/*========================================================================= Program: CMake - Cross-Platform Makefile Generator Module: $RCSfile$ Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) 2002 Kitware, Inc., Insight Consortium. All rights reserved. See Copyright.txt or http://www.cmake.org/HTML/Copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "cmCTestCoverageHandler.h" #include "cmCTest.h" #include "cmake.h" #include "cmSystemTools.h" #include "cmGeneratedFileStream.h" #include "cmXMLSafe.h" #include #include #include #include #include #include #define SAFEDIV(x,y) (((y)!=0)?((x)/(y)):(0)) class cmCTestRunProcess { public: cmCTestRunProcess() { this->Process = cmsysProcess_New(); this->PipeState = -1; this->TimeOut = -1; } ~cmCTestRunProcess() { if(!(this->PipeState == -1) && !(this->PipeState == cmsysProcess_Pipe_None ) && !(this->PipeState == cmsysProcess_Pipe_Timeout)) { this->WaitForExit(); } cmsysProcess_Delete(this->Process); } void SetCommand(const char* command) { this->CommandLineStrings.clear(); this->CommandLineStrings.push_back(command);; } void AddArgument(const char* arg) { if(arg) { this->CommandLineStrings.push_back(arg); } } void SetWorkingDirectory(const char* dir) { this->WorkingDirectory = dir; } void SetTimeout(double t) { this->TimeOut = t; } bool StartProcess() { std::vector args; for(std::vector::iterator i = this->CommandLineStrings.begin(); i != this->CommandLineStrings.end(); ++i) { args.push_back(i->c_str()); } args.push_back(0); // null terminate cmsysProcess_SetCommand(this->Process, &*args.begin()); if(this->WorkingDirectory.size()) { cmsysProcess_SetWorkingDirectory(this->Process, this->WorkingDirectory.c_str()); } cmsysProcess_SetOption(this->Process, cmsysProcess_Option_HideWindow, 1); if(this->TimeOut != -1) { cmsysProcess_SetTimeout(this->Process, this->TimeOut); } cmsysProcess_Execute(this->Process); this->PipeState = cmsysProcess_GetState(this->Process); // if the process is running or exited return true if(this->PipeState == cmsysProcess_State_Executing || this->PipeState == cmsysProcess_State_Exited) { return true; } return false; } void SetStdoutFile(const char* fname) { cmsysProcess_SetPipeFile(this->Process, cmsysProcess_Pipe_STDOUT, fname); } void SetStderrFile(const char* fname) { cmsysProcess_SetPipeFile(this->Process, cmsysProcess_Pipe_STDERR, fname); } int WaitForExit(double* timeout =0) { this->PipeState = cmsysProcess_WaitForExit(this->Process, timeout); return this->PipeState; } int GetProcessState() { return this->PipeState;} private: int PipeState; cmsysProcess* Process; std::vector CommandLineStrings; std::string WorkingDirectory; double TimeOut; }; //---------------------------------------------------------------------- //********************************************************************** class cmCTestCoverageHandlerContainer { public: int Error; std::string SourceDir; std::string BinaryDir; typedef std::vector SingleFileCoverageVector; typedef std::map TotalCoverageMap; TotalCoverageMap TotalCoverage; std::ostream* OFS; }; //********************************************************************** //---------------------------------------------------------------------- //---------------------------------------------------------------------- cmCTestCoverageHandler::cmCTestCoverageHandler() { } //---------------------------------------------------------------------- void cmCTestCoverageHandler::Initialize() { this->Superclass::Initialize(); this->CustomCoverageExclude.empty(); } //---------------------------------------------------------------------- bool cmCTestCoverageHandler::StartCoverageLogFile( cmGeneratedFileStream& covLogFile, int logFileCount) { char covLogFilename[1024]; sprintf(covLogFilename, "CoverageLog-%d", logFileCount); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Open file: " << covLogFilename << std::endl); if(!this->StartResultingXML(cmCTest::PartCoverage, covLogFilename, covLogFile)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open log file: " << covLogFilename << std::endl); return false; } std::string local_start_time = this->CTest->CurrentTime(); this->CTest->StartXML(covLogFile, this->AppendXML); covLogFile << "" << std::endl << "\t" << local_start_time << "" << "\t" << static_cast(cmSystemTools::GetTime()) << "" << std::endl; return true; } //---------------------------------------------------------------------- void cmCTestCoverageHandler::EndCoverageLogFile(cmGeneratedFileStream& ostr, int logFileCount) { std::string local_end_time = this->CTest->CurrentTime(); ostr << "\t" << local_end_time << "" << std::endl << "\t" << static_cast(cmSystemTools::GetTime()) << "" << std::endl << "" << std::endl; this->CTest->EndXML(ostr); char covLogFilename[1024]; sprintf(covLogFilename, "CoverageLog-%d.xml", logFileCount); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Close file: " << covLogFilename << std::endl); ostr.Close(); } //---------------------------------------------------------------------- bool cmCTestCoverageHandler::ShouldIDoCoverage(const char* file, const char* srcDir, const char* binDir) { std::vector::iterator sit; for ( sit = this->CustomCoverageExcludeRegex.begin(); sit != this->CustomCoverageExcludeRegex.end(); ++ sit ) { if ( sit->find(file) ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " File " << file << " is excluded in CTestCustom.ctest" << std::endl;); return false; } } std::string fSrcDir = cmSystemTools::CollapseFullPath(srcDir); std::string fBinDir = cmSystemTools::CollapseFullPath(binDir); std::string fFile = cmSystemTools::CollapseFullPath(file); bool sourceSubDir = cmSystemTools::IsSubDirectory(fFile.c_str(), fSrcDir.c_str()); bool buildSubDir = cmSystemTools::IsSubDirectory(fFile.c_str(), fBinDir.c_str()); // Always check parent directory of the file. std::string fileDir = cmSystemTools::GetFilenamePath(fFile.c_str()); std::string checkDir; // We also need to check the binary/source directory pair. if ( sourceSubDir && buildSubDir ) { if ( fSrcDir.size() > fBinDir.size() ) { checkDir = fSrcDir; } else { checkDir = fBinDir; } } else if ( sourceSubDir ) { checkDir = fSrcDir; } else if ( buildSubDir ) { checkDir = fBinDir; } std::string ndc = cmSystemTools::FileExistsInParentDirectories(".NoDartCoverage", fFile.c_str(), checkDir.c_str()); if ( ndc.size() ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Found: " << ndc.c_str() << " so skip coverage of " << file << std::endl); return false; } // By now checkDir should be set to parent directory of the file. // Get the relative path to the file an apply it to the opposite directory. // If it is the same as fileDir, then ignore, otherwise check. std::string relPath; if(checkDir.size() ) { relPath = cmSystemTools::RelativePath(checkDir.c_str(), fFile.c_str()); } else { relPath = fFile; } if ( checkDir == fSrcDir ) { checkDir = fBinDir; } else { checkDir = fSrcDir; } fFile = checkDir + "/" + relPath; fFile = cmSystemTools::GetFilenamePath(fFile.c_str()); if ( fileDir == fFile ) { // This is in-source build, so we trust the previous check. return true; } ndc = cmSystemTools::FileExistsInParentDirectories(".NoDartCoverage", fFile.c_str(), checkDir.c_str()); if ( ndc.size() ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Found: " << ndc.c_str() << " so skip coverage of: " << file << std::endl); return false; } // Ok, nothing in source tree, nothing in binary tree return true; } //---------------------------------------------------------------------- //clearly it would be nice if this were broken up into a few smaller //functions and commented... int cmCTestCoverageHandler::ProcessHandler() { int error = 0; // do we have time for this if (this->CTest->GetRemainingTimeAllowed() < 120) { return error; } std::string coverage_start_time = this->CTest->CurrentTime(); unsigned int coverage_start_time_time = static_cast( cmSystemTools::GetTime()); std::string sourceDir = this->CTest->GetCTestConfiguration("SourceDirectory"); std::string binaryDir = this->CTest->GetCTestConfiguration("BuildDirectory"); cmGeneratedFileStream ofs; double elapsed_time_start = cmSystemTools::GetTime(); if ( !this->StartLogFile("Coverage", ofs) ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot create LastCoverage.log file" << std::endl); } ofs << "Performing coverage: " << elapsed_time_start << std::endl; cmSystemTools::ConvertToUnixSlashes(sourceDir); cmSystemTools::ConvertToUnixSlashes(binaryDir); std::string asfGlob = sourceDir + "/*"; std::string abfGlob = binaryDir + "/*"; cmCTestLog(this->CTest, HANDLER_OUTPUT, "Performing coverage" << std::endl); cmCTestCoverageHandlerContainer cont; cont.Error = error; cont.SourceDir = sourceDir; cont.BinaryDir = binaryDir; cont.OFS = &ofs; // setup the regex exclude stuff this->CustomCoverageExcludeRegex.empty(); std::vector::iterator rexIt; for ( rexIt = this->CustomCoverageExclude.begin(); rexIt != this->CustomCoverageExclude.end(); ++ rexIt ) { this->CustomCoverageExcludeRegex.push_back( cmsys::RegularExpression(rexIt->c_str())); } if(this->HandleBullseyeCoverage(&cont)) { return cont.Error; } int file_count = 0; file_count += this->HandleGCovCoverage(&cont); if ( file_count < 0 ) { return error; } file_count += this->HandleTracePyCoverage(&cont); if ( file_count < 0 ) { return error; } error = cont.Error; if ( file_count == 0 ) { cmCTestLog(this->CTest, WARNING, " Cannot find any coverage files. Ignoring Coverage request." << std::endl); return error; } cmGeneratedFileStream covSumFile; cmGeneratedFileStream covLogFile; if(!this->StartResultingXML(cmCTest::PartCoverage, "Coverage", covSumFile)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open coverage summary file." << std::endl); return -1; } this->CTest->StartXML(covSumFile, this->AppendXML); // Produce output xml files covSumFile << "" << std::endl << "\t" << coverage_start_time << "" << std::endl << "\t" << coverage_start_time_time << "" << std::endl; int logFileCount = 0; if ( !this->StartCoverageLogFile(covLogFile, logFileCount) ) { return -1; } cmCTestCoverageHandlerContainer::TotalCoverageMap::iterator fileIterator; int cnt = 0; long total_tested = 0; long total_untested = 0; //std::string fullSourceDir = sourceDir + "/"; //std::string fullBinaryDir = binaryDir + "/"; cmCTestLog(this->CTest, HANDLER_OUTPUT, std::endl); cmCTestLog(this->CTest, HANDLER_OUTPUT, " Acumulating results (each . represents one file):" << std::endl); cmCTestLog(this->CTest, HANDLER_OUTPUT, " "); std::vector errorsWhileAccumulating; file_count = 0; for ( fileIterator = cont.TotalCoverage.begin(); fileIterator != cont.TotalCoverage.end(); ++fileIterator ) { cmCTestLog(this->CTest, HANDLER_OUTPUT, "." << std::flush); file_count ++; if ( file_count % 50 == 0 ) { cmCTestLog(this->CTest, HANDLER_OUTPUT, " processed: " << file_count << " out of " << cont.TotalCoverage.size() << std::endl); cmCTestLog(this->CTest, HANDLER_OUTPUT, " "); } if ( cnt % 100 == 0 ) { this->EndCoverageLogFile(covLogFile, logFileCount); logFileCount ++; if ( !this->StartCoverageLogFile(covLogFile, logFileCount) ) { return -1; } } const std::string fullFileName = fileIterator->first; const std::string fileName = cmSystemTools::GetFilenameName(fullFileName.c_str()); std::string fullFilePath = cmSystemTools::GetFilenamePath(fullFileName.c_str()); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Process file: " << fullFileName << std::endl); cmSystemTools::ConvertToUnixSlashes(fullFilePath); if ( !cmSystemTools::FileExists(fullFileName.c_str()) ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot find file: " << fullFileName.c_str() << std::endl); continue; } bool shouldIDoCoverage = this->ShouldIDoCoverage(fullFileName.c_str(), sourceDir.c_str(), binaryDir.c_str()); if ( !shouldIDoCoverage ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, ".NoDartCoverage found, so skip coverage check for: " << fullFileName.c_str() << std::endl); continue; } const cmCTestCoverageHandlerContainer::SingleFileCoverageVector& fcov = fileIterator->second; covLogFile << "\tCTest->GetShortPathToFile( fileIterator->first.c_str())) << "\">" << std::endl << "\t\t" << std::endl; std::ifstream ifs(fullFileName.c_str()); if ( !ifs) { cmOStringStream ostr; ostr << "Cannot open source file: " << fullFileName.c_str(); errorsWhileAccumulating.push_back(ostr.str()); error ++; continue; } int tested = 0; int untested = 0; cmCTestCoverageHandlerContainer::SingleFileCoverageVector::size_type cc; std::string line; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Actually perfoming coverage for: " << fullFileName << std::endl); for ( cc= 0; cc < fcov.size(); cc ++ ) { if ( !cmSystemTools::GetLineFromStream(ifs, line) && cc != fcov.size() -1 ) { cmOStringStream ostr; ostr << "Problem reading source file: " << fullFileName.c_str() << " line:" << cc; errorsWhileAccumulating.push_back(ostr.str()); error ++; break; } covLogFile << "\t\t" << cmXMLSafe(line) << "" << std::endl; if ( fcov[cc] == 0 ) { untested ++; } else if ( fcov[cc] > 0 ) { tested ++; } } if ( cmSystemTools::GetLineFromStream(ifs, line) ) { cmOStringStream ostr; ostr << "Looks like there are more lines in the file: " << line; errorsWhileAccumulating.push_back(ostr.str()); } float cper = 0; float cmet = 0; if ( tested + untested > 0 ) { cper = (100 * SAFEDIV(static_cast(tested), static_cast(tested + untested))); cmet = ( SAFEDIV(static_cast(tested + 10), static_cast(tested + untested + 10))); } total_tested += tested; total_untested += untested; covLogFile << "\t\t" << std::endl << "\t" << std::endl; covSumFile << "\tCTest->GetShortPathToFile(fullFileName.c_str())) << "\" Covered=\"" << (tested > 0 ? "true":"false") << "\">\n" << "\t\t" << tested << "\n" << "\t\t" << untested << "\n" << "\t\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << (cper) << "\n" << "\t\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << (cmet) << "\n" << "\t" << std::endl; cnt ++; } this->EndCoverageLogFile(covLogFile, logFileCount); if ( errorsWhileAccumulating.size() > 0 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, std::endl); cmCTestLog(this->CTest, ERROR_MESSAGE, "Error(s) while acumulating results:" << std::endl); std::vector::iterator erIt; for ( erIt = errorsWhileAccumulating.begin(); erIt != errorsWhileAccumulating.end(); ++ erIt ) { cmCTestLog(this->CTest, ERROR_MESSAGE, " " << erIt->c_str() << std::endl); } } long total_lines = total_tested + total_untested; float percent_coverage = 100 * SAFEDIV(static_cast(total_tested), static_cast(total_lines)); if ( total_lines == 0 ) { percent_coverage = 0; } std::string end_time = this->CTest->CurrentTime(); covSumFile << "\t" << total_tested << "\n" << "\t" << total_untested << "\n" << "\t" << total_lines << "\n" << "\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << (percent_coverage)<< "\n" << "\t" << end_time << "\n" << "\t" << static_cast(cmSystemTools::GetTime()) << "\n"; covSumFile << "" << static_cast((cmSystemTools::GetTime() - elapsed_time_start)/6)/10.0 << "" << "" << std::endl; this->CTest->EndXML(covSumFile); cmCTestLog(this->CTest, HANDLER_OUTPUT, "" << std::endl << "\tCovered LOC: " << total_tested << std::endl << "\tNot covered LOC: " << total_untested << std::endl << "\tTotal LOC: " << total_lines << std::endl << "\tPercentage Coverage: " << std::setiosflags(std::ios::fixed) << std::setprecision(2) << (percent_coverage) << "%" << std::endl); ofs << "\tCovered LOC: " << total_tested << std::endl << "\tNot covered LOC: " << total_untested << std::endl << "\tTotal LOC: " << total_lines << std::endl << "\tPercentage Coverage: " << std::setiosflags(std::ios::fixed) << std::setprecision(2) << (percent_coverage) << "%" << std::endl; if ( error ) { return -1; } return 0; } //---------------------------------------------------------------------- void cmCTestCoverageHandler::PopulateCustomVectors(cmMakefile *mf) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " Add coverage exclude regular expressions." << std::endl); this->CTest->PopulateCustomVector(mf, "CTEST_CUSTOM_COVERAGE_EXCLUDE", this->CustomCoverageExclude); std::vector::iterator it; for ( it = this->CustomCoverageExclude.begin(); it != this->CustomCoverageExclude.end(); ++ it ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " Add coverage exclude: " << it->c_str() << std::endl); } } //---------------------------------------------------------------------- // Fix for issue #4971 where the case of the drive letter component of // the filenames might be different when analyzing gcov output. // // Compare file names: fnc(fn1) == fnc(fn2) // fnc == file name compare // #ifdef _WIN32 #define fnc(s) cmSystemTools::LowerCase(s) #else #define fnc(s) s #endif //---------------------------------------------------------------------- int cmCTestCoverageHandler::HandleGCovCoverage( cmCTestCoverageHandlerContainer* cont) { std::string gcovCommand = this->CTest->GetCTestConfiguration("CoverageCommand"); // Style 1 std::string st1gcovOutputRex1 = "[0-9]+\\.[0-9]+% of [0-9]+ (source |)lines executed in file (.*)$"; std::string st1gcovOutputRex2 = "^Creating (.*\\.gcov)\\."; cmsys::RegularExpression st1re1(st1gcovOutputRex1.c_str()); cmsys::RegularExpression st1re2(st1gcovOutputRex2.c_str()); // Style 2 std::string st2gcovOutputRex1 = "^File *[`'](.*)'$"; std::string st2gcovOutputRex2 = "Lines executed: *[0-9]+\\.[0-9]+% of [0-9]+$"; std::string st2gcovOutputRex3 = "^(.*):creating [`'](.*\\.gcov)'"; std::string st2gcovOutputRex4 = "^(.*):unexpected EOF *$"; std::string st2gcovOutputRex5 = "^(.*):cannot open source file*$"; std::string st2gcovOutputRex6 = "^(.*):source file is newer than graph file `(.*)'$"; cmsys::RegularExpression st2re1(st2gcovOutputRex1.c_str()); cmsys::RegularExpression st2re2(st2gcovOutputRex2.c_str()); cmsys::RegularExpression st2re3(st2gcovOutputRex3.c_str()); cmsys::RegularExpression st2re4(st2gcovOutputRex4.c_str()); cmsys::RegularExpression st2re5(st2gcovOutputRex5.c_str()); cmsys::RegularExpression st2re6(st2gcovOutputRex6.c_str()); cmsys::Glob gl; gl.RecurseOn(); gl.RecurseThroughSymlinksOff(); std::string daGlob = cont->BinaryDir + "/*.da"; gl.FindFiles(daGlob); std::vector files = gl.GetFiles(); daGlob = cont->BinaryDir + "/*.gcda"; gl.FindFiles(daGlob); std::vector& moreFiles = gl.GetFiles(); files.insert(files.end(), moreFiles.begin(), moreFiles.end()); std::vector::iterator it; if ( files.size() == 0 ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " Cannot find any GCov coverage files." << std::endl); // No coverage files is a valid thing, so the exit code is 0 return 0; } std::string testingDir = this->CTest->GetBinaryDir() + "/Testing"; std::string tempDir = testingDir + "/CoverageInfo"; std::string currentDirectory = cmSystemTools::GetCurrentWorkingDirectory(); cmSystemTools::MakeDirectory(tempDir.c_str()); cmSystemTools::ChangeDirectory(tempDir.c_str()); int gcovStyle = 0; std::set missingFiles; std::string actualSourceFile = ""; cmCTestLog(this->CTest, HANDLER_OUTPUT, " Processing coverage (each . represents one file):" << std::endl); cmCTestLog(this->CTest, HANDLER_OUTPUT, " "); int file_count = 0; // make sure output from gcov is in English! cmSystemTools::PutEnv("LC_ALL=POSIX"); for ( it = files.begin(); it != files.end(); ++ it ) { cmCTestLog(this->CTest, HANDLER_OUTPUT, "." << std::flush); std::string fileDir = cmSystemTools::GetFilenamePath(it->c_str()); std::string command = "\"" + gcovCommand + "\" -l -o \"" + fileDir + "\" \"" + *it + "\""; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, command.c_str() << std::endl); std::string output = ""; std::string errors = ""; int retVal = 0; *cont->OFS << "* Run coverage for: " << fileDir.c_str() << std::endl; *cont->OFS << " Command: " << command.c_str() << std::endl; int res = this->CTest->RunCommand(command.c_str(), &output, &errors, &retVal, tempDir.c_str(), 0 /*this->TimeOut*/); *cont->OFS << " Output: " << output.c_str() << std::endl; *cont->OFS << " Errors: " << errors.c_str() << std::endl; if ( ! res ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Problem running coverage on file: " << it->c_str() << std::endl); cmCTestLog(this->CTest, ERROR_MESSAGE, "Command produced error: " << errors << std::endl); cont->Error ++; continue; } if ( retVal != 0 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Coverage command returned: " << retVal << " while processing: " << it->c_str() << std::endl); cmCTestLog(this->CTest, ERROR_MESSAGE, "Command produced error: " << cont->Error << std::endl); } cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "--------------------------------------------------------------" << std::endl << output << std::endl << "--------------------------------------------------------------" << std::endl); std::vector lines; std::vector::iterator line; // Globals for storing current source file and current gcov file; cmSystemTools::Split(output.c_str(), lines); for ( line = lines.begin(); line != lines.end(); ++line) { std::string sourceFile; std::string gcovFile; cmCTestLog(this->CTest, DEBUG, "Line: [" << line->c_str() << "]" << std::endl); if ( line->size() == 0 ) { // Ignore empty line; probably style 2 } else if ( st1re1.find(line->c_str()) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 1 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 1; } actualSourceFile = ""; sourceFile = st1re1.match(2); } else if ( st1re2.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 1 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 1; } gcovFile = st1re2.match(1); } else if ( st2re1.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } actualSourceFile = ""; sourceFile = st2re1.match(1); } else if ( st2re2.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } } else if ( st2re3.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } gcovFile = st2re3.match(2); } else if ( st2re4.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } cmCTestLog(this->CTest, WARNING, "Warning: " << st2re4.match(1) << " had unexpected EOF" << std::endl); } else if ( st2re5.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } cmCTestLog(this->CTest, WARNING, "Warning: Cannot open file: " << st2re5.match(1) << std::endl); } else if ( st2re6.find(line->c_str() ) ) { if ( gcovStyle != 0 ) { if ( gcovStyle != 2 ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown gcov output style" << std::endl); cont->Error ++; break; } gcovStyle = 2; } cmCTestLog(this->CTest, WARNING, "Warning: File: " << st2re6.match(1) << " is newer than " << st2re6.match(2) << std::endl); } else { cmCTestLog(this->CTest, ERROR_MESSAGE, "Unknown line: [" << line->c_str() << "]" << std::endl); cont->Error ++; //abort(); } if ( !gcovFile.empty() && actualSourceFile.size() ) { cmCTestCoverageHandlerContainer::SingleFileCoverageVector* vec = &cont->TotalCoverage[actualSourceFile]; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " in file: " << gcovFile << std::endl); std::ifstream ifile(gcovFile.c_str()); if ( ! ifile ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open file: " << gcovFile << std::endl); } else { long cnt = -1; std::string nl; while ( cmSystemTools::GetLineFromStream(ifile, nl) ) { cnt ++; //TODO: Handle gcov 3.0 non-coverage lines // Skip empty lines if ( !nl.size() ) { continue; } // Skip unused lines if ( nl.size() < 12 ) { continue; } // Read the coverage count from the beginning of the gcov output // line std::string prefix = nl.substr(0, 12); int cov = atoi(prefix.c_str()); // Read the line number starting at the 10th character of the gcov // output line std::string lineNumber = nl.substr(10, 5); int lineIdx = atoi(lineNumber.c_str())-1; if ( lineIdx >= 0 ) { while ( vec->size() <= static_cast(lineIdx) ) { vec->push_back(-1); } // Initially all entries are -1 (not used). If we get coverage // information, increment it to 0 first. if ( (*vec)[lineIdx] < 0 ) { if ( cov > 0 || prefix.find("#") != prefix.npos ) { (*vec)[lineIdx] = 0; } } (*vec)[lineIdx] += cov; } } } actualSourceFile = ""; } if ( !sourceFile.empty() && actualSourceFile.empty() ) { gcovFile = ""; // Is it in the source dir? if ( sourceFile.size() > cont->SourceDir.size() && (fnc(sourceFile.substr(0, cont->SourceDir.size())) == fnc(cont->SourceDir)) && sourceFile[cont->SourceDir.size()] == '/' ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " produced s: " << sourceFile.c_str() << std::endl); *cont->OFS << " produced in source dir: " << sourceFile.c_str() << std::endl; actualSourceFile = cmSystemTools::CollapseFullPath(sourceFile.c_str()); } // Binary dir? if ( sourceFile.size() > cont->BinaryDir.size() && (fnc(sourceFile.substr(0, cont->BinaryDir.size())) == fnc(cont->BinaryDir)) && sourceFile[cont->BinaryDir.size()] == '/' ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " produced b: " << sourceFile.c_str() << std::endl); *cont->OFS << " produced in binary dir: " << sourceFile.c_str() << std::endl; actualSourceFile = cmSystemTools::CollapseFullPath(sourceFile.c_str()); } if ( actualSourceFile.empty() ) { if ( missingFiles.find(actualSourceFile) == missingFiles.end() ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Something went wrong" << std::endl); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Cannot find file: [" << sourceFile.c_str() << "]" << std::endl); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " in source dir: [" << cont->SourceDir.c_str() << "]" << std::endl); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " or binary dir: [" << cont->BinaryDir.size() << "]" << std::endl); *cont->OFS << " Something went wrong. Cannot find file: " << sourceFile.c_str() << " in source dir: " << cont->SourceDir.c_str() << " or binary dir: " << cont->BinaryDir.c_str() << std::endl; missingFiles.insert(actualSourceFile); } } } } file_count ++; if ( file_count % 50 == 0 ) { cmCTestLog(this->CTest, HANDLER_OUTPUT, " processed: " << file_count << " out of " << files.size() << std::endl); cmCTestLog(this->CTest, HANDLER_OUTPUT, " "); } } cmSystemTools::ChangeDirectory(currentDirectory.c_str()); return file_count; } //---------------------------------------------------------------------- int cmCTestCoverageHandler::HandleTracePyCoverage( cmCTestCoverageHandlerContainer* cont) { cmsys::Glob gl; gl.RecurseOn(); gl.RecurseThroughSymlinksOff(); std::string daGlob = cont->BinaryDir + "/*.cover"; gl.FindFiles(daGlob); std::vector files = gl.GetFiles(); if ( files.size() == 0 ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " Cannot find any Python Trace.py coverage files." << std::endl); // No coverage files is a valid thing, so the exit code is 0 return 0; } std::string testingDir = this->CTest->GetBinaryDir() + "/Testing"; std::string tempDir = testingDir + "/CoverageInfo"; std::string currentDirectory = cmSystemTools::GetCurrentWorkingDirectory(); cmSystemTools::MakeDirectory(tempDir.c_str()); cmSystemTools::ChangeDirectory(tempDir.c_str()); cmSystemTools::ChangeDirectory(currentDirectory.c_str()); std::vector::iterator fileIt; int file_count = 0; for ( fileIt = files.begin(); fileIt != files.end(); ++ fileIt ) { std::string fileName = this->FindFile(cont, *fileIt); if ( fileName.empty() ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot find source Python file corresponding to: " << fileIt->c_str() << std::endl); continue; } std::string actualSourceFile = cmSystemTools::CollapseFullPath(fileName.c_str()); cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " Check coverage for file: " << actualSourceFile.c_str() << std::endl); cmCTestCoverageHandlerContainer::SingleFileCoverageVector* vec = &cont->TotalCoverage[actualSourceFile]; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " in file: " << fileIt->c_str() << std::endl); std::ifstream ifile(fileIt->c_str()); if ( ! ifile ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open file: " << fileIt->c_str() << std::endl); } else { long cnt = -1; std::string nl; while ( cmSystemTools::GetLineFromStream(ifile, nl) ) { cnt ++; // Skip empty lines if ( !nl.size() ) { continue; } // Skip unused lines if ( nl.size() < 12 ) { continue; } // Read the coverage count from the beginning of the Trace.py output // line std::string prefix = nl.substr(0, 6); if ( prefix[5] != ' ' && prefix[5] != ':' ) { // This is a hack. We should really do something more elaborate prefix = nl.substr(0, 7); if ( prefix[6] != ' ' && prefix[6] != ':' ) { prefix = nl.substr(0, 8); if ( prefix[7] != ' ' && prefix[7] != ':' ) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Currently the limit is maximum coverage of 999999" << std::endl); } } } int cov = atoi(prefix.c_str()); if ( prefix[prefix.size()-1] != ':' ) { // This line does not have ':' so no coverage here. That said, // Trace.py does not handle not covered lines versus comments etc. // So, this will be set to 0. cov = 0; } cmCTestLog(this->CTest, DEBUG, "Prefix: " << prefix.c_str() << " cov: " << cov << std::endl); // Read the line number starting at the 10th character of the gcov // output line long lineIdx = cnt; if ( lineIdx >= 0 ) { while ( vec->size() <= static_cast(lineIdx) ) { vec->push_back(-1); } // Initially all entries are -1 (not used). If we get coverage // information, increment it to 0 first. if ( (*vec)[lineIdx] < 0 ) { if ( cov >= 0 ) { (*vec)[lineIdx] = 0; } } (*vec)[lineIdx] += cov; } } } ++ file_count; } cmSystemTools::ChangeDirectory(currentDirectory.c_str()); return file_count; } //---------------------------------------------------------------------- std::string cmCTestCoverageHandler::FindFile( cmCTestCoverageHandlerContainer* cont, std::string fileName) { std::string fileNameNoE = cmSystemTools::GetFilenameWithoutLastExtension(fileName); // First check in source and binary directory std::string fullName = cont->SourceDir + "/" + fileNameNoE + ".py"; if ( cmSystemTools::FileExists(fullName.c_str()) ) { return fullName; } fullName = cont->BinaryDir + "/" + fileNameNoE + ".py"; if ( cmSystemTools::FileExists(fullName.c_str()) ) { return fullName; } return ""; } // This is a header put on each marked up source file namespace { const char* bullseyeHelp[] = {" Coverage produced by bullseye covbr tool: ", " www.bullseye.com/help/ref_covbr.html", " * An arrow --> indicates incomplete coverage.", " * An X indicates a function that was invoked, a switch label that ", " was exercised, a try-block that finished, or an exception handler ", " that was invoked.", " * A T or F indicates a boolean decision that evaluated true or false,", " respectively.", " * A t or f indicates a boolean condition within a decision if the ", " condition evaluated true or false, respectively.", " * A k indicates a constant decision or condition.", " * The slash / means this probe is excluded from summary results. ", 0}; } //---------------------------------------------------------------------- int cmCTestCoverageHandler::RunBullseyeCoverageBranch( cmCTestCoverageHandlerContainer* cont, std::set& coveredFileNames, std::vector& files, std::vector& filesFullPath) { if(files.size() != filesFullPath.size()) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Files and full path files not the same size?:\n"); return 0; } // create the output stream for the CoverageLog-N.xml file cmGeneratedFileStream covLogFile; int logFileCount = 0; if ( !this->StartCoverageLogFile(covLogFile, logFileCount) ) { return -1; } // for each file run covbr on that file to get the coverage // information for that file std::string outputFile; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "run covbr: " << std::endl); if(!this->RunBullseyeCommand(cont, "covbr", 0, outputFile)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "error running covbr for." << "\n"); return -1; } cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "covbr output in " << outputFile << std::endl); // open the output file std::ifstream fin(outputFile.c_str()); if(!fin) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open coverage file: " << outputFile.c_str() << std::endl); return 0; } std::map fileMap; std::vector::iterator fp = filesFullPath.begin(); for(std::vector::iterator f = files.begin(); f != files.end(); ++f, ++fp) { fileMap[*f] = *fp; } int count =0; // keep count of the number of files // Now parse each line from the bullseye cov log file std::string lineIn; bool valid = false; // are we in a valid output file int line = 0; // line of the current file cmStdString file; while(cmSystemTools::GetLineFromStream(fin, lineIn)) { bool startFile = false; if(lineIn.size() > 1 && lineIn[lineIn.size()-1] == ':') { file = lineIn.substr(0, lineIn.size()-1); if(coveredFileNames.find(file) != coveredFileNames.end()) { startFile = true; } } if(startFile) { // if we are in a valid file close it because a new one started if(valid) { covLogFile << "\t\t" << std::endl << "\t" << std::endl; } // only allow 100 files in each log file if ( count != 0 && count % 100 == 0 ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "start a new log file: " << count << std::endl); this->EndCoverageLogFile(covLogFile, logFileCount); logFileCount ++; if ( !this->StartCoverageLogFile(covLogFile, logFileCount) ) { return -1; } count++; // move on one } std::map::iterator i = fileMap.find(file); // if the file should be covered write out the header for that file if(i != fileMap.end()) { // we have a new file so count it in the output count++; cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Produce coverage for file: " << file.c_str() << " " << count << std::endl); // start the file output covLogFile << "\tfirst) << "\" FullPath=\"" << cmXMLSafe( this->CTest->GetShortPathToFile( i->second.c_str())) << "\">" << std::endl << "\t\t" << std::endl; // write the bullseye header line =0; for(int k =0; bullseyeHelp[k] != 0; ++k) { covLogFile << "\t\t" << cmXMLSafe(bullseyeHelp[k]) << "" << std::endl; line++; } valid = true; // we are in a valid file section } else { // this is not a file that we want coverage for valid = false; } } // we are not at a start file, and we are in a valid file output the line else if(valid) { covLogFile << "\t\t" << cmXMLSafe(lineIn) << "" << std::endl; line++; } } // if we ran out of lines a valid file then close that file if(valid) { covLogFile << "\t\t" << std::endl << "\t" << std::endl; } this->EndCoverageLogFile(covLogFile, logFileCount); return 1; } //---------------------------------------------------------------------- int cmCTestCoverageHandler::RunBullseyeCommand( cmCTestCoverageHandlerContainer* cont, const char* cmd, const char* arg, std::string& outputFile) { std::string program = cmSystemTools::FindProgram(cmd); if(program.size() == 0) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot find :" << cmd << "\n"); return 0; } if(arg) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Run : " << program.c_str() << " " << arg << "\n"); } else { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Run : " << program.c_str() << "\n"); } // create a process object and start it cmCTestRunProcess runCoverageSrc; runCoverageSrc.SetCommand(program.c_str()); runCoverageSrc.AddArgument(arg); std::string stdoutFile = cont->BinaryDir + "/Testing/Temporary/"; stdoutFile += this->GetCTestInstance()->GetCurrentTag(); stdoutFile += "-"; stdoutFile += cmd; std::string stderrFile = stdoutFile; stdoutFile += ".stdout"; stderrFile += ".stderr"; runCoverageSrc.SetStdoutFile(stdoutFile.c_str()); runCoverageSrc.SetStderrFile(stderrFile.c_str()); if(!runCoverageSrc.StartProcess()) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Could not run : " << program.c_str() << " " << arg << "\n" << "kwsys process state : " << runCoverageSrc.GetProcessState()); return 0; } // since we set the output file names wait for it to end runCoverageSrc.WaitForExit(); outputFile = stdoutFile; return 1; } //---------------------------------------------------------------------- int cmCTestCoverageHandler::RunBullseyeSourceSummary( cmCTestCoverageHandlerContainer* cont) { // Run the covsrc command and create a temp outputfile std::string outputFile; if(!this->RunBullseyeCommand(cont, "covsrc", "-c", outputFile)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "error running covsrc:\n"); return 0; } std::ostream& tmpLog = *cont->OFS; // copen the Coverage.xml file in the Testing directory cmGeneratedFileStream covSumFile; if(!this->StartResultingXML(cmCTest::PartCoverage, "Coverage", covSumFile)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open coverage summary file." << std::endl); return 0; } this->CTest->StartXML(covSumFile, this->AppendXML); double elapsed_time_start = cmSystemTools::GetTime(); std::string coverage_start_time = this->CTest->CurrentTime(); covSumFile << "" << std::endl << "\t" << coverage_start_time << "" << std::endl << "\t" << static_cast(cmSystemTools::GetTime()) << "" << std::endl; std::string stdline; std::string errline; // expected output: // first line is: // "Source","Function Coverage","out of","%","C/D Coverage","out of","%" // after that data follows in that format std::string sourceFile; int functionsCalled = 0; int totalFunctions = 0; int percentFunction = 0; int branchCovered = 0; int totalBranches = 0; int percentBranch = 0; double total_tested = 0; double total_untested = 0; double total_functions = 0; double percent_coverage =0; double number_files = 0; std::vector coveredFiles; std::vector coveredFilesFullPath; // Read and parse the summary output file std::ifstream fin(outputFile.c_str()); if(!fin) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Cannot open coverage summary file: " << outputFile.c_str() << std::endl); return 0; } std::set coveredFileNames; while(cmSystemTools::GetLineFromStream(fin, stdline)) { // if we have a line of output from stdout if(stdline.size()) { // parse the comma separated output this->ParseBullsEyeCovsrcLine(stdline, sourceFile, functionsCalled, totalFunctions, percentFunction, branchCovered, totalBranches, percentBranch); // The first line is the header if(sourceFile == "Source" || sourceFile == "Total") { continue; } std::string file = sourceFile; coveredFileNames.insert(file); if(!cmSystemTools::FileIsFullPath(sourceFile.c_str())) { // file will be relative to the binary dir file = cont->BinaryDir; file += "/"; file += sourceFile; } file = cmSystemTools::CollapseFullPath(file.c_str()); bool shouldIDoCoverage = this->ShouldIDoCoverage(file.c_str(), cont->SourceDir.c_str(), cont->BinaryDir.c_str()); if ( !shouldIDoCoverage ) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, ".NoDartCoverage found, so skip coverage check for: " << file.c_str() << std::endl); continue; } cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Doing coverage for: " << file.c_str() << std::endl); coveredFiles.push_back(sourceFile); coveredFilesFullPath.push_back(file); number_files++; total_functions += totalFunctions; total_tested += functionsCalled; total_untested += (totalFunctions - functionsCalled); std::string fileName = cmSystemTools::GetFilenameName(file.c_str()); float cper = percentBranch + percentFunction; if(totalBranches > 0) { cper /= 2.0f; } percent_coverage += cper; float cmet = percentFunction + percentBranch; if(totalBranches > 0) { cmet /= 2.0f; } cmet /= 100.0f; tmpLog << stdline.c_str() << "\n"; tmpLog << fileName << "\n"; tmpLog << "functionsCalled: " << functionsCalled/100 << "\n"; tmpLog << "totalFunctions: " << totalFunctions/100 << "\n"; tmpLog << "percentFunction: " << percentFunction << "\n"; tmpLog << "branchCovered: " << branchCovered << "\n"; tmpLog << "totalBranches: " << totalBranches << "\n"; tmpLog << "percentBranch: " << percentBranch << "\n"; tmpLog << "percentCoverage: " << percent_coverage << "\n"; tmpLog << "coverage metric: " << cmet << "\n"; covSumFile << "\tCTest->GetShortPathToFile(file.c_str())) << "\" Covered=\"" << (cmet>0?"true":"false") << "\">\n" << "\t\t" << branchCovered << "\n" << "\t\t" << totalBranches - branchCovered << "\n" << "\t\t" << functionsCalled << "\n" << "\t\t" << totalFunctions - functionsCalled << "\n" // Hack for conversion of function to loc assume a function // has 100 lines of code << "\t\t" << functionsCalled *100 << "\n" << "\t\t" << (totalFunctions - functionsCalled)*100 << "\n" << "\t\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << (cper) << "\n" << "\t\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << (cmet) << "\n" << "\t" << std::endl; } } std::string end_time = this->CTest->CurrentTime(); covSumFile << "\t" << total_tested << "\n" << "\t" << total_untested << "\n" << "\t" << total_functions << "\n" << "\t"; covSumFile.setf(std::ios::fixed, std::ios::floatfield); covSumFile.precision(2); covSumFile << SAFEDIV(percent_coverage,number_files)<< "\n" << "\t" << end_time << "\n" << "\t" << static_cast(cmSystemTools::GetTime()) << "\n"; covSumFile << "" << static_cast((cmSystemTools::GetTime() - elapsed_time_start)/6)/10.0 << "" << "" << std::endl; this->CTest->EndXML(covSumFile); // Now create the coverage information for each file return this->RunBullseyeCoverageBranch(cont, coveredFileNames, coveredFiles, coveredFilesFullPath); } //---------------------------------------------------------------------- int cmCTestCoverageHandler::HandleBullseyeCoverage( cmCTestCoverageHandlerContainer* cont) { const char* covfile = cmSystemTools::GetEnv("COVFILE"); if(!covfile) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " COVFILE environment variable not found, not running " " bullseye\n"); return 0; } cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " run covsrc with COVFILE=[" << covfile << "]" << std::endl); if(!this->RunBullseyeSourceSummary(cont)) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Error running bullseye summary.\n"); return 0; } cmCTestLog(this->CTest, DEBUG, "HandleBullseyeCoverage return 1 " << std::endl); return 1; } bool cmCTestCoverageHandler::GetNextInt(std::string const& inputLine, std::string::size_type& pos, int& value) { std::string::size_type start = pos; pos = inputLine.find(',', start); value = atoi(inputLine.substr(start, pos).c_str()); if(pos == inputLine.npos) { return true; } pos++; return true; } bool cmCTestCoverageHandler::ParseBullsEyeCovsrcLine( std::string const& inputLine, std::string& sourceFile, int& functionsCalled, int& totalFunctions, int& percentFunction, int& branchCovered, int& totalBranches, int& percentBranch) { // find the first comma std::string::size_type pos = inputLine.find(','); if(pos == inputLine.npos) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Error parsing string : " << inputLine.c_str() << "\n"); return false; } // the source file has "" around it so extract out the file name sourceFile = inputLine.substr(1,pos-2); pos++; if(!this->GetNextInt(inputLine, pos, functionsCalled)) { return false; } if(!this->GetNextInt(inputLine, pos, totalFunctions)) { return false; } if(!this->GetNextInt(inputLine, pos, percentFunction)) { return false; } if(!this->GetNextInt(inputLine, pos, branchCovered)) { return false; } if(!this->GetNextInt(inputLine, pos, totalBranches)) { return false; } if(!this->GetNextInt(inputLine, pos, percentBranch)) { return false; } // should be at the end now if(pos != inputLine.npos) { cmCTestLog(this->CTest, ERROR_MESSAGE, "Error parsing input : " << inputLine.c_str() << " last pos not npos = " << pos << "\n"); } return true; }