START_SECTION((IBSpectraFile& operator=(const IBSpectraFile& rhs))) { IBSpectraFile ibfile; ibfile = *ptr; TEST_NOT_EQUAL(&ibfile, nullPointer) } END_SECTION START_SECTION((void store(const String& filename, const ConsensusMap& cm))) { // test invalid ConsensusMap ConsensusMap cm_no_ms2quant; cm_no_ms2quant.setExperimentType("not-isobaric"); IBSpectraFile ibfile_no_ms2quant; TEST_EXCEPTION_WITH_MESSAGE(Exception::InvalidParameter, ibfile_no_ms2quant.store("not-a-file-name", cm_no_ms2quant), "Given ConsensusMap does not hold any isobaric quantification data.") // test wrong channel count ConsensusMap cm_wrong_channel_count; cm_wrong_channel_count.setExperimentType("labeled_MS2"); ConsensusMap::FileDescription channel1; ConsensusMap::FileDescription channel2; ConsensusMap::FileDescription channel3; cm_wrong_channel_count.getFileDescriptions()[0] = channel1; cm_wrong_channel_count.getFileDescriptions()[1] = channel2; cm_wrong_channel_count.getFileDescriptions()[2] = channel3; IBSpectraFile ibfile_wrong_channel_count; TEST_EXCEPTION_WITH_MESSAGE(Exception::InvalidParameter, ibfile_wrong_channel_count.store("not-a-file-name", cm_wrong_channel_count), "Could not guess isobaric quantification data from ConsensusMap due to non-matching number of input maps.")
ExitCodes main_(int, const char**) { //------------------------------------------------------------- // parameter handling //------------------------------------------------------------- //input file names String in = getStringOption_("in"); bool write_mzML_index = getFlag_("write_mzML_index"); //input file type FileHandler fh; FileTypes::Type in_type = FileTypes::nameToType(getStringOption_("in_type")); if (in_type == FileTypes::UNKNOWN) { in_type = fh.getType(in); writeDebug_(String("Input file type: ") + FileTypes::typeToName(in_type), 2); } if (in_type == FileTypes::UNKNOWN) { writeLog_("Error: Could not determine input file type!"); return PARSE_ERROR; } //output file names and types String out = getStringOption_("out"); FileTypes::Type out_type = FileTypes::nameToType(getStringOption_("out_type")); if (out_type == FileTypes::UNKNOWN) { out_type = fh.getTypeByFileName(out); } if (out_type == FileTypes::UNKNOWN) { writeLog_("Error: Could not determine output file type!"); return PARSE_ERROR; } bool TIC_DTA2D = getFlag_("TIC_DTA2D"); bool process_lowmemory = getFlag_("process_lowmemory"); writeDebug_(String("Output file type: ") + FileTypes::typeToName(out_type), 1); String uid_postprocessing = getStringOption_("UID_postprocessing"); //------------------------------------------------------------- // reading input //------------------------------------------------------------- typedef MSExperiment<Peak1D> MSExperimentType; MSExperimentType exp; typedef MSExperimentType::SpectrumType SpectrumType; typedef FeatureMap FeatureMapType; FeatureMapType fm; ConsensusMap cm; writeDebug_(String("Loading input file"), 1); if (in_type == FileTypes::CONSENSUSXML) { ConsensusXMLFile().load(in, cm); cm.sortByPosition(); if ((out_type != FileTypes::FEATUREXML) && (out_type != FileTypes::CONSENSUSXML)) { // You you will lose information and waste memory. Enough reasons to issue a warning! writeLog_("Warning: Converting consensus features to peaks. You will lose information!"); exp.set2DData(cm); } } else if (in_type == FileTypes::EDTA) { EDTAFile().load(in, cm); cm.sortByPosition(); if ((out_type != FileTypes::FEATUREXML) && (out_type != FileTypes::CONSENSUSXML)) { // You you will lose information and waste memory. Enough reasons to issue a warning! writeLog_("Warning: Converting consensus features to peaks. You will lose information!"); exp.set2DData(cm); } } else if (in_type == FileTypes::FEATUREXML || in_type == FileTypes::TSV || in_type == FileTypes::PEPLIST || in_type == FileTypes::KROENIK) { fh.loadFeatures(in, fm, in_type); fm.sortByPosition(); if ((out_type != FileTypes::FEATUREXML) && (out_type != FileTypes::CONSENSUSXML)) { // You will lose information and waste memory. Enough reasons to issue a warning! writeLog_("Warning: Converting features to peaks. You will lose information! Mass traces are added, if present as 'num_of_masstraces' and 'masstrace_intensity_<X>' (X>=0) meta values."); exp.set2DData<true>(fm); } } else if (process_lowmemory) { // Special switch for the low memory options: // We can transform the complete experiment directly without first // loading the complete data into memory. PlainMSDataWritingConsumer will // write out mzML to disk as they are read from the input. if (in_type == FileTypes::MZML && out_type == FileTypes::MZML) { PlainMSDataWritingConsumer consumer(out); consumer.getOptions().setWriteIndex(write_mzML_index); consumer.addDataProcessing(getProcessingInfo_(DataProcessing::CONVERSION_MZML)); MzMLFile mzmlfile; mzmlfile.setLogType(log_type_); mzmlfile.transform(in, &consumer); return EXECUTION_OK; } else if (in_type == FileTypes::MZXML && out_type == FileTypes::MZML) { PlainMSDataWritingConsumer consumer(out); consumer.getOptions().setWriteIndex(write_mzML_index); consumer.addDataProcessing(getProcessingInfo_(DataProcessing::CONVERSION_MZML)); MzXMLFile mzxmlfile; mzxmlfile.setLogType(log_type_); mzxmlfile.transform(in, &consumer); return EXECUTION_OK; } else { throw Exception::IllegalArgument(__FILE__, __LINE__, __PRETTY_FUNCTION__, "Process_lowmemory option can only be used with mzML / mzXML input and mzML output data types."); } } else { fh.loadExperiment(in, exp, in_type, log_type_); } //------------------------------------------------------------- // writing output //------------------------------------------------------------- writeDebug_(String("Writing output file"), 1); if (out_type == FileTypes::MZML) { //add data processing entry addDataProcessing_(exp, getProcessingInfo_(DataProcessing:: CONVERSION_MZML)); MzMLFile f; f.setLogType(log_type_); f.getOptions().setWriteIndex(write_mzML_index); ChromatogramTools().convertSpectraToChromatograms(exp, true); f.store(out, exp); } else if (out_type == FileTypes::MZDATA) { //annotate output with data processing info addDataProcessing_(exp, getProcessingInfo_(DataProcessing:: CONVERSION_MZDATA)); MzDataFile f; f.setLogType(log_type_); ChromatogramTools().convertChromatogramsToSpectra<MSExperimentType>(exp); f.store(out, exp); } else if (out_type == FileTypes::MZXML) { //annotate output with data processing info addDataProcessing_(exp, getProcessingInfo_(DataProcessing:: CONVERSION_MZXML)); MzXMLFile f; f.setLogType(log_type_); ChromatogramTools().convertChromatogramsToSpectra<MSExperimentType>(exp); f.store(out, exp); } else if (out_type == FileTypes::DTA2D) { //add data processing entry addDataProcessing_(exp, getProcessingInfo_(DataProcessing:: FORMAT_CONVERSION)); DTA2DFile f; f.setLogType(log_type_); ChromatogramTools().convertChromatogramsToSpectra<MSExperimentType>(exp); if (TIC_DTA2D) { // store the total ion chromatogram (TIC) f.storeTIC(out, exp); } else { // store entire experiment f.store(out, exp); } } else if (out_type == FileTypes::MGF) { //add data processing entry addDataProcessing_(exp, getProcessingInfo_(DataProcessing:: FORMAT_CONVERSION)); MascotGenericFile f; f.setLogType(log_type_); f.store(out, exp, getFlag_("MGF_compact")); } else if (out_type == FileTypes::FEATUREXML) { if ((in_type == FileTypes::FEATUREXML) || (in_type == FileTypes::TSV) || (in_type == FileTypes::PEPLIST) || (in_type == FileTypes::KROENIK)) { if (uid_postprocessing == "ensure") { fm.applyMemberFunction(&UniqueIdInterface::ensureUniqueId); } else if (uid_postprocessing == "reassign") { fm.applyMemberFunction(&UniqueIdInterface::setUniqueId); } } else if (in_type == FileTypes::CONSENSUSXML || in_type == FileTypes::EDTA) { MapConversion::convert(cm, true, fm); } else // not loaded as feature map or consensus map { // The feature specific information is only defaulted. Enough reasons to issue a warning! writeLog_("Warning: Converting peaks to features will lead to incomplete features!"); fm.clear(); fm.reserve(exp.getSize()); typedef FeatureMapType::FeatureType FeatureType; FeatureType feature; feature.setQuality(0, 1); // override default feature.setQuality(1, 1); // override default feature.setOverallQuality(1); // override default for (MSExperimentType::ConstIterator spec_iter = exp.begin(); spec_iter != exp.end(); ++spec_iter ) { feature.setRT(spec_iter->getRT()); for (SpectrumType::ConstIterator peak1_iter = spec_iter->begin(); peak1_iter != spec_iter->end(); ++peak1_iter ) { feature.setMZ(peak1_iter->getMZ()); feature.setIntensity(peak1_iter->getIntensity()); feature.setUniqueId(); fm.push_back(feature); } } fm.updateRanges(); } addDataProcessing_(fm, getProcessingInfo_(DataProcessing:: FORMAT_CONVERSION)); FeatureXMLFile().store(out, fm); } else if (out_type == FileTypes::CONSENSUSXML) { if ((in_type == FileTypes::FEATUREXML) || (in_type == FileTypes::TSV) || (in_type == FileTypes::PEPLIST) || (in_type == FileTypes::KROENIK)) { if (uid_postprocessing == "ensure") { fm.applyMemberFunction(&UniqueIdInterface::ensureUniqueId); } else if (uid_postprocessing == "reassign") { fm.applyMemberFunction(&UniqueIdInterface::setUniqueId); } MapConversion::convert(0, fm, cm); } // nothing to do for consensus input else if (in_type == FileTypes::CONSENSUSXML || in_type == FileTypes::EDTA) { } else // experimental data { MapConversion::convert(0, exp, cm, exp.size()); } addDataProcessing_(cm, getProcessingInfo_(DataProcessing:: FORMAT_CONVERSION)); ConsensusXMLFile().store(out, cm); } else if (out_type == FileTypes::EDTA) { if (fm.size() > 0 && cm.size() > 0) { LOG_ERROR << "Internal error: cannot decide on container (Consensus or Feature)! This is a bug. Please report it!"; return INTERNAL_ERROR; } if (fm.size() > 0) EDTAFile().store(out, fm); else if (cm.size() > 0) EDTAFile().store(out, cm); } else if (out_type == FileTypes::CSV) { // as ibspectra is currently the only csv/text based format we assume // that out_type == FileTypes::CSV means ibspectra, if more formats // are added we need a more intelligent strategy to decide which // conversion is requested // IBSpectra selected as output type if (in_type != FileTypes::CONSENSUSXML) { LOG_ERROR << "Incompatible input data: FileConverter can only convert consensusXML files to ibspectra format."; return INCOMPATIBLE_INPUT_DATA; } IBSpectraFile ibfile; ibfile.store(out, cm); } else { writeLog_("Unknown output file type given. Aborting!"); printUsage_(); return ILLEGAL_PARAMETERS; } return EXECUTION_OK; }