private void buildProfiles() { log.info("Filling repository with profiles"); List<String> referenceProfile; List<String> referenceGeneNames; Set<GctReplicate> gctReplicatePairs = repositoryService.getGctReplicatesCombinations(); int dummyClusteringOrder = gctReplicatePairs.size(); for (GctReplicate gctReplicate : gctReplicatePairs) { GctFile gctFile = gctReplicate.getGctFile(); ReplicateAnnotation replicateAnnotation = gctReplicate.getReplicateAnnotation(); List<PeakArea> peakAreas = peakAreaRepository.findByGctFileAndReplicateAnnotation(gctFile, replicateAnnotation); AssayType assayType = gctFile.getAssayType(); referenceProfile = getReferenceProfile(assayType); referenceGeneNames = getReferenceGeneNames(assayType); Double[] profileVector = new Double[referenceProfile.size()]; boolean[] imputeVector = new boolean[referenceProfile.size()]; for (PeakArea peakArea : peakAreas) { int index = referenceProfile.indexOf(peakArea.getPeptideAnnotation().getPeptideId()); profileVector[index] = peakArea.getValue(); } UtilsStatistics.imputeProfileVector(profileVector, imputeVector); Profile profile = new Profile( replicateAnnotation, gctFile, ArrayUtils.toPrimitive(profileVector), imputeVector, referenceProfile, referenceGeneNames, dummyClusteringOrder--); profileRepository.save(profile); } }
private void computeCorrelations() { log.info("Filling repository with most correlated profiles"); List<String> referenceProfile; for (AssayType assayType : AssayType.values()) { referenceProfile = getReferenceProfile(assayType); List<Profile> profiles = profileRepository.findByAssayType(assayType); String[] profileNames = new String[profiles.size()]; double[][] distanceMatrix = new double[profiles.size()][profiles.size()]; int i = 0; for (Profile profileA : profiles) { profileNames[i] = profileA.getId().toString(); Double maxPearson = Double.MIN_VALUE; Profile maxProfile = profileA; int j = 0; for (Profile profileB : profiles) { if (profileA.equals(profileB)) { distanceMatrix[i][j] = 0; j++; continue; } double[] vectorA = profileA.getVector(); double[] vectorB = profileB.getVector(); PearsonsCorrelation pearson = new PearsonsCorrelation(); Double pearsonCorrelation = pearson.correlation(vectorA, vectorB); if (pearsonCorrelation >= maxPearson) { maxPearson = pearsonCorrelation; maxProfile = profileB; } double[] profileAasDouble = UtilsTransform.intArrayToDouble(profileA.getColors()); double[] profileBasDouble = UtilsTransform.intArrayToDouble(profileB.getColors()); Double pearsonOfColors = pearson.correlation(profileAasDouble, profileBasDouble); distanceMatrix[i][j] = pearsonOfColors; j++; } profileA.setCorrelatedVector(maxProfile.getListWrapper()); SortedSet<StringDouble> positivePeptides = UtilsStatistics.influentialPeptides( profileA.getVector(), maxProfile.getVector(), referenceProfile, true); profileA.setPositivePeptides(UtilsTransform.SortedSetToHTML(positivePeptides, false)); DecimalFormat df = new DecimalFormat("0.0000"); String peptideCorrelation = " <br/><br/><b style=\"color: #23527c;\">%s</b>"; profileA.setPositiveCorrelation( maxProfile.toString() + String.format(peptideCorrelation, df.format(maxPearson))); profileRepository.save(profileA); i++; } } }