//===--- TextDiagnosticPrinter.cpp - Diagnostic Printer -------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This diagnostic client prints out their diagnostic messages. // //===----------------------------------------------------------------------===// #include "clang/Frontend/TextDiagnosticPrinter.h" #include "clang/Basic/SourceManager.h" #include "clang/Frontend/DiagnosticOptions.h" #include "clang/Lex/Lexer.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/raw_ostream.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/StringExtras.h" #include using namespace clang; static const enum llvm::raw_ostream::Colors noteColor = llvm::raw_ostream::BLACK; static const enum llvm::raw_ostream::Colors fixitColor = llvm::raw_ostream::GREEN; static const enum llvm::raw_ostream::Colors caretColor = llvm::raw_ostream::GREEN; static const enum llvm::raw_ostream::Colors warningColor = llvm::raw_ostream::MAGENTA; static const enum llvm::raw_ostream::Colors errorColor = llvm::raw_ostream::RED; static const enum llvm::raw_ostream::Colors fatalColor = llvm::raw_ostream::RED; // Used for changing only the bold attribute. static const enum llvm::raw_ostream::Colors savedColor = llvm::raw_ostream::SAVEDCOLOR; /// \brief Number of spaces to indent when word-wrapping. const unsigned WordWrapIndentation = 6; TextDiagnosticPrinter::TextDiagnosticPrinter(llvm::raw_ostream &os, const DiagnosticOptions &diags, bool _OwnsOutputStream) : OS(os), LangOpts(0), DiagOpts(&diags), LastCaretDiagnosticWasNote(0), OwnsOutputStream(_OwnsOutputStream) { } TextDiagnosticPrinter::~TextDiagnosticPrinter() { if (OwnsOutputStream) delete &OS; } void TextDiagnosticPrinter:: PrintIncludeStack(SourceLocation Loc, const SourceManager &SM) { if (Loc.isInvalid()) return; PresumedLoc PLoc = SM.getPresumedLoc(Loc); // Print out the other include frames first. PrintIncludeStack(PLoc.getIncludeLoc(), SM); if (DiagOpts->ShowLocation) OS << "In file included from " << PLoc.getFilename() << ':' << PLoc.getLine() << ":\n"; else OS << "In included file:\n"; } /// HighlightRange - Given a SourceRange and a line number, highlight (with ~'s) /// any characters in LineNo that intersect the SourceRange. void TextDiagnosticPrinter::HighlightRange(const CharSourceRange &R, const SourceManager &SM, unsigned LineNo, FileID FID, std::string &CaretLine, const std::string &SourceLine) { assert(CaretLine.size() == SourceLine.size() && "Expect a correspondence between source and caret line!"); if (!R.isValid()) return; SourceLocation Begin = SM.getInstantiationLoc(R.getBegin()); SourceLocation End = SM.getInstantiationLoc(R.getEnd()); // If the End location and the start location are the same and are a macro // location, then the range was something that came from a macro expansion // or _Pragma. If this is an object-like macro, the best we can do is to // highlight the range. If this is a function-like macro, we'd also like to // highlight the arguments. if (Begin == End && R.getEnd().isMacroID()) End = SM.getInstantiationRange(R.getEnd()).second; unsigned StartLineNo = SM.getInstantiationLineNumber(Begin); if (StartLineNo > LineNo || SM.getFileID(Begin) != FID) return; // No intersection. unsigned EndLineNo = SM.getInstantiationLineNumber(End); if (EndLineNo < LineNo || SM.getFileID(End) != FID) return; // No intersection. // Compute the column number of the start. unsigned StartColNo = 0; if (StartLineNo == LineNo) { StartColNo = SM.getInstantiationColumnNumber(Begin); if (StartColNo) --StartColNo; // Zero base the col #. } // Compute the column number of the end. unsigned EndColNo = CaretLine.size(); if (EndLineNo == LineNo) { EndColNo = SM.getInstantiationColumnNumber(End); if (EndColNo) { --EndColNo; // Zero base the col #. // Add in the length of the token, so that we cover multi-char tokens if // this is a token range. if (R.isTokenRange()) EndColNo += Lexer::MeasureTokenLength(End, SM, *LangOpts); } else { EndColNo = CaretLine.size(); } } assert(StartColNo <= EndColNo && "Invalid range!"); // Check that a token range does not highlight only whitespace. if (R.isTokenRange()) { // Pick the first non-whitespace column. while (StartColNo < SourceLine.size() && (SourceLine[StartColNo] == ' ' || SourceLine[StartColNo] == '\t')) ++StartColNo; // Pick the last non-whitespace column. if (EndColNo > SourceLine.size()) EndColNo = SourceLine.size(); while (EndColNo-1 && (SourceLine[EndColNo-1] == ' ' || SourceLine[EndColNo-1] == '\t')) --EndColNo; // If the start/end passed each other, then we are trying to highlight a range // that just exists in whitespace, which must be some sort of other bug. assert(StartColNo <= EndColNo && "Trying to highlight whitespace??"); } // Fill the range with ~'s. for (unsigned i = StartColNo; i < EndColNo; ++i) CaretLine[i] = '~'; } /// \brief When the source code line we want to print is too long for /// the terminal, select the "interesting" region. static void SelectInterestingSourceRegion(std::string &SourceLine, std::string &CaretLine, std::string &FixItInsertionLine, unsigned EndOfCaretToken, unsigned Columns) { unsigned MaxSize = std::max(SourceLine.size(), std::max(CaretLine.size(), FixItInsertionLine.size())); if (MaxSize > SourceLine.size()) SourceLine.resize(MaxSize, ' '); if (MaxSize > CaretLine.size()) CaretLine.resize(MaxSize, ' '); if (!FixItInsertionLine.empty() && MaxSize > FixItInsertionLine.size()) FixItInsertionLine.resize(MaxSize, ' '); // Find the slice that we need to display the full caret line // correctly. unsigned CaretStart = 0, CaretEnd = CaretLine.size(); for (; CaretStart != CaretEnd; ++CaretStart) if (!isspace(CaretLine[CaretStart])) break; for (; CaretEnd != CaretStart; --CaretEnd) if (!isspace(CaretLine[CaretEnd - 1])) break; // Make sure we don't chop the string shorter than the caret token // itself. if (CaretEnd < EndOfCaretToken) CaretEnd = EndOfCaretToken; // If we have a fix-it line, make sure the slice includes all of the // fix-it information. if (!FixItInsertionLine.empty()) { unsigned FixItStart = 0, FixItEnd = FixItInsertionLine.size(); for (; FixItStart != FixItEnd; ++FixItStart) if (!isspace(FixItInsertionLine[FixItStart])) break; for (; FixItEnd != FixItStart; --FixItEnd) if (!isspace(FixItInsertionLine[FixItEnd - 1])) break; if (FixItStart < CaretStart) CaretStart = FixItStart; if (FixItEnd > CaretEnd) CaretEnd = FixItEnd; } // CaretLine[CaretStart, CaretEnd) contains all of the interesting // parts of the caret line. While this slice is smaller than the // number of columns we have, try to grow the slice to encompass // more context. // If the end of the interesting region comes before we run out of // space in the terminal, start at the beginning of the line. if (Columns > 3 && CaretEnd < Columns - 3) CaretStart = 0; unsigned TargetColumns = Columns; if (TargetColumns > 8) TargetColumns -= 8; // Give us extra room for the ellipses. unsigned SourceLength = SourceLine.size(); while ((CaretEnd - CaretStart) < TargetColumns) { bool ExpandedRegion = false; // Move the start of the interesting region left until we've // pulled in something else interesting. if (CaretStart == 1) CaretStart = 0; else if (CaretStart > 1) { unsigned NewStart = CaretStart - 1; // Skip over any whitespace we see here; we're looking for // another bit of interesting text. while (NewStart && isspace(SourceLine[NewStart])) --NewStart; // Skip over this bit of "interesting" text. while (NewStart && !isspace(SourceLine[NewStart])) --NewStart; // Move up to the non-whitespace character we just saw. if (NewStart) ++NewStart; // If we're still within our limit, update the starting // position within the source/caret line. if (CaretEnd - NewStart <= TargetColumns) { CaretStart = NewStart; ExpandedRegion = true; } } // Move the end of the interesting region right until we've // pulled in something else interesting. if (CaretEnd != SourceLength) { assert(CaretEnd < SourceLength && "Unexpected caret position!"); unsigned NewEnd = CaretEnd; // Skip over any whitespace we see here; we're looking for // another bit of interesting text. while (NewEnd != SourceLength && isspace(SourceLine[NewEnd - 1])) ++NewEnd; // Skip over this bit of "interesting" text. while (NewEnd != SourceLength && !isspace(SourceLine[NewEnd - 1])) ++NewEnd; if (NewEnd - CaretStart <= TargetColumns) { CaretEnd = NewEnd; ExpandedRegion = true; } } if (!ExpandedRegion) break; } // [CaretStart, CaretEnd) is the slice we want. Update the various // output lines to show only this slice, with two-space padding // before the lines so that it looks nicer. if (CaretEnd < SourceLine.size()) SourceLine.replace(CaretEnd, std::string::npos, "..."); if (CaretEnd < CaretLine.size()) CaretLine.erase(CaretEnd, std::string::npos); if (FixItInsertionLine.size() > CaretEnd) FixItInsertionLine.erase(CaretEnd, std::string::npos); if (CaretStart > 2) { SourceLine.replace(0, CaretStart, " ..."); CaretLine.replace(0, CaretStart, " "); if (FixItInsertionLine.size() >= CaretStart) FixItInsertionLine.replace(0, CaretStart, " "); } } void TextDiagnosticPrinter::EmitCaretDiagnostic(SourceLocation Loc, CharSourceRange *Ranges, unsigned NumRanges, const SourceManager &SM, const FixItHint *Hints, unsigned NumHints, unsigned Columns, unsigned OnMacroInst, unsigned MacroSkipStart, unsigned MacroSkipEnd) { assert(LangOpts && "Unexpected diagnostic outside source file processing"); assert(!Loc.isInvalid() && "must have a valid source location here"); // If this is a macro ID, first emit information about where this was // instantiated (recursively) then emit information about where the token was // spelled from. if (!Loc.isFileID()) { // Whether to suppress printing this macro instantiation. bool Suppressed = OnMacroInst >= MacroSkipStart && OnMacroInst < MacroSkipEnd; SourceLocation OneLevelUp = SM.getImmediateInstantiationRange(Loc).first; // FIXME: Map ranges? EmitCaretDiagnostic(OneLevelUp, Ranges, NumRanges, SM, 0, 0, Columns, OnMacroInst + 1, MacroSkipStart, MacroSkipEnd); // Map the location. Loc = SM.getImmediateSpellingLoc(Loc); // Map the ranges. for (unsigned i = 0; i != NumRanges; ++i) { CharSourceRange &R = Ranges[i]; SourceLocation S = R.getBegin(), E = R.getEnd(); if (S.isMacroID()) R.setBegin(SM.getImmediateSpellingLoc(S)); if (E.isMacroID()) R.setEnd(SM.getImmediateSpellingLoc(E)); } if (!Suppressed) { // Get the pretty name, according to #line directives etc. PresumedLoc PLoc = SM.getPresumedLoc(Loc); // If this diagnostic is not in the main file, print out the // "included from" lines. if (LastWarningLoc != PLoc.getIncludeLoc()) { LastWarningLoc = PLoc.getIncludeLoc(); PrintIncludeStack(LastWarningLoc, SM); } if (DiagOpts->ShowLocation) { // Emit the file/line/column that this expansion came from. OS << PLoc.getFilename() << ':' << PLoc.getLine() << ':'; if (DiagOpts->ShowColumn) OS << PLoc.getColumn() << ':'; OS << ' '; } OS << "note: instantiated from:\n"; EmitCaretDiagnostic(Loc, Ranges, NumRanges, SM, Hints, NumHints, Columns, OnMacroInst + 1, MacroSkipStart, MacroSkipEnd); return; } if (OnMacroInst == MacroSkipStart) { // Tell the user that we've skipped contexts. OS << "note: (skipping " << (MacroSkipEnd - MacroSkipStart) << " contexts in backtrace; use -fmacro-backtrace-limit=0 to see " "all)\n"; } return; } // Decompose the location into a FID/Offset pair. std::pair LocInfo = SM.getDecomposedLoc(Loc); FileID FID = LocInfo.first; unsigned FileOffset = LocInfo.second; // Get information about the buffer it points into. bool Invalid = false; const char *BufStart = SM.getBufferData(FID, &Invalid).data(); if (Invalid) return; unsigned ColNo = SM.getColumnNumber(FID, FileOffset); unsigned CaretEndColNo = ColNo + Lexer::MeasureTokenLength(Loc, SM, *LangOpts); // Rewind from the current position to the start of the line. const char *TokPtr = BufStart+FileOffset; const char *LineStart = TokPtr-ColNo+1; // Column # is 1-based. // Compute the line end. Scan forward from the error position to the end of // the line. const char *LineEnd = TokPtr; while (*LineEnd != '\n' && *LineEnd != '\r' && *LineEnd != '\0') ++LineEnd; // FIXME: This shouldn't be necessary, but the CaretEndColNo can extend past // the source line length as currently being computed. See // test/Misc/message-length.c. CaretEndColNo = std::min(CaretEndColNo, unsigned(LineEnd - LineStart)); // Copy the line of code into an std::string for ease of manipulation. std::string SourceLine(LineStart, LineEnd); // Create a line for the caret that is filled with spaces that is the same // length as the line of source code. std::string CaretLine(LineEnd-LineStart, ' '); // Highlight all of the characters covered by Ranges with ~ characters. if (NumRanges) { unsigned LineNo = SM.getLineNumber(FID, FileOffset); for (unsigned i = 0, e = NumRanges; i != e; ++i) HighlightRange(Ranges[i], SM, LineNo, FID, CaretLine, SourceLine); } // Next, insert the caret itself. if (ColNo-1 < CaretLine.size()) CaretLine[ColNo-1] = '^'; else CaretLine.push_back('^'); // Scan the source line, looking for tabs. If we find any, manually expand // them to spaces and update the CaretLine to match. for (unsigned i = 0; i != SourceLine.size(); ++i) { if (SourceLine[i] != '\t') continue; // Replace this tab with at least one space. SourceLine[i] = ' '; // Compute the number of spaces we need to insert. unsigned TabStop = DiagOpts->TabStop; assert(0 < TabStop && TabStop <= DiagnosticOptions::MaxTabStop && "Invalid -ftabstop value"); unsigned NumSpaces = ((i+TabStop)/TabStop * TabStop) - (i+1); assert(NumSpaces < TabStop && "Invalid computation of space amt"); // Insert spaces into the SourceLine. SourceLine.insert(i+1, NumSpaces, ' '); // Insert spaces or ~'s into CaretLine. CaretLine.insert(i+1, NumSpaces, CaretLine[i] == '~' ? '~' : ' '); } // If we are in -fdiagnostics-print-source-range-info mode, we are trying to // produce easily machine parsable output. Add a space before the source line // and the caret to make it trivial to tell the main diagnostic line from what // the user is intended to see. if (DiagOpts->ShowSourceRanges) { SourceLine = ' ' + SourceLine; CaretLine = ' ' + CaretLine; } std::string FixItInsertionLine; if (NumHints && DiagOpts->ShowFixits) { for (const FixItHint *Hint = Hints, *LastHint = Hints + NumHints; Hint != LastHint; ++Hint) { if (!Hint->CodeToInsert.empty()) { // We have an insertion hint. Determine whether the inserted // code is on the same line as the caret. std::pair HintLocInfo = SM.getDecomposedInstantiationLoc(Hint->RemoveRange.getBegin()); if (SM.getLineNumber(HintLocInfo.first, HintLocInfo.second) == SM.getLineNumber(FID, FileOffset)) { // Insert the new code into the line just below the code // that the user wrote. unsigned HintColNo = SM.getColumnNumber(HintLocInfo.first, HintLocInfo.second); unsigned LastColumnModified = HintColNo - 1 + Hint->CodeToInsert.size(); if (LastColumnModified > FixItInsertionLine.size()) FixItInsertionLine.resize(LastColumnModified, ' '); std::copy(Hint->CodeToInsert.begin(), Hint->CodeToInsert.end(), FixItInsertionLine.begin() + HintColNo - 1); } else { FixItInsertionLine.clear(); break; } } } // Now that we have the entire fixit line, expand the tabs in it. // Since we don't want to insert spaces in the middle of a word, // find each word and the column it should line up with and insert // spaces until they match. if (!FixItInsertionLine.empty()) { unsigned FixItPos = 0; unsigned LinePos = 0; unsigned TabExpandedCol = 0; unsigned LineLength = LineEnd - LineStart; while (FixItPos < FixItInsertionLine.size() && LinePos < LineLength) { // Find the next word in the FixIt line. while (FixItPos < FixItInsertionLine.size() && FixItInsertionLine[FixItPos] == ' ') ++FixItPos; unsigned CharDistance = FixItPos - TabExpandedCol; // Walk forward in the source line, keeping track of // the tab-expanded column. for (unsigned I = 0; I < CharDistance; ++I, ++LinePos) if (LinePos >= LineLength || LineStart[LinePos] != '\t') ++TabExpandedCol; else TabExpandedCol = (TabExpandedCol/DiagOpts->TabStop + 1) * DiagOpts->TabStop; // Adjust the fixit line to match this column. FixItInsertionLine.insert(FixItPos, TabExpandedCol-FixItPos, ' '); FixItPos = TabExpandedCol; // Walk to the end of the word. while (FixItPos < FixItInsertionLine.size() && FixItInsertionLine[FixItPos] != ' ') ++FixItPos; } } } // If the source line is too long for our terminal, select only the // "interesting" source region within that line. if (Columns && SourceLine.size() > Columns) SelectInterestingSourceRegion(SourceLine, CaretLine, FixItInsertionLine, CaretEndColNo, Columns); // Finally, remove any blank spaces from the end of CaretLine. while (CaretLine[CaretLine.size()-1] == ' ') CaretLine.erase(CaretLine.end()-1); // Emit what we have computed. OS << SourceLine << '\n'; if (DiagOpts->ShowColors) OS.changeColor(caretColor, true); OS << CaretLine << '\n'; if (DiagOpts->ShowColors) OS.resetColor(); if (!FixItInsertionLine.empty()) { if (DiagOpts->ShowColors) // Print fixit line in color OS.changeColor(fixitColor, false); if (DiagOpts->ShowSourceRanges) OS << ' '; OS << FixItInsertionLine << '\n'; if (DiagOpts->ShowColors) OS.resetColor(); } if (DiagOpts->ShowParseableFixits) { // We follow FixItRewriter's example in not (yet) handling // fix-its in macros. bool BadApples = false; for (const FixItHint *Hint = Hints; Hint != Hints + NumHints; ++Hint) { if (Hint->RemoveRange.isInvalid() || Hint->RemoveRange.getBegin().isMacroID() || Hint->RemoveRange.getEnd().isMacroID()) { BadApples = true; break; } } if (!BadApples) { for (const FixItHint *Hint = Hints; Hint != Hints + NumHints; ++Hint) { SourceLocation B = Hint->RemoveRange.getBegin(); SourceLocation E = Hint->RemoveRange.getEnd(); std::pair BInfo = SM.getDecomposedLoc(B); std::pair EInfo = SM.getDecomposedLoc(E); // Adjust for token ranges. if (Hint->RemoveRange.isTokenRange()) EInfo.second += Lexer::MeasureTokenLength(E, SM, *LangOpts); // We specifically do not do word-wrapping or tab-expansion here, // because this is supposed to be easy to parse. OS << "fix-it:\""; OS.write_escaped(SM.getPresumedLoc(B).getFilename()); OS << "\":{" << SM.getLineNumber(BInfo.first, BInfo.second) << ':' << SM.getColumnNumber(BInfo.first, BInfo.second) << '-' << SM.getLineNumber(EInfo.first, EInfo.second) << ':' << SM.getColumnNumber(EInfo.first, EInfo.second) << "}:\""; OS.write_escaped(Hint->CodeToInsert); OS << "\"\n"; } } } } /// \brief Skip over whitespace in the string, starting at the given /// index. /// /// \returns The index of the first non-whitespace character that is /// greater than or equal to Idx or, if no such character exists, /// returns the end of the string. static unsigned skipWhitespace(unsigned Idx, const llvm::SmallVectorImpl &Str, unsigned Length) { while (Idx < Length && isspace(Str[Idx])) ++Idx; return Idx; } /// \brief If the given character is the start of some kind of /// balanced punctuation (e.g., quotes or parentheses), return the /// character that will terminate the punctuation. /// /// \returns The ending punctuation character, if any, or the NULL /// character if the input character does not start any punctuation. static inline char findMatchingPunctuation(char c) { switch (c) { case '\'': return '\''; case '`': return '\''; case '"': return '"'; case '(': return ')'; case '[': return ']'; case '{': return '}'; default: break; } return 0; } /// \brief Find the end of the word starting at the given offset /// within a string. /// /// \returns the index pointing one character past the end of the /// word. static unsigned findEndOfWord(unsigned Start, const llvm::SmallVectorImpl &Str, unsigned Length, unsigned Column, unsigned Columns) { assert(Start < Str.size() && "Invalid start position!"); unsigned End = Start + 1; // If we are already at the end of the string, take that as the word. if (End == Str.size()) return End; // Determine if the start of the string is actually opening // punctuation, e.g., a quote or parentheses. char EndPunct = findMatchingPunctuation(Str[Start]); if (!EndPunct) { // This is a normal word. Just find the first space character. while (End < Length && !isspace(Str[End])) ++End; return End; } // We have the start of a balanced punctuation sequence (quotes, // parentheses, etc.). Determine the full sequence is. llvm::SmallString<16> PunctuationEndStack; PunctuationEndStack.push_back(EndPunct); while (End < Length && !PunctuationEndStack.empty()) { if (Str[End] == PunctuationEndStack.back()) PunctuationEndStack.pop_back(); else if (char SubEndPunct = findMatchingPunctuation(Str[End])) PunctuationEndStack.push_back(SubEndPunct); ++End; } // Find the first space character after the punctuation ended. while (End < Length && !isspace(Str[End])) ++End; unsigned PunctWordLength = End - Start; if (// If the word fits on this line Column + PunctWordLength <= Columns || // ... or the word is "short enough" to take up the next line // without too much ugly white space PunctWordLength < Columns/3) return End; // Take the whole thing as a single "word". // The whole quoted/parenthesized string is too long to print as a // single "word". Instead, find the "word" that starts just after // the punctuation and use that end-point instead. This will recurse // until it finds something small enough to consider a word. return findEndOfWord(Start + 1, Str, Length, Column + 1, Columns); } /// \brief Print the given string to a stream, word-wrapping it to /// some number of columns in the process. /// /// \brief OS the stream to which the word-wrapping string will be /// emitted. /// /// \brief Str the string to word-wrap and output. /// /// \brief Columns the number of columns to word-wrap to. /// /// \brief Column the column number at which the first character of \p /// Str will be printed. This will be non-zero when part of the first /// line has already been printed. /// /// \brief Indentation the number of spaces to indent any lines beyond /// the first line. /// /// \returns true if word-wrapping was required, or false if the /// string fit on the first line. static bool PrintWordWrapped(llvm::raw_ostream &OS, const llvm::SmallVectorImpl &Str, unsigned Columns, unsigned Column = 0, unsigned Indentation = WordWrapIndentation) { unsigned Length = Str.size(); // If there is a newline in this message somewhere, find that // newline and split the message into the part before the newline // (which will be word-wrapped) and the part from the newline one // (which will be emitted unchanged). for (unsigned I = 0; I != Length; ++I) if (Str[I] == '\n') { Length = I; break; } // The string used to indent each line. llvm::SmallString<16> IndentStr; IndentStr.assign(Indentation, ' '); bool Wrapped = false; for (unsigned WordStart = 0, WordEnd; WordStart < Length; WordStart = WordEnd) { // Find the beginning of the next word. WordStart = skipWhitespace(WordStart, Str, Length); if (WordStart == Length) break; // Find the end of this word. WordEnd = findEndOfWord(WordStart, Str, Length, Column, Columns); // Does this word fit on the current line? unsigned WordLength = WordEnd - WordStart; if (Column + WordLength < Columns) { // This word fits on the current line; print it there. if (WordStart) { OS << ' '; Column += 1; } OS.write(&Str[WordStart], WordLength); Column += WordLength; continue; } // This word does not fit on the current line, so wrap to the next // line. OS << '\n'; OS.write(&IndentStr[0], Indentation); OS.write(&Str[WordStart], WordLength); Column = Indentation + WordLength; Wrapped = true; } if (Length == Str.size()) return Wrapped; // We're done. // There is a newline in the message, followed by something that // will not be word-wrapped. Print that. OS.write(&Str[Length], Str.size() - Length); return true; } void TextDiagnosticPrinter::HandleDiagnostic(Diagnostic::Level Level, const DiagnosticInfo &Info) { // Keeps track of the the starting position of the location // information (e.g., "foo.c:10:4:") that precedes the error // message. We use this information to determine how long the // file+line+column number prefix is. uint64_t StartOfLocationInfo = OS.tell(); if (!Prefix.empty()) OS << Prefix << ": "; // If the location is specified, print out a file/line/col and include trace // if enabled. if (Info.getLocation().isValid()) { const SourceManager &SM = Info.getLocation().getManager(); PresumedLoc PLoc = SM.getPresumedLoc(Info.getLocation()); unsigned LineNo = PLoc.getLine(); // First, if this diagnostic is not in the main file, print out the // "included from" lines. if (LastWarningLoc != PLoc.getIncludeLoc()) { LastWarningLoc = PLoc.getIncludeLoc(); PrintIncludeStack(LastWarningLoc, SM); StartOfLocationInfo = OS.tell(); } // Compute the column number. if (DiagOpts->ShowLocation) { if (DiagOpts->ShowColors) OS.changeColor(savedColor, true); // Emit a Visual Studio compatible line number syntax. if (LangOpts && LangOpts->Microsoft) { OS << PLoc.getFilename() << '(' << LineNo << ')'; OS << " : "; } else { OS << PLoc.getFilename() << ':' << LineNo << ':'; if (DiagOpts->ShowColumn) if (unsigned ColNo = PLoc.getColumn()) OS << ColNo << ':'; } if (DiagOpts->ShowSourceRanges && Info.getNumRanges()) { FileID CaretFileID = SM.getFileID(SM.getInstantiationLoc(Info.getLocation())); bool PrintedRange = false; for (unsigned i = 0, e = Info.getNumRanges(); i != e; ++i) { // Ignore invalid ranges. if (!Info.getRange(i).isValid()) continue; SourceLocation B = Info.getRange(i).getBegin(); SourceLocation E = Info.getRange(i).getEnd(); B = SM.getInstantiationLoc(B); E = SM.getInstantiationLoc(E); // If the End location and the start location are the same and are a // macro location, then the range was something that came from a macro // expansion or _Pragma. If this is an object-like macro, the best we // can do is to highlight the range. If this is a function-like // macro, we'd also like to highlight the arguments. if (B == E && Info.getRange(i).getEnd().isMacroID()) E = SM.getInstantiationRange(Info.getRange(i).getEnd()).second; std::pair BInfo = SM.getDecomposedLoc(B); std::pair EInfo = SM.getDecomposedLoc(E); // If the start or end of the range is in another file, just discard // it. if (BInfo.first != CaretFileID || EInfo.first != CaretFileID) continue; // Add in the length of the token, so that we cover multi-char tokens. unsigned TokSize = 0; if (Info.getRange(i).isTokenRange()) TokSize = Lexer::MeasureTokenLength(E, SM, *LangOpts); OS << '{' << SM.getLineNumber(BInfo.first, BInfo.second) << ':' << SM.getColumnNumber(BInfo.first, BInfo.second) << '-' << SM.getLineNumber(EInfo.first, EInfo.second) << ':' << (SM.getColumnNumber(EInfo.first, EInfo.second)+TokSize) << '}'; PrintedRange = true; } if (PrintedRange) OS << ':'; } OS << ' '; if (DiagOpts->ShowColors) OS.resetColor(); } } if (DiagOpts->ShowColors) { // Print diagnostic category in bold and color switch (Level) { case Diagnostic::Ignored: assert(0 && "Invalid diagnostic type"); case Diagnostic::Note: OS.changeColor(noteColor, true); break; case Diagnostic::Warning: OS.changeColor(warningColor, true); break; case Diagnostic::Error: OS.changeColor(errorColor, true); break; case Diagnostic::Fatal: OS.changeColor(fatalColor, true); break; } } switch (Level) { case Diagnostic::Ignored: assert(0 && "Invalid diagnostic type"); case Diagnostic::Note: OS << "note: "; break; case Diagnostic::Warning: OS << "warning: "; break; case Diagnostic::Error: OS << "error: "; break; case Diagnostic::Fatal: OS << "fatal error: "; break; } if (DiagOpts->ShowColors) OS.resetColor(); llvm::SmallString<100> OutStr; Info.FormatDiagnostic(OutStr); std::string OptionName; if (DiagOpts->ShowOptionNames) { if (const char *Opt = Diagnostic::getWarningOptionForDiag(Info.getID())) { OptionName = "-W"; OptionName += Opt; } else if (Info.getID() == diag::fatal_too_many_errors) { OptionName = "-ferror-limit="; } else { // If the diagnostic is an extension diagnostic and not enabled by default // then it must have been turned on with -pedantic. bool EnabledByDefault; if (Diagnostic::isBuiltinExtensionDiag(Info.getID(), EnabledByDefault) && !EnabledByDefault) OptionName = "-pedantic"; } } // If the user wants to see category information, include it too. unsigned DiagCategory = 0; if (DiagOpts->ShowCategories) DiagCategory = Diagnostic::getCategoryNumberForDiag(Info.getID()); // If there is any categorization information, include it. if (!OptionName.empty() || DiagCategory != 0) { bool NeedsComma = false; OutStr += " ["; if (!OptionName.empty()) { OutStr += OptionName; NeedsComma = true; } if (DiagCategory) { if (NeedsComma) OutStr += ','; if (DiagOpts->ShowCategories == 1) OutStr += llvm::utostr(DiagCategory); else { assert(DiagOpts->ShowCategories == 2 && "Invalid ShowCategories value"); OutStr += Diagnostic::getCategoryNameFromID(DiagCategory); } } OutStr += "]"; } if (DiagOpts->ShowColors) { // Print warnings, errors and fatal errors in bold, no color switch (Level) { case Diagnostic::Warning: OS.changeColor(savedColor, true); break; case Diagnostic::Error: OS.changeColor(savedColor, true); break; case Diagnostic::Fatal: OS.changeColor(savedColor, true); break; default: break; //don't bold notes } } if (DiagOpts->MessageLength) { // We will be word-wrapping the error message, so compute the // column number where we currently are (after printing the // location information). unsigned Column = OS.tell() - StartOfLocationInfo; PrintWordWrapped(OS, OutStr, DiagOpts->MessageLength, Column); } else { OS.write(OutStr.begin(), OutStr.size()); } OS << '\n'; if (DiagOpts->ShowColors) OS.resetColor(); // If caret diagnostics are enabled and we have location, we want to // emit the caret. However, we only do this if the location moved // from the last diagnostic, if the last diagnostic was a note that // was part of a different warning or error diagnostic, or if the // diagnostic has ranges. We don't want to emit the same caret // multiple times if one loc has multiple diagnostics. if (DiagOpts->ShowCarets && Info.getLocation().isValid() && ((LastLoc != Info.getLocation()) || Info.getNumRanges() || (LastCaretDiagnosticWasNote && Level != Diagnostic::Note) || Info.getNumFixItHints())) { // Cache the LastLoc, it allows us to omit duplicate source/caret spewage. LastLoc = Info.getLocation(); LastCaretDiagnosticWasNote = (Level == Diagnostic::Note); // Get the ranges into a local array we can hack on. CharSourceRange Ranges[20]; unsigned NumRanges = Info.getNumRanges(); assert(NumRanges < 20 && "Out of space"); for (unsigned i = 0; i != NumRanges; ++i) Ranges[i] = Info.getRange(i); unsigned NumHints = Info.getNumFixItHints(); for (unsigned i = 0; i != NumHints; ++i) { const FixItHint &Hint = Info.getFixItHint(i); if (Hint.RemoveRange.isValid()) { assert(NumRanges < 20 && "Out of space"); Ranges[NumRanges++] = Hint.RemoveRange; } } unsigned MacroInstSkipStart = 0, MacroInstSkipEnd = 0; if (DiagOpts && DiagOpts->MacroBacktraceLimit && !LastLoc.isFileID()) { // Compute the length of the macro-instantiation backtrace, so that we // can establish which steps in the macro backtrace we'll skip. SourceLocation Loc = LastLoc; unsigned Depth = 0; do { ++Depth; Loc = LastLoc.getManager().getImmediateInstantiationRange(Loc).first; } while (!Loc.isFileID()); if (Depth > DiagOpts->MacroBacktraceLimit) { MacroInstSkipStart = DiagOpts->MacroBacktraceLimit / 2 + DiagOpts->MacroBacktraceLimit % 2; MacroInstSkipEnd = Depth - DiagOpts->MacroBacktraceLimit / 2; } } EmitCaretDiagnostic(LastLoc, Ranges, NumRanges, LastLoc.getManager(), Info.getFixItHints(), Info.getNumFixItHints(), DiagOpts->MessageLength, 0, MacroInstSkipStart, MacroInstSkipEnd); } OS.flush(); }