/** * Parses the data from an mzIdentML file given by its name into the given {@link PIACompiler}. * * @param fileName name of the mzTab file */ public static boolean getDataFromMascotDatFile( String name, String fileName, PIACompiler compiler) { // need to parse through the file, as mascotdatfile (3.2.11) does not support // - the "index" variable of the queries // - the "fastafile" // - no good information for enzyme Map<String, String> queryIndexMap = new HashMap<>(); String fastaFile = null; String enzymeCleavage = null; String enzymeRestrict = null; try (BufferedReader rd = new BufferedReader(new FileReader(fileName))) { String line; boolean inQuery = false; boolean inEnzyme = false; String queryName = null; while ((line = rd.readLine()) != null) { if (!inQuery) { if (line.startsWith("Content-Type: application/x-Mascot; NAME=\"query")) { queryName = line.substring(42, line.length() - 1); inQuery = true; } else if ((fastaFile == null) && line.startsWith("fastafile")) { fastaFile = line.substring(10); } } else if (inQuery && line.startsWith("index=")) { queryIndexMap.put(queryName, line); inQuery = false; } if (!inEnzyme) { if (((enzymeCleavage == null) || (enzymeRestrict == null)) && line.startsWith("Content-Type: application/x-Mascot; NAME=\"enzyme\"")) { inEnzyme = true; } } else { if (line.startsWith("Cleavage:")) { enzymeCleavage = line.substring(9).trim(); } else if (line.startsWith("Restrict:")) { enzymeRestrict = line.substring(9).trim(); } else if (line.startsWith("Content-Type:")) { inEnzyme = false; } } } rd.close(); } catch (IOException e) { LOGGER.error("could not read '" + fileName + "' for index parsing.", e); return false; } MascotDatfileInf mascotFile = MascotDatfileFactory.create(fileName, MascotDatfileType.MEMORY); if (mascotFile == null) { LOGGER.error("could not read '" + fileName + "'."); return false; } PIAInputFile file = compiler.insertNewFile( name, fileName, InputFileParserFactory.InputFileTypes.MASCOT_DAT_INPUT.getFileSuffix()); // create the analysis software and add it to the compiler AnalysisSoftware mascot = new AnalysisSoftware(); mascot.setId("mascot"); mascot.setName("mascot"); mascot.setUri("http://www.matrixscience.com/"); mascot.setVersion(mascotFile.getHeaderSection().getVersion()); Param param = new Param(); param.setParam(MzIdentMLTools.createPSICvParam(OntologyConstants.MASCOT, null)); mascot.setSoftwareName(param); mascot = compiler.putIntoSoftwareMap(mascot); // create the searchDatabase and add it to the compiler SearchDatabase searchDatabase = new SearchDatabase(); // required searchDatabase.setId("mascotDB"); searchDatabase.setLocation(fastaFile); // optional searchDatabase.setName(mascotFile.getParametersSection().getDatabase()); searchDatabase.setNumDatabaseSequences(mascotFile.getHeaderSection().getSequences()); searchDatabase.setNumResidues(mascotFile.getHeaderSection().getResidues()); // fileformat FileFormat fileFormat = new FileFormat(); fileFormat.setCvParam(MzIdentMLTools.createPSICvParam(OntologyConstants.FASTA_FORMAT, null)); searchDatabase.setFileFormat(fileFormat); // databaseName param = new Param(); param.setParam( MzIdentMLTools.createUserParam(mascotFile.getHeaderSection().getRelease(), null, "string")); searchDatabase.setDatabaseName(param); // add searchDB to the compiler searchDatabase = compiler.putIntoSearchDatabasesMap(searchDatabase); // add the spectraData (input file) SpectraData spectraData = null; if ((mascotFile.getParametersSection().getFile() != null) && (mascotFile.getParametersSection().getFile().trim().length() > 0)) { spectraData = new SpectraData(); spectraData.setId("mascotInput"); spectraData.setLocation(mascotFile.getParametersSection().getFile()); if ((mascotFile.getParametersSection().getFormat() != null) && "Mascot generic".equals(mascotFile.getParametersSection().getFormat())) { fileFormat = new FileFormat(); fileFormat.setCvParam( MzIdentMLTools.createPSICvParam(OntologyConstants.MASCOT_MGF_FORMAT, null)); spectraData.setFileFormat(fileFormat); SpectrumIDFormat idFormat = new SpectrumIDFormat(); idFormat.setCvParam( MzIdentMLTools.createPSICvParam( OntologyConstants.MULTIPLE_PEAK_LIST_NATIVEID_FORMAT, null)); spectraData.setSpectrumIDFormat(idFormat); } spectraData = compiler.putIntoSpectraDataMap(spectraData); } else { LOGGER.warn("The source file (MGF) was not recorded in the file!"); } // define the spectrumIdentificationProtocol SpectrumIdentificationProtocol spectrumIDProtocol = new SpectrumIdentificationProtocol(); spectrumIDProtocol.setId("mascotAnalysis"); spectrumIDProtocol.setAnalysisSoftware(mascot); param = new Param(); if ("MIS".equals(mascotFile.getParametersSection().getSearch())) { param.setParam(MzIdentMLTools.createPSICvParam(OntologyConstants.MS_MS_SEARCH, null)); } // TODO: add error on PMF query (not usable for PIA) // TODO: and sequence query spectrumIDProtocol.setSearchType(param); ParamList paramList = new ParamList(); paramList .getCvParam() .add( MzIdentMLTools.createPSICvParam( OntologyConstants.MASCOT_INSTRUMENT, mascotFile.getParametersSection().getInstrument())); paramList .getUserParam() .add( MzIdentMLTools.createUserParam( "Mascot User Comment", mascotFile.getParametersSection().getCom(), "string")); if ("Monoisotopic".equalsIgnoreCase(mascotFile.getParametersSection().getMass())) { paramList .getCvParam() .add(MzIdentMLTools.createPSICvParam(OntologyConstants.FRAGMENT_MASS_TYPE_MONO, null)); paramList .getCvParam() .add(MzIdentMLTools.createPSICvParam(OntologyConstants.PARENT_MASS_TYPE_MONO, null)); } else { paramList .getCvParam() .add(MzIdentMLTools.createPSICvParam(OntologyConstants.FRAGMENT_MASS_TYPE_AVERAGE, null)); paramList .getCvParam() .add(MzIdentMLTools.createPSICvParam(OntologyConstants.PARENT_MASS_TYPE_AVERAGE, null)); } spectrumIDProtocol.setAdditionalSearchParams(paramList); ModificationParams modParams = new ModificationParams(); for (Object objMod : mascotFile.getModificationList().getVariableModifications()) { modParams .getSearchModification() .add(createPSIModification((VariableModification) objMod, compiler.getUnimodParser())); } for (Object objMod : mascotFile.getModificationList().getFixedModifications()) { modParams .getSearchModification() .add(createPSIModification((FixedModification) objMod, compiler.getUnimodParser())); } spectrumIDProtocol.setModificationParams(modParams); Enzymes enzymes = new Enzymes(); spectrumIDProtocol.setEnzymes(enzymes); if (enzymeCleavage != null) { Enzyme enzyme = new Enzyme(); enzyme.setId("enzyme"); enzyme.setMissedCleavages(Integer.parseInt(mascotFile.getParametersSection().getPFA())); StringBuilder regExp = new StringBuilder(); if (enzymeRestrict == null) { regExp.append("(?=["); regExp.append(enzymeCleavage); regExp.append("])"); } else { regExp.append("(?<=["); regExp.append(enzymeCleavage); regExp.append("])(?!"); regExp.append(enzymeRestrict); regExp.append(")"); } enzyme.setSiteRegexp(regExp.toString()); enzymes.getEnzyme().add(enzyme); } Tolerance tolerance = new Tolerance(); AbstractParam abstractParam = MzIdentMLTools.createPSICvParam( OntologyConstants.SEARCH_TOLERANCE_PLUS_VALUE, mascotFile.getParametersSection().getITOL()); MzIdentMLTools.setUnitParameterFromString( mascotFile.getParametersSection().getITOLU(), abstractParam); tolerance.getCvParam().add((CvParam) abstractParam); abstractParam = MzIdentMLTools.createPSICvParam( OntologyConstants.SEARCH_TOLERANCE_MINUS_VALUE, mascotFile.getParametersSection().getITOL()); MzIdentMLTools.setUnitParameterFromString( mascotFile.getParametersSection().getITOLU(), abstractParam); tolerance.getCvParam().add((CvParam) abstractParam); spectrumIDProtocol.setFragmentTolerance(tolerance); tolerance = new Tolerance(); abstractParam = MzIdentMLTools.createPSICvParam( OntologyConstants.SEARCH_TOLERANCE_PLUS_VALUE, mascotFile.getParametersSection().getTOL()); MzIdentMLTools.setUnitParameterFromString( mascotFile.getParametersSection().getTOLU(), abstractParam); tolerance.getCvParam().add((CvParam) abstractParam); abstractParam = MzIdentMLTools.createPSICvParam( OntologyConstants.SEARCH_TOLERANCE_MINUS_VALUE, mascotFile.getParametersSection().getTOL()); MzIdentMLTools.setUnitParameterFromString( mascotFile.getParametersSection().getTOLU(), abstractParam); tolerance.getCvParam().add((CvParam) abstractParam); spectrumIDProtocol.setParentTolerance(tolerance); // no threshold set, take all PSMs from the dat file paramList = new ParamList(); paramList .getCvParam() .add(MzIdentMLTools.createPSICvParam(OntologyConstants.NO_THRESHOLD, null)); spectrumIDProtocol.setThreshold(paramList); file.addSpectrumIdentificationProtocol(spectrumIDProtocol); // add the spectrum identification SpectrumIdentification spectrumID = new SpectrumIdentification(); spectrumID.setId("mascotIdentification"); spectrumID.setSpectrumIdentificationList(null); spectrumID.setSpectrumIdentificationProtocol(spectrumIDProtocol); if (spectraData != null) { InputSpectra inputSpectra = new InputSpectra(); inputSpectra.setSpectraData(spectraData); spectrumID.getInputSpectra().add(inputSpectra); } SearchDatabaseRef searchDBRef = new SearchDatabaseRef(); searchDBRef.setSearchDatabase(searchDatabase); spectrumID.getSearchDatabaseRef().add(searchDBRef); file.addSpectrumIdentification(spectrumID); // get the mappings QueryEnumerator queryEnumerator = mascotFile.getQueryEnumerator(); QueryToPeptideMapInf queryToPeptideMap = mascotFile.getQueryToPeptideMap(); QueryToPeptideMapInf decoyQueryToPeptideMap = mascotFile.getDecoyQueryToPeptideMap(false); ProteinMap proteinMap = mascotFile.getProteinMap(); ProteinMap decoyProteinMap = mascotFile.getDecoyProteinMap(); // one query is one spectrum, so go through the queries int nrQueries = mascotFile.getNumberOfQueries(); int nrQueriesDone = 0; LOGGER.debug("queries in file: " + nrQueries); while (queryEnumerator.hasMoreElements()) { Query currQuery = queryEnumerator.nextElement(); int charge; try { if (currQuery.getChargeString() == null) { charge = 0; } else if (currQuery.getChargeString().contains("-")) { charge = -Integer.parseInt(currQuery.getChargeString().replace("-", "")); } else { // we assume, it is positively charged charge = Integer.parseInt(currQuery.getChargeString().replace("+", "")); } } catch (NumberFormatException e) { charge = 0; LOGGER.warn( "could not parse charge '" + currQuery.getChargeString() + "' for '" + currQuery.getTitle() + "'"); } double precursorMZ = currQuery.getPrecursorMZ(); Double retentionTime; if (currQuery.getRetentionTimeInSeconds() != null) { retentionTime = Double.parseDouble(currQuery.getRetentionTimeInSeconds()); } else { retentionTime = null; } String spectrumTitle = currQuery.getTitle(); String index = queryIndexMap.get("query" + currQuery.getQueryNumber()); // add the target identifications if (queryToPeptideMap != null) { List<PeptideHit> peptideHits = queryToPeptideMap.getAllPeptideHits(currQuery.getQueryNumber()); insertPeptideHitsIntoCompiler( compiler, peptideHits, proteinMap, searchDatabase, charge, precursorMZ, retentionTime, index, spectrumTitle, file, spectrumID, false); } // add the decoy identifications if (decoyQueryToPeptideMap != null) { List<PeptideHit> peptideHits = decoyQueryToPeptideMap.getAllPeptideHits(currQuery.getQueryNumber()); insertPeptideHitsIntoCompiler( compiler, peptideHits, decoyProteinMap, searchDatabase, charge, precursorMZ, retentionTime, index, spectrumTitle, file, spectrumID, true); } nrQueriesDone++; if (nrQueriesDone % 10000 == 0) { LOGGER.debug( "done " + nrQueriesDone + " / " + nrQueries + String.format(" (%1$.4f%%)", 100.0 * nrQueriesDone / nrQueries)); } } mascotFile.finish(); return true; }
private static int insertPeptideHitsIntoCompiler( PIACompiler compiler, List<PeptideHit> peptideHits, ProteinMap proteinMap, SearchDatabase searchDatabase, int charge, Double precursorMZ, Double retentionTime, String sourceId, String spectrumTitle, PIAInputFile file, SpectrumIdentification spectrumID, boolean isDecoy) { String sourceIdStr = sourceId; if (peptideHits == null) { return 0; } int nrPepHits = 0; Matcher matcher = MzIdentMLTools.patternScanInTitle.matcher(spectrumTitle); if (matcher.matches()) { sourceIdStr = "index=" + matcher.group(1); } // the peptideHits are the SpectrumPeptideMatches for (PeptideHit peptideHit : peptideHits) { PeptideSpectrumMatch psm; psm = compiler.createNewPeptideSpectrumMatch( charge, precursorMZ, peptideHit.getDeltaMass(), retentionTime, peptideHit.getSequence(), peptideHit.getMissedCleavages(), sourceIdStr, spectrumTitle, file, spectrumID); psm.setIsDecoy(isDecoy); // get the peptide from the compiler or, if need be, add it Peptide peptide; peptide = compiler.getPeptide(peptideHit.getSequence()); if (peptide == null) { peptide = compiler.insertNewPeptide(peptideHit.getSequence()); } // add the spectrum to the peptide peptide.addSpectrum(psm); // go through the protein hits @SuppressWarnings("unchecked") List<ProteinHit> proteins = peptideHit.getProteinHits(); for (ProteinHit proteinHit : proteins) { FastaHeaderInfos fastaInfo = FastaHeaderInfos.parseHeaderInfos(proteinHit.getAccession()); if (fastaInfo == null) { fastaInfo = new FastaHeaderInfos( null, proteinHit.getAccession(), proteinMap.getProteinID(proteinHit.getAccession()).getDescription()); } else { // if there was a protein description different to the now parsed one, take the original // from mascot String proteinDescription = proteinMap.getProteinID(proteinHit.getAccession()).getDescription(); if ((proteinDescription != null) && (proteinDescription.trim().length() > 0) && !proteinDescription.equals(fastaInfo.getDescription())) { fastaInfo = new FastaHeaderInfos(null, fastaInfo.getAccession(), proteinDescription); } } // add the Accession to the compiler (if it is not already there) Accession acc = compiler.getAccession(fastaInfo.getAccession()); if (acc == null) { // unfortunately, the sequence is not stored in the dat file acc = compiler.insertNewAccession(fastaInfo.getAccession(), null); } acc.addFile(file.getID()); if ((fastaInfo.getDescription() != null) && (fastaInfo.getDescription().length() > 0)) { acc.addDescription(file.getID(), fastaInfo.getDescription()); } acc.addSearchDatabaseRef(searchDatabase.getId()); // add the accession occurrence to the peptide peptide.addAccessionOccurrence(acc, proteinHit.getStart(), proteinHit.getStop()); // now insert the connection between peptide and accession into the compiler compiler.addAccessionPeptideConnection(acc, peptide); } // add the scores ScoreModel score; score = new ScoreModel(peptideHit.getIonsScore(), ScoreModelEnum.MASCOT_SCORE); psm.addScore(score); score = new ScoreModel(peptideHit.getExpectancy(), ScoreModelEnum.MASCOT_EXPECT); psm.addScore(score); // add the modifications com.compomics.mascotdatfile.util.interfaces.Modification[] mods = peptideHit.getModifications(); for (int loc = 0; loc < mods.length; loc++) { if (mods[loc] != null) { Modification modification; Character residue; if ((loc == 0) || (loc > psm.getSequence().length())) { residue = '.'; } else { residue = psm.getSequence().charAt(loc - 1); } modification = new Modification(residue, mods[loc].getMass(), mods[loc].getType(), null); psm.addModification(loc, modification); } } compiler.insertCompletePeptideSpectrumMatch(psm); nrPepHits++; } return nrPepHits; }