//===--- Comment.cpp - Comment AST node implementation --------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/AST/ASTContext.h" #include "clang/AST/Comment.h" #include "clang/AST/Decl.h" #include "clang/AST/DeclObjC.h" #include "clang/AST/DeclTemplate.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/raw_ostream.h" namespace clang { namespace comments { const char *Comment::getCommentKindName() const { switch (getCommentKind()) { case NoCommentKind: return "NoCommentKind"; #define ABSTRACT_COMMENT(COMMENT) #define COMMENT(CLASS, PARENT) \ case CLASS##Kind: \ return #CLASS; #include "clang/AST/CommentNodes.inc" #undef COMMENT #undef ABSTRACT_COMMENT } llvm_unreachable("Unknown comment kind!"); } void Comment::dump() const { // It is important that Comment::dump() is defined in a different TU than // Comment::dump(raw_ostream, SourceManager). If both functions were defined // in CommentDumper.cpp, that object file would be removed by linker because // none of its functions are referenced by other object files, despite the // LLVM_ATTRIBUTE_USED. dump(llvm::errs(), NULL, NULL); } void Comment::dump(const ASTContext &Context) const { dump(llvm::errs(), &Context.getCommentCommandTraits(), &Context.getSourceManager()); } namespace { struct good {}; struct bad {}; template good implements_child_begin_end(Comment::child_iterator (T::*)() const) { return good(); } static inline bad implements_child_begin_end( Comment::child_iterator (Comment::*)() const) { return bad(); } #define ASSERT_IMPLEMENTS_child_begin(function) \ (void) sizeof(good(implements_child_begin_end(function))) static inline void CheckCommentASTNodes() { #define ABSTRACT_COMMENT(COMMENT) #define COMMENT(CLASS, PARENT) \ ASSERT_IMPLEMENTS_child_begin(&CLASS::child_begin); \ ASSERT_IMPLEMENTS_child_begin(&CLASS::child_end); #include "clang/AST/CommentNodes.inc" #undef COMMENT #undef ABSTRACT_COMMENT } #undef ASSERT_IMPLEMENTS_child_begin } // end unnamed namespace Comment::child_iterator Comment::child_begin() const { switch (getCommentKind()) { case NoCommentKind: llvm_unreachable("comment without a kind"); #define ABSTRACT_COMMENT(COMMENT) #define COMMENT(CLASS, PARENT) \ case CLASS##Kind: \ return static_cast(this)->child_begin(); #include "clang/AST/CommentNodes.inc" #undef COMMENT #undef ABSTRACT_COMMENT } llvm_unreachable("Unknown comment kind!"); } Comment::child_iterator Comment::child_end() const { switch (getCommentKind()) { case NoCommentKind: llvm_unreachable("comment without a kind"); #define ABSTRACT_COMMENT(COMMENT) #define COMMENT(CLASS, PARENT) \ case CLASS##Kind: \ return static_cast(this)->child_end(); #include "clang/AST/CommentNodes.inc" #undef COMMENT #undef ABSTRACT_COMMENT } llvm_unreachable("Unknown comment kind!"); } bool TextComment::isWhitespaceNoCache() const { for (StringRef::const_iterator I = Text.begin(), E = Text.end(); I != E; ++I) { const char C = *I; if (C != ' ' && C != '\n' && C != '\r' && C != '\t' && C != '\f' && C != '\v') return false; } return true; } bool ParagraphComment::isWhitespaceNoCache() const { for (child_iterator I = child_begin(), E = child_end(); I != E; ++I) { if (const TextComment *TC = dyn_cast(*I)) { if (!TC->isWhitespace()) return false; } else return false; } return true; } const char *ParamCommandComment::getDirectionAsString(PassDirection D) { switch (D) { case ParamCommandComment::In: return "[in]"; case ParamCommandComment::Out: return "[out]"; case ParamCommandComment::InOut: return "[in,out]"; } llvm_unreachable("unknown PassDirection"); } void DeclInfo::fill() { assert(!IsFilled); // Set defaults. Kind = OtherKind; TemplateKind = NotTemplate; IsObjCMethod = false; IsInstanceMethod = false; IsClassMethod = false; ParamVars = ArrayRef(); TemplateParameters = NULL; if (!ThisDecl) { // If there is no declaration, the defaults is our only guess. IsFilled = true; return; } Decl::Kind K = ThisDecl->getKind(); switch (K) { default: // Defaults are should be good for declarations we don't handle explicitly. break; case Decl::Function: case Decl::CXXMethod: case Decl::CXXConstructor: case Decl::CXXDestructor: case Decl::CXXConversion: { const FunctionDecl *FD = cast(ThisDecl); Kind = FunctionKind; ParamVars = ArrayRef(FD->param_begin(), FD->getNumParams()); ResultType = FD->getResultType(); unsigned NumLists = FD->getNumTemplateParameterLists(); if (NumLists != 0) { TemplateKind = TemplateSpecialization; TemplateParameters = FD->getTemplateParameterList(NumLists - 1); } if (K == Decl::CXXMethod || K == Decl::CXXConstructor || K == Decl::CXXDestructor || K == Decl::CXXConversion) { const CXXMethodDecl *MD = cast(ThisDecl); IsInstanceMethod = MD->isInstance(); IsClassMethod = !IsInstanceMethod; } break; } case Decl::ObjCMethod: { const ObjCMethodDecl *MD = cast(ThisDecl); Kind = FunctionKind; ParamVars = ArrayRef(MD->param_begin(), MD->param_size()); ResultType = MD->getResultType(); IsObjCMethod = true; IsInstanceMethod = MD->isInstanceMethod(); IsClassMethod = !IsInstanceMethod; break; } case Decl::FunctionTemplate: { const FunctionTemplateDecl *FTD = cast(ThisDecl); Kind = FunctionKind; TemplateKind = Template; const FunctionDecl *FD = FTD->getTemplatedDecl(); ParamVars = ArrayRef(FD->param_begin(), FD->getNumParams()); ResultType = FD->getResultType(); TemplateParameters = FTD->getTemplateParameters(); break; } case Decl::ClassTemplate: { const ClassTemplateDecl *CTD = cast(ThisDecl); Kind = ClassKind; TemplateKind = Template; TemplateParameters = CTD->getTemplateParameters(); break; } case Decl::ClassTemplatePartialSpecialization: { const ClassTemplatePartialSpecializationDecl *CTPSD = cast(ThisDecl); Kind = ClassKind; TemplateKind = TemplatePartialSpecialization; TemplateParameters = CTPSD->getTemplateParameters(); break; } case Decl::ClassTemplateSpecialization: Kind = ClassKind; TemplateKind = TemplateSpecialization; break; case Decl::Record: case Decl::CXXRecord: Kind = ClassKind; break; case Decl::Var: case Decl::Field: case Decl::EnumConstant: case Decl::ObjCIvar: case Decl::ObjCAtDefsField: Kind = VariableKind; break; case Decl::Namespace: Kind = NamespaceKind; break; case Decl::Typedef: { Kind = TypedefKind; // If this is a typedef to something we consider a function, extract // arguments and return type. const TypedefDecl *TD = cast(ThisDecl); const TypeSourceInfo *TSI = TD->getTypeSourceInfo(); if (!TSI) break; TypeLoc TL = TSI->getTypeLoc().getUnqualifiedLoc(); while (true) { TL = TL.IgnoreParens(); // Look through qualified types. if (QualifiedTypeLoc *QualifiedTL = dyn_cast(&TL)) { TL = QualifiedTL->getUnqualifiedLoc(); continue; } // Look through pointer types. if (PointerTypeLoc *PointerTL = dyn_cast(&TL)) { TL = PointerTL->getPointeeLoc().getUnqualifiedLoc(); continue; } if (BlockPointerTypeLoc *BlockPointerTL = dyn_cast(&TL)) { TL = BlockPointerTL->getPointeeLoc().getUnqualifiedLoc(); continue; } if (MemberPointerTypeLoc *MemberPointerTL = dyn_cast(&TL)) { TL = MemberPointerTL->getPointeeLoc().getUnqualifiedLoc(); continue; } // Is this a typedef for a function type? if (FunctionTypeLoc *FTL = dyn_cast(&TL)) { Kind = FunctionKind; ArrayRef Params = FTL->getParams(); ParamVars = ArrayRef(Params.data(), Params.size()); ResultType = FTL->getResultLoc().getType(); break; } break; } break; } case Decl::TypeAlias: Kind = TypedefKind; break; case Decl::TypeAliasTemplate: { const TypeAliasTemplateDecl *TAT = cast(ThisDecl); Kind = TypedefKind; TemplateKind = Template; TemplateParameters = TAT->getTemplateParameters(); break; } case Decl::Enum: Kind = EnumKind; break; } IsFilled = true; } } // end namespace comments } // end namespace clang