clang/utils/TableGen/ClangOptionDocEmitter.cpp - third_party/github.com/llvm/llvm-project - Git at Google

 //===- ClangOptionDocEmitter.cpp - Documentation for command line flags ---===//
 //
 // 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
 //
 // FIXME: Once this has stabilized, consider moving it to LLVM.
 //
 //===----------------------------------------------------------------------===//

 #include "TableGenBackends.h"
 #include "llvm/TableGen/Error.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"
 #include <cctype>
 #include <cstring>
 #include <map>

 using namespace llvm;

 namespace {
 struct DocumentedOption {
   Record *Option;
   std::vector<Record*> Aliases;
 };
 struct DocumentedGroup;
 struct Documentation {
   std::vector<DocumentedGroup> Groups;
   std::vector<DocumentedOption> Options;
 };
 struct DocumentedGroup : Documentation {
   Record *Group;
 };

 // Reorganize the records into a suitable form for emitting documentation.
 Documentation extractDocumentation(RecordKeeper &Records) {
   Documentation Result;

   // Build the tree of groups. The root in the tree is the fake option group
   // (Record*)nullptr, which contains all top-level groups and options.
   std::map<Record*, std::vector<Record*> > OptionsInGroup;
   std::map<Record*, std::vector<Record*> > GroupsInGroup;
   std::map<Record*, std::vector<Record*> > Aliases;

   std::map<std::string, Record*> OptionsByName;
   for (Record *R : Records.getAllDerivedDefinitions("Option"))
     OptionsByName[std::string(R->getValueAsString("Name"))] = R;

   auto Flatten = [](Record *R) {
     return R->getValue("DocFlatten") && R->getValueAsBit("DocFlatten");
   };

   auto SkipFlattened = [&](Record *R) -> Record* {
     while (R && Flatten(R)) {
       auto *G = dyn_cast<DefInit>(R->getValueInit("Group"));
       if (!G)
         return nullptr;
       R = G->getDef();
     }
     return R;
   };

   for (Record *R : Records.getAllDerivedDefinitions("OptionGroup")) {
     if (Flatten(R))
       continue;

     Record *Group = nullptr;
     if (auto *G = dyn_cast<DefInit>(R->getValueInit("Group")))
       Group = SkipFlattened(G->getDef());
     GroupsInGroup[Group].push_back(R);
   }

   for (Record *R : Records.getAllDerivedDefinitions("Option")) {
     if (auto *A = dyn_cast<DefInit>(R->getValueInit("Alias"))) {
       Aliases[A->getDef()].push_back(R);
       continue;
     }

     // Pretend no-X and Xno-Y options are aliases of X and XY.
     std::string Name = std::string(R->getValueAsString("Name"));
     if (Name.size() >= 4) {
       if (Name.substr(0, 3) == "no-" && OptionsByName[Name.substr(3)]) {
         Aliases[OptionsByName[Name.substr(3)]].push_back(R);
         continue;
       }
       if (Name.substr(1, 3) == "no-" && OptionsByName[Name[0] + Name.substr(4)]) {
         Aliases[OptionsByName[Name[0] + Name.substr(4)]].push_back(R);
         continue;
       }
     }

     Record *Group = nullptr;
     if (auto *G = dyn_cast<DefInit>(R->getValueInit("Group")))
       Group = SkipFlattened(G->getDef());
     OptionsInGroup[Group].push_back(R);
   }

   auto CompareByName = [](Record *A, Record *B) {
     return A->getValueAsString("Name") < B->getValueAsString("Name");
   };

   auto CompareByLocation = [](Record *A, Record *B) {
     return A->getLoc()[0].getPointer() < B->getLoc()[0].getPointer();
   };

   auto DocumentationForOption = [&](Record *R) -> DocumentedOption {
     auto &A = Aliases[R];
     llvm::sort(A, CompareByName);
     return {R, std::move(A)};
   };

   std::function<Documentation(Record *)> DocumentationForGroup =
       [&](Record *R) -> Documentation {
     Documentation D;

     auto &Groups = GroupsInGroup[R];
     llvm::sort(Groups, CompareByLocation);
     for (Record *G : Groups) {
       D.Groups.emplace_back();
       D.Groups.back().Group = G;
       Documentation &Base = D.Groups.back();
       Base = DocumentationForGroup(G);
     }

     auto &Options = OptionsInGroup[R];
     llvm::sort(Options, CompareByName);
     for (Record *O : Options)
       D.Options.push_back(DocumentationForOption(O));

     return D;
   };

   return DocumentationForGroup(nullptr);
 }

 // Get the first and successive separators to use for an OptionKind.
 std::pair<StringRef,StringRef> getSeparatorsForKind(const Record *OptionKind) {
   return StringSwitch<std::pair<StringRef, StringRef>>(OptionKind->getName())
     .Cases("KIND_JOINED", "KIND_JOINED_OR_SEPARATE",
            "KIND_JOINED_AND_SEPARATE",
            "KIND_REMAINING_ARGS_JOINED", {"", " "})
     .Case("KIND_COMMAJOINED", {"", ","})
     .Default({" ", " "});
 }

 const unsigned UnlimitedArgs = unsigned(-1);

 // Get the number of arguments expected for an option, or -1 if any number of
 // arguments are accepted.
 unsigned getNumArgsForKind(Record *OptionKind, const Record *Option) {
   return StringSwitch<unsigned>(OptionKind->getName())
     .Cases("KIND_JOINED", "KIND_JOINED_OR_SEPARATE", "KIND_SEPARATE", 1)
     .Cases("KIND_REMAINING_ARGS", "KIND_REMAINING_ARGS_JOINED",
            "KIND_COMMAJOINED", UnlimitedArgs)
     .Case("KIND_JOINED_AND_SEPARATE", 2)
     .Case("KIND_MULTIARG", Option->getValueAsInt("NumArgs"))
     .Default(0);
 }

 bool hasFlag(const Record *OptionOrGroup, StringRef OptionFlag) {
   for (const Record *Flag : OptionOrGroup->getValueAsListOfDefs("Flags"))
     if (Flag->getName() == OptionFlag)
       return true;
   return false;
 }

 bool isExcluded(const Record *OptionOrGroup, const Record *DocInfo) {
   // FIXME: Provide a flag to specify the set of exclusions.
   for (StringRef Exclusion : DocInfo->getValueAsListOfStrings("ExcludedFlags"))
     if (hasFlag(OptionOrGroup, Exclusion))
       return true;
   return false;
 }

 std::string escapeRST(StringRef Str) {
   std::string Out;
   for (auto K : Str) {
     if (StringRef("`*|_[]\\").count(K))
       Out.push_back('\\');
     Out.push_back(K);
   }
   return Out;
 }

 StringRef getSphinxOptionID(StringRef OptionName) {
   for (auto I = OptionName.begin(), E = OptionName.end(); I != E; ++I)
     if (!isalnum(*I) && *I != '-')
       return OptionName.substr(0, I - OptionName.begin());
   return OptionName;
 }

 bool canSphinxCopeWithOption(const Record *Option) {
   // HACK: Work arond sphinx's inability to cope with punctuation-only options
   // such as /? by suppressing them from the option list.
   for (char C : Option->getValueAsString("Name"))
     if (isalnum(C))
       return true;
   return false;
 }

 void emitHeading(int Depth, std::string Heading, raw_ostream &OS) {
   assert(Depth < 8 && "groups nested too deeply");
   OS << Heading << '\n'
      << std::string(Heading.size(), "=~-_'+<>"[Depth]) << "\n";
 }

 /// Get the value of field \p Primary, if possible. If \p Primary does not
 /// exist, get the value of \p Fallback and escape it for rST emission.
 std::string getRSTStringWithTextFallback(const Record *R, StringRef Primary,
                                          StringRef Fallback) {
   for (auto Field : {Primary, Fallback}) {
     if (auto *V = R->getValue(Field)) {
       StringRef Value;
       if (auto *SV = dyn_cast_or_null<StringInit>(V->getValue()))
         Value = SV->getValue();
       else if (auto *CV = dyn_cast_or_null<CodeInit>(V->getValue()))
         Value = CV->getValue();
       if (!Value.empty())
         return Field == Primary ? Value.str() : escapeRST(Value);
     }
   }
   return std::string(StringRef());
 }

 void emitOptionWithArgs(StringRef Prefix, const Record *Option,
                         ArrayRef<StringRef> Args, raw_ostream &OS) {
   OS << Prefix << escapeRST(Option->getValueAsString("Name"));

   std::pair<StringRef, StringRef> Separators =
       getSeparatorsForKind(Option->getValueAsDef("Kind"));

   StringRef Separator = Separators.first;
   for (auto Arg : Args) {
     OS << Separator << escapeRST(Arg);
     Separator = Separators.second;
   }
 }

 void emitOptionName(StringRef Prefix, const Record *Option, raw_ostream &OS) {
   // Find the arguments to list after the option.
   unsigned NumArgs = getNumArgsForKind(Option->getValueAsDef("Kind"), Option);
   bool HasMetaVarName = !Option->isValueUnset("MetaVarName");

   std::vector<std::string> Args;
   if (HasMetaVarName)
     Args.push_back(std::string(Option->getValueAsString("MetaVarName")));
   else if (NumArgs == 1)
     Args.push_back("<arg>");

   // Fill up arguments if this option didn't provide a meta var name or it
   // supports an unlimited number of arguments. We can't see how many arguments
   // already are in a meta var name, so assume it has right number. This is
   // needed for JoinedAndSeparate options so that there arent't too many
   // arguments.
   if (!HasMetaVarName || NumArgs == UnlimitedArgs) {
     while (Args.size() < NumArgs) {
       Args.push_back(("<arg" + Twine(Args.size() + 1) + ">").str());
       // Use '--args <arg1> <arg2>...' if any number of args are allowed.
       if (Args.size() == 2 && NumArgs == UnlimitedArgs) {
         Args.back() += "...";
         break;
       }
     }
   }

   emitOptionWithArgs(Prefix, Option, std::vector<StringRef>(Args.begin(), Args.end()), OS);

   auto AliasArgs = Option->getValueAsListOfStrings("AliasArgs");
   if (!AliasArgs.empty()) {
     Record *Alias = Option->getValueAsDef("Alias");
     OS << " (equivalent to ";
     emitOptionWithArgs(
         Alias->getValueAsListOfStrings("Prefixes").front(), Alias,
         AliasArgs, OS);
     OS << ")";
   }
 }

 bool emitOptionNames(const Record *Option, raw_ostream &OS, bool EmittedAny) {
   for (auto &Prefix : Option->getValueAsListOfStrings("Prefixes")) {
     if (EmittedAny)
       OS << ", ";
     emitOptionName(Prefix, Option, OS);
     EmittedAny = true;
   }
   return EmittedAny;
 }

 template <typename Fn>
 void forEachOptionName(const DocumentedOption &Option, const Record *DocInfo,
                        Fn F) {
   F(Option.Option);

   for (auto *Alias : Option.Aliases)
     if (!isExcluded(Alias, DocInfo) && canSphinxCopeWithOption(Option.Option))
       F(Alias);
 }

 void emitOption(const DocumentedOption &Option, const Record *DocInfo,
                 raw_ostream &OS) {
   if (isExcluded(Option.Option, DocInfo))
     return;
   if (Option.Option->getValueAsDef("Kind")->getName() == "KIND_UNKNOWN" ||
       Option.Option->getValueAsDef("Kind")->getName() == "KIND_INPUT")
     return;
   if (!canSphinxCopeWithOption(Option.Option))
     return;

   // HACK: Emit a different program name with each option to work around
   // sphinx's inability to cope with options that differ only by punctuation
   // (eg -ObjC vs -ObjC++, -G vs -G=).
   std::vector<std::string> SphinxOptionIDs;
   forEachOptionName(Option, DocInfo, [&](const Record *Option) {
     for (auto &Prefix : Option->getValueAsListOfStrings("Prefixes"))
       SphinxOptionIDs.push_back(std::string(getSphinxOptionID(
           (Prefix + Option->getValueAsString("Name")).str())));
   });
   assert(!SphinxOptionIDs.empty() && "no flags for option");
   static std::map<std::string, int> NextSuffix;
   int SphinxWorkaroundSuffix = NextSuffix[*std::max_element(
       SphinxOptionIDs.begin(), SphinxOptionIDs.end(),
       [&](const std::string &A, const std::string &B) {
         return NextSuffix[A] < NextSuffix[B];
       })];
   for (auto &S : SphinxOptionIDs)
     NextSuffix[S] = SphinxWorkaroundSuffix + 1;
   if (SphinxWorkaroundSuffix)
     OS << ".. program:: " << DocInfo->getValueAsString("Program")
        << SphinxWorkaroundSuffix << "\n";

   // Emit the names of the option.
   OS << ".. option:: ";
   bool EmittedAny = false;
   forEachOptionName(Option, DocInfo, [&](const Record *Option) {
     EmittedAny = emitOptionNames(Option, OS, EmittedAny);
   });
   if (SphinxWorkaroundSuffix)
     OS << "\n.. program:: " << DocInfo->getValueAsString("Program");
   OS << "\n\n";

   // Emit the description, if we have one.
   std::string Description =
       getRSTStringWithTextFallback(Option.Option, "DocBrief", "HelpText");
   if (!Description.empty())
     OS << Description << "\n\n";
 }

 void emitDocumentation(int Depth, const Documentation &Doc,
                        const Record *DocInfo, raw_ostream &OS);

 void emitGroup(int Depth, const DocumentedGroup &Group, const Record *DocInfo,
                raw_ostream &OS) {
   if (isExcluded(Group.Group, DocInfo))
     return;

   emitHeading(Depth,
               getRSTStringWithTextFallback(Group.Group, "DocName", "Name"), OS);

   // Emit the description, if we have one.
   std::string Description =
       getRSTStringWithTextFallback(Group.Group, "DocBrief", "HelpText");
   if (!Description.empty())
     OS << Description << "\n\n";

   // Emit contained options and groups.
   emitDocumentation(Depth + 1, Group, DocInfo, OS);
 }

 void emitDocumentation(int Depth, const Documentation &Doc,
                        const Record *DocInfo, raw_ostream &OS) {
   for (auto &O : Doc.Options)
     emitOption(O, DocInfo, OS);
   for (auto &G : Doc.Groups)
     emitGroup(Depth, G, DocInfo, OS);
 }

 }  // namespace

 void clang::EmitClangOptDocs(RecordKeeper &Records, raw_ostream &OS) {
   const Record *DocInfo = Records.getDef("GlobalDocumentation");
   if (!DocInfo) {
     PrintFatalError("The GlobalDocumentation top-level definition is missing, "
                     "no documentation will be generated.");
     return;
   }
   OS << DocInfo->getValueAsString("Intro") << "\n";
   OS << ".. program:: " << DocInfo->getValueAsString("Program") << "\n";

   emitDocumentation(0, extractDocumentation(Records), DocInfo, OS);
 }
	//===- ClangOptionDocEmitter.cpp - Documentation for command line flags ---===//
	//
	// 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
	//
	// FIXME: Once this has stabilized, consider moving it to LLVM.
	//
	//===----------------------------------------------------------------------===//

	#include "TableGenBackends.h"
	#include "llvm/TableGen/Error.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"
	#include <cctype>
	#include <cstring>
	#include <map>

	using namespace llvm;

	namespace {
	struct DocumentedOption {
	Record *Option;
	std::vector<Record*> Aliases;
	};
	struct DocumentedGroup;
	struct Documentation {
	std::vector<DocumentedGroup> Groups;
	std::vector<DocumentedOption> Options;
	};
	struct DocumentedGroup : Documentation {
	Record *Group;
	};

	// Reorganize the records into a suitable form for emitting documentation.
	Documentation extractDocumentation(RecordKeeper &Records) {
	Documentation Result;

	// Build the tree of groups. The root in the tree is the fake option group
	// (Record*)nullptr, which contains all top-level groups and options.
	std::map<Record, std::vector<Record> > OptionsInGroup;
	std::map<Record, std::vector<Record> > GroupsInGroup;
	std::map<Record, std::vector<Record> > Aliases;

	std::map<std::string, Record*> OptionsByName;
	for (Record *R : Records.getAllDerivedDefinitions("Option"))
	OptionsByName[std::string(R->getValueAsString("Name"))] = R;

	auto Flatten = [](Record *R) {
	return R->getValue("DocFlatten") && R->getValueAsBit("DocFlatten");
	};

	auto SkipFlattened = [&](Record R) -> Record {
	while (R && Flatten(R)) {
	auto *G = dyn_cast<DefInit>(R->getValueInit("Group"));
	if (!G)
	return nullptr;
	R = G->getDef();
	}
	return R;
	};

	for (Record *R : Records.getAllDerivedDefinitions("OptionGroup")) {
	if (Flatten(R))
	continue;

	Record *Group = nullptr;
	if (auto *G = dyn_cast<DefInit>(R->getValueInit("Group")))
	Group = SkipFlattened(G->getDef());
	GroupsInGroup[Group].push_back(R);
	}

	for (Record *R : Records.getAllDerivedDefinitions("Option")) {
	if (auto *A = dyn_cast<DefInit>(R->getValueInit("Alias"))) {
	Aliases[A->getDef()].push_back(R);
	continue;
	}

	// Pretend no-X and Xno-Y options are aliases of X and XY.
	std::string Name = std::string(R->getValueAsString("Name"));
	if (Name.size() >= 4) {
	if (Name.substr(0, 3) == "no-" && OptionsByName[Name.substr(3)]) {
	Aliases[OptionsByName[Name.substr(3)]].push_back(R);
	continue;
	}
	if (Name.substr(1, 3) == "no-" && OptionsByName[Name[0] + Name.substr(4)]) {
	Aliases[OptionsByName[Name[0] + Name.substr(4)]].push_back(R);
	continue;
	}
	}

	Record *Group = nullptr;
	if (auto *G = dyn_cast<DefInit>(R->getValueInit("Group")))
	Group = SkipFlattened(G->getDef());
	OptionsInGroup[Group].push_back(R);
	}

	auto CompareByName = [](Record A, Record B) {
	return A->getValueAsString("Name") < B->getValueAsString("Name");
	};

	auto CompareByLocation = [](Record A, Record B) {
	return A->getLoc()[0].getPointer() < B->getLoc()[0].getPointer();
	};

	auto DocumentationForOption = [&](Record *R) -> DocumentedOption {
	auto &A = Aliases[R];
	llvm::sort(A, CompareByName);
	return {R, std::move(A)};
	};

	std::function<Documentation(Record *)> DocumentationForGroup =
	[&](Record *R) -> Documentation {
	Documentation D;

	auto &Groups = GroupsInGroup[R];
	llvm::sort(Groups, CompareByLocation);
	for (Record *G : Groups) {
	D.Groups.emplace_back();
	D.Groups.back().Group = G;
	Documentation &Base = D.Groups.back();
	Base = DocumentationForGroup(G);
	}

	auto &Options = OptionsInGroup[R];
	llvm::sort(Options, CompareByName);
	for (Record *O : Options)
	D.Options.push_back(DocumentationForOption(O));

	return D;
	};

	return DocumentationForGroup(nullptr);
	}

	// Get the first and successive separators to use for an OptionKind.
	std::pair<StringRef,StringRef> getSeparatorsForKind(const Record *OptionKind) {
	return StringSwitch<std::pair<StringRef, StringRef>>(OptionKind->getName())
	.Cases("KIND_JOINED", "KIND_JOINED_OR_SEPARATE",
	"KIND_JOINED_AND_SEPARATE",
	"KIND_REMAINING_ARGS_JOINED", {"", " "})
	.Case("KIND_COMMAJOINED", {"", ","})
	.Default({" ", " "});
	}

	const unsigned UnlimitedArgs = unsigned(-1);

	// Get the number of arguments expected for an option, or -1 if any number of
	// arguments are accepted.
	unsigned getNumArgsForKind(Record OptionKind, const Record Option) {
	return StringSwitch<unsigned>(OptionKind->getName())
	.Cases("KIND_JOINED", "KIND_JOINED_OR_SEPARATE", "KIND_SEPARATE", 1)
	.Cases("KIND_REMAINING_ARGS", "KIND_REMAINING_ARGS_JOINED",
	"KIND_COMMAJOINED", UnlimitedArgs)
	.Case("KIND_JOINED_AND_SEPARATE", 2)
	.Case("KIND_MULTIARG", Option->getValueAsInt("NumArgs"))
	.Default(0);
	}

	bool hasFlag(const Record *OptionOrGroup, StringRef OptionFlag) {
	for (const Record *Flag : OptionOrGroup->getValueAsListOfDefs("Flags"))
	if (Flag->getName() == OptionFlag)
	return true;
	return false;
	}

	bool isExcluded(const Record OptionOrGroup, const Record DocInfo) {
	// FIXME: Provide a flag to specify the set of exclusions.
	for (StringRef Exclusion : DocInfo->getValueAsListOfStrings("ExcludedFlags"))
	if (hasFlag(OptionOrGroup, Exclusion))
	return true;
	return false;
	}

	std::string escapeRST(StringRef Str) {
	std::string Out;
	for (auto K : Str) {
	if (StringRef("`*\|_[]\\").count(K))
	Out.push_back('\\');
	Out.push_back(K);
	}
	return Out;
	}

	StringRef getSphinxOptionID(StringRef OptionName) {
	for (auto I = OptionName.begin(), E = OptionName.end(); I != E; ++I)
	if (!isalnum(I) && I != '-')
	return OptionName.substr(0, I - OptionName.begin());
	return OptionName;
	}

	bool canSphinxCopeWithOption(const Record *Option) {
	// HACK: Work arond sphinx's inability to cope with punctuation-only options
	// such as /? by suppressing them from the option list.
	for (char C : Option->getValueAsString("Name"))
	if (isalnum(C))
	return true;
	return false;
	}

	void emitHeading(int Depth, std::string Heading, raw_ostream &OS) {
	assert(Depth < 8 && "groups nested too deeply");
	OS << Heading << '\n'
	<< std::string(Heading.size(), "=~-_'+<>"[Depth]) << "\n";
	}

	/// Get the value of field \p Primary, if possible. If \p Primary does not
	/// exist, get the value of \p Fallback and escape it for rST emission.
	std::string getRSTStringWithTextFallback(const Record *R, StringRef Primary,
	StringRef Fallback) {
	for (auto Field : {Primary, Fallback}) {
	if (auto *V = R->getValue(Field)) {
	StringRef Value;
	if (auto *SV = dyn_cast_or_null<StringInit>(V->getValue()))
	Value = SV->getValue();
	else if (auto *CV = dyn_cast_or_null<CodeInit>(V->getValue()))
	Value = CV->getValue();
	if (!Value.empty())
	return Field == Primary ? Value.str() : escapeRST(Value);
	}
	}
	return std::string(StringRef());
	}

	void emitOptionWithArgs(StringRef Prefix, const Record *Option,
	ArrayRef<StringRef> Args, raw_ostream &OS) {
	OS << Prefix << escapeRST(Option->getValueAsString("Name"));

	std::pair<StringRef, StringRef> Separators =
	getSeparatorsForKind(Option->getValueAsDef("Kind"));

	StringRef Separator = Separators.first;
	for (auto Arg : Args) {
	OS << Separator << escapeRST(Arg);
	Separator = Separators.second;
	}
	}

	void emitOptionName(StringRef Prefix, const Record *Option, raw_ostream &OS) {
	// Find the arguments to list after the option.
	unsigned NumArgs = getNumArgsForKind(Option->getValueAsDef("Kind"), Option);
	bool HasMetaVarName = !Option->isValueUnset("MetaVarName");

	std::vector<std::string> Args;
	if (HasMetaVarName)
	Args.push_back(std::string(Option->getValueAsString("MetaVarName")));
	else if (NumArgs == 1)
	Args.push_back("<arg>");

	// Fill up arguments if this option didn't provide a meta var name or it
	// supports an unlimited number of arguments. We can't see how many arguments
	// already are in a meta var name, so assume it has right number. This is
	// needed for JoinedAndSeparate options so that there arent't too many
	// arguments.
	if (!HasMetaVarName \|\| NumArgs == UnlimitedArgs) {
	while (Args.size() < NumArgs) {
	Args.push_back(("<arg" + Twine(Args.size() + 1) + ">").str());
	// Use '--args <arg1> <arg2>...' if any number of args are allowed.
	if (Args.size() == 2 && NumArgs == UnlimitedArgs) {
	Args.back() += "...";
	break;
	}
	}
	}

	emitOptionWithArgs(Prefix, Option, std::vector<StringRef>(Args.begin(), Args.end()), OS);

	auto AliasArgs = Option->getValueAsListOfStrings("AliasArgs");
	if (!AliasArgs.empty()) {
	Record *Alias = Option->getValueAsDef("Alias");
	OS << " (equivalent to ";
	emitOptionWithArgs(
	Alias->getValueAsListOfStrings("Prefixes").front(), Alias,
	AliasArgs, OS);
	OS << ")";
	}
	}

	bool emitOptionNames(const Record *Option, raw_ostream &OS, bool EmittedAny) {
	for (auto &Prefix : Option->getValueAsListOfStrings("Prefixes")) {
	if (EmittedAny)
	OS << ", ";
	emitOptionName(Prefix, Option, OS);
	EmittedAny = true;
	}
	return EmittedAny;
	}

	template <typename Fn>
	void forEachOptionName(const DocumentedOption &Option, const Record *DocInfo,
	Fn F) {
	F(Option.Option);

	for (auto *Alias : Option.Aliases)
	if (!isExcluded(Alias, DocInfo) && canSphinxCopeWithOption(Option.Option))
	F(Alias);
	}

	void emitOption(const DocumentedOption &Option, const Record *DocInfo,
	raw_ostream &OS) {
	if (isExcluded(Option.Option, DocInfo))
	return;
	if (Option.Option->getValueAsDef("Kind")->getName() == "KIND_UNKNOWN" \|\|
	Option.Option->getValueAsDef("Kind")->getName() == "KIND_INPUT")
	return;
	if (!canSphinxCopeWithOption(Option.Option))
	return;

	// HACK: Emit a different program name with each option to work around
	// sphinx's inability to cope with options that differ only by punctuation
	// (eg -ObjC vs -ObjC++, -G vs -G=).
	std::vector<std::string> SphinxOptionIDs;
	forEachOptionName(Option, DocInfo, [&](const Record *Option) {
	for (auto &Prefix : Option->getValueAsListOfStrings("Prefixes"))
	SphinxOptionIDs.push_back(std::string(getSphinxOptionID(
	(Prefix + Option->getValueAsString("Name")).str())));
	});
	assert(!SphinxOptionIDs.empty() && "no flags for option");
	static std::map<std::string, int> NextSuffix;
	int SphinxWorkaroundSuffix = NextSuffix[*std::max_element(
	SphinxOptionIDs.begin(), SphinxOptionIDs.end(),
	[&](const std::string &A, const std::string &B) {
	return NextSuffix[A] < NextSuffix[B];
	})];
	for (auto &S : SphinxOptionIDs)
	NextSuffix[S] = SphinxWorkaroundSuffix + 1;
	if (SphinxWorkaroundSuffix)
	OS << ".. program:: " << DocInfo->getValueAsString("Program")
	<< SphinxWorkaroundSuffix << "\n";

	// Emit the names of the option.
	OS << ".. option:: ";
	bool EmittedAny = false;
	forEachOptionName(Option, DocInfo, [&](const Record *Option) {
	EmittedAny = emitOptionNames(Option, OS, EmittedAny);
	});
	if (SphinxWorkaroundSuffix)
	OS << "\n.. program:: " << DocInfo->getValueAsString("Program");
	OS << "\n\n";

	// Emit the description, if we have one.
	std::string Description =
	getRSTStringWithTextFallback(Option.Option, "DocBrief", "HelpText");
	if (!Description.empty())
	OS << Description << "\n\n";
	}

	void emitDocumentation(int Depth, const Documentation &Doc,
	const Record *DocInfo, raw_ostream &OS);

	void emitGroup(int Depth, const DocumentedGroup &Group, const Record *DocInfo,
	raw_ostream &OS) {
	if (isExcluded(Group.Group, DocInfo))
	return;

	emitHeading(Depth,
	getRSTStringWithTextFallback(Group.Group, "DocName", "Name"), OS);

	// Emit the description, if we have one.
	std::string Description =
	getRSTStringWithTextFallback(Group.Group, "DocBrief", "HelpText");
	if (!Description.empty())
	OS << Description << "\n\n";

	// Emit contained options and groups.
	emitDocumentation(Depth + 1, Group, DocInfo, OS);
	}

	void emitDocumentation(int Depth, const Documentation &Doc,
	const Record *DocInfo, raw_ostream &OS) {
	for (auto &O : Doc.Options)
	emitOption(O, DocInfo, OS);
	for (auto &G : Doc.Groups)
	emitGroup(Depth, G, DocInfo, OS);
	}

	} // namespace

	void clang::EmitClangOptDocs(RecordKeeper &Records, raw_ostream &OS) {
	const Record *DocInfo = Records.getDef("GlobalDocumentation");
	if (!DocInfo) {
	PrintFatalError("The GlobalDocumentation top-level definition is missing, "
	"no documentation will be generated.");
	return;
	}
	OS << DocInfo->getValueAsString("Intro") << "\n";
	OS << ".. program:: " << DocInfo->getValueAsString("Program") << "\n";

	emitDocumentation(0, extractDocumentation(Records), DocInfo, OS);
	}