/** * Copyright (c) 2014, Facebook, Inc. * Copyright (c) 2003-2014 University of Illinois at Urbana-Champaign. * All rights reserved. * * This file is distributed under the University of Illinois Open Source * License. * See LLVM-LICENSE for details. * */ /** * Utility class to export an AST of clang into Json and Yojson (and ultimately * Biniou) * while conforming to the inlined ATD specifications. * * /!\ * '//@atd' comments are meant to be extracted and processed to generate ATD * specifications for the Json dumper. * Do not modify ATD comments without modifying the Json emission accordingly * (and conversely). * See ATD_GUIDELINES.md for more guidelines on how to write and test ATD * annotations. * * This file was obtained by modifying the file ASTdumper.cpp from the * LLVM/clang project. * The general layout should be maintained to make future merging easier. */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "AttrParameterVectorStream.h" #include "NamePrinter.h" #include "SimplePluginASTAction.h" #include "atdlib/ATDWriter.h" //===----------------------------------------------------------------------===// // ASTExporter Visitor //===----------------------------------------------------------------------===// namespace ASTLib { struct ASTExporterOptions : ASTPluginLib::PluginASTOptionsBase { bool withPointers = true; bool dumpComments = false; bool useMacroExpansionLocation = true; ATDWriter::ATDWriterOptions atdWriterOptions = { .useYojson = false, .prettifyJson = true, }; void loadValuesFromEnvAndMap( const ASTPluginLib::PluginASTOptionsBase::argmap_t &map) { ASTPluginLib::PluginASTOptionsBase::loadValuesFromEnvAndMap(map); loadBool(map, "AST_WITH_POINTERS", withPointers); loadBool(map, "USE_YOJSON", atdWriterOptions.useYojson); loadBool(map, "PRETTIFY_JSON", atdWriterOptions.prettifyJson); } }; using namespace clang; using namespace clang::comments; template struct TupleSizeBase { // Decls #define DECL(DERIVED, BASE) \ int DERIVED##DeclTupleSize() { \ return static_cast(this)->BASE##TupleSize(); \ } #define ABSTRACT_DECL(DECL) DECL #include int tupleSizeOfDeclKind(const Decl::Kind kind) { switch (kind) { #define DECL(DERIVED, BASE) \ case Decl::DERIVED: \ return static_cast(this)->DERIVED##DeclTupleSize(); #define ABSTRACT_DECL(DECL) #include } llvm_unreachable("Decl that isn't part of DeclNodes.inc!"); } // Stmts #define STMT(CLASS, PARENT) \ int CLASS##TupleSize() { \ return static_cast(this)->PARENT##TupleSize(); \ } #define ABSTRACT_STMT(STMT) STMT #include int tupleSizeOfStmtClass(const Stmt::StmtClass stmtClass) { switch (stmtClass) { #define STMT(CLASS, PARENT) \ case Stmt::CLASS##Class: \ return static_cast(this)->CLASS##TupleSize(); #define ABSTRACT_STMT(STMT) #include case Stmt::NoStmtClass: break; } llvm_unreachable("Stmt that isn't part of StmtNodes.inc!"); } // Comments #define COMMENT(CLASS, PARENT) \ int CLASS##TupleSize() { \ return static_cast(this)->PARENT##TupleSize(); \ } #define ABSTRACT_COMMENT(COMMENT) COMMENT #include int tupleSizeOfCommentKind(const Comment::CommentKind kind) { switch (kind) { #define COMMENT(CLASS, PARENT) \ case Comment::CLASS##Kind: \ return static_cast(this)->CLASS##TupleSize(); #define ABSTRACT_COMMENT(COMMENT) #include case Comment::NoCommentKind: break; } llvm_unreachable("Comment that isn't part of CommentNodes.inc!"); } // Types #define TYPE(DERIVED, BASE) \ int DERIVED##TypeTupleSize() { \ return static_cast(this)->BASE##TupleSize(); \ } #define ABSTRACT_TYPE(DERIVED, BASE) TYPE(DERIVED, BASE) #include int tupleSizeOfTypeClass(const Type::TypeClass typeClass) { switch (typeClass) { #define TYPE(DERIVED, BASE) \ case Type::DERIVED: \ return static_cast(this)->DERIVED##TypeTupleSize(); #define ABSTRACT_TYPE(DERIVED, BASE) #include } llvm_unreachable("Type that isn't part of TypeNodes.def!"); } // Attributes #define ATTR(NAME) \ int NAME##AttrTupleSize() { return 1; } #include int tupleSizeOfAttrKind(const attr::Kind attrKind) { switch (attrKind) { #define ATTR(NAME) \ case attr::Kind::NAME: \ return static_cast(this)->NAME##AttrTupleSize(); #include } llvm_unreachable("Attr that isn't part of AttrList.inc!"); } }; typedef ATDWriter::JsonWriter JsonWriter; template class ASTExporter : public ConstDeclVisitor>, public ConstStmtVisitor>, public ConstCommentVisitor>, public TypeVisitor>, public ConstAttrVisitor>, public TupleSizeBase> { typedef typename ATDWriter::ObjectScope ObjectScope; typedef typename ATDWriter::ArrayScope ArrayScope; typedef typename ATDWriter::TupleScope TupleScope; typedef typename ATDWriter::VariantScope VariantScope; ATDWriter OF; ASTContext &Context; const ASTExporterOptions &Options; std::unique_ptr Mangler; // Encoding of NULL pointers into suitable empty nodes // This is a hack but using option types in children lists would make the Json // terribly verbose. // Also these useless nodes could have occurred in the original AST anyway :) // // Note: We are not using std::unique_ptr because 'delete' appears to be // protected (at least on Stmt). const Stmt *const NullPtrStmt; const Decl *const NullPtrDecl; const Comment *const NullPtrComment; // Keep track of the last location we print out so that we can // print out deltas from then on out. const char *LastLocFilename; unsigned LastLocLine; // The \c FullComment parent of the comment being dumped. const FullComment *FC; NamePrinter NamePrint; public: ASTExporter(raw_ostream &OS, ASTContext &Context, const ASTExporterOptions &Opts) : OF(OS, Opts.atdWriterOptions), Context(Context), Options(Opts), Mangler( ItaniumMangleContext::create(Context, Context.getDiagnostics())), NullPtrStmt(new (Context) NullStmt(SourceLocation())), NullPtrDecl(EmptyDecl::Create( Context, Context.getTranslationUnitDecl(), SourceLocation())), NullPtrComment(new (Context) Comment( Comment::NoCommentKind, SourceLocation(), SourceLocation())), LastLocFilename(""), LastLocLine(~0U), FC(0), NamePrint(Context.getSourceManager(), OF) {} void dumpDecl(const Decl *D); void dumpStmt(const Stmt *S); void dumpFullComment(const FullComment *C); void dumpType(const Type *T); void dumpPointerToType(const Type *T); void dumpQualTypeNoQuals(const QualType &qt); void dumpClassLambdaCapture(const LambdaCapture *C); void dumpVersionTuple(const VersionTuple &VT); // Utilities void dumpPointer(const void *Ptr); void dumpSourceRange(SourceRange R); void dumpSourceLocation(SourceLocation Loc); void dumpQualType(const QualType &qt); void dumpTypeOld(const Type *T); void dumpDeclRef(const Decl &Node); bool hasNodes(const DeclContext *DC); void dumpLookups(const DeclContext &DC); void dumpSelector(const Selector sel); void dumpName(const NamedDecl &decl); void dumpInputKind(const InputKind kind); void dumpIntegerTypeWidths(const TargetInfo &info); bool alwaysEmitParent(const Decl *D); void emitAPInt(bool isSigned, const llvm::APInt &value); // C++ Utilities void dumpAccessSpecifier(AccessSpecifier AS); void dumpCXXCtorInitializer(const CXXCtorInitializer &Init); void dumpDeclarationName(const DeclarationName &Name); void dumpNestedNameSpecifierLoc(NestedNameSpecifierLoc NNS); void dumpTemplateArgument(const TemplateArgument &Arg); void dumpTemplateSpecialization(const TemplateDecl *D, const TemplateArgumentList &Args); // void dumpTemplateParameters(const TemplateParameterList *TPL); // void dumpTemplateArgumentListInfo(const TemplateArgumentListInfo &TALI); // void dumpTemplateArgumentLoc(const TemplateArgumentLoc &A); // void dumpTemplateArgumentList(const TemplateArgumentList &TAL); // void dumpTemplateArgument(const TemplateArgument &A, // SourceRange R = SourceRange()); void dumpCXXBaseSpecifier(const CXXBaseSpecifier &Base); #define DECLARE_VISITOR(NAME) \ int NAME##TupleSize(); \ void Visit##NAME(const NAME *D); #define DECLARE_LOWERCASE_VISITOR(NAME) \ int NAME##TupleSize(); \ void visit##NAME(const NAME *D); // Decls DECLARE_VISITOR(Decl) DECLARE_VISITOR(DeclContext) DECLARE_VISITOR(BlockDecl) DECLARE_VISITOR(CapturedDecl) DECLARE_VISITOR(LinkageSpecDecl) DECLARE_VISITOR(NamespaceDecl) DECLARE_VISITOR(ObjCContainerDecl) DECLARE_VISITOR(TagDecl) DECLARE_VISITOR(TypeDecl) DECLARE_VISITOR(TranslationUnitDecl) DECLARE_VISITOR(NamedDecl) DECLARE_VISITOR(ValueDecl) DECLARE_VISITOR(TypedefDecl) DECLARE_VISITOR(EnumDecl) DECLARE_VISITOR(RecordDecl) DECLARE_VISITOR(EnumConstantDecl) DECLARE_VISITOR(IndirectFieldDecl) DECLARE_VISITOR(FunctionDecl) DECLARE_VISITOR(FieldDecl) DECLARE_VISITOR(VarDecl) // no use for these yet, ignore them // DECLARE_VISITOR(FileScopeAsmDecl) DECLARE_VISITOR(ImportDecl) // C++ Decls DECLARE_VISITOR(UsingDirectiveDecl) DECLARE_VISITOR(NamespaceAliasDecl) DECLARE_VISITOR(CXXRecordDecl) DECLARE_VISITOR(ClassTemplateSpecializationDecl) DECLARE_VISITOR(CXXMethodDecl) DECLARE_VISITOR(ClassTemplateDecl) DECLARE_VISITOR(FunctionTemplateDecl) DECLARE_VISITOR(FriendDecl) // void VisitTypeAliasDecl(const TypeAliasDecl *D); // void VisitTypeAliasTemplateDecl(const TypeAliasTemplateDecl *D); // void VisitStaticAssertDecl(const StaticAssertDecl *D); // template // void VisitTemplateDeclSpecialization(ChildDumper &Children, // const SpecializationDecl *D, // bool DumpExplicitInst, // bool DumpRefOnly); // void VisitFunctionTemplateDecl(const FunctionTemplateDecl *D); // void VisitClassTemplateSpecializationDecl( // const ClassTemplateSpecializationDecl *D); // void VisitClassTemplatePartialSpecializationDecl( // const ClassTemplatePartialSpecializationDecl *D); // void VisitClassScopeFunctionSpecializationDecl( // const ClassScopeFunctionSpecializationDecl *D); // void VisitVarTemplateDecl(const VarTemplateDecl *D); // void VisitVarTemplateSpecializationDecl( // const VarTemplateSpecializationDecl *D); // void VisitVarTemplatePartialSpecializationDecl( // const VarTemplatePartialSpecializationDecl *D); // void VisitTemplateTypeParmDecl(const TemplateTypeParmDecl *D); // void VisitNonTypeTemplateParmDecl(const NonTypeTemplateParmDecl *D); // void VisitTemplateTemplateParmDecl(const TemplateTemplateParmDecl *D); // void VisitUsingDecl(const UsingDecl *D); // void VisitUnresolvedUsingTypenameDecl(const UnresolvedUsingTypenameDecl // *D); // void VisitUnresolvedUsingValueDecl(const UnresolvedUsingValueDecl *D); // void VisitUsingShadowDecl(const UsingShadowDecl *D); // void VisitLinkageSpecDecl(const LinkageSpecDecl *D); // void VisitAccessSpecDecl(const AccessSpecDecl *D); // // // ObjC Decls DECLARE_VISITOR(ObjCIvarDecl) DECLARE_VISITOR(ObjCMethodDecl) DECLARE_VISITOR(ObjCCategoryDecl) DECLARE_VISITOR(ObjCCategoryImplDecl) DECLARE_VISITOR(ObjCProtocolDecl) DECLARE_VISITOR(ObjCInterfaceDecl) DECLARE_VISITOR(ObjCImplementationDecl) DECLARE_VISITOR(ObjCCompatibleAliasDecl) DECLARE_VISITOR(ObjCPropertyDecl) DECLARE_VISITOR(ObjCPropertyImplDecl) // Stmts. DECLARE_VISITOR(Stmt) DECLARE_VISITOR(AttributedStmt) DECLARE_VISITOR(CXXCatchStmt) DECLARE_VISITOR(DeclStmt) DECLARE_VISITOR(GotoStmt) DECLARE_VISITOR(IfStmt) DECLARE_VISITOR(LabelStmt) DECLARE_VISITOR(SwitchStmt) // Exprs DECLARE_VISITOR(Expr) DECLARE_VISITOR(CastExpr) DECLARE_VISITOR(ExplicitCastExpr) DECLARE_VISITOR(DeclRefExpr) DECLARE_VISITOR(PredefinedExpr) DECLARE_VISITOR(CharacterLiteral) DECLARE_VISITOR(IntegerLiteral) DECLARE_VISITOR(FixedPointLiteral) DECLARE_VISITOR(FloatingLiteral) DECLARE_VISITOR(StringLiteral) // DECLARE_VISITOR(InitListExpr) DECLARE_VISITOR(UnaryOperator) DECLARE_VISITOR(UnaryExprOrTypeTraitExpr) DECLARE_VISITOR(MemberExpr) DECLARE_VISITOR(ExtVectorElementExpr) DECLARE_VISITOR(BinaryOperator) DECLARE_VISITOR(CompoundAssignOperator) DECLARE_VISITOR(AtomicExpr) DECLARE_VISITOR(AddrLabelExpr) DECLARE_VISITOR(BlockExpr) DECLARE_VISITOR(OpaqueValueExpr) DECLARE_VISITOR(OffsetOfExpr) // C++ DECLARE_VISITOR(CXXNamedCastExpr) DECLARE_VISITOR(CXXBoolLiteralExpr) DECLARE_VISITOR(CXXConstructExpr) DECLARE_VISITOR(CXXInheritedCtorInitExpr) DECLARE_VISITOR(CXXBindTemporaryExpr) DECLARE_VISITOR(MaterializeTemporaryExpr) DECLARE_VISITOR(ExprWithCleanups) DECLARE_VISITOR(OverloadExpr) DECLARE_VISITOR(UnresolvedLookupExpr) void dumpCXXTemporary(const CXXTemporary *Temporary); DECLARE_VISITOR(LambdaExpr) DECLARE_VISITOR(CXXNewExpr) DECLARE_VISITOR(CXXDeleteExpr) DECLARE_VISITOR(CXXDefaultArgExpr) DECLARE_VISITOR(CXXDefaultInitExpr) DECLARE_VISITOR(TypeTraitExpr) DECLARE_VISITOR(GenericSelectionExpr) DECLARE_VISITOR(CXXNoexceptExpr) // ObjC DECLARE_VISITOR(ObjCAtCatchStmt) DECLARE_VISITOR(ObjCEncodeExpr) DECLARE_VISITOR(ObjCMessageExpr) DECLARE_VISITOR(ObjCBoxedExpr) DECLARE_VISITOR(ObjCSelectorExpr) DECLARE_VISITOR(ObjCProtocolExpr) DECLARE_VISITOR(ObjCPropertyRefExpr) DECLARE_VISITOR(ObjCSubscriptRefExpr) DECLARE_VISITOR(ObjCIvarRefExpr) DECLARE_VISITOR(ObjCBoolLiteralExpr) DECLARE_VISITOR(ObjCAvailabilityCheckExpr) DECLARE_VISITOR(ObjCArrayLiteral) DECLARE_VISITOR(ObjCDictionaryLiteral) DECLARE_VISITOR(ObjCBridgedCastExpr) // Comments. const char *getCommandName(unsigned CommandID); void dumpComment(const Comment *C); // Inline comments. DECLARE_LOWERCASE_VISITOR(Comment) // DECLARE_LOWERCASE_VISITOR(TextComment) // void visitInlineCommandComment(const InlineCommandComment *C); // void visitHTMLStartTagComment(const HTMLStartTagComment *C); // void visitHTMLEndTagComment(const HTMLEndTagComment *C); // // // Block comments. // void visitBlockCommandComment(const BlockCommandComment *C); // void visitParamCommandComment(const ParamCommandComment *C); // void visitTParamCommandComment(const TParamCommandComment *C); // void visitVerbatimBlockComment(const VerbatimBlockComment *C); // void visitVerbatimBlockLineComment(const VerbatimBlockLineComment *C); // void visitVerbatimLineComment(const VerbatimLineComment *C); // Types - no template type handling yet int TypeWithChildInfoTupleSize(); DECLARE_VISITOR(Type) DECLARE_VISITOR(AdjustedType) DECLARE_VISITOR(ArrayType) DECLARE_VISITOR(ConstantArrayType) // DECLARE_VISITOR(DependentSizedArrayType) // DECLARE_VISITOR(IncompleteArrayType) DECLARE_VISITOR(VariableArrayType) DECLARE_VISITOR(AtomicType) DECLARE_VISITOR(AttributedType) // getEquivalentType() + getAttrKind -> string // DECLARE_VISITOR(AutoType) DECLARE_VISITOR(BlockPointerType) DECLARE_VISITOR(BuiltinType) // DECLARE_VISITOR(ComplexType) DECLARE_VISITOR(DecltypeType) // DECLARE_VISITOR(DependentSizedExtVectorType) DECLARE_VISITOR(FunctionType) // DECLARE_VISITOR(FunctionNoProtoType) DECLARE_VISITOR(FunctionProtoType) // DECLARE_VISITOR(InjectedClassNameType) DECLARE_VISITOR(MemberPointerType) DECLARE_VISITOR(ObjCObjectPointerType) DECLARE_VISITOR(ObjCObjectType) DECLARE_VISITOR(ObjCInterfaceType) DECLARE_VISITOR(ParenType) DECLARE_VISITOR(PointerType) DECLARE_VISITOR(ReferenceType) DECLARE_VISITOR(TagType) DECLARE_VISITOR(TypedefType) void dumpAttrKind(attr::Kind Kind); void dumpAttr(const Attr *A); DECLARE_VISITOR(Attr) DECLARE_VISITOR(AnnotateAttr) DECLARE_VISITOR(AvailabilityAttr) DECLARE_VISITOR(SentinelAttr) DECLARE_VISITOR(VisibilityAttr) void dumpTypeAttr(AttributedType::Kind kind); void dumpObjCLifetimeQual(Qualifiers::ObjCLifetime qual); /* #define TYPE(CLASS, PARENT) DECLARE_VISITOR(CLASS##Type) */ /* #define ABSTRACT_TYPE(CLASS, PARENT) */ /* #include */ }; //===----------------------------------------------------------------------===// // Utilities //===----------------------------------------------------------------------===// bool hasMeaningfulTypeInfo(const Type *T) { // clang goes into an infinite loop trying to compute the TypeInfo of // dependent types, and a width of 0 if the type doesn't have a constant size return T && !T->isIncompleteType() && !T->isDependentType() && T->isConstantSizeType(); } std::unordered_map pointerMap; int pointerCounter = 1; //@atd type pointer = int template void writePointer(ATDWriter &OF, bool withPointers, const void *Ptr) { if (!Ptr) { OF.emitInteger(0); return; } if (pointerMap.find(Ptr) == pointerMap.end()) { pointerMap[Ptr] = pointerCounter++; } OF.emitInteger(pointerMap[Ptr]); } template void ASTExporter::dumpPointer(const void *Ptr) { writePointer(OF, Options.withPointers, Ptr); } //@atd type source_file = string //@atd type source_location = { //@atd ?file : source_file option; //@atd ?line : int option; //@atd ?column : int option; //@atd } template void ASTExporter::dumpSourceLocation(SourceLocation Loc) { const SourceManager &SM = Context.getSourceManager(); SourceLocation ExpLoc = Options.useMacroExpansionLocation ? SM.getExpansionLoc(Loc) : Loc; SourceLocation SpellingLoc = SM.getSpellingLoc(ExpLoc); // 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()) { ObjectScope Scope(OF, 0); return; } if (strcmp(PLoc.getFilename(), LastLocFilename) != 0) { ObjectScope Scope(OF, 3); OF.emitTag("file"); // Normalizing filenames matters because the current directory may change // during the compilation of large projects. OF.emitString(Options.normalizeSourcePath(PLoc.getFilename())); OF.emitTag("line"); OF.emitInteger(PLoc.getLine()); OF.emitTag("column"); OF.emitInteger(PLoc.getColumn()); } else if (PLoc.getLine() != LastLocLine) { ObjectScope Scope(OF, 2); OF.emitTag("line"); OF.emitInteger(PLoc.getLine()); OF.emitTag("column"); OF.emitInteger(PLoc.getColumn()); } else { ObjectScope Scope(OF, 1); OF.emitTag("column"); OF.emitInteger(PLoc.getColumn()); } LastLocFilename = PLoc.getFilename(); LastLocLine = PLoc.getLine(); // TODO: lastLocColumn } //@atd type source_range = (source_location * source_location) template void ASTExporter::dumpSourceRange(SourceRange R) { TupleScope Scope(OF, 2); dumpSourceLocation(R.getBegin()); dumpSourceLocation(R.getEnd()); } //@atd type qual_type = { //@atd type_ptr : type_ptr; //@atd ~is_const : bool; //@atd ~is_restrict : bool; //@atd ~is_volatile : bool; //@atd } template void ASTExporter::dumpQualType(const QualType &qt) { clang::Qualifiers Quals = qt.isNull() ? clang::Qualifiers() : qt.getQualifiers(); bool isConst = Quals.hasConst(); bool isRestrict = Quals.hasRestrict(); bool isVolatile = Quals.hasVolatile(); ObjectScope oScope(OF, 1 + isConst + isVolatile + isRestrict); OF.emitTag("type_ptr"); dumpQualTypeNoQuals(qt); OF.emitFlag("is_const", isConst); OF.emitFlag("is_restrict", isRestrict); OF.emitFlag("is_volatile", isVolatile); } //@atd type named_decl_info = { //@atd name : string; //@atd qual_name : string list; //@atd } template void ASTExporter::dumpName(const NamedDecl &Decl) { // dump name ObjectScope oScope(OF, 2); OF.emitTag("name"); std::string name = Decl.getNameAsString(); if (name.length() == 0) { const FieldDecl *FD = dyn_cast(&Decl); if (FD) { name = "__anon_field_" + std::to_string(FD->getFieldIndex()); } } OF.emitString(name); OF.emitTag("qual_name"); NamePrint.printDeclName(Decl); } //@atd type decl_ref = { //@atd kind : decl_kind; //@atd decl_pointer : pointer; //@atd ?name : named_decl_info option; //@atd ~is_hidden : bool; //@atd ?qual_type : qual_type option //@atd } //@atd type decl_kind = [ #define DECL(DERIVED, BASE) //@atd | DERIVED #define ABSTRACT_DECL(DECL) DECL #include //@atd ] template void ASTExporter::dumpDeclRef(const Decl &D) { const NamedDecl *ND = dyn_cast(&D); const ValueDecl *VD = dyn_cast(&D); bool IsHidden = ND && !ND->isUnconditionallyVisible(); ObjectScope Scope(OF, 2 + (bool)ND + (bool)VD + IsHidden); OF.emitTag("kind"); OF.emitSimpleVariant(D.getDeclKindName()); OF.emitTag("decl_pointer"); dumpPointer(&D); if (ND) { OF.emitTag("name"); dumpName(*ND); OF.emitFlag("is_hidden", IsHidden); } if (VD) { OF.emitTag("qual_type"); dumpQualType(VD->getType()); } } template int ASTExporter::DeclContextTupleSize() { return 2; } //@atd #define decl_context_tuple decl list * decl_context_info //@atd type decl_context_info = { //@atd ~has_external_lexical_storage : bool; //@atd ~has_external_visible_storage : bool //@atd } template void ASTExporter::VisitDeclContext(const DeclContext *DC) { if (!DC) { { ArrayScope Scope(OF, 0); } { ObjectScope Scope(OF, 0); } return; } { std::vector declsToDump; for (auto I : DC->decls()) { declsToDump.push_back(I); } /* Some typedefs are not part of AST. 'instancetype' is one of them. Export it nevertheless as part of TranslationUnitDecl context. */ // getObjCInstanceType() should return null type when 'instancetype' is not // known yet - it doesn't work this way due to bug in clang, but keep // the check for when the bug is fixed. if (isa(DC) && Context.getObjCInstanceType().getTypePtrOrNull()) { declsToDump.push_back(Context.getObjCInstanceTypeDecl()); } ArrayScope Scope(OF, declsToDump.size()); for (auto I : declsToDump) { dumpDecl(I); } } { bool HasExternalLexicalStorage = DC->hasExternalLexicalStorage(); bool HasExternalVisibleStorage = DC->hasExternalVisibleStorage(); ObjectScope Scope(OF, 0 + HasExternalLexicalStorage + HasExternalVisibleStorage); // not covered by tests OF.emitFlag("has_external_lexical_storage", HasExternalLexicalStorage); OF.emitFlag("has_external_visible_storage", HasExternalVisibleStorage); } } //@atd type lookups = { //@atd decl_ref : decl_ref; //@atd ?primary_context_pointer : pointer option; //@atd lookups : lookup list; //@atd ~has_undeserialized_decls : bool; //@atd } //@atd type lookup = { //@atd decl_name : string; //@atd decl_refs : decl_ref list; //@atd } template void ASTExporter::dumpLookups(const DeclContext &DC) { ObjectScope Scope(OF, 4); // not covered by tests OF.emitTag("decl_ref"); dumpDeclRef(cast(DC)); const DeclContext *Primary = DC.getPrimaryContext(); if (Primary != &DC) { OF.emitTag("primary_context_pointer"); dumpPointer(cast(Primary)); } OF.emitTag("lookups"); { ArrayScope Scope(OF); DeclContext::all_lookups_iterator I = Primary->noload_lookups_begin(), E = Primary->noload_lookups_end(); while (I != E) { DeclarationName Name = I.getLookupName(); DeclContextLookupResult R = *I++; ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("decl_name"); OF.emitString(Name.getAsString()); OF.emitTag("decl_refs"); { ArrayScope Scope(OF); for (DeclContextLookupResult::iterator RI = R.begin(), RE = R.end(); RI != RE; ++RI) { dumpDeclRef(**RI); } } } } bool HasUndeserializedLookups = Primary->hasExternalVisibleStorage(); OF.emitFlag("has_undeserialized_decls", HasUndeserializedLookups); } //===----------------------------------------------------------------------===// // C++ Utilities //===----------------------------------------------------------------------===// //@atd type access_specifier = [ None | Public | Protected | Private ] template void ASTExporter::dumpAccessSpecifier(AccessSpecifier AS) { switch (AS) { case AS_public: OF.emitSimpleVariant("Public"); break; case AS_protected: OF.emitSimpleVariant("Protected"); break; case AS_private: OF.emitSimpleVariant("Private"); break; case AS_none: OF.emitSimpleVariant("None"); break; } } //@atd type cxx_ctor_initializer = { //@atd subject : cxx_ctor_initializer_subject; //@atd source_range : source_range; //@atd ?init_expr : stmt option; //@atd } //@atd type cxx_ctor_initializer_subject = [ //@atd Member of decl_ref //@atd | Delegating of type_ptr //@atd | BaseClass of (type_ptr * bool) //@atd ] template void ASTExporter::dumpCXXCtorInitializer( const CXXCtorInitializer &Init) { const Expr *E = Init.getInit(); ObjectScope Scope(OF, 2 + (bool)E); OF.emitTag("subject"); const FieldDecl *FD = Init.getAnyMember(); if (FD) { VariantScope Scope(OF, "Member"); dumpDeclRef(*FD); } else if (Init.isDelegatingInitializer()) { VariantScope Scope(OF, "Delegating"); dumpQualTypeNoQuals(Init.getTypeSourceInfo()->getType()); } else { VariantScope Scope(OF, "BaseClass"); { TupleScope Scope(OF, 2); dumpQualTypeNoQuals(Init.getTypeSourceInfo()->getType()); OF.emitBoolean(Init.isBaseVirtual()); } } OF.emitTag("source_range"); dumpSourceRange(Init.getSourceRange()); if (E) { OF.emitTag("init_expr"); dumpStmt(E); } } //@atd type declaration_name = { //@atd kind : declaration_name_kind; //@atd name : string; //@atd } //@atd type declaration_name_kind = [ //@atd Identifier //@atd | ObjCZeroArgSelector //@atd | ObjCOneArgSelector //@atd | ObjCMultiArgSelector //@atd | CXXConstructorName //@atd | CXXDestructorName //@atd | CXXConversionFunctionName //@atd | CXXOperatorName //@atd | CXXLiteralOperatorName //@atd | CXXUsingDirective //@atd | CXXDeductionGuideName //@atd ] template void ASTExporter::dumpDeclarationName(const DeclarationName &Name) { ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("kind"); switch (Name.getNameKind()) { case DeclarationName::Identifier: OF.emitSimpleVariant("Identifier"); break; case DeclarationName::ObjCZeroArgSelector: OF.emitSimpleVariant("ObjCZeroArgSelector"); break; case DeclarationName::ObjCOneArgSelector: OF.emitSimpleVariant("ObjCOneArgSelector"); break; case DeclarationName::ObjCMultiArgSelector: OF.emitSimpleVariant("ObjCMultiArgSelector"); break; case DeclarationName::CXXConstructorName: OF.emitSimpleVariant("CXXConstructorName"); break; case DeclarationName::CXXDestructorName: OF.emitSimpleVariant("CXXDestructorName"); break; case DeclarationName::CXXConversionFunctionName: OF.emitSimpleVariant("CXXConversionFunctionName"); break; case DeclarationName::CXXOperatorName: OF.emitSimpleVariant("CXXOperatorName"); break; case DeclarationName::CXXLiteralOperatorName: OF.emitSimpleVariant("CXXLiteralOperatorName"); break; case DeclarationName::CXXUsingDirective: OF.emitSimpleVariant("CXXUsingDirective"); break; case DeclarationName::CXXDeductionGuideName: OF.emitSimpleVariant("CXXDeductionGuideName"); break; } OF.emitTag("name"); OF.emitString(Name.getAsString()); } //@atd type nested_name_specifier_loc = { //@atd kind : specifier_kind; //@atd ?ref : decl_ref option; //@atd } //@atd type specifier_kind = [ //@atd Identifier //@atd | Namespace //@atd | NamespaceAlias //@atd | TypeSpec //@atd | TypeSpecWithTemplate //@atd | Global //@atd | Super //@atd ] template void ASTExporter::dumpNestedNameSpecifierLoc( NestedNameSpecifierLoc NNS) { SmallVector NestedNames; while (NNS) { NestedNames.push_back(NNS); NNS = NNS.getPrefix(); } ArrayScope Scope(OF, NestedNames.size()); while (!NestedNames.empty()) { NNS = NestedNames.pop_back_val(); NestedNameSpecifier::SpecifierKind Kind = NNS.getNestedNameSpecifier()->getKind(); ObjectScope Scope(OF, 2); OF.emitTag("kind"); switch (Kind) { case NestedNameSpecifier::Identifier: OF.emitSimpleVariant("Identifier"); break; case NestedNameSpecifier::Namespace: OF.emitSimpleVariant("Namespace"); OF.emitTag("ref"); dumpDeclRef(*NNS.getNestedNameSpecifier()->getAsNamespace()); break; case NestedNameSpecifier::NamespaceAlias: OF.emitSimpleVariant("NamespaceAlias"); OF.emitTag("ref"); dumpDeclRef(*NNS.getNestedNameSpecifier()->getAsNamespaceAlias()); break; case NestedNameSpecifier::TypeSpec: OF.emitSimpleVariant("TypeSpec"); break; case NestedNameSpecifier::TypeSpecWithTemplate: OF.emitSimpleVariant("TypeSpecWithTemplate"); break; case NestedNameSpecifier::Global: OF.emitSimpleVariant("Global"); break; case NestedNameSpecifier::Super: OF.emitSimpleVariant("Super"); break; } } } // template // void ASTExporter::dumpTemplateParameters(const // TemplateParameterList *TPL) { // if (!TPL) // return; // // for (TemplateParameterList::const_iterator I = TPL->begin(), E = TPL->end(); // I != E; ++I) // dumpDecl(*I); //} // // template // void ASTExporter::dumpTemplateArgumentListInfo( // const TemplateArgumentListInfo &TALI) { // for (unsigned i = 0, e = TALI.size(); i < e; ++i) { // dumpTemplateArgumentLoc(TALI[i]); // } //} // // template // void ASTExporter::dumpTemplateArgumentLoc(const // TemplateArgumentLoc &A) { // dumpTemplateArgument(A.getArgument(), A.getSourceRange()); //} // // template // void ASTExporter::dumpTemplateArgumentList(const // TemplateArgumentList &TAL) { // for (unsigned i = 0, e = TAL.size(); i < e; ++i) // dumpTemplateArgument(TAL[i]); //} // // template // void ASTExporter::dumpTemplateArgument(const TemplateArgument &A, // SourceRange R) { // ObjectScope Scope(OF); // OS << "TemplateArgument"; // if (R.isValid()) // dumpSourceRange(R); // // switch (A.getKind()) { // case TemplateArgument::Null: // OS << " null"; // break; // case TemplateArgument::Type: // OS << " type"; // dumpQualType(A.getAsType()); // break; // case TemplateArgument::Declaration: // OS << " decl"; // dumpDeclRef(A.getAsDecl()); // break; // case TemplateArgument::NullPtr: // OS << " nullptr"; // break; // case TemplateArgument::Integral: // OS << " integral " << A.getAsIntegral(); // break; // case TemplateArgument::Template: // OS << " template "; // // FIXME: do not use the local dump method // A.getAsTemplate().dump(OS); // break; // case TemplateArgument::TemplateExpansion: // OS << " template expansion"; // // FIXME: do not use the local dump method // A.getAsTemplateOrTemplatePattern().dump(OS); // break; // case TemplateArgument::Expression: // OS << " expr"; // dumpStmt(A.getAsExpr()); // break; // case TemplateArgument::Pack: // OS << " pack"; // for (TemplateArgument::pack_iterator I = A.pack_begin(), E = A.pack_end(); // I != E; ++I) { // dumpTemplateArgument(*I); // } // break; // } //} template bool ASTExporter::alwaysEmitParent(const Decl *D) { if (isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) || isa(D) ) { return true; } return false; } //===----------------------------------------------------------------------===// // Decl dumping methods. //===----------------------------------------------------------------------===// #define DECL(DERIVED, BASE) //@atd #define @DERIVED@_decl_tuple @BASE@_tuple #define ABSTRACT_DECL(DECL) DECL #include template void ASTExporter::dumpDecl(const Decl *D) { if (!D) { // We use a fixed EmptyDecl node to represent null pointers D = NullPtrDecl; } VariantScope Scope(OF, std::string(D->getDeclKindName()) + "Decl"); { TupleScope Scope(OF, ASTExporter::tupleSizeOfDeclKind(D->getKind())); ConstDeclVisitor>::Visit(D); } } template int ASTExporter::DeclTupleSize() { return 1; } //@atd #define decl_tuple decl_info //@atd type decl_info = { //@atd pointer : pointer; //@atd ?parent_pointer : pointer option; //@atd source_range : source_range; //@atd ?owning_module : string option; //@atd ~is_hidden : bool; //@atd ~is_implicit : bool; //@atd ~is_used : bool; //@atd ~is_this_declaration_referenced : bool; //@atd ~is_invalid_decl : bool; //@atd ~attributes : attribute list; //@atd ?full_comment : comment option; //@atd ~access : access_specifier //@atd } template void ASTExporter::VisitDecl(const Decl *D) { { bool ShouldEmitParentPointer = alwaysEmitParent(D) || D->getLexicalDeclContext() != D->getDeclContext(); Module *M = D->getImportedOwningModule(); if (!M) { M = D->getLocalOwningModule(); } const NamedDecl *ND = dyn_cast(D); bool IsNDHidden = ND && !ND->isUnconditionallyVisible(); bool IsDImplicit = D->isImplicit(); bool IsDUsed = D->isUsed(); bool IsDReferenced = D->isThisDeclarationReferenced(); bool IsDInvalid = D->isInvalidDecl(); bool HasAttributes = D->hasAttrs(); const FullComment *Comment = Options.dumpComments ? D->getASTContext().getLocalCommentForDeclUncached(D) : nullptr; AccessSpecifier Access = D->getAccess(); bool HasAccess = Access != AccessSpecifier::AS_none; int size = 2 + ShouldEmitParentPointer + (bool)M + IsNDHidden + IsDImplicit + IsDUsed + IsDReferenced + IsDInvalid + HasAttributes + (bool)Comment + HasAccess; ObjectScope Scope(OF, size); OF.emitTag("pointer"); dumpPointer(D); if (ShouldEmitParentPointer) { OF.emitTag("parent_pointer"); dumpPointer(cast(D->getDeclContext())); } OF.emitTag("source_range"); dumpSourceRange(D->getSourceRange()); if (M) { OF.emitTag("owning_module"); OF.emitString(M->getFullModuleName()); } OF.emitFlag("is_hidden", IsNDHidden); OF.emitFlag("is_implicit", IsDImplicit); OF.emitFlag("is_used", IsDUsed); OF.emitFlag("is_this_declaration_referenced", IsDReferenced); OF.emitFlag("is_invalid_decl", IsDInvalid); if (HasAttributes) { OF.emitTag("attributes"); ArrayScope ArrayAttr(OF, D->getAttrs().size()); for (auto I : D->getAttrs()) { dumpAttr(I); } } if (Comment) { OF.emitTag("full_comment"); dumpFullComment(Comment); } if (HasAccess) { OF.emitTag("access"); dumpAccessSpecifier(Access); } } } template int ASTExporter::CapturedDeclTupleSize() { return DeclTupleSize() + DeclContextTupleSize(); } //@atd #define captured_decl_tuple decl_tuple * decl_context_tuple template void ASTExporter::VisitCapturedDecl(const CapturedDecl *D) { VisitDecl(D); VisitDeclContext(D); } template int ASTExporter::LinkageSpecDeclTupleSize() { return DeclTupleSize() + DeclContextTupleSize(); } //@atd #define linkage_spec_decl_tuple decl_tuple * decl_context_tuple template void ASTExporter::VisitLinkageSpecDecl(const LinkageSpecDecl *D) { VisitDecl(D); VisitDeclContext(D); } template int ASTExporter::NamespaceDeclTupleSize() { return NamedDeclTupleSize() + DeclContextTupleSize() + 1; } //@atd #define namespace_decl_tuple named_decl_tuple * decl_context_tuple * namespace_decl_info //@atd type namespace_decl_info = { //@atd ~is_inline : bool; //@atd ?original_namespace : decl_ref option; //@atd } template void ASTExporter::VisitNamespaceDecl(const NamespaceDecl *D) { VisitNamedDecl(D); VisitDeclContext(D); bool IsInline = D->isInline(); bool IsOriginalNamespace = D->isOriginalNamespace(); ObjectScope Scope(OF, 0 + IsInline + !IsOriginalNamespace); OF.emitFlag("is_inline", IsInline); if (!IsOriginalNamespace) { OF.emitTag("original_namespace"); dumpDeclRef(*D->getOriginalNamespace()); } } template int ASTExporter::ObjCContainerDeclTupleSize() { return NamedDeclTupleSize() + DeclContextTupleSize(); } //@atd #define obj_c_container_decl_tuple named_decl_tuple * decl_context_tuple template void ASTExporter::VisitObjCContainerDecl( const ObjCContainerDecl *D) { VisitNamedDecl(D); VisitDeclContext(D); } template int ASTExporter::TagDeclTupleSize() { return TypeDeclTupleSize() + DeclContextTupleSize() + 1; } //@atd type tag_kind = [ //@atd TTK_Struct //@atd | TTK_Interface //@atd | TTK_Union //@atd | TTK_Class //@atd | TTK_Enum //@atd ] //@atd #define tag_decl_tuple type_decl_tuple * decl_context_tuple * tag_kind template void ASTExporter::VisitTagDecl(const TagDecl *D) { VisitTypeDecl(D); VisitDeclContext(D); switch (D->getTagKind()) { case TagTypeKind::TTK_Struct: OF.emitSimpleVariant("TTK_Struct"); break; case TagTypeKind::TTK_Interface: OF.emitSimpleVariant("TTK_Interface"); break; case TagTypeKind::TTK_Union: OF.emitSimpleVariant("TTK_Union"); break; case TagTypeKind::TTK_Class: OF.emitSimpleVariant("TTK_Class"); break; case TagTypeKind::TTK_Enum: OF.emitSimpleVariant("TTK_Enum"); break; } } template int ASTExporter::TypeDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define type_decl_tuple named_decl_tuple * type_ptr template void ASTExporter::VisitTypeDecl(const TypeDecl *D) { VisitNamedDecl(D); const Type *T = D->getTypeForDecl(); dumpPointerToType(T); } template int ASTExporter::ValueDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define value_decl_tuple named_decl_tuple * qual_type template void ASTExporter::VisitValueDecl(const ValueDecl *D) { VisitNamedDecl(D); dumpQualType(D->getType()); } template int ASTExporter::TranslationUnitDeclTupleSize() { return DeclTupleSize() + DeclContextTupleSize() + 1; } //@atd type input_kind = [ //@atd IK_None //@atd | IK_Asm //@atd | IK_C //@atd | IK_CXX //@atd | IK_ObjC //@atd | IK_ObjCXX //@atd | IK_OpenCL //@atd | IK_CUDA //@atd | IK_HIP //@atd | IK_RenderScript //@atd | IK_LLVM_IR //@atd ] template void ASTExporter::dumpInputKind(InputKind kind) { // Despite here we deal only with the language field of InputKind, there are // new info in InputKind that can still be used, e.g. whether the source is // preprocessed (PP), or precompiled. switch (kind.getLanguage()) { case Language::Unknown: OF.emitSimpleVariant("IK_None"); break; case Language::Asm: OF.emitSimpleVariant("IK_Asm"); break; case Language::C: OF.emitSimpleVariant("IK_C"); break; case Language::CXX: OF.emitSimpleVariant("IK_CXX"); break; case Language::ObjC: OF.emitSimpleVariant("IK_ObjC"); break; case Language::ObjCXX: OF.emitSimpleVariant("IK_ObjCXX"); break; case Language::OpenCL: OF.emitSimpleVariant("IK_OpenCL"); break; case Language::CUDA: OF.emitSimpleVariant("IK_CUDA"); break; case Language::RenderScript: OF.emitSimpleVariant("IK_RenderScript"); break; case Language::LLVM_IR: OF.emitSimpleVariant("IK_LLVM_IR"); break; case Language::HIP: OF.emitSimpleVariant("IK_HIP"); break; } } //@atd type integer_type_widths = { //@atd char_type : int; //@atd short_type : int; //@atd int_type : int; //@atd long_type : int; //@atd longlong_type : int; //@atd } template void ASTExporter::dumpIntegerTypeWidths(const TargetInfo &info) { ObjectScope Scope(OF, 5); OF.emitTag("char_type"); OF.emitInteger(info.getCharWidth()); OF.emitTag("short_type"); OF.emitInteger(info.getShortWidth()); OF.emitTag("int_type"); OF.emitInteger(info.getIntWidth()); OF.emitTag("long_type"); OF.emitInteger(info.getLongWidth()); OF.emitTag("longlong_type"); OF.emitInteger(info.getLongLongWidth()); } //@atd #define translation_unit_decl_tuple decl_tuple * decl_context_tuple * translation_unit_decl_info //@atd type translation_unit_decl_info = { //@atd input_path : source_file; //@atd input_kind : input_kind; //@atd integer_type_widths : integer_type_widths; //@atd ~is_objc_arc_on : bool; //@atd types : c_type list; //@atd } template void ASTExporter::VisitTranslationUnitDecl( const TranslationUnitDecl *D) { VisitDecl(D); VisitDeclContext(D); bool IsObjCArcOn = D->getASTContext().getLangOpts().ObjCAutoRefCount; ObjectScope Scope(OF, 4 + IsObjCArcOn); OF.emitTag("input_path"); OF.emitString( Options.normalizeSourcePath(Options.inputFile.getFile().str().c_str())); OF.emitTag("input_kind"); dumpInputKind(Options.inputFile.getKind()); OF.emitTag("integer_type_widths"); dumpIntegerTypeWidths(Context.getTargetInfo()); OF.emitFlag("is_objc_arc_on", IsObjCArcOn); OF.emitTag("types"); const auto &types = Context.getTypes(); ArrayScope aScope(OF, types.size() + 1); // + 1 for nullptr for (const Type *type : types) { dumpType(type); } // Just in case, add NoneType to dumped types dumpType(nullptr); } template int ASTExporter::NamedDeclTupleSize() { return DeclTupleSize() + 1; } //@atd #define named_decl_tuple decl_tuple * named_decl_info template void ASTExporter::VisitNamedDecl(const NamedDecl *D) { VisitDecl(D); dumpName(*D); } template int ASTExporter::TypedefDeclTupleSize() { return ASTExporter::TypedefNameDeclTupleSize() + 1; } //@atd #define typedef_decl_tuple typedef_name_decl_tuple * typedef_decl_info //@atd type typedef_decl_info = { //@atd ~is_module_private : bool //@atd } template void ASTExporter::VisitTypedefDecl(const TypedefDecl *D) { ASTExporter::VisitTypedefNameDecl(D); bool IsModulePrivate = D->isModulePrivate(); ObjectScope Scope(OF, 0 + IsModulePrivate); OF.emitFlag("is_module_private", IsModulePrivate); } template int ASTExporter::EnumDeclTupleSize() { return TagDeclTupleSize() + 1; } //@atd #define enum_decl_tuple tag_decl_tuple * enum_decl_info //@atd type enum_decl_info = { //@atd ?scope : enum_decl_scope option; //@atd ~is_module_private : bool //@atd } //@atd type enum_decl_scope = [Class | Struct] template void ASTExporter::VisitEnumDecl(const EnumDecl *D) { VisitTagDecl(D); bool IsScoped = D->isScoped(); bool IsModulePrivate = D->isModulePrivate(); ObjectScope Scope(OF, 0 + IsScoped + IsModulePrivate); // not covered by tests if (IsScoped) { OF.emitTag("scope"); if (D->isScopedUsingClassTag()) OF.emitSimpleVariant("Class"); else OF.emitSimpleVariant("Struct"); } OF.emitFlag("is_module_private", IsModulePrivate); } template int ASTExporter::RecordDeclTupleSize() { return TagDeclTupleSize() + 1; } //@atd #define record_decl_tuple tag_decl_tuple * record_decl_info //@atd type record_decl_info = { //@atd definition_ptr : pointer; //@atd ~is_module_private : bool; //@atd ~is_complete_definition : bool; //@atd ~is_dependent_type : bool; //@atd } template void ASTExporter::VisitRecordDecl(const RecordDecl *D) { VisitTagDecl(D); bool IsModulePrivate = D->isModulePrivate(); bool IsCompleteDefinition = D->isCompleteDefinition(); bool IsDependentType = D->isDependentType(); ObjectScope Scope( OF, 1 + IsModulePrivate + IsCompleteDefinition + IsDependentType); OF.emitTag("definition_ptr"); dumpPointer(D->getDefinition()); OF.emitFlag("is_module_private", IsModulePrivate); OF.emitFlag("is_complete_definition", IsCompleteDefinition); OF.emitFlag("is_dependent_type", IsDependentType); } template int ASTExporter::EnumConstantDeclTupleSize() { return ValueDeclTupleSize() + 1; } //@atd #define enum_constant_decl_tuple value_decl_tuple * enum_constant_decl_info //@atd type enum_constant_decl_info = { //@atd ?init_expr : stmt option //@atd } template void ASTExporter::VisitEnumConstantDecl(const EnumConstantDecl *D) { VisitValueDecl(D); const Expr *Init = D->getInitExpr(); ObjectScope Scope(OF, 0 + (bool)Init); // not covered by tests if (Init) { OF.emitTag("init_expr"); dumpStmt(Init); } } template int ASTExporter::IndirectFieldDeclTupleSize() { return ValueDeclTupleSize() + 1; } //@atd #define indirect_field_decl_tuple value_decl_tuple * decl_ref list template void ASTExporter::VisitIndirectFieldDecl( const IndirectFieldDecl *D) { VisitValueDecl(D); ArrayScope Scope( OF, std::distance(D->chain_begin(), D->chain_end())); // not covered by tests for (auto I : D->chain()) { dumpDeclRef(*I); } } template int ASTExporter::FunctionDeclTupleSize() { return ASTExporter::DeclaratorDeclTupleSize() + 1; } //@atd #define function_decl_tuple declarator_decl_tuple * function_decl_info //@atd type function_decl_info = { //@atd ?mangled_name : string option; //@atd ~is_cpp : bool; //@atd ~is_inline : bool; //@atd ~is_module_private : bool; //@atd ~is_pure : bool; //@atd ~is_delete_as_written : bool; //@atd ~is_no_return : bool; //@atd ~is_constexpr : bool; //@atd ~is_variadic : bool; //@atd ~is_static : bool; //@atd ~parameters : decl list; //@atd ?decl_ptr_with_body : pointer option; //@atd ?body : stmt option; //@atd ?template_specialization : template_specialization_info option //@atd } template void ASTExporter::VisitFunctionDecl(const FunctionDecl *D) { ASTExporter::VisitDeclaratorDecl(D); // We purposedly do not call VisitDeclContext(D). auto DNkind = D->getDeclName().getNameKind(); bool ShouldMangleName = Mangler->shouldMangleDeclName(D) && DNkind != DeclarationName::CXXDeductionGuideName && DNkind != DeclarationName::CXXUsingDirective; bool IsInlineSpecified = D->isInlineSpecified(); bool IsModulePrivate = D->isModulePrivate(); bool IsPure = D->isPure(); bool IsDeletedAsWritten = D->isDeletedAsWritten(); bool IsCpp = Mangler->getASTContext().getLangOpts().CPlusPlus; bool IsVariadic = D->isVariadic(); bool IsStatic = false; // static functions if (D->getStorageClass() == SC_Static) { IsStatic = true; } auto IsNoReturn = D->isNoReturn(); bool IsConstexpr = D->isConstexpr(); bool HasParameters = !D->param_empty(); const FunctionDecl *DeclWithBody = D; // FunctionDecl::hasBody() will set DeclWithBody pointer to decl that // has body. If there is no body in all decls of that function, // then we need to set DeclWithBody to nullptr manually if (!D->hasBody(DeclWithBody)) { DeclWithBody = nullptr; } bool HasDeclarationBody = D->doesThisDeclarationHaveABody(); FunctionTemplateDecl *TemplateDecl = D->getPrimaryTemplate(); int size = ShouldMangleName + IsCpp + IsInlineSpecified + IsModulePrivate + IsPure + IsDeletedAsWritten + IsNoReturn + IsConstexpr + IsVariadic + IsStatic + HasParameters + (bool)DeclWithBody + HasDeclarationBody + (bool)TemplateDecl; ObjectScope Scope(OF, size); if (ShouldMangleName) { OF.emitTag("mangled_name"); SmallString<64> Buf; llvm::raw_svector_ostream StrOS(Buf); GlobalDecl GD; if (const auto *CD = dyn_cast(D)) { GD = GlobalDecl(CD, Ctor_Base); } else if (const auto *DD = dyn_cast(D)) { GD = GlobalDecl(DD, Dtor_Base); } else { GD = GlobalDecl(D); } Mangler->mangleName(GD, StrOS); // mangled names can get ridiculously long, so hash them to a fixed size OF.emitString(std::to_string(fnv64Hash(StrOS))); } OF.emitFlag("is_cpp", IsCpp); OF.emitFlag("is_inline", IsInlineSpecified); OF.emitFlag("is_module_private", IsModulePrivate); OF.emitFlag("is_pure", IsPure); OF.emitFlag("is_delete_as_written", IsDeletedAsWritten); OF.emitFlag("is_no_return", IsNoReturn); OF.emitFlag("is_constexpr", IsConstexpr); OF.emitFlag("is_variadic", IsVariadic); OF.emitFlag("is_static", IsStatic); // if (const FunctionProtoType *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; // } // } // // const FunctionTemplateSpecializationInfo *FTSI = // D->getTemplateSpecializationInfo(); // bool HasTemplateSpecialization = FTSI; // // // if (HasTemplateSpecialization) { // dumpTemplateArgumentList(*FTSI->TemplateArguments); // } if (HasParameters) { FunctionDecl::param_const_iterator I = D->param_begin(), E = D->param_end(); if (I != E) { OF.emitTag("parameters"); ArrayScope Scope(OF, std::distance(I, E)); for (; I != E; ++I) { dumpDecl(*I); } } } if (DeclWithBody) { OF.emitTag("decl_ptr_with_body"); dumpPointer(DeclWithBody); } if (HasDeclarationBody) { const Stmt *Body = D->getBody(); if (Body) { OF.emitTag("body"); dumpStmt(Body); } } if (TemplateDecl) { OF.emitTag("template_specialization"); dumpTemplateSpecialization(TemplateDecl, *D->getTemplateSpecializationArgs()); } } template int ASTExporter::FieldDeclTupleSize() { return ASTExporter::DeclaratorDeclTupleSize() + 1; } //@atd #define field_decl_tuple declarator_decl_tuple * field_decl_info //@atd type field_decl_info = { //@atd ~is_mutable : bool; //@atd ~is_module_private : bool; //@atd ?init_expr : stmt option; //@atd ?bit_width_expr : stmt option //@atd } template void ASTExporter::VisitFieldDecl(const FieldDecl *D) { ASTExporter::VisitDeclaratorDecl(D); bool IsMutable = D->isMutable(); bool IsModulePrivate = D->isModulePrivate(); bool HasBitWidth = D->isBitField() && D->getBitWidth(); Expr *Init = D->getInClassInitializer(); ObjectScope Scope(OF, 0 + IsMutable + IsModulePrivate + HasBitWidth + (bool)Init); // not covered by tests OF.emitFlag("is_mutable", IsMutable); OF.emitFlag("is_module_private", IsModulePrivate); if (HasBitWidth) { OF.emitTag("bit_width_expr"); dumpStmt(D->getBitWidth()); } if (Init) { OF.emitTag("init_expr"); dumpStmt(Init); } } template int ASTExporter::VarDeclTupleSize() { return ASTExporter::DeclaratorDeclTupleSize() + 1; } //@atd #define var_decl_tuple declarator_decl_tuple * var_decl_info //@atd type var_decl_info = { //@atd ~is_global : bool; //@atd ~is_extern : bool; //@atd ~is_static : bool; //@atd ~is_static_local : bool; //@atd ~is_static_data_member : bool; //@atd ~is_constexpr : bool; //@atd ~is_init_ice : bool; //@atd ?init_expr : stmt option; //@atd ~is_init_expr_cxx11_constant: bool; //@atd ?parm_index_in_function : int option; //@atd } template void ASTExporter::VisitVarDecl(const VarDecl *D) { ASTExporter::VisitDeclaratorDecl(D); bool IsGlobal = D->hasGlobalStorage(); // including static function variables bool IsExtern = D->hasExternalStorage(); bool IsStatic = false; // static variables if (D->getStorageClass() == SC_Static) { IsStatic = true; } bool IsStaticLocal = D->isStaticLocal(); // static function variables bool IsStaticDataMember = D->isStaticDataMember(); bool IsConstexpr = D->isConstexpr(); bool IsInitICE = D->isInitKnownICE() && D->isInitICE(); bool HasInit = D->hasInit(); const ParmVarDecl *ParmDecl = dyn_cast(D); bool HasParmIndex = (bool)ParmDecl; bool isInitExprCXX11ConstantExpr = false; ObjectScope Scope(OF, IsGlobal + IsExtern + IsStatic + IsStaticLocal + IsStaticDataMember + IsConstexpr + IsInitICE + HasInit + HasParmIndex + isInitExprCXX11ConstantExpr); OF.emitFlag("is_global", IsGlobal); OF.emitFlag("is_extern", IsExtern); OF.emitFlag("is_static", IsStatic); OF.emitFlag("is_static_local", IsStaticLocal); OF.emitFlag("is_static_data_member", IsStaticDataMember); OF.emitFlag("is_constexpr", IsConstexpr); OF.emitFlag("is_init_ice", IsInitICE); if (HasInit) { OF.emitTag("init_expr"); dumpStmt(D->getInit()); OF.emitFlag("is_init_expr_cxx11_constant", isInitExprCXX11ConstantExpr); } if (HasParmIndex) { OF.emitTag("parm_index_in_function"); OF.emitInteger(ParmDecl->getFunctionScopeIndex()); } } template int ASTExporter::ImportDeclTupleSize() { return DeclTupleSize() + 1; } //@atd #define import_decl_tuple decl_tuple * string template void ASTExporter::VisitImportDecl(const ImportDecl *D) { VisitDecl(D); OF.emitString(D->getImportedModule()->getFullModuleName()); } //===----------------------------------------------------------------------===// // C++ Declarations //===----------------------------------------------------------------------===// template int ASTExporter::UsingDirectiveDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define using_directive_decl_tuple named_decl_tuple * using_directive_decl_info //@atd type using_directive_decl_info = { //@atd using_location : source_location; //@atd namespace_key_location : source_location; //@atd nested_name_specifier_locs : nested_name_specifier_loc list; //@atd ?nominated_namespace : decl_ref option; //@atd } template void ASTExporter::VisitUsingDirectiveDecl( const UsingDirectiveDecl *D) { VisitNamedDecl(D); bool HasNominatedNamespace = D->getNominatedNamespace(); ObjectScope Scope(OF, 3 + HasNominatedNamespace); OF.emitTag("using_location"); dumpSourceLocation(D->getUsingLoc()); OF.emitTag("namespace_key_location"); dumpSourceLocation(D->getNamespaceKeyLocation()); OF.emitTag("nested_name_specifier_locs"); dumpNestedNameSpecifierLoc(D->getQualifierLoc()); if (HasNominatedNamespace) { OF.emitTag("nominated_namespace"); dumpDeclRef(*D->getNominatedNamespace()); } } template int ASTExporter::NamespaceAliasDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define namespace_alias_decl_tuple named_decl_tuple * namespace_alias_decl_info //@atd type namespace_alias_decl_info = { //@atd namespace_loc : source_location; //@atd target_name_loc : source_location; //@atd nested_name_specifier_locs : nested_name_specifier_loc list; //@atd namespace : decl_ref; //@atd } template void ASTExporter::VisitNamespaceAliasDecl( const NamespaceAliasDecl *D) { VisitNamedDecl(D); ObjectScope Scope(OF, 4); OF.emitTag("namespace_loc"); dumpSourceLocation(D->getNamespaceLoc()); OF.emitTag("target_name_loc"); dumpSourceLocation(D->getTargetNameLoc()); OF.emitTag("nested_name_specifier_locs"); dumpNestedNameSpecifierLoc(D->getQualifierLoc()); OF.emitTag("namespace"); dumpDeclRef(*D->getNamespace()); } //@atd type lambda_capture_info = { //@atd capture_kind : lambda_capture_kind; //@atd ~capture_this : bool; //@atd ~capture_variable : bool; //@atd ~capture_VLAtype : bool; //@atd ?init_captured_vardecl : decl option; //@atd ?captured_var : decl_ref option; //@atd ~is_implicit : bool; //@atd location : source_range; //@atd ~is_pack_expansion: bool; //@atd } //@atd type lambda_capture_kind = [ //@atd | LCK_This //@atd | LCK_ByCopy //@atd | LCK_ByRef //@atd | LCK_VLAType //@atd | LCK_StarThis] template void ASTExporter::dumpClassLambdaCapture(const LambdaCapture *C) { LambdaCaptureKind CK = C->getCaptureKind(); bool CapturesThis = C->capturesThis(); bool CapturesVariable = C->capturesVariable(); bool CapturesVLAType = C->capturesVLAType(); VarDecl *decl = C->capturesVariable() ? C->getCapturedVar() : nullptr; bool IsInitCapture = decl && decl->isInitCapture(); bool IsImplicit = C->isImplicit(); SourceRange source_range = C->getLocation(); bool IsPackExpansion = C->isPackExpansion(); ObjectScope Scope(OF, 2 + CapturesThis + CapturesVariable + CapturesVLAType + IsInitCapture + (bool)decl + IsImplicit + IsPackExpansion); OF.emitTag("capture_kind"); switch (CK) { case LCK_This: OF.emitSimpleVariant("LCK_This"); break; case LCK_ByCopy: OF.emitSimpleVariant("LCK_ByCopy"); break; case LCK_ByRef: OF.emitSimpleVariant("LCK_ByRef"); break; case LCK_VLAType: OF.emitSimpleVariant("LCK_VLAType"); break; case LCK_StarThis: OF.emitSimpleVariant("LCK_StarThis"); break; }; OF.emitFlag("capture_this", CapturesThis); OF.emitFlag("capture_variable", CapturesVariable); OF.emitFlag("capture_VLAtype", CapturesVLAType); if (decl) { if (IsInitCapture) { OF.emitTag("init_captured_vardecl"); dumpDecl(decl); } OF.emitTag("captured_var"); dumpDeclRef(*decl); } OF.emitFlag("is_implicit", IsImplicit); OF.emitTag("location"); dumpSourceRange(source_range); OF.emitFlag("is_pack_expansion", IsPackExpansion); } template int ASTExporter::CXXRecordDeclTupleSize() { return RecordDeclTupleSize() + 1; } //@atd #define cxx_record_decl_tuple record_decl_tuple * cxx_record_decl_info //@atd type cxx_record_decl_info = { //@atd ~bases : type_ptr list; //@atd ~vbases : type_ptr list; //@atd ~transitive_vbases : type_ptr list; //@atd ~is_pod : bool; //@atd ?destructor : decl_ref option; //@atd ?lambda_call_operator : decl_ref option; //@atd ~lambda_captures : lambda_capture_info list; //@atd } template void ASTExporter::VisitCXXRecordDecl(const CXXRecordDecl *D) { VisitRecordDecl(D); if (!D->isCompleteDefinition()) { // We need to return early here. Otherwise plugin will crash. // It looks like CXXRecordDecl may be initialized with garbage. // Not sure what to do when we'll have some non-optional data to generate?? ObjectScope Scope(OF, 0); return; } // getNumBases and getNumVBases are not reliable, extract this info // directly from what is going to be dumped SmallVector nonVBases; SmallVector vBases; for (const auto base : D->bases()) { if (base.isVirtual()) { vBases.push_back(base); } else { nonVBases.push_back(base); } } bool HasVBases = vBases.size() > 0; bool HasNonVBases = nonVBases.size() > 0; unsigned numTransitiveVBases = D->getNumVBases(); bool HasTransitiveVBases = numTransitiveVBases > 0; bool IsPOD = D->isPOD(); const CXXDestructorDecl *DestructorDecl = D->getDestructor(); const CXXMethodDecl *LambdaCallOperator = D->getLambdaCallOperator(); auto I = D->captures_begin(), E = D->captures_end(); ObjectScope Scope(OF, 0 + HasNonVBases + HasVBases + HasTransitiveVBases + IsPOD + (bool)DestructorDecl + (bool)LambdaCallOperator + (I != E)); if (HasNonVBases) { OF.emitTag("bases"); ArrayScope aScope(OF, nonVBases.size()); for (const auto base : nonVBases) { dumpQualTypeNoQuals(base.getType()); } } if (HasVBases) { OF.emitTag("vbases"); ArrayScope aScope(OF, vBases.size()); for (const auto base : vBases) { dumpQualTypeNoQuals(base.getType()); } } if (HasTransitiveVBases) { OF.emitTag("transitive_vbases"); ArrayScope aScope(OF, numTransitiveVBases); for (const auto base : D->vbases()) { dumpQualTypeNoQuals(base.getType()); } } OF.emitFlag("is_pod", IsPOD); if (DestructorDecl) { OF.emitTag("destructor"); dumpDeclRef(*DestructorDecl); } if (LambdaCallOperator) { OF.emitTag("lambda_call_operator"); dumpDeclRef(*LambdaCallOperator); } if (I != E) { OF.emitTag("lambda_captures"); ArrayScope Scope(OF, std::distance(I, E)); for (; I != E; ++I) { dumpClassLambdaCapture(I); } } } //@atd type template_instantiation_arg_info = [ //@atd | Null //@atd | Type of qual_type //@atd | Declaration of pointer //@atd | NullPtr //@atd | Integral of string //@atd | Template //@atd | TemplateExpansion //@atd | Expression //@atd | Pack of template_instantiation_arg_info list //@atd ] template void ASTExporter::dumpTemplateArgument(const TemplateArgument &Arg) { switch (Arg.getKind()) { case TemplateArgument::Null: OF.emitSimpleVariant("Null"); break; case TemplateArgument::Type: { VariantScope Scope(OF, "Type"); dumpQualType(Arg.getAsType()); break; } case TemplateArgument::Declaration: { VariantScope Scope(OF, "Declaration"); dumpPointer(Arg.getAsDecl()); break; } case TemplateArgument::NullPtr: OF.emitSimpleVariant("NullPtr"); break; case TemplateArgument::Integral: { VariantScope Scope(OF, "Integral"); OF.emitString(Arg.getAsIntegral().toString(10)); break; } case TemplateArgument::Template: { OF.emitSimpleVariant("Template"); break; } case TemplateArgument::TemplateExpansion: { OF.emitSimpleVariant("TemplateExpansion"); break; } case TemplateArgument::Expression: { OF.emitSimpleVariant("Expression"); break; } case TemplateArgument::Pack: { VariantScope Scope(OF, "Pack"); ArrayScope aScope(OF, Arg.pack_size()); for (TemplateArgument::pack_iterator I = Arg.pack_begin(), E = Arg.pack_end(); I != E; ++I) { dumpTemplateArgument(*I); } break; } } } //@atd type template_specialization_info = { //@atd template_decl : pointer; //@atd ~specialization_args : template_instantiation_arg_info list; //@atd } template void ASTExporter::dumpTemplateSpecialization( const TemplateDecl *D, const TemplateArgumentList &Args) { bool HasTemplateArgs = Args.size() > 0; ObjectScope oScope(OF, 1 + HasTemplateArgs); OF.emitTag("template_decl"); dumpPointer(D); if (HasTemplateArgs) { OF.emitTag("specialization_args"); ArrayScope aScope(OF, Args.size()); for (size_t i = 0; i < Args.size(); i++) { dumpTemplateArgument(Args[i]); } } } template int ASTExporter::ClassTemplateSpecializationDeclTupleSize() { return CXXRecordDeclTupleSize() + 2; } //@atd #define class_template_specialization_decl_tuple cxx_record_decl_tuple * string * template_specialization_info template void ASTExporter::VisitClassTemplateSpecializationDecl( const ClassTemplateSpecializationDecl *D) { VisitCXXRecordDecl(D); bool ShouldMangleName = Mangler->shouldMangleDeclName(D) && (isa(D) || isa(D)); if (ShouldMangleName) { SmallString<64> Buf; llvm::raw_svector_ostream StrOS(Buf); Mangler->mangleName(D, StrOS); // mangled names can get ridiculously long, so hash them to a fixed size OF.emitString(std::to_string(fnv64Hash(StrOS))); } else { OF.emitString(""); } dumpTemplateSpecialization(D->getSpecializedTemplate(), D->getTemplateArgs()); } template int ASTExporter::CXXMethodDeclTupleSize() { return FunctionDeclTupleSize() + 1; } //@atd #define cxx_method_decl_tuple function_decl_tuple * cxx_method_decl_info //@atd type cxx_method_decl_info = { //@atd ~is_virtual : bool; //@atd ~is_static : bool; //@atd ~cxx_ctor_initializers : cxx_ctor_initializer list; //@atd ~overriden_methods : decl_ref list; //@atd } template void ASTExporter::VisitCXXMethodDecl(const CXXMethodDecl *D) { VisitFunctionDecl(D); bool IsVirtual = D->isVirtual(); bool IsStatic = D->isStatic(); const CXXConstructorDecl *C = dyn_cast(D); bool HasCtorInitializers = C && C->init_begin() != C->init_end(); auto OB = D->begin_overridden_methods(); auto OE = D->end_overridden_methods(); ObjectScope Scope( OF, IsVirtual + IsStatic + HasCtorInitializers + (OB != OE)); OF.emitFlag("is_virtual", IsVirtual); OF.emitFlag("is_static", IsStatic); if (HasCtorInitializers) { OF.emitTag("cxx_ctor_initializers"); ArrayScope Scope(OF, std::distance(C->init_begin(), C->init_end())); for (auto I : C->inits()) { dumpCXXCtorInitializer(*I); } } if (OB != OE) { OF.emitTag("overriden_methods"); ArrayScope Scope(OF, std::distance(OB, OE)); for (; OB != OE; ++OB) { dumpDeclRef(**OB); } } } template int ASTExporter::ClassTemplateDeclTupleSize() { return ASTExporter::RedeclarableTemplateDeclTupleSize() + 1; } //@atd #define class_template_decl_tuple redeclarable_template_decl_tuple * template_decl_info //@atd type template_decl_info = { //@atd ~specializations : decl list; //@atd } template void ASTExporter::VisitClassTemplateDecl( const ClassTemplateDecl *D) { ASTExporter::VisitRedeclarableTemplateDecl(D); std::vector DeclsToDump; if (D == D->getCanonicalDecl()) { // dump specializations once for (const auto *spec : D->specializations()) { switch (spec->getTemplateSpecializationKind()) { case TSK_Undeclared: case TSK_ImplicitInstantiation: DeclsToDump.push_back(spec); break; case TSK_ExplicitSpecialization: case TSK_ExplicitInstantiationDeclaration: case TSK_ExplicitInstantiationDefinition: // these specializations will be dumped elsewhere break; } } } bool ShouldDumpSpecializations = !DeclsToDump.empty(); ObjectScope Scope(OF, 0 + ShouldDumpSpecializations); if (ShouldDumpSpecializations) { OF.emitTag("specializations"); ArrayScope aScope(OF, DeclsToDump.size()); for (const auto *spec : DeclsToDump) { dumpDecl(spec); } } } template int ASTExporter::FunctionTemplateDeclTupleSize() { return ASTExporter::RedeclarableTemplateDeclTupleSize() + 1; } //@atd #define function_template_decl_tuple redeclarable_template_decl_tuple * template_decl_info template void ASTExporter::VisitFunctionTemplateDecl( const FunctionTemplateDecl *D) { ASTExporter::VisitRedeclarableTemplateDecl(D); std::vector DeclsToDump; if (D == D->getCanonicalDecl()) { // dump specializations once for (const auto *spec : D->specializations()) { switch (spec->getTemplateSpecializationKind()) { case TSK_Undeclared: case TSK_ImplicitInstantiation: case TSK_ExplicitInstantiationDefinition: case TSK_ExplicitInstantiationDeclaration: DeclsToDump.push_back(spec); break; case TSK_ExplicitSpecialization: // these specializations will be dumped when they are defined break; } } } bool ShouldDumpSpecializations = !DeclsToDump.empty(); ObjectScope Scope(OF, 0 + ShouldDumpSpecializations); if (ShouldDumpSpecializations) { OF.emitTag("specializations"); ArrayScope aScope(OF, DeclsToDump.size()); for (const auto *spec : DeclsToDump) { dumpDecl(spec); } } } template int ASTExporter::FriendDeclTupleSize() { return DeclTupleSize() + 1; } //@atd #define friend_decl_tuple decl_tuple * friend_info //@atd type friend_info = [ Type of type_ptr | Decl of decl ] template void ASTExporter::VisitFriendDecl(const FriendDecl *D) { VisitDecl(D); if (TypeSourceInfo *T = D->getFriendType()) { VariantScope Scope(OF, "Type"); dumpQualTypeNoQuals(T->getType()); } else { VariantScope Scope(OF, "Decl"); dumpDecl(D->getFriendDecl()); } } // template // void ASTExporter::VisitTypeAliasDecl(const TypeAliasDecl *D) { // dumpName(D); // dumpQualType(D->getUnderlyingType()); //} // // template // void ASTExporter::VisitTypeAliasTemplateDecl(const // TypeAliasTemplateDecl *D) { // dumpName(D); // dumpTemplateParameters(D->getTemplateParameters()); // dumpDecl(D->getTemplatedDecl()); //} // template // void ASTExporter::VisitStaticAssertDecl(const StaticAssertDecl *D) // { // dumpStmt(D->getAssertExpr()); // dumpStmt(D->getMessage()); //} // // template // void ASTExporter::VisitFunctionTemplateDecl(const // FunctionTemplateDecl *D) { // dumpName(D); // dumpTemplateParameters(D->getTemplateParameters()); // dumpDecl(D->getTemplatedDecl()); // for (FunctionTemplateDecl::spec_iterator I = D->spec_begin(), // E = D->spec_end(); // I != E; ++I) { // FunctionTemplateDecl::spec_iterator Next = I; // ++Next; // switch (I->getTemplateSpecializationKind()) { // case TSK_Undeclared: // case TSK_ImplicitInstantiation: // case TSK_ExplicitInstantiationDeclaration: // case TSK_ExplicitInstantiationDefinition: // if (D == D->getCanonicalDecl()) // dumpDecl(*I); // else // dumpDeclRef(*I); // break; // case TSK_ExplicitSpecialization: // dumpDeclRef(*I); // break; // } // } //} // // template // void ASTExporter::VisitClassTemplateDecl(const ClassTemplateDecl // *D) { // dumpName(D); // dumpTemplateParameters(D->getTemplateParameters()); // // ClassTemplateDecl::spec_iterator I = D->spec_begin(); // ClassTemplateDecl::spec_iterator E = D->spec_end(); // dumpDecl(D->getTemplatedDecl()); // for (; I != E; ++I) { // ClassTemplateDecl::spec_iterator Next = I; // ++Next; // switch (I->getTemplateSpecializationKind()) { // case TSK_Undeclared: // case TSK_ImplicitInstantiation: // if (D == D->getCanonicalDecl()) // dumpDecl(*I); // else // dumpDeclRef(*I); // break; // case TSK_ExplicitSpecialization: // case TSK_ExplicitInstantiationDeclaration: // case TSK_ExplicitInstantiationDefinition: // dumpDeclRef(*I); // break; // } // } //} // // template // void ASTExporter::VisitClassTemplateSpecializationDecl( // const ClassTemplateSpecializationDecl *D) { // VisitCXXRecordDecl(D); // dumpTemplateArgumentList(D->getTemplateArgs()); //} // // template // void ASTExporter::VisitClassTemplatePartialSpecializationDecl( // const ClassTemplatePartialSpecializationDecl *D) { // VisitClassTemplateSpecializationDecl(D); // dumpTemplateParameters(D->getTemplateParameters()); //} // // template // void ASTExporter::VisitClassScopeFunctionSpecializationDecl( // const ClassScopeFunctionSpecializationDecl *D) { // dumpDeclRef(D->getSpecialization()); // if (D->hasExplicitTemplateArgs()) // dumpTemplateArgumentListInfo(D->templateArgs()); //} // // template // void ASTExporter::VisitVarTemplateDecl(const VarTemplateDecl *D) { // dumpName(D); // dumpTemplateParameters(D->getTemplateParameters()); // // VarTemplateDecl::spec_iterator I = D->spec_begin(); // VarTemplateDecl::spec_iterator E = D->spec_end(); // dumpDecl(D->getTemplatedDecl()); // for (; I != E; ++I) { // VarTemplateDecl::spec_iterator Next = I; // ++Next; // switch (I->getTemplateSpecializationKind()) { // case TSK_Undeclared: // case TSK_ImplicitInstantiation: // if (D == D->getCanonicalDecl()) // dumpDecl(*I); // else // dumpDeclRef(*I); // break; // case TSK_ExplicitSpecialization: // case TSK_ExplicitInstantiationDeclaration: // case TSK_ExplicitInstantiationDefinition: // dumpDeclRef(*I); // break; // } // } //} // // template // void ASTExporter::VisitVarTemplateSpecializationDecl( // const VarTemplateSpecializationDecl *D) { // dumpTemplateArgumentList(D->getTemplateArgs()); // VisitVarDecl(D); //} // // template // void ASTExporter::VisitVarTemplatePartialSpecializationDecl( // const VarTemplatePartialSpecializationDecl *D) { // dumpTemplateParameters(D->getTemplateParameters()); // VisitVarTemplateSpecializationDecl(D); //} // // template // void ASTExporter::VisitTemplateTypeParmDecl(const // TemplateTypeParmDecl *D) { // if (D->wasDeclaredWithTypename()) // OS << " typename"; // else // OS << " class"; // if (D->isParameterPack()) // OS << " ..."; // dumpName(D); // if (D->hasDefaultArgument()) // dumpQualType(D->getDefaultArgument()); //} // // template // void ASTExporter::VisitNonTypeTemplateParmDecl(const // NonTypeTemplateParmDecl *D) { // dumpQualType(D->getType()); // if (D->isParameterPack()) // OS << " ..."; // dumpName(D); // if (D->hasDefaultArgument()) // dumpStmt(D->getDefaultArgument()); //} // // template // void ASTExporter::VisitTemplateTemplateParmDecl( // const TemplateTemplateParmDecl *D) { // if (D->isParameterPack()) // OS << " ..."; // dumpName(D); // dumpTemplateParameters(D->getTemplateParameters()); // if (D->hasDefaultArgument()) // dumpTemplateArgumentLoc(D->getDefaultArgument()); //} // // template // void ASTExporter::VisitUsingDecl(const UsingDecl *D) { // OS << ' '; // D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); // OS << D->getNameAsString(); //} // // template // void ASTExporter::VisitUnresolvedUsingTypenameDecl( // const UnresolvedUsingTypenameDecl *D) { // OS << ' '; // D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); // OS << D->getNameAsString(); //} // // template // void ASTExporter::VisitUnresolvedUsingValueDecl(const // UnresolvedUsingValueDecl *D) { // OS << ' '; // D->getQualifier()->print(OS, D->getASTContext().getPrintingPolicy()); // OS << D->getNameAsString(); // dumpQualType(D->getType()); //} // // template // void ASTExporter::VisitUsingShadowDecl(const UsingShadowDecl *D) { // OS << ' '; // dumpDeclRef(D->getTargetDecl()); //} // // template // void ASTExporter::VisitLinkageSpecDecl(const LinkageSpecDecl *D) { // switch (D->getLanguage()) { // case LinkageSpecDecl::lang_c: OS << " C"; break; // case LinkageSpecDecl::lang_cxx: OS << " C++"; break; // } //} // // template // void ASTExporter::VisitAccessSpecDecl(const AccessSpecDecl *D) { // OS << ' '; // dumpAccessSpecifier(D->getAccess()); //} // // ////===----------------------------------------------------------------------===// //// Obj-C Declarations ////===----------------------------------------------------------------------===// template int ASTExporter::ObjCIvarDeclTupleSize() { return FieldDeclTupleSize() + 1; } //@atd #define obj_c_ivar_decl_tuple field_decl_tuple * obj_c_ivar_decl_info //@atd type obj_c_ivar_decl_info = { //@atd ~is_synthesize : bool; //@atd ~access_control : obj_c_access_control; //@atd } //@atd type obj_c_access_control = [ None | Private | Protected | Public | Package //@atd ] template void ASTExporter::VisitObjCIvarDecl(const ObjCIvarDecl *D) { VisitFieldDecl(D); bool IsSynthesize = D->getSynthesize(); ObjCIvarDecl::AccessControl AC = D->getAccessControl(); bool ShouldEmitAC = AC != ObjCIvarDecl::None; ObjectScope Scope(OF, IsSynthesize + ShouldEmitAC); // not covered by tests OF.emitFlag("is_synthesize", IsSynthesize); if (ShouldEmitAC) { OF.emitTag("access_control"); switch (AC) { case ObjCIvarDecl::Private: OF.emitSimpleVariant("Private"); break; case ObjCIvarDecl::Protected: OF.emitSimpleVariant("Protected"); break; case ObjCIvarDecl::Public: OF.emitSimpleVariant("Public"); break; case ObjCIvarDecl::Package: OF.emitSimpleVariant("Package"); break; case ObjCIvarDecl::None: llvm_unreachable("unreachable"); break; } } } template int ASTExporter::ObjCMethodDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define obj_c_method_decl_tuple named_decl_tuple * obj_c_method_decl_info //@atd type obj_c_method_decl_info = { //@atd ~is_instance_method : bool; //@atd result_type : qual_type; //@atd ~is_property_accessor : bool; //@atd ?property_decl : decl_ref option; //@atd ~parameters : decl list; //@atd ~implicit_parameters : decl list; //@atd ~is_variadic : bool; //@atd ~is_overriding : bool; //@atd ~is_optional : bool; //@atd ?body : stmt option; //@atd ~mangled_name : string; //@atd } template void ASTExporter::VisitObjCMethodDecl(const ObjCMethodDecl *D) { VisitNamedDecl(D); // We purposedly do not call VisitDeclContext(D). bool IsInstanceMethod = D->isInstanceMethod(); bool IsPropertyAccessor = D->isPropertyAccessor(); const ObjCPropertyDecl *PropertyDecl = nullptr; std::string selectorName = D->getSelector().getAsString(); // work around bug in clang if (selectorName != ".cxx_construct" && selectorName != ".cxx_destruct") { PropertyDecl = D->findPropertyDecl(); } ObjCMethodDecl::param_const_iterator I = D->param_begin(), E = D->param_end(); bool HasParameters = I != E; std::vector ImplicitParams; if (D->getSelfDecl()) { ImplicitParams.push_back(D->getSelfDecl()); } if (D->getCmdDecl()) { ImplicitParams.push_back(D->getCmdDecl()); } bool HasImplicitParameters = !ImplicitParams.empty(); bool IsVariadic = D->isVariadic(); bool IsOverriding = D->isOverriding(); bool IsOptional = D->isOptional(); const Stmt *Body = D->getBody(); SmallString<64> Buf; llvm::raw_svector_ostream StrOS(Buf); Mangler->mangleObjCMethodNameWithoutSize(D, StrOS); std::string MangledName = StrOS.str().str(); ObjectScope Scope(OF, 1 + IsInstanceMethod + IsPropertyAccessor + (bool)PropertyDecl + HasParameters + HasImplicitParameters + IsVariadic + IsOverriding + IsOptional + (bool)Body + 1 /*MangledName */); OF.emitFlag("is_instance_method", IsInstanceMethod); OF.emitTag("result_type"); dumpQualType(D->getReturnType()); OF.emitFlag("is_property_accessor", IsPropertyAccessor); if (PropertyDecl) { OF.emitTag("property_decl"); dumpDeclRef(*PropertyDecl); } if (HasParameters) { OF.emitTag("parameters"); ArrayScope Scope(OF, std::distance(I, E)); for (; I != E; ++I) { dumpDecl(*I); } } if (HasImplicitParameters) { OF.emitTag("implicit_parameters"); ArrayScope Scope(OF, ImplicitParams.size()); for (const ImplicitParamDecl *P : ImplicitParams) { dumpDecl(P); } } OF.emitFlag("is_variadic", IsVariadic); OF.emitFlag("is_overriding", IsOverriding); OF.emitFlag("is_optional", IsOptional); if (Body) { OF.emitTag("body"); dumpStmt(Body); } OF.emitTag("mangled_name"); OF.emitString(MangledName); } template int ASTExporter::ObjCCategoryDeclTupleSize() { return ObjCContainerDeclTupleSize() + 1; } //@atd #define obj_c_category_decl_tuple obj_c_container_decl_tuple * obj_c_category_decl_info //@atd type obj_c_category_decl_info = { //@atd ?class_interface : decl_ref option; //@atd ?implementation : decl_ref option; //@atd ~protocols : decl_ref list; //@atd } template void ASTExporter::VisitObjCCategoryDecl(const ObjCCategoryDecl *D) { VisitObjCContainerDecl(D); const ObjCInterfaceDecl *CI = D->getClassInterface(); const ObjCCategoryImplDecl *Impl = D->getImplementation(); ObjCCategoryDecl::protocol_iterator I = D->protocol_begin(), E = D->protocol_end(); bool HasProtocols = I != E; ObjectScope Scope( OF, 0 + (bool)CI + (bool)Impl + HasProtocols); // not covered by tests if (CI) { OF.emitTag("class_interface"); dumpDeclRef(*CI); } if (Impl) { OF.emitTag("implementation"); dumpDeclRef(*Impl); } if (HasProtocols) { OF.emitTag("protocols"); ArrayScope Scope(OF, std::distance(I, E)); // not covered by tests for (; I != E; ++I) { assert(*I); dumpDeclRef(**I); } } } template int ASTExporter::ObjCCategoryImplDeclTupleSize() { return ASTExporter::ObjCImplDeclTupleSize() + 1; } //@atd #define obj_c_category_impl_decl_tuple obj_c_impl_decl_tuple * obj_c_category_impl_decl_info //@atd type obj_c_category_impl_decl_info = { //@atd ?class_interface : decl_ref option; //@atd ?category_decl : decl_ref option; //@atd } template void ASTExporter::VisitObjCCategoryImplDecl( const ObjCCategoryImplDecl *D) { ASTExporter::VisitObjCImplDecl(D); const ObjCInterfaceDecl *CI = D->getClassInterface(); const ObjCCategoryDecl *CD = D->getCategoryDecl(); ObjectScope Scope(OF, 0 + (bool)CI + (bool)CD); // not covered by tests if (CI) { OF.emitTag("class_interface"); dumpDeclRef(*CI); } if (CD) { OF.emitTag("category_decl"); dumpDeclRef(*CD); } } template int ASTExporter::ObjCProtocolDeclTupleSize() { return ObjCContainerDeclTupleSize() + 1; } //@atd #define obj_c_protocol_decl_tuple obj_c_container_decl_tuple * obj_c_protocol_decl_info //@atd type obj_c_protocol_decl_info = { //@atd ~protocols : decl_ref list; //@atd } template void ASTExporter::VisitObjCProtocolDecl(const ObjCProtocolDecl *D) { ASTExporter::VisitObjCContainerDecl(D); ObjCCategoryDecl::protocol_iterator I = D->protocol_begin(), E = D->protocol_end(); bool HasProtocols = I != E; ObjectScope Scope(OF, 0 + HasProtocols); // not covered by tests if (HasProtocols) { OF.emitTag("protocols"); ArrayScope Scope(OF, std::distance(I, E)); // not covered by tests for (; I != E; ++I) { assert(*I); dumpDeclRef(**I); } } } template int ASTExporter::ObjCInterfaceDeclTupleSize() { return ObjCContainerDeclTupleSize() + 1; } //@atd #define obj_c_interface_decl_tuple obj_c_container_decl_tuple * obj_c_interface_decl_info //@atd type obj_c_interface_decl_info = { //@atd ?super : decl_ref option; //@atd ?implementation : decl_ref option; //@atd ~protocols : decl_ref list; //@atd ~known_categories : decl_ref list; //@atd } template void ASTExporter::VisitObjCInterfaceDecl( const ObjCInterfaceDecl *D) { VisitObjCContainerDecl(D); const ObjCInterfaceDecl *SC = D->getSuperClass(); const ObjCImplementationDecl *Impl = D->getImplementation(); ObjCInterfaceDecl::protocol_iterator IP = D->protocol_begin(), EP = D->protocol_end(); bool HasProtocols = IP != EP; ObjCInterfaceDecl::known_categories_iterator IC = D->known_categories_begin(), EC = D->known_categories_end(); bool HasKnownCategories = IC != EC; ObjectScope Scope( OF, 0 + (bool)SC + (bool)Impl + HasProtocols + HasKnownCategories); if (SC) { OF.emitTag("super"); dumpDeclRef(*SC); } if (Impl) { OF.emitTag("implementation"); dumpDeclRef(*Impl); } if (HasProtocols) { OF.emitTag("protocols"); ArrayScope Scope(OF, std::distance(IP, EP)); for (; IP != EP; ++IP) { assert(*IP); dumpDeclRef(**IP); } } if (HasKnownCategories) { OF.emitTag("known_categories"); ArrayScope Scope(OF, std::distance(IC, EC)); for (; IC != EC; ++IC) { assert(*IC); dumpDeclRef(**IC); } } } template int ASTExporter::ObjCImplementationDeclTupleSize() { return ASTExporter::ObjCImplDeclTupleSize() + 1; } //@atd #define obj_c_implementation_decl_tuple obj_c_impl_decl_tuple * obj_c_implementation_decl_info //@atd type obj_c_implementation_decl_info = { //@atd ?super : decl_ref option; //@atd ?class_interface : decl_ref option; //@atd ~ivar_initializers : cxx_ctor_initializer list; //@atd } template void ASTExporter::VisitObjCImplementationDecl( const ObjCImplementationDecl *D) { ASTExporter::VisitObjCImplDecl(D); const ObjCInterfaceDecl *SC = D->getSuperClass(); const ObjCInterfaceDecl *CI = D->getClassInterface(); ObjCImplementationDecl::init_const_iterator I = D->init_begin(), E = D->init_end(); bool HasInitializers = I != E; ObjectScope Scope(OF, 0 + (bool)SC + (bool)CI + HasInitializers); if (SC) { OF.emitTag("super"); dumpDeclRef(*SC); } if (CI) { OF.emitTag("class_interface"); dumpDeclRef(*CI); } if (HasInitializers) { OF.emitTag("ivar_initializers"); ArrayScope Scope(OF, std::distance(I, E)); // not covered by tests for (; I != E; ++I) { assert(*I); dumpCXXCtorInitializer(**I); } } } template int ASTExporter::ObjCCompatibleAliasDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define obj_c_compatible_alias_decl_tuple named_decl_tuple * obj_c_compatible_alias_decl_info //@atd type obj_c_compatible_alias_decl_info = { //@atd ?class_interface : decl_ref option; //@atd } template void ASTExporter::VisitObjCCompatibleAliasDecl( const ObjCCompatibleAliasDecl *D) { VisitNamedDecl(D); const ObjCInterfaceDecl *CI = D->getClassInterface(); ObjectScope Scope(OF, 0 + (bool)CI); // not covered by tests if (CI) { OF.emitTag("class_interface"); dumpDeclRef(*CI); } } template int ASTExporter::ObjCPropertyDeclTupleSize() { return NamedDeclTupleSize() + 1; } //@atd #define obj_c_property_decl_tuple named_decl_tuple * obj_c_property_decl_info //@atd type obj_c_property_decl_info = { //@atd qual_type : qual_type; //@atd ?getter_method : decl_ref option; //@atd ?setter_method : decl_ref option; //@atd ?ivar_decl : decl_ref option; //@atd ~property_control : obj_c_property_control; //@atd ~property_attributes : property_attribute list //@atd } //@atd type obj_c_property_control = [ None | Required | Optional ] //@atd type property_attribute = [ //@atd Readonly //@atd | Assign //@atd | Readwrite //@atd | Retain //@atd | Copy //@atd | Nonatomic //@atd | Atomic //@atd | Weak //@atd | Strong //@atd | Unsafe_unretained //@atd | ExplicitGetter //@atd | ExplicitSetter //@atd ] template void ASTExporter::VisitObjCPropertyDecl(const ObjCPropertyDecl *D) { VisitNamedDecl(D); ObjCPropertyDecl::PropertyControl PC = D->getPropertyImplementation(); bool HasPropertyControl = PC != ObjCPropertyDecl::None; ObjCPropertyAttribute::Kind Attrs = D->getPropertyAttributes(); bool HasPropertyAttributes = Attrs != ObjCPropertyAttribute::kind_noattr; ObjCMethodDecl *Getter = D->getGetterMethodDecl(); ObjCMethodDecl *Setter = D->getSetterMethodDecl(); ObjCIvarDecl *Ivar = D->getPropertyIvarDecl(); ObjectScope Scope(OF, 1 + (bool)Getter + (bool)Setter + (bool)Ivar + HasPropertyControl + HasPropertyAttributes); // not covered by tests OF.emitTag("qual_type"); dumpQualType(D->getType()); if (Getter) { OF.emitTag("getter_method"); dumpDeclRef(*Getter); } if (Setter) { OF.emitTag("setter_method"); dumpDeclRef(*Setter); } if (Ivar) { OF.emitTag("ivar_decl"); dumpDeclRef(*Ivar); } if (HasPropertyControl) { OF.emitTag("property_control"); switch (PC) { case ObjCPropertyDecl::Required: OF.emitSimpleVariant("Required"); break; case ObjCPropertyDecl::Optional: OF.emitSimpleVariant("Optional"); break; default: OF.emitSimpleVariant("None"); break; } } if (HasPropertyAttributes) { OF.emitTag("property_attributes"); bool readonly = Attrs & ObjCPropertyAttribute::kind_readonly; bool assign = Attrs & ObjCPropertyAttribute::kind_assign; bool readwrite = Attrs & ObjCPropertyAttribute::kind_readwrite; bool retain = Attrs & ObjCPropertyAttribute::kind_retain; bool copy = Attrs & ObjCPropertyAttribute::kind_copy; bool nonatomic = Attrs & ObjCPropertyAttribute::kind_nonatomic; bool atomic = Attrs & ObjCPropertyAttribute::kind_atomic; bool weak = Attrs & ObjCPropertyAttribute::kind_weak; bool strong = Attrs & ObjCPropertyAttribute::kind_strong; bool unsafeUnretained = Attrs & ObjCPropertyAttribute::kind_unsafe_unretained; bool getter = Attrs & ObjCPropertyAttribute::kind_getter; bool setter = Attrs & ObjCPropertyAttribute::kind_setter; int toEmit = readonly + assign + readwrite + retain + copy + nonatomic + atomic + weak + strong + unsafeUnretained + getter + setter; ArrayScope Scope(OF, toEmit); if (readonly) OF.emitSimpleVariant("Readonly"); if (assign) OF.emitSimpleVariant("Assign"); if (readwrite) OF.emitSimpleVariant("Readwrite"); if (retain) OF.emitSimpleVariant("Retain"); if (copy) OF.emitSimpleVariant("Copy"); if (nonatomic) OF.emitSimpleVariant("Nonatomic"); if (atomic) OF.emitSimpleVariant("Atomic"); if (weak) OF.emitSimpleVariant("Weak"); if (strong) OF.emitSimpleVariant("Strong"); if (unsafeUnretained) OF.emitSimpleVariant("Unsafe_unretained"); if (getter) { OF.emitSimpleVariant("ExplicitGetter"); } if (setter) { OF.emitSimpleVariant("ExplicitSetter"); } } } template int ASTExporter::ObjCPropertyImplDeclTupleSize() { return DeclTupleSize() + 1; } //@atd #define obj_c_property_impl_decl_tuple decl_tuple * obj_c_property_impl_decl_info //@atd type obj_c_property_impl_decl_info = { //@atd implementation : property_implementation; //@atd ?property_decl : decl_ref option; //@atd ?ivar_decl : decl_ref option; //@atd } //@atd type property_implementation = [ Synthesize | Dynamic ] template void ASTExporter::VisitObjCPropertyImplDecl( const ObjCPropertyImplDecl *D) { VisitDecl(D); const ObjCPropertyDecl *PD = D->getPropertyDecl(); const ObjCIvarDecl *ID = D->getPropertyIvarDecl(); ObjectScope Scope(OF, 1 + (bool)PD + (bool)ID); // not covered by tests OF.emitTag("implementation"); switch (D->getPropertyImplementation()) { case ObjCPropertyImplDecl::Synthesize: OF.emitSimpleVariant("Synthesize"); break; case ObjCPropertyImplDecl::Dynamic: OF.emitSimpleVariant("Dynamic"); break; } if (PD) { OF.emitTag("property_decl"); dumpDeclRef(*PD); } if (ID) { OF.emitTag("ivar_decl"); dumpDeclRef(*ID); } } template int ASTExporter::BlockDeclTupleSize() { return DeclTupleSize() + 1; } //@atd #define block_decl_tuple decl_tuple * block_decl_info //@atd type block_decl_info = { //@atd ~parameters : decl list; //@atd ~is_variadic : bool; //@atd ~captures_cxx_this : bool; //@atd ~captured_variables : block_captured_variable list; //@atd ?body : stmt option; //@atd ~mangled_name : string; //@atd } //@atd type block_captured_variable = { //@atd ~is_by_ref : bool; //@atd ~is_nested : bool; //@atd ?variable : decl_ref option; //@atd ?copy_expr : stmt option //@atd } template void ASTExporter::VisitBlockDecl(const BlockDecl *D) { VisitDecl(D); // We purposedly do not call VisitDeclContext(D). ObjCMethodDecl::param_const_iterator PCII = D->param_begin(), PCIE = D->param_end(); bool HasParameters = PCII != PCIE; bool IsVariadic = D->isVariadic(); bool CapturesCXXThis = D->capturesCXXThis(); BlockDecl::capture_const_iterator CII = D->capture_begin(), CIE = D->capture_end(); bool HasCapturedVariables = CII != CIE; const Stmt *Body = D->getBody(); std::string MangledName; const DeclContext *DC = D->getDeclContext(); if (auto ND = dyn_cast(DC)) { if (!isa(ND) && !isa(ND) && ND->getIdentifier()) { MangledName = ND->getIdentifier()->getName().str(); } else if (!isa(DC) && !isa(DC)) { SmallString<64> Buf; llvm::raw_svector_ostream StrOS(Buf); Mangler->mangleBlock(DC, D, StrOS); MangledName = StrOS.str().str(); } } int size = 0 + HasParameters + IsVariadic + CapturesCXXThis + HasCapturedVariables + (bool)Body; if (!MangledName.empty()) ++size; ObjectScope Scope(OF, size); // not covered by tests if (HasParameters) { OF.emitTag("parameters"); ArrayScope Scope(OF, std::distance(PCII, PCIE)); for (; PCII != PCIE; ++PCII) { dumpDecl(*PCII); } } OF.emitFlag("is_variadic", IsVariadic); OF.emitFlag("captures_cxx_this", CapturesCXXThis); if (HasCapturedVariables) { OF.emitTag("captured_variables"); ArrayScope Scope(OF, std::distance(CII, CIE)); for (; CII != CIE; ++CII) { bool IsByRef = CII->isByRef(); bool IsNested = CII->isNested(); bool HasVariable = CII->getVariable(); bool HasCopyExpr = CII->hasCopyExpr(); ObjectScope Scope(OF, 0 + IsByRef + IsNested + HasVariable + HasCopyExpr); // not covered by tests OF.emitFlag("is_by_ref", IsByRef); OF.emitFlag("is_nested", IsNested); if (HasVariable) { OF.emitTag("variable"); dumpDeclRef(*CII->getVariable()); } if (HasCopyExpr) { OF.emitTag("copy_expr"); dumpStmt(CII->getCopyExpr()); } } } if (Body) { OF.emitTag("body"); dumpStmt(Body); } if (!MangledName.empty()) { OF.emitTag("mangled_name"); OF.emitString(MangledName); } } // main variant for declarations //@atd type decl = [ #define DECL(DERIVED, BASE) //@atd | DERIVED@@Decl of (@DERIVED@_decl_tuple) #define ABSTRACT_DECL(DECL) #include //@atd ] //===----------------------------------------------------------------------===// // Stmt dumping methods. //===----------------------------------------------------------------------===// // Default aliases for generating variant components // The main variant is defined at the end of section. #define STMT(CLASS, PARENT) //@atd #define @CLASS@_tuple @PARENT@_tuple #define ABSTRACT_STMT(STMT) STMT #include // template void ASTExporter::dumpStmt(const Stmt *S) { if (!S) { // We use a fixed NullStmt node to represent null pointers S = NullPtrStmt; } VariantScope Scope(OF, S->getStmtClassName()); { TupleScope Scope(OF, ASTExporter::tupleSizeOfStmtClass(S->getStmtClass())); ConstStmtVisitor>::Visit(S); } } template int ASTExporter::StmtTupleSize() { return 2; } //@atd #define stmt_tuple stmt_info * stmt list //@atd type stmt_info = { //@atd pointer : pointer; //@atd source_range : source_range; //@atd } template void ASTExporter::VisitStmt(const Stmt *S) { { ObjectScope Scope(OF, 2); OF.emitTag("pointer"); dumpPointer(S); OF.emitTag("source_range"); dumpSourceRange(S->getSourceRange()); } { ArrayScope Scope(OF, std::distance(S->child_begin(), S->child_end())); for (const Stmt *CI : S->children()) { dumpStmt(CI); } } } template int ASTExporter::DeclStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define decl_stmt_tuple stmt_tuple * decl list template void ASTExporter::VisitDeclStmt(const DeclStmt *Node) { VisitStmt(Node); ArrayScope Scope(OF, std::distance(Node->decl_begin(), Node->decl_end())); for (auto I : Node->decls()) { dumpDecl(I); } } template int ASTExporter::IfStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define if_stmt_tuple stmt_tuple * if_stmt_info //@atd type if_stmt_info = { //@atd ?init : pointer option; //@atd ?cond_var : stmt option; //@atd cond : pointer; //@atd then : pointer; //@atd ?else : (pointer * source_location) option; //@atd } template void ASTExporter::VisitIfStmt(const IfStmt *Node) { VisitStmt(Node); const Stmt *Init = Node->getInit(); const DeclStmt *CondVar = Node->getConditionVariableDeclStmt(); bool hasElseStorage = Node->hasElseStorage(); ObjectScope Scope(OF, 2 + (bool)Init + (bool)CondVar + hasElseStorage); if (Init) { OF.emitTag("init"); dumpPointer(Init); } if (CondVar) { OF.emitTag("cond_var"); dumpStmt(CondVar); } OF.emitTag("cond"); dumpPointer(Node->getCond()); OF.emitTag("then"); dumpPointer(Node->getThen()); if (hasElseStorage) { OF.emitTag("else"); TupleScope Scope(OF, 2); dumpPointer(Node->getElse()); dumpSourceLocation(Node->getElseLoc()); } } template int ASTExporter::SwitchStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define switch_stmt_tuple stmt_tuple * switch_stmt_info //@atd type switch_stmt_info = { //@atd ?init : pointer option; //@atd ?cond_var : stmt option; //@atd cond : pointer; //@atd body : pointer; //@atd } template void ASTExporter::VisitSwitchStmt(const SwitchStmt *Node) { VisitStmt(Node); const Stmt *Init = Node->getInit(); const DeclStmt *CondVar = Node->getConditionVariableDeclStmt(); ObjectScope Scope(OF, 2 + (bool)Init + (bool)CondVar); if (Init) { OF.emitTag("init"); dumpPointer(Init); } if (CondVar) { OF.emitTag("cond_var"); dumpStmt(CondVar); } OF.emitTag("cond"); dumpPointer(Node->getCond()); OF.emitTag("body"); dumpPointer(Node->getBody()); } template int ASTExporter::AttributedStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define attributed_stmt_tuple stmt_tuple * attribute list template void ASTExporter::VisitAttributedStmt(const AttributedStmt *Node) { VisitStmt(Node); ArrayScope Scope(OF, Node->getAttrs().size()); // not covered by tests for (auto A : Node->getAttrs()) { dumpAttr(A); } } template int ASTExporter::LabelStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define label_stmt_tuple stmt_tuple * string template void ASTExporter::VisitLabelStmt(const LabelStmt *Node) { VisitStmt(Node); OF.emitString(Node->getName()); } template int ASTExporter::GotoStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define goto_stmt_tuple stmt_tuple * goto_stmt_info //@atd type goto_stmt_info = { //@atd label : string; //@atd pointer : pointer //@atd } template void ASTExporter::VisitGotoStmt(const GotoStmt *Node) { VisitStmt(Node); ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("label"); OF.emitString(Node->getLabel()->getName().str()); OF.emitTag("pointer"); dumpPointer(Node->getLabel()); } template int ASTExporter::CXXCatchStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define cxx_catch_stmt_tuple stmt_tuple * cxx_catch_stmt_info //@atd type cxx_catch_stmt_info = { //@atd ?variable : decl option //@atd } template void ASTExporter::VisitCXXCatchStmt(const CXXCatchStmt *Node) { VisitStmt(Node); const VarDecl *decl = Node->getExceptionDecl(); ObjectScope Scope(OF, 0 + (bool)decl); // not covered by tests if (decl) { OF.emitTag("variable"); dumpDecl(decl); } } ////===----------------------------------------------------------------------===// //// Expr dumping methods. ////===----------------------------------------------------------------------===// // template int ASTExporter::ExprTupleSize() { return StmtTupleSize() + 1; } //@atd #define expr_tuple stmt_tuple * expr_info //@atd type expr_info = { //@atd qual_type : qual_type; //@atd ~value_kind : value_kind; //@atd ~object_kind : object_kind; //@atd } //@atd type value_kind = [ RValue | LValue | XValue ] //@atd type object_kind = [ Ordinary | BitField | ObjCProperty | ObjCSubscript | //@atd VectorComponent ] template void ASTExporter::VisitExpr(const Expr *Node) { VisitStmt(Node); ExprValueKind VK = Node->getValueKind(); bool HasNonDefaultValueKind = VK != VK_RValue; ExprObjectKind OK = Node->getObjectKind(); bool HasNonDefaultObjectKind = OK != OK_Ordinary; ObjectScope Scope(OF, 1 + HasNonDefaultValueKind + HasNonDefaultObjectKind); OF.emitTag("qual_type"); dumpQualType(Node->getType()); if (HasNonDefaultValueKind) { OF.emitTag("value_kind"); switch (VK) { case VK_LValue: OF.emitSimpleVariant("LValue"); break; case VK_XValue: OF.emitSimpleVariant("XValue"); break; case VK_RValue: llvm_unreachable("unreachable"); break; } } if (HasNonDefaultObjectKind) { OF.emitTag("object_kind"); switch (Node->getObjectKind()) { case OK_BitField: OF.emitSimpleVariant("BitField"); break; case OK_ObjCProperty: OF.emitSimpleVariant("ObjCProperty"); break; case OK_ObjCSubscript: OF.emitSimpleVariant("ObjCSubscript"); break; case OK_VectorComponent: OF.emitSimpleVariant("VectorComponent"); break; case OK_MatrixComponent: OF.emitSimpleVariant("MatrixComponent"); break; case OK_Ordinary: llvm_unreachable("unreachable"); break; } } } //@atd type cxx_base_specifier = { //@atd name : string; //@atd ~virtual : bool; //@atd } template void ASTExporter::dumpCXXBaseSpecifier( const CXXBaseSpecifier &Base) { bool IsVirtual = Base.isVirtual(); ObjectScope Scope(OF, 1 + IsVirtual); OF.emitTag("name"); const CXXRecordDecl *RD = cast(Base.getType()->getAs()->getDecl()); OF.emitString(RD->getName().str()); OF.emitFlag("virtual", IsVirtual); } template int ASTExporter::CastExprTupleSize() { return ExprTupleSize() + 1; } //@atd type cast_kind = [ #define CAST_OPERATION(NAME) //@atd | NAME #include //@atd ] //@atd #define cast_expr_tuple expr_tuple * cast_expr_info //@atd type cast_expr_info = { //@atd cast_kind : cast_kind; //@atd base_path : cxx_base_specifier list; //@atd } template void ASTExporter::VisitCastExpr(const CastExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 2); OF.emitTag("cast_kind"); OF.emitSimpleVariant(Node->getCastKindName()); OF.emitTag("base_path"); { auto I = Node->path_begin(), E = Node->path_end(); ArrayScope Scope(OF, std::distance(I, E)); for (; I != E; ++I) { dumpCXXBaseSpecifier(**I); } } } template int ASTExporter::ExplicitCastExprTupleSize() { return CastExprTupleSize() + 1; } //@atd #define explicit_cast_expr_tuple cast_expr_tuple * qual_type template void ASTExporter::VisitExplicitCastExpr( const ExplicitCastExpr *Node) { VisitCastExpr(Node); dumpQualType(Node->getTypeAsWritten()); } template int ASTExporter::ObjCBridgedCastExprTupleSize() { return ExplicitCastExprTupleSize() + 1; } //@atd type obj_c_bridge_cast_kind = [ //@atd OBC_BridgeRetained //@atd | OBC_Bridge //@atd | OBC_BridgeTransfer //@atd ] //@atd #define obj_c_bridged_cast_expr_tuple explicit_cast_expr_tuple * obj_c_bridged_cast_expr_info //@atd type obj_c_bridged_cast_expr_info = { //@atd cast_kind : obj_c_bridge_cast_kind; //@atd } template void ASTExporter::VisitObjCBridgedCastExpr( const ObjCBridgedCastExpr *Node) { VisitExplicitCastExpr(Node); ObjectScope Scope(OF, 1); OF.emitTag("cast_kind"); switch (Node->getBridgeKind()) { case OBC_BridgeRetained: OF.emitSimpleVariant("OBC_BridgeRetained"); break; case OBC_Bridge: OF.emitSimpleVariant("OBC_Bridge"); break; case OBC_BridgeTransfer: OF.emitSimpleVariant("OBC_BridgeTransfer"); break; } } template int ASTExporter::DeclRefExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define decl_ref_expr_tuple expr_tuple * decl_ref_expr_info //@atd type decl_ref_expr_info = { //@atd ?decl_ref : decl_ref option; //@atd ?found_decl_ref : decl_ref option //@atd } template void ASTExporter::VisitDeclRefExpr(const DeclRefExpr *Node) { VisitExpr(Node); const ValueDecl *D = Node->getDecl(); const NamedDecl *FD = Node->getFoundDecl(); bool HasFoundDeclRef = FD && D != FD; ObjectScope Scope(OF, 0 + (bool)D + HasFoundDeclRef); if (D) { OF.emitTag("decl_ref"); dumpDeclRef(*D); } if (HasFoundDeclRef) { OF.emitTag("found_decl_ref"); dumpDeclRef(*FD); } } template int ASTExporter::OverloadExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define overload_expr_tuple expr_tuple * overload_expr_info //@atd type overload_expr_info = { //@atd ~decls : decl_ref list; //@atd name : declaration_name; //@atd } template void ASTExporter::VisitOverloadExpr(const OverloadExpr *Node) { VisitExpr(Node); bool HasDecls = Node->getNumDecls() > 0; ObjectScope Scope(OF, 1 + HasDecls); // not covered by tests if (HasDecls) { OF.emitTag("decls"); ArrayScope Scope( // not covered by tests OF, std::distance(Node->decls_begin(), Node->decls_end())); for (auto I : Node->decls()) { dumpDeclRef(*I); } } OF.emitTag("name"); dumpDeclarationName(Node->getName()); } template int ASTExporter::UnresolvedLookupExprTupleSize() { return OverloadExprTupleSize() + 1; } //@atd #define unresolved_lookup_expr_tuple overload_expr_tuple * unresolved_lookup_expr_info //@atd type unresolved_lookup_expr_info = { //@atd ~requires_ADL : bool; //@atd ~is_overloaded : bool; //@atd ?naming_class : decl_ref option; //@atd } template void ASTExporter::VisitUnresolvedLookupExpr( const UnresolvedLookupExpr *Node) { VisitOverloadExpr(Node); bool RequiresADL = Node->requiresADL(); bool IsOverloaded = Node->isOverloaded(); bool HasNamingClass = Node->getNamingClass(); ObjectScope Scope( OF, 0 + RequiresADL + IsOverloaded + HasNamingClass); // not covered by tests OF.emitFlag("requires_ADL", RequiresADL); OF.emitFlag("is_overloaded", IsOverloaded); if (HasNamingClass) { OF.emitTag("naming_class"); dumpDeclRef(*Node->getNamingClass()); } } template int ASTExporter::ObjCIvarRefExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_ivar_ref_expr_tuple expr_tuple * obj_c_ivar_ref_expr_info //@atd type obj_c_ivar_ref_expr_info = { //@atd decl_ref : decl_ref; //@atd pointer : pointer; //@atd ~is_free_ivar : bool //@atd } template void ASTExporter::VisitObjCIvarRefExpr(const ObjCIvarRefExpr *Node) { VisitExpr(Node); bool IsFreeIvar = Node->isFreeIvar(); ObjectScope Scope(OF, 2 + IsFreeIvar); // not covered by tests OF.emitTag("decl_ref"); dumpDeclRef(*Node->getDecl()); OF.emitTag("pointer"); dumpPointer(Node->getDecl()); OF.emitFlag("is_free_ivar", IsFreeIvar); } template int ASTExporter::PredefinedExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define predefined_expr_tuple expr_tuple * predefined_expr_type //@atd type predefined_expr_type = [ //@atd | Func //@atd | Function //@atd | LFunction //@atd | FuncDName //@atd | FuncSig //@atd | LFuncSig //@atd | PrettyFunction //@atd | PrettyFunctionNoVirtual //@atd ] template void ASTExporter::VisitPredefinedExpr(const PredefinedExpr *Node) { VisitExpr(Node); switch (Node->getIdentKind()) { case PredefinedExpr::Func: OF.emitSimpleVariant("Func"); break; case PredefinedExpr::Function: OF.emitSimpleVariant("Function"); break; case PredefinedExpr::LFunction: OF.emitSimpleVariant("LFunction"); break; case PredefinedExpr::LFuncSig: OF.emitSimpleVariant("LFuncSig"); break; case PredefinedExpr::FuncDName: OF.emitSimpleVariant("FuncDName"); break; case PredefinedExpr::FuncSig: OF.emitSimpleVariant("FuncSig"); break; case PredefinedExpr::PrettyFunction: OF.emitSimpleVariant("PrettyFunction"); break; case PredefinedExpr::PrettyFunctionNoVirtual: OF.emitSimpleVariant("PrettyFunctionNoVirtual"); break; case PredefinedExpr::UniqueStableNameType: OF.emitSimpleVariant("UniqueStableNameType"); break; case PredefinedExpr::UniqueStableNameExpr: OF.emitSimpleVariant("UniqueStableNameExpr"); break; } } template int ASTExporter::CharacterLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define character_literal_tuple expr_tuple * int template void ASTExporter::VisitCharacterLiteral( const CharacterLiteral *Node) { VisitExpr(Node); OF.emitInteger(Node->getValue()); } template void ASTExporter::emitAPInt(bool isSigned, const llvm::APInt &value) { ObjectScope Scope(OF, 2 + isSigned); OF.emitFlag("is_signed", isSigned); OF.emitTag("bitwidth"); OF.emitInteger(value.getBitWidth()); OF.emitTag("value"); OF.emitString(value.toString(10, isSigned)); } template int ASTExporter::IntegerLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define integer_literal_tuple expr_tuple * integer_literal_info //@atd type integer_literal_info = { //@atd ~is_signed : bool; //@atd bitwidth : int; //@atd value : string; //@atd } template void ASTExporter::VisitIntegerLiteral(const IntegerLiteral *Node) { VisitExpr(Node); const auto value = Node->getValue(); this->emitAPInt(Node->getType()->isSignedIntegerType(), value); } template int ASTExporter::FixedPointLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define fixed_point_literal_tuple expr_tuple * string template void ASTExporter::VisitFixedPointLiteral( const FixedPointLiteral *Node) { VisitExpr(Node); int radix = 10; OF.emitString(Node->getValueAsString(radix)); } template int ASTExporter::FloatingLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define floating_literal_tuple expr_tuple * string template void ASTExporter::VisitFloatingLiteral(const FloatingLiteral *Node) { VisitExpr(Node); llvm::SmallString<20> buf; Node->getValue().toString(buf); OF.emitString(buf.str().str()); } template int ASTExporter::StringLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define string_literal_tuple expr_tuple * string list template void ASTExporter::VisitStringLiteral(const StringLiteral *Str) { VisitExpr(Str); size_t n_chunks; if (Str->getByteLength() == 0) { n_chunks = 1; } else { n_chunks = 1 + ((Str->getByteLength() - 1) / Options.maxStringSize); } ArrayScope Scope(OF, n_chunks); for (size_t i = 0; i < n_chunks; ++i) { OF.emitString(Str->getBytes() .substr(i * Options.maxStringSize, Options.maxStringSize) .str()); } } template int ASTExporter::OffsetOfExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define offset_of_expr_tuple expr_tuple * offset_of_expr_info //@atd type offset_of_expr_info = { //@atd ?literal : integer_literal_info option; //@atd } template void ASTExporter::VisitOffsetOfExpr(const OffsetOfExpr *OOE) { VisitExpr(OOE); Expr::EvalResult result; bool isLiteral = OOE->EvaluateAsInt(result, this->Context); ObjectScope Scope(OF, 0 + isLiteral); if (isLiteral) { OF.emitTag("literal"); llvm::APSInt IV = result.Val.getInt(); this->emitAPInt(IV.isSigned(), IV); } } template int ASTExporter::UnaryOperatorTupleSize() { return ExprTupleSize() + 1; } //@atd #define unary_operator_tuple expr_tuple * unary_operator_info //@atd type unary_operator_info = { //@atd kind : unary_operator_kind; //@atd ~is_postfix : bool; //@atd } //@atd type unary_operator_kind = [ #define UNARY_OPERATION(NAME, SPELLING) //@atd | NAME #include //@atd ] template void ASTExporter::VisitUnaryOperator(const UnaryOperator *Node) { VisitExpr(Node); bool IsPostfix = Node->isPostfix(); ObjectScope Scope(OF, 1 + IsPostfix); OF.emitTag("kind"); switch (Node->getOpcode()) { #define UNARY_OPERATION(NAME, SPELLING) \ case UO_##NAME: \ OF.emitSimpleVariant(#NAME); \ break; #include } OF.emitFlag("is_postfix", IsPostfix); } template int ASTExporter::UnaryExprOrTypeTraitExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define unary_expr_or_type_trait_expr_tuple expr_tuple * unary_expr_or_type_trait_expr_info //@atd type unary_expr_or_type_trait_expr_info = { //@atd kind : unary_expr_or_type_trait_kind; //@atd qual_type : qual_type //@atd } //@atd type unary_expr_or_type_trait_kind = [ //@atd | AlignOf //@atd | OpenMPRequiredSimdAlign //@atd | PreferredAlignOf //@atd | SizeOf //@atd | SizeOfWithSize of int //@atd | VecStep //@atd ] template void ASTExporter::VisitUnaryExprOrTypeTraitExpr( const UnaryExprOrTypeTraitExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("kind"); switch (Node->getKind()) { case UETT_AlignOf: OF.emitSimpleVariant("AlignOf"); break; case UETT_OpenMPRequiredSimdAlign: OF.emitSimpleVariant("OpenMPRequiredSimdAlign"); break; case UETT_PreferredAlignOf: OF.emitSimpleVariant("PreferredAlignOf"); break; case UETT_SizeOf: { const Type *ArgType = Node->getTypeOfArgument().getTypePtr(); if (hasMeaningfulTypeInfo(ArgType)) { VariantScope Scope(OF, "SizeOfWithSize"); OF.emitInteger(Context.getTypeInfo(ArgType).Width / 8); } else { OF.emitSimpleVariant("SizeOf"); } break; } case UETT_VecStep: OF.emitSimpleVariant("VecStep"); break; } OF.emitTag("qual_type"); dumpQualType(Node->getTypeOfArgument()); } template int ASTExporter::MemberExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define member_expr_tuple expr_tuple * member_expr_info //@atd type member_expr_info = { //@atd ~is_arrow : bool; //@atd ~performs_virtual_dispatch : bool; //@atd name : named_decl_info; //@atd decl_ref : decl_ref //@atd } template void ASTExporter::VisitMemberExpr(const MemberExpr *Node) { VisitExpr(Node); bool IsArrow = Node->isArrow(); LangOptions LO; // ignore real lang options - it will get it wrong when compiling // with -fapple-kext flag bool PerformsVirtualDispatch = Node->performsVirtualDispatch(LO); ObjectScope Scope(OF, 2 + IsArrow + PerformsVirtualDispatch); OF.emitFlag("is_arrow", IsArrow); OF.emitFlag("performs_virtual_dispatch", PerformsVirtualDispatch); OF.emitTag("name"); ValueDecl *memberDecl = Node->getMemberDecl(); dumpName(*memberDecl); OF.emitTag("decl_ref"); dumpDeclRef(*memberDecl); } template int ASTExporter::ExtVectorElementExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define ext_vector_element_tuple expr_tuple * string template void ASTExporter::VisitExtVectorElementExpr( const ExtVectorElementExpr *Node) { VisitExpr(Node); OF.emitString(Node->getAccessor().getNameStart()); } template int ASTExporter::BinaryOperatorTupleSize() { return ExprTupleSize() + 1; } //@atd #define binary_operator_tuple expr_tuple * binary_operator_info //@atd type binary_operator_info = { //@atd kind : binary_operator_kind //@atd } //@atd type binary_operator_kind = [ #define BINARY_OPERATION(NAME, SPELLING) //@atd | NAME #include //@atd ] template void ASTExporter::VisitBinaryOperator(const BinaryOperator *Node) { VisitExpr(Node); ObjectScope Scope(OF, 1); OF.emitTag("kind"); switch (Node->getOpcode()) { #define BINARY_OPERATION(NAME, SPELLING) \ case BO_##NAME: \ OF.emitSimpleVariant(#NAME); \ break; #include } } template int ASTExporter::CompoundAssignOperatorTupleSize() { return BinaryOperatorTupleSize() + 1; } //@atd #define compound_assign_operator_tuple binary_operator_tuple * compound_assign_operator_info //@atd type compound_assign_operator_info = { //@atd lhs_type : qual_type; //@atd result_type : qual_type; //@atd } template void ASTExporter::VisitCompoundAssignOperator( const CompoundAssignOperator *Node) { VisitBinaryOperator(Node); ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("lhs_type"); dumpQualType(Node->getComputationLHSType()); OF.emitTag("result_type"); dumpQualType(Node->getComputationResultType()); } template int ASTExporter::AtomicExprTupleSize() { return ExprTupleSize() + 1; } #define BUILTIN(ID, TYPE, ATTRS) //@atd #define atomic_expr_tuple expr_tuple * atomic_expr_info //@atd type atomic_expr_info = { //@atd kind : atomic_expr_kind //@atd } //@atd type atomic_expr_kind = [ #define ATOMIC_BUILTIN(ID, TYPE, ATTRS) //@atd | AO@@ID #include //@atd ] template void ASTExporter::VisitAtomicExpr(const AtomicExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 1); OF.emitTag("kind"); switch (Node->getOp()) { #define BUILTIN(ID, TYPE, ATTRS) #define ATOMIC_BUILTIN(ID, TYPE, ATTRS) \ case AtomicExpr::AO##ID: \ OF.emitSimpleVariant("AO" #ID); \ break; #include } } template int ASTExporter::BlockExprTupleSize() { return ExprTupleSize() + DeclTupleSize(); } //@atd #define block_expr_tuple expr_tuple * decl template void ASTExporter::VisitBlockExpr(const BlockExpr *Node) { VisitExpr(Node); dumpDecl(Node->getBlockDecl()); } template int ASTExporter::OpaqueValueExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define opaque_value_expr_tuple expr_tuple * opaque_value_expr_info //@atd type opaque_value_expr_info = { //@atd ?source_expr : stmt option; //@atd } template void ASTExporter::VisitOpaqueValueExpr(const OpaqueValueExpr *Node) { VisitExpr(Node); const Expr *Source = Node->getSourceExpr(); ObjectScope Scope(OF, 0 + (bool)Source); // not covered by tests if (Source) { OF.emitTag("source_expr"); dumpStmt(Source); } } // GNU extensions. template int ASTExporter::AddrLabelExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define addr_label_expr_tuple expr_tuple * addr_label_expr_info //@atd type addr_label_expr_info = { //@atd label : string; //@atd pointer : pointer; //@atd } template void ASTExporter::VisitAddrLabelExpr(const AddrLabelExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 2); // not covered by tests OF.emitTag("label"); OF.emitString(Node->getLabel()->getName().str()); OF.emitTag("pointer"); dumpPointer(Node->getLabel()); } ////===----------------------------------------------------------------------===// //// C++ Expressions ////===----------------------------------------------------------------------===// template int ASTExporter::CXXNamedCastExprTupleSize() { return ExplicitCastExprTupleSize() + 1; } //@atd #define cxx_named_cast_expr_tuple explicit_cast_expr_tuple * string template void ASTExporter::VisitCXXNamedCastExpr( const CXXNamedCastExpr *Node) { VisitExplicitCastExpr(Node); OF.emitString(Node->getCastName()); } template int ASTExporter::CXXBoolLiteralExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_bool_literal_expr_tuple expr_tuple * int template void ASTExporter::VisitCXXBoolLiteralExpr( const CXXBoolLiteralExpr *Node) { VisitExpr(Node); OF.emitInteger(Node->getValue()); } template int ASTExporter::CXXConstructExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_construct_expr_tuple expr_tuple * cxx_construct_expr_info //@atd type cxx_construct_expr_info = { //@atd decl_ref : decl_ref; //@atd ~is_elidable : bool; //@atd ~requires_zero_initialization : bool; //@atd ~is_copy_constructor : bool; //@atd } template void ASTExporter::VisitCXXConstructExpr( const CXXConstructExpr *Node) { VisitExpr(Node); CXXConstructorDecl *Ctor = Node->getConstructor(); bool IsCopyConstructor = Ctor->isCopyConstructor(); bool IsElidable = Node->isElidable(); bool RequiresZeroInitialization = Node->requiresZeroInitialization(); ObjectScope Scope( OF, 1 + IsElidable + RequiresZeroInitialization + IsCopyConstructor); OF.emitTag("decl_ref"); dumpDeclRef(*Ctor); OF.emitFlag("is_elidable", IsElidable); OF.emitFlag("requires_zero_initialization", RequiresZeroInitialization); OF.emitFlag("is_copy_constructor", IsCopyConstructor); } template int ASTExporter::CXXInheritedCtorInitExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_inherited_ctor_init_expr_tuple expr_tuple * cxx_construct_expr_info template void ASTExporter::VisitCXXInheritedCtorInitExpr( const CXXInheritedCtorInitExpr *Node) { VisitExpr(Node); CXXConstructorDecl *Ctor = Node->getConstructor(); ObjectScope Scope(OF, 1); OF.emitTag("decl_ref"); dumpDeclRef(*Ctor); } template int ASTExporter::CXXBindTemporaryExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_bind_temporary_expr_tuple expr_tuple * cxx_bind_temporary_expr_info //@atd type cxx_bind_temporary_expr_info = { //@atd cxx_temporary : cxx_temporary; //@atd } template void ASTExporter::VisitCXXBindTemporaryExpr( const CXXBindTemporaryExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 1); OF.emitTag("cxx_temporary"); dumpCXXTemporary(Node->getTemporary()); } template int ASTExporter::MaterializeTemporaryExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define materialize_temporary_expr_tuple expr_tuple * materialize_temporary_expr_info //@atd type materialize_temporary_expr_info = { //@atd ?decl_ref : decl_ref option; //@atd } template void ASTExporter::VisitMaterializeTemporaryExpr( const MaterializeTemporaryExpr *Node) { VisitExpr(Node); const ValueDecl *VD = Node->getExtendingDecl(); ObjectScope Scope(OF, 0 + (bool)VD); if (VD) { OF.emitTag("decl_ref"); dumpDeclRef(*VD); } } template int ASTExporter::ExprWithCleanupsTupleSize() { return ExprTupleSize() + 1; } //@atd #define expr_with_cleanups_tuple expr_tuple * expr_with_cleanups_info //@atd type expr_with_cleanups_info = { //@atd ~decl_refs : decl_ref list; //@atd } template void ASTExporter::VisitExprWithCleanups( const ExprWithCleanups *Node) { VisitExpr(Node); bool HasDeclRefs = Node->getNumObjects() > 0; ObjectScope Scope(OF, 0 + HasDeclRefs); if (HasDeclRefs) { OF.emitTag("decl_refs"); unsigned int ctr = 0; for (unsigned i = 0, e = Node->getNumObjects(); i != e; ++i) if (Node->getObject(i).is()) ++ctr; ArrayScope Scope(OF, ctr); for (unsigned i = 0, e = Node->getNumObjects(); i != e; ++i) { auto p = Node->getObject(i); if (p.is()) { dumpDeclRef(**p.getAddrOfPtr1()); } } } } //@atd type cxx_temporary = pointer template void ASTExporter::dumpCXXTemporary(const CXXTemporary *Temporary) { dumpPointer(Temporary); } template int ASTExporter::LambdaExprTupleSize() { return ExprTupleSize() + DeclTupleSize(); } //@atd #define lambda_expr_tuple expr_tuple * lambda_expr_info //@atd type lambda_expr_info = { //@atd lambda_decl: decl; //@atd } template void ASTExporter::VisitLambdaExpr(const LambdaExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 1); OF.emitTag("lambda_decl"); dumpDecl(Node->getLambdaClass()); } template int ASTExporter::CXXNewExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_new_expr_tuple expr_tuple * cxx_new_expr_info //@atd type cxx_new_expr_info = { //@atd ~is_array : bool; //@atd ?array_size_expr : pointer option; //@atd ?initializer_expr : pointer option; //@atd ~placement_args : pointer list; //@atd } template void ASTExporter::VisitCXXNewExpr(const CXXNewExpr *Node) { VisitExpr(Node); bool IsArray = Node->isArray(); bool HasArraySize = Node->getArraySize().hasValue(); bool HasInitializer = Node->hasInitializer(); unsigned PlacementArgs = Node->getNumPlacementArgs(); bool HasPlacementArgs = PlacementArgs > 0; ObjectScope Scope( OF, 0 + IsArray + HasArraySize + HasInitializer + HasPlacementArgs); // ?should_null_check : bool; // OF.emitFlag("should_null_check", Node->shouldNullCheckAllocation()); OF.emitFlag("is_array", IsArray); if (HasArraySize) { OF.emitTag("array_size_expr"); dumpPointer(Node->getArraySize().getValue()); } if (HasInitializer) { OF.emitTag("initializer_expr"); dumpPointer(Node->getInitializer()); } if (HasPlacementArgs) { OF.emitTag("placement_args"); ArrayScope aScope(OF, PlacementArgs); for (auto arg : Node->placement_arguments()) { dumpPointer(arg); } } } template int ASTExporter::CXXDeleteExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_delete_expr_tuple expr_tuple * cxx_delete_expr_info //@atd type cxx_delete_expr_info = { //@atd ~is_array : bool; //@atd destroyed_type : qual_type; //@atd } template void ASTExporter::VisitCXXDeleteExpr(const CXXDeleteExpr *Node) { VisitExpr(Node); bool IsArray = Node->isArrayForm(); ObjectScope Scope(OF, 1 + IsArray); OF.emitFlag("is_array", IsArray); OF.emitTag("destroyed_type"); dumpQualType(Node->getDestroyedType()); } template int ASTExporter::CXXDefaultArgExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_default_arg_expr_tuple expr_tuple * cxx_default_expr_info //@atd type cxx_default_expr_info = { //@atd ?init_expr : stmt option; //@atd } template void ASTExporter::VisitCXXDefaultArgExpr( const CXXDefaultArgExpr *Node) { VisitExpr(Node); const Expr *InitExpr = Node->getExpr(); ObjectScope Scope(OF, 0 + (bool)InitExpr); if (InitExpr) { OF.emitTag("init_expr"); dumpStmt(InitExpr); } } template int ASTExporter::CXXDefaultInitExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_default_init_expr_tuple expr_tuple * cxx_default_expr_info template void ASTExporter::VisitCXXDefaultInitExpr( const CXXDefaultInitExpr *Node) { VisitExpr(Node); const Expr *InitExpr = Node->getExpr(); ObjectScope Scope(OF, 0 + (bool)InitExpr); if (InitExpr) { OF.emitTag("init_expr"); dumpStmt(InitExpr); } } template int ASTExporter::TypeTraitExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define type_trait_expr_tuple expr_tuple * type_trait_info //@atd type type_trait_info = { //@atd ~value : bool; //@atd } template void ASTExporter::VisitTypeTraitExpr(const TypeTraitExpr *Node) { VisitExpr(Node); // FIXME: don't dump false when value is dependent bool value = Node->isValueDependent() ? false : Node->getValue(); ObjectScope Scope(OF, 0 + value); OF.emitFlag("value", value); } template int ASTExporter::GenericSelectionExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define generic_selection_expr_tuple expr_tuple * generic_selection_info //@atd type generic_selection_info = { //@atd ?value : stmt option; //@atd } template void ASTExporter::VisitGenericSelectionExpr( const GenericSelectionExpr *Node) { VisitExpr(Node); const Expr *ResultExpr = Node->getResultExpr(); ObjectScope Scope(OF, 0 + (bool)ResultExpr); if (ResultExpr) { OF.emitTag("value"); dumpStmt(ResultExpr); } } template int ASTExporter::CXXNoexceptExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define cxx_noexcept_expr_tuple expr_tuple * cxx_noexcept_expr_info //@atd type cxx_noexcept_expr_info = { //@atd ~value : bool; //@atd } template void ASTExporter::VisitCXXNoexceptExpr(const CXXNoexceptExpr *Node) { VisitExpr(Node); bool value = Node->getValue(); ObjectScope Scope(OF, 0 + value); OF.emitFlag("value", value); } ////===----------------------------------------------------------------------===// //// Obj-C Expressions ////===----------------------------------------------------------------------===// template int ASTExporter::ObjCMessageExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_message_expr_tuple expr_tuple * obj_c_message_expr_info //@atd type obj_c_message_expr_info = { //@atd selector : string; //@atd ~is_definition_found : bool; //@atd ?decl_pointer : pointer option; //@atd ~receiver_kind : receiver_kind //@atd } //@atd type receiver_kind = [ Instance | Class of qual_type | SuperInstance | //@atd SuperClass ] template void ASTExporter::VisitObjCMessageExpr(const ObjCMessageExpr *Node) { VisitExpr(Node); bool IsDefinitionFound = false; // Do not rely on Node->getMethodDecl() - it might be wrong if // selector doesn't type check (ie. method of subclass is called) const ObjCInterfaceDecl *receiver = Node->getReceiverInterface(); const Selector selector = Node->getSelector(); const ObjCMethodDecl *m_decl = NULL; if (receiver) { bool IsInst = Node->isInstanceMessage(); m_decl = receiver->lookupPrivateMethod(selector, IsInst); // Look for definition first. It's possible that class redefines it without // redeclaring. It needs to be defined in same translation unit to work. if (m_decl) { IsDefinitionFound = true; } else { // As a fallback look through method declarations in the interface. // It's not very reliable (subclass might have redefined it) // but it's better than nothing IsDefinitionFound = false; m_decl = receiver->lookupMethod(selector, IsInst); } } // Fall back to the default method lookup method if (!m_decl) { m_decl = Node->getMethodDecl(); } ObjCMessageExpr::ReceiverKind RK = Node->getReceiverKind(); bool HasNonDefaultReceiverKind = RK != ObjCMessageExpr::Instance; ObjectScope Scope( OF, 1 + IsDefinitionFound + (bool)m_decl + HasNonDefaultReceiverKind); OF.emitTag("selector"); OF.emitString(selector.getAsString()); if (m_decl) { OF.emitFlag("is_definition_found", IsDefinitionFound); OF.emitTag("decl_pointer"); dumpPointer(m_decl); } if (HasNonDefaultReceiverKind) { OF.emitTag("receiver_kind"); switch (RK) { case ObjCMessageExpr::Class: { VariantScope Scope(OF, "Class"); dumpQualType(Node->getClassReceiver()); } break; case ObjCMessageExpr::SuperInstance: OF.emitSimpleVariant("SuperInstance"); break; case ObjCMessageExpr::SuperClass: OF.emitSimpleVariant("SuperClass"); break; case ObjCMessageExpr::Instance: llvm_unreachable("unreachable"); break; } } } //@atd type selector = string template void ASTExporter::dumpSelector(const Selector sel) { OF.emitString(sel.getAsString()); } template int ASTExporter::ObjCBoxedExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_boxed_expr_tuple expr_tuple * objc_boxed_expr_info //@atd type objc_boxed_expr_info = { //@atd ?boxing_method : selector option; //@atd } template void ASTExporter::VisitObjCBoxedExpr(const ObjCBoxedExpr *Node) { VisitExpr(Node); ObjCMethodDecl *boxingMethod = Node->getBoxingMethod(); ObjectScope Scope(OF, 0 + (bool)boxingMethod); if (boxingMethod) { OF.emitTag("boxing_method"); dumpSelector(boxingMethod->getSelector()); } } template int ASTExporter::ObjCAtCatchStmtTupleSize() { return StmtTupleSize() + 1; } //@atd #define obj_c_at_catch_stmt_tuple stmt_tuple * obj_c_message_expr_kind //@atd type obj_c_message_expr_kind = [ //@atd | CatchParam of decl //@atd | CatchAll //@atd ] template void ASTExporter::VisitObjCAtCatchStmt(const ObjCAtCatchStmt *Node) { VisitStmt(Node); if (const VarDecl *CatchParam = Node->getCatchParamDecl()) { VariantScope Scope(OF, "CatchParam"); dumpDecl(CatchParam); } else { OF.emitSimpleVariant("CatchAll"); } } template int ASTExporter::ObjCEncodeExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_encode_expr_tuple expr_tuple * objc_encode_expr_info //@atd type objc_encode_expr_info = { //@atd qual_type : qual_type; //@atd raw : string; //@atd } template void ASTExporter::VisitObjCEncodeExpr(const ObjCEncodeExpr *Node) { VisitExpr(Node); ObjectScope Scope(OF, 2); OF.emitTag("qual_type"); dumpQualType(Node->getEncodedType()); OF.emitTag("raw"); OF.emitString(Node->getEncodedType().getAsString()); } template int ASTExporter::ObjCSelectorExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_selector_expr_tuple expr_tuple * selector template void ASTExporter::VisitObjCSelectorExpr( const ObjCSelectorExpr *Node) { VisitExpr(Node); dumpSelector(Node->getSelector()); } template int ASTExporter::ObjCProtocolExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_protocol_expr_tuple expr_tuple * decl_ref template void ASTExporter::VisitObjCProtocolExpr( const ObjCProtocolExpr *Node) { VisitExpr(Node); dumpDeclRef(*Node->getProtocol()); } template int ASTExporter::ObjCPropertyRefExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_property_ref_expr_tuple expr_tuple * obj_c_property_ref_expr_info //@atd type obj_c_property_ref_expr_info = { //@atd kind : property_ref_kind; //@atd ~is_super_receiver : bool; //@atd ~is_messaging_getter : bool; //@atd ~is_messaging_setter : bool; //@atd } //@atd type property_ref_kind = [ //@atd | MethodRef of obj_c_method_ref_info //@atd | PropertyRef of decl_ref //@atd ] //@atd type obj_c_method_ref_info = { //@atd ?getter : selector option; //@atd ?setter : selector option //@atd } template void ASTExporter::VisitObjCPropertyRefExpr( const ObjCPropertyRefExpr *Node) { VisitExpr(Node); bool IsSuperReceiver = Node->isSuperReceiver(); bool IsMessagingGetter = Node->isMessagingGetter(); bool IsMessagingSetter = Node->isMessagingSetter(); ObjectScope Scope(OF, 1 + IsSuperReceiver + IsMessagingGetter + IsMessagingSetter); // not covered by tests OF.emitTag("kind"); if (Node->isImplicitProperty()) { VariantScope Scope(OF, "MethodRef"); { bool HasImplicitPropertyGetter = Node->getImplicitPropertyGetter(); bool HasImplicitPropertySetter = Node->getImplicitPropertySetter(); ObjectScope Scope( OF, 0 + HasImplicitPropertyGetter + HasImplicitPropertySetter); if (HasImplicitPropertyGetter) { OF.emitTag("getter"); dumpSelector(Node->getImplicitPropertyGetter()->getSelector()); } if (HasImplicitPropertySetter) { OF.emitTag("setter"); dumpSelector(Node->getImplicitPropertySetter()->getSelector()); } } } else { VariantScope Scope(OF, "PropertyRef"); dumpDeclRef(*Node->getExplicitProperty()); } OF.emitFlag("is_super_receiver", IsSuperReceiver); OF.emitFlag("is_messaging_getter", IsMessagingGetter); OF.emitFlag("is_messaging_setter", IsMessagingSetter); } template int ASTExporter::ObjCSubscriptRefExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_subscript_ref_expr_tuple expr_tuple * obj_c_subscript_ref_expr_info //@atd type obj_c_subscript_ref_expr_info = { //@atd kind : obj_c_subscript_kind; //@atd ?getter : selector option; //@atd ?setter : selector option //@atd } //@atd type obj_c_subscript_kind = [ ArraySubscript | DictionarySubscript ] template void ASTExporter::VisitObjCSubscriptRefExpr( const ObjCSubscriptRefExpr *Node) { VisitExpr(Node); bool HasGetter = Node->getAtIndexMethodDecl(); bool HasSetter = Node->setAtIndexMethodDecl(); ObjectScope Scope(OF, 1 + HasGetter + HasSetter); // not covered by tests OF.emitTag("kind"); if (Node->isArraySubscriptRefExpr()) { OF.emitSimpleVariant("ArraySubscript"); } else { OF.emitSimpleVariant("DictionarySubscript"); } if (HasGetter) { OF.emitTag("getter"); dumpSelector(Node->getAtIndexMethodDecl()->getSelector()); } if (HasSetter) { OF.emitTag("setter"); dumpSelector(Node->setAtIndexMethodDecl()->getSelector()); } } template int ASTExporter::ObjCBoolLiteralExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_bool_literal_expr_tuple expr_tuple * int template void ASTExporter::VisitObjCBoolLiteralExpr( const ObjCBoolLiteralExpr *Node) { VisitExpr(Node); OF.emitInteger(Node->getValue()); } template int ASTExporter::ObjCAvailabilityCheckExprTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_availability_check_expr_tuple expr_tuple * obj_c_availability_check_expr_info //@atd type obj_c_availability_check_expr_info = { //@atd ?version : string option; //@atd } template void ASTExporter::VisitObjCAvailabilityCheckExpr( const ObjCAvailabilityCheckExpr *Expr) { VisitExpr(Expr); bool HasVersion = Expr->hasVersion(); ObjectScope Scope(OF, HasVersion); if (HasVersion) { OF.emitTag("version"); // cast is safe, getVersion() should be marked const but isn't #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wcast-qual" ObjCAvailabilityCheckExpr *E = (ObjCAvailabilityCheckExpr *)Expr; #pragma clang diagnostic pop OF.emitString(E->getVersion().getAsString()); } } template int ASTExporter::ObjCArrayLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_array_literal_tuple expr_tuple * obj_c_array_literal_expr_info //@atd type obj_c_array_literal_expr_info = { //@atd ?array_method : pointer option; //@atd } template void ASTExporter::VisitObjCArrayLiteral( const ObjCArrayLiteral *Expr) { VisitExpr(Expr); ObjCMethodDecl *ArrayMethod = Expr->getArrayWithObjectsMethod(); ObjectScope Scope(OF, 1); if (ArrayMethod) { OF.emitTag("array_method"); dumpPointer(ArrayMethod); } } template int ASTExporter::ObjCDictionaryLiteralTupleSize() { return ExprTupleSize() + 1; } //@atd #define obj_c_dictionary_literal_tuple expr_tuple * obj_c_dictionary_literal_expr_info //@atd type obj_c_dictionary_literal_expr_info = { //@atd ?dict_method : pointer option; //@atd } template void ASTExporter::VisitObjCDictionaryLiteral( const ObjCDictionaryLiteral *Expr) { VisitExpr(Expr); ObjCMethodDecl *DictMethod = Expr->getDictWithObjectsMethod(); ObjectScope Scope(OF, 1); if (DictMethod) { OF.emitTag("dict_method"); dumpPointer(DictMethod); } } // Main variant for statements //@atd type stmt = [ #define STMT(CLASS, PARENT) //@atd | CLASS of (@CLASS@_tuple) #define ABSTRACT_STMT(STMT) #include //@atd ] //===----------------------------------------------------------------------===// // Comments //===----------------------------------------------------------------------===// template const char *ASTExporter::getCommandName(unsigned CommandID) { return Context.getCommentCommandTraits().getCommandInfo(CommandID)->Name; } template void ASTExporter::dumpFullComment(const FullComment *C) { FC = C; dumpComment(C); FC = 0; } #define COMMENT(CLASS, PARENT) //@atd #define @CLASS@_tuple @PARENT@_tuple #define ABSTRACT_COMMENT(COMMENT) COMMENT #include template void ASTExporter::dumpComment(const Comment *C) { if (!C) { // We use a fixed NoComment node to represent null pointers C = NullPtrComment; } VariantScope Scope(OF, std::string(C->getCommentKindName())); { TupleScope Scope(OF, ASTExporter::tupleSizeOfCommentKind(C->getCommentKind())); ConstCommentVisitor>::visit(C); } } template int ASTExporter::CommentTupleSize() { return 2; } //@atd #define comment_tuple comment_info * comment list //@atd type comment_info = { //@atd parent_pointer : pointer; //@atd source_range : source_range; //@atd } template void ASTExporter::visitComment(const Comment *C) { { ObjectScope ObjComment(OF, 2); // not covered by tests OF.emitTag("parent_pointer"); dumpPointer(C); OF.emitTag("source_range"); dumpSourceRange(C->getSourceRange()); } { Comment::child_iterator I = C->child_begin(), E = C->child_end(); ArrayScope Scope(OF, std::distance(I, E)); for (; I != E; ++I) { dumpComment(*I); } } } // template // void ASTExporter::visitInlineCommandComment(const // InlineCommandComment *C) { // OS << " Name=\"" << getCommandName(C->getCommandID()) << "\""; // switch (C->getRenderKind()) { // case InlineCommandComment::RenderNormal: // OS << " RenderNormal"; // break; // case InlineCommandComment::RenderBold: // OS << " RenderBold"; // break; // case InlineCommandComment::RenderMonospaced: // OS << " RenderMonospaced"; // break; // case InlineCommandComment::RenderEmphasized: // OS << " RenderEmphasized"; // break; // } // // for (unsigned i = 0, e = C->getNumArgs(); i != e; ++i) // OS << " Arg[" << i << "]=\"" << C->getArgText(i) << "\""; //} // // template // void ASTExporter::visitHTMLStartTagComment(const // HTMLStartTagComment *C) { // OS << " Name=\"" << C->getTagName() << "\""; // if (C->getNumAttrs() != 0) { // OS << " Attrs: "; // for (unsigned i = 0, e = C->getNumAttrs(); i != e; ++i) { // const HTMLStartTagComment::Attribute &Attr = C->getAttr(i); // OS << " \"" << Attr.Name << "=\"" << Attr.Value << "\""; // } // } // if (C->isSelfClosing()) // OS << " SelfClosing"; //} // // template // void ASTExporter::visitHTMLEndTagComment(const HTMLEndTagComment // *C) { // OS << " Name=\"" << C->getTagName() << "\""; //} // // template // void ASTExporter::visitBlockCommandComment(const // BlockCommandComment *C) { // OS << " Name=\"" << getCommandName(C->getCommandID()) << "\""; // for (unsigned i = 0, e = C->getNumArgs(); i != e; ++i) // OS << " Arg[" << i << "]=\"" << C->getArgText(i) << "\""; //} // // template // void ASTExporter::visitParamCommandComment(const // ParamCommandComment *C) { // OS << " " << 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(); //} // // template // void ASTExporter::visitTParamCommandComment(const // TParamCommandComment *C) { // 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 << ">"; // } //} // // template // void ASTExporter::visitVerbatimBlockComment(const // VerbatimBlockComment *C) { // OS << " Name=\"" << getCommandName(C->getCommandID()) << "\"" // " CloseName=\"" << C->getCloseName() << "\""; //} // // template // void ASTExporter::visitVerbatimBlockLineComment( // const VerbatimBlockLineComment *C) { // OS << " Text=\"" << C->getText() << "\""; //} // // template // void ASTExporter::visitVerbatimLineComment(const // VerbatimLineComment *C) { // OS << " Text=\"" << C->getText() << "\""; //} //@atd type comment = [ #define COMMENT(CLASS, PARENT) //@atd | CLASS of (@CLASS@_tuple) #define ABSTRACT_COMMENT(COMMENT) #include //@atd ] #define TYPE(DERIVED, BASE) //@atd #define @DERIVED@_type_tuple @BASE@_tuple #define ABSTRACT_TYPE(DERIVED, BASE) TYPE(DERIVED, BASE) TYPE(None, Type) #include #undef TYPE #undef ABSTRACT_TYPE template void ASTExporter::dumpType(const Type *T) { std::string typeClassName = T ? T->getTypeClassName() : "None"; VariantScope Scope(OF, typeClassName + "Type"); { if (T) { // TypeVisitor assumes T is non-null TupleScope Scope(OF, ASTExporter::tupleSizeOfTypeClass(T->getTypeClass())); TypeVisitor>::Visit(T); } else { TupleScope Scope(OF, 1); VisitType(nullptr); } } } //@atd type type_ptr = int wrap template void ASTExporter::dumpPointerToType(const Type *T) { dumpPointer(T); } template void ASTExporter::dumpQualTypeNoQuals(const QualType &qt) { const Type *T = qt.getTypePtrOrNull(); dumpPointerToType(T); } template int ASTExporter::TypeTupleSize() { return 1; } template int ASTExporter::TypeWithChildInfoTupleSize() { return 2; } //@atd #define type_tuple type_info //@atd type type_info = { //@atd pointer : pointer; //@atd ?desugared_type : type_ptr option; //@atd } //@atd #define type_with_child_info type_info * qual_type //@atd #define qual_type_with_child_info type_info * qual_type template void ASTExporter::VisitType(const Type *T) { // NOTE: T can (and will) be null here!! bool HasDesugaredType = T && T->getUnqualifiedDesugaredType() != T; ObjectScope Scope(OF, 1 + HasDesugaredType); OF.emitTag("pointer"); dumpPointer(T); if (HasDesugaredType) { OF.emitTag("desugared_type"); dumpPointerToType(T->getUnqualifiedDesugaredType()); } } template int ASTExporter::AdjustedTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define adjusted_type_tuple type_with_child_info template void ASTExporter::VisitAdjustedType(const AdjustedType *T) { VisitType(T); dumpQualType(T->getAdjustedType()); } template int ASTExporter::ArrayTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define array_type_tuple type_tuple * array_type_info //@atd type array_type_info = { //@atd element_type : qual_type; //@atd ?stride : int option; //@atd } template void ASTExporter::VisitArrayType(const ArrayType *T) { VisitType(T); QualType EltT = T->getElementType(); bool HasStride = hasMeaningfulTypeInfo(EltT.getTypePtr()); ObjectScope Scope(OF, 1 + HasStride); OF.emitTag("element_type"); dumpQualType(EltT); if (HasStride) { OF.emitTag("stride"); OF.emitInteger(Context.getTypeInfo(EltT).Width / 8); }; } template int ASTExporter::ConstantArrayTypeTupleSize() { return ArrayTypeTupleSize() + 1; } //@atd #define constant_array_type_tuple array_type_tuple * int template void ASTExporter::VisitConstantArrayType( const ConstantArrayType *T) { VisitArrayType(T); OF.emitInteger(T->getSize().getLimitedValue()); } template int ASTExporter::VariableArrayTypeTupleSize() { return ArrayTypeTupleSize() + 1; } //@atd #define variable_array_type_tuple array_type_tuple * pointer template void ASTExporter::VisitVariableArrayType( const VariableArrayType *T) { VisitArrayType(T); dumpPointer(T->getSizeExpr()); } template int ASTExporter::AtomicTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define atomic_type_tuple type_with_child_info template void ASTExporter::VisitAtomicType(const AtomicType *T) { VisitType(T); dumpQualType(T->getValueType()); } //@atd type attribute_kind = [ #define ATTR(NAME) //@atd | NAME@@AttrKind #include //@atd ] template void ASTExporter::dumpAttrKind(attr::Kind Kind) { switch (Kind) { #define ATTR(NAME) \ case AttributedType::Kind::NAME: \ OF.emitSimpleVariant(#NAME "AttrKind"); \ return; #include } llvm_unreachable("Attribute kind that is not part of AttrList.inc!"); } //@atd type objc_lifetime_attr = [ //@atd | OCL_None //@atd | OCL_ExplicitNone //@atd | OCL_Strong //@atd | OCL_Weak //@atd | OCL_Autoreleasing //@atd ] template void ASTExporter::dumpObjCLifetimeQual( Qualifiers::ObjCLifetime qual) { switch (qual) { case Qualifiers::ObjCLifetime::OCL_None: OF.emitSimpleVariant("OCL_None"); break; case Qualifiers::ObjCLifetime::OCL_ExplicitNone: OF.emitSimpleVariant("OCL_ExplicitNone"); break; case Qualifiers::ObjCLifetime::OCL_Strong: OF.emitSimpleVariant("OCL_Strong"); break; case Qualifiers::ObjCLifetime::OCL_Weak: OF.emitSimpleVariant("OCL_Weak"); break; case Qualifiers::ObjCLifetime::OCL_Autoreleasing: OF.emitSimpleVariant("OCL_Autoreleasing"); break; } } template int ASTExporter::AttributedTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define attributed_type_tuple type_tuple * attr_type_info //@atd type attr_type_info = { //@atd attr_kind : attribute_kind; //@atd ~lifetime : objc_lifetime_attr //@atd } template void ASTExporter::VisitAttributedType(const AttributedType *T) { VisitType(T); Qualifiers quals = QualType(T, 0).getQualifiers(); bool hasLifetimeQual = quals.hasObjCLifetime() && quals.getObjCLifetime() != Qualifiers::ObjCLifetime::OCL_None; ObjectScope Scope(OF, 1 + hasLifetimeQual); OF.emitTag("attr_kind"); dumpAttrKind(T->getAttrKind()); if (hasLifetimeQual) { OF.emitTag("lifetime"); dumpObjCLifetimeQual(quals.getObjCLifetime()); } } template int ASTExporter::BlockPointerTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define block_pointer_type_tuple type_with_child_info template void ASTExporter::VisitBlockPointerType(const BlockPointerType *T) { VisitType(T); dumpQualType(T->getPointeeType()); } template int ASTExporter::BuiltinTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define builtin_type_tuple type_tuple * builtin_type_kind //@atd type builtin_type_kind = [ #define BUILTIN_TYPE(TYPE, ID) //@atd | TYPE #include #define SVE_PREDICATE_TYPE( \ Name, MangledName, Id, SingletonId, NumEls) //@atd | Id #define SVE_VECTOR_TYPE(Name, \ MangledName, \ Id, \ SingletonId, \ NumEls, \ ElBits, \ IsSigned, \ IsFP, \ IsBF) //@atd | Id #include //@atd ] template void ASTExporter::VisitBuiltinType(const BuiltinType *T) { VisitType(T); std::string type_name; switch (T->getKind()) { #define BUILTIN_TYPE(TYPE, ID) \ case BuiltinType::TYPE: { \ type_name = #TYPE; \ break; \ } #include #define SVE_PREDICATE_TYPE(Name, MangeldName, Id, SingletonId, NumEls) \ case BuiltinType::Id: { \ type_name = #Id; \ break; \ } #define SVE_VECTOR_TYPE( \ Name, MangledName, Id, SingletonId, NumEls, ElBits, IsSigned, IsFP, IsBF) \ case BuiltinType::Id: { \ type_name = #Id; \ break; \ } #include #define IMAGE_TYPE(ImgType, ID, SingletonId, Access, Suffix) \ case BuiltinType::ID: #include #define EXT_OPAQUE_TYPE(Name, Id, Ext) case BuiltinType::Id: #include llvm_unreachable("OCL builtin types are unsupported"); break; } OF.emitSimpleVariant(type_name); } template int ASTExporter::DecltypeTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define decltype_type_tuple type_with_child_info template void ASTExporter::VisitDecltypeType(const DecltypeType *T) { VisitType(T); dumpQualType(T->getUnderlyingType()); } template int ASTExporter::FunctionTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define function_type_tuple type_tuple * function_type_info //@atd type function_type_info = { //@atd return_type : qual_type //@atd } template void ASTExporter::VisitFunctionType(const FunctionType *T) { VisitType(T); ObjectScope Scope(OF, 1); OF.emitTag("return_type"); dumpQualType(T->getReturnType()); } template int ASTExporter::FunctionProtoTypeTupleSize() { return FunctionTypeTupleSize() + 1; } //@atd #define function_proto_type_tuple function_type_tuple * params_type_info //@atd type params_type_info = { //@atd ~params_type : qual_type list //@atd } template void ASTExporter::VisitFunctionProtoType( const FunctionProtoType *T) { VisitFunctionType(T); bool HasParamsType = T->getNumParams() > 0; ObjectScope Scope(OF, 0 + HasParamsType); if (HasParamsType) { OF.emitTag("params_type"); ArrayScope aScope(OF, T->getParamTypes().size()); for (const auto ¶mType : T->getParamTypes()) { dumpQualType(paramType); } } } template int ASTExporter::MemberPointerTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define member_pointer_type_tuple type_with_child_info template void ASTExporter::VisitMemberPointerType( const MemberPointerType *T) { VisitType(T); dumpQualType(T->getPointeeType()); } template int ASTExporter::ObjCObjectPointerTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define obj_c_object_pointer_type_tuple qual_type_with_child_info template void ASTExporter::VisitObjCObjectPointerType( const ObjCObjectPointerType *T) { VisitType(T); dumpQualType(T->getPointeeType()); } template int ASTExporter::ObjCObjectTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define obj_c_object_type_tuple type_tuple * objc_object_type_info //@atd type objc_object_type_info = { //@atd base_type : type_ptr; //@atd ~protocol_decls_ptr : pointer list; //@atd ~type_args : qual_type list; //@atd } template void ASTExporter::VisitObjCObjectType(const ObjCObjectType *T) { VisitType(T); int numProtocols = T->getNumProtocols(); bool HasProtocols = numProtocols > 0; bool isSpecialized = T->isSpecialized(); ObjectScope Scope(OF, 1 + HasProtocols + isSpecialized); OF.emitTag("base_type"); dumpQualTypeNoQuals(T->getBaseType()); if (HasProtocols) { OF.emitTag("protocol_decls_ptr"); ArrayScope aScope(OF, numProtocols); for (int i = 0; i < numProtocols; i++) { dumpPointer(T->getProtocol(i)); } } if (isSpecialized) { OF.emitTag("type_args"); ArrayScope aScope(OF, T->getTypeArgs().size()); for (auto &argType : T->getTypeArgs()) { dumpQualType(argType); }; } } template int ASTExporter::ObjCInterfaceTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define obj_c_interface_type_tuple type_tuple * pointer template void ASTExporter::VisitObjCInterfaceType( const ObjCInterfaceType *T) { // skip VisitObjCObjectType deliberately - ObjCInterfaceType can't have any // protocols VisitType(T); dumpPointer(T->getDecl()); } template int ASTExporter::ParenTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define paren_type_tuple type_with_child_info template void ASTExporter::VisitParenType(const ParenType *T) { // this is just syntactic sugar VisitType(T); dumpQualType(T->getInnerType()); } template int ASTExporter::PointerTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define pointer_type_tuple qual_type_with_child_info template void ASTExporter::VisitPointerType(const PointerType *T) { VisitType(T); dumpQualType(T->getPointeeType()); } template int ASTExporter::ReferenceTypeTupleSize() { return TypeWithChildInfoTupleSize(); } //@atd #define reference_type_tuple qual_type_with_child_info template void ASTExporter::VisitReferenceType(const ReferenceType *T) { VisitType(T); dumpQualType(T->getPointeeType()); } template int ASTExporter::TagTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define tag_type_tuple type_tuple * pointer template void ASTExporter::VisitTagType(const TagType *T) { VisitType(T); dumpPointer(T->getDecl()); } template int ASTExporter::TypedefTypeTupleSize() { return TypeTupleSize() + 1; } //@atd #define typedef_type_tuple type_tuple * typedef_type_info //@atd type typedef_type_info = { //@atd child_type : qual_type; //@atd decl_ptr : pointer; //@atd } template void ASTExporter::VisitTypedefType(const TypedefType *T) { VisitType(T); ObjectScope Scope(OF, 2); OF.emitTag("child_type"); dumpQualType(T->desugar()); OF.emitTag("decl_ptr"); dumpPointer(T->getDecl()); } //===----------------------------------------------------------------------===// // Attr dumping methods. //===----------------------------------------------------------------------===// template void ASTExporter::dumpAttr(const Attr *A) { std::string tag; switch (A->getKind()) { #define ATTR(NAME) \ case attr::Kind::NAME: \ tag = #NAME "Attr"; \ break; #include } VariantScope Scope(OF, tag); { TupleScope Scope(OF, ASTExporter::tupleSizeOfAttrKind(A->getKind())); ConstAttrVisitor>::Visit(A); } } template int ASTExporter::AttrTupleSize() { return 1; } //@atd type attribute_info = { //@atd pointer : pointer; //@atd source_range : source_range; //@atd } //@atd type attr_tuple = attribute_info template void ASTExporter::VisitAttr(const Attr *A) { ObjectScope Scope(OF, 2); OF.emitTag("pointer"); dumpPointer(A); OF.emitTag("source_range"); dumpSourceRange(A->getRange()); } // Default aliases for generating variant components // The main variant is defined at the end of section. #define ATTR(NAME) //@atd #define @NAME@_attr_tuple attribute_info #include //@atd type version_tuple = { //@atd major: int; //@atd ?minor: int option; //@atd ?subminor: int option; //@atd ?build: int option; //@atd } template void ASTExporter::dumpVersionTuple(const VersionTuple &VT) { Optional minor = VT.getMinor(); Optional subminor = VT.getSubminor(); Optional build = VT.getBuild(); ObjectScope Scope( OF, 1 + minor.hasValue() + subminor.hasValue() + build.hasValue()); OF.emitTag("major"); OF.emitInteger(VT.getMajor()); if (minor.hasValue()) { OF.emitTag("minor"); OF.emitInteger(minor.getValue()); } if (subminor.hasValue()) { OF.emitTag("subminor"); OF.emitInteger(subminor.getValue()); } if (build.hasValue()) { OF.emitTag("build"); OF.emitInteger(build.getValue()); } } template int ASTExporter::AnnotateAttrTupleSize() { return AttrTupleSize() + 1; } //@atd #define annotate_attr_tuple attr_tuple * string template void ASTExporter::VisitAnnotateAttr(const AnnotateAttr *A) { VisitAttr(A); OF.emitString(A->getAnnotation().str()); } template int ASTExporter::AvailabilityAttrTupleSize() { return AttrTupleSize() + 1; } //@atd #define availability_attr_tuple attr_tuple * availability_attr_info //@atd type availability_attr_info = { //@atd ?platform: string option; //@atd introduced: version_tuple; //@atd } template void ASTExporter::VisitAvailabilityAttr(const AvailabilityAttr *A) { VisitAttr(A); { IdentifierInfo *platform = A->getPlatform(); ObjectScope Scope(OF, 2 + (bool)platform); if (platform != nullptr) { OF.emitTag("platform"); OF.emitString(platform->getNameStart()); } OF.emitTag("introduced"); dumpVersionTuple(A->getIntroduced()); } } template int ASTExporter::SentinelAttrTupleSize() { return AttrTupleSize() + 1; } //@atd #define sentinel_attr_tuple attr_tuple * sentinel_attr_info //@atd type sentinel_attr_info = { //@atd sentinel: int; //@atd null_pos: int; //@atd } template void ASTExporter::VisitSentinelAttr(const SentinelAttr *A) { VisitAttr(A); ObjectScope Scope(OF, 2); OF.emitTag("sentinel"); OF.emitInteger(A->getSentinel()); OF.emitTag("null_pos"); OF.emitInteger(A->getNullPos()); } template int ASTExporter::VisibilityAttrTupleSize() { return AttrTupleSize() + 1; } //@atd #define visibility_attr_tuple attr_tuple * visibility_attr //@atd type visibility_attr = [ //@atd | DefaultVisibility //@atd | HiddenVisibility //@atd | ProtectedVisibility //@atd ] template void ASTExporter::VisitVisibilityAttr(const VisibilityAttr *A) { VisitAttr(A); switch (A->getVisibility()) { case VisibilityAttr::Default: OF.emitSimpleVariant("DefaultVisibility"); break; case VisibilityAttr::Hidden: OF.emitSimpleVariant("HiddenVisibility"); break; case VisibilityAttr::Protected: OF.emitSimpleVariant("ProtectedVisibility"); break; } } //@atd type attribute = [ #define ATTR(X) //@atd | X@@Attr of (@X@_attr_tuple) #include //@atd ] //@atd type c_type = [ #define TYPE(CLASS, PARENT) //@atd | CLASS@@Type of (@CLASS@_type_tuple) #define ABSTRACT_TYPE(CLASS, PARENT) TYPE(None, Type) #include //@atd ] template class ExporterASTConsumer : public ASTConsumer { private: std::shared_ptr options; std::unique_ptr OS; public: using ASTConsumerOptions = ASTLib::ASTExporterOptions; using PreprocessorHandler = ASTPluginLib::EmptyPreprocessorHandler; using PreprocessorHandlerData = ASTPluginLib::EmptyPreprocessorHandlerData; ExporterASTConsumer(const CompilerInstance &CI, std::shared_ptr options, std::shared_ptr sharedData, std::unique_ptr &&OS) : options(options), OS(std::move(OS)) { if (ForceYojson) { options->atdWriterOptions.useYojson = true; } } virtual void HandleTranslationUnit(ASTContext &Context) { TranslationUnitDecl *D = Context.getTranslationUnitDecl(); ASTExporter P(*OS, Context, *options); P.dumpDecl(D); } }; typedef ASTPluginLib::SimplePluginASTAction< ASTLib::ExporterASTConsumer> JsonExporterASTAction; typedef ASTPluginLib::SimplePluginASTAction< ASTLib::ExporterASTConsumer> YojsonExporterASTAction; typedef ASTPluginLib::SimplePluginASTAction< ASTLib::ExporterASTConsumer, true>> BiniouExporterASTAction; } // end of namespace ASTLib