//===- LLVMCConfigurationEmitter.cpp - Generate LLVMCC config -------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open // Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This tablegen backend is responsible for emitting LLVMCC configuration code. // //===----------------------------------------------------------------------===// #include "LLVMCCConfigurationEmitter.h" #include "Record.h" #include "llvm/ADT/IntrusiveRefCntPtr.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/StringMap.h" #include "llvm/Support/Streams.h" #include #include #include #include using namespace llvm; namespace { //===----------------------------------------------------------------------===// /// Typedefs typedef std::vector RecordVector; typedef std::vector StrVector; //===----------------------------------------------------------------------===// /// Constants // Indentation strings const char * Indent1 = " "; const char * Indent2 = " "; const char * Indent3 = " "; const char * Indent4 = " "; // Default help string const char * DefaultHelpString = "NO HELP MESSAGE PROVIDED"; // Name for the "sink" option const char * SinkOptionName = "AutoGeneratedSinkOption"; //===----------------------------------------------------------------------===// /// Helper functions std::string InitPtrToString(Init* ptr) { StringInit& val = dynamic_cast(*ptr); return val.getValue(); } //===----------------------------------------------------------------------===// /// Back-end specific code // A command-line option can have one of the following types: // // Switch - a simple switch w/o arguments, e.g. -O2 // // Parameter - an option that takes one(and only one) argument, e.g. -o file, // --output=file // // ParameterList - same as Parameter, but more than one occurence // of the option is allowed, e.g. -lm -lpthread // // Prefix - argument is everything after the prefix, // e.g. -Wa,-foo,-bar, -DNAME=VALUE // // PrefixList - same as Prefix, but more than one option occurence is // allowed namespace OptionType { enum OptionType { Switch, Parameter, ParameterList, Prefix, PrefixList}; } bool IsListOptionType (OptionType::OptionType t) { return (t == OptionType::ParameterList || t == OptionType::PrefixList); } // Code duplication here is necessary because one option can affect // several tools and those tools may have different actions associated // with this option. GlobalOptionDescriptions are used to generate // the option registration code, while ToolOptionDescriptions are used // to generate tool-specific code. // Base class for option descriptions struct OptionDescription { OptionType::OptionType Type; std::string Name; OptionDescription(OptionType::OptionType t = OptionType::Switch, const std::string& n = "") : Type(t), Name(n) {} const char* GenTypeDeclaration() const { switch (Type) { case OptionType::PrefixList: case OptionType::ParameterList: return "cl::list"; case OptionType::Switch: return "cl::opt"; case OptionType::Parameter: case OptionType::Prefix: default: return "cl::opt"; } } std::string GenVariableName() const { switch (Type) { case OptionType::Switch: return "AutoGeneratedSwitch" + Name; case OptionType::Prefix: return "AutoGeneratedPrefix" + Name; case OptionType::PrefixList: return "AutoGeneratedPrefixList" + Name; case OptionType::Parameter: return "AutoGeneratedParameter" + Name; case OptionType::ParameterList: default: return "AutoGeneratedParameterList" + Name; } } }; // Global option description namespace GlobalOptionDescriptionFlags { enum GlobalOptionDescriptionFlags { Required = 0x1 }; } struct GlobalOptionDescription : public OptionDescription { std::string Help; unsigned Flags; // StringMap can only store DefaultConstructible objects GlobalOptionDescription() : OptionDescription(), Flags(0) {} GlobalOptionDescription (OptionType::OptionType t, const std::string& n) : OptionDescription(t, n), Help(DefaultHelpString), Flags(0) {} bool isRequired() const { return Flags & GlobalOptionDescriptionFlags::Required; } void setRequired() { Flags |= GlobalOptionDescriptionFlags::Required; } // Merge two option descriptions void Merge (const GlobalOptionDescription& other) { if (other.Type != Type) throw "Conflicting definitions for the option " + Name + "!"; if (Help.empty() && !other.Help.empty()) Help = other.Help; else if (!Help.empty() && !other.Help.empty()) cerr << "Warning: more than one help string defined for option " + Name + "\n"; Flags |= other.Flags; } }; // A GlobalOptionDescription array // + some flags affecting generation of option declarations struct GlobalOptionDescriptions { typedef StringMap container_type; typedef container_type::const_iterator const_iterator; // A list of GlobalOptionDescriptions container_type Descriptions; // Should the emitter generate a "cl::sink" option? bool HasSink; // Support for STL-style iteration const_iterator begin() const { return Descriptions.begin(); } const_iterator end() const { return Descriptions.end(); } }; // Tool-local option description // Properties without arguments are implemented as flags namespace ToolOptionDescriptionFlags { enum ToolOptionDescriptionFlags { StopCompilation = 0x1, Forward = 0x2, UnpackValues = 0x4}; } namespace OptionPropertyType { enum OptionPropertyType { AppendCmd }; } typedef std::pair OptionProperty; typedef SmallVector OptionPropertyList; struct ToolOptionDescription : public OptionDescription { unsigned Flags; OptionPropertyList Props; // StringMap can only store DefaultConstructible objects ToolOptionDescription() : OptionDescription() {} ToolOptionDescription (OptionType::OptionType t, const std::string& n) : OptionDescription(t, n) {} // Various boolean properties bool isStopCompilation() const { return Flags & ToolOptionDescriptionFlags::StopCompilation; } void setStopCompilation() { Flags |= ToolOptionDescriptionFlags::StopCompilation; } bool isForward() const { return Flags & ToolOptionDescriptionFlags::Forward; } void setForward() { Flags |= ToolOptionDescriptionFlags::Forward; } bool isUnpackValues() const { return Flags & ToolOptionDescriptionFlags::UnpackValues; } void setUnpackValues() { Flags |= ToolOptionDescriptionFlags::UnpackValues; } void AddProperty (OptionPropertyType::OptionPropertyType t, const std::string& val) { Props.push_back(std::make_pair(t, val)); } }; typedef StringMap ToolOptionDescriptions; // Tool information record namespace ToolFlags { enum ToolFlags { Join = 0x1, Sink = 0x2 }; } struct ToolProperties : public RefCountedBase { std::string Name; StrVector CmdLine; std::string InLanguage; std::string OutLanguage; std::string OutputSuffix; unsigned Flags; ToolOptionDescriptions OptDescs; // Various boolean properties void setSink() { Flags |= ToolFlags::Sink; } bool isSink() const { return Flags & ToolFlags::Sink; } void setJoin() { Flags |= ToolFlags::Join; } bool isJoin() const { return Flags & ToolFlags::Join; } // Default ctor here is needed because StringMap can only store // DefaultConstructible objects ToolProperties() {} ToolProperties (const std::string& n) : Name(n) {} }; // A list of Tool information records // IntrusiveRefCntPtrs are used because StringMap has no copy constructor // (and we want to avoid copying ToolProperties anyway) typedef std::vector > ToolPropertiesList; // Function object for iterating over a list of tool property records class CollectProperties { private: /// Implementation details // "Property handler" - a function that extracts information // about a given tool property from its DAG representation typedef void (CollectProperties::*PropertyHandler)(DagInit*); // Map from property names -> property handlers typedef StringMap PropertyHandlerMap; // "Option property handler" - a function that extracts information // about a given option property from its DAG representation typedef void (CollectProperties::* OptionPropertyHandler)(DagInit*, GlobalOptionDescription &); // Map from option property names -> option property handlers typedef StringMap OptionPropertyHandlerMap; // Static maps from strings to CollectProperties methods("handlers") static PropertyHandlerMap propertyHandlers_; static OptionPropertyHandlerMap optionPropertyHandlers_; static bool staticMembersInitialized_; /// This is where the information is stored // Current Tool properties ToolProperties& toolProps_; // OptionDescriptions table(used to register options globally) GlobalOptionDescriptions& optDescs_; public: explicit CollectProperties (ToolProperties& p, GlobalOptionDescriptions& d) : toolProps_(p), optDescs_(d) { if (!staticMembersInitialized_) { // Init tool property handlers propertyHandlers_["cmd_line"] = &CollectProperties::onCmdLine; propertyHandlers_["in_language"] = &CollectProperties::onInLanguage; propertyHandlers_["join"] = &CollectProperties::onJoin; propertyHandlers_["out_language"] = &CollectProperties::onOutLanguage; propertyHandlers_["output_suffix"] = &CollectProperties::onOutputSuffix; propertyHandlers_["parameter_option"] = &CollectProperties::onParameter; propertyHandlers_["parameter_list_option"] = &CollectProperties::onParameterList; propertyHandlers_["prefix_option"] = &CollectProperties::onPrefix; propertyHandlers_["prefix_list_option"] = &CollectProperties::onPrefixList; propertyHandlers_["sink"] = &CollectProperties::onSink; propertyHandlers_["switch_option"] = &CollectProperties::onSwitch; // Init option property handlers optionPropertyHandlers_["append_cmd"] = &CollectProperties::onAppendCmd; optionPropertyHandlers_["forward"] = &CollectProperties::onForward; optionPropertyHandlers_["help"] = &CollectProperties::onHelp; optionPropertyHandlers_["required"] = &CollectProperties::onRequired; optionPropertyHandlers_["stop_compilation"] = &CollectProperties::onStopCompilation; optionPropertyHandlers_["unpack_values"] = &CollectProperties::onUnpackValues; staticMembersInitialized_ = true; } } // Gets called for every tool property; // Just forwards to the corresponding property handler. void operator() (Init* i) { DagInit& d = dynamic_cast(*i); std::string property_name = d.getOperator()->getAsString(); PropertyHandlerMap::iterator method = propertyHandlers_.find(property_name); if (method != propertyHandlers_.end()) { PropertyHandler h = method->second; (this->*h)(&d); } else { throw "Unknown tool property: " + property_name + "!"; } } private: /// Property handlers -- /// Functions that extract information about tool properties from /// DAG representation. void onCmdLine (DagInit* d) { checkNumberOfArguments(d, 1); SplitString(InitPtrToString(d->getArg(0)), toolProps_.CmdLine); if (toolProps_.CmdLine.empty()) throw std::string("Tool " + toolProps_.Name + " has empty command line!"); } void onInLanguage (DagInit* d) { checkNumberOfArguments(d, 1); toolProps_.InLanguage = InitPtrToString(d->getArg(0)); } void onJoin (DagInit* d) { checkNumberOfArguments(d, 0); toolProps_.setJoin(); } void onOutLanguage (DagInit* d) { checkNumberOfArguments(d, 1); toolProps_.OutLanguage = InitPtrToString(d->getArg(0)); } void onOutputSuffix (DagInit* d) { checkNumberOfArguments(d, 1); toolProps_.OutputSuffix = InitPtrToString(d->getArg(0)); } void onSink (DagInit* d) { checkNumberOfArguments(d, 0); optDescs_.HasSink = true; toolProps_.setSink(); } void onSwitch (DagInit* d) { addOption(d, OptionType::Switch); } void onParameter (DagInit* d) { addOption(d, OptionType::Parameter); } void onParameterList (DagInit* d) { addOption(d, OptionType::ParameterList); } void onPrefix (DagInit* d) { addOption(d, OptionType::Prefix); } void onPrefixList (DagInit* d) { addOption(d, OptionType::PrefixList); } /// Option property handlers -- /// Methods that handle properties that are common for all types of /// options (like append_cmd, stop_compilation) void onAppendCmd (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 1); std::string const& cmd = InitPtrToString(d->getArg(0)); toolProps_.OptDescs[o.Name].AddProperty(OptionPropertyType::AppendCmd, cmd); } void onForward (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 0); toolProps_.OptDescs[o.Name].setForward(); } void onHelp (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 1); const std::string& help_message = InitPtrToString(d->getArg(0)); o.Help = help_message; } void onRequired (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 0); o.setRequired(); } void onStopCompilation (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 0); if (o.Type != OptionType::Switch) throw std::string("Only options of type Switch can stop compilation!"); toolProps_.OptDescs[o.Name].setStopCompilation(); } void onUnpackValues (DagInit* d, GlobalOptionDescription& o) { checkNumberOfArguments(d, 0); toolProps_.OptDescs[o.Name].setUnpackValues(); } /// Helper functions // Add an option of type t void addOption (DagInit* d, OptionType::OptionType t) { checkNumberOfArguments(d, 2); const std::string& name = InitPtrToString(d->getArg(0)); GlobalOptionDescription o(t, name); toolProps_.OptDescs[name].Type = t; toolProps_.OptDescs[name].Name = name; processOptionProperties(d, o); insertDescription(o); } // Ensure that the number of args in d is <= min_arguments, // throw exception otherwise void checkNumberOfArguments (DagInit* d, unsigned min_arguments) { if (d->getNumArgs() < min_arguments) throw "Property " + d->getOperator()->getAsString() + " has too few arguments!"; } // Insert new GlobalOptionDescription into GlobalOptionDescriptions list void insertDescription (const GlobalOptionDescription& o) { if (optDescs_.Descriptions.count(o.Name)) { GlobalOptionDescription& D = optDescs_.Descriptions[o.Name]; D.Merge(o); } else { optDescs_.Descriptions[o.Name] = o; } } // Go through the list of option properties and call a corresponding // handler for each. // // Parameters: // name - option name // d - option property list void processOptionProperties (DagInit* d, GlobalOptionDescription& o) { // First argument is option name checkNumberOfArguments(d, 2); for (unsigned B = 1, E = d->getNumArgs(); B!=E; ++B) { DagInit& option_property = dynamic_cast(*d->getArg(B)); const std::string& option_property_name = option_property.getOperator()->getAsString(); OptionPropertyHandlerMap::iterator method = optionPropertyHandlers_.find(option_property_name); if (method != optionPropertyHandlers_.end()) { OptionPropertyHandler h = method->second; (this->*h)(&option_property, o); } else { throw "Unknown option property: " + option_property_name + "!"; } } } }; // Static members of CollectProperties CollectProperties::PropertyHandlerMap CollectProperties::propertyHandlers_; CollectProperties::OptionPropertyHandlerMap CollectProperties::optionPropertyHandlers_; bool CollectProperties::staticMembersInitialized_ = false; // Gather information from the parsed TableGen data // (Basically a wrapper for CollectProperties) void CollectToolProperties (RecordVector::const_iterator B, RecordVector::const_iterator E, ToolPropertiesList& TPList, GlobalOptionDescriptions& OptDescs) { // Iterate over a properties list of every Tool definition for (;B!=E;++B) { RecordVector::value_type T = *B; ListInit* PropList = T->getValueAsListInit("properties"); if (!PropList) throw std::string("Tool has no property list!"); IntrusiveRefCntPtr ToolProps(new ToolProperties(T->getName())); std::for_each(PropList->begin(), PropList->end(), CollectProperties(*ToolProps, OptDescs)); TPList.push_back(ToolProps); } } // Used by EmitGenerateActionMethod void EmitOptionPropertyHandlingCode (const ToolProperties& P, const ToolOptionDescription& D, std::ostream& O) { // if clause O << Indent2 << "if ("; if (D.Type == OptionType::Switch) O << D.GenVariableName(); else O << '!' << D.GenVariableName() << ".empty()"; O <<") {\n"; // Handle option properties that take an argument for (OptionPropertyList::const_iterator B = D.Props.begin(), E = D.Props.end(); B!=E; ++B) { const OptionProperty& val = *B; switch (val.first) { // (append_cmd cmd) property case OptionPropertyType::AppendCmd: O << Indent3 << "vec.push_back(\"" << val.second << "\");\n"; break; // Other properties with argument default: break; } } // Handle flags // (forward) property if (D.isForward()) { switch (D.Type) { case OptionType::Switch: O << Indent3 << "vec.push_back(\"-" << D.Name << "\");\n"; break; case OptionType::Parameter: O << Indent3 << "vec.push_back(\"-" << D.Name << "\");\n"; O << Indent3 << "vec.push_back(" << D.GenVariableName() << ");\n"; break; case OptionType::Prefix: O << Indent3 << "vec.push_back(\"-" << D.Name << "\" + " << D.GenVariableName() << ");\n"; break; case OptionType::PrefixList: O << Indent3 << "for (" << D.GenTypeDeclaration() << "::iterator B = " << D.GenVariableName() << ".begin(),\n" << Indent3 << "E = " << D.GenVariableName() << ".end(); B != E; ++B)\n" << Indent4 << "vec.push_back(\"-" << D.Name << "\" + " << "*B);\n"; break; case OptionType::ParameterList: O << Indent3 << "for (" << D.GenTypeDeclaration() << "::iterator B = " << D.GenVariableName() << ".begin(),\n" << Indent3 << "E = " << D.GenVariableName() << ".end() ; B != E; ++B) {\n" << Indent4 << "vec.push_back(\"-" << D.Name << "\");\n" << Indent4 << "vec.push_back(*B);\n" << Indent3 << "}\n"; break; } } // (unpack_values) property if (D.isUnpackValues()) { if (IsListOptionType(D.Type)) { O << Indent3 << "for (" << D.GenTypeDeclaration() << "::iterator B = " << D.GenVariableName() << ".begin(),\n" << Indent3 << "E = " << D.GenVariableName() << ".end(); B != E; ++B)\n" << Indent4 << "UnpackValues(*B, vec);\n"; } else if (D.Type == OptionType::Prefix || D.Type == OptionType::Parameter){ O << Indent3 << "UnpackValues(" << D.GenVariableName() << ", vec);\n"; } else { // TOFIX: move this to the type-checking phase throw std::string("Switches can't have unpack_values property!"); } } // close if clause O << Indent2 << "}\n"; } // Emite one of two versions of GenerateAction method void EmitGenerateActionMethod (const ToolProperties& P, int V, std::ostream& O) { assert(V==1 || V==2); if (V==1) O << Indent1 << "Action GenerateAction(const PathVector& inFiles,\n"; else O << Indent1 << "Action GenerateAction(const sys::Path& inFile,\n"; O << Indent2 << "const sys::Path& outFile) const\n" << Indent1 << "{\n" << Indent2 << "std::vector vec;\n"; // Parse CmdLine tool property StrVector::const_iterator I = P.CmdLine.begin(); ++I; for (StrVector::const_iterator E = P.CmdLine.end(); I != E; ++I) { const std::string& cmd = *I; O << Indent2; if (cmd == "$INFILE") { if (V==1) O << "for (PathVector::const_iterator B = inFiles.begin()" << ", E = inFiles.end();\n" << Indent2 << "B != E; ++B)\n" << Indent3 << "vec.push_back(B->toString());\n"; else O << "vec.push_back(inFile.toString());\n"; } else if (cmd == "$OUTFILE") { O << "vec.push_back(outFile.toString());\n"; } else { O << "vec.push_back(\"" << cmd << "\");\n"; } } // For every understood option, emit handling code for (ToolOptionDescriptions::const_iterator B = P.OptDescs.begin(), E = P.OptDescs.end(); B != E; ++B) { const ToolOptionDescription& val = B->second; EmitOptionPropertyHandlingCode(P, val, O); } // Handle Sink property if (P.isSink()) { O << Indent2 << "if (!" << SinkOptionName << ".empty()) {\n" << Indent3 << "vec.insert(vec.end(), " << SinkOptionName << ".begin(), " << SinkOptionName << ".end());\n" << Indent2 << "}\n"; } O << Indent2 << "return Action(\"" << P.CmdLine.at(0) << "\", vec);\n" << Indent1 << "}\n\n"; } // Emit GenerateAction methods for Tool classes void EmitGenerateActionMethods (const ToolProperties& P, std::ostream& O) { if (!P.isJoin()) O << Indent1 << "Action GenerateAction(const PathVector& inFiles,\n" << Indent2 << "const llvm::sys::Path& outFile) const\n" << Indent1 << "{\n" << Indent2 << "throw std::runtime_error(\"" << P.Name << " is not a Join tool!\");\n" << Indent1 << "}\n\n"; else EmitGenerateActionMethod(P, 1, O); EmitGenerateActionMethod(P, 2, O); } // Emit IsLast() method for Tool classes void EmitIsLastMethod (const ToolProperties& P, std::ostream& O) { O << Indent1 << "bool IsLast() const {\n" << Indent2 << "bool last = false;\n"; for (ToolOptionDescriptions::const_iterator B = P.OptDescs.begin(), E = P.OptDescs.end(); B != E; ++B) { const ToolOptionDescription& val = B->second; if (val.isStopCompilation()) O << Indent2 << "if (" << val.GenVariableName() << ")\n" << Indent3 << "last = true;\n"; } O << Indent2 << "return last;\n" << Indent1 << "}\n\n"; } // Emit static [Input,Output]Language() methods for Tool classes void EmitInOutLanguageMethods (const ToolProperties& P, std::ostream& O) { O << Indent1 << "std::string InputLanguage() const {\n" << Indent2 << "return \"" << P.InLanguage << "\";\n" << Indent1 << "}\n\n"; O << Indent1 << "std::string OutputLanguage() const {\n" << Indent2 << "return \"" << P.OutLanguage << "\";\n" << Indent1 << "}\n\n"; } // Emit static [Input,Output]Language() methods for Tool classes void EmitOutputSuffixMethod (const ToolProperties& P, std::ostream& O) { O << Indent1 << "std::string OutputSuffix() const {\n" << Indent2 << "return \"" << P.OutputSuffix << "\";\n" << Indent1 << "}\n\n"; } // Emit static Name() method for Tool classes void EmitNameMethod (const ToolProperties& P, std::ostream& O) { O << Indent1 << "std::string Name() const {\n" << Indent2 << "return \"" << P.Name << "\";\n" << Indent1 << "}\n\n"; } // Emit static Name() method for Tool classes void EmitIsJoinMethod (const ToolProperties& P, std::ostream& O) { O << Indent1 << "bool IsJoin() const {\n"; if (P.isJoin()) O << Indent2 << "return true;\n"; else O << Indent2 << "return false;\n"; O << Indent1 << "}\n\n"; } // Emit a Tool class definition void EmitToolClassDefinition (const ToolProperties& P, std::ostream& O) { // Header O << "class " << P.Name << " : public Tool {\n" << "public:\n"; EmitNameMethod(P, O); EmitInOutLanguageMethods(P, O); EmitOutputSuffixMethod(P, O); EmitIsJoinMethod(P, O); EmitGenerateActionMethods(P, O); EmitIsLastMethod(P, O); // Close class definition O << "};\n\n"; } // Iterate over a list of option descriptions and emit registration code void EmitOptionDescriptions (const GlobalOptionDescriptions& descs, std::ostream& O) { // Emit static cl::Option variables for (GlobalOptionDescriptions::const_iterator B = descs.begin(), E = descs.end(); B!=E; ++B) { const GlobalOptionDescription& val = B->second; O << val.GenTypeDeclaration() << ' ' << val.GenVariableName() << "(\"" << val.Name << '\"'; if (val.Type == OptionType::Prefix || val.Type == OptionType::PrefixList) O << ", cl::Prefix"; if (val.isRequired()) { switch (val.Type) { case OptionType::PrefixList: case OptionType::ParameterList: O << ", cl::OneOrMore"; break; default: O << ", cl::Required"; } } O << ", cl::desc(\"" << val.Help << "\"));\n"; } if (descs.HasSink) O << "cl::list " << SinkOptionName << "(cl::Sink);\n"; O << '\n'; } void EmitPopulateLanguageMap (const RecordKeeper& Records, std::ostream& O) { // Get the relevant field out of RecordKeeper Record* LangMapRecord = Records.getDef("LanguageMap"); if (!LangMapRecord) throw std::string("Language map definition not found!"); ListInit* LangsToSuffixesList = LangMapRecord->getValueAsListInit("map"); if (!LangsToSuffixesList) throw std::string("Error in the language map definition!"); // Generate code O << "void llvmcc::PopulateLanguageMap(LanguageMap& language_map) {\n"; for (unsigned i = 0; i < LangsToSuffixesList->size(); ++i) { Record* LangToSuffixes = LangsToSuffixesList->getElementAsRecord(i); const std::string& Lang = LangToSuffixes->getValueAsString("lang"); const ListInit* Suffixes = LangToSuffixes->getValueAsListInit("suffixes"); for (unsigned i = 0; i < Suffixes->size(); ++i) O << Indent1 << "language_map[\"" << InitPtrToString(Suffixes->getElement(i)) << "\"] = \"" << Lang << "\";\n"; } O << "}\n\n"; } void EmitPopulateCompilationGraph (const RecordKeeper& Records, StringMap& ToolToLang, std::ostream& O) { // Get the relevant field out of RecordKeeper Record* ToolChains = Records.getDef("ToolChains"); if (!ToolChains) throw std::string("No ToolChains specification found!"); ListInit* chains = ToolChains->getValueAsListInit("chains"); if (!chains) throw std::string("Error in toolchain list definition!"); // Generate code O << "void llvmcc::PopulateCompilationGraph(CompilationGraph& G) {\n" << Indent1 << "PopulateLanguageMap(G.ExtsToLangs);\n" << Indent1 << "std::vector > vec;\n\n"; for (unsigned i = 0; i < chains->size(); ++i) { Record* ToolChain = chains->getElementAsRecord(i); ListInit* Tools = ToolChain->getValueAsListInit("tools"); // Get name of the first tool in the list const std::string& firstTool = dynamic_cast(**Tools->begin()).getDef()->getName(); for (ListInit::iterator B = Tools->begin(), E = Tools->end(); B != E; ++B) { Record* val = dynamic_cast(**B).getDef(); O << Indent1 << "vec.push_back(IntrusiveRefCntPtr(new " << val->getName() << "()));\n"; } O << Indent1 << "G.ToolChains[\"" << ToolToLang[firstTool] << "\"] = vec;\n"; O << Indent1 << "vec.clear();\n\n"; } O << "}\n\n"; } void FillInToolToLang (const ToolPropertiesList& T, StringMap& M) { for (ToolPropertiesList::const_iterator B = T.begin(), E = T.end(); B != E; ++B) { const ToolProperties& P = *(*B); M[P.Name] = P.InLanguage; } } // End of anonymous namespace } // Back-end entry point void LLVMCCConfigurationEmitter::run (std::ostream &O) { // Emit file header EmitSourceFileHeader("LLVMCC Configuration Library", O); // Get a list of all defined Tools RecordVector Tools = Records.getAllDerivedDefinitions("Tool"); if (Tools.empty()) throw std::string("No tool definitions found!"); // Gather information from the Tool descriptions ToolPropertiesList tool_props; GlobalOptionDescriptions opt_descs; CollectToolProperties(Tools.begin(), Tools.end(), tool_props, opt_descs); // Emit global option registration code EmitOptionDescriptions(opt_descs, O); // Emit PopulateLanguageMap function // (a language map maps from file extensions to language names) EmitPopulateLanguageMap(Records, O); // Emit Tool classes for (ToolPropertiesList::const_iterator B = tool_props.begin(), E = tool_props.end(); B!=E; ++B) EmitToolClassDefinition(*(*B), O); // Fill in table that maps tool names to languages StringMap ToolToLang; FillInToolToLang(tool_props, ToolToLang); // Emit PopulateCompilationGraph function EmitPopulateCompilationGraph(Records, ToolToLang, O); // EOF }