//===--- CompilationDatabase.cpp - ----------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains implementations of the CompilationDatabase base class // and the FixedCompilationDatabase. // //===----------------------------------------------------------------------===// #include "clang/Tooling/CompilationDatabase.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/DiagnosticOptions.h" #include "clang/Driver/Action.h" #include "clang/Driver/Compilation.h" #include "clang/Driver/Driver.h" #include "clang/Driver/DriverDiagnostic.h" #include "clang/Driver/Job.h" #include "clang/Frontend/TextDiagnosticPrinter.h" #include "clang/Tooling/CompilationDatabasePluginRegistry.h" #include "clang/Tooling/Tooling.h" #include "llvm/ADT/SmallString.h" #include "llvm/Option/Arg.h" #include "llvm/Support/Host.h" #include "llvm/Support/Path.h" #include <sstream> #include <system_error> namespace clang { namespace tooling { CompilationDatabase::~CompilationDatabase() {} CompilationDatabase * CompilationDatabase::loadFromDirectory(StringRef BuildDirectory, std::string &ErrorMessage) { std::stringstream ErrorStream; for (CompilationDatabasePluginRegistry::iterator It = CompilationDatabasePluginRegistry::begin(), Ie = CompilationDatabasePluginRegistry::end(); It != Ie; ++It) { std::string DatabaseErrorMessage; std::unique_ptr<CompilationDatabasePlugin> Plugin(It->instantiate()); if (CompilationDatabase *DB = Plugin->loadFromDirectory(BuildDirectory, DatabaseErrorMessage)) return DB; else ErrorStream << It->getName() << ": " << DatabaseErrorMessage << "\n"; } ErrorMessage = ErrorStream.str(); return nullptr; } static CompilationDatabase * findCompilationDatabaseFromDirectory(StringRef Directory, std::string &ErrorMessage) { std::stringstream ErrorStream; bool HasErrorMessage = false; while (!Directory.empty()) { std::string LoadErrorMessage; if (CompilationDatabase *DB = CompilationDatabase::loadFromDirectory(Directory, LoadErrorMessage)) return DB; if (!HasErrorMessage) { ErrorStream << "No compilation database found in " << Directory.str() << " or any parent directory\n" << LoadErrorMessage; HasErrorMessage = true; } Directory = llvm::sys::path::parent_path(Directory); } ErrorMessage = ErrorStream.str(); return nullptr; } CompilationDatabase * CompilationDatabase::autoDetectFromSource(StringRef SourceFile, std::string &ErrorMessage) { SmallString<1024> AbsolutePath(getAbsolutePath(SourceFile)); StringRef Directory = llvm::sys::path::parent_path(AbsolutePath); CompilationDatabase *DB = findCompilationDatabaseFromDirectory(Directory, ErrorMessage); if (!DB) ErrorMessage = ("Could not auto-detect compilation database for file \"" + SourceFile + "\"\n" + ErrorMessage).str(); return DB; } CompilationDatabase * CompilationDatabase::autoDetectFromDirectory(StringRef SourceDir, std::string &ErrorMessage) { SmallString<1024> AbsolutePath(getAbsolutePath(SourceDir)); CompilationDatabase *DB = findCompilationDatabaseFromDirectory(AbsolutePath, ErrorMessage); if (!DB) ErrorMessage = ("Could not auto-detect compilation database from directory \"" + SourceDir + "\"\n" + ErrorMessage).str(); return DB; } CompilationDatabasePlugin::~CompilationDatabasePlugin() {} // Helper for recursively searching through a chain of actions and collecting // all inputs, direct and indirect, of compile jobs. struct CompileJobAnalyzer { void run(const driver::Action *A) { runImpl(A, false); } SmallVector<std::string, 2> Inputs; private: void runImpl(const driver::Action *A, bool Collect) { bool CollectChildren = Collect; switch (A->getKind()) { case driver::Action::CompileJobClass: CollectChildren = true; break; case driver::Action::InputClass: { if (Collect) { const driver::InputAction *IA = cast<driver::InputAction>(A); Inputs.push_back(IA->getInputArg().getSpelling()); } } break; default: // Don't care about others ; } for (driver::ActionList::const_iterator I = A->begin(), E = A->end(); I != E; ++I) runImpl(*I, CollectChildren); } }; // Special DiagnosticConsumer that looks for warn_drv_input_file_unused // diagnostics from the driver and collects the option strings for those unused // options. class UnusedInputDiagConsumer : public DiagnosticConsumer { public: UnusedInputDiagConsumer() : Other(nullptr) {} // Useful for debugging, chain diagnostics to another consumer after // recording for our own purposes. UnusedInputDiagConsumer(DiagnosticConsumer *Other) : Other(Other) {} virtual void HandleDiagnostic(DiagnosticsEngine::Level DiagLevel, const Diagnostic &Info) override { if (Info.getID() == clang::diag::warn_drv_input_file_unused) { // Arg 1 for this diagnostic is the option that didn't get used. UnusedInputs.push_back(Info.getArgStdStr(0)); } if (Other) Other->HandleDiagnostic(DiagLevel, Info); } DiagnosticConsumer *Other; SmallVector<std::string, 2> UnusedInputs; }; // Unary functor for asking "Given a StringRef S1, does there exist a string // S2 in Arr where S1 == S2?" struct MatchesAny { MatchesAny(ArrayRef<std::string> Arr) : Arr(Arr) {} bool operator() (StringRef S) { for (const std::string *I = Arr.begin(), *E = Arr.end(); I != E; ++I) if (*I == S) return true; return false; } private: ArrayRef<std::string> Arr; }; /// \brief Strips any positional args and possible argv[0] from a command-line /// provided by the user to construct a FixedCompilationDatabase. /// /// FixedCompilationDatabase requires a command line to be in this format as it /// constructs the command line for each file by appending the name of the file /// to be compiled. FixedCompilationDatabase also adds its own argv[0] to the /// start of the command line although its value is not important as it's just /// ignored by the Driver invoked by the ClangTool using the /// FixedCompilationDatabase. /// /// FIXME: This functionality should probably be made available by /// clang::driver::Driver although what the interface should look like is not /// clear. /// /// \param[in] Args Args as provided by the user. /// \return Resulting stripped command line. /// \li true if successful. /// \li false if \c Args cannot be used for compilation jobs (e.g. /// contains an option like -E or -version). static bool stripPositionalArgs(std::vector<const char *> Args, std::vector<std::string> &Result) { IntrusiveRefCntPtr<DiagnosticOptions> DiagOpts = new DiagnosticOptions(); UnusedInputDiagConsumer DiagClient; DiagnosticsEngine Diagnostics( IntrusiveRefCntPtr<clang::DiagnosticIDs>(new DiagnosticIDs()), &*DiagOpts, &DiagClient, false); // The clang executable path isn't required since the jobs the driver builds // will not be executed. std::unique_ptr<driver::Driver> NewDriver(new driver::Driver( /* ClangExecutable= */ "", llvm::sys::getDefaultTargetTriple(), Diagnostics)); NewDriver->setCheckInputsExist(false); // This becomes the new argv[0]. The value is actually not important as it // isn't used for invoking Tools. Args.insert(Args.begin(), "clang-tool"); // By adding -c, we force the driver to treat compilation as the last phase. // It will then issue warnings via Diagnostics about un-used options that // would have been used for linking. If the user provided a compiler name as // the original argv[0], this will be treated as a linker input thanks to // insertng a new argv[0] above. All un-used options get collected by // UnusedInputdiagConsumer and get stripped out later. Args.push_back("-c"); // Put a dummy C++ file on to ensure there's at least one compile job for the // driver to construct. If the user specified some other argument that // prevents compilation, e.g. -E or something like -version, we may still end // up with no jobs but then this is the user's fault. Args.push_back("placeholder.cpp"); // Remove -no-integrated-as; it's not used for syntax checking, // and it confuses targets which don't support this option. Args.erase(std::remove_if(Args.begin(), Args.end(), MatchesAny(std::string("-no-integrated-as"))), Args.end()); const std::unique_ptr<driver::Compilation> Compilation( NewDriver->BuildCompilation(Args)); const driver::JobList &Jobs = Compilation->getJobs(); CompileJobAnalyzer CompileAnalyzer; for (driver::JobList::const_iterator I = Jobs.begin(), E = Jobs.end(); I != E; ++I) { if ((*I)->getKind() == driver::Job::CommandClass) { const driver::Command *Cmd = cast<driver::Command>(*I); // Collect only for Assemble jobs. If we do all jobs we get duplicates // since Link jobs point to Assemble jobs as inputs. if (Cmd->getSource().getKind() == driver::Action::AssembleJobClass) CompileAnalyzer.run(&Cmd->getSource()); } } if (CompileAnalyzer.Inputs.empty()) { // No compile jobs found. // FIXME: Emit a warning of some kind? return false; } // Remove all compilation input files from the command line. This is // necessary so that getCompileCommands() can construct a command line for // each file. std::vector<const char *>::iterator End = std::remove_if( Args.begin(), Args.end(), MatchesAny(CompileAnalyzer.Inputs)); // Remove all inputs deemed unused for compilation. End = std::remove_if(Args.begin(), End, MatchesAny(DiagClient.UnusedInputs)); // Remove the -c add above as well. It will be at the end right now. assert(strcmp(*(End - 1), "-c") == 0); --End; Result = std::vector<std::string>(Args.begin() + 1, End); return true; } FixedCompilationDatabase * FixedCompilationDatabase::loadFromCommandLine(int &Argc, const char **Argv, Twine Directory) { const char **DoubleDash = std::find(Argv, Argv + Argc, StringRef("--")); if (DoubleDash == Argv + Argc) return nullptr; std::vector<const char *> CommandLine(DoubleDash + 1, Argv + Argc); Argc = DoubleDash - Argv; std::vector<std::string> StrippedArgs; if (!stripPositionalArgs(CommandLine, StrippedArgs)) return nullptr; return new FixedCompilationDatabase(Directory, StrippedArgs); } FixedCompilationDatabase:: FixedCompilationDatabase(Twine Directory, ArrayRef<std::string> CommandLine) { std::vector<std::string> ToolCommandLine(1, "clang-tool"); ToolCommandLine.insert(ToolCommandLine.end(), CommandLine.begin(), CommandLine.end()); CompileCommands.push_back( CompileCommand(Directory, std::move(ToolCommandLine))); } std::vector<CompileCommand> FixedCompilationDatabase::getCompileCommands(StringRef FilePath) const { std::vector<CompileCommand> Result(CompileCommands); Result[0].CommandLine.push_back(FilePath); return Result; } std::vector<std::string> FixedCompilationDatabase::getAllFiles() const { return std::vector<std::string>(); } std::vector<CompileCommand> FixedCompilationDatabase::getAllCompileCommands() const { return std::vector<CompileCommand>(); } // This anchor is used to force the linker to link in the generated object file // and thus register the JSONCompilationDatabasePlugin. extern volatile int JSONAnchorSource; static int JSONAnchorDest = JSONAnchorSource; } // end namespace tooling } // end namespace clang