable()); attributeOnlyIfTrue("list", CE->isListInitialization()); attributeOnlyIfTrue("initializer_list", CE->isStdInitListInitialization()); attributeOnlyIfTrue("zeroing", CE->requiresZeroInitialization()); attributeOnlyIfTrue("hadMultipleCandidates", CE->hadMultipleCandidates()); attributeOnlyIfTrue("isImmediateEscalating", CE->isImmediateEscalating()); switch (CE->getConstructionKind()) { case CXXConstructExpr::CK_Complete: JOS.attribute("constructionKind", "complete"); break; case CXXConstructExpr::CK_Delegating: JOS.attribute("constructionKind", "delegating"); break; case CXXConstructExpr::CK_NonVirtualBase: JOS.attribute("constructionKind", "non-virtual base"); break; case CXXConstructExpr::CK_VirtualBase: JOS.attribute("constructionKind", "virtual base"); break; } } void JSONNodeDumper::VisitExprWithCleanups(const ExprWithCleanups *EWC) { attributeOnlyIfTrue("cleanupsHaveSideEffects", EWC->cleanupsHaveSideEffects()); if (EWC->getNumObjects()) { JOS.attributeArray("cleanups", [this, EWC] { for (const ExprWithCleanups::CleanupObject &CO : EWC->getObjects()) if (auto *BD = CO.dyn_cast()) { JOS.value(createBareDeclRef(BD)); } else if (auto *CLE = CO.dyn_cast()) { llvm::json::Object Obj; Obj["id"] = createPointerRepresentation(CLE); Obj["kind"] = CLE->getStmtClassName(); JOS.value(std::move(Obj)); } else { llvm_unreachable("unexpected cleanup object type"); } }); } } void JSONNodeDumper::VisitCXXBindTemporaryExpr( const CXXBindTemporaryExpr *BTE) { const CXXTemporary *Temp = BTE->getTemporary(); JOS.attribute("temp", createPointerRepresentation(Temp)); if (const CXXDestructorDecl *Dtor = Temp->getDestructor()) JOS.attribute("dtor", createBareDeclRef(Dtor)); } void JSONNodeDumper::VisitMaterializeTemporaryExpr( const MaterializeTemporaryExpr *MTE) { if (const ValueDecl *VD = MTE->getExtendingDecl()) JOS.attribute("extendingDecl", createBareDeclRef(VD)); switch (MTE->getStorageDuration()) { case SD_Automatic: JOS.attribute("storageDuration", "automatic"); break; case SD_Dynamic: JOS.attribute("storageDuration", "dynamic"); break; case SD_FullExpression: JOS.attribute("storageDuration", "full expression"); break; case SD_Static: JOS.attribute("storageDuration", "static"); break; case SD_Thread: JOS.attribute("storageDuration", "thread"); break; } attributeOnlyIfTrue("boundToLValueRef", MTE->isBoundToLvalueReference()); } void JSONNodeDumper::VisitCXXDependentScopeMemberExpr( const CXXDependentScopeMemberExpr *DSME) { JOS.attribute("isArrow", DSME->isArrow()); JOS.attribute("member", DSME->getMember().getAsString()); attributeOnlyIfTrue("hasTemplateKeyword", DSME->hasTemplateKeyword()); attributeOnlyIfTrue("hasExplicitTemplateArgs", DSME->hasExplicitTemplateArgs()); if (DSME->getNumTemplateArgs()) { JOS.attributeArray("explicitTemplateArgs", [DSME, this] { for (const TemplateArgumentLoc &TAL : DSME->template_arguments()) JOS.object( [&TAL, this] { Visit(TAL.getArgument(), TAL.getSourceRange()); }); }); } } void JSONNodeDumper::VisitRequiresExpr(const RequiresExpr *RE) { if (!RE->isValueDependent()) JOS.attribute("satisfied", RE->isSatisfied()); } void JSONNodeDumper::VisitIntegerLiteral(const IntegerLiteral *IL) { llvm::SmallString<16> Buffer; IL->getValue().toString(Buffer, /*Radix=*/10, IL->getType()->isSignedIntegerType()); JOS.attribute("value", Buffer); } void JSONNodeDumper::VisitCharacterLiteral(const CharacterLiteral *CL) { // FIXME: This should probably print the character literal as a string, // rather than as a numerical value. It would be nice if the behavior matched // what we do to print a string literal; right now, it is impossible to tell // the difference between 'a' and L'a' in C from the JSON output. JOS.attribute("value", CL->getValue()); } void JSONNodeDumper::VisitFixedPointLiteral(const FixedPointLiteral *FPL) { JOS.attribute("value", FPL->getValueAsString(/*Radix=*/10)); } void JSONNodeDumper::VisitFloatingLiteral(const FloatingLiteral *FL) { llvm::SmallString<16> Buffer; FL->getValue().toString(Buffer); JOS.attribute("value", Buffer); } void JSONNodeDumper::VisitStringLiteral(const StringLiteral *SL) { std::string Buffer; llvm::raw_string_ostream SS(Buffer); SL->outputString(SS); JOS.attribute("value", SS.str()); } void JSONNodeDumper::VisitCXXBoolLiteralExpr(const CXXBoolLiteralExpr *BLE) { JOS.attribute("value", BLE->getValue()); } void JSONNodeDumper::VisitIfStmt(const IfStmt *IS) { attributeOnlyIfTrue("hasInit", IS->hasInitStorage()); attributeOnlyIfTrue("hasVar", IS->hasVarStorage()); attributeOnlyIfTrue("hasElse", IS->hasElseStorage()); attributeOnlyIfTrue("isConstexpr", IS->isConstexpr()); attributeOnlyIfTrue("isConsteval", IS->isConsteval()); attributeOnlyIfTrue("constevalIsNegated", IS->isNegatedConsteval()); } void JSONNodeDumper::VisitSwitchStmt(const SwitchStmt *SS) { attributeOnlyIfTrue("hasInit", SS->hasInitStorage()); attributeOnlyIfTrue("hasVar", SS->hasVarStorage()); } void JSONNodeDumper::VisitCaseStmt(const CaseStmt *CS) { attributeOnlyIfTrue("isGNURange", CS->caseStmtIsGNURange()); } void JSONNodeDumper::VisitLabelStmt(const LabelStmt *LS) { JOS.attribute("name", LS->getName()); JOS.attribute("declId", createPointerRepresentation(LS->getDecl())); attributeOnlyIfTrue("sideEntry", LS->isSideEntry()); } void JSONNodeDumper::VisitGotoStmt(const GotoStmt *GS) { JOS.attribute("targetLabelDeclId", createPointerRepresentation(GS->getLabel())); } void JSONNodeDumper::VisitWhileStmt(const WhileStmt *WS) { attributeOnlyIfTrue("hasVar", WS->hasVarStorage()); } void JSONNodeDumper::VisitObjCAtCatchStmt(const ObjCAtCatchStmt* OACS) { // FIXME: it would be nice for the ASTNodeTraverser would handle the catch // parameter the same way for C++ and ObjC rather. In this case, C++ gets a // null child node and ObjC gets no child node. attributeOnlyIfTrue("isCatchAll", OACS->getCatchParamDecl() == nullptr); } void JSONNodeDumper::VisitNullTemplateArgument(const TemplateArgument &TA) { JOS.attribute("isNull", true); } void JSONNodeDumper::VisitTypeTemplateArgument(const TemplateArgument &TA) { JOS.attribute("type", createQualType(TA.getAsType())); } void JSONNodeDumper::VisitDeclarationTemplateArgument( const TemplateArgument &TA) { JOS.attribute("decl", createBareDeclRef(TA.getAsDecl())); } void JSONNodeDumper::VisitNullPtrTemplateArgument(const TemplateArgument &TA) { JOS.attribute("isNullptr", true); } void JSONNodeDumper::VisitIntegralTemplateArgument(const TemplateArgument &TA) { JOS.attribute("value", TA.getAsIntegral().getSExtValue()); } void JSONNodeDumper::VisitTemplateTemplateArgument(const TemplateArgument &TA) { // FIXME: cannot just call dump() on the argument, as that doesn't specify // the output format. } void JSONNodeDumper::VisitTemplateExpansionTemplateArgument( const TemplateArgument &TA) { // FIXME: cannot just call dump() on the argument, as that doesn't specify // the output format. } void JSONNodeDumper::VisitExpressionTemplateArgument( const TemplateArgument &TA) { JOS.attribute("isExpr", true); } void JSONNodeDumper::VisitPackTemplateArgument(const TemplateArgument &TA) { JOS.attribute("isPack", true); } StringRef JSONNodeDumper::getCommentCommandName(unsigned CommandID) const { if (Traits) return Traits->getCommandInfo(CommandID)->Name; if (const comments::CommandInfo *Info = comments::CommandTraits::getBuiltinCommandInfo(CommandID)) return Info->Name; return ""; } void JSONNodeDumper::visitTextComment(const comments::TextComment *C, const comments::FullComment *) { JOS.attribute("text", C->getText()); } void JSONNodeDumper::visitInlineCommandComment( const comments::InlineCommandComment *C, const comments::FullComment *) { JOS.attribute("name", getCommentCommandName(C->getCommandID())); switch (C->getRenderKind()) { case comments::InlineCommandComment::RenderNormal: JOS.attribute("renderKind", "normal"); break; case comments::InlineCommandComment::RenderBold: JOS.attribute("renderKind", "bold"); break; case comments::InlineCommandComment::RenderEmphasized: JOS.attribute("renderKind", "emphasized"); break; case comments::InlineCommandComment::RenderMonospaced: JOS.attribute("renderKind", "monospaced"); break; case comments::InlineCommandComment::RenderAnchor: JOS.attribute("renderKind", "anchor"); break; } llvm::json::Array Args; for (unsigned I = 0, E = C->getNumArgs(); I < E; ++I) Args.push_back(C->getArgText(I)); if (!Args.empty()) JOS.attribute("args", std::move(Args)); } void JSONNodeDumper::visitHTMLStartTagComment( const comments::HTMLStartTagComment *C, const comments::FullComment *) { JOS.attribute("name", C->getTagName()); attributeOnlyIfTrue("selfClosing", C->isSelfClosing()); attributeOnlyIfTrue("malformed", C->isMalformed()); llvm::json::Array Attrs; for (unsigned I = 0, E = C->getNumAttrs(); I < E; ++I) Attrs.push_back( {{"name", C->getAttr(I).Name}, {"value", C->getAttr(I).Value}}); if (!Attrs.empty()) JOS.attribute("attrs", std::move(Attrs)); } void JSONNodeDumper::visitHTMLEndTagComment( const comments::HTMLEndTagComment *C, const comments::FullComment *) { JOS.attribute("name", C->getTagName()); } void JSONNodeDumper::visitBlockCommandComment( const comments::BlockCommandComment *C, const comments::FullComment *) { JOS.attribute("name", getCommentCommandName(C->getCommandID())); llvm::json::Array Args; for (unsigned I = 0, E = C->getNumArgs(); I < E; ++I) Args.push_back(C->getArgText(I)); if (!Args.empty()) JOS.attribute("args", std::move(Args)); } void JSONNodeDumper::visitParamCommandComment( const comments::ParamCommandComment *C, const comments::FullComment *FC) { switch (C->getDirection()) { case comments::ParamCommandComment::In: JOS.attribute("direction", "in"); break; case comments::ParamCommandComment::Out: JOS.attribute("direction", "out"); break; case comments::ParamCommandComment::InOut: JOS.attribute("direction", "in,out"); break; } attributeOnlyIfTrue("explicit", C->isDirectionExplicit()); if (C->hasParamName()) JOS.attribute("param", C->isParamIndexValid() ? C->getParamName(FC) : C->getParamNameAsWritten()); if (C->isParamIndexValid() && !C->isVarArgParam()) JOS.attribute("paramIdx", C->getParamIndex()); } void JSONNodeDumper::visitTParamCommandComment( const comments::TParamCommandComment *C, const comments::FullComment *FC) { if (C->hasParamName()) JOS.attribute("param", C->isPositionValid() ? C->getParamName(FC) : C->getParamNameAsWritten()); if (C->isPositionValid()) { llvm::json::Array Positions; for (unsigned I = 0, E = C->getDepth(); I < E; ++I) Positions.push_back(C->getIndex(I)); if (!Positions.empty()) JOS.attribute("positions", std::move(Positions)); } } void JSONNodeDumper::visitVerbatimBlockComment( const comments::VerbatimBlockComment *C, const comments::FullComment *) { JOS.attribute("name", getCommentCommandName(C->getCommandID())); JOS.attribute("closeName", C->getCloseName()); } void JSONNodeDumper::visitVerbatimBlockLineComment( const comments::VerbatimBlockLineComment *C, const comments::FullComment *) { JOS.attribute("text", C->getText()); } void JSONNodeDumper::visitVerbatimLineComment( const comments::VerbatimLineComment *C, const comments::FullComment *) { JOS.attribute("text", C->getText()); } llvm::json::Object JSONNodeDumper::createFPOptions(FPOptionsOverride FPO) { llvm::json::Object Ret; #define OPTION(NAME, TYPE, WIDTH, PREVIOUS) \ if (FPO.has##NAME##Override()) \ Ret.try_emplace(#NAME, static_cast(FPO.get##NAME##Override())); #include "clang/Basic/FPOptions.def" return Ret; } void JSONNodeDumper::VisitCompoundStmt(const CompoundStmt *S) { VisitStmt(S); if (S->hasStoredFPFeatures()) JOS.attribute("fpoptions", createFPOptions(S->getStoredFPFeatures())); }