//===--- Rewriter.cpp - Code rewriting interface --------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the Rewriter class, which is used for code // transformations. // //===----------------------------------------------------------------------===// #include "clang/Rewrite/Core/Rewriter.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/DiagnosticIDs.h" #include "clang/Basic/SourceManager.h" #include "clang/Lex/Lexer.h" #include "llvm/ADT/SmallString.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/raw_ostream.h" using namespace clang; raw_ostream &RewriteBuffer::write(raw_ostream &os) const { // Walk RewriteRope chunks efficiently using MoveToNextPiece() instead of the // character iterator. for (RopePieceBTreeIterator I = begin(), E = end(); I != E; I.MoveToNextPiece()) os << I.piece(); return os; } /// \brief Return true if this character is non-new-line whitespace: /// ' ', '\\t', '\\f', '\\v', '\\r'. static inline bool isWhitespaceExceptNL(unsigned char c) { switch (c) { case ' ': case '\t': case '\f': case '\v': case '\r': return true; default: return false; } } void RewriteBuffer::RemoveText(unsigned OrigOffset, unsigned Size, bool removeLineIfEmpty) { // Nothing to remove, exit early. if (Size == 0) return; unsigned RealOffset = getMappedOffset(OrigOffset, true); assert(RealOffset+Size <= Buffer.size() && "Invalid location"); // Remove the dead characters. Buffer.erase(RealOffset, Size); // Add a delta so that future changes are offset correctly. AddReplaceDelta(OrigOffset, -Size); if (removeLineIfEmpty) { // Find the line that the remove occurred and if it is completely empty // remove the line as well. iterator curLineStart = begin(); unsigned curLineStartOffs = 0; iterator posI = begin(); for (unsigned i = 0; i != RealOffset; ++i) { if (*posI == '\n') { curLineStart = posI; ++curLineStart; curLineStartOffs = i + 1; } ++posI; } unsigned lineSize = 0; posI = curLineStart; while (posI != end() && isWhitespaceExceptNL(*posI)) { ++posI; ++lineSize; } if (posI != end() && *posI == '\n') { Buffer.erase(curLineStartOffs, lineSize + 1/* + '\n'*/); AddReplaceDelta(curLineStartOffs, -(lineSize + 1/* + '\n'*/)); } } } void RewriteBuffer::InsertText(unsigned OrigOffset, StringRef Str, bool InsertAfter) { // Nothing to insert, exit early. if (Str.empty()) return; unsigned RealOffset = getMappedOffset(OrigOffset, InsertAfter); Buffer.insert(RealOffset, Str.begin(), Str.end()); // Add a delta so that future changes are offset correctly. AddInsertDelta(OrigOffset, Str.size()); } /// ReplaceText - This method replaces a range of characters in the input /// buffer with a new string. This is effectively a combined "remove+insert" /// operation. void RewriteBuffer::ReplaceText(unsigned OrigOffset, unsigned OrigLength, StringRef NewStr) { unsigned RealOffset = getMappedOffset(OrigOffset, true); Buffer.erase(RealOffset, OrigLength); Buffer.insert(RealOffset, NewStr.begin(), NewStr.end()); if (OrigLength != NewStr.size()) AddReplaceDelta(OrigOffset, NewStr.size() - OrigLength); } //===----------------------------------------------------------------------===// // Rewriter class //===----------------------------------------------------------------------===// /// getRangeSize - Return the size in bytes of the specified range if they /// are in the same file. If not, this returns -1. int Rewriter::getRangeSize(const CharSourceRange &Range, RewriteOptions opts) const { if (!isRewritable(Range.getBegin()) || !isRewritable(Range.getEnd())) return -1; FileID StartFileID, EndFileID; unsigned StartOff, EndOff; StartOff = getLocationOffsetAndFileID(Range.getBegin(), StartFileID); EndOff = getLocationOffsetAndFileID(Range.getEnd(), EndFileID); if (StartFileID != EndFileID) return -1; // If edits have been made to this buffer, the delta between the range may // have changed. std::map<FileID, RewriteBuffer>::const_iterator I = RewriteBuffers.find(StartFileID); if (I != RewriteBuffers.end()) { const RewriteBuffer &RB = I->second; EndOff = RB.getMappedOffset(EndOff, opts.IncludeInsertsAtEndOfRange); StartOff = RB.getMappedOffset(StartOff, !opts.IncludeInsertsAtBeginOfRange); } // Adjust the end offset to the end of the last token, instead of being the // start of the last token if this is a token range. if (Range.isTokenRange()) EndOff += Lexer::MeasureTokenLength(Range.getEnd(), *SourceMgr, *LangOpts); return EndOff-StartOff; } int Rewriter::getRangeSize(SourceRange Range, RewriteOptions opts) const { return getRangeSize(CharSourceRange::getTokenRange(Range), opts); } /// getRewrittenText - Return the rewritten form of the text in the specified /// range. If the start or end of the range was unrewritable or if they are /// in different buffers, this returns an empty string. /// /// Note that this method is not particularly efficient. /// std::string Rewriter::getRewrittenText(SourceRange Range) const { if (!isRewritable(Range.getBegin()) || !isRewritable(Range.getEnd())) return ""; FileID StartFileID, EndFileID; unsigned StartOff, EndOff; StartOff = getLocationOffsetAndFileID(Range.getBegin(), StartFileID); EndOff = getLocationOffsetAndFileID(Range.getEnd(), EndFileID); if (StartFileID != EndFileID) return ""; // Start and end in different buffers. // If edits have been made to this buffer, the delta between the range may // have changed. std::map<FileID, RewriteBuffer>::const_iterator I = RewriteBuffers.find(StartFileID); if (I == RewriteBuffers.end()) { // If the buffer hasn't been rewritten, just return the text from the input. const char *Ptr = SourceMgr->getCharacterData(Range.getBegin()); // Adjust the end offset to the end of the last token, instead of being the // start of the last token. EndOff += Lexer::MeasureTokenLength(Range.getEnd(), *SourceMgr, *LangOpts); return std::string(Ptr, Ptr+EndOff-StartOff); } const RewriteBuffer &RB = I->second; EndOff = RB.getMappedOffset(EndOff, true); StartOff = RB.getMappedOffset(StartOff); // Adjust the end offset to the end of the last token, instead of being the // start of the last token. EndOff += Lexer::MeasureTokenLength(Range.getEnd(), *SourceMgr, *LangOpts); // Advance the iterators to the right spot, yay for linear time algorithms. RewriteBuffer::iterator Start = RB.begin(); std::advance(Start, StartOff); RewriteBuffer::iterator End = Start; std::advance(End, EndOff-StartOff); return std::string(Start, End); } unsigned Rewriter::getLocationOffsetAndFileID(SourceLocation Loc, FileID &FID) const { assert(Loc.isValid() && "Invalid location"); std::pair<FileID,unsigned> V = SourceMgr->getDecomposedLoc(Loc); FID = V.first; return V.second; } /// getEditBuffer - Get or create a RewriteBuffer for the specified FileID. /// RewriteBuffer &Rewriter::getEditBuffer(FileID FID) { std::map<FileID, RewriteBuffer>::iterator I = RewriteBuffers.lower_bound(FID); if (I != RewriteBuffers.end() && I->first == FID) return I->second; I = RewriteBuffers.insert(I, std::make_pair(FID, RewriteBuffer())); StringRef MB = SourceMgr->getBufferData(FID); I->second.Initialize(MB.begin(), MB.end()); return I->second; } /// InsertText - Insert the specified string at the specified location in the /// original buffer. bool Rewriter::InsertText(SourceLocation Loc, StringRef Str, bool InsertAfter, bool indentNewLines) { if (!isRewritable(Loc)) return true; FileID FID; unsigned StartOffs = getLocationOffsetAndFileID(Loc, FID); SmallString<128> indentedStr; if (indentNewLines && Str.find('\n') != StringRef::npos) { StringRef MB = SourceMgr->getBufferData(FID); unsigned lineNo = SourceMgr->getLineNumber(FID, StartOffs) - 1; const SrcMgr::ContentCache * Content = SourceMgr->getSLocEntry(FID).getFile().getContentCache(); unsigned lineOffs = Content->SourceLineCache[lineNo]; // Find the whitespace at the start of the line. StringRef indentSpace; { unsigned i = lineOffs; while (isWhitespaceExceptNL(MB[i])) ++i; indentSpace = MB.substr(lineOffs, i-lineOffs); } SmallVector<StringRef, 4> lines; Str.split(lines, "\n"); for (unsigned i = 0, e = lines.size(); i != e; ++i) { indentedStr += lines[i]; if (i < e-1) { indentedStr += '\n'; indentedStr += indentSpace; } } Str = indentedStr.str(); } getEditBuffer(FID).InsertText(StartOffs, Str, InsertAfter); return false; } bool Rewriter::InsertTextAfterToken(SourceLocation Loc, StringRef Str) { if (!isRewritable(Loc)) return true; FileID FID; unsigned StartOffs = getLocationOffsetAndFileID(Loc, FID); RewriteOptions rangeOpts; rangeOpts.IncludeInsertsAtBeginOfRange = false; StartOffs += getRangeSize(SourceRange(Loc, Loc), rangeOpts); getEditBuffer(FID).InsertText(StartOffs, Str, /*InsertAfter*/true); return false; } /// RemoveText - Remove the specified text region. bool Rewriter::RemoveText(SourceLocation Start, unsigned Length, RewriteOptions opts) { if (!isRewritable(Start)) return true; FileID FID; unsigned StartOffs = getLocationOffsetAndFileID(Start, FID); getEditBuffer(FID).RemoveText(StartOffs, Length, opts.RemoveLineIfEmpty); return false; } /// ReplaceText - This method replaces a range of characters in the input /// buffer with a new string. This is effectively a combined "remove/insert" /// operation. bool Rewriter::ReplaceText(SourceLocation Start, unsigned OrigLength, StringRef NewStr) { if (!isRewritable(Start)) return true; FileID StartFileID; unsigned StartOffs = getLocationOffsetAndFileID(Start, StartFileID); getEditBuffer(StartFileID).ReplaceText(StartOffs, OrigLength, NewStr); return false; } bool Rewriter::ReplaceText(SourceRange range, SourceRange replacementRange) { if (!isRewritable(range.getBegin())) return true; if (!isRewritable(range.getEnd())) return true; if (replacementRange.isInvalid()) return true; SourceLocation start = range.getBegin(); unsigned origLength = getRangeSize(range); unsigned newLength = getRangeSize(replacementRange); FileID FID; unsigned newOffs = getLocationOffsetAndFileID(replacementRange.getBegin(), FID); StringRef MB = SourceMgr->getBufferData(FID); return ReplaceText(start, origLength, MB.substr(newOffs, newLength)); } bool Rewriter::IncreaseIndentation(CharSourceRange range, SourceLocation parentIndent) { if (range.isInvalid()) return true; if (!isRewritable(range.getBegin())) return true; if (!isRewritable(range.getEnd())) return true; if (!isRewritable(parentIndent)) return true; FileID StartFileID, EndFileID, parentFileID; unsigned StartOff, EndOff, parentOff; StartOff = getLocationOffsetAndFileID(range.getBegin(), StartFileID); EndOff = getLocationOffsetAndFileID(range.getEnd(), EndFileID); parentOff = getLocationOffsetAndFileID(parentIndent, parentFileID); if (StartFileID != EndFileID || StartFileID != parentFileID) return true; if (StartOff > EndOff) return true; FileID FID = StartFileID; StringRef MB = SourceMgr->getBufferData(FID); unsigned parentLineNo = SourceMgr->getLineNumber(FID, parentOff) - 1; unsigned startLineNo = SourceMgr->getLineNumber(FID, StartOff) - 1; unsigned endLineNo = SourceMgr->getLineNumber(FID, EndOff) - 1; const SrcMgr::ContentCache * Content = SourceMgr->getSLocEntry(FID).getFile().getContentCache(); // Find where the lines start. unsigned parentLineOffs = Content->SourceLineCache[parentLineNo]; unsigned startLineOffs = Content->SourceLineCache[startLineNo]; // Find the whitespace at the start of each line. StringRef parentSpace, startSpace; { unsigned i = parentLineOffs; while (isWhitespaceExceptNL(MB[i])) ++i; parentSpace = MB.substr(parentLineOffs, i-parentLineOffs); i = startLineOffs; while (isWhitespaceExceptNL(MB[i])) ++i; startSpace = MB.substr(startLineOffs, i-startLineOffs); } if (parentSpace.size() >= startSpace.size()) return true; if (!startSpace.startswith(parentSpace)) return true; StringRef indent = startSpace.substr(parentSpace.size()); // Indent the lines between start/end offsets. RewriteBuffer &RB = getEditBuffer(FID); for (unsigned lineNo = startLineNo; lineNo <= endLineNo; ++lineNo) { unsigned offs = Content->SourceLineCache[lineNo]; unsigned i = offs; while (isWhitespaceExceptNL(MB[i])) ++i; StringRef origIndent = MB.substr(offs, i-offs); if (origIndent.startswith(startSpace)) RB.InsertText(offs, indent, /*InsertAfter=*/false); } return false; } namespace { // A wrapper for a file stream that atomically overwrites the target. // // Creates a file output stream for a temporary file in the constructor, // which is later accessible via getStream() if ok() return true. // Flushes the stream and moves the temporary file to the target location // in the destructor. class AtomicallyMovedFile { public: AtomicallyMovedFile(DiagnosticsEngine &Diagnostics, StringRef Filename, bool &AllWritten) : Diagnostics(Diagnostics), Filename(Filename), AllWritten(AllWritten) { TempFilename = Filename; TempFilename += "-%%%%%%%%"; int FD; if (llvm::sys::fs::createUniqueFile(TempFilename, FD, TempFilename)) { AllWritten = false; Diagnostics.Report(clang::diag::err_unable_to_make_temp) << TempFilename; } else { FileStream.reset(new llvm::raw_fd_ostream(FD, /*shouldClose=*/true)); } } ~AtomicallyMovedFile() { if (!ok()) return; // Close (will also flush) theFileStream. FileStream->close(); if (std::error_code ec = llvm::sys::fs::rename(TempFilename, Filename)) { AllWritten = false; Diagnostics.Report(clang::diag::err_unable_to_rename_temp) << TempFilename << Filename << ec.message(); // If the remove fails, there's not a lot we can do - this is already an // error. llvm::sys::fs::remove(TempFilename); } } bool ok() { return (bool)FileStream; } raw_ostream &getStream() { return *FileStream; } private: DiagnosticsEngine &Diagnostics; StringRef Filename; SmallString<128> TempFilename; std::unique_ptr<llvm::raw_fd_ostream> FileStream; bool &AllWritten; }; } // end anonymous namespace bool Rewriter::overwriteChangedFiles() { bool AllWritten = true; for (buffer_iterator I = buffer_begin(), E = buffer_end(); I != E; ++I) { const FileEntry *Entry = getSourceMgr().getFileEntryForID(I->first); AtomicallyMovedFile File(getSourceMgr().getDiagnostics(), Entry->getName(), AllWritten); if (File.ok()) { I->second.write(File.getStream()); } } return !AllWritten; }