public void mapEdgeColumn(final EncoreInteraction interaction, final CyRow row) { final Set<String> exp = interaction.getExperimentToPubmed().keySet(); row.set(DETECTION_METHOD_ID, new ArrayList<String>(exp)); final List<CrossReference> pubIDs = interaction.getPublicationIds(); final List<String> pubIdList = new ArrayList<String>(); final List<String> pubDBList = new ArrayList<String>(); for (CrossReference pub : pubIDs) { pubIdList.add(pub.getIdentifier()); pubDBList.add(pub.getDatabase()); } if (pubIdList.isEmpty() == false) row.set(PUB_ID, pubIdList); if (pubDBList.isEmpty() == false) row.set(PUB_DB, pubDBList); // Interaction (use UniqueID) row.set(CyEdge.INTERACTION, interaction.getMappingIdDbNames()); final List<Confidence> scores = interaction.getConfidenceValues(); for (Confidence c : scores) { String type = c.getType(); String value = c.getValue(); if (row.getTable().getColumn(type) == null) row.getTable().createColumn(type, Double.class, true); try { double doubleVal = Double.parseDouble(value); row.set(type, doubleVal); } catch (NumberFormatException e) { // logger.warn("Invalid number string: " + value); // Ignore invalid number } } }
public void mapNodeColumn(final String[] entries, final CyRow sourceRow, final CyRow targetRow) { this.isSelfEdge = false; // Primary ID sets final Map<String, String> accsSource = createNames(entries[0]); processNames(sourceRow, accsSource); // ALT and Aliases final Map<String, List<String>> otherSource = createOtherNames(entries[2], entries[4]); processOtherNames(sourceRow, otherSource); if (currentGeneName != null) sourceRow.set(PREDICTED_GENE_NAME, currentGeneName); else { guessHumanReadableName(sourceRow); } setSpecies(entries[9], sourceRow); if (!isSelfEdge) { final Map<String, String> accsTarget = createNames(entries[1]); processNames(targetRow, accsTarget); final Map<String, List<String>> otherTarget = createOtherNames(entries[3], entries[5]); processOtherNames(targetRow, otherTarget); if (currentGeneName != null) targetRow.set(PREDICTED_GENE_NAME, currentGeneName); else { guessHumanReadableName(targetRow); } setSpecies(entries[10], targetRow); } // For 2.7 data if (entries.length > 15) { // addListColumn(sourceRow, entries[16], "Biological Role", String.class); // addListColumn(targetRow, entries[17], "Biological Role", String.class); // // addListColumn(sourceRow, entries[18], "Experimental Role", String.class); // addListColumn(targetRow, entries[19], "Experimental Role", String.class); addListColumn(sourceRow, entries[20], INTERACTOR_TYPE, String.class); addListColumn(targetRow, entries[21], INTERACTOR_TYPE, String.class); addListColumn(sourceRow, entries[22], "Xref", String.class); addListColumn(targetRow, entries[23], "Xref", String.class); addSimpleListColumn(sourceRow, entries[25], "Annotations"); addSimpleListColumn(targetRow, entries[26], "Annotations"); addSimpleListColumn(sourceRow, entries[36], "Features"); addSimpleListColumn(targetRow, entries[38], "Features"); // addListColumn(sourceRow, entries[40], "Participant Detection Method", String.class); // addListColumn(targetRow, entries[41], "Participant Detection Method", String.class); } }
private final void setSpecies(final String speciesText, CyRow row) { // Pick first entry only. final String[] entries = SPLITTER.split(speciesText); final String[] values = parseValues(entries[0]); if (values[1] != null) { row.set(TAXNOMY, values[1]); } if (values[2] != null) { row.set(TAXNOMY_NAME, values[2]); } }
private boolean findHumanReadableName( final CyRow row, final List<String> attrList, Pattern pattern, boolean exist) { String candidateString = null; for (final String geneID : attrList) { if (pattern.matcher(geneID).find() == exist) { candidateString = geneID; break; } } if (candidateString != null) { if (candidateString.contains("_")) { final String firstPart = candidateString.split("_")[0]; for (String candidate : attrList) { if (candidate.equalsIgnoreCase(firstPart)) { candidateString = firstPart; break; } } } row.set(PREDICTED_GENE_NAME, candidateString); return true; } return false; }
private void processSpecies(CyRow row, CrossReference ref) { if (ref != null) { final String name = ref.getText(); final String speciesID = ref.getIdentifier(); row.set(TAXNOMY, speciesID); row.set(TAXNOMY_NAME, name); } }
/** {@inheritDoc} */ @Override public void mapToTable(Graph graph, Edge edge, Evidence evidence, CyTable table) { if (graph == null) throw new NullPointerException("graph cannot be null"); if (edge == null) throw new NullPointerException("edge cannot be null"); if (evidence == null) throw new NullPointerException("evidence cannot be null"); if (table == null) throw new NullPointerException("table cannot be null"); if (graph.cyNetwork == null) throw new IllegalArgumentException("graph's cyNetwork cannot be null"); if (edge.cyEdge == null) throw new IllegalArgumentException("edge's cyEdge cannot be null"); CyNetwork cyN = graph.cyNetwork; CyEdge cyE = edge.cyEdge; CyRow networkRow = cyN.getRow(cyN); String networkName = networkRow.get(CyNetwork.NAME, String.class); CyRow row = table.getRow(SUIDFactory.getNextSUID()); row.set(NETWORK_SUID, cyN.getSUID()); row.set(NETWORK_NAME, networkName); row.set(EDGE_SUID, cyE.getSUID()); row.set(BEL_STATEMENT, evidence.belStatement); row.set(SUMMARY_TEXT, evidence.summaryText); if (evidence.citation != null) { row.set(CITATION_TYPE, evidence.citation.type); row.set(CITATION_ID, evidence.citation.id); row.set(CITATION_NAME, evidence.citation.name); } if (evidence.biologicalContext != null) { // create any annotation columns that do not already exist BiologicalContext bc = evidence.biologicalContext; for (String varyingKey : bc.variedAnnotations.keySet()) { getOrCreateColumn(varyingKey, String.class, false, table); } // set annotation values row.set(SPECIES, bc.speciesCommonName); Map<String, Object> varying = bc.variedAnnotations; for (Entry<String, Object> entry : varying.entrySet()) { row.set(entry.getKey(), getOrEmptyString(entry.getKey(), varying)); } } }
private void mergeRow(String keyName, CyRow sourceRow, CyRow targetRow) { for (CyColumn column : sourceRow.getTable().getColumns()) { if (cancelled) return; String columnName = column.getName(); if (columnName.equals(keyName)) continue; Class<?> type = column.getType(); if (type.equals(List.class)) { Class<?> elementType = column.getListElementType(); List<?> list = sourceRow.getList(columnName, elementType); targetRow.set(columnName, list); } else { Object value = sourceRow.get(columnName, type); targetRow.set(columnName, value); } } }
private final void addListColumn( final CyRow row, final String val, final String columnName, final Class<?> listType) { if (val == null || val.equals("-")) { return; } String newColName = null; // Create column if necessary if (columnName != null) { if (row.getTable().getColumn(columnName) == null) { row.getTable().createListColumn(columnName, listType, false); row.getTable().createListColumn(columnName + " ID", String.class, false); } newColName = columnName; } final String[] entries = SPLITTER.split(val); final List<String> ids = new ArrayList<String>(); final List<String> descriptions = new ArrayList<String>(); for (final String entry : entries) { final String[] contents = parseValues(entry); if (newColName == null) { if (row.getTable().getColumn(contents[0]) == null) { row.getTable().createListColumn(contents[0], listType, false); row.getTable().createListColumn(contents[0] + " ID", String.class, false); } newColName = contents[0]; } if (contents[1] != null) ids.add(contents[1]); if (contents[2] != null) descriptions.add(contents[2]); } if (!ids.isEmpty()) row.set(newColName + " ID", ids); if (!descriptions.isEmpty()) row.set(newColName, descriptions); }
private void processOtherNames(CyRow row, final Map<String, List<String>> accs) { for (String originalDBName : accs.keySet()) { final String dbName = validateNamespace(originalDBName); if (row.getTable().getColumn(dbName) == null) row.getTable().createListColumn(dbName, String.class, false); List<String> currentList = row.getList(dbName, String.class); if (currentList == null) currentList = new ArrayList<String>(); final Set<String> nameSet = new HashSet<String>(currentList); final List<String> names = accs.get(originalDBName); nameSet.addAll(names); row.set(dbName, new ArrayList<String>(nameSet)); } }
/** * Add a single entry * * @param row * @param val * @param columnName */ private final void addSingleColumn( final CyRow row, final String val, final String columnName, final Class<?> dataType) { // Ignore invalid entry. if (val == null || val.equals("-")) { return; } // Create column if necessary if (row.getTable().getColumn(columnName) == null) { row.getTable().createColumn(columnName, dataType, false); } Object newValue = val; if (dataType == Boolean.class) newValue = Boolean.parseBoolean(val); row.set(columnName, newValue); }
@Override public boolean handleIt( final CyIdentifiable to, final CyColumn toColumn, final Map<CyIdentifiable, CyColumn> mapFromGOFromAttr) { if (to == null || toColumn == null || mapFromGOFromAttr == null) { throw new java.lang.NullPointerException("All parameters should not be null."); } final CyTable table = toColumn.getTable(); final CyRow row = table.getRow(to.getSUID()); final ColumnType type = ColumnType.getType(toColumn); if (type == ColumnType.STRING) { final String toValue = row.get(toColumn.getName(), String.class); final Set<String> values = new TreeSet<String>(); values.add(toValue); for (Map.Entry<CyIdentifiable, CyColumn> entry : mapFromGOFromAttr.entrySet()) { final CyIdentifiable from = entry.getKey(); final CyColumn fromColumn = entry.getValue(); final CyRow fromRow = fromColumn.getTable().getRow(from.getSUID()); // TODO figure out which network to be using String fromValue = fromRow.get(fromColumn.getName(), String.class); if (fromValue != null) { values.add(fromValue.toString()); } } StringBuilder str = new StringBuilder(); for (String v : values) { str.append(v + ";"); } str.deleteCharAt(str.length() - 1); row.set(toColumn.getName(), str.toString()); return true; } // FIXME: how about Integer, Double, Boolean? return false; }
private void guessHumanReadableName(final CyRow row) { boolean found = false; // Special handler for STRING. This is a hack... if (row.getTable().getColumn(STRING_ATTR_NAME) != null) { final List<String> stringList = row.getList(STRING_ATTR_NAME, String.class); if (stringList != null) found = findHumanReadableName(row, stringList, ncbiPattern, true); } if (found) return; // try NCBI if (row.getTable().getColumn(ENTREZ_GENE_ATTR_NAME) != null) { final List<String> ncbiList = row.getList(ENTREZ_GENE_ATTR_NAME, String.class); if (ncbiList != null) found = findHumanReadableName(row, ncbiList, ncbiPattern, true); } if (found) return; // Try Uniprot List<String> uniprotList = null; if (row.getTable().getColumn(UNIPROT_ATTR_NAME) != null) { uniprotList = row.getList(UNIPROT_ATTR_NAME, String.class); if (uniprotList != null) found = findHumanReadableName(row, uniprotList, exact1Pattern, true); } if (found) return; if (uniprotList != null) found = findHumanReadableName(row, uniprotList, uniprotPattern, false); if (found) return; // Unknown if (row.getTable().getColumn("unknown") != null) { final List<String> unknownList = row.getList("unknown", String.class); if (unknownList != null) found = findHumanReadableName(row, unknownList, uniprotPattern, false); } if (found) return; if (found == false) { // Give up. Use primary key row.set(PREDICTED_GENE_NAME, row.get(CyNetwork.NAME, String.class)); } }
/** * Split the entry by the delimiter and simply creates list column from the values. * * @param row * @param val * @param columnName */ private final void addSimpleListColumn( final CyRow row, final String val, final String columnName) { // Ignore invalid entry. if (val == null || val.equals("-")) { return; } // Create column if necessary if (row.getTable().getColumn(columnName) == null) { row.getTable().createListColumn(columnName, String.class, false); } final String[] entries = SPLITTER.split(val); final List<String> ids = new ArrayList<String>(); for (final String entry : entries) { if (entry != null) { final String newEntry = entry.replaceAll("\"", ""); ids.add(newEntry); } } if (!ids.isEmpty()) row.set(columnName, ids); }
public void handleEvent(RowsSetEvent e) { final CyTable local = e.getSource(); synchronized (lock) { final List<CyTable> sharedList = tables.get(local); for (CyTable shared : sharedList) { for (RowSetRecord record : e.getColumnRecords(columnName)) { // assume payload collection is for same column final CyRow r = shared.getRow(record.getRow().get(CyIdentifiable.SUID, Long.class)); if (r != null) { final Object name = record.getValue(); String sharedName = r.get(sharedColumnName, String.class); if (sharedName == null) { r.set(sharedColumnName, name); } } } } } }
@Override public void run(TaskMonitor taskMonitor) throws Exception { CaseList caseList = (CaseList) caseSetComboBox.getSelectedItem(); Object[] profiles = profileList.getSelectedValues(); String geneSymbolField = (String) geneSymbolComboBox.getSelectedItem(); // update the configuration to store this field MondrianApp app = MondrianApp.getInstance(); CyNetwork currentNetwork = app.getAppManager().getCurrentNetwork(); // call the next two lines in the right order! app.getMondrianConfiguration() .setNetworkGeneSymbolAttr(currentNetwork.getSUID(), geneSymbolField); Map<String, Long> geneSymbolMap = app.getMondrianConfiguration().getGeneNodeMap(currentNetwork.getSUID()); List<String> genes = new ArrayList<String>(geneSymbolMap.keySet()); // Extract data from web service int p = 1; List<GeneticProfile> profileList = new ArrayList<GeneticProfile>(); List<MondrianCyTable> importedTables = new ArrayList<MondrianCyTable>(); CyNetwork network = app.getAppManager().getCurrentNetwork(); CancerStudy study = (CancerStudy) cancerStudyComboBox.getSelectedItem(); for (Object obj : profiles) { GeneticProfile profile = (GeneticProfile) obj; profileList.add(profile); taskMonitor.setStatusMessage("Loading genetic profile: " + profile.getName()); taskMonitor.setProgress(p++ / (double) profiles.length); CyTable table = MondrianApp.getInstance() .getTableFactory() .createTable(profile.getName(), CyIdentifiable.SUID, Long.class, true, true); DataTypeMatrix matrix = portalClient.getProfileData(caseList, profile, genes); List<String> dataColNames = matrix.getDataColNames(); for (String colName : dataColNames) { if (profile.getType() == GENETIC_PROFILE_TYPE.MUTATION_EXTENDED) { table.createColumn(colName, String.class, false); } else { table.createColumn(colName, Double.class, false); } } // Add rows for (String rowName : matrix.getRowNames()) { long suid = geneSymbolMap.get(rowName); CyRow row = table.getRow(suid); // row.set("selected", currentNetwork.getDefaultNodeTable().getRow(suid).get("selected", // Boolean.class)); // row.set(geneSymbolField, rowName); int i = 0; for (String colName : dataColNames) { row.set(colName, matrix.getDataRow(rowName).get(i++)); } } log.debug( "Loading genetic profile: " + profile.getName() + "; Insert Table: " + matrix.getNumRows() + ", " + matrix.getDataColNames().size()); MondrianCyTable mondrianCyTable = new MondrianCyTable(study, profile, caseList, table); importedTables.add(mondrianCyTable); // } app.getMondrianConfiguration().registerMondrianTables(network, importedTables); // app.getMondrianConfiguration().cbioDataImport(currentNetwork.getSUID(), profileList, // caseList); }
private void mapEntry(final String[] entries) { // Set primary key for the table, which is DB Object ID final String primaryKeyValue = entries[DB_OBJ_ID]; final CyRow row = table.getRow(primaryKeyValue); row.set(CyNetwork.NAME, primaryKeyValue); // Check namespace final String namespace = NAMESPACE_MAP.get(entries[ASPECT]); for (int i = 0; i < EXPECTED_COL_COUNT; i++) { final GeneAssociationTag tag = GeneAssociationTag.values()[i]; switch (tag) { // Evidence code and GO ID should be organized by namespace. case GO_ID: String goidString = entries[i]; if (this.termIDList != null) goidString = convertToName(goidString); List<String> currentList = row.getList(namespace, String.class); if (currentList == null) currentList = new ArrayList<String>(); if (currentList.contains(goidString) == false) currentList.add(goidString); row.set(namespace, currentList); break; case EVIDENCE: case DB_REFERENCE: final String value = entries[i]; String columnName = namespace; if (tag == GeneAssociationTag.EVIDENCE) columnName = columnName + EVIDENCE_SUFFIX; else columnName = columnName + REFERENCE_SUFFIX; List<String> valueList = row.getList(columnName, String.class); if (valueList == null) valueList = new ArrayList<String>(); if (valueList.contains(value) == false) valueList.add(value); row.set(columnName, valueList); break; case TAXON: final String taxID = entries[i].split(":")[1]; final String taxName = speciesMap.get(taxID); if (taxName != null) row.set(tag.toString(), taxName); else if (taxID != null) row.set(tag.toString(), taxID); break; case ASPECT: // Ignore these lines break; case DB_OBJECT_ID: case DB_OBJECT_SYMBOL: case DB_OBJECT_SYNONYM: // Create consolidated id list attribute. List<String> synList = row.getList(SYNONYM_COL_NAME, String.class); if (synList == null) synList = new ArrayList<String>(); if (tag == GeneAssociationTag.DB_OBJECT_SYNONYM) { final String[] vals = entries[i].split(LIST_DELIMITER); for (String val : vals) { if (synList.contains(val) == false) synList.add(val); } } else { if (synList.contains(entries[i]) == false) synList.add(entries[i]); } row.set(SYNONYM_COL_NAME, synList); break; default: if (LIST_INDEX.contains(i + 1)) { final String[] vals = entries[i].split(LIST_DELIMITER); List<String> listVals = row.getList(tag.toString(), String.class); if (listVals == null) listVals = new ArrayList<String>(); for (String val : vals) { if (listVals.contains(val) == false) listVals.add(val); } row.set(tag.toString(), listVals); } else row.set(tag.toString(), entries[i]); break; } } }
public void mapEdgeColumn( final String[] entries, final CyRow row, final CyEdge edge, final String sourceName, final String targetName) { // Column 7: Detection method final String[] detectionMethods = SPLITTER.split(entries[6]); final List<String> methods = new ArrayList<String>(); final List<String> methodID = new ArrayList<String>(); for (final String entry : detectionMethods) { final String[] methodContents = parseValues(entry); if (methodContents[1] != null) methodID.add(methodContents[1]); if (methodContents[2] != null) methods.add(methodContents[2]); } if (!methods.isEmpty()) row.set(DETECTION_METHOD_NAME, methods); if (!methodID.isEmpty()) row.set(DETECTION_METHOD_ID, methodID); // Column 8: Authors final String[] authorsParts = SPLITTER.split(entries[7]); final List<String> authors = new ArrayList<String>(); for (final String entry : authorsParts) { String updatedAuthor = entry.replaceAll("\"", ""); authors.add(updatedAuthor); } if (!authors.isEmpty()) row.set(AUTHOR, authors); final List<String> pubIdList = new ArrayList<String>(); final List<String> pubDBList = new ArrayList<String>(); final String[] pubID = SPLITTER.split(entries[8]); for (final String entry : pubID) { String id = parseValues(entry)[1]; String db = parseValues(entry)[0]; if (id != null && db != null) { pubDBList.add(db); pubIdList.add(id); } } if (!pubIdList.isEmpty()) row.set(PUB_ID, pubIdList); if (!pubDBList.isEmpty()) row.set(PUB_DB, pubDBList); final String[] dbNames = SPLITTER.split(entries[12]); row.set(SOURCE_DB, parseValues(dbNames[0])[0]); // Interaction Types - Use first one as primary type. final String[] typeParts = SPLITTER.split(entries[11]); final List<String> types = new ArrayList<String>(); for (final String entry : typeParts) { final String type = parseValues(entry)[2]; if (type != null) types.add(type); } if (!types.isEmpty()) { row.set(INTERACTION_TYPE, types); row.set(PRIMARY_INTERACTION_TYPE, types.get(0)); } // Set interaction: this is an ID. final String[] interactionID = SPLITTER.split(entries[13]); final String interaction = parseValues(interactionID[0])[1]; row.set(CyEdge.INTERACTION, interaction); // Create name row.set(CyNetwork.NAME, sourceName + " (" + interaction + ") " + targetName); final String[] scores = SPLITTER.split(entries[14]); for (String score : scores) { final String[] scoreArray = parseValues(score); String scoreType = "Confidence-Score-" + scoreArray[0]; String value = scoreArray[1]; if (value == null) { continue; } if (row.getTable().getColumn(scoreType) == null) row.getTable().createColumn(scoreType, Double.class, true); try { double doubleVal = Double.parseDouble(value); row.set(scoreType, doubleVal); } catch (NumberFormatException e) { // logger.warn("Invalid number string: " + value); // Ignore invalid number } } // For MITAB 2.7 if (entries.length > 15) { addListColumn(row, entries[16], "Source Biological Role", String.class); addListColumn(row, entries[17], "Target Biological Role", String.class); addListColumn(row, entries[18], "Source Experimental Role", String.class); addListColumn(row, entries[19], "Target Experimental Role", String.class); addListColumn(row, entries[40], "Source Participant Detection Method", String.class); addListColumn(row, entries[41], "Target Participant Detection Method", String.class); addListColumn(row, entries[15], "Complex Expansion", String.class); addListColumn(row, entries[24], "Xref", String.class); addSimpleListColumn(row, entries[27], "Annotation"); addListColumn(row, entries[28], "Host Organism Taxonomy", String.class); addSimpleListColumn(row, entries[29], "Parameters"); addSingleColumn(row, entries[30], "Creation Date", String.class); addSingleColumn(row, entries[31], "Update Date", String.class); addSingleColumn(row, entries[35], "Negative", Boolean.class); } }