llvm/utils/TableGen/OptParserEmitter.cpp - llvm-project - Git at Google

 //===- OptParserEmitter.cpp - Table Driven Command Line Parsing -----------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "OptEmitter.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/Support/raw_ostream.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"
 #include <cctype>
 #include <cstring>
 #include <map>
 #include <memory>

 using namespace llvm;

 static std::string getOptionName(const Record &R) {
   // Use the record name unless EnumName is defined.
   if (isa<UnsetInit>(R.getValueInit("EnumName")))
     return std::string(R.getName());

   return std::string(R.getValueAsString("EnumName"));
 }

 static raw_ostream &write_cstring(raw_ostream &OS, llvm::StringRef Str) {
   OS << '"';
   OS.write_escaped(Str);
   OS << '"';
   return OS;
 }

 static std::string getOptionSpelling(const Record &R, size_t &PrefixLength) {
   std::vector<StringRef> Prefixes = R.getValueAsListOfStrings("Prefixes");
   StringRef Name = R.getValueAsString("Name");

   if (Prefixes.empty()) {
     PrefixLength = 0;
     return Name.str();
   }

   PrefixLength = Prefixes[0].size();
   return (Twine(Prefixes[0]) + Twine(Name)).str();
 }

 static std::string getOptionSpelling(const Record &R) {
   size_t PrefixLength;
   return getOptionSpelling(R, PrefixLength);
 }

 static void emitNameUsingSpelling(raw_ostream &OS, const Record &R) {
   size_t PrefixLength;
   OS << "&";
   write_cstring(OS, StringRef(getOptionSpelling(R, PrefixLength)));
   OS << "[" << PrefixLength << "]";
 }

 class MarshallingInfo {
 public:
   static constexpr const char *MacroName = "OPTION_WITH_MARSHALLING";
   const Record &R;
   bool ShouldAlwaysEmit;
   StringRef MacroPrefix;
   StringRef KeyPath;
   StringRef DefaultValue;
   StringRef NormalizedValuesScope;
   StringRef ImpliedCheck;
   StringRef ImpliedValue;
   StringRef ShouldParse;
   StringRef Normalizer;
   StringRef Denormalizer;
   StringRef ValueMerger;
   StringRef ValueExtractor;
   int TableIndex = -1;
   std::vector<StringRef> Values;
   std::vector<StringRef> NormalizedValues;
   std::string ValueTableName;

   static size_t NextTableIndex;

   static constexpr const char *ValueTablePreamble = R"(
 struct SimpleEnumValue {
   const char *Name;
   unsigned Value;
 };

 struct SimpleEnumValueTable {
   const SimpleEnumValue *Table;
   unsigned Size;
 };
 )";

   static constexpr const char *ValueTablesDecl =
       "static const SimpleEnumValueTable SimpleEnumValueTables[] = ";

   MarshallingInfo(const Record &R) : R(R) {}

   std::string getMacroName() const {
     return (MacroPrefix + MarshallingInfo::MacroName).str();
   }

   void emit(raw_ostream &OS) const {
     write_cstring(OS, StringRef(getOptionSpelling(R)));
     OS << ", ";
     OS << ShouldParse;
     OS << ", ";
     OS << ShouldAlwaysEmit;
     OS << ", ";
     OS << KeyPath;
     OS << ", ";
     emitScopedNormalizedValue(OS, DefaultValue);
     OS << ", ";
     OS << ImpliedCheck;
     OS << ", ";
     emitScopedNormalizedValue(OS, ImpliedValue);
     OS << ", ";
     OS << Normalizer;
     OS << ", ";
     OS << Denormalizer;
     OS << ", ";
     OS << ValueMerger;
     OS << ", ";
     OS << ValueExtractor;
     OS << ", ";
     OS << TableIndex;
   }

   Optional<StringRef> emitValueTable(raw_ostream &OS) const {
     if (TableIndex == -1)
       return {};
     OS << "static const SimpleEnumValue " << ValueTableName << "[] = {\n";
     for (unsigned I = 0, E = Values.size(); I != E; ++I) {
       OS << "{";
       write_cstring(OS, Values[I]);
       OS << ",";
       OS << "static_cast<unsigned>(";
       emitScopedNormalizedValue(OS, NormalizedValues[I]);
       OS << ")},";
     }
     OS << "};\n";
     return StringRef(ValueTableName);
   }

 private:
   void emitScopedNormalizedValue(raw_ostream &OS,
                                  StringRef NormalizedValue) const {
     if (!NormalizedValuesScope.empty())
       OS << NormalizedValuesScope << "::";
     OS << NormalizedValue;
   }
 };

 size_t MarshallingInfo::NextTableIndex = 0;

 static MarshallingInfo createMarshallingInfo(const Record &R) {
   assert(!isa<UnsetInit>(R.getValueInit("KeyPath")) &&
          !isa<UnsetInit>(R.getValueInit("DefaultValue")) &&
          !isa<UnsetInit>(R.getValueInit("ValueMerger")) &&
          "MarshallingInfo must have a provide a keypath, default value and a "
          "value merger");

   MarshallingInfo Ret(R);

   Ret.ShouldAlwaysEmit = R.getValueAsBit("ShouldAlwaysEmit");
   Ret.MacroPrefix = R.getValueAsString("MacroPrefix");
   Ret.KeyPath = R.getValueAsString("KeyPath");
   Ret.DefaultValue = R.getValueAsString("DefaultValue");
   Ret.NormalizedValuesScope = R.getValueAsString("NormalizedValuesScope");
   Ret.ImpliedCheck = R.getValueAsString("ImpliedCheck");
   Ret.ImpliedValue =
       R.getValueAsOptionalString("ImpliedValue").getValueOr(Ret.DefaultValue);

   Ret.ShouldParse = R.getValueAsString("ShouldParse");
   Ret.Normalizer = R.getValueAsString("Normalizer");
   Ret.Denormalizer = R.getValueAsString("Denormalizer");
   Ret.ValueMerger = R.getValueAsString("ValueMerger");
   Ret.ValueExtractor = R.getValueAsString("ValueExtractor");

   if (!isa<UnsetInit>(R.getValueInit("NormalizedValues"))) {
     assert(!isa<UnsetInit>(R.getValueInit("Values")) &&
            "Cannot provide normalized values for value-less options");
     Ret.TableIndex = MarshallingInfo::NextTableIndex++;
     Ret.NormalizedValues = R.getValueAsListOfStrings("NormalizedValues");
     Ret.Values.reserve(Ret.NormalizedValues.size());
     Ret.ValueTableName = getOptionName(R) + "ValueTable";

     StringRef ValuesStr = R.getValueAsString("Values");
     for (;;) {
       size_t Idx = ValuesStr.find(',');
       if (Idx == StringRef::npos)
         break;
       if (Idx > 0)
         Ret.Values.push_back(ValuesStr.slice(0, Idx));
       ValuesStr = ValuesStr.slice(Idx + 1, StringRef::npos);
     }
     if (!ValuesStr.empty())
       Ret.Values.push_back(ValuesStr);

     assert(Ret.Values.size() == Ret.NormalizedValues.size() &&
            "The number of normalized values doesn't match the number of "
            "values");
   }

   return Ret;
 }

 /// OptParserEmitter - This tablegen backend takes an input .td file
 /// describing a list of options and emits a data structure for parsing and
 /// working with those options when given an input command line.
 namespace llvm {
 void EmitOptParser(RecordKeeper &Records, raw_ostream &OS) {
   // Get the option groups and options.
   const std::vector<Record*> &Groups =
     Records.getAllDerivedDefinitions("OptionGroup");
   std::vector<Record*> Opts = Records.getAllDerivedDefinitions("Option");

   emitSourceFileHeader("Option Parsing Definitions", OS);

   array_pod_sort(Opts.begin(), Opts.end(), CompareOptionRecords);
   // Generate prefix groups.
   typedef SmallVector<SmallString<2>, 2> PrefixKeyT;
   typedef std::map<PrefixKeyT, std::string> PrefixesT;
   PrefixesT Prefixes;
   Prefixes.insert(std::make_pair(PrefixKeyT(), "prefix_0"));
   unsigned CurPrefix = 0;
   for (const Record &R : llvm::make_pointee_range(Opts)) {
     std::vector<StringRef> RPrefixes = R.getValueAsListOfStrings("Prefixes");
     PrefixKeyT PrefixKey(RPrefixes.begin(), RPrefixes.end());
     unsigned NewPrefix = CurPrefix + 1;
     std::string Prefix = (Twine("prefix_") + Twine(NewPrefix)).str();
     if (Prefixes.insert(std::make_pair(PrefixKey, Prefix)).second)
       CurPrefix = NewPrefix;
   }

   // Dump prefixes.

   OS << "/////////\n";
   OS << "// Prefixes\n\n";
   OS << "#ifdef PREFIX\n";
   OS << "#define COMMA ,\n";
   for (const auto &Prefix : Prefixes) {
     OS << "PREFIX(";

     // Prefix name.
     OS << Prefix.second;

     // Prefix values.
     OS << ", {";
     for (const auto &PrefixKey : Prefix.first)
       OS << "\"" << PrefixKey << "\" COMMA ";
     OS << "nullptr})\n";
   }
   OS << "#undef COMMA\n";
   OS << "#endif // PREFIX\n\n";

   OS << "/////////\n";
   OS << "// Groups\n\n";
   OS << "#ifdef OPTION\n";
   for (const Record &R : llvm::make_pointee_range(Groups)) {
     // Start a single option entry.
     OS << "OPTION(";

     // The option prefix;
     OS << "nullptr";

     // The option string.
     OS << ", \"" << R.getValueAsString("Name") << '"';

     // The option identifier name.
     OS << ", " << getOptionName(R);

     // The option kind.
     OS << ", Group";

     // The containing option group (if any).
     OS << ", ";
     if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Group")))
       OS << getOptionName(*DI->getDef());
     else
       OS << "INVALID";

     // The other option arguments (unused for groups).
     OS << ", INVALID, nullptr, 0, 0";

     // The option help text.
     if (!isa<UnsetInit>(R.getValueInit("HelpText"))) {
       OS << ",\n";
       OS << "       ";
       write_cstring(OS, R.getValueAsString("HelpText"));
     } else
       OS << ", nullptr";

     // The option meta-variable name (unused).
     OS << ", nullptr";

     // The option Values (unused for groups).
     OS << ", nullptr)\n";
   }
   OS << "\n";

   OS << "//////////\n";
   OS << "// Options\n\n";

   auto WriteOptRecordFields = [&](raw_ostream &OS, const Record &R) {
     // The option prefix;
     std::vector<StringRef> RPrefixes = R.getValueAsListOfStrings("Prefixes");
     OS << Prefixes[PrefixKeyT(RPrefixes.begin(), RPrefixes.end())] << ", ";

     // The option string.
     emitNameUsingSpelling(OS, R);

     // The option identifier name.
     OS << ", " << getOptionName(R);

     // The option kind.
     OS << ", " << R.getValueAsDef("Kind")->getValueAsString("Name");

     // The containing option group (if any).
     OS << ", ";
     const ListInit *GroupFlags = nullptr;
     if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Group"))) {
       GroupFlags = DI->getDef()->getValueAsListInit("Flags");
       OS << getOptionName(*DI->getDef());
     } else
       OS << "INVALID";

     // The option alias (if any).
     OS << ", ";
     if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Alias")))
       OS << getOptionName(*DI->getDef());
     else
       OS << "INVALID";

     // The option alias arguments (if any).
     // Emitted as a \0 separated list in a string, e.g. ["foo", "bar"]
     // would become "foo\0bar\0". Note that the compiler adds an implicit
     // terminating \0 at the end.
     OS << ", ";
     std::vector<StringRef> AliasArgs = R.getValueAsListOfStrings("AliasArgs");
     if (AliasArgs.size() == 0) {
       OS << "nullptr";
     } else {
       OS << "\"";
       for (StringRef AliasArg : AliasArgs)
         OS << AliasArg << "\\0";
       OS << "\"";
     }

     // The option flags.
     OS << ", ";
     int NumFlags = 0;
     const ListInit *LI = R.getValueAsListInit("Flags");
     for (Init *I : *LI)
       OS << (NumFlags++ ? " | " : "") << cast<DefInit>(I)->getDef()->getName();
     if (GroupFlags) {
       for (Init *I : *GroupFlags)
         OS << (NumFlags++ ? " | " : "")
            << cast<DefInit>(I)->getDef()->getName();
     }
     if (NumFlags == 0)
       OS << '0';

     // The option parameter field.
     OS << ", " << R.getValueAsInt("NumArgs");

     // The option help text.
     if (!isa<UnsetInit>(R.getValueInit("HelpText"))) {
       OS << ",\n";
       OS << "       ";
       write_cstring(OS, R.getValueAsString("HelpText"));
     } else
       OS << ", nullptr";

     // The option meta-variable name.
     OS << ", ";
     if (!isa<UnsetInit>(R.getValueInit("MetaVarName")))
       write_cstring(OS, R.getValueAsString("MetaVarName"));
     else
       OS << "nullptr";

     // The option Values. Used for shell autocompletion.
     OS << ", ";
     if (!isa<UnsetInit>(R.getValueInit("Values")))
       write_cstring(OS, R.getValueAsString("Values"));
     else
       OS << "nullptr";
   };

   auto IsMarshallingOption = [](const Record &R) {
     return !isa<UnsetInit>(R.getValueInit("KeyPath")) &&
            !R.getValueAsString("KeyPath").empty();
   };

   std::vector<const Record *> OptsWithMarshalling;
   for (const Record &R : llvm::make_pointee_range(Opts)) {
     // Start a single option entry.
     OS << "OPTION(";
     WriteOptRecordFields(OS, R);
     OS << ")\n";
     if (IsMarshallingOption(R))
       OptsWithMarshalling.push_back(&R);
   }
   OS << "#endif // OPTION\n";

   auto CmpMarshallingOpts = [](const Record *const *A, const Record *const *B) {
     unsigned AID = (*A)->getID();
     unsigned BID = (*B)->getID();

     if (AID < BID)
       return -1;
     if (AID > BID)
       return 1;
     return 0;
   };
   // The RecordKeeper stores records (options) in lexicographical order, and we
   // have reordered the options again when generating prefix groups. We need to
   // restore the original definition order of options with marshalling to honor
   // the topology of the dependency graph implied by `DefaultAnyOf`.
   array_pod_sort(OptsWithMarshalling.begin(), OptsWithMarshalling.end(),
                  CmpMarshallingOpts);

   std::vector<MarshallingInfo> MarshallingInfos;
   for (const auto *R : OptsWithMarshalling)
     MarshallingInfos.push_back(createMarshallingInfo(*R));

   for (const auto &MI : MarshallingInfos) {
     OS << "#ifdef " << MI.getMacroName() << "\n";
     OS << MI.getMacroName() << "(";
     WriteOptRecordFields(OS, MI.R);
     OS << ", ";
     MI.emit(OS);
     OS << ")\n";
     OS << "#endif // " << MI.getMacroName() << "\n";
   }

   OS << "\n";
   OS << "#ifdef SIMPLE_ENUM_VALUE_TABLE";
   OS << "\n";
   OS << MarshallingInfo::ValueTablePreamble;
   std::vector<StringRef> ValueTableNames;
   for (const auto &MI : MarshallingInfos)
     if (auto MaybeValueTableName = MI.emitValueTable(OS))
       ValueTableNames.push_back(*MaybeValueTableName);

   OS << MarshallingInfo::ValueTablesDecl << "{";
   for (auto ValueTableName : ValueTableNames)
     OS << "{" << ValueTableName << ", sizeof(" << ValueTableName
        << ") / sizeof(SimpleEnumValue)"
        << "},\n";
   OS << "};\n";
   OS << "static const unsigned SimpleEnumValueTablesSize = "
         "sizeof(SimpleEnumValueTables) / sizeof(SimpleEnumValueTable);\n";

   OS << "#endif // SIMPLE_ENUM_VALUE_TABLE\n";
   OS << "\n";

   OS << "\n";
   OS << "#ifdef OPTTABLE_ARG_INIT\n";
   OS << "//////////\n";
   OS << "// Option Values\n\n";
   for (const Record &R : llvm::make_pointee_range(Opts)) {
     if (isa<UnsetInit>(R.getValueInit("ValuesCode")))
       continue;
     OS << "{\n";
     OS << "bool ValuesWereAdded;\n";
     OS << R.getValueAsString("ValuesCode");
     OS << "\n";
     for (StringRef Prefix : R.getValueAsListOfStrings("Prefixes")) {
       OS << "ValuesWereAdded = Opt.addValues(";
       std::string S(Prefix);
       S += R.getValueAsString("Name");
       write_cstring(OS, S);
       OS << ", Values);\n";
       OS << "(void)ValuesWereAdded;\n";
       OS << "assert(ValuesWereAdded && \"Couldn't add values to "
             "OptTable!\");\n";
     }
     OS << "}\n";
   }
   OS << "\n";
   OS << "#endif // OPTTABLE_ARG_INIT\n";
 }
 } // end namespace llvm
	//===- OptParserEmitter.cpp - Table Driven Command Line Parsing -----------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "OptEmitter.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/Support/raw_ostream.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"
	#include <cctype>
	#include <cstring>
	#include <map>
	#include <memory>

	using namespace llvm;

	static std::string getOptionName(const Record &R) {
	// Use the record name unless EnumName is defined.
	if (isa<UnsetInit>(R.getValueInit("EnumName")))
	return std::string(R.getName());

	return std::string(R.getValueAsString("EnumName"));
	}

	static raw_ostream &write_cstring(raw_ostream &OS, llvm::StringRef Str) {
	OS << '"';
	OS.write_escaped(Str);
	OS << '"';
	return OS;
	}

	static std::string getOptionSpelling(const Record &R, size_t &PrefixLength) {
	std::vector<StringRef> Prefixes = R.getValueAsListOfStrings("Prefixes");
	StringRef Name = R.getValueAsString("Name");

	if (Prefixes.empty()) {
	PrefixLength = 0;
	return Name.str();
	}

	PrefixLength = Prefixes[0].size();
	return (Twine(Prefixes[0]) + Twine(Name)).str();
	}

	static std::string getOptionSpelling(const Record &R) {
	size_t PrefixLength;
	return getOptionSpelling(R, PrefixLength);
	}

	static void emitNameUsingSpelling(raw_ostream &OS, const Record &R) {
	size_t PrefixLength;
	OS << "&";
	write_cstring(OS, StringRef(getOptionSpelling(R, PrefixLength)));
	OS << "[" << PrefixLength << "]";
	}

	class MarshallingInfo {
	public:
	static constexpr const char *MacroName = "OPTION_WITH_MARSHALLING";
	const Record &R;
	bool ShouldAlwaysEmit;
	StringRef MacroPrefix;
	StringRef KeyPath;
	StringRef DefaultValue;
	StringRef NormalizedValuesScope;
	StringRef ImpliedCheck;
	StringRef ImpliedValue;
	StringRef ShouldParse;
	StringRef Normalizer;
	StringRef Denormalizer;
	StringRef ValueMerger;
	StringRef ValueExtractor;
	int TableIndex = -1;
	std::vector<StringRef> Values;
	std::vector<StringRef> NormalizedValues;
	std::string ValueTableName;

	static size_t NextTableIndex;

	static constexpr const char *ValueTablePreamble = R"(
	struct SimpleEnumValue {
	const char *Name;
	unsigned Value;
	};

	struct SimpleEnumValueTable {
	const SimpleEnumValue *Table;
	unsigned Size;
	};
	)";

	static constexpr const char *ValueTablesDecl =
	"static const SimpleEnumValueTable SimpleEnumValueTables[] = ";

	MarshallingInfo(const Record &R) : R(R) {}

	std::string getMacroName() const {
	return (MacroPrefix + MarshallingInfo::MacroName).str();
	}

	void emit(raw_ostream &OS) const {
	write_cstring(OS, StringRef(getOptionSpelling(R)));
	OS << ", ";
	OS << ShouldParse;
	OS << ", ";
	OS << ShouldAlwaysEmit;
	OS << ", ";
	OS << KeyPath;
	OS << ", ";
	emitScopedNormalizedValue(OS, DefaultValue);
	OS << ", ";
	OS << ImpliedCheck;
	OS << ", ";
	emitScopedNormalizedValue(OS, ImpliedValue);
	OS << ", ";
	OS << Normalizer;
	OS << ", ";
	OS << Denormalizer;
	OS << ", ";
	OS << ValueMerger;
	OS << ", ";
	OS << ValueExtractor;
	OS << ", ";
	OS << TableIndex;
	}

	Optional<StringRef> emitValueTable(raw_ostream &OS) const {
	if (TableIndex == -1)
	return {};
	OS << "static const SimpleEnumValue " << ValueTableName << "[] = {\n";
	for (unsigned I = 0, E = Values.size(); I != E; ++I) {
	OS << "{";
	write_cstring(OS, Values[I]);
	OS << ",";
	OS << "static_cast<unsigned>(";
	emitScopedNormalizedValue(OS, NormalizedValues[I]);
	OS << ")},";
	}
	OS << "};\n";
	return StringRef(ValueTableName);
	}

	private:
	void emitScopedNormalizedValue(raw_ostream &OS,
	StringRef NormalizedValue) const {
	if (!NormalizedValuesScope.empty())
	OS << NormalizedValuesScope << "::";
	OS << NormalizedValue;
	}
	};

	size_t MarshallingInfo::NextTableIndex = 0;

	static MarshallingInfo createMarshallingInfo(const Record &R) {
	assert(!isa<UnsetInit>(R.getValueInit("KeyPath")) &&
	!isa<UnsetInit>(R.getValueInit("DefaultValue")) &&
	!isa<UnsetInit>(R.getValueInit("ValueMerger")) &&
	"MarshallingInfo must have a provide a keypath, default value and a "
	"value merger");

	MarshallingInfo Ret(R);

	Ret.ShouldAlwaysEmit = R.getValueAsBit("ShouldAlwaysEmit");
	Ret.MacroPrefix = R.getValueAsString("MacroPrefix");
	Ret.KeyPath = R.getValueAsString("KeyPath");
	Ret.DefaultValue = R.getValueAsString("DefaultValue");
	Ret.NormalizedValuesScope = R.getValueAsString("NormalizedValuesScope");
	Ret.ImpliedCheck = R.getValueAsString("ImpliedCheck");
	Ret.ImpliedValue =
	R.getValueAsOptionalString("ImpliedValue").getValueOr(Ret.DefaultValue);

	Ret.ShouldParse = R.getValueAsString("ShouldParse");
	Ret.Normalizer = R.getValueAsString("Normalizer");
	Ret.Denormalizer = R.getValueAsString("Denormalizer");
	Ret.ValueMerger = R.getValueAsString("ValueMerger");
	Ret.ValueExtractor = R.getValueAsString("ValueExtractor");

	if (!isa<UnsetInit>(R.getValueInit("NormalizedValues"))) {
	assert(!isa<UnsetInit>(R.getValueInit("Values")) &&
	"Cannot provide normalized values for value-less options");
	Ret.TableIndex = MarshallingInfo::NextTableIndex++;
	Ret.NormalizedValues = R.getValueAsListOfStrings("NormalizedValues");
	Ret.Values.reserve(Ret.NormalizedValues.size());
	Ret.ValueTableName = getOptionName(R) + "ValueTable";

	StringRef ValuesStr = R.getValueAsString("Values");
	for (;;) {
	size_t Idx = ValuesStr.find(',');
	if (Idx == StringRef::npos)
	break;
	if (Idx > 0)
	Ret.Values.push_back(ValuesStr.slice(0, Idx));
	ValuesStr = ValuesStr.slice(Idx + 1, StringRef::npos);
	}
	if (!ValuesStr.empty())
	Ret.Values.push_back(ValuesStr);

	assert(Ret.Values.size() == Ret.NormalizedValues.size() &&
	"The number of normalized values doesn't match the number of "
	"values");
	}

	return Ret;
	}

	/// OptParserEmitter - This tablegen backend takes an input .td file
	/// describing a list of options and emits a data structure for parsing and
	/// working with those options when given an input command line.
	namespace llvm {
	void EmitOptParser(RecordKeeper &Records, raw_ostream &OS) {
	// Get the option groups and options.
	const std::vector<Record*> &Groups =
	Records.getAllDerivedDefinitions("OptionGroup");
	std::vector<Record*> Opts = Records.getAllDerivedDefinitions("Option");

	emitSourceFileHeader("Option Parsing Definitions", OS);

	array_pod_sort(Opts.begin(), Opts.end(), CompareOptionRecords);
	// Generate prefix groups.
	typedef SmallVector<SmallString<2>, 2> PrefixKeyT;
	typedef std::map<PrefixKeyT, std::string> PrefixesT;
	PrefixesT Prefixes;
	Prefixes.insert(std::make_pair(PrefixKeyT(), "prefix_0"));
	unsigned CurPrefix = 0;
	for (const Record &R : llvm::make_pointee_range(Opts)) {
	std::vector<StringRef> RPrefixes = R.getValueAsListOfStrings("Prefixes");
	PrefixKeyT PrefixKey(RPrefixes.begin(), RPrefixes.end());
	unsigned NewPrefix = CurPrefix + 1;
	std::string Prefix = (Twine("prefix_") + Twine(NewPrefix)).str();
	if (Prefixes.insert(std::make_pair(PrefixKey, Prefix)).second)
	CurPrefix = NewPrefix;
	}

	// Dump prefixes.

	OS << "/////////\n";
	OS << "// Prefixes\n\n";
	OS << "#ifdef PREFIX\n";
	OS << "#define COMMA ,\n";
	for (const auto &Prefix : Prefixes) {
	OS << "PREFIX(";

	// Prefix name.
	OS << Prefix.second;

	// Prefix values.
	OS << ", {";
	for (const auto &PrefixKey : Prefix.first)
	OS << "\"" << PrefixKey << "\" COMMA ";
	OS << "nullptr})\n";
	}
	OS << "#undef COMMA\n";
	OS << "#endif // PREFIX\n\n";

	OS << "/////////\n";
	OS << "// Groups\n\n";
	OS << "#ifdef OPTION\n";
	for (const Record &R : llvm::make_pointee_range(Groups)) {
	// Start a single option entry.
	OS << "OPTION(";

	// The option prefix;
	OS << "nullptr";

	// The option string.
	OS << ", \"" << R.getValueAsString("Name") << '"';

	// The option identifier name.
	OS << ", " << getOptionName(R);

	// The option kind.
	OS << ", Group";

	// The containing option group (if any).
	OS << ", ";
	if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Group")))
	OS << getOptionName(*DI->getDef());
	else
	OS << "INVALID";

	// The other option arguments (unused for groups).
	OS << ", INVALID, nullptr, 0, 0";

	// The option help text.
	if (!isa<UnsetInit>(R.getValueInit("HelpText"))) {
	OS << ",\n";
	OS << " ";
	write_cstring(OS, R.getValueAsString("HelpText"));
	} else
	OS << ", nullptr";

	// The option meta-variable name (unused).
	OS << ", nullptr";

	// The option Values (unused for groups).
	OS << ", nullptr)\n";
	}
	OS << "\n";

	OS << "//////////\n";
	OS << "// Options\n\n";

	auto WriteOptRecordFields = [&](raw_ostream &OS, const Record &R) {
	// The option prefix;
	std::vector<StringRef> RPrefixes = R.getValueAsListOfStrings("Prefixes");
	OS << Prefixes[PrefixKeyT(RPrefixes.begin(), RPrefixes.end())] << ", ";

	// The option string.
	emitNameUsingSpelling(OS, R);

	// The option identifier name.
	OS << ", " << getOptionName(R);

	// The option kind.
	OS << ", " << R.getValueAsDef("Kind")->getValueAsString("Name");

	// The containing option group (if any).
	OS << ", ";
	const ListInit *GroupFlags = nullptr;
	if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Group"))) {
	GroupFlags = DI->getDef()->getValueAsListInit("Flags");
	OS << getOptionName(*DI->getDef());
	} else
	OS << "INVALID";

	// The option alias (if any).
	OS << ", ";
	if (const DefInit *DI = dyn_cast<DefInit>(R.getValueInit("Alias")))
	OS << getOptionName(*DI->getDef());
	else
	OS << "INVALID";

	// The option alias arguments (if any).
	// Emitted as a \0 separated list in a string, e.g. ["foo", "bar"]
	// would become "foo\0bar\0". Note that the compiler adds an implicit
	// terminating \0 at the end.
	OS << ", ";
	std::vector<StringRef> AliasArgs = R.getValueAsListOfStrings("AliasArgs");
	if (AliasArgs.size() == 0) {
	OS << "nullptr";
	} else {
	OS << "\"";
	for (StringRef AliasArg : AliasArgs)
	OS << AliasArg << "\\0";
	OS << "\"";
	}

	// The option flags.
	OS << ", ";
	int NumFlags = 0;
	const ListInit *LI = R.getValueAsListInit("Flags");
	for (Init I : LI)
	OS << (NumFlags++ ? " \| " : "") << cast<DefInit>(I)->getDef()->getName();
	if (GroupFlags) {
	for (Init I : GroupFlags)
	OS << (NumFlags++ ? " \| " : "")
	<< cast<DefInit>(I)->getDef()->getName();
	}
	if (NumFlags == 0)
	OS << '0';

	// The option parameter field.
	OS << ", " << R.getValueAsInt("NumArgs");

	// The option help text.
	if (!isa<UnsetInit>(R.getValueInit("HelpText"))) {
	OS << ",\n";
	OS << " ";
	write_cstring(OS, R.getValueAsString("HelpText"));
	} else
	OS << ", nullptr";

	// The option meta-variable name.
	OS << ", ";
	if (!isa<UnsetInit>(R.getValueInit("MetaVarName")))
	write_cstring(OS, R.getValueAsString("MetaVarName"));
	else
	OS << "nullptr";

	// The option Values. Used for shell autocompletion.
	OS << ", ";
	if (!isa<UnsetInit>(R.getValueInit("Values")))
	write_cstring(OS, R.getValueAsString("Values"));
	else
	OS << "nullptr";
	};

	auto IsMarshallingOption = [](const Record &R) {
	return !isa<UnsetInit>(R.getValueInit("KeyPath")) &&
	!R.getValueAsString("KeyPath").empty();
	};

	std::vector<const Record *> OptsWithMarshalling;
	for (const Record &R : llvm::make_pointee_range(Opts)) {
	// Start a single option entry.
	OS << "OPTION(";
	WriteOptRecordFields(OS, R);
	OS << ")\n";
	if (IsMarshallingOption(R))
	OptsWithMarshalling.push_back(&R);
	}
	OS << "#endif // OPTION\n";

	auto CmpMarshallingOpts = [](const Record const A, const Record const B) {
	unsigned AID = (*A)->getID();
	unsigned BID = (*B)->getID();

	if (AID < BID)
	return -1;
	if (AID > BID)
	return 1;
	return 0;
	};
	// The RecordKeeper stores records (options) in lexicographical order, and we
	// have reordered the options again when generating prefix groups. We need to
	// restore the original definition order of options with marshalling to honor
	// the topology of the dependency graph implied by `DefaultAnyOf`.
	array_pod_sort(OptsWithMarshalling.begin(), OptsWithMarshalling.end(),
	CmpMarshallingOpts);

	std::vector<MarshallingInfo> MarshallingInfos;
	for (const auto *R : OptsWithMarshalling)
	MarshallingInfos.push_back(createMarshallingInfo(*R));

	for (const auto &MI : MarshallingInfos) {
	OS << "#ifdef " << MI.getMacroName() << "\n";
	OS << MI.getMacroName() << "(";
	WriteOptRecordFields(OS, MI.R);
	OS << ", ";
	MI.emit(OS);
	OS << ")\n";
	OS << "#endif // " << MI.getMacroName() << "\n";
	}

	OS << "\n";
	OS << "#ifdef SIMPLE_ENUM_VALUE_TABLE";
	OS << "\n";
	OS << MarshallingInfo::ValueTablePreamble;
	std::vector<StringRef> ValueTableNames;
	for (const auto &MI : MarshallingInfos)
	if (auto MaybeValueTableName = MI.emitValueTable(OS))
	ValueTableNames.push_back(*MaybeValueTableName);

	OS << MarshallingInfo::ValueTablesDecl << "{";
	for (auto ValueTableName : ValueTableNames)
	OS << "{" << ValueTableName << ", sizeof(" << ValueTableName
	<< ") / sizeof(SimpleEnumValue)"
	<< "},\n";
	OS << "};\n";
	OS << "static const unsigned SimpleEnumValueTablesSize = "
	"sizeof(SimpleEnumValueTables) / sizeof(SimpleEnumValueTable);\n";

	OS << "#endif // SIMPLE_ENUM_VALUE_TABLE\n";
	OS << "\n";

	OS << "\n";
	OS << "#ifdef OPTTABLE_ARG_INIT\n";
	OS << "//////////\n";
	OS << "// Option Values\n\n";
	for (const Record &R : llvm::make_pointee_range(Opts)) {
	if (isa<UnsetInit>(R.getValueInit("ValuesCode")))
	continue;
	OS << "{\n";
	OS << "bool ValuesWereAdded;\n";
	OS << R.getValueAsString("ValuesCode");
	OS << "\n";
	for (StringRef Prefix : R.getValueAsListOfStrings("Prefixes")) {
	OS << "ValuesWereAdded = Opt.addValues(";
	std::string S(Prefix);
	S += R.getValueAsString("Name");
	write_cstring(OS, S);
	OS << ", Values);\n";
	OS << "(void)ValuesWereAdded;\n";
	OS << "assert(ValuesWereAdded && \"Couldn't add values to "
	"OptTable!\");\n";
	}
	OS << "}\n";
	}
	OS << "\n";
	OS << "#endif // OPTTABLE_ARG_INIT\n";
	}
	} // end namespace llvm