//===--- TestSupport.cpp - Clang-based refactoring tool -------------------===// // // 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 // //===----------------------------------------------------------------------===// /// /// \file /// This file implements routines that provide refactoring testing /// utilities. /// //===----------------------------------------------------------------------===// #include "TestSupport.h" #include "clang/Basic/DiagnosticError.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/SourceManager.h" #include "clang/Lex/Lexer.h" #include "llvm/ADT/STLExtras.h" #include "llvm/Support/Error.h" #include "llvm/Support/ErrorOr.h" #include "llvm/Support/LineIterator.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Regex.h" #include "llvm/Support/raw_ostream.h" using namespace llvm; namespace clang { namespace refactor { void TestSelectionRangesInFile::dump(raw_ostream &OS) const { for (const auto &Group : GroupedRanges) { OS << "Test selection group '" << Group.Name << "':\n"; for (const auto &Range : Group.Ranges) { OS << " " << Range.Begin << "-" << Range.End << "\n"; } } } bool TestSelectionRangesInFile::foreachRange( const SourceManager &SM, llvm::function_ref Callback) const { auto FE = SM.getFileManager().getFile(Filename); FileID FID = FE ? SM.translateFile(*FE) : FileID(); if (!FE || FID.isInvalid()) { llvm::errs() << "error: -selection=test:" << Filename << " : given file is not in the target TU"; return true; } SourceLocation FileLoc = SM.getLocForStartOfFile(FID); for (const auto &Group : GroupedRanges) { for (const TestSelectionRange &Range : Group.Ranges) { // Translate the offset pair to a true source range. SourceLocation Start = SM.getMacroArgExpandedLocation(FileLoc.getLocWithOffset(Range.Begin)); SourceLocation End = SM.getMacroArgExpandedLocation(FileLoc.getLocWithOffset(Range.End)); assert(Start.isValid() && End.isValid() && "unexpected invalid range"); Callback(SourceRange(Start, End)); } } return false; } namespace { void dumpChanges(const tooling::AtomicChanges &Changes, raw_ostream &OS) { for (const auto &Change : Changes) OS << const_cast(Change).toYAMLString() << "\n"; } bool areChangesSame(const tooling::AtomicChanges &LHS, const tooling::AtomicChanges &RHS) { if (LHS.size() != RHS.size()) return false; for (auto I : llvm::zip(LHS, RHS)) { if (!(std::get<0>(I) == std::get<1>(I))) return false; } return true; } bool printRewrittenSources(const tooling::AtomicChanges &Changes, raw_ostream &OS) { std::set Files; for (const auto &Change : Changes) Files.insert(Change.getFilePath()); tooling::ApplyChangesSpec Spec; Spec.Cleanup = false; for (const auto &File : Files) { llvm::ErrorOr> BufferErr = llvm::MemoryBuffer::getFile(File); if (!BufferErr) { llvm::errs() << "failed to open" << File << "\n"; return true; } auto Result = tooling::applyAtomicChanges(File, (*BufferErr)->getBuffer(), Changes, Spec); if (!Result) { llvm::errs() << toString(Result.takeError()); return true; } OS << *Result; } return false; } class TestRefactoringResultConsumer final : public ClangRefactorToolConsumerInterface { public: TestRefactoringResultConsumer(const TestSelectionRangesInFile &TestRanges) : TestRanges(TestRanges) { Results.push_back({}); } ~TestRefactoringResultConsumer() { // Ensure all results are checked. for (auto &Group : Results) { for (auto &Result : Group) { if (!Result) { (void)llvm::toString(Result.takeError()); } } } } void handleError(llvm::Error Err) override { handleResult(std::move(Err)); } void handle(tooling::AtomicChanges Changes) override { handleResult(std::move(Changes)); } void handle(tooling::SymbolOccurrences Occurrences) override { tooling::RefactoringResultConsumer::handle(std::move(Occurrences)); } private: bool handleAllResults(); void handleResult(Expected Result) { Results.back().push_back(std::move(Result)); size_t GroupIndex = Results.size() - 1; if (Results.back().size() >= TestRanges.GroupedRanges[GroupIndex].Ranges.size()) { ++GroupIndex; if (GroupIndex >= TestRanges.GroupedRanges.size()) { if (handleAllResults()) exit(1); // error has occurred. return; } Results.push_back({}); } } const TestSelectionRangesInFile &TestRanges; std::vector>> Results; }; std::pair getLineColumn(StringRef Filename, unsigned Offset) { ErrorOr> ErrOrFile = MemoryBuffer::getFile(Filename); if (!ErrOrFile) return {0, 0}; StringRef Source = ErrOrFile.get()->getBuffer(); Source = Source.take_front(Offset); size_t LastLine = Source.find_last_of("\r\n"); return {Source.count('\n') + 1, (LastLine == StringRef::npos ? Offset : Offset - LastLine) + 1}; } } // end anonymous namespace bool TestRefactoringResultConsumer::handleAllResults() { bool Failed = false; for (auto &Group : llvm::enumerate(Results)) { // All ranges in the group must produce the same result. Optional CanonicalResult; Optional CanonicalErrorMessage; for (auto &I : llvm::enumerate(Group.value())) { Expected &Result = I.value(); std::string ErrorMessage; bool HasResult = !!Result; if (!HasResult) { handleAllErrors( Result.takeError(), [&](StringError &Err) { ErrorMessage = Err.getMessage(); }, [&](DiagnosticError &Err) { const PartialDiagnosticAt &Diag = Err.getDiagnostic(); llvm::SmallString<100> DiagText; Diag.second.EmitToString(getDiags(), DiagText); ErrorMessage = std::string(DiagText); }); } if (!CanonicalResult && !CanonicalErrorMessage) { if (HasResult) CanonicalResult = std::move(*Result); else CanonicalErrorMessage = std::move(ErrorMessage); continue; } // Verify that this result corresponds to the canonical result. if (CanonicalErrorMessage) { // The error messages must match. if (!HasResult && ErrorMessage == *CanonicalErrorMessage) continue; } else { assert(CanonicalResult && "missing canonical result"); // The results must match. if (HasResult && areChangesSame(*Result, *CanonicalResult)) continue; } Failed = true; // Report the mismatch. std::pair LineColumn = getLineColumn( TestRanges.Filename, TestRanges.GroupedRanges[Group.index()].Ranges[I.index()].Begin); llvm::errs() << "error: unexpected refactoring result for range starting at " << LineColumn.first << ':' << LineColumn.second << " in group '" << TestRanges.GroupedRanges[Group.index()].Name << "':\n "; if (HasResult) llvm::errs() << "valid result"; else llvm::errs() << "error '" << ErrorMessage << "'"; llvm::errs() << " does not match initial "; if (CanonicalErrorMessage) llvm::errs() << "error '" << *CanonicalErrorMessage << "'\n"; else llvm::errs() << "valid result\n"; if (HasResult && !CanonicalErrorMessage) { llvm::errs() << " Expected to Produce:\n"; dumpChanges(*CanonicalResult, llvm::errs()); llvm::errs() << " Produced:\n"; dumpChanges(*Result, llvm::errs()); } } // Dump the results: const auto &TestGroup = TestRanges.GroupedRanges[Group.index()]; if (!CanonicalResult) { llvm::outs() << TestGroup.Ranges.size() << " '" << TestGroup.Name << "' results:\n"; llvm::outs() << *CanonicalErrorMessage << "\n"; } else { llvm::outs() << TestGroup.Ranges.size() << " '" << TestGroup.Name << "' results:\n"; if (printRewrittenSources(*CanonicalResult, llvm::outs())) return true; } } return Failed; } std::unique_ptr TestSelectionRangesInFile::createConsumer() const { return std::make_unique(*this); } /// Adds the \p ColumnOffset to file offset \p Offset, without going past a /// newline. static unsigned addColumnOffset(StringRef Source, unsigned Offset, unsigned ColumnOffset) { if (!ColumnOffset) return Offset; StringRef Substr = Source.drop_front(Offset).take_front(ColumnOffset); size_t NewlinePos = Substr.find_first_of("\r\n"); return Offset + (NewlinePos == StringRef::npos ? ColumnOffset : (unsigned)NewlinePos); } static unsigned addEndLineOffsetAndEndColumn(StringRef Source, unsigned Offset, unsigned LineNumberOffset, unsigned Column) { StringRef Line = Source.drop_front(Offset); unsigned LineOffset = 0; for (; LineNumberOffset != 0; --LineNumberOffset) { size_t NewlinePos = Line.find_first_of("\r\n"); // Line offset goes out of bounds. if (NewlinePos == StringRef::npos) break; LineOffset += NewlinePos + 1; Line = Line.drop_front(NewlinePos + 1); } // Source now points to the line at +lineOffset; size_t LineStart = Source.find_last_of("\r\n", /*From=*/Offset + LineOffset); return addColumnOffset( Source, LineStart == StringRef::npos ? 0 : LineStart + 1, Column - 1); } Optional findTestSelectionRanges(StringRef Filename) { ErrorOr> ErrOrFile = MemoryBuffer::getFile(Filename); if (!ErrOrFile) { llvm::errs() << "error: -selection=test:" << Filename << " : could not open the given file"; return None; } StringRef Source = ErrOrFile.get()->getBuffer(); // See the doc comment for this function for the explanation of this // syntax. static const Regex RangeRegex( "range[[:blank:]]*([[:alpha:]_]*)?[[:blank:]]*=[[:" "blank:]]*(\\+[[:digit:]]+)?[[:blank:]]*(->[[:blank:]" "]*[\\+\\:[:digit:]]+)?"); std::map> GroupedRanges; LangOptions LangOpts; LangOpts.CPlusPlus = 1; LangOpts.CPlusPlus11 = 1; Lexer Lex(SourceLocation::getFromRawEncoding(0), LangOpts, Source.begin(), Source.begin(), Source.end()); Lex.SetCommentRetentionState(true); Token Tok; for (Lex.LexFromRawLexer(Tok); Tok.isNot(tok::eof); Lex.LexFromRawLexer(Tok)) { if (Tok.isNot(tok::comment)) continue; StringRef Comment = Source.substr(Tok.getLocation().getRawEncoding(), Tok.getLength()); SmallVector Matches; // Try to detect mistyped 'range:' comments to ensure tests don't miss // anything. auto DetectMistypedCommand = [&]() -> bool { if (Comment.contains_lower("range") && Comment.contains("=") && !Comment.contains_lower("run") && !Comment.contains("CHECK")) { llvm::errs() << "error: suspicious comment '" << Comment << "' that " "resembles the range command found\n"; llvm::errs() << "note: please reword if this isn't a range command\n"; } return false; }; // Allow CHECK: comments to contain range= commands. if (!RangeRegex.match(Comment, &Matches) || Comment.contains("CHECK")) { if (DetectMistypedCommand()) return None; continue; } unsigned Offset = Tok.getEndLoc().getRawEncoding(); unsigned ColumnOffset = 0; if (!Matches[2].empty()) { // Don't forget to drop the '+'! if (Matches[2].drop_front().getAsInteger(10, ColumnOffset)) assert(false && "regex should have produced a number"); } Offset = addColumnOffset(Source, Offset, ColumnOffset); unsigned EndOffset; if (!Matches[3].empty()) { static const Regex EndLocRegex( "->[[:blank:]]*(\\+[[:digit:]]+):([[:digit:]]+)"); SmallVector EndLocMatches; if (!EndLocRegex.match(Matches[3], &EndLocMatches)) { if (DetectMistypedCommand()) return None; continue; } unsigned EndLineOffset = 0, EndColumn = 0; if (EndLocMatches[1].drop_front().getAsInteger(10, EndLineOffset) || EndLocMatches[2].getAsInteger(10, EndColumn)) assert(false && "regex should have produced a number"); EndOffset = addEndLineOffsetAndEndColumn(Source, Offset, EndLineOffset, EndColumn); } else { EndOffset = Offset; } TestSelectionRange Range = {Offset, EndOffset}; auto It = GroupedRanges.insert(std::make_pair( Matches[1].str(), SmallVector{Range})); if (!It.second) It.first->second.push_back(Range); } if (GroupedRanges.empty()) { llvm::errs() << "error: -selection=test:" << Filename << ": no 'range' commands"; return None; } TestSelectionRangesInFile TestRanges = {Filename.str(), {}}; for (auto &Group : GroupedRanges) TestRanges.GroupedRanges.push_back({Group.first, std::move(Group.second)}); return std::move(TestRanges); } } // end namespace refactor } // end namespace clang