//===--- Headers.cpp - Include headers ---------------------------*- C++-*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "Headers.h" #include "Compiler.h" #include "Logger.h" #include "SourceCode.h" #include "clang/Frontend/CompilerInstance.h" #include "clang/Frontend/CompilerInvocation.h" #include "clang/Frontend/FrontendActions.h" #include "clang/Lex/HeaderSearch.h" #include "llvm/Support/Path.h" namespace clang { namespace clangd { namespace { class RecordHeaders : public PPCallbacks { public: RecordHeaders(const SourceManager &SM, IncludeStructure *Out) : SM(SM), Out(Out) {} // Record existing #includes - both written and resolved paths. Only #includes // in the main file are collected. void InclusionDirective(SourceLocation HashLoc, const Token & /*IncludeTok*/, llvm::StringRef FileName, bool IsAngled, CharSourceRange FilenameRange, const FileEntry *File, llvm::StringRef /*SearchPath*/, llvm::StringRef /*RelativePath*/, const Module * /*Imported*/, SrcMgr::CharacteristicKind FileKind) override { if (SM.isWrittenInMainFile(HashLoc)) { Out->MainFileIncludes.emplace_back(); auto &Inc = Out->MainFileIncludes.back(); Inc.R = halfOpenToRange(SM, FilenameRange); Inc.Written = (IsAngled ? "<" + FileName + ">" : "\"" + FileName + "\"").str(); Inc.Resolved = File ? File->tryGetRealPathName() : ""; Inc.HashOffset = SM.getFileOffset(HashLoc); Inc.FileKind = FileKind; } if (File) { auto *IncludingFileEntry = SM.getFileEntryForID(SM.getFileID(HashLoc)); if (!IncludingFileEntry) { assert(SM.getBufferName(HashLoc).startswith("<") && "Expected #include location to be a file or "); // Treat as if included from the main file. IncludingFileEntry = SM.getFileEntryForID(SM.getMainFileID()); } Out->recordInclude(IncludingFileEntry->getName(), File->getName(), File->tryGetRealPathName()); } } private: const SourceManager &SM; IncludeStructure *Out; }; } // namespace bool isLiteralInclude(llvm::StringRef Include) { return Include.startswith("<") || Include.startswith("\""); } bool HeaderFile::valid() const { return (Verbatim && isLiteralInclude(File)) || (!Verbatim && llvm::sys::path::is_absolute(File)); } std::unique_ptr collectIncludeStructureCallback(const SourceManager &SM, IncludeStructure *Out) { return llvm::make_unique(SM, Out); } void IncludeStructure::recordInclude(llvm::StringRef IncludingName, llvm::StringRef IncludedName, llvm::StringRef IncludedRealName) { auto Child = fileIndex(IncludedName); if (!IncludedRealName.empty() && RealPathNames[Child].empty()) RealPathNames[Child] = IncludedRealName; auto Parent = fileIndex(IncludingName); IncludeChildren[Parent].push_back(Child); } unsigned IncludeStructure::fileIndex(llvm::StringRef Name) { auto R = NameToIndex.try_emplace(Name, RealPathNames.size()); if (R.second) RealPathNames.emplace_back(); return R.first->getValue(); } llvm::StringMap IncludeStructure::includeDepth(llvm::StringRef Root) const { // Include depth 0 is the main file only. llvm::StringMap Result; Result[Root] = 0; std::vector CurrentLevel; llvm::DenseSet Seen; auto It = NameToIndex.find(Root); if (It != NameToIndex.end()) { CurrentLevel.push_back(It->second); Seen.insert(It->second); } // Each round of BFS traversal finds the next depth level. std::vector PreviousLevel; for (unsigned Level = 1; !CurrentLevel.empty(); ++Level) { PreviousLevel.clear(); PreviousLevel.swap(CurrentLevel); for (const auto &Parent : PreviousLevel) { for (const auto &Child : IncludeChildren.lookup(Parent)) { if (Seen.insert(Child).second) { CurrentLevel.push_back(Child); const auto &Name = RealPathNames[Child]; // Can't include files if we don't have their real path. if (!Name.empty()) Result[Name] = Level; } } } } return Result; } void IncludeInserter::addExisting(const Inclusion &Inc) { IncludedHeaders.insert(Inc.Written); if (!Inc.Resolved.empty()) IncludedHeaders.insert(Inc.Resolved); } /// FIXME(ioeric): we might not want to insert an absolute include path if the /// path is not shortened. bool IncludeInserter::shouldInsertInclude( const HeaderFile &DeclaringHeader, const HeaderFile &InsertedHeader) const { assert(DeclaringHeader.valid() && InsertedHeader.valid()); if (FileName == DeclaringHeader.File || FileName == InsertedHeader.File) return false; auto Included = [&](llvm::StringRef Header) { return IncludedHeaders.find(Header) != IncludedHeaders.end(); }; return !Included(DeclaringHeader.File) && !Included(InsertedHeader.File); } std::string IncludeInserter::calculateIncludePath(const HeaderFile &DeclaringHeader, const HeaderFile &InsertedHeader) const { assert(DeclaringHeader.valid() && InsertedHeader.valid()); if (InsertedHeader.Verbatim) return InsertedHeader.File; bool IsSystem = false; std::string Suggested = HeaderSearchInfo.suggestPathToFileForDiagnostics( InsertedHeader.File, BuildDir, &IsSystem); if (IsSystem) Suggested = "<" + Suggested + ">"; else Suggested = "\"" + Suggested + "\""; return Suggested; } llvm::Optional IncludeInserter::insert(llvm::StringRef VerbatimHeader) const { llvm::Optional Edit = None; if (auto Insertion = Inserter.insert(VerbatimHeader.trim("\"<>"), VerbatimHeader.startswith("<"))) Edit = replacementToEdit(Code, *Insertion); return Edit; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Inclusion &Inc) { return OS << Inc.Written << " = " << (Inc.Resolved.empty() ? Inc.Resolved : "[unresolved]") << " at " << Inc.R; } } // namespace clangd } // namespace clang