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Current File : //compat/linux/proc/68247/root/usr/src/contrib/llvm/tools/clang/lib/Lex/ModuleMap.cpp |
//===--- ModuleMap.cpp - Describe the layout of modules ---------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the ModuleMap implementation, which describes the layout // of a module as it relates to headers. // //===----------------------------------------------------------------------===// #include "clang/Lex/ModuleMap.h" #include "clang/Lex/Lexer.h" #include "clang/Lex/LiteralSupport.h" #include "clang/Lex/LexDiagnostic.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/TargetInfo.h" #include "clang/Basic/TargetOptions.h" #include "llvm/Support/Allocator.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Host.h" #include "llvm/Support/PathV2.h" #include "llvm/Support/raw_ostream.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/StringSwitch.h" using namespace clang; Module::ExportDecl ModuleMap::resolveExport(Module *Mod, const Module::UnresolvedExportDecl &Unresolved, bool Complain) { // We may have just a wildcard. if (Unresolved.Id.empty()) { assert(Unresolved.Wildcard && "Invalid unresolved export"); return Module::ExportDecl(0, true); } // Find the starting module. Module *Context = lookupModuleUnqualified(Unresolved.Id[0].first, Mod); if (!Context) { if (Complain) Diags->Report(Unresolved.Id[0].second, diag::err_mmap_missing_module_unqualified) << Unresolved.Id[0].first << Mod->getFullModuleName(); return Module::ExportDecl(); } // Dig into the module path. for (unsigned I = 1, N = Unresolved.Id.size(); I != N; ++I) { Module *Sub = lookupModuleQualified(Unresolved.Id[I].first, Context); if (!Sub) { if (Complain) Diags->Report(Unresolved.Id[I].second, diag::err_mmap_missing_module_qualified) << Unresolved.Id[I].first << Context->getFullModuleName() << SourceRange(Unresolved.Id[0].second, Unresolved.Id[I-1].second); return Module::ExportDecl(); } Context = Sub; } return Module::ExportDecl(Context, Unresolved.Wildcard); } ModuleMap::ModuleMap(FileManager &FileMgr, const DiagnosticConsumer &DC, const LangOptions &LangOpts, const TargetInfo *Target) : LangOpts(LangOpts), Target(Target), BuiltinIncludeDir(0) { IntrusiveRefCntPtr<DiagnosticIDs> DiagIDs(new DiagnosticIDs); Diags = IntrusiveRefCntPtr<DiagnosticsEngine>( new DiagnosticsEngine(DiagIDs)); Diags->setClient(DC.clone(*Diags), /*ShouldOwnClient=*/true); SourceMgr = new SourceManager(*Diags, FileMgr); } ModuleMap::~ModuleMap() { for (llvm::StringMap<Module *>::iterator I = Modules.begin(), IEnd = Modules.end(); I != IEnd; ++I) { delete I->getValue(); } delete SourceMgr; } void ModuleMap::setTarget(const TargetInfo &Target) { assert((!this->Target || this->Target == &Target) && "Improper target override"); this->Target = &Target; } Module *ModuleMap::findModuleForHeader(const FileEntry *File) { llvm::DenseMap<const FileEntry *, Module *>::iterator Known = Headers.find(File); if (Known != Headers.end()) { // If a header corresponds to an unavailable module, don't report // that it maps to anything. if (!Known->second->isAvailable()) return 0; return Known->second; } const DirectoryEntry *Dir = File->getDir(); llvm::SmallVector<const DirectoryEntry *, 2> SkippedDirs; StringRef DirName = Dir->getName(); // Keep walking up the directory hierarchy, looking for a directory with // an umbrella header. do { llvm::DenseMap<const DirectoryEntry *, Module *>::iterator KnownDir = UmbrellaDirs.find(Dir); if (KnownDir != UmbrellaDirs.end()) { Module *Result = KnownDir->second; // Search up the module stack until we find a module with an umbrella // directory. Module *UmbrellaModule = Result; while (!UmbrellaModule->getUmbrellaDir() && UmbrellaModule->Parent) UmbrellaModule = UmbrellaModule->Parent; if (UmbrellaModule->InferSubmodules) { // Infer submodules for each of the directories we found between // the directory of the umbrella header and the directory where // the actual header is located. bool Explicit = UmbrellaModule->InferExplicitSubmodules; for (unsigned I = SkippedDirs.size(); I != 0; --I) { // Find or create the module that corresponds to this directory name. StringRef Name = llvm::sys::path::stem(SkippedDirs[I-1]->getName()); Result = findOrCreateModule(Name, Result, /*IsFramework=*/false, Explicit).first; // Associate the module and the directory. UmbrellaDirs[SkippedDirs[I-1]] = Result; // If inferred submodules export everything they import, add a // wildcard to the set of exports. if (UmbrellaModule->InferExportWildcard && Result->Exports.empty()) Result->Exports.push_back(Module::ExportDecl(0, true)); } // Infer a submodule with the same name as this header file. StringRef Name = llvm::sys::path::stem(File->getName()); Result = findOrCreateModule(Name, Result, /*IsFramework=*/false, Explicit).first; // If inferred submodules export everything they import, add a // wildcard to the set of exports. if (UmbrellaModule->InferExportWildcard && Result->Exports.empty()) Result->Exports.push_back(Module::ExportDecl(0, true)); } else { // Record each of the directories we stepped through as being part of // the module we found, since the umbrella header covers them all. for (unsigned I = 0, N = SkippedDirs.size(); I != N; ++I) UmbrellaDirs[SkippedDirs[I]] = Result; } Headers[File] = Result; // If a header corresponds to an unavailable module, don't report // that it maps to anything. if (!Result->isAvailable()) return 0; return Result; } SkippedDirs.push_back(Dir); // Retrieve our parent path. DirName = llvm::sys::path::parent_path(DirName); if (DirName.empty()) break; // Resolve the parent path to a directory entry. Dir = SourceMgr->getFileManager().getDirectory(DirName); } while (Dir); return 0; } bool ModuleMap::isHeaderInUnavailableModule(const FileEntry *Header) { llvm::DenseMap<const FileEntry *, Module *>::iterator Known = Headers.find(Header); if (Known != Headers.end()) return !Known->second->isAvailable(); const DirectoryEntry *Dir = Header->getDir(); llvm::SmallVector<const DirectoryEntry *, 2> SkippedDirs; StringRef DirName = Dir->getName(); // Keep walking up the directory hierarchy, looking for a directory with // an umbrella header. do { llvm::DenseMap<const DirectoryEntry *, Module *>::iterator KnownDir = UmbrellaDirs.find(Dir); if (KnownDir != UmbrellaDirs.end()) { Module *Found = KnownDir->second; if (!Found->isAvailable()) return true; // Search up the module stack until we find a module with an umbrella // directory. Module *UmbrellaModule = Found; while (!UmbrellaModule->getUmbrellaDir() && UmbrellaModule->Parent) UmbrellaModule = UmbrellaModule->Parent; if (UmbrellaModule->InferSubmodules) { for (unsigned I = SkippedDirs.size(); I != 0; --I) { // Find or create the module that corresponds to this directory name. StringRef Name = llvm::sys::path::stem(SkippedDirs[I-1]->getName()); Found = lookupModuleQualified(Name, Found); if (!Found) return false; if (!Found->isAvailable()) return true; } // Infer a submodule with the same name as this header file. StringRef Name = llvm::sys::path::stem(Header->getName()); Found = lookupModuleQualified(Name, Found); if (!Found) return false; } return !Found->isAvailable(); } SkippedDirs.push_back(Dir); // Retrieve our parent path. DirName = llvm::sys::path::parent_path(DirName); if (DirName.empty()) break; // Resolve the parent path to a directory entry. Dir = SourceMgr->getFileManager().getDirectory(DirName); } while (Dir); return false; } Module *ModuleMap::findModule(StringRef Name) { llvm::StringMap<Module *>::iterator Known = Modules.find(Name); if (Known != Modules.end()) return Known->getValue(); return 0; } Module *ModuleMap::lookupModuleUnqualified(StringRef Name, Module *Context) { for(; Context; Context = Context->Parent) { if (Module *Sub = lookupModuleQualified(Name, Context)) return Sub; } return findModule(Name); } Module *ModuleMap::lookupModuleQualified(StringRef Name, Module *Context) { if (!Context) return findModule(Name); return Context->findSubmodule(Name); } std::pair<Module *, bool> ModuleMap::findOrCreateModule(StringRef Name, Module *Parent, bool IsFramework, bool IsExplicit) { // Try to find an existing module with this name. if (Module *Sub = lookupModuleQualified(Name, Parent)) return std::make_pair(Sub, false); // Create a new module with this name. Module *Result = new Module(Name, SourceLocation(), Parent, IsFramework, IsExplicit); if (!Parent) Modules[Name] = Result; return std::make_pair(Result, true); } Module * ModuleMap::inferFrameworkModule(StringRef ModuleName, const DirectoryEntry *FrameworkDir, bool IsSystem, Module *Parent) { // Check whether we've already found this module. if (Module *Mod = lookupModuleQualified(ModuleName, Parent)) return Mod; FileManager &FileMgr = SourceMgr->getFileManager(); // Look for an umbrella header. SmallString<128> UmbrellaName = StringRef(FrameworkDir->getName()); llvm::sys::path::append(UmbrellaName, "Headers"); llvm::sys::path::append(UmbrellaName, ModuleName + ".h"); const FileEntry *UmbrellaHeader = FileMgr.getFile(UmbrellaName); // FIXME: If there's no umbrella header, we could probably scan the // framework to load *everything*. But, it's not clear that this is a good // idea. if (!UmbrellaHeader) return 0; Module *Result = new Module(ModuleName, SourceLocation(), Parent, /*IsFramework=*/true, /*IsExplicit=*/false); if (IsSystem) Result->IsSystem = IsSystem; if (!Parent) Modules[ModuleName] = Result; // umbrella header "umbrella-header-name" Result->Umbrella = UmbrellaHeader; Headers[UmbrellaHeader] = Result; UmbrellaDirs[UmbrellaHeader->getDir()] = Result; // export * Result->Exports.push_back(Module::ExportDecl(0, true)); // module * { export * } Result->InferSubmodules = true; Result->InferExportWildcard = true; // Look for subframeworks. llvm::error_code EC; SmallString<128> SubframeworksDirName = StringRef(FrameworkDir->getName()); llvm::sys::path::append(SubframeworksDirName, "Frameworks"); SmallString<128> SubframeworksDirNameNative; llvm::sys::path::native(SubframeworksDirName.str(), SubframeworksDirNameNative); for (llvm::sys::fs::directory_iterator Dir(SubframeworksDirNameNative.str(), EC), DirEnd; Dir != DirEnd && !EC; Dir.increment(EC)) { if (!StringRef(Dir->path()).endswith(".framework")) continue; if (const DirectoryEntry *SubframeworkDir = FileMgr.getDirectory(Dir->path())) { // FIXME: Do we want to warn about subframeworks without umbrella headers? inferFrameworkModule(llvm::sys::path::stem(Dir->path()), SubframeworkDir, IsSystem, Result); } } return Result; } void ModuleMap::setUmbrellaHeader(Module *Mod, const FileEntry *UmbrellaHeader){ Headers[UmbrellaHeader] = Mod; Mod->Umbrella = UmbrellaHeader; UmbrellaDirs[UmbrellaHeader->getDir()] = Mod; } void ModuleMap::setUmbrellaDir(Module *Mod, const DirectoryEntry *UmbrellaDir) { Mod->Umbrella = UmbrellaDir; UmbrellaDirs[UmbrellaDir] = Mod; } void ModuleMap::addHeader(Module *Mod, const FileEntry *Header) { Mod->Headers.push_back(Header); Headers[Header] = Mod; } const FileEntry * ModuleMap::getContainingModuleMapFile(Module *Module) { if (Module->DefinitionLoc.isInvalid() || !SourceMgr) return 0; return SourceMgr->getFileEntryForID( SourceMgr->getFileID(Module->DefinitionLoc)); } void ModuleMap::dump() { llvm::errs() << "Modules:"; for (llvm::StringMap<Module *>::iterator M = Modules.begin(), MEnd = Modules.end(); M != MEnd; ++M) M->getValue()->print(llvm::errs(), 2); llvm::errs() << "Headers:"; for (llvm::DenseMap<const FileEntry *, Module *>::iterator H = Headers.begin(), HEnd = Headers.end(); H != HEnd; ++H) { llvm::errs() << " \"" << H->first->getName() << "\" -> " << H->second->getFullModuleName() << "\n"; } } bool ModuleMap::resolveExports(Module *Mod, bool Complain) { bool HadError = false; for (unsigned I = 0, N = Mod->UnresolvedExports.size(); I != N; ++I) { Module::ExportDecl Export = resolveExport(Mod, Mod->UnresolvedExports[I], Complain); if (Export.getPointer() || Export.getInt()) Mod->Exports.push_back(Export); else HadError = true; } Mod->UnresolvedExports.clear(); return HadError; } Module *ModuleMap::inferModuleFromLocation(FullSourceLoc Loc) { if (Loc.isInvalid()) return 0; // Use the expansion location to determine which module we're in. FullSourceLoc ExpansionLoc = Loc.getExpansionLoc(); if (!ExpansionLoc.isFileID()) return 0; const SourceManager &SrcMgr = Loc.getManager(); FileID ExpansionFileID = ExpansionLoc.getFileID(); while (const FileEntry *ExpansionFile = SrcMgr.getFileEntryForID(ExpansionFileID)) { // Find the module that owns this header (if any). if (Module *Mod = findModuleForHeader(ExpansionFile)) return Mod; // No module owns this header, so look up the inclusion chain to see if // any included header has an associated module. SourceLocation IncludeLoc = SrcMgr.getIncludeLoc(ExpansionFileID); if (IncludeLoc.isInvalid()) return 0; ExpansionFileID = SrcMgr.getFileID(IncludeLoc); } return 0; } //----------------------------------------------------------------------------// // Module map file parser //----------------------------------------------------------------------------// namespace clang { /// \brief A token in a module map file. struct MMToken { enum TokenKind { Comma, EndOfFile, HeaderKeyword, Identifier, ExplicitKeyword, ExportKeyword, FrameworkKeyword, ModuleKeyword, Period, UmbrellaKeyword, RequiresKeyword, Star, StringLiteral, LBrace, RBrace, LSquare, RSquare } Kind; unsigned Location; unsigned StringLength; const char *StringData; void clear() { Kind = EndOfFile; Location = 0; StringLength = 0; StringData = 0; } bool is(TokenKind K) const { return Kind == K; } SourceLocation getLocation() const { return SourceLocation::getFromRawEncoding(Location); } StringRef getString() const { return StringRef(StringData, StringLength); } }; class ModuleMapParser { Lexer &L; SourceManager &SourceMgr; DiagnosticsEngine &Diags; ModuleMap ⤅ /// \brief The directory that this module map resides in. const DirectoryEntry *Directory; /// \brief The directory containing Clang-supplied headers. const DirectoryEntry *BuiltinIncludeDir; /// \brief Whether an error occurred. bool HadError; /// \brief Default target information, used only for string literal /// parsing. OwningPtr<TargetInfo> Target; /// \brief Stores string data for the various string literals referenced /// during parsing. llvm::BumpPtrAllocator StringData; /// \brief The current token. MMToken Tok; /// \brief The active module. Module *ActiveModule; /// \brief Consume the current token and return its location. SourceLocation consumeToken(); /// \brief Skip tokens until we reach the a token with the given kind /// (or the end of the file). void skipUntil(MMToken::TokenKind K); typedef llvm::SmallVector<std::pair<std::string, SourceLocation>, 2> ModuleId; bool parseModuleId(ModuleId &Id); void parseModuleDecl(); void parseRequiresDecl(); void parseHeaderDecl(SourceLocation UmbrellaLoc); void parseUmbrellaDirDecl(SourceLocation UmbrellaLoc); void parseExportDecl(); void parseInferredSubmoduleDecl(bool Explicit); const DirectoryEntry *getOverriddenHeaderSearchDir(); public: explicit ModuleMapParser(Lexer &L, SourceManager &SourceMgr, DiagnosticsEngine &Diags, ModuleMap &Map, const DirectoryEntry *Directory, const DirectoryEntry *BuiltinIncludeDir) : L(L), SourceMgr(SourceMgr), Diags(Diags), Map(Map), Directory(Directory), BuiltinIncludeDir(BuiltinIncludeDir), HadError(false), ActiveModule(0) { TargetOptions TargetOpts; TargetOpts.Triple = llvm::sys::getDefaultTargetTriple(); Target.reset(TargetInfo::CreateTargetInfo(Diags, TargetOpts)); Tok.clear(); consumeToken(); } bool parseModuleMapFile(); }; } SourceLocation ModuleMapParser::consumeToken() { retry: SourceLocation Result = Tok.getLocation(); Tok.clear(); Token LToken; L.LexFromRawLexer(LToken); Tok.Location = LToken.getLocation().getRawEncoding(); switch (LToken.getKind()) { case tok::raw_identifier: Tok.StringData = LToken.getRawIdentifierData(); Tok.StringLength = LToken.getLength(); Tok.Kind = llvm::StringSwitch<MMToken::TokenKind>(Tok.getString()) .Case("header", MMToken::HeaderKeyword) .Case("explicit", MMToken::ExplicitKeyword) .Case("export", MMToken::ExportKeyword) .Case("framework", MMToken::FrameworkKeyword) .Case("module", MMToken::ModuleKeyword) .Case("requires", MMToken::RequiresKeyword) .Case("umbrella", MMToken::UmbrellaKeyword) .Default(MMToken::Identifier); break; case tok::comma: Tok.Kind = MMToken::Comma; break; case tok::eof: Tok.Kind = MMToken::EndOfFile; break; case tok::l_brace: Tok.Kind = MMToken::LBrace; break; case tok::l_square: Tok.Kind = MMToken::LSquare; break; case tok::period: Tok.Kind = MMToken::Period; break; case tok::r_brace: Tok.Kind = MMToken::RBrace; break; case tok::r_square: Tok.Kind = MMToken::RSquare; break; case tok::star: Tok.Kind = MMToken::Star; break; case tok::string_literal: { if (LToken.hasUDSuffix()) { Diags.Report(LToken.getLocation(), diag::err_invalid_string_udl); HadError = true; goto retry; } // Parse the string literal. LangOptions LangOpts; StringLiteralParser StringLiteral(<oken, 1, SourceMgr, LangOpts, *Target); if (StringLiteral.hadError) goto retry; // Copy the string literal into our string data allocator. unsigned Length = StringLiteral.GetStringLength(); char *Saved = StringData.Allocate<char>(Length + 1); memcpy(Saved, StringLiteral.GetString().data(), Length); Saved[Length] = 0; // Form the token. Tok.Kind = MMToken::StringLiteral; Tok.StringData = Saved; Tok.StringLength = Length; break; } case tok::comment: goto retry; default: Diags.Report(LToken.getLocation(), diag::err_mmap_unknown_token); HadError = true; goto retry; } return Result; } void ModuleMapParser::skipUntil(MMToken::TokenKind K) { unsigned braceDepth = 0; unsigned squareDepth = 0; do { switch (Tok.Kind) { case MMToken::EndOfFile: return; case MMToken::LBrace: if (Tok.is(K) && braceDepth == 0 && squareDepth == 0) return; ++braceDepth; break; case MMToken::LSquare: if (Tok.is(K) && braceDepth == 0 && squareDepth == 0) return; ++squareDepth; break; case MMToken::RBrace: if (braceDepth > 0) --braceDepth; else if (Tok.is(K)) return; break; case MMToken::RSquare: if (squareDepth > 0) --squareDepth; else if (Tok.is(K)) return; break; default: if (braceDepth == 0 && squareDepth == 0 && Tok.is(K)) return; break; } consumeToken(); } while (true); } /// \brief Parse a module-id. /// /// module-id: /// identifier /// identifier '.' module-id /// /// \returns true if an error occurred, false otherwise. bool ModuleMapParser::parseModuleId(ModuleId &Id) { Id.clear(); do { if (Tok.is(MMToken::Identifier)) { Id.push_back(std::make_pair(Tok.getString(), Tok.getLocation())); consumeToken(); } else { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module_name); return true; } if (!Tok.is(MMToken::Period)) break; consumeToken(); } while (true); return false; } namespace { /// \brief Enumerates the known attributes. enum AttributeKind { /// \brief An unknown attribute. AT_unknown, /// \brief The 'system' attribute. AT_system }; } /// \brief Parse a module declaration. /// /// module-declaration: /// 'explicit'[opt] 'framework'[opt] 'module' module-id attributes[opt] /// { module-member* } /// /// attributes: /// attribute attributes /// attribute /// /// attribute: /// [ identifier ] /// /// module-member: /// requires-declaration /// header-declaration /// submodule-declaration /// export-declaration /// /// submodule-declaration: /// module-declaration /// inferred-submodule-declaration void ModuleMapParser::parseModuleDecl() { assert(Tok.is(MMToken::ExplicitKeyword) || Tok.is(MMToken::ModuleKeyword) || Tok.is(MMToken::FrameworkKeyword)); // Parse 'explicit' or 'framework' keyword, if present. SourceLocation ExplicitLoc; bool Explicit = false; bool Framework = false; // Parse 'explicit' keyword, if present. if (Tok.is(MMToken::ExplicitKeyword)) { ExplicitLoc = consumeToken(); Explicit = true; } // Parse 'framework' keyword, if present. if (Tok.is(MMToken::FrameworkKeyword)) { consumeToken(); Framework = true; } // Parse 'module' keyword. if (!Tok.is(MMToken::ModuleKeyword)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module); consumeToken(); HadError = true; return; } consumeToken(); // 'module' keyword // If we have a wildcard for the module name, this is an inferred submodule. // Parse it. if (Tok.is(MMToken::Star)) return parseInferredSubmoduleDecl(Explicit); // Parse the module name. ModuleId Id; if (parseModuleId(Id)) { HadError = true; return; } if (ActiveModule) { if (Id.size() > 1) { Diags.Report(Id.front().second, diag::err_mmap_nested_submodule_id) << SourceRange(Id.front().second, Id.back().second); HadError = true; return; } } else if (Id.size() == 1 && Explicit) { // Top-level modules can't be explicit. Diags.Report(ExplicitLoc, diag::err_mmap_explicit_top_level); Explicit = false; ExplicitLoc = SourceLocation(); HadError = true; } Module *PreviousActiveModule = ActiveModule; if (Id.size() > 1) { // This module map defines a submodule. Go find the module of which it // is a submodule. ActiveModule = 0; for (unsigned I = 0, N = Id.size() - 1; I != N; ++I) { if (Module *Next = Map.lookupModuleQualified(Id[I].first, ActiveModule)) { ActiveModule = Next; continue; } if (ActiveModule) { Diags.Report(Id[I].second, diag::err_mmap_missing_module_qualified) << Id[I].first << ActiveModule->getTopLevelModule(); } else { Diags.Report(Id[I].second, diag::err_mmap_expected_module_name); } HadError = true; return; } } StringRef ModuleName = Id.back().first; SourceLocation ModuleNameLoc = Id.back().second; // Parse the optional attribute list. bool IsSystem = false; while (Tok.is(MMToken::LSquare)) { // Consume the '['. SourceLocation LSquareLoc = consumeToken(); // Check whether we have an attribute name here. if (!Tok.is(MMToken::Identifier)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_attribute); skipUntil(MMToken::RSquare); if (Tok.is(MMToken::RSquare)) consumeToken(); continue; } // Decode the attribute name. AttributeKind Attribute = llvm::StringSwitch<AttributeKind>(Tok.getString()) .Case("system", AT_system) .Default(AT_unknown); switch (Attribute) { case AT_unknown: Diags.Report(Tok.getLocation(), diag::warn_mmap_unknown_attribute) << Tok.getString(); break; case AT_system: IsSystem = true; break; } consumeToken(); // Consume the ']'. if (!Tok.is(MMToken::RSquare)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rsquare); Diags.Report(LSquareLoc, diag::note_mmap_lsquare_match); skipUntil(MMToken::RSquare); } if (Tok.is(MMToken::RSquare)) consumeToken(); } // Parse the opening brace. if (!Tok.is(MMToken::LBrace)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_lbrace) << ModuleName; HadError = true; return; } SourceLocation LBraceLoc = consumeToken(); // Determine whether this (sub)module has already been defined. if (Module *Existing = Map.lookupModuleQualified(ModuleName, ActiveModule)) { if (Existing->DefinitionLoc.isInvalid() && !ActiveModule) { // Skip the module definition. skipUntil(MMToken::RBrace); if (Tok.is(MMToken::RBrace)) consumeToken(); else { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace); Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match); HadError = true; } return; } Diags.Report(ModuleNameLoc, diag::err_mmap_module_redefinition) << ModuleName; Diags.Report(Existing->DefinitionLoc, diag::note_mmap_prev_definition); // Skip the module definition. skipUntil(MMToken::RBrace); if (Tok.is(MMToken::RBrace)) consumeToken(); HadError = true; return; } // Start defining this module. ActiveModule = Map.findOrCreateModule(ModuleName, ActiveModule, Framework, Explicit).first; ActiveModule->DefinitionLoc = ModuleNameLoc; if (IsSystem) ActiveModule->IsSystem = true; bool Done = false; do { switch (Tok.Kind) { case MMToken::EndOfFile: case MMToken::RBrace: Done = true; break; case MMToken::ExplicitKeyword: case MMToken::FrameworkKeyword: case MMToken::ModuleKeyword: parseModuleDecl(); break; case MMToken::ExportKeyword: parseExportDecl(); break; case MMToken::RequiresKeyword: parseRequiresDecl(); break; case MMToken::UmbrellaKeyword: { SourceLocation UmbrellaLoc = consumeToken(); if (Tok.is(MMToken::HeaderKeyword)) parseHeaderDecl(UmbrellaLoc); else parseUmbrellaDirDecl(UmbrellaLoc); break; } case MMToken::HeaderKeyword: parseHeaderDecl(SourceLocation()); break; default: Diags.Report(Tok.getLocation(), diag::err_mmap_expected_member); consumeToken(); break; } } while (!Done); if (Tok.is(MMToken::RBrace)) consumeToken(); else { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace); Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match); HadError = true; } // We're done parsing this module. Pop back to the previous module. ActiveModule = PreviousActiveModule; } /// \brief Parse a requires declaration. /// /// requires-declaration: /// 'requires' feature-list /// /// feature-list: /// identifier ',' feature-list /// identifier void ModuleMapParser::parseRequiresDecl() { assert(Tok.is(MMToken::RequiresKeyword)); // Parse 'requires' keyword. consumeToken(); // Parse the feature-list. do { if (!Tok.is(MMToken::Identifier)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_feature); HadError = true; return; } // Consume the feature name. std::string Feature = Tok.getString(); consumeToken(); // Add this feature. ActiveModule->addRequirement(Feature, Map.LangOpts, *Map.Target); if (!Tok.is(MMToken::Comma)) break; // Consume the comma. consumeToken(); } while (true); } /// \brief Append to \p Paths the set of paths needed to get to the /// subframework in which the given module lives. static void appendSubframeworkPaths(Module *Mod, llvm::SmallVectorImpl<char> &Path) { // Collect the framework names from the given module to the top-level module. llvm::SmallVector<StringRef, 2> Paths; for (; Mod; Mod = Mod->Parent) { if (Mod->IsFramework) Paths.push_back(Mod->Name); } if (Paths.empty()) return; // Add Frameworks/Name.framework for each subframework. for (unsigned I = Paths.size() - 1; I != 0; --I) { llvm::sys::path::append(Path, "Frameworks"); llvm::sys::path::append(Path, Paths[I-1] + ".framework"); } } /// \brief Determine whether the given file name is the name of a builtin /// header, supplied by Clang to replace, override, or augment existing system /// headers. static bool isBuiltinHeader(StringRef FileName) { return llvm::StringSwitch<bool>(FileName) .Case("float.h", true) .Case("iso646.h", true) .Case("limits.h", true) .Case("stdalign.h", true) .Case("stdarg.h", true) .Case("stdbool.h", true) .Case("stddef.h", true) .Case("stdint.h", true) .Case("tgmath.h", true) .Case("unwind.h", true) .Default(false); } /// \brief Parse a header declaration. /// /// header-declaration: /// 'umbrella'[opt] 'header' string-literal void ModuleMapParser::parseHeaderDecl(SourceLocation UmbrellaLoc) { assert(Tok.is(MMToken::HeaderKeyword)); consumeToken(); bool Umbrella = UmbrellaLoc.isValid(); // Parse the header name. if (!Tok.is(MMToken::StringLiteral)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_header) << "header"; HadError = true; return; } std::string FileName = Tok.getString(); SourceLocation FileNameLoc = consumeToken(); // Check whether we already have an umbrella. if (Umbrella && ActiveModule->Umbrella) { Diags.Report(FileNameLoc, diag::err_mmap_umbrella_clash) << ActiveModule->getFullModuleName(); HadError = true; return; } // Look for this file. const FileEntry *File = 0; const FileEntry *BuiltinFile = 0; SmallString<128> PathName; if (llvm::sys::path::is_absolute(FileName)) { PathName = FileName; File = SourceMgr.getFileManager().getFile(PathName); } else if (const DirectoryEntry *Dir = getOverriddenHeaderSearchDir()) { PathName = Dir->getName(); llvm::sys::path::append(PathName, FileName); File = SourceMgr.getFileManager().getFile(PathName); } else { // Search for the header file within the search directory. PathName = Directory->getName(); unsigned PathLength = PathName.size(); if (ActiveModule->isPartOfFramework()) { appendSubframeworkPaths(ActiveModule, PathName); // Check whether this file is in the public headers. llvm::sys::path::append(PathName, "Headers"); llvm::sys::path::append(PathName, FileName); File = SourceMgr.getFileManager().getFile(PathName); if (!File) { // Check whether this file is in the private headers. PathName.resize(PathLength); llvm::sys::path::append(PathName, "PrivateHeaders"); llvm::sys::path::append(PathName, FileName); File = SourceMgr.getFileManager().getFile(PathName); } } else { // Lookup for normal headers. llvm::sys::path::append(PathName, FileName); File = SourceMgr.getFileManager().getFile(PathName); // If this is a system module with a top-level header, this header // may have a counterpart (or replacement) in the set of headers // supplied by Clang. Find that builtin header. if (ActiveModule->IsSystem && !Umbrella && BuiltinIncludeDir && BuiltinIncludeDir != Directory && isBuiltinHeader(FileName)) { SmallString<128> BuiltinPathName(BuiltinIncludeDir->getName()); llvm::sys::path::append(BuiltinPathName, FileName); BuiltinFile = SourceMgr.getFileManager().getFile(BuiltinPathName); // If Clang supplies this header but the underlying system does not, // just silently swap in our builtin version. Otherwise, we'll end // up adding both (later). if (!File && BuiltinFile) { File = BuiltinFile; BuiltinFile = 0; } } } } // FIXME: We shouldn't be eagerly stat'ing every file named in a module map. // Come up with a lazy way to do this. if (File) { if (const Module *OwningModule = Map.Headers[File]) { Diags.Report(FileNameLoc, diag::err_mmap_header_conflict) << FileName << OwningModule->getFullModuleName(); HadError = true; } else if (Umbrella) { const DirectoryEntry *UmbrellaDir = File->getDir(); if ((OwningModule = Map.UmbrellaDirs[UmbrellaDir])) { Diags.Report(UmbrellaLoc, diag::err_mmap_umbrella_clash) << OwningModule->getFullModuleName(); HadError = true; } else { // Record this umbrella header. Map.setUmbrellaHeader(ActiveModule, File); } } else { // Record this header. Map.addHeader(ActiveModule, File); // If there is a builtin counterpart to this file, add it now. if (BuiltinFile) Map.addHeader(ActiveModule, BuiltinFile); } } else { Diags.Report(FileNameLoc, diag::err_mmap_header_not_found) << Umbrella << FileName; HadError = true; } } /// \brief Parse an umbrella directory declaration. /// /// umbrella-dir-declaration: /// umbrella string-literal void ModuleMapParser::parseUmbrellaDirDecl(SourceLocation UmbrellaLoc) { // Parse the directory name. if (!Tok.is(MMToken::StringLiteral)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_header) << "umbrella"; HadError = true; return; } std::string DirName = Tok.getString(); SourceLocation DirNameLoc = consumeToken(); // Check whether we already have an umbrella. if (ActiveModule->Umbrella) { Diags.Report(DirNameLoc, diag::err_mmap_umbrella_clash) << ActiveModule->getFullModuleName(); HadError = true; return; } // Look for this file. const DirectoryEntry *Dir = 0; if (llvm::sys::path::is_absolute(DirName)) Dir = SourceMgr.getFileManager().getDirectory(DirName); else { SmallString<128> PathName; PathName = Directory->getName(); llvm::sys::path::append(PathName, DirName); Dir = SourceMgr.getFileManager().getDirectory(PathName); } if (!Dir) { Diags.Report(DirNameLoc, diag::err_mmap_umbrella_dir_not_found) << DirName; HadError = true; return; } if (Module *OwningModule = Map.UmbrellaDirs[Dir]) { Diags.Report(UmbrellaLoc, diag::err_mmap_umbrella_clash) << OwningModule->getFullModuleName(); HadError = true; return; } // Record this umbrella directory. Map.setUmbrellaDir(ActiveModule, Dir); } /// \brief Parse a module export declaration. /// /// export-declaration: /// 'export' wildcard-module-id /// /// wildcard-module-id: /// identifier /// '*' /// identifier '.' wildcard-module-id void ModuleMapParser::parseExportDecl() { assert(Tok.is(MMToken::ExportKeyword)); SourceLocation ExportLoc = consumeToken(); // Parse the module-id with an optional wildcard at the end. ModuleId ParsedModuleId; bool Wildcard = false; do { if (Tok.is(MMToken::Identifier)) { ParsedModuleId.push_back(std::make_pair(Tok.getString(), Tok.getLocation())); consumeToken(); if (Tok.is(MMToken::Period)) { consumeToken(); continue; } break; } if(Tok.is(MMToken::Star)) { Wildcard = true; consumeToken(); break; } Diags.Report(Tok.getLocation(), diag::err_mmap_export_module_id); HadError = true; return; } while (true); Module::UnresolvedExportDecl Unresolved = { ExportLoc, ParsedModuleId, Wildcard }; ActiveModule->UnresolvedExports.push_back(Unresolved); } void ModuleMapParser::parseInferredSubmoduleDecl(bool Explicit) { assert(Tok.is(MMToken::Star)); SourceLocation StarLoc = consumeToken(); bool Failed = false; // Inferred modules must be submodules. if (!ActiveModule) { Diags.Report(StarLoc, diag::err_mmap_top_level_inferred_submodule); Failed = true; } // Inferred modules must have umbrella directories. if (!Failed && !ActiveModule->getUmbrellaDir()) { Diags.Report(StarLoc, diag::err_mmap_inferred_no_umbrella); Failed = true; } // Check for redefinition of an inferred module. if (!Failed && ActiveModule->InferSubmodules) { Diags.Report(StarLoc, diag::err_mmap_inferred_redef); if (ActiveModule->InferredSubmoduleLoc.isValid()) Diags.Report(ActiveModule->InferredSubmoduleLoc, diag::note_mmap_prev_definition); Failed = true; } // If there were any problems with this inferred submodule, skip its body. if (Failed) { if (Tok.is(MMToken::LBrace)) { consumeToken(); skipUntil(MMToken::RBrace); if (Tok.is(MMToken::RBrace)) consumeToken(); } HadError = true; return; } // Note that we have an inferred submodule. ActiveModule->InferSubmodules = true; ActiveModule->InferredSubmoduleLoc = StarLoc; ActiveModule->InferExplicitSubmodules = Explicit; // Parse the opening brace. if (!Tok.is(MMToken::LBrace)) { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_lbrace_wildcard); HadError = true; return; } SourceLocation LBraceLoc = consumeToken(); // Parse the body of the inferred submodule. bool Done = false; do { switch (Tok.Kind) { case MMToken::EndOfFile: case MMToken::RBrace: Done = true; break; case MMToken::ExportKeyword: { consumeToken(); if (Tok.is(MMToken::Star)) ActiveModule->InferExportWildcard = true; else Diags.Report(Tok.getLocation(), diag::err_mmap_expected_export_wildcard); consumeToken(); break; } case MMToken::ExplicitKeyword: case MMToken::ModuleKeyword: case MMToken::HeaderKeyword: case MMToken::UmbrellaKeyword: default: Diags.Report(Tok.getLocation(), diag::err_mmap_expected_wildcard_member); consumeToken(); break; } } while (!Done); if (Tok.is(MMToken::RBrace)) consumeToken(); else { Diags.Report(Tok.getLocation(), diag::err_mmap_expected_rbrace); Diags.Report(LBraceLoc, diag::note_mmap_lbrace_match); HadError = true; } } /// \brief If there is a specific header search directory due the presence /// of an umbrella directory, retrieve that directory. Otherwise, returns null. const DirectoryEntry *ModuleMapParser::getOverriddenHeaderSearchDir() { for (Module *Mod = ActiveModule; Mod; Mod = Mod->Parent) { // If we have an umbrella directory, use that. if (Mod->hasUmbrellaDir()) return Mod->getUmbrellaDir(); // If we have a framework directory, stop looking. if (Mod->IsFramework) return 0; } return 0; } /// \brief Parse a module map file. /// /// module-map-file: /// module-declaration* bool ModuleMapParser::parseModuleMapFile() { do { switch (Tok.Kind) { case MMToken::EndOfFile: return HadError; case MMToken::ExplicitKeyword: case MMToken::ModuleKeyword: case MMToken::FrameworkKeyword: parseModuleDecl(); break; case MMToken::Comma: case MMToken::ExportKeyword: case MMToken::HeaderKeyword: case MMToken::Identifier: case MMToken::LBrace: case MMToken::LSquare: case MMToken::Period: case MMToken::RBrace: case MMToken::RSquare: case MMToken::RequiresKeyword: case MMToken::Star: case MMToken::StringLiteral: case MMToken::UmbrellaKeyword: Diags.Report(Tok.getLocation(), diag::err_mmap_expected_module); HadError = true; consumeToken(); break; } } while (true); } bool ModuleMap::parseModuleMapFile(const FileEntry *File) { assert(Target != 0 && "Missing target information"); FileID ID = SourceMgr->createFileID(File, SourceLocation(), SrcMgr::C_User); const llvm::MemoryBuffer *Buffer = SourceMgr->getBuffer(ID); if (!Buffer) return true; // Parse this module map file. Lexer L(ID, SourceMgr->getBuffer(ID), *SourceMgr, MMapLangOpts); Diags->getClient()->BeginSourceFile(MMapLangOpts); ModuleMapParser Parser(L, *SourceMgr, *Diags, *this, File->getDir(), BuiltinIncludeDir); bool Result = Parser.parseModuleMapFile(); Diags->getClient()->EndSourceFile(); return Result; }