llvm-project/llvm/lib/OptRemarks/OptRemarksParser.cpp

369 lines
12 KiB
C++

//===- OptRemarksParser.cpp -----------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file provides utility methods used by clients that want to use the
// parser for optimization remarks in LLVM.
//
//===----------------------------------------------------------------------===//
#include "llvm-c/OptRemarks.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/SourceMgr.h"
#include "llvm/Support/YAMLTraits.h"
using namespace llvm;
namespace {
struct RemarkParser {
/// Source manager for better error messages.
SourceMgr SM;
/// Stream for yaml parsing.
yaml::Stream Stream;
/// Storage for the error stream.
std::string ErrorString;
/// The error stream.
raw_string_ostream ErrorStream;
/// Iterator in the YAML stream.
yaml::document_iterator DI;
/// The parsed remark (if any).
Optional<LLVMOptRemarkEntry> LastRemark;
/// Temporary parsing buffer for the arguments.
SmallVector<LLVMOptRemarkArg, 8> TmpArgs;
/// The state used by the parser to parse a remark entry. Invalidated with
/// every call to `parseYAMLElement`.
struct ParseState {
/// Temporary parsing buffer for the arguments.
SmallVectorImpl<LLVMOptRemarkArg> *Args;
StringRef Type;
StringRef Pass;
StringRef Name;
StringRef Function;
/// Optional.
Optional<StringRef> File;
Optional<unsigned> Line;
Optional<unsigned> Column;
Optional<unsigned> Hotness;
ParseState(SmallVectorImpl<LLVMOptRemarkArg> &Args) : Args(&Args) {}
/// Use Args only as a **temporary** buffer.
~ParseState() { Args->clear(); }
};
ParseState State;
/// Set to `true` if we had any errors during parsing.
bool HadAnyErrors = false;
RemarkParser(StringRef Buf)
: SM(), Stream(Buf, SM), ErrorString(), ErrorStream(ErrorString),
DI(Stream.begin()), LastRemark(), TmpArgs(), State(TmpArgs) {
SM.setDiagHandler(RemarkParser::HandleDiagnostic, this);
}
/// Parse a YAML element.
Error parseYAMLElement(yaml::Document &Remark);
private:
/// Parse one key to a string.
/// otherwise.
Error parseKey(StringRef &Result, yaml::KeyValueNode &Node);
/// Parse one value to a string.
Error parseValue(StringRef &Result, yaml::KeyValueNode &Node);
/// Parse one value to an unsigned.
Error parseValue(Optional<unsigned> &Result, yaml::KeyValueNode &Node);
/// Parse a debug location.
Error parseDebugLoc(Optional<StringRef> &File, Optional<unsigned> &Line,
Optional<unsigned> &Column, yaml::KeyValueNode &Node);
/// Parse an argument.
Error parseArg(SmallVectorImpl<LLVMOptRemarkArg> &TmpArgs, yaml::Node &Node);
/// Handle a diagnostic from the YAML stream. Records the error in the
/// RemarkParser class.
static void HandleDiagnostic(const SMDiagnostic &Diag, void *Ctx) {
assert(Ctx && "Expected non-null Ctx in diagnostic handler.");
auto *Parser = static_cast<RemarkParser *>(Ctx);
Diag.print(/*ProgName=*/nullptr, Parser->ErrorStream, /*ShowColors*/ false,
/*ShowKindLabels*/ true);
}
};
class ParseError : public ErrorInfo<ParseError> {
public:
static char ID;
ParseError(StringRef Message, yaml::Node &Node)
: Message(Message), Node(Node) {}
void log(raw_ostream &OS) const override { OS << Message; }
std::error_code convertToErrorCode() const override {
return inconvertibleErrorCode();
}
StringRef getMessage() const { return Message; }
yaml::Node &getNode() const { return Node; }
private:
StringRef Message; // No need to hold a full copy of the buffer.
yaml::Node &Node;
};
char ParseError::ID = 0;
static LLVMOptRemarkStringRef toOptRemarkStr(StringRef Str) {
return {Str.data(), static_cast<uint32_t>(Str.size())};
}
Error RemarkParser::parseKey(StringRef &Result, yaml::KeyValueNode &Node) {
auto *Key = dyn_cast<yaml::ScalarNode>(Node.getKey());
if (!Key)
return make_error<ParseError>("key is not a string.", Node);
Result = Key->getRawValue();
return Error::success();
}
Error RemarkParser::parseValue(StringRef &Result, yaml::KeyValueNode &Node) {
auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
if (!Value)
return make_error<ParseError>("expected a value of scalar type.", Node);
Result = Value->getRawValue();
if (Result.front() == '\'')
Result = Result.drop_front();
if (Result.back() == '\'')
Result = Result.drop_back();
return Error::success();
}
Error RemarkParser::parseValue(Optional<unsigned> &Result,
yaml::KeyValueNode &Node) {
SmallVector<char, 4> Tmp;
auto *Value = dyn_cast<yaml::ScalarNode>(Node.getValue());
if (!Value)
return make_error<ParseError>("expected a value of scalar type.", Node);
unsigned UnsignedValue = 0;
if (Value->getValue(Tmp).getAsInteger(10, UnsignedValue))
return make_error<ParseError>("expected a value of integer type.", *Value);
Result = UnsignedValue;
return Error::success();
}
Error RemarkParser::parseDebugLoc(Optional<StringRef> &File,
Optional<unsigned> &Line,
Optional<unsigned> &Column,
yaml::KeyValueNode &Node) {
auto *DebugLoc = dyn_cast<yaml::MappingNode>(Node.getValue());
if (!DebugLoc)
return make_error<ParseError>("expected a value of mapping type.", Node);
for (yaml::KeyValueNode &DLNode : *DebugLoc) {
StringRef KeyName;
if (Error E = parseKey(KeyName, DLNode))
return E;
if (KeyName == "File") {
File = StringRef(); // Set the optional to contain a default constructed
// value, to be passed to the parsing function.
if (Error E = parseValue(*File, DLNode))
return E;
} else if (KeyName == "Column") {
if (Error E = parseValue(Column, DLNode))
return E;
} else if (KeyName == "Line") {
if (Error E = parseValue(Line, DLNode))
return E;
} else {
return make_error<ParseError>("unknown entry in DebugLoc map.", DLNode);
}
}
// If any of the debug loc fields is missing, return an error.
if (!File || !Line || !Column)
return make_error<ParseError>("DebugLoc node incomplete.", Node);
return Error::success();
}
Error RemarkParser::parseArg(SmallVectorImpl<LLVMOptRemarkArg> &Args,
yaml::Node &Node) {
auto *ArgMap = dyn_cast<yaml::MappingNode>(&Node);
if (!ArgMap)
return make_error<ParseError>("expected a value of mapping type.", Node);
StringRef ValueStr;
StringRef KeyStr;
Optional<StringRef> File;
Optional<unsigned> Line;
Optional<unsigned> Column;
for (yaml::KeyValueNode &ArgEntry : *ArgMap) {
StringRef KeyName;
if (Error E = parseKey(KeyName, ArgEntry))
return E;
// Try to parse debug locs.
if (KeyName == "DebugLoc") {
// Can't have multiple DebugLoc entries per argument.
if (File || Line || Column)
return make_error<ParseError>(
"only one DebugLoc entry is allowed per argument.", ArgEntry);
if (Error E = parseDebugLoc(File, Line, Column, ArgEntry))
return E;
continue;
}
// If we already have a string, error out.
if (!ValueStr.empty())
return make_error<ParseError>(
"only one string entry is allowed per argument.", ArgEntry);
// Try to parse a string.
if (Error E = parseValue(ValueStr, ArgEntry))
return E;
// Keep the key from the string.
KeyStr = KeyName;
}
if (KeyStr.empty())
return make_error<ParseError>("argument key is missing.", *ArgMap);
if (ValueStr.empty())
return make_error<ParseError>("argument value is missing.", *ArgMap);
Args.push_back(LLVMOptRemarkArg{
toOptRemarkStr(KeyStr), toOptRemarkStr(ValueStr),
LLVMOptRemarkDebugLoc{toOptRemarkStr(File.getValueOr(StringRef())),
Line.getValueOr(0), Column.getValueOr(0)}});
return Error::success();
}
Error RemarkParser::parseYAMLElement(yaml::Document &Remark) {
// Parsing a new remark, clear the previous one.
LastRemark = None;
State = ParseState(TmpArgs);
auto *Root = dyn_cast<yaml::MappingNode>(Remark.getRoot());
if (!Root)
return make_error<ParseError>("document root is not of mapping type.",
*Remark.getRoot());
State.Type = Root->getRawTag();
for (yaml::KeyValueNode &RemarkField : *Root) {
StringRef KeyName;
if (Error E = parseKey(KeyName, RemarkField))
return E;
if (KeyName == "Pass") {
if (Error E = parseValue(State.Pass, RemarkField))
return E;
} else if (KeyName == "Name") {
if (Error E = parseValue(State.Name, RemarkField))
return E;
} else if (KeyName == "Function") {
if (Error E = parseValue(State.Function, RemarkField))
return E;
} else if (KeyName == "Hotness") {
if (Error E = parseValue(State.Hotness, RemarkField))
return E;
} else if (KeyName == "DebugLoc") {
if (Error E =
parseDebugLoc(State.File, State.Line, State.Column, RemarkField))
return E;
} else if (KeyName == "Args") {
auto *Args = dyn_cast<yaml::SequenceNode>(RemarkField.getValue());
if (!Args)
return make_error<ParseError>("wrong value type for key.", RemarkField);
for (yaml::Node &Arg : *Args)
if (Error E = parseArg(*State.Args, Arg))
return E;
} else {
return make_error<ParseError>("unknown key.", RemarkField);
}
}
// If the YAML parsing failed, don't even continue parsing. We might
// encounter malformed YAML.
if (Stream.failed())
return make_error<ParseError>("YAML parsing failed.", *Remark.getRoot());
// Check if any of the mandatory fields are missing.
if (State.Type.empty() || State.Pass.empty() || State.Name.empty() ||
State.Function.empty())
return make_error<ParseError>("Type, Pass, Name or Function missing.",
*Remark.getRoot());
LastRemark = LLVMOptRemarkEntry{
toOptRemarkStr(State.Type),
toOptRemarkStr(State.Pass),
toOptRemarkStr(State.Name),
toOptRemarkStr(State.Function),
LLVMOptRemarkDebugLoc{toOptRemarkStr(State.File.getValueOr(StringRef())),
State.Line.getValueOr(0),
State.Column.getValueOr(0)},
State.Hotness.getValueOr(0),
static_cast<uint32_t>(State.Args->size()),
State.Args->data()};
return Error::success();
}
} // namespace
// Create wrappers for C Binding types (see CBindingWrapping.h).
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(RemarkParser, LLVMOptRemarkParserRef)
extern "C" LLVMOptRemarkParserRef LLVMOptRemarkParserCreate(const void *Buf,
uint64_t Size) {
return wrap(
new RemarkParser(StringRef(static_cast<const char *>(Buf), Size)));
}
extern "C" LLVMOptRemarkEntry *
LLVMOptRemarkParserGetNext(LLVMOptRemarkParserRef Parser) {
RemarkParser &TheParser = *unwrap(Parser);
// Check for EOF.
if (TheParser.HadAnyErrors || TheParser.DI == TheParser.Stream.end())
return nullptr;
// Try to parse an entry.
if (Error E = TheParser.parseYAMLElement(*TheParser.DI)) {
handleAllErrors(std::move(E), [&](const ParseError &PE) {
TheParser.Stream.printError(&PE.getNode(),
Twine(PE.getMessage()) + Twine('\n'));
TheParser.HadAnyErrors = true;
});
return nullptr;
}
// Move on.
++TheParser.DI;
// Return the just-parsed remark.
if (Optional<LLVMOptRemarkEntry> &Entry = TheParser.LastRemark)
return &*Entry;
return nullptr;
}
extern "C" LLVMBool LLVMOptRemarkParserHasError(LLVMOptRemarkParserRef Parser) {
return unwrap(Parser)->HadAnyErrors;
}
extern "C" const char *
LLVMOptRemarkParserGetErrorMessage(LLVMOptRemarkParserRef Parser) {
return unwrap(Parser)->ErrorStream.str().c_str();
}
extern "C" void LLVMOptRemarkParserDispose(LLVMOptRemarkParserRef Parser) {
delete unwrap(Parser);
}