//===--- Diagnostics.cpp - Helper class for error diagnostics -----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/ASTMatchers/Dynamic/Diagnostics.h" namespace clang { namespace ast_matchers { namespace dynamic { Diagnostics::ArgStream Diagnostics::pushContextFrame(ContextType Type, SourceRange Range) { ContextStack.push_back(ContextFrame()); ContextFrame& data = ContextStack.back(); data.Type = Type; data.Range = Range; return ArgStream(&data.Args); } Diagnostics::Context::Context(ConstructMatcherEnum, Diagnostics *Error, StringRef MatcherName, const SourceRange &MatcherRange) : Error(Error) { Error->pushContextFrame(CT_MatcherConstruct, MatcherRange) << MatcherName; } Diagnostics::Context::Context(MatcherArgEnum, Diagnostics *Error, StringRef MatcherName, const SourceRange &MatcherRange, unsigned ArgNumber) : Error(Error) { Error->pushContextFrame(CT_MatcherArg, MatcherRange) << ArgNumber << MatcherName; } Diagnostics::Context::~Context() { Error->ContextStack.pop_back(); } Diagnostics::OverloadContext::OverloadContext(Diagnostics *Error) : Error(Error), BeginIndex(Error->Errors.size()) {} Diagnostics::OverloadContext::~OverloadContext() { // Merge all errors that happened while in this context. if (BeginIndex < Error->Errors.size()) { Diagnostics::ErrorContent &Dest = Error->Errors[BeginIndex]; for (size_t i = BeginIndex + 1, e = Error->Errors.size(); i < e; ++i) { Dest.Messages.push_back(Error->Errors[i].Messages[0]); } Error->Errors.resize(BeginIndex + 1); } } void Diagnostics::OverloadContext::revertErrors() { // Revert the errors. Error->Errors.resize(BeginIndex); } Diagnostics::ArgStream &Diagnostics::ArgStream::operator<<(const Twine &Arg) { Out->push_back(Arg.str()); return *this; } Diagnostics::ArgStream Diagnostics::addError(const SourceRange &Range, ErrorType Error) { Errors.push_back(ErrorContent()); ErrorContent &Last = Errors.back(); Last.ContextStack = ContextStack; Last.Messages.push_back(ErrorContent::Message()); Last.Messages.back().Range = Range; Last.Messages.back().Type = Error; return ArgStream(&Last.Messages.back().Args); } StringRef contextTypeToFormatString(Diagnostics::ContextType Type) { switch (Type) { case Diagnostics::CT_MatcherConstruct: return "Error building matcher $0."; case Diagnostics::CT_MatcherArg: return "Error parsing argument $0 for matcher $1."; } llvm_unreachable("Unknown ContextType value."); } StringRef errorTypeToFormatString(Diagnostics::ErrorType Type) { switch (Type) { case Diagnostics::ET_RegistryNotFound: return "Matcher not found: $0"; case Diagnostics::ET_RegistryWrongArgCount: return "Incorrect argument count. (Expected = $0) != (Actual = $1)"; case Diagnostics::ET_RegistryWrongArgType: return "Incorrect type for arg $0. (Expected = $1) != (Actual = $2)"; case Diagnostics::ET_RegistryNotBindable: return "Matcher does not support binding."; case Diagnostics::ET_RegistryAmbiguousOverload: // TODO: Add type info about the overload error. return "Ambiguous matcher overload."; case Diagnostics::ET_ParserStringError: return "Error parsing string token: <$0>"; case Diagnostics::ET_ParserNoOpenParen: return "Error parsing matcher. Found token <$0> while looking for '('."; case Diagnostics::ET_ParserNoCloseParen: return "Error parsing matcher. Found end-of-code while looking for ')'."; case Diagnostics::ET_ParserNoComma: return "Error parsing matcher. Found token <$0> while looking for ','."; case Diagnostics::ET_ParserNoCode: return "End of code found while looking for token."; case Diagnostics::ET_ParserNotAMatcher: return "Input value is not a matcher expression."; case Diagnostics::ET_ParserInvalidToken: return "Invalid token <$0> found when looking for a value."; case Diagnostics::ET_ParserMalformedBindExpr: return "Malformed bind() expression."; case Diagnostics::ET_ParserTrailingCode: return "Expected end of code."; case Diagnostics::ET_ParserUnsignedError: return "Error parsing unsigned token: <$0>"; case Diagnostics::ET_ParserOverloadedType: return "Input value has unresolved overloaded type: $0"; case Diagnostics::ET_None: return ""; } llvm_unreachable("Unknown ErrorType value."); } void formatErrorString(StringRef FormatString, ArrayRef Args, llvm::raw_ostream &OS) { while (!FormatString.empty()) { std::pair Pieces = FormatString.split("$"); OS << Pieces.first.str(); if (Pieces.second.empty()) break; const char Next = Pieces.second.front(); FormatString = Pieces.second.drop_front(); if (Next >= '0' && Next <= '9') { const unsigned Index = Next - '0'; if (Index < Args.size()) { OS << Args[Index]; } else { OS << ""; } } } } static void maybeAddLineAndColumn(const SourceRange &Range, llvm::raw_ostream &OS) { if (Range.Start.Line > 0 && Range.Start.Column > 0) { OS << Range.Start.Line << ":" << Range.Start.Column << ": "; } } static void printContextFrameToStream(const Diagnostics::ContextFrame &Frame, llvm::raw_ostream &OS) { maybeAddLineAndColumn(Frame.Range, OS); formatErrorString(contextTypeToFormatString(Frame.Type), Frame.Args, OS); } static void printMessageToStream(const Diagnostics::ErrorContent::Message &Message, const Twine Prefix, llvm::raw_ostream &OS) { maybeAddLineAndColumn(Message.Range, OS); OS << Prefix; formatErrorString(errorTypeToFormatString(Message.Type), Message.Args, OS); } static void printErrorContentToStream(const Diagnostics::ErrorContent &Content, llvm::raw_ostream &OS) { if (Content.Messages.size() == 1) { printMessageToStream(Content.Messages[0], "", OS); } else { for (size_t i = 0, e = Content.Messages.size(); i != e; ++i) { if (i != 0) OS << "\n"; printMessageToStream(Content.Messages[i], "Candidate " + Twine(i + 1) + ": ", OS); } } } void Diagnostics::printToStream(llvm::raw_ostream &OS) const { for (size_t i = 0, e = Errors.size(); i != e; ++i) { if (i != 0) OS << "\n"; printErrorContentToStream(Errors[i], OS); } } std::string Diagnostics::toString() const { std::string S; llvm::raw_string_ostream OS(S); printToStream(OS); return OS.str(); } void Diagnostics::printToStreamFull(llvm::raw_ostream &OS) const { for (size_t i = 0, e = Errors.size(); i != e; ++i) { if (i != 0) OS << "\n"; const ErrorContent &Error = Errors[i]; for (size_t i = 0, e = Error.ContextStack.size(); i != e; ++i) { printContextFrameToStream(Error.ContextStack[i], OS); OS << "\n"; } printErrorContentToStream(Error, OS); } } std::string Diagnostics::toStringFull() const { std::string S; llvm::raw_string_ostream OS(S); printToStreamFull(OS); return OS.str(); } } // namespace dynamic } // namespace ast_matchers } // namespace clang