//===-- FindAllSymbols.cpp - find all symbols--------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "FindAllSymbols.h" #include "HeaderMapCollector.h" #include "PathConfig.h" #include "SymbolInfo.h" #include "clang/AST/Decl.h" #include "clang/AST/DeclCXX.h" #include "clang/AST/Type.h" #include "clang/ASTMatchers/ASTMatchFinder.h" #include "clang/ASTMatchers/ASTMatchers.h" #include "clang/Tooling/Tooling.h" #include "llvm/ADT/Optional.h" #include "llvm/Support/FileSystem.h" using namespace clang::ast_matchers; namespace clang { namespace find_all_symbols { namespace { AST_MATCHER(EnumConstantDecl, isInScopedEnum) { if (const auto *ED = dyn_cast(Node.getDeclContext())) return ED->isScoped(); return false; } AST_POLYMORPHIC_MATCHER(isFullySpecialized, AST_POLYMORPHIC_SUPPORTED_TYPES(FunctionDecl, VarDecl, CXXRecordDecl)) { if (Node.getTemplateSpecializationKind() == TSK_ExplicitSpecialization) { bool IsPartialSpecialization = llvm::isa(Node) || llvm::isa(Node); return !IsPartialSpecialization; } return false; } std::vector GetContexts(const NamedDecl *ND) { std::vector Contexts; for (const auto *Context = ND->getDeclContext(); Context; Context = Context->getParent()) { if (llvm::isa(Context) || llvm::isa(Context)) break; assert(llvm::isa(Context) && "Expect Context to be a NamedDecl"); if (const auto *NSD = dyn_cast(Context)) { if (!NSD->isInlineNamespace()) Contexts.emplace_back(SymbolInfo::ContextType::Namespace, NSD->getName().str()); } else if (const auto *ED = dyn_cast(Context)) { Contexts.emplace_back(SymbolInfo::ContextType::EnumDecl, ED->getName().str()); } else { const auto *RD = cast(Context); Contexts.emplace_back(SymbolInfo::ContextType::Record, RD->getName().str()); } } return Contexts; } llvm::Optional CreateSymbolInfo(const NamedDecl *ND, const SourceManager &SM, const HeaderMapCollector *Collector) { SymbolInfo::SymbolKind Type; if (llvm::isa(ND)) { Type = SymbolInfo::SymbolKind::Variable; } else if (llvm::isa(ND)) { Type = SymbolInfo::SymbolKind::Function; } else if (llvm::isa(ND)) { Type = SymbolInfo::SymbolKind::TypedefName; } else if (llvm::isa(ND)) { Type = SymbolInfo::SymbolKind::EnumConstantDecl; } else if (llvm::isa(ND)) { Type = SymbolInfo::SymbolKind::EnumDecl; // Ignore anonymous enum declarations. if (ND->getName().empty()) return llvm::None; } else { assert(llvm::isa(ND) && "Matched decl must be one of VarDecl, " "FunctionDecl, TypedefNameDecl, EnumConstantDecl, " "EnumDecl and RecordDecl!"); // C-style record decl can have empty name, e.g "struct { ... } var;". if (ND->getName().empty()) return llvm::None; Type = SymbolInfo::SymbolKind::Class; } SourceLocation Loc = SM.getExpansionLoc(ND->getLocation()); if (!Loc.isValid()) { llvm::errs() << "Declaration " << ND->getNameAsString() << "(" << ND->getDeclKindName() << ") has invalid declaration location."; return llvm::None; } std::string FilePath = getIncludePath(SM, Loc, Collector); if (FilePath.empty()) return llvm::None; return SymbolInfo(ND->getNameAsString(), Type, FilePath, GetContexts(ND)); } } // namespace void FindAllSymbols::registerMatchers(MatchFinder *MatchFinder) { // FIXME: Handle specialization. auto IsInSpecialization = hasAncestor( decl(anyOf(cxxRecordDecl(isExplicitTemplateSpecialization()), functionDecl(isExplicitTemplateSpecialization())))); // Matchers for both C and C++. // We only match symbols from header files, i.e. not from main files (see // function's comment for detailed explanation). auto CommonFilter = allOf(unless(isImplicit()), unless(isExpansionInMainFile())); auto HasNSOrTUCtxMatcher = hasDeclContext(anyOf(namespaceDecl(), translationUnitDecl())); // We need seperate rules for C record types and C++ record types since some // template related matchers are inapplicable on C record declarations. // // Matchers specific to C++ code. // All declarations should be in namespace or translation unit. auto CCMatcher = allOf(HasNSOrTUCtxMatcher, unless(IsInSpecialization), unless(ast_matchers::isTemplateInstantiation()), unless(isInstantiated()), unless(isFullySpecialized())); // Matchers specific to code in extern "C" {...}. auto ExternCMatcher = hasDeclContext(linkageSpecDecl()); // Matchers for variable declarations. // // In most cases, `ParmVarDecl` is filtered out by hasDeclContext(...) // matcher since the declaration context is usually `MethodDecl`. However, // this assumption does not hold for parameters of a function pointer // parameter. // For example, consider a function declaration: // void Func(void (*)(float), int); // The float parameter of the function pointer has an empty name, and its // declaration context is an anonymous namespace; therefore, it won't be // filtered out by our matchers above. auto Vars = varDecl(CommonFilter, anyOf(ExternCMatcher, CCMatcher), unless(parmVarDecl())); // Matchers for C-style record declarations in extern "C" {...}. auto CRecords = recordDecl(CommonFilter, ExternCMatcher, isDefinition()); // Matchers for C++ record declarations. auto CXXRecords = cxxRecordDecl(CommonFilter, CCMatcher, isDefinition()); // Matchers for function declarations. // We want to exclude friend declaration, but the `DeclContext` of a friend // function declaration is not the class in which it is declared, so we need // to explicitly check if the parent is a `friendDecl`. auto Functions = functionDecl(CommonFilter, unless(hasParent(friendDecl())), anyOf(ExternCMatcher, CCMatcher)); // Matcher for typedef and type alias declarations. // // typedef and type alias can come from C-style headers and C++ headers. // For C-style headers, `DeclContxet` can be either `TranslationUnitDecl` // or `LinkageSpecDecl`. // For C++ headers, `DeclContext ` can be either `TranslationUnitDecl` // or `NamespaceDecl`. // With the following context matcher, we can match `typedefNameDecl` from // both C-style headers and C++ headers (except for those in classes). // "cc_matchers" are not included since template-related matchers are not // applicable on `TypedefNameDecl`. auto Typedefs = typedefNameDecl(CommonFilter, anyOf(HasNSOrTUCtxMatcher, hasDeclContext(linkageSpecDecl()))); // Matchers for enum declarations. auto Enums = enumDecl(CommonFilter, isDefinition(), anyOf(HasNSOrTUCtxMatcher, ExternCMatcher)); // Matchers for enum constant declarations. // We only match the enum constants in non-scoped enum declarations which are // inside toplevel translation unit or a namespace. auto EnumConstants = enumConstantDecl( CommonFilter, unless(isInScopedEnum()), anyOf(hasDeclContext(enumDecl(HasNSOrTUCtxMatcher)), ExternCMatcher)); // Most of the time we care about all matchable decls, or all types. auto Types = namedDecl(anyOf(CRecords, CXXRecords, Enums)); auto Decls = namedDecl(anyOf(CRecords, CXXRecords, Enums, Typedefs, Vars, EnumConstants, Functions)); // We want eligible decls bound to "decl"... MatchFinder->addMatcher(Decls.bind("decl"), this); // ... and all uses of them bound to "use". These have many cases: // Uses of values/functions: these generate a declRefExpr. MatchFinder->addMatcher( declRefExpr(isExpansionInMainFile(), to(Decls.bind("use"))), this); // Uses of function templates: MatchFinder->addMatcher( declRefExpr(isExpansionInMainFile(), to(functionDecl(hasParent( functionTemplateDecl(has(Functions.bind("use"))))))), this); // Uses of most types: just look at what the typeLoc refers to. MatchFinder->addMatcher( typeLoc(isExpansionInMainFile(), loc(qualType(hasDeclaration(Types.bind("use"))))), this); // Uses of typedefs: these are often transparent to hasDeclaration, so we need // to handle them explicitly. MatchFinder->addMatcher( typeLoc(isExpansionInMainFile(), loc(typedefType(hasDeclaration(Typedefs.bind("use"))))), this); // Uses of class templates: // The typeLoc names the templateSpecializationType. Its declaration is the // ClassTemplateDecl, which contains the CXXRecordDecl we want. MatchFinder->addMatcher( typeLoc(isExpansionInMainFile(), loc(templateSpecializationType(hasDeclaration( classTemplateSpecializationDecl(hasSpecializedTemplate( classTemplateDecl(has(CXXRecords.bind("use"))))))))), this); } void FindAllSymbols::run(const MatchFinder::MatchResult &Result) { // Ignore Results in failing TUs. if (Result.Context->getDiagnostics().hasErrorOccurred()) { return; } SymbolInfo::Signals Signals; const NamedDecl *ND; if ((ND = Result.Nodes.getNodeAs("use"))) Signals.Used = 1; else if ((ND = Result.Nodes.getNodeAs("decl"))) Signals.Seen = 1; else assert(false && "Must match a NamedDecl!"); const SourceManager *SM = Result.SourceManager; if (auto Symbol = CreateSymbolInfo(ND, *SM, Collector)) { Filename = SM->getFileEntryForID(SM->getMainFileID())->getName(); FileSymbols[*Symbol] += Signals; } } void FindAllSymbols::onEndOfTranslationUnit() { if (Filename != "") { Reporter->reportSymbols(Filename, FileSymbols); FileSymbols.clear(); Filename = ""; } } } // namespace find_all_symbols } // namespace clang