//===--- clang.cpp - C-Language Front-end ---------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This utility may be invoked in the following manner: // clang --help - Output help info. // clang [options] - Read from stdin. // clang [options] file - Read from "file". // clang [options] file1 file2 - Read these files. // //===----------------------------------------------------------------------===// // // TODO: Options to support: // // -Wfatal-errors // -ftabstop=width // //===----------------------------------------------------------------------===// #include "clang/Frontend/AnalysisConsumer.h" #include "clang/Frontend/ASTConsumers.h" #include "clang/Frontend/CompileOptions.h" #include "clang/Frontend/FixItRewriter.h" #include "clang/Frontend/FrontendDiagnostic.h" #include "clang/Frontend/InitHeaderSearch.h" #include "clang/Frontend/InitPreprocessor.h" #include "clang/Frontend/PathDiagnosticClients.h" #include "clang/Frontend/PCHReader.h" #include "clang/Frontend/TextDiagnosticBuffer.h" #include "clang/Frontend/TextDiagnosticPrinter.h" #include "clang/Frontend/Utils.h" #include "clang/Analysis/PathDiagnostic.h" #include "clang/CodeGen/ModuleBuilder.h" #include "clang/Sema/ParseAST.h" #include "clang/Sema/SemaDiagnostic.h" #include "clang/AST/ASTConsumer.h" #include "clang/AST/ASTContext.h" #include "clang/AST/Decl.h" #include "clang/AST/DeclGroup.h" #include "clang/Parse/Parser.h" #include "clang/Lex/HeaderSearch.h" #include "clang/Lex/LexDiagnostic.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/TargetInfo.h" #include "clang/Basic/Version.h" #include "llvm/ADT/OwningPtr.h" #include "llvm/ADT/SmallPtrSet.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/STLExtras.h" #include "llvm/Config/config.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/ManagedStatic.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/PluginLoader.h" #include "llvm/Support/PrettyStackTrace.h" #include "llvm/Support/Streams.h" #include "llvm/Support/Timer.h" #include "llvm/System/Host.h" #include "llvm/System/Path.h" #include "llvm/System/Process.h" #include "llvm/System/Program.h" #include "llvm/System/Signals.h" #include #if HAVE_SYS_TYPES_H # include #endif using namespace clang; //===----------------------------------------------------------------------===// // Source Location Parser //===----------------------------------------------------------------------===// /// \brief A source location that has been parsed on the command line. struct ParsedSourceLocation { std::string FileName; unsigned Line; unsigned Column; /// \brief Try to resolve the file name of a parsed source location. /// /// \returns true if there was an error, false otherwise. bool ResolveLocation(FileManager &FileMgr, RequestedSourceLocation &Result); }; bool ParsedSourceLocation::ResolveLocation(FileManager &FileMgr, RequestedSourceLocation &Result) { const FileEntry *File = FileMgr.getFile(FileName); if (!File) return true; Result.File = File; Result.Line = Line; Result.Column = Column; return false; } namespace llvm { namespace cl { /// \brief Command-line option parser that parses source locations. /// /// Source locations are of the form filename:line:column. template<> class parser : public basic_parser { public: bool parse(Option &O, const char *ArgName, const std::string &ArgValue, ParsedSourceLocation &Val); }; bool parser:: parse(Option &O, const char *ArgName, const std::string &ArgValue, ParsedSourceLocation &Val) { using namespace clang; const char *ExpectedFormat = "source location must be of the form filename:line:column"; std::string::size_type SecondColon = ArgValue.rfind(':'); if (SecondColon == std::string::npos) { std::fprintf(stderr, "%s\n", ExpectedFormat); return true; } char *EndPtr; long Column = std::strtol(ArgValue.c_str() + SecondColon + 1, &EndPtr, 10); if (EndPtr != ArgValue.c_str() + ArgValue.size()) { std::fprintf(stderr, "%s\n", ExpectedFormat); return true; } std::string::size_type FirstColon = ArgValue.rfind(':', SecondColon-1); if (SecondColon == std::string::npos) { std::fprintf(stderr, "%s\n", ExpectedFormat); return true; } long Line = std::strtol(ArgValue.c_str() + FirstColon + 1, &EndPtr, 10); if (EndPtr != ArgValue.c_str() + SecondColon) { std::fprintf(stderr, "%s\n", ExpectedFormat); return true; } Val.FileName = ArgValue.substr(0, FirstColon); Val.Line = Line; Val.Column = Column; return false; } } } //===----------------------------------------------------------------------===// // Global options. //===----------------------------------------------------------------------===// /// ClangFrontendTimer - The front-end activities should charge time to it with /// TimeRegion. The -ftime-report option controls whether this will do /// anything. llvm::Timer *ClangFrontendTimer = 0; static bool HadErrors = false; static llvm::cl::opt Verbose("v", llvm::cl::desc("Enable verbose output")); static llvm::cl::opt Stats("print-stats", llvm::cl::desc("Print performance metrics and statistics")); static llvm::cl::opt DisableFree("disable-free", llvm::cl::desc("Disable freeing of memory on exit"), llvm::cl::init(false)); static llvm::cl::opt EmptyInputOnly("empty-input-only", llvm::cl::desc("Force running on an empty input file")); enum ProgActions { RewriteObjC, // ObjC->C Rewriter. RewriteBlocks, // ObjC->C Rewriter for Blocks. RewriteMacros, // Expand macros but not #includes. RewriteTest, // Rewriter playground FixIt, // Fix-It Rewriter HTMLTest, // HTML displayer testing stuff. EmitAssembly, // Emit a .s file. EmitLLVM, // Emit a .ll file. EmitBC, // Emit a .bc file. EmitLLVMOnly, // Generate LLVM IR, but do not EmitHTML, // Translate input source into HTML. ASTPrint, // Parse ASTs and print them. ASTPrintXML, // Parse ASTs and print them in XML. ASTDump, // Parse ASTs and dump them. ASTView, // Parse ASTs and view them in Graphviz. PrintDeclContext, // Print DeclContext and their Decls. ParsePrintCallbacks, // Parse and print each callback. ParseSyntaxOnly, // Parse and perform semantic analysis. ParseNoop, // Parse with noop callbacks. RunPreprocessorOnly, // Just lex, no output. PrintPreprocessedInput, // -E mode. DumpTokens, // Dump out preprocessed tokens. DumpRawTokens, // Dump out raw tokens. RunAnalysis, // Run one or more source code analyses. GeneratePTH, // Generate pre-tokenized header. GeneratePCH, // Generate pre-compiled header. InheritanceView // View C++ inheritance for a specified class. }; static llvm::cl::opt ProgAction(llvm::cl::desc("Choose output type:"), llvm::cl::ZeroOrMore, llvm::cl::init(ParseSyntaxOnly), llvm::cl::values( clEnumValN(RunPreprocessorOnly, "Eonly", "Just run preprocessor, no output (for timings)"), clEnumValN(PrintPreprocessedInput, "E", "Run preprocessor, emit preprocessed file"), clEnumValN(DumpRawTokens, "dump-raw-tokens", "Lex file in raw mode and dump raw tokens"), clEnumValN(RunAnalysis, "analyze", "Run static analysis engine"), clEnumValN(DumpTokens, "dump-tokens", "Run preprocessor, dump internal rep of tokens"), clEnumValN(ParseNoop, "parse-noop", "Run parser with noop callbacks (for timings)"), clEnumValN(ParseSyntaxOnly, "fsyntax-only", "Run parser and perform semantic analysis"), clEnumValN(ParsePrintCallbacks, "parse-print-callbacks", "Run parser and print each callback invoked"), clEnumValN(EmitHTML, "emit-html", "Output input source as HTML"), clEnumValN(ASTPrint, "ast-print", "Build ASTs and then pretty-print them"), clEnumValN(ASTPrintXML, "ast-print-xml", "Build ASTs and then print them in XML format"), clEnumValN(ASTDump, "ast-dump", "Build ASTs and then debug dump them"), clEnumValN(ASTView, "ast-view", "Build ASTs and view them with GraphViz"), clEnumValN(PrintDeclContext, "print-decl-contexts", "Print DeclContexts and their Decls"), clEnumValN(GeneratePTH, "emit-pth", "Generate pre-tokenized header file"), clEnumValN(GeneratePCH, "emit-pch", "Generate pre-compiled header file"), clEnumValN(EmitAssembly, "S", "Emit native assembly code"), clEnumValN(EmitLLVM, "emit-llvm", "Build ASTs then convert to LLVM, emit .ll file"), clEnumValN(EmitBC, "emit-llvm-bc", "Build ASTs then convert to LLVM, emit .bc file"), clEnumValN(EmitLLVMOnly, "emit-llvm-only", "Build ASTs and convert to LLVM, discarding output"), clEnumValN(RewriteTest, "rewrite-test", "Rewriter playground"), clEnumValN(RewriteObjC, "rewrite-objc", "Rewrite ObjC into C (code rewriter example)"), clEnumValN(RewriteMacros, "rewrite-macros", "Expand macros without full preprocessing"), clEnumValN(RewriteBlocks, "rewrite-blocks", "Rewrite Blocks to C"), clEnumValN(FixIt, "fixit", "Apply fix-it advice to the input source"), clEnumValEnd)); static llvm::cl::opt OutputFile("o", llvm::cl::value_desc("path"), llvm::cl::desc("Specify output file")); //===----------------------------------------------------------------------===// // PTH. //===----------------------------------------------------------------------===// static llvm::cl::opt TokenCache("token-cache", llvm::cl::value_desc("path"), llvm::cl::desc("Use specified token cache file")); //===----------------------------------------------------------------------===// // Diagnostic Options //===----------------------------------------------------------------------===// static llvm::cl::opt VerifyDiagnostics("verify", llvm::cl::desc("Verify emitted diagnostics and warnings")); static llvm::cl::opt HTMLDiag("html-diags", llvm::cl::desc("Generate HTML to report diagnostics"), llvm::cl::value_desc("HTML directory")); static llvm::cl::opt NoShowColumn("fno-show-column", llvm::cl::desc("Do not include column number on diagnostics")); static llvm::cl::opt NoShowLocation("fno-show-source-location", llvm::cl::desc("Do not include source location information with" " diagnostics")); static llvm::cl::opt NoCaretDiagnostics("fno-caret-diagnostics", llvm::cl::desc("Do not include source line and caret with" " diagnostics")); static llvm::cl::opt NoDiagnosticsFixIt("fno-diagnostics-fixit-info", llvm::cl::desc("Do not include fixit information in" " diagnostics")); static llvm::cl::opt PrintSourceRangeInfo("fdiagnostics-print-source-range-info", llvm::cl::desc("Print source range spans in numeric form")); static llvm::cl::opt PrintDiagnosticOption("fdiagnostics-show-option", llvm::cl::desc("Print diagnostic name with mappable diagnostics")); static llvm::cl::opt MessageLength("fmessage-length", llvm::cl::desc("Format message diagnostics so that they fit " "within N columns or fewer, when possible."), llvm::cl::value_desc("N")); //===----------------------------------------------------------------------===// // C++ Visualization. //===----------------------------------------------------------------------===// static llvm::cl::opt InheritanceViewCls("cxx-inheritance-view", llvm::cl::value_desc("class name"), llvm::cl::desc("View C++ inheritance for a specified class")); //===----------------------------------------------------------------------===// // Builtin Options //===----------------------------------------------------------------------===// static llvm::cl::opt TimeReport("ftime-report", llvm::cl::desc("Print the amount of time each " "phase of compilation takes")); static llvm::cl::opt Freestanding("ffreestanding", llvm::cl::desc("Assert that the compilation takes place in a " "freestanding environment")); static llvm::cl::opt AllowBuiltins("fbuiltin", llvm::cl::init(true), llvm::cl::desc("Disable implicit builtin knowledge of functions")); static llvm::cl::opt MathErrno("fmath-errno", llvm::cl::init(true), llvm::cl::desc("Require math functions to respect errno")); //===----------------------------------------------------------------------===// // Language Options //===----------------------------------------------------------------------===// enum LangKind { langkind_unspecified, langkind_c, langkind_c_cpp, langkind_asm_cpp, langkind_cxx, langkind_cxx_cpp, langkind_objc, langkind_objc_cpp, langkind_objcxx, langkind_objcxx_cpp }; static llvm::cl::opt BaseLang("x", llvm::cl::desc("Base language to compile"), llvm::cl::init(langkind_unspecified), llvm::cl::values(clEnumValN(langkind_c, "c", "C"), clEnumValN(langkind_cxx, "c++", "C++"), clEnumValN(langkind_objc, "objective-c", "Objective C"), clEnumValN(langkind_objcxx,"objective-c++","Objective C++"), clEnumValN(langkind_c_cpp, "cpp-output", "Preprocessed C"), clEnumValN(langkind_asm_cpp, "assembler-with-cpp", "Preprocessed asm"), clEnumValN(langkind_cxx_cpp, "c++-cpp-output", "Preprocessed C++"), clEnumValN(langkind_objc_cpp, "objective-c-cpp-output", "Preprocessed Objective C"), clEnumValN(langkind_objcxx_cpp, "objective-c++-cpp-output", "Preprocessed Objective C++"), clEnumValN(langkind_c, "c-header", "C header"), clEnumValN(langkind_objc, "objective-c-header", "Objective-C header"), clEnumValN(langkind_cxx, "c++-header", "C++ header"), clEnumValN(langkind_objcxx, "objective-c++-header", "Objective-C++ header"), clEnumValEnd)); static llvm::cl::opt LangObjC("ObjC", llvm::cl::desc("Set base language to Objective-C"), llvm::cl::Hidden); static llvm::cl::opt LangObjCXX("ObjC++", llvm::cl::desc("Set base language to Objective-C++"), llvm::cl::Hidden); static llvm::cl::opt ObjCExclusiveGC("fobjc-gc-only", llvm::cl::desc("Use GC exclusively for Objective-C related " "memory management")); static llvm::cl::opt ObjCEnableGC("fobjc-gc", llvm::cl::desc("Enable Objective-C garbage collection")); static llvm::cl::opt ObjCEnableGCBitmapPrint("print-ivar-layout", llvm::cl::desc("Enable Objective-C Ivar layout bitmap print trace")); static llvm::cl::opt SymbolVisibility("fvisibility", llvm::cl::desc("Set the default symbol visibility:"), llvm::cl::init(LangOptions::Default), llvm::cl::values(clEnumValN(LangOptions::Default, "default", "Use default symbol visibility"), clEnumValN(LangOptions::Hidden, "hidden", "Use hidden symbol visibility"), clEnumValN(LangOptions::Protected,"protected", "Use protected symbol visibility"), clEnumValEnd)); static llvm::cl::opt OverflowChecking("ftrapv", llvm::cl::desc("Trap on integer overflow"), llvm::cl::init(false)); static llvm::cl::opt ObjCSenderDispatch("fobjc-sender-dependent-dispatch", llvm::cl::desc("Enable sender-dependent dispatch for" "Objective-C messages"), llvm::cl::init(false)); /// InitializeBaseLanguage - Handle the -x foo options. static void InitializeBaseLanguage() { if (LangObjC) BaseLang = langkind_objc; else if (LangObjCXX) BaseLang = langkind_objcxx; } static LangKind GetLanguage(const std::string &Filename) { if (BaseLang != langkind_unspecified) return BaseLang; std::string::size_type DotPos = Filename.rfind('.'); if (DotPos == std::string::npos) { BaseLang = langkind_c; // Default to C if no extension. return langkind_c; } std::string Ext = std::string(Filename.begin()+DotPos+1, Filename.end()); // C header: .h // C++ header: .hh or .H; // assembler no preprocessing: .s // assembler: .S if (Ext == "c") return langkind_c; else if (Ext == "S" || // If the compiler is run on a .s file, preprocess it as .S Ext == "s") return langkind_asm_cpp; else if (Ext == "i") return langkind_c_cpp; else if (Ext == "ii") return langkind_cxx_cpp; else if (Ext == "m") return langkind_objc; else if (Ext == "mi") return langkind_objc_cpp; else if (Ext == "mm" || Ext == "M") return langkind_objcxx; else if (Ext == "mii") return langkind_objcxx_cpp; else if (Ext == "C" || Ext == "cc" || Ext == "cpp" || Ext == "CPP" || Ext == "c++" || Ext == "cp" || Ext == "cxx") return langkind_cxx; else return langkind_c; } static void InitializeCOptions(LangOptions &Options) { // Do nothing. } static void InitializeObjCOptions(LangOptions &Options) { Options.ObjC1 = Options.ObjC2 = 1; } static void InitializeLangOptions(LangOptions &Options, LangKind LK){ // FIXME: implement -fpreprocessed mode. bool NoPreprocess = false; switch (LK) { default: assert(0 && "Unknown language kind!"); case langkind_asm_cpp: Options.AsmPreprocessor = 1; // FALLTHROUGH case langkind_c_cpp: NoPreprocess = true; // FALLTHROUGH case langkind_c: InitializeCOptions(Options); break; case langkind_cxx_cpp: NoPreprocess = true; // FALLTHROUGH case langkind_cxx: Options.CPlusPlus = 1; break; case langkind_objc_cpp: NoPreprocess = true; // FALLTHROUGH case langkind_objc: InitializeObjCOptions(Options); break; case langkind_objcxx_cpp: NoPreprocess = true; // FALLTHROUGH case langkind_objcxx: Options.ObjC1 = Options.ObjC2 = 1; Options.CPlusPlus = 1; break; } if (ObjCExclusiveGC) Options.setGCMode(LangOptions::GCOnly); else if (ObjCEnableGC) Options.setGCMode(LangOptions::HybridGC); if (ObjCEnableGCBitmapPrint) Options.ObjCGCBitmapPrint = 1; Options.setVisibilityMode(SymbolVisibility); Options.OverflowChecking = OverflowChecking; } /// LangStds - Language standards we support. enum LangStds { lang_unspecified, lang_c89, lang_c94, lang_c99, lang_gnu_START, lang_gnu89 = lang_gnu_START, lang_gnu99, lang_cxx98, lang_gnucxx98, lang_cxx0x, lang_gnucxx0x }; static llvm::cl::opt LangStd("std", llvm::cl::desc("Language standard to compile for"), llvm::cl::init(lang_unspecified), llvm::cl::values(clEnumValN(lang_c89, "c89", "ISO C 1990"), clEnumValN(lang_c89, "c90", "ISO C 1990"), clEnumValN(lang_c89, "iso9899:1990", "ISO C 1990"), clEnumValN(lang_c94, "iso9899:199409", "ISO C 1990 with amendment 1"), clEnumValN(lang_c99, "c99", "ISO C 1999"), clEnumValN(lang_c99, "c9x", "ISO C 1999"), clEnumValN(lang_c99, "iso9899:1999", "ISO C 1999"), clEnumValN(lang_c99, "iso9899:199x", "ISO C 1999"), clEnumValN(lang_gnu89, "gnu89", "ISO C 1990 with GNU extensions"), clEnumValN(lang_gnu99, "gnu99", "ISO C 1999 with GNU extensions (default for C)"), clEnumValN(lang_gnu99, "gnu9x", "ISO C 1999 with GNU extensions"), clEnumValN(lang_cxx98, "c++98", "ISO C++ 1998 with amendments"), clEnumValN(lang_gnucxx98, "gnu++98", "ISO C++ 1998 with amendments and GNU " "extensions (default for C++)"), clEnumValN(lang_cxx0x, "c++0x", "Upcoming ISO C++ 200x with amendments"), clEnumValN(lang_gnucxx0x, "gnu++0x", "Upcoming ISO C++ 200x with amendments and GNU " "extensions"), clEnumValEnd)); static llvm::cl::opt NoOperatorNames("fno-operator-names", llvm::cl::desc("Do not treat C++ operator name keywords as " "synonyms for operators")); static llvm::cl::opt PascalStrings("fpascal-strings", llvm::cl::desc("Recognize and construct Pascal-style " "string literals")); static llvm::cl::opt MSExtensions("fms-extensions", llvm::cl::desc("Accept some non-standard constructs used in " "Microsoft header files ")); static llvm::cl::opt WritableStrings("fwritable-strings", llvm::cl::desc("Store string literals as writable data")); static llvm::cl::opt NoLaxVectorConversions("fno-lax-vector-conversions", llvm::cl::desc("Disallow implicit conversions between " "vectors with a different number of " "elements or different element types")); static llvm::cl::opt EnableBlocks("fblocks", llvm::cl::desc("enable the 'blocks' language feature")); static llvm::cl::opt EnableHeinousExtensions("fheinous-gnu-extensions", llvm::cl::desc("enable GNU extensions that you really really shouldn't use"), llvm::cl::ValueDisallowed, llvm::cl::Hidden); static llvm::cl::opt ObjCNonFragileABI("fobjc-nonfragile-abi", llvm::cl::desc("enable objective-c's nonfragile abi")); static llvm::cl::opt EmitAllDecls("femit-all-decls", llvm::cl::desc("Emit all declarations, even if unused")); static llvm::cl::opt Exceptions("fexceptions", llvm::cl::desc("Enable support for exception handling")); static llvm::cl::opt GNURuntime("fgnu-runtime", llvm::cl::desc("Generate output compatible with the standard GNU " "Objective-C runtime")); static llvm::cl::opt NeXTRuntime("fnext-runtime", llvm::cl::desc("Generate output compatible with the NeXT " "runtime")); static llvm::cl::opt Trigraphs("trigraphs", llvm::cl::desc("Process trigraph sequences")); static llvm::cl::opt TemplateDepth("ftemplate-depth", llvm::cl::init(99), llvm::cl::desc("Maximum depth of recursive template " "instantiation")); static llvm::cl::opt DollarsInIdents("fdollars-in-identifiers", llvm::cl::desc("Allow '$' in identifiers")); static llvm::cl::opt OptSize("Os", llvm::cl::desc("Optimize for size")); static llvm::cl::opt NoCommon("fno-common", llvm::cl::desc("Compile common globals like normal definitions"), llvm::cl::ValueDisallowed); static llvm::cl::opt MainFileName("main-file-name", llvm::cl::desc("Main file name to use for debug info")); // FIXME: Also add an "-fno-access-control" option. static llvm::cl::opt AccessControl("faccess-control", llvm::cl::desc("Enable C++ access control")); // It might be nice to add bounds to the CommandLine library directly. struct OptLevelParser : public llvm::cl::parser { bool parse(llvm::cl::Option &O, const char *ArgName, const std::string &Arg, unsigned &Val) { if (llvm::cl::parser::parse(O, ArgName, Arg, Val)) return true; if (Val > 3) return O.error(": '" + Arg + "' invalid optimization level!"); return false; } }; static llvm::cl::opt OptLevel("O", llvm::cl::Prefix, llvm::cl::desc("Optimization level"), llvm::cl::init(0)); static llvm::cl::opt PICLevel("pic-level", llvm::cl::desc("Value for __PIC__")); static llvm::cl::opt StaticDefine("static-define", llvm::cl::desc("Should __STATIC__ be defined")); static void InitializeLanguageStandard(LangOptions &Options, LangKind LK, TargetInfo *Target, const llvm::StringMap &Features) { // Allow the target to set the default the langauge options as it sees fit. Target->getDefaultLangOptions(Options); // Pass the map of target features to the target for validation and // processing. Target->HandleTargetFeatures(Features); if (LangStd == lang_unspecified) { // Based on the base language, pick one. switch (LK) { case lang_unspecified: assert(0 && "Unknown base language"); case langkind_c: case langkind_asm_cpp: case langkind_c_cpp: case langkind_objc: case langkind_objc_cpp: LangStd = lang_gnu99; break; case langkind_cxx: case langkind_cxx_cpp: case langkind_objcxx: case langkind_objcxx_cpp: LangStd = lang_gnucxx98; break; } } switch (LangStd) { default: assert(0 && "Unknown language standard!"); // Fall through from newer standards to older ones. This isn't really right. // FIXME: Enable specifically the right features based on the language stds. case lang_gnucxx0x: case lang_cxx0x: Options.CPlusPlus0x = 1; // FALL THROUGH case lang_gnucxx98: case lang_cxx98: Options.CPlusPlus = 1; Options.CXXOperatorNames = !NoOperatorNames; // FALL THROUGH. case lang_gnu99: case lang_c99: Options.C99 = 1; Options.HexFloats = 1; // FALL THROUGH. case lang_gnu89: Options.BCPLComment = 1; // Only for C99/C++. // FALL THROUGH. case lang_c94: Options.Digraphs = 1; // C94, C99, C++. // FALL THROUGH. case lang_c89: break; } // GNUMode - Set if we're in gnu99, gnu89, gnucxx98, etc. Options.GNUMode = LangStd >= lang_gnu_START; if (Options.CPlusPlus) { Options.C99 = 0; Options.HexFloats = Options.GNUMode; } if (LangStd == lang_c89 || LangStd == lang_c94 || LangStd == lang_gnu89) Options.ImplicitInt = 1; else Options.ImplicitInt = 0; // Mimicing gcc's behavior, trigraphs are only enabled if -trigraphs // is specified, or -std is set to a conforming mode. Options.Trigraphs = !Options.GNUMode; if (Trigraphs.getPosition()) Options.Trigraphs = Trigraphs; // Command line option wins if specified. // If in a conformant language mode (e.g. -std=c99) Blocks defaults to off // even if they are normally on for the target. In GNU modes (e.g. // -std=gnu99) the default for blocks depends on the target settings. // However, blocks are not turned off when compiling Obj-C or Obj-C++ code. if (!Options.ObjC1 && !Options.GNUMode) Options.Blocks = 0; // Default to not accepting '$' in identifiers when preprocessing assembler, // but do accept when preprocessing C. FIXME: these defaults are right for // darwin, are they right everywhere? Options.DollarIdents = LK != langkind_asm_cpp; if (DollarsInIdents.getPosition()) // Explicit setting overrides default. Options.DollarIdents = DollarsInIdents; if (PascalStrings.getPosition()) Options.PascalStrings = PascalStrings; Options.Microsoft = MSExtensions; Options.WritableStrings = WritableStrings; if (NoLaxVectorConversions.getPosition()) Options.LaxVectorConversions = 0; Options.Exceptions = Exceptions; if (EnableBlocks.getPosition()) Options.Blocks = EnableBlocks; if (!AllowBuiltins) Options.NoBuiltin = 1; if (Freestanding) Options.Freestanding = Options.NoBuiltin = 1; if (EnableHeinousExtensions) Options.HeinousExtensions = 1; if (AccessControl) Options.AccessControl = 1; Options.MathErrno = MathErrno; Options.InstantiationDepth = TemplateDepth; // Override the default runtime if the user requested it. if (NeXTRuntime) Options.NeXTRuntime = 1; else if (GNURuntime) Options.NeXTRuntime = 0; if (ObjCNonFragileABI) Options.ObjCNonFragileABI = 1; Options.ObjCSenderDispatch = ObjCSenderDispatch; if (EmitAllDecls) Options.EmitAllDecls = 1; // The __OPTIMIZE_SIZE__ define is tied to -Oz, which we don't // support. Options.OptimizeSize = 0; // -Os implies -O2 if (OptSize || OptLevel) Options.Optimize = 1; assert(PICLevel <= 2 && "Invalid value for -pic-level"); Options.PICLevel = PICLevel; Options.GNUInline = !Options.C99; // FIXME: This is affected by other options (-fno-inline). Options.NoInline = !OptSize && !OptLevel; Options.Static = StaticDefine; if (MainFileName.getPosition()) Options.setMainFileName(MainFileName.c_str()); } //===----------------------------------------------------------------------===// // Target Triple Processing. //===----------------------------------------------------------------------===// static llvm::cl::opt TargetTriple("triple", llvm::cl::desc("Specify target triple (e.g. i686-apple-darwin9)")); static llvm::cl::opt MacOSVersionMin("mmacosx-version-min", llvm::cl::desc("Specify target Mac OS X version (e.g. 10.5)")); // If -mmacosx-version-min=10.3.9 is specified, change the triple from being // something like powerpc-apple-darwin9 to powerpc-apple-darwin7 // FIXME: We should have the driver do this instead. static void HandleMacOSVersionMin(std::string &Triple) { std::string::size_type DarwinDashIdx = Triple.find("-darwin"); if (DarwinDashIdx == std::string::npos) { fprintf(stderr, "-mmacosx-version-min only valid for darwin (Mac OS X) targets\n"); exit(1); } unsigned DarwinNumIdx = DarwinDashIdx + strlen("-darwin"); // Remove the number. Triple.resize(DarwinNumIdx); // Validate that MacOSVersionMin is a 'version number', starting with 10.[3-9] bool MacOSVersionMinIsInvalid = false; int VersionNum = 0; if (MacOSVersionMin.size() < 4 || MacOSVersionMin.substr(0, 3) != "10." || !isdigit(MacOSVersionMin[3])) { MacOSVersionMinIsInvalid = true; } else { const char *Start = MacOSVersionMin.c_str()+3; char *End = 0; VersionNum = (int)strtol(Start, &End, 10); // The version number must be in the range 0-9. MacOSVersionMinIsInvalid = (unsigned)VersionNum > 9; // Turn MacOSVersionMin into a darwin number: e.g. 10.3.9 is 3 -> 7. Triple += llvm::itostr(VersionNum+4); if (End[0] == '.' && isdigit(End[1]) && End[2] == '\0') { // 10.4.7 is ok. // Add the period piece (.7) to the end of the triple. This gives us // something like ...-darwin8.7 Triple += End; } else if (End[0] != '\0') { // "10.4" is ok. 10.4x is not. MacOSVersionMinIsInvalid = true; } } if (MacOSVersionMinIsInvalid) { fprintf(stderr, "-mmacosx-version-min=%s is invalid, expected something like '10.4'.\n", MacOSVersionMin.c_str()); exit(1); } else if (VersionNum <= 4 && !strncmp(Triple.c_str(), "x86_64", strlen("x86_64"))) { fprintf(stderr, "-mmacosx-version-min=%s is invalid with -arch x86_64.\n", MacOSVersionMin.c_str()); exit(1); } } static llvm::cl::opt IPhoneOSVersionMin("miphoneos-version-min", llvm::cl::desc("Specify target iPhone OS version (e.g. 2.0)")); // If -miphoneos-version-min=2.2 is specified, change the triple from being // something like armv6-apple-darwin10 to armv6-apple-darwin9.2.2. We use // 9 as the default major Darwin number, and encode the iPhone OS version // number in the minor version and revision. // FIXME: We should have the driver do this instead. static void HandleIPhoneOSVersionMin(std::string &Triple) { std::string::size_type DarwinDashIdx = Triple.find("-darwin"); if (DarwinDashIdx == std::string::npos) { fprintf(stderr, "-miphoneos-version-min only valid for darwin (Mac OS X) targets\n"); exit(1); } unsigned DarwinNumIdx = DarwinDashIdx + strlen("-darwin"); // Remove the number. Triple.resize(DarwinNumIdx); // Validate that IPhoneOSVersionMin is a 'version number', starting with [2-9].[0-9] bool IPhoneOSVersionMinIsInvalid = false; int VersionNum = 0; if (IPhoneOSVersionMin.size() < 3 || !isdigit(IPhoneOSVersionMin[0])) { IPhoneOSVersionMinIsInvalid = true; } else { const char *Start = IPhoneOSVersionMin.c_str(); char *End = 0; VersionNum = (int)strtol(Start, &End, 10); // The version number must be in the range 0-9. IPhoneOSVersionMinIsInvalid = (unsigned)VersionNum > 9; // Turn IPhoneOSVersionMin into a darwin number: e.g. 2.0 is 2 -> 9.2. Triple += "9." + llvm::itostr(VersionNum); if (End[0] == '.' && isdigit(End[1]) && End[2] == '\0') { // 2.2 is ok. // Add the period piece (.2) to the end of the triple. This gives us // something like ...-darwin9.2.2 Triple += End; } else if (End[0] != '\0') { // "2.2" is ok. 2x is not. IPhoneOSVersionMinIsInvalid = true; } } if (IPhoneOSVersionMinIsInvalid) { fprintf(stderr, "-miphoneos-version-min=%s is invalid, expected something like '2.0'.\n", IPhoneOSVersionMin.c_str()); exit(1); } } /// CreateTargetTriple - Process the various options that affect the target /// triple and build a final aggregate triple that we are compiling for. static std::string CreateTargetTriple() { // Initialize base triple. If a -triple option has been specified, use // that triple. Otherwise, default to the host triple. std::string Triple = TargetTriple; if (Triple.empty()) Triple = llvm::sys::getHostTriple(); // If -mmacosx-version-min=10.3.9 is specified, change the triple from being // something like powerpc-apple-darwin9 to powerpc-apple-darwin7 if (!MacOSVersionMin.empty()) HandleMacOSVersionMin(Triple); else if (!IPhoneOSVersionMin.empty()) HandleIPhoneOSVersionMin(Triple);; return Triple; } //===----------------------------------------------------------------------===// // SourceManager initialization. //===----------------------------------------------------------------------===// static bool InitializeSourceManager(Preprocessor &PP, const std::string &InFile) { // Figure out where to get and map in the main file. SourceManager &SourceMgr = PP.getSourceManager(); FileManager &FileMgr = PP.getFileManager(); if (EmptyInputOnly) { const char *EmptyStr = ""; llvm::MemoryBuffer *SB = llvm::MemoryBuffer::getMemBuffer(EmptyStr, EmptyStr, ""); SourceMgr.createMainFileIDForMemBuffer(SB); } else if (InFile != "-") { const FileEntry *File = FileMgr.getFile(InFile); if (File) SourceMgr.createMainFileID(File, SourceLocation()); if (SourceMgr.getMainFileID().isInvalid()) { PP.getDiagnostics().Report(FullSourceLoc(), diag::err_fe_error_reading) << InFile.c_str(); return true; } } else { llvm::MemoryBuffer *SB = llvm::MemoryBuffer::getSTDIN(); // If stdin was empty, SB is null. Cons up an empty memory // buffer now. if (!SB) { const char *EmptyStr = ""; SB = llvm::MemoryBuffer::getMemBuffer(EmptyStr, EmptyStr, ""); } SourceMgr.createMainFileIDForMemBuffer(SB); if (SourceMgr.getMainFileID().isInvalid()) { PP.getDiagnostics().Report(FullSourceLoc(), diag::err_fe_error_reading_stdin); return true; } } return false; } //===----------------------------------------------------------------------===// // Preprocessor Initialization //===----------------------------------------------------------------------===// // FIXME: Preprocessor builtins to support. // -A... - Play with #assertions // -undef - Undefine all predefined macros static llvm::cl::list D_macros("D", llvm::cl::value_desc("macro"), llvm::cl::Prefix, llvm::cl::desc("Predefine the specified macro")); static llvm::cl::list U_macros("U", llvm::cl::value_desc("macro"), llvm::cl::Prefix, llvm::cl::desc("Undefine the specified macro")); static llvm::cl::list ImplicitIncludes("include", llvm::cl::value_desc("file"), llvm::cl::desc("Include file before parsing")); static llvm::cl::list ImplicitMacroIncludes("imacros", llvm::cl::value_desc("file"), llvm::cl::desc("Include macros from file before parsing")); static llvm::cl::opt ImplicitIncludePCH("include-pch", llvm::cl::value_desc("file"), llvm::cl::desc("Include precompiled header file")); static llvm::cl::opt ImplicitIncludePTH("include-pth", llvm::cl::value_desc("file"), llvm::cl::desc("Include file before parsing")); //===----------------------------------------------------------------------===// // Preprocessor include path information. //===----------------------------------------------------------------------===// // This tool exports a large number of command line options to control how the // preprocessor searches for header files. At root, however, the Preprocessor // object takes a very simple interface: a list of directories to search for // // FIXME: -nostdinc++ // FIXME: -imultilib // static llvm::cl::opt nostdinc("nostdinc", llvm::cl::desc("Disable standard #include directories")); // Various command line options. These four add directories to each chain. static llvm::cl::list F_dirs("F", llvm::cl::value_desc("directory"), llvm::cl::Prefix, llvm::cl::desc("Add directory to framework include search path")); static llvm::cl::list I_dirs("I", llvm::cl::value_desc("directory"), llvm::cl::Prefix, llvm::cl::desc("Add directory to include search path")); static llvm::cl::list idirafter_dirs("idirafter", llvm::cl::value_desc("directory"), llvm::cl::Prefix, llvm::cl::desc("Add directory to AFTER include search path")); static llvm::cl::list iquote_dirs("iquote", llvm::cl::value_desc("directory"), llvm::cl::Prefix, llvm::cl::desc("Add directory to QUOTE include search path")); static llvm::cl::list isystem_dirs("isystem", llvm::cl::value_desc("directory"), llvm::cl::Prefix, llvm::cl::desc("Add directory to SYSTEM include search path")); // These handle -iprefix/-iwithprefix/-iwithprefixbefore. static llvm::cl::list iprefix_vals("iprefix", llvm::cl::value_desc("prefix"), llvm::cl::Prefix, llvm::cl::desc("Set the -iwithprefix/-iwithprefixbefore prefix")); static llvm::cl::list iwithprefix_vals("iwithprefix", llvm::cl::value_desc("dir"), llvm::cl::Prefix, llvm::cl::desc("Set directory to SYSTEM include search path with prefix")); static llvm::cl::list iwithprefixbefore_vals("iwithprefixbefore", llvm::cl::value_desc("dir"), llvm::cl::Prefix, llvm::cl::desc("Set directory to include search path with prefix")); static llvm::cl::opt isysroot("isysroot", llvm::cl::value_desc("dir"), llvm::cl::init("/"), llvm::cl::desc("Set the system root directory (usually /)")); // Finally, implement the code that groks the options above. /// InitializeIncludePaths - Process the -I options and set them in the /// HeaderSearch object. void InitializeIncludePaths(const char *Argv0, HeaderSearch &Headers, FileManager &FM, const LangOptions &Lang) { InitHeaderSearch Init(Headers, Verbose, isysroot); // Handle -I... and -F... options, walking the lists in parallel. unsigned Iidx = 0, Fidx = 0; while (Iidx < I_dirs.size() && Fidx < F_dirs.size()) { if (I_dirs.getPosition(Iidx) < F_dirs.getPosition(Fidx)) { Init.AddPath(I_dirs[Iidx], InitHeaderSearch::Angled, false, true, false); ++Iidx; } else { Init.AddPath(F_dirs[Fidx], InitHeaderSearch::Angled, false, true, true); ++Fidx; } } // Consume what's left from whatever list was longer. for (; Iidx != I_dirs.size(); ++Iidx) Init.AddPath(I_dirs[Iidx], InitHeaderSearch::Angled, false, true, false); for (; Fidx != F_dirs.size(); ++Fidx) Init.AddPath(F_dirs[Fidx], InitHeaderSearch::Angled, false, true, true); // Handle -idirafter... options. for (unsigned i = 0, e = idirafter_dirs.size(); i != e; ++i) Init.AddPath(idirafter_dirs[i], InitHeaderSearch::After, false, true, false); // Handle -iquote... options. for (unsigned i = 0, e = iquote_dirs.size(); i != e; ++i) Init.AddPath(iquote_dirs[i], InitHeaderSearch::Quoted, false, true, false); // Handle -isystem... options. for (unsigned i = 0, e = isystem_dirs.size(); i != e; ++i) Init.AddPath(isystem_dirs[i], InitHeaderSearch::System, false, true, false); // Walk the -iprefix/-iwithprefix/-iwithprefixbefore argument lists in // parallel, processing the values in order of occurance to get the right // prefixes. { std::string Prefix = ""; // FIXME: this isn't the correct default prefix. unsigned iprefix_idx = 0; unsigned iwithprefix_idx = 0; unsigned iwithprefixbefore_idx = 0; bool iprefix_done = iprefix_vals.empty(); bool iwithprefix_done = iwithprefix_vals.empty(); bool iwithprefixbefore_done = iwithprefixbefore_vals.empty(); while (!iprefix_done || !iwithprefix_done || !iwithprefixbefore_done) { if (!iprefix_done && (iwithprefix_done || iprefix_vals.getPosition(iprefix_idx) < iwithprefix_vals.getPosition(iwithprefix_idx)) && (iwithprefixbefore_done || iprefix_vals.getPosition(iprefix_idx) < iwithprefixbefore_vals.getPosition(iwithprefixbefore_idx))) { Prefix = iprefix_vals[iprefix_idx]; ++iprefix_idx; iprefix_done = iprefix_idx == iprefix_vals.size(); } else if (!iwithprefix_done && (iwithprefixbefore_done || iwithprefix_vals.getPosition(iwithprefix_idx) < iwithprefixbefore_vals.getPosition(iwithprefixbefore_idx))) { Init.AddPath(Prefix+iwithprefix_vals[iwithprefix_idx], InitHeaderSearch::System, false, false, false); ++iwithprefix_idx; iwithprefix_done = iwithprefix_idx == iwithprefix_vals.size(); } else { Init.AddPath(Prefix+iwithprefixbefore_vals[iwithprefixbefore_idx], InitHeaderSearch::Angled, false, false, false); ++iwithprefixbefore_idx; iwithprefixbefore_done = iwithprefixbefore_idx == iwithprefixbefore_vals.size(); } } } Init.AddDefaultEnvVarPaths(Lang); // Add the clang headers, which are relative to the clang binary. llvm::sys::Path MainExecutablePath = llvm::sys::Path::GetMainExecutable(Argv0, (void*)(intptr_t)InitializeIncludePaths); if (!MainExecutablePath.isEmpty()) { MainExecutablePath.eraseComponent(); // Remove /clang from foo/bin/clang MainExecutablePath.eraseComponent(); // Remove /bin from foo/bin // Get foo/lib/clang//include MainExecutablePath.appendComponent("lib"); MainExecutablePath.appendComponent("clang"); MainExecutablePath.appendComponent(CLANG_VERSION_STRING); MainExecutablePath.appendComponent("include"); // We pass true to ignore sysroot so that we *always* look for clang headers // relative to our executable, never relative to -isysroot. Init.AddPath(MainExecutablePath.c_str(), InitHeaderSearch::System, false, false, false, true /*ignore sysroot*/); } if (!nostdinc) Init.AddDefaultSystemIncludePaths(Lang); // Now that we have collected all of the include paths, merge them all // together and tell the preprocessor about them. Init.Realize(); } void InitializePreprocessorInitOptions(PreprocessorInitOptions &InitOpts) { // Add macros from the command line. unsigned d = 0, D = D_macros.size(); unsigned u = 0, U = U_macros.size(); while (d < D || u < U) { if (u == U || (d < D && D_macros.getPosition(d) < U_macros.getPosition(u))) InitOpts.addMacroDef(D_macros[d++]); else InitOpts.addMacroUndef(U_macros[u++]); } // If -imacros are specified, include them now. These are processed before // any -include directives. for (unsigned i = 0, e = ImplicitMacroIncludes.size(); i != e; ++i) InitOpts.addMacroInclude(ImplicitMacroIncludes[i]); if (!ImplicitIncludePTH.empty() || !ImplicitIncludes.empty() || (!ImplicitIncludePCH.empty() && ProgAction == PrintPreprocessedInput)) { // We want to add these paths to the predefines buffer in order, make a // temporary vector to sort by their occurrence. llvm::SmallVector, 8> OrderedPaths; if (!ImplicitIncludePTH.empty()) OrderedPaths.push_back(std::make_pair(ImplicitIncludePTH.getPosition(), &ImplicitIncludePTH)); if (!ImplicitIncludePCH.empty() && ProgAction == PrintPreprocessedInput) OrderedPaths.push_back(std::make_pair(ImplicitIncludePCH.getPosition(), &ImplicitIncludePCH)); for (unsigned i = 0, e = ImplicitIncludes.size(); i != e; ++i) OrderedPaths.push_back(std::make_pair(ImplicitIncludes.getPosition(i), &ImplicitIncludes[i])); llvm::array_pod_sort(OrderedPaths.begin(), OrderedPaths.end()); // Now that they are ordered by position, add to the predefines buffer. for (unsigned i = 0, e = OrderedPaths.size(); i != e; ++i) { std::string *Ptr = OrderedPaths[i].second; if (!ImplicitIncludes.empty() && Ptr >= &ImplicitIncludes[0] && Ptr <= &ImplicitIncludes[ImplicitIncludes.size()-1]) { InitOpts.addInclude(*Ptr, false); } else if (Ptr == &ImplicitIncludePTH) { InitOpts.addInclude(*Ptr, true); } else { // We end up here when we're producing preprocessed output and // we loaded a PCH file. In this case, just include the header // file that was used to build the precompiled header. assert(Ptr == &ImplicitIncludePCH); std::string OriginalFile = PCHReader::getOriginalSourceFile(*Ptr); if (!OriginalFile.empty()) { InitOpts.addInclude(OriginalFile, false); ImplicitIncludePCH.clear(); } } } } } //===----------------------------------------------------------------------===// // Driver PreprocessorFactory - For lazily generating preprocessors ... //===----------------------------------------------------------------------===// namespace { class VISIBILITY_HIDDEN DriverPreprocessorFactory : public PreprocessorFactory { Diagnostic &Diags; const LangOptions &LangInfo; TargetInfo &Target; SourceManager &SourceMgr; HeaderSearch &HeaderInfo; public: DriverPreprocessorFactory(Diagnostic &diags, const LangOptions &opts, TargetInfo &target, SourceManager &SM, HeaderSearch &Headers) : Diags(diags), LangInfo(opts), Target(target), SourceMgr(SM), HeaderInfo(Headers) {} virtual ~DriverPreprocessorFactory() {} virtual Preprocessor* CreatePreprocessor() { llvm::OwningPtr PTHMgr; if (!TokenCache.empty() && !ImplicitIncludePTH.empty()) { fprintf(stderr, "error: cannot use both -token-cache and -include-pth " "options\n"); exit(1); } // Use PTH? if (!TokenCache.empty() || !ImplicitIncludePTH.empty()) { const std::string& x = TokenCache.empty() ? ImplicitIncludePTH:TokenCache; PTHMgr.reset(PTHManager::Create(x, &Diags, TokenCache.empty() ? Diagnostic::Error : Diagnostic::Warning)); } if (Diags.hasErrorOccurred()) exit(1); // Create the Preprocessor. llvm::OwningPtr PP(new Preprocessor(Diags, LangInfo, Target, SourceMgr, HeaderInfo, PTHMgr.get())); // Note that this is different then passing PTHMgr to Preprocessor's ctor. // That argument is used as the IdentifierInfoLookup argument to // IdentifierTable's ctor. if (PTHMgr) { PTHMgr->setPreprocessor(PP.get()); PP->setPTHManager(PTHMgr.take()); } PreprocessorInitOptions InitOpts; InitializePreprocessorInitOptions(InitOpts); if (InitializePreprocessor(*PP, InitOpts)) return 0; return PP.take(); } }; } //===----------------------------------------------------------------------===// // Basic Parser driver //===----------------------------------------------------------------------===// static void ParseFile(Preprocessor &PP, MinimalAction *PA) { Parser P(PP, *PA); PP.EnterMainSourceFile(); // Parsing the specified input file. P.ParseTranslationUnit(); delete PA; } //===----------------------------------------------------------------------===// // Code generation options //===----------------------------------------------------------------------===// static llvm::cl::opt GenerateDebugInfo("g", llvm::cl::desc("Generate source level debug information")); static llvm::cl::opt TargetCPU("mcpu", llvm::cl::desc("Target a specific cpu type (-mcpu=help for details)")); static llvm::cl::list TargetFeatures("target-feature", llvm::cl::desc("Target specific attributes")); /// ComputeTargetFeatures - Recompute the target feature list to only /// be the list of things that are enabled, based on the target cpu /// and feature list. static void ComputeFeatureMap(TargetInfo *Target, llvm::StringMap &Features) { assert(Features.empty() && "invalid map"); // Initialize the feature map based on the target. Target->getDefaultFeatures(TargetCPU, Features); // Apply the user specified deltas. for (llvm::cl::list::iterator it = TargetFeatures.begin(), ie = TargetFeatures.end(); it != ie; ++it) { const char *Name = it->c_str(); // FIXME: Don't handle errors like this. if (Name[0] != '-' && Name[0] != '+') { fprintf(stderr, "error: clang-cc: invalid target feature string: %s\n", Name); exit(1); } if (!Target->setFeatureEnabled(Features, Name + 1, (Name[0] == '+'))) { fprintf(stderr, "error: clang-cc: invalid target feature name: %s\n", Name + 1); exit(1); } } } static void InitializeCompileOptions(CompileOptions &Opts, const LangOptions &LangOpts, const llvm::StringMap &Features) { Opts.OptimizeSize = OptSize; Opts.DebugInfo = GenerateDebugInfo; if (OptSize) { // -Os implies -O2 // FIXME: Diagnose conflicting options. Opts.OptimizationLevel = 2; } else { Opts.OptimizationLevel = OptLevel; } // FIXME: There are llvm-gcc options to control these selectively. Opts.InlineFunctions = (Opts.OptimizationLevel > 1); Opts.UnrollLoops = (Opts.OptimizationLevel > 1 && !OptSize); Opts.SimplifyLibCalls = !LangOpts.NoBuiltin; #ifdef NDEBUG Opts.VerifyModule = 0; #endif Opts.CPU = TargetCPU; Opts.Features.clear(); for (llvm::StringMap::const_iterator it = Features.begin(), ie = Features.end(); it != ie; ++it) { // FIXME: If we are completely confident that we have the right // set, we only need to pass the minuses. std::string Name(it->second ? "+" : "-"); Name += it->first(); Opts.Features.push_back(Name); } Opts.NoCommon = NoCommon | LangOpts.CPlusPlus; // Handle -ftime-report. Opts.TimePasses = TimeReport; } //===----------------------------------------------------------------------===// // Fix-It Options //===----------------------------------------------------------------------===// static llvm::cl::list FixItAtLocations("fixit-at", llvm::cl::value_desc("source-location"), llvm::cl::desc("Perform Fix-It modifications at the given source location")); //===----------------------------------------------------------------------===// // ObjC Rewriter Options //===----------------------------------------------------------------------===// static llvm::cl::opt SilenceRewriteMacroWarning("Wno-rewrite-macros", llvm::cl::init(false), llvm::cl::desc("Silence ObjC rewriting warnings")); //===----------------------------------------------------------------------===// // Warning Options //===----------------------------------------------------------------------===// // This gets all -W options, including -Werror, -W[no-]system-headers, etc. The // driver has stripped off -Wa,foo etc. The driver has also translated -W to // -Wextra, so we don't need to worry about it. static llvm::cl::list OptWarnings("W", llvm::cl::Prefix, llvm::cl::ValueOptional); static llvm::cl::opt OptPedantic("pedantic"); static llvm::cl::opt OptPedanticErrors("pedantic-errors"); static llvm::cl::opt OptNoWarnings("w"); //===----------------------------------------------------------------------===// // Preprocessing (-E mode) Options //===----------------------------------------------------------------------===// static llvm::cl::opt DisableLineMarkers("P", llvm::cl::desc("Disable linemarker output in -E mode")); static llvm::cl::opt EnableCommentOutput("C", llvm::cl::desc("Enable comment output in -E mode")); static llvm::cl::opt EnableMacroCommentOutput("CC", llvm::cl::desc("Enable comment output in -E mode, " "even from macro expansions")); static llvm::cl::opt DumpMacros("dM", llvm::cl::desc("Print macro definitions in -E mode instead of" " normal output")); static llvm::cl::opt DumpDefines("dD", llvm::cl::desc("Print macro definitions in -E mode in " "addition to normal output")); //===----------------------------------------------------------------------===// // Dependency file options //===----------------------------------------------------------------------===// static llvm::cl::opt DependencyFile("dependency-file", llvm::cl::desc("Filename (or -) to write dependency output to")); static llvm::cl::opt DependenciesIncludeSystemHeaders("sys-header-deps", llvm::cl::desc("Include system headers in dependency output")); static llvm::cl::list DependencyTargets("MT", llvm::cl::desc("Specify target for dependency")); // FIXME: Implement feature static llvm::cl::opt PhonyDependencyTarget("MP", llvm::cl::desc("Create phony target for each dependency " "(other than main file)")); //===----------------------------------------------------------------------===// // Analysis options //===----------------------------------------------------------------------===// static llvm::cl::list AnalysisList(llvm::cl::desc("Source Code Analysis - Checks and Analyses"), llvm::cl::values( #define ANALYSIS(NAME, CMDFLAG, DESC, SCOPE)\ clEnumValN(NAME, CMDFLAG, DESC), #include "clang/Frontend/Analyses.def" clEnumValEnd)); static llvm::cl::opt AnalysisStoreOpt("analyzer-store", llvm::cl::desc("Source Code Analysis - Abstract Memory Store Models"), llvm::cl::init(BasicStoreModel), llvm::cl::values( #define ANALYSIS_STORE(NAME, CMDFLAG, DESC, CREATFN)\ clEnumValN(NAME##Model, CMDFLAG, DESC), #include "clang/Frontend/Analyses.def" clEnumValEnd)); static llvm::cl::opt AnalysisConstraintsOpt("analyzer-constraints", llvm::cl::desc("Source Code Analysis - Symbolic Constraint Engines"), llvm::cl::init(RangeConstraintsModel), llvm::cl::values( #define ANALYSIS_CONSTRAINTS(NAME, CMDFLAG, DESC, CREATFN)\ clEnumValN(NAME##Model, CMDFLAG, DESC), #include "clang/Frontend/Analyses.def" clEnumValEnd)); static llvm::cl::opt AnalysisDiagOpt("analyzer-output", llvm::cl::desc("Source Code Analysis - Output Options"), llvm::cl::init(PD_HTML), llvm::cl::values( #define ANALYSIS_DIAGNOSTICS(NAME, CMDFLAG, DESC, CREATFN, AUTOCREATE)\ clEnumValN(PD_##NAME, CMDFLAG, DESC), #include "clang/Frontend/Analyses.def" clEnumValEnd)); static llvm::cl::opt VisualizeEGDot("analyzer-viz-egraph-graphviz", llvm::cl::desc("Display exploded graph using GraphViz")); static llvm::cl::opt VisualizeEGUbi("analyzer-viz-egraph-ubigraph", llvm::cl::desc("Display exploded graph using Ubigraph")); static llvm::cl::opt AnalyzeAll("analyzer-opt-analyze-headers", llvm::cl::desc("Force the static analyzer to analyze " "functions defined in header files")); static llvm::cl::opt AnalyzerDisplayProgress("analyzer-display-progress", llvm::cl::desc("Emit verbose output about the analyzer's progress.")); static llvm::cl::opt PurgeDead("analyzer-purge-dead", llvm::cl::init(true), llvm::cl::desc("Remove dead symbols, bindings, and constraints before" " processing a statement.")); static llvm::cl::opt EagerlyAssume("analyzer-eagerly-assume", llvm::cl::init(false), llvm::cl::desc("Eagerly assume the truth/falseness of some " "symbolic constraints.")); static llvm::cl::opt AnalyzeSpecificFunction("analyze-function", llvm::cl::desc("Run analysis on specific function")); static llvm::cl::opt TrimGraph("trim-egraph", llvm::cl::desc("Only show error-related paths in the analysis graph")); static AnalyzerOptions ReadAnalyzerOptions() { AnalyzerOptions Opts; Opts.AnalysisList = AnalysisList; Opts.AnalysisStoreOpt = AnalysisStoreOpt; Opts.AnalysisConstraintsOpt = AnalysisConstraintsOpt; Opts.AnalysisDiagOpt = AnalysisDiagOpt; Opts.VisualizeEGDot = VisualizeEGDot; Opts.VisualizeEGUbi = VisualizeEGUbi; Opts.AnalyzeAll = AnalyzeAll; Opts.AnalyzerDisplayProgress = AnalyzerDisplayProgress; Opts.PurgeDead = PurgeDead; Opts.EagerlyAssume = EagerlyAssume; Opts.AnalyzeSpecificFunction = AnalyzeSpecificFunction; Opts.TrimGraph = TrimGraph; return Opts; } //===----------------------------------------------------------------------===// // -dump-build-information Stuff //===----------------------------------------------------------------------===// static llvm::cl::opt DumpBuildInformation("dump-build-information", llvm::cl::value_desc("filename"), llvm::cl::desc("output a dump of some build information to a file")); static llvm::raw_ostream *BuildLogFile = 0; /// LoggingDiagnosticClient - This is a simple diagnostic client that forwards /// all diagnostics to both BuildLogFile and a chained DiagnosticClient. namespace { class LoggingDiagnosticClient : public DiagnosticClient { llvm::OwningPtr Chain1; llvm::OwningPtr Chain2; public: LoggingDiagnosticClient(DiagnosticClient *Normal) { // Output diags both where requested... Chain1.reset(Normal); // .. and to our log file. Chain2.reset(new TextDiagnosticPrinter(*BuildLogFile, !NoShowColumn, !NoCaretDiagnostics, !NoShowLocation, PrintSourceRangeInfo, PrintDiagnosticOption, !NoDiagnosticsFixIt, MessageLength)); } virtual void setLangOptions(const LangOptions *LO) { Chain1->setLangOptions(LO); Chain2->setLangOptions(LO); } virtual bool IncludeInDiagnosticCounts() const { return Chain1->IncludeInDiagnosticCounts(); } virtual void HandleDiagnostic(Diagnostic::Level DiagLevel, const DiagnosticInfo &Info) { Chain1->HandleDiagnostic(DiagLevel, Info); Chain2->HandleDiagnostic(DiagLevel, Info); } }; } // end anonymous namespace. static void SetUpBuildDumpLog(unsigned argc, char **argv, llvm::OwningPtr &DiagClient) { std::string ErrorInfo; BuildLogFile = new llvm::raw_fd_ostream(DumpBuildInformation.c_str(), false, ErrorInfo); if (!ErrorInfo.empty()) { llvm::errs() << "error opening -dump-build-information file '" << DumpBuildInformation << "', option ignored!\n"; delete BuildLogFile; BuildLogFile = 0; DumpBuildInformation = ""; return; } (*BuildLogFile) << "clang-cc command line arguments: "; for (unsigned i = 0; i != argc; ++i) (*BuildLogFile) << argv[i] << ' '; (*BuildLogFile) << '\n'; // LoggingDiagnosticClient - Insert a new logging diagnostic client in between // the diagnostic producers and the normal receiver. DiagClient.reset(new LoggingDiagnosticClient(DiagClient.take())); } //===----------------------------------------------------------------------===// // Main driver //===----------------------------------------------------------------------===// static llvm::raw_ostream* ComputeOutFile(const std::string& InFile, const char* Extension, bool Binary, llvm::sys::Path& OutPath) { llvm::raw_ostream* Ret; bool UseStdout = false; std::string OutFile; if (OutputFile == "-" || (OutputFile.empty() && InFile == "-")) { UseStdout = true; } else if (!OutputFile.empty()) { OutFile = OutputFile; } else if (Extension) { llvm::sys::Path Path(InFile); Path.eraseSuffix(); Path.appendSuffix(Extension); OutFile = Path.toString(); } else { UseStdout = true; } if (UseStdout) { Ret = new llvm::raw_stdout_ostream(); if (Binary) llvm::sys::Program::ChangeStdoutToBinary(); } else { std::string Error; Ret = new llvm::raw_fd_ostream(OutFile.c_str(), Binary, Error); if (!Error.empty()) { // FIXME: Don't fail this way. llvm::cerr << "ERROR: " << Error << "\n"; ::exit(1); } OutPath = OutFile; } return Ret; } /// ProcessInputFile - Process a single input file with the specified state. /// static void ProcessInputFile(Preprocessor &PP, PreprocessorFactory &PPF, const std::string &InFile, ProgActions PA, const llvm::StringMap &Features) { llvm::OwningPtr OS; llvm::OwningPtr Consumer; bool ClearSourceMgr = false; FixItRewriter *FixItRewrite = 0; bool CompleteTranslationUnit = true; llvm::sys::Path OutPath; switch (PA) { default: fprintf(stderr, "Unexpected program action!\n"); HadErrors = true; return; case ASTPrint: OS.reset(ComputeOutFile(InFile, 0, false, OutPath)); Consumer.reset(CreateASTPrinter(OS.get())); break; case ASTPrintXML: OS.reset(ComputeOutFile(InFile, "xml", false, OutPath)); Consumer.reset(CreateASTPrinterXML(OS.get())); break; case ASTDump: Consumer.reset(CreateASTDumper()); break; case ASTView: Consumer.reset(CreateASTViewer()); break; case PrintDeclContext: Consumer.reset(CreateDeclContextPrinter()); break; case EmitHTML: OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); Consumer.reset(CreateHTMLPrinter(OS.get(), PP.getDiagnostics(), &PP, &PPF)); break; case InheritanceView: Consumer.reset(CreateInheritanceViewer(InheritanceViewCls)); break; case EmitAssembly: case EmitLLVM: case EmitBC: case EmitLLVMOnly: { BackendAction Act; if (ProgAction == EmitAssembly) { Act = Backend_EmitAssembly; OS.reset(ComputeOutFile(InFile, "s", true, OutPath)); } else if (ProgAction == EmitLLVM) { Act = Backend_EmitLL; OS.reset(ComputeOutFile(InFile, "ll", true, OutPath)); } else if (ProgAction == EmitLLVMOnly) { Act = Backend_EmitNothing; } else { Act = Backend_EmitBC; OS.reset(ComputeOutFile(InFile, "bc", true, OutPath)); } CompileOptions Opts; InitializeCompileOptions(Opts, PP.getLangOptions(), Features); Consumer.reset(CreateBackendConsumer(Act, PP.getDiagnostics(), PP.getLangOptions(), Opts, InFile, OS.get())); break; } case GeneratePCH: OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); Consumer.reset(CreatePCHGenerator(PP, OS.get())); CompleteTranslationUnit = false; break; case RewriteObjC: OS.reset(ComputeOutFile(InFile, "cpp", true, OutPath)); Consumer.reset(CreateObjCRewriter(InFile, OS.get(), PP.getDiagnostics(), PP.getLangOptions(), SilenceRewriteMacroWarning)); break; case RewriteBlocks: Consumer.reset(CreateBlockRewriter(InFile, PP.getDiagnostics(), PP.getLangOptions())); break; case RunAnalysis: { Consumer.reset(CreateAnalysisConsumer(PP.getDiagnostics(), &PP, &PPF, PP.getLangOptions(), OutputFile, ReadAnalyzerOptions())); break; } case DumpRawTokens: { llvm::TimeRegion Timer(ClangFrontendTimer); SourceManager &SM = PP.getSourceManager(); // Start lexing the specified input file. Lexer RawLex(SM.getMainFileID(), SM, PP.getLangOptions()); RawLex.SetKeepWhitespaceMode(true); Token RawTok; RawLex.LexFromRawLexer(RawTok); while (RawTok.isNot(tok::eof)) { PP.DumpToken(RawTok, true); fprintf(stderr, "\n"); RawLex.LexFromRawLexer(RawTok); } ClearSourceMgr = true; break; } case DumpTokens: { // Token dump mode. llvm::TimeRegion Timer(ClangFrontendTimer); Token Tok; // Start preprocessing the specified input file. PP.EnterMainSourceFile(); do { PP.Lex(Tok); PP.DumpToken(Tok, true); fprintf(stderr, "\n"); } while (Tok.isNot(tok::eof)); ClearSourceMgr = true; break; } case RunPreprocessorOnly: break; case GeneratePTH: { llvm::TimeRegion Timer(ClangFrontendTimer); if (OutputFile.empty() || OutputFile == "-") { // FIXME: Don't fail this way. // FIXME: Verify that we can actually seek in the given file. llvm::cerr << "ERROR: PTH requires an seekable file for output!\n"; ::exit(1); } OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); CacheTokens(PP, static_cast(OS.get())); ClearSourceMgr = true; break; } case PrintPreprocessedInput: OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); break; case ParseNoop: break; case ParsePrintCallbacks: { llvm::TimeRegion Timer(ClangFrontendTimer); OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); ParseFile(PP, CreatePrintParserActionsAction(PP, OS.get())); ClearSourceMgr = true; break; } case ParseSyntaxOnly: { // -fsyntax-only llvm::TimeRegion Timer(ClangFrontendTimer); Consumer.reset(new ASTConsumer()); break; } case RewriteMacros: OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); RewriteMacrosInInput(PP, OS.get()); ClearSourceMgr = true; break; case RewriteTest: OS.reset(ComputeOutFile(InFile, 0, true, OutPath)); DoRewriteTest(PP, OS.get()); ClearSourceMgr = true; break; case FixIt: llvm::TimeRegion Timer(ClangFrontendTimer); Consumer.reset(new ASTConsumer()); FixItRewrite = new FixItRewriter(PP.getDiagnostics(), PP.getSourceManager(), PP.getLangOptions()); break; } if (FixItAtLocations.size() > 0) { // Even without the "-fixit" flag, with may have some specific // locations where the user has requested fixes. Process those // locations now. if (!FixItRewrite) FixItRewrite = new FixItRewriter(PP.getDiagnostics(), PP.getSourceManager(), PP.getLangOptions()); bool AddedFixitLocation = false; for (unsigned Idx = 0, Last = FixItAtLocations.size(); Idx != Last; ++Idx) { RequestedSourceLocation Requested; if (FixItAtLocations[Idx].ResolveLocation(PP.getFileManager(), Requested)) { fprintf(stderr, "FIX-IT could not find file \"%s\"\n", FixItAtLocations[Idx].FileName.c_str()); } else { FixItRewrite->addFixItLocation(Requested); AddedFixitLocation = true; } } if (!AddedFixitLocation) { // All of the fix-it locations were bad. Don't fix anything. delete FixItRewrite; FixItRewrite = 0; } } llvm::OwningPtr ContextOwner; if (Consumer) ContextOwner.reset(new ASTContext(PP.getLangOptions(), PP.getSourceManager(), PP.getTargetInfo(), PP.getIdentifierTable(), PP.getSelectorTable(), /* FreeMemory = */ !DisableFree, /* size_reserve = */0, /* InitializeBuiltins = */ImplicitIncludePCH.empty())); llvm::OwningPtr Reader; llvm::OwningPtr Source; if (!ImplicitIncludePCH.empty()) { Reader.reset(new PCHReader(PP, ContextOwner.get())); // The user has asked us to include a precompiled header. Load // the precompiled header into the AST context. switch (Reader->ReadPCH(ImplicitIncludePCH)) { case PCHReader::Success: { // Set the predefines buffer as suggested by the PCH // reader. Typically, the predefines buffer will be empty. PP.setPredefines(Reader->getSuggestedPredefines()); // Attach the PCH reader to the AST context as an external AST // source, so that declarations will be deserialized from the // PCH file as needed. if (ContextOwner) { Source.reset(Reader.take()); ContextOwner->setExternalSource(Source); } break; } case PCHReader::Failure: // Unrecoverable failure: don't even try to process the input // file. return; case PCHReader::IgnorePCH: // No suitable PCH file could be found. Return an error. return; #if 0 // FIXME: We can recover from failed attempts to load PCH // files. This code will do so, if we ever want to enable it. // We delayed the initialization of builtins in the hope of // loading the PCH file. Since the PCH file could not be // loaded, initialize builtins now. if (ContextOwner) ContextOwner->InitializeBuiltins(PP.getIdentifierTable()); #endif } // Finish preprocessor initialization. We do this now (rather // than earlier) because this initialization creates new source // location entries in the source manager, which must come after // the source location entries for the PCH file. if (InitializeSourceManager(PP, InFile)) return; } // If we have an ASTConsumer, run the parser with it. if (Consumer) ParseAST(PP, Consumer.get(), *ContextOwner.get(), Stats, CompleteTranslationUnit); if (PA == RunPreprocessorOnly) { // Just lex as fast as we can, no output. llvm::TimeRegion Timer(ClangFrontendTimer); Token Tok; // Start parsing the specified input file. PP.EnterMainSourceFile(); do { PP.Lex(Tok); } while (Tok.isNot(tok::eof)); ClearSourceMgr = true; } else if (PA == ParseNoop) { // -parse-noop llvm::TimeRegion Timer(ClangFrontendTimer); ParseFile(PP, new MinimalAction(PP)); ClearSourceMgr = true; } else if (PA == PrintPreprocessedInput){ // -E mode. llvm::TimeRegion Timer(ClangFrontendTimer); if (DumpMacros) DoPrintMacros(PP, OS.get()); else DoPrintPreprocessedInput(PP, OS.get(), EnableCommentOutput, EnableMacroCommentOutput, DisableLineMarkers, DumpDefines); ClearSourceMgr = true; } if (FixItRewrite) FixItRewrite->WriteFixedFile(InFile, OutputFile); // If in -disable-free mode, don't deallocate ASTContext. if (DisableFree) ContextOwner.take(); else ContextOwner.reset(); // Delete ASTContext if (VerifyDiagnostics) if (CheckDiagnostics(PP)) exit(1); if (Stats) { fprintf(stderr, "\nSTATISTICS FOR '%s':\n", InFile.c_str()); PP.PrintStats(); PP.getIdentifierTable().PrintStats(); PP.getHeaderSearchInfo().PrintStats(); PP.getSourceManager().PrintStats(); fprintf(stderr, "\n"); } // For a multi-file compilation, some things are ok with nuking the source // manager tables, other require stable fileid/macroid's across multiple // files. if (ClearSourceMgr) PP.getSourceManager().clearIDTables(); if (DisableFree) Consumer.take(); else Consumer.reset(); // Always delete the output stream because we don't want to leak file // handles. Also, we don't want to try to erase an open file. OS.reset(); if ((HadErrors || (PP.getDiagnostics().getNumErrors() != 0)) && !OutPath.isEmpty()) { // If we had errors, try to erase the output file. OutPath.eraseFromDisk(); } } static llvm::cl::list InputFilenames(llvm::cl::Positional, llvm::cl::desc("")); int main(int argc, char **argv) { llvm::sys::PrintStackTraceOnErrorSignal(); llvm::PrettyStackTraceProgram X(argc, argv); llvm::cl::ParseCommandLineOptions(argc, argv, "LLVM 'Clang' Compiler: http://clang.llvm.org\n"); if (TimeReport) ClangFrontendTimer = new llvm::Timer("Clang front-end time"); if (Verbose) fprintf(stderr, "clang-cc version 1.0 based upon " PACKAGE_STRING " hosted on " LLVM_HOSTTRIPLE "\n"); // If no input was specified, read from stdin. if (InputFilenames.empty()) InputFilenames.push_back("-"); // Create the diagnostic client for reporting errors or for // implementing -verify. llvm::OwningPtr DiagClient; if (VerifyDiagnostics) { // When checking diagnostics, just buffer them up. DiagClient.reset(new TextDiagnosticBuffer()); if (InputFilenames.size() != 1) { fprintf(stderr, "-verify only works on single input files for now.\n"); return 1; } if (!HTMLDiag.empty()) { fprintf(stderr, "-verify and -html-diags don't work together\n"); return 1; } } else if (HTMLDiag.empty()) { // Print diagnostics to stderr by default. // If -fmessage-length=N was not specified, determine whether this // is a terminal and, if so, implicitly define -fmessage-length // appropriately. if (MessageLength.getNumOccurrences() == 0) MessageLength.setValue(llvm::sys::Process::StandardErrColumns()); DiagClient.reset(new TextDiagnosticPrinter(llvm::errs(), !NoShowColumn, !NoCaretDiagnostics, !NoShowLocation, PrintSourceRangeInfo, PrintDiagnosticOption, !NoDiagnosticsFixIt, MessageLength)); } else { DiagClient.reset(CreateHTMLDiagnosticClient(HTMLDiag)); } if (!DumpBuildInformation.empty()) { if (!HTMLDiag.empty()) { fprintf(stderr, "-dump-build-information and -html-diags don't work together\n"); return 1; } SetUpBuildDumpLog(argc, argv, DiagClient); } // Configure our handling of diagnostics. Diagnostic Diags(DiagClient.get()); if (ProcessWarningOptions(Diags, OptWarnings, OptPedantic, OptPedanticErrors, OptNoWarnings)) return 1; // -I- is a deprecated GCC feature, scan for it and reject it. for (unsigned i = 0, e = I_dirs.size(); i != e; ++i) { if (I_dirs[i] == "-") { Diags.Report(FullSourceLoc(), diag::err_pp_I_dash_not_supported); I_dirs.erase(I_dirs.begin()+i); --i; } } // Get information about the target being compiled for. std::string Triple = CreateTargetTriple(); llvm::OwningPtr Target(TargetInfo::CreateTargetInfo(Triple)); if (Target == 0) { Diags.Report(FullSourceLoc(), diag::err_fe_unknown_triple) << Triple.c_str(); return 1; } if (!InheritanceViewCls.empty()) // C++ visualization? ProgAction = InheritanceView; llvm::OwningPtr SourceMgr; // Create a file manager object to provide access to and cache the filesystem. FileManager FileMgr; // Compute the feature set, unfortunately this effects the language! llvm::StringMap Features; ComputeFeatureMap(Target.get(), Features); for (unsigned i = 0, e = InputFilenames.size(); i != e; ++i) { const std::string &InFile = InputFilenames[i]; /// Create a SourceManager object. This tracks and owns all the file /// buffers allocated to a translation unit. if (!SourceMgr) SourceMgr.reset(new SourceManager()); else SourceMgr->clearIDTables(); // Initialize language options, inferring file types from input filenames. LangOptions LangInfo; DiagClient->setLangOptions(&LangInfo); InitializeBaseLanguage(); LangKind LK = GetLanguage(InFile); InitializeLangOptions(LangInfo, LK); InitializeLanguageStandard(LangInfo, LK, Target.get(), Features); // Process the -I options and set them in the HeaderInfo. HeaderSearch HeaderInfo(FileMgr); InitializeIncludePaths(argv[0], HeaderInfo, FileMgr, LangInfo); // Set up the preprocessor with these options. DriverPreprocessorFactory PPFactory(Diags, LangInfo, *Target, *SourceMgr.get(), HeaderInfo); llvm::OwningPtr PP(PPFactory.CreatePreprocessor()); if (!PP) continue; // Handle generating dependencies, if requested if (!DependencyFile.empty()) { llvm::raw_ostream *DependencyOS; if (DependencyTargets.empty()) { // FIXME: Use a proper diagnostic llvm::cerr << "-dependency-file requires at least one -MT option\n"; HadErrors = true; continue; } std::string ErrStr; DependencyOS = new llvm::raw_fd_ostream(DependencyFile.c_str(), false, ErrStr); if (!ErrStr.empty()) { // FIXME: Use a proper diagnostic llvm::cerr << "unable to open dependency file: " + ErrStr; HadErrors = true; continue; } AttachDependencyFileGen(PP.get(), DependencyOS, DependencyTargets, DependenciesIncludeSystemHeaders, PhonyDependencyTarget); } if (ImplicitIncludePCH.empty() && InitializeSourceManager(*PP.get(), InFile)) continue; if (!HTMLDiag.empty()) ((PathDiagnosticClient*)DiagClient.get())->SetPreprocessor(PP.get()); // Process the source file. ProcessInputFile(*PP, PPFactory, InFile, ProgAction, Features); HeaderInfo.ClearFileInfo(); DiagClient->setLangOptions(0); } if (!NoCaretDiagnostics) if (unsigned NumDiagnostics = Diags.getNumDiagnostics()) fprintf(stderr, "%d diagnostic%s generated.\n", NumDiagnostics, (NumDiagnostics == 1 ? "" : "s")); if (Stats) { FileMgr.PrintStats(); fprintf(stderr, "\n"); } delete ClangFrontendTimer; delete BuildLogFile; // If verifying diagnostics and we reached here, all is well. if (VerifyDiagnostics) return 0; // Managed static deconstruction. Useful for making things like // -time-passes usable. llvm::llvm_shutdown(); return HadErrors || (Diags.getNumErrors() != 0); }