llvm/lib/Remarks/YAMLRemarkParser.cpp - llvm-project - Git at Google

 //===- YAMLRemarkParser.cpp -----------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file provides utility methods used by clients that want to use the
 // parser for remark diagnostics in LLVM.
 //
 //===----------------------------------------------------------------------===//

 #include "YAMLRemarkParser.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/Support/Endian.h"
 #include "llvm/Support/Path.h"

 using namespace llvm;
 using namespace llvm::remarks;

 char YAMLParseError::ID = 0;

 static void handleDiagnostic(const SMDiagnostic &Diag, void *Ctx) {
   assert(Ctx && "Expected non-null Ctx in diagnostic handler.");
   std::string &Message = *static_cast<std::string *>(Ctx);
   assert(Message.empty() && "Expected an empty string.");
   raw_string_ostream OS(Message);
   Diag.print(/*ProgName=*/nullptr, OS, /*ShowColors*/ false,
              /*ShowKindLabels*/ true);
   OS << '\n';
   OS.flush();
 }

 YAMLParseError::YAMLParseError(StringRef Msg, SourceMgr &SM,
                                yaml::Stream &Stream, yaml::Node &Node) {
   // 1) Set up a diagnostic handler to avoid errors being printed out to
   // stderr.
   // 2) Use the stream to print the error with the associated node.
   // 3) The stream will use the source manager to print the error, which will
   // call the diagnostic handler.
   // 4) The diagnostic handler will stream the error directly into this object's
   // Message member, which is used when logging is asked for.
   auto OldDiagHandler = SM.getDiagHandler();
   auto OldDiagCtx = SM.getDiagContext();
   SM.setDiagHandler(handleDiagnostic, &Message);
   Stream.printError(&Node, Twine(Msg) + Twine('\n'));
   // Restore the old handlers.
   SM.setDiagHandler(OldDiagHandler, OldDiagCtx);
 }

 static SourceMgr setupSM(std::string &LastErrorMessage) {
   SourceMgr SM;
   SM.setDiagHandler(handleDiagnostic, &LastErrorMessage);
   return SM;
 }

 // Parse the magic number. This function returns true if this represents remark
 // metadata, false otherwise.
 static Expected<bool> parseMagic(StringRef &Buf) {
   if (!Buf.consume_front(remarks::Magic))
     return false;

   if (Buf.size() < 1 || !Buf.consume_front(StringRef("\0", 1)))
     return createStringError(std::errc::illegal_byte_sequence,
                              "Expecting \\0 after magic number.");
   return true;
 }

 static Expected<uint64_t> parseVersion(StringRef &Buf) {
   if (Buf.size() < sizeof(uint64_t))
     return createStringError(std::errc::illegal_byte_sequence,
                              "Expecting version number.");

   uint64_t Version =
       support::endian::read<uint64_t, support::little, support::unaligned>(
           Buf.data());
   if (Version != remarks::CurrentRemarkVersion)
     return createStringError(std::errc::illegal_byte_sequence,
                              "Mismatching remark version. Got %" PRId64
                              ", expected %" PRId64 ".",
                              Version, remarks::CurrentRemarkVersion);
   Buf = Buf.drop_front(sizeof(uint64_t));
   return Version;
 }

 static Expected<uint64_t> parseStrTabSize(StringRef &Buf) {
   if (Buf.size() < sizeof(uint64_t))
     return createStringError(std::errc::illegal_byte_sequence,
                              "Expecting string table size.");
   uint64_t StrTabSize =
       support::endian::read<uint64_t, support::little, support::unaligned>(
           Buf.data());
   Buf = Buf.drop_front(sizeof(uint64_t));
   return StrTabSize;
 }

 static Expected<ParsedStringTable> parseStrTab(StringRef &Buf,
                                                uint64_t StrTabSize) {
   if (Buf.size() < StrTabSize)
     return createStringError(std::errc::illegal_byte_sequence,
                              "Expecting string table.");

   // Attach the string table to the parser.
   ParsedStringTable Result(StringRef(Buf.data(), StrTabSize));
   Buf = Buf.drop_front(StrTabSize);
   return Expected<ParsedStringTable>(std::move(Result));
 }

 Expected<std::unique_ptr<YAMLRemarkParser>>
 remarks::createYAMLParserFromMeta(StringRef Buf,
                                   Optional<ParsedStringTable> StrTab,
                                   Optional<StringRef> ExternalFilePrependPath) {
   // We now have a magic number. The metadata has to be correct.
   Expected<bool> isMeta = parseMagic(Buf);
   if (!isMeta)
     return isMeta.takeError();
   // If it's not recognized as metadata, roll back.
   std::unique_ptr<MemoryBuffer> SeparateBuf;
   if (*isMeta) {
     Expected<uint64_t> Version = parseVersion(Buf);
     if (!Version)
       return Version.takeError();

     Expected<uint64_t> StrTabSize = parseStrTabSize(Buf);
     if (!StrTabSize)
       return StrTabSize.takeError();

     // If the size of string table is not 0, try to build one.
     if (*StrTabSize != 0) {
       if (StrTab)
         return createStringError(std::errc::illegal_byte_sequence,
                                  "String table already provided.");
       Expected<ParsedStringTable> MaybeStrTab = parseStrTab(Buf, *StrTabSize);
       if (!MaybeStrTab)
         return MaybeStrTab.takeError();
       StrTab = std::move(*MaybeStrTab);
     }
     // If it starts with "---", there is no external file.
     if (!Buf.startswith("---")) {
       // At this point, we expect Buf to contain the external file path.
       StringRef ExternalFilePath = Buf;
       SmallString<80> FullPath;
       if (ExternalFilePrependPath)
         FullPath = *ExternalFilePrependPath;
       sys::path::append(FullPath, ExternalFilePath);

       // Try to open the file and start parsing from there.
       ErrorOr<std::unique_ptr<MemoryBuffer>> BufferOrErr =
           MemoryBuffer::getFile(FullPath);
       if (std::error_code EC = BufferOrErr.getError())
         return createFileError(FullPath, EC);

       // Keep the buffer alive.
       SeparateBuf = std::move(*BufferOrErr);
       Buf = SeparateBuf->getBuffer();
     }
   }

   std::unique_ptr<YAMLRemarkParser> Result =
       StrTab
           ? std::make_unique<YAMLStrTabRemarkParser>(Buf, std::move(*StrTab))
           : std::make_unique<YAMLRemarkParser>(Buf);
   if (SeparateBuf)
     Result->SeparateBuf = std::move(SeparateBuf);
   return std::move(Result);
 }

 YAMLRemarkParser::YAMLRemarkParser(StringRef Buf)
     : YAMLRemarkParser(Buf, None) {}

 YAMLRemarkParser::YAMLRemarkParser(StringRef Buf,
                                    Optional<ParsedStringTable> StrTab)
     : RemarkParser{Format::YAML}, StrTab(std::move(StrTab)), LastErrorMessage(),
       SM(setupSM(LastErrorMessage)), Stream(Buf, SM), YAMLIt(Stream.begin()) {}

 Error YAMLRemarkParser::error(StringRef Message, yaml::Node &Node) {
   return make_error<YAMLParseError>(Message, SM, Stream, Node);
 }

 Error YAMLRemarkParser::error() {
   if (LastErrorMessage.empty())
     return Error::success();
   Error E = make_error<YAMLParseError>(LastErrorMessage);
   LastErrorMessage.clear();
   return E;
 }

 Expected<std::unique_ptr<Remark>>
 YAMLRemarkParser::parseRemark(yaml::Document &RemarkEntry) {
   if (Error E = error())
     return std::move(E);

   yaml::Node *YAMLRoot = RemarkEntry.getRoot();
   if (!YAMLRoot) {
     return createStringError(std::make_error_code(std::errc::invalid_argument),
                              "not a valid YAML file.");
   }

   auto *Root = dyn_cast<yaml::MappingNode>(YAMLRoot);
   if (!Root)
     return error("document root is not of mapping type.", *YAMLRoot);

   std::unique_ptr<Remark> Result = std::make_unique<Remark>();
   Remark &TheRemark = *Result;

   // First, the type. It needs special handling since is not part of the
   // key-value stream.
   Expected<Type> T = parseType(*Root);
   if (!T)
     return T.takeError();
   else
     TheRemark.RemarkType = *T;

   // Then, parse the fields, one by one.
   for (yaml::KeyValueNode &RemarkField : *Root) {
     Expected<StringRef> MaybeKey = parseKey(RemarkField);
     if (!MaybeKey)
       return MaybeKey.takeError();
     StringRef KeyName = *MaybeKey;

     if (KeyName == "Pass") {
       if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
         TheRemark.PassName = *MaybeStr;
       else
         return MaybeStr.takeError();
     } else if (KeyName == "Name") {
       if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
         TheRemark.RemarkName = *MaybeStr;
       else
         return MaybeStr.takeError();
     } else if (KeyName == "Function") {
       if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
         TheRemark.FunctionName = *MaybeStr;
       else
         return MaybeStr.takeError();
     } else if (KeyName == "Hotness") {
       if (Expected<unsigned> MaybeU = parseUnsigned(RemarkField))
         TheRemark.Hotness = *MaybeU;
       else
         return MaybeU.takeError();
     } else if (KeyName == "DebugLoc") {
       if (Expected<RemarkLocation> MaybeLoc = parseDebugLoc(RemarkField))
         TheRemark.Loc = *MaybeLoc;
       else
         return MaybeLoc.takeError();
     } else if (KeyName == "Args") {
       auto *Args = dyn_cast<yaml::SequenceNode>(RemarkField.getValue());
       if (!Args)
         return error("wrong value type for key.", RemarkField);

       for (yaml::Node &Arg : *Args) {
         if (Expected<Argument> MaybeArg = parseArg(Arg))
           TheRemark.Args.push_back(*MaybeArg);
         else
           return MaybeArg.takeError();
       }
     } else {
       return error("unknown key.", RemarkField);
     }
   }

   // Check if any of the mandatory fields are missing.
   if (TheRemark.RemarkType == Type::Unknown || TheRemark.PassName.empty() ||
       TheRemark.RemarkName.empty() || TheRemark.FunctionName.empty())
     return error("Type, Pass, Name or Function missing.",
                  *RemarkEntry.getRoot());

   return std::move(Result);
 }

 Expected<Type> YAMLRemarkParser::parseType(yaml::MappingNode &Node) {
   auto Type = StringSwitch<remarks::Type>(Node.getRawTag())
                   .Case("!Passed", remarks::Type::Passed)
                   .Case("!Missed", remarks::Type::Missed)
                   .Case("!Analysis", remarks::Type::Analysis)
                   .Case("!AnalysisFPCommute", remarks::Type::AnalysisFPCommute)
                   .Case("!AnalysisAliasing", remarks::Type::AnalysisAliasing)
                   .Case("!Failure", remarks::Type::Failure)
                   .Default(remarks::Type::Unknown);
   if (Type == remarks::Type::Unknown)
     return error("expected a remark tag.", Node);
   return Type;
 }

 Expected<StringRef> YAMLRemarkParser::parseKey(yaml::KeyValueNode &Node) {
   if (auto *Key = dyn_cast<yaml::ScalarNode>(Node.getKey()))
     return Key->getRawValue();

   return error("key is not a string.", Node);
 }

 Expected<StringRef> YAMLRemarkParser::parseStr(yaml::KeyValueNode &Node) {
   auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
   if (!Value)
     return error("expected a value of scalar type.", Node);
   StringRef Result = Value->getRawValue();

   if (Result.front() == '\'')
     Result = Result.drop_front();

   if (Result.back() == '\'')
     Result = Result.drop_back();

   return Result;
 }

 Expected<unsigned> YAMLRemarkParser::parseUnsigned(yaml::KeyValueNode &Node) {
   SmallVector<char, 4> Tmp;
   auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
   if (!Value)
     return error("expected a value of scalar type.", Node);
   unsigned UnsignedValue = 0;
   if (Value->getValue(Tmp).getAsInteger(10, UnsignedValue))
     return error("expected a value of integer type.", *Value);
   return UnsignedValue;
 }

 Expected<RemarkLocation>
 YAMLRemarkParser::parseDebugLoc(yaml::KeyValueNode &Node) {
   auto *DebugLoc = dyn_cast<yaml::MappingNode>(Node.getValue());
   if (!DebugLoc)
     return error("expected a value of mapping type.", Node);

   Optional<StringRef> File;
   Optional<unsigned> Line;
   Optional<unsigned> Column;

   for (yaml::KeyValueNode &DLNode : *DebugLoc) {
     Expected<StringRef> MaybeKey = parseKey(DLNode);
     if (!MaybeKey)
       return MaybeKey.takeError();
     StringRef KeyName = *MaybeKey;

     if (KeyName == "File") {
       if (Expected<StringRef> MaybeStr = parseStr(DLNode))
         File = *MaybeStr;
       else
         return MaybeStr.takeError();
     } else if (KeyName == "Column") {
       if (Expected<unsigned> MaybeU = parseUnsigned(DLNode))
         Column = *MaybeU;
       else
         return MaybeU.takeError();
     } else if (KeyName == "Line") {
       if (Expected<unsigned> MaybeU = parseUnsigned(DLNode))
         Line = *MaybeU;
       else
         return MaybeU.takeError();
     } else {
       return error("unknown entry in DebugLoc map.", DLNode);
     }
   }

   // If any of the debug loc fields is missing, return an error.
   if (!File || !Line || !Column)
     return error("DebugLoc node incomplete.", Node);

   return RemarkLocation{*File, *Line, *Column};
 }

 Expected<Argument> YAMLRemarkParser::parseArg(yaml::Node &Node) {
   auto *ArgMap = dyn_cast<yaml::MappingNode>(&Node);
   if (!ArgMap)
     return error("expected a value of mapping type.", Node);

   Optional<StringRef> KeyStr;
   Optional<StringRef> ValueStr;
   Optional<RemarkLocation> Loc;

   for (yaml::KeyValueNode &ArgEntry : *ArgMap) {
     Expected<StringRef> MaybeKey = parseKey(ArgEntry);
     if (!MaybeKey)
       return MaybeKey.takeError();
     StringRef KeyName = *MaybeKey;

     // Try to parse debug locs.
     if (KeyName == "DebugLoc") {
       // Can't have multiple DebugLoc entries per argument.
       if (Loc)
         return error("only one DebugLoc entry is allowed per argument.",
                      ArgEntry);

       if (Expected<RemarkLocation> MaybeLoc = parseDebugLoc(ArgEntry)) {
         Loc = *MaybeLoc;
         continue;
       } else
         return MaybeLoc.takeError();
     }

     // If we already have a string, error out.
     if (ValueStr)
       return error("only one string entry is allowed per argument.", ArgEntry);

     // Try to parse the value.
     if (Expected<StringRef> MaybeStr = parseStr(ArgEntry))
       ValueStr = *MaybeStr;
     else
       return MaybeStr.takeError();

     // Keep the key from the string.
     KeyStr = KeyName;
   }

   if (!KeyStr)
     return error("argument key is missing.", *ArgMap);
   if (!ValueStr)
     return error("argument value is missing.", *ArgMap);

   return Argument{*KeyStr, *ValueStr, Loc};
 }

 Expected<std::unique_ptr<Remark>> YAMLRemarkParser::next() {
   if (YAMLIt == Stream.end())
     return make_error<EndOfFileError>();

   Expected<std::unique_ptr<Remark>> MaybeResult = parseRemark(*YAMLIt);
   if (!MaybeResult) {
     // Avoid garbage input, set the iterator to the end.
     YAMLIt = Stream.end();
     return MaybeResult.takeError();
   }

   ++YAMLIt;

   return std::move(*MaybeResult);
 }

 Expected<StringRef> YAMLStrTabRemarkParser::parseStr(yaml::KeyValueNode &Node) {
   auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
   if (!Value)
     return error("expected a value of scalar type.", Node);
   StringRef Result;
   // If we have a string table, parse it as an unsigned.
   unsigned StrID = 0;
   if (Expected<unsigned> MaybeStrID = parseUnsigned(Node))
     StrID = *MaybeStrID;
   else
     return MaybeStrID.takeError();

   if (Expected<StringRef> Str = (*StrTab)[StrID])
     Result = *Str;
   else
     return Str.takeError();

   if (Result.front() == '\'')
     Result = Result.drop_front();

   if (Result.back() == '\'')
     Result = Result.drop_back();

   return Result;
 }
	//===- YAMLRemarkParser.cpp -----------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file provides utility methods used by clients that want to use the
	// parser for remark diagnostics in LLVM.
	//
	//===----------------------------------------------------------------------===//

	#include "YAMLRemarkParser.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/Support/Endian.h"
	#include "llvm/Support/Path.h"

	using namespace llvm;
	using namespace llvm::remarks;

	char YAMLParseError::ID = 0;

	static void handleDiagnostic(const SMDiagnostic &Diag, void *Ctx) {
	assert(Ctx && "Expected non-null Ctx in diagnostic handler.");
	std::string &Message = static_cast<std::string >(Ctx);
	assert(Message.empty() && "Expected an empty string.");
	raw_string_ostream OS(Message);
	Diag.print(/ProgName=/nullptr, OS, /ShowColors/ false,
	/ShowKindLabels/ true);
	OS << '\n';
	OS.flush();
	}

	YAMLParseError::YAMLParseError(StringRef Msg, SourceMgr &SM,
	yaml::Stream &Stream, yaml::Node &Node) {
	// 1) Set up a diagnostic handler to avoid errors being printed out to
	// stderr.
	// 2) Use the stream to print the error with the associated node.
	// 3) The stream will use the source manager to print the error, which will
	// call the diagnostic handler.
	// 4) The diagnostic handler will stream the error directly into this object's
	// Message member, which is used when logging is asked for.
	auto OldDiagHandler = SM.getDiagHandler();
	auto OldDiagCtx = SM.getDiagContext();
	SM.setDiagHandler(handleDiagnostic, &Message);
	Stream.printError(&Node, Twine(Msg) + Twine('\n'));
	// Restore the old handlers.
	SM.setDiagHandler(OldDiagHandler, OldDiagCtx);
	}

	static SourceMgr setupSM(std::string &LastErrorMessage) {
	SourceMgr SM;
	SM.setDiagHandler(handleDiagnostic, &LastErrorMessage);
	return SM;
	}

	// Parse the magic number. This function returns true if this represents remark
	// metadata, false otherwise.
	static Expected<bool> parseMagic(StringRef &Buf) {
	if (!Buf.consume_front(remarks::Magic))
	return false;

	if (Buf.size() < 1 \|\| !Buf.consume_front(StringRef("\0", 1)))
	return createStringError(std::errc::illegal_byte_sequence,
	"Expecting \\0 after magic number.");
	return true;
	}

	static Expected<uint64_t> parseVersion(StringRef &Buf) {
	if (Buf.size() < sizeof(uint64_t))
	return createStringError(std::errc::illegal_byte_sequence,
	"Expecting version number.");

	uint64_t Version =
	support::endian::read<uint64_t, support::little, support::unaligned>(
	Buf.data());
	if (Version != remarks::CurrentRemarkVersion)
	return createStringError(std::errc::illegal_byte_sequence,
	"Mismatching remark version. Got %" PRId64
	", expected %" PRId64 ".",
	Version, remarks::CurrentRemarkVersion);
	Buf = Buf.drop_front(sizeof(uint64_t));
	return Version;
	}

	static Expected<uint64_t> parseStrTabSize(StringRef &Buf) {
	if (Buf.size() < sizeof(uint64_t))
	return createStringError(std::errc::illegal_byte_sequence,
	"Expecting string table size.");
	uint64_t StrTabSize =
	support::endian::read<uint64_t, support::little, support::unaligned>(
	Buf.data());
	Buf = Buf.drop_front(sizeof(uint64_t));
	return StrTabSize;
	}

	static Expected<ParsedStringTable> parseStrTab(StringRef &Buf,
	uint64_t StrTabSize) {
	if (Buf.size() < StrTabSize)
	return createStringError(std::errc::illegal_byte_sequence,
	"Expecting string table.");

	// Attach the string table to the parser.
	ParsedStringTable Result(StringRef(Buf.data(), StrTabSize));
	Buf = Buf.drop_front(StrTabSize);
	return Expected<ParsedStringTable>(std::move(Result));
	}

	Expected<std::unique_ptr<YAMLRemarkParser>>
	remarks::createYAMLParserFromMeta(StringRef Buf,
	Optional<ParsedStringTable> StrTab,
	Optional<StringRef> ExternalFilePrependPath) {
	// We now have a magic number. The metadata has to be correct.
	Expected<bool> isMeta = parseMagic(Buf);
	if (!isMeta)
	return isMeta.takeError();
	// If it's not recognized as metadata, roll back.
	std::unique_ptr<MemoryBuffer> SeparateBuf;
	if (*isMeta) {
	Expected<uint64_t> Version = parseVersion(Buf);
	if (!Version)
	return Version.takeError();

	Expected<uint64_t> StrTabSize = parseStrTabSize(Buf);
	if (!StrTabSize)
	return StrTabSize.takeError();

	// If the size of string table is not 0, try to build one.
	if (*StrTabSize != 0) {
	if (StrTab)
	return createStringError(std::errc::illegal_byte_sequence,
	"String table already provided.");
	Expected<ParsedStringTable> MaybeStrTab = parseStrTab(Buf, *StrTabSize);
	if (!MaybeStrTab)
	return MaybeStrTab.takeError();
	StrTab = std::move(*MaybeStrTab);
	}
	// If it starts with "---", there is no external file.
	if (!Buf.startswith("---")) {
	// At this point, we expect Buf to contain the external file path.
	StringRef ExternalFilePath = Buf;
	SmallString<80> FullPath;
	if (ExternalFilePrependPath)
	FullPath = *ExternalFilePrependPath;
	sys::path::append(FullPath, ExternalFilePath);

	// Try to open the file and start parsing from there.
	ErrorOr<std::unique_ptr<MemoryBuffer>> BufferOrErr =
	MemoryBuffer::getFile(FullPath);
	if (std::error_code EC = BufferOrErr.getError())
	return createFileError(FullPath, EC);

	// Keep the buffer alive.
	SeparateBuf = std::move(*BufferOrErr);
	Buf = SeparateBuf->getBuffer();
	}
	}

	std::unique_ptr<YAMLRemarkParser> Result =
	StrTab
	? std::make_unique<YAMLStrTabRemarkParser>(Buf, std::move(*StrTab))
	: std::make_unique<YAMLRemarkParser>(Buf);
	if (SeparateBuf)
	Result->SeparateBuf = std::move(SeparateBuf);
	return std::move(Result);
	}

	YAMLRemarkParser::YAMLRemarkParser(StringRef Buf)
	: YAMLRemarkParser(Buf, None) {}

	YAMLRemarkParser::YAMLRemarkParser(StringRef Buf,
	Optional<ParsedStringTable> StrTab)
	: RemarkParser{Format::YAML}, StrTab(std::move(StrTab)), LastErrorMessage(),
	SM(setupSM(LastErrorMessage)), Stream(Buf, SM), YAMLIt(Stream.begin()) {}

	Error YAMLRemarkParser::error(StringRef Message, yaml::Node &Node) {
	return make_error<YAMLParseError>(Message, SM, Stream, Node);
	}

	Error YAMLRemarkParser::error() {
	if (LastErrorMessage.empty())
	return Error::success();
	Error E = make_error<YAMLParseError>(LastErrorMessage);
	LastErrorMessage.clear();
	return E;
	}

	Expected<std::unique_ptr<Remark>>
	YAMLRemarkParser::parseRemark(yaml::Document &RemarkEntry) {
	if (Error E = error())
	return std::move(E);

	yaml::Node *YAMLRoot = RemarkEntry.getRoot();
	if (!YAMLRoot) {
	return createStringError(std::make_error_code(std::errc::invalid_argument),
	"not a valid YAML file.");
	}

	auto *Root = dyn_cast<yaml::MappingNode>(YAMLRoot);
	if (!Root)
	return error("document root is not of mapping type.", *YAMLRoot);

	std::unique_ptr<Remark> Result = std::make_unique<Remark>();
	Remark &TheRemark = *Result;

	// First, the type. It needs special handling since is not part of the
	// key-value stream.
	Expected<Type> T = parseType(*Root);
	if (!T)
	return T.takeError();
	else
	TheRemark.RemarkType = *T;

	// Then, parse the fields, one by one.
	for (yaml::KeyValueNode &RemarkField : *Root) {
	Expected<StringRef> MaybeKey = parseKey(RemarkField);
	if (!MaybeKey)
	return MaybeKey.takeError();
	StringRef KeyName = *MaybeKey;

	if (KeyName == "Pass") {
	if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
	TheRemark.PassName = *MaybeStr;
	else
	return MaybeStr.takeError();
	} else if (KeyName == "Name") {
	if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
	TheRemark.RemarkName = *MaybeStr;
	else
	return MaybeStr.takeError();
	} else if (KeyName == "Function") {
	if (Expected<StringRef> MaybeStr = parseStr(RemarkField))
	TheRemark.FunctionName = *MaybeStr;
	else
	return MaybeStr.takeError();
	} else if (KeyName == "Hotness") {
	if (Expected<unsigned> MaybeU = parseUnsigned(RemarkField))
	TheRemark.Hotness = *MaybeU;
	else
	return MaybeU.takeError();
	} else if (KeyName == "DebugLoc") {
	if (Expected<RemarkLocation> MaybeLoc = parseDebugLoc(RemarkField))
	TheRemark.Loc = *MaybeLoc;
	else
	return MaybeLoc.takeError();
	} else if (KeyName == "Args") {
	auto *Args = dyn_cast<yaml::SequenceNode>(RemarkField.getValue());
	if (!Args)
	return error("wrong value type for key.", RemarkField);

	for (yaml::Node &Arg : *Args) {
	if (Expected<Argument> MaybeArg = parseArg(Arg))
	TheRemark.Args.push_back(*MaybeArg);
	else
	return MaybeArg.takeError();
	}
	} else {
	return error("unknown key.", RemarkField);
	}
	}

	// Check if any of the mandatory fields are missing.
	if (TheRemark.RemarkType == Type::Unknown \|\| TheRemark.PassName.empty() \|\|
	TheRemark.RemarkName.empty() \|\| TheRemark.FunctionName.empty())
	return error("Type, Pass, Name or Function missing.",
	*RemarkEntry.getRoot());

	return std::move(Result);
	}

	Expected<Type> YAMLRemarkParser::parseType(yaml::MappingNode &Node) {
	auto Type = StringSwitch<remarks::Type>(Node.getRawTag())
	.Case("!Passed", remarks::Type::Passed)
	.Case("!Missed", remarks::Type::Missed)
	.Case("!Analysis", remarks::Type::Analysis)
	.Case("!AnalysisFPCommute", remarks::Type::AnalysisFPCommute)
	.Case("!AnalysisAliasing", remarks::Type::AnalysisAliasing)
	.Case("!Failure", remarks::Type::Failure)
	.Default(remarks::Type::Unknown);
	if (Type == remarks::Type::Unknown)
	return error("expected a remark tag.", Node);
	return Type;
	}

	Expected<StringRef> YAMLRemarkParser::parseKey(yaml::KeyValueNode &Node) {
	if (auto *Key = dyn_cast<yaml::ScalarNode>(Node.getKey()))
	return Key->getRawValue();

	return error("key is not a string.", Node);
	}

	Expected<StringRef> YAMLRemarkParser::parseStr(yaml::KeyValueNode &Node) {
	auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
	if (!Value)
	return error("expected a value of scalar type.", Node);
	StringRef Result = Value->getRawValue();

	if (Result.front() == '\'')
	Result = Result.drop_front();

	if (Result.back() == '\'')
	Result = Result.drop_back();

	return Result;
	}

	Expected<unsigned> YAMLRemarkParser::parseUnsigned(yaml::KeyValueNode &Node) {
	SmallVector<char, 4> Tmp;
	auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
	if (!Value)
	return error("expected a value of scalar type.", Node);
	unsigned UnsignedValue = 0;
	if (Value->getValue(Tmp).getAsInteger(10, UnsignedValue))
	return error("expected a value of integer type.", *Value);
	return UnsignedValue;
	}

	Expected<RemarkLocation>
	YAMLRemarkParser::parseDebugLoc(yaml::KeyValueNode &Node) {
	auto *DebugLoc = dyn_cast<yaml::MappingNode>(Node.getValue());
	if (!DebugLoc)
	return error("expected a value of mapping type.", Node);

	Optional<StringRef> File;
	Optional<unsigned> Line;
	Optional<unsigned> Column;

	for (yaml::KeyValueNode &DLNode : *DebugLoc) {
	Expected<StringRef> MaybeKey = parseKey(DLNode);
	if (!MaybeKey)
	return MaybeKey.takeError();
	StringRef KeyName = *MaybeKey;

	if (KeyName == "File") {
	if (Expected<StringRef> MaybeStr = parseStr(DLNode))
	File = *MaybeStr;
	else
	return MaybeStr.takeError();
	} else if (KeyName == "Column") {
	if (Expected<unsigned> MaybeU = parseUnsigned(DLNode))
	Column = *MaybeU;
	else
	return MaybeU.takeError();
	} else if (KeyName == "Line") {
	if (Expected<unsigned> MaybeU = parseUnsigned(DLNode))
	Line = *MaybeU;
	else
	return MaybeU.takeError();
	} else {
	return error("unknown entry in DebugLoc map.", DLNode);
	}
	}

	// If any of the debug loc fields is missing, return an error.
	if (!File \|\| !Line \|\| !Column)
	return error("DebugLoc node incomplete.", Node);

	return RemarkLocation{File, Line, *Column};
	}

	Expected<Argument> YAMLRemarkParser::parseArg(yaml::Node &Node) {
	auto *ArgMap = dyn_cast<yaml::MappingNode>(&Node);
	if (!ArgMap)
	return error("expected a value of mapping type.", Node);

	Optional<StringRef> KeyStr;
	Optional<StringRef> ValueStr;
	Optional<RemarkLocation> Loc;

	for (yaml::KeyValueNode &ArgEntry : *ArgMap) {
	Expected<StringRef> MaybeKey = parseKey(ArgEntry);
	if (!MaybeKey)
	return MaybeKey.takeError();
	StringRef KeyName = *MaybeKey;

	// Try to parse debug locs.
	if (KeyName == "DebugLoc") {
	// Can't have multiple DebugLoc entries per argument.
	if (Loc)
	return error("only one DebugLoc entry is allowed per argument.",
	ArgEntry);

	if (Expected<RemarkLocation> MaybeLoc = parseDebugLoc(ArgEntry)) {
	Loc = *MaybeLoc;
	continue;
	} else
	return MaybeLoc.takeError();
	}

	// If we already have a string, error out.
	if (ValueStr)
	return error("only one string entry is allowed per argument.", ArgEntry);

	// Try to parse the value.
	if (Expected<StringRef> MaybeStr = parseStr(ArgEntry))
	ValueStr = *MaybeStr;
	else
	return MaybeStr.takeError();

	// Keep the key from the string.
	KeyStr = KeyName;
	}

	if (!KeyStr)
	return error("argument key is missing.", *ArgMap);
	if (!ValueStr)
	return error("argument value is missing.", *ArgMap);

	return Argument{KeyStr, ValueStr, Loc};
	}

	Expected<std::unique_ptr<Remark>> YAMLRemarkParser::next() {
	if (YAMLIt == Stream.end())
	return make_error<EndOfFileError>();

	Expected<std::unique_ptr<Remark>> MaybeResult = parseRemark(*YAMLIt);
	if (!MaybeResult) {
	// Avoid garbage input, set the iterator to the end.
	YAMLIt = Stream.end();
	return MaybeResult.takeError();
	}

	++YAMLIt;

	return std::move(*MaybeResult);
	}

	Expected<StringRef> YAMLStrTabRemarkParser::parseStr(yaml::KeyValueNode &Node) {
	auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
	if (!Value)
	return error("expected a value of scalar type.", Node);
	StringRef Result;
	// If we have a string table, parse it as an unsigned.
	unsigned StrID = 0;
	if (Expected<unsigned> MaybeStrID = parseUnsigned(Node))
	StrID = *MaybeStrID;
	else
	return MaybeStrID.takeError();

	if (Expected<StringRef> Str = (*StrTab)[StrID])
	Result = *Str;
	else
	return Str.takeError();

	if (Result.front() == '\'')
	Result = Result.drop_front();

	if (Result.back() == '\'')
	Result = Result.drop_back();

	return Result;
	}