/** * Returns the string value of the first of the properties in the uriDescriptionList for the given * resource (as an URI). In case the resource does not have any of the properties mentioned, its * URI is returned. The value is obtained by querying the endpoint and the endpoint is queried * repeatedly until it gives a response (value or the lack of it) * * <p>It is highly recommended that the list contains properties like labels or titles, with test * values. * * @param uri - the URI for which a label is required * @return a String value, either a label for the parameter or its value if no label is obtained * from the endpoint */ private String getLabelForUri(String uri) { String result; if (uriLabelCache.containsKey(uri)) { return uriLabelCache.get(uri); } for (String prop : uriDescriptionList) { String innerQuery = "SELECT ?r WHERE {<" + uri + "> <" + prop + "> ?r } LIMIT 1"; try { Query query = QueryFactory.create(innerQuery); QueryExecution qExec = QueryExecutionFactory.sparqlService(rdfEndpoint, query); boolean keepTrying = true; while (keepTrying) { keepTrying = false; try { ResultSet results = qExec.execSelect(); if (results.hasNext()) { QuerySolution sol = results.nextSolution(); result = EEASettings.parseForJson(sol.getLiteral("r").getLexicalForm()); if (!result.isEmpty()) { uriLabelCache.put(uri, result); return result; } } } catch (Exception e) { keepTrying = true; logger.warn("Could not get label for uri {}. Retrying.", uri); } finally { qExec.close(); } } } catch (QueryParseException qpe) { logger.error("Exception for query {}. The label cannot be obtained", innerQuery); } } return uri; }
/** * Get a set of unique queryObjName returned from a select query * * <p>Used to retrieve sets of modified objects used in sync * * @param rdfQuery query to execute * @param queryObjName name of the object returned * @return set of values for queryObjectName in the rdfQuery result */ HashSet<String> executeSyncQuery(String rdfQuery, String queryObjName) { HashSet<String> rdfUrls = new HashSet<String>(); Query query; try { query = QueryFactory.create(rdfQuery); } catch (QueryParseException qpe) { logger.warn( "Could not parse [{}]. Please provide a relevant query. {}", rdfQuery, qpe.getLocalizedMessage()); return null; } QueryExecution qExec = QueryExecutionFactory.sparqlService(rdfEndpoint, query); try { ResultSet results = qExec.execSelect(); while (results.hasNext()) { QuerySolution sol = results.nextSolution(); try { String value = sol.getResource(queryObjName).toString(); rdfUrls.add(value); } catch (NoSuchElementException e) { logger.error("Encountered a NoSuchElementException: " + e.getLocalizedMessage()); return null; } } } catch (Exception e) { logger.error( "Encountered a [{}] while querying the endpoint for sync", e.getLocalizedMessage()); return null; } finally { qExec.close(); } return rdfUrls; }
/** * A method to build a collection of collaborator objects representing a network based on an * organisation * * @param id the id of the central organisation * @param radius the number of edges required from the central contributor * @return the collection of collaborator objects */ @SuppressWarnings("rawtypes") public TreeMap<Integer, Collaborator> getRawCollaboratorData_org(String id, int radius) { // check the parameters if (InputUtils.isValidInt(id) == false) { throw new IllegalArgumentException("Error: the id parameter is required"); } if (InputUtils.isValidInt(radius, ExportServlet.MIN_DEGREES, ExportServlet.MAX_DEGREES) == false) { throw new IllegalArgumentException( "Error: the radius parameter must be between " + ExportServlet.MIN_DEGREES + " and " + ExportServlet.MAX_DEGREES); } // define helper variables // collection of collaborators java.util.TreeMap<Integer, Collaborator> cId_cObj_map = new java.util.TreeMap<Integer, Collaborator>(); // set of collaborators that we've already processed java.util.TreeSet<Integer> foundCollaboratorsSet = new java.util.TreeSet<Integer>(); // define other helper variables String contributor_id = null; QuerySolution row = null; Collaborator collaborator = null; String sql = "SELECT DISTINCT b.eventid " + "FROM events a, orgevlink b " + "WHERE b.organisationid = ? " // +id + "AND a.eventid = b.eventid"; int[] param = {Integer.parseInt(id)}; java.sql.ResultSet resultSet = db.exePreparedStatement(sql, param); ArrayList<String> eventResults = new ArrayList<String>(); try { // check to see that data was returned if (!resultSet.last()) { db.tidyup(); return null; } else resultSet.beforeFirst(); // loop through the resultset while (resultSet.next() == true) { eventResults.add(resultSet.getString(1)); } } catch (java.sql.SQLException ex) { System.out.println("Exception: " + ex.getMessage()); resultSet = null; } db.tidyup(); // helper int first = 0; // define the query String sparqlQuery1 = "PREFIX foaf: <" + FOAF.NS + "> " + "PREFIX ausestage: <" + AuseStage.NS + "> " + "PREFIX event: <http://purl.org/NET/c4dm/event.owl#> " + "PREFIX dcterms: <http://purl.org/dc/terms/> " + "SELECT DISTINCT ?agent ?givenName ?familyName " + "WHERE { "; for (String event : eventResults) { if (first > 0) { sparqlQuery1 += "UNION "; } first++; sparqlQuery1 += "{<ausstage:e:" + event + "> a event:Event; " + " event:agent ?agent. " + " ?agent a foaf:Person; " + " foaf:givenName ?givenName; " + " foaf:familyName ?familyName. " + " } "; } sparqlQuery1 += " } "; // execute query ResultSet results = rdf.executeSparqlQuery(sparqlQuery1); // now we transfer the results to a TreeMap <Integer, while (results.hasNext()) { row = results.nextSolution(); contributor_id = AusStageURI.getId(row.get("agent").toString()); collaborator = new Collaborator(contributor_id); cId_cObj_map.put(Integer.parseInt(contributor_id), collaborator); foundCollaboratorsSet.add(Integer.parseInt(contributor_id)); } rdf.tidyUp(); return cId_cObj_map; } // end getRawCollaboratorData_org method
/* * add some of the additional required information for collaborator */ public ArrayList<Collaborator> getCollaborators( TreeMap<Integer, Collaborator> network, String id) { // declare helper variables java.util.ArrayList<Collaborator> collaborators = new java.util.ArrayList<Collaborator>(); // define a SPARQL query to get details about a collaborator String sparqlQuery = "PREFIX foaf: <" + FOAF.NS + ">" + "PREFIX ausestage: <" + AuseStage.NS + "> " + "SELECT ?collabName ?function ?gender ?nationality " + "WHERE { " + " @ a foaf:Person ; " + " foaf:name ?collabName. " + "OPTIONAL {@ ausestage:function ?function} " + "OPTIONAL {@ foaf:gender ?gender} " + "OPTIONAL {@ ausestage:nationality ?nationality} " + "} "; String queryToExecute = null; ResultSet results = null; QuerySolution row = null; Collaborator collaborator = null; // loop through the list of collaborators and get additional information Collection networkKeys = network.keySet(); Iterator networkKeyIterator = networkKeys.iterator(); Integer networkKey = null; Integer centreId = Integer.parseInt(id); // loop through the list of keys while (networkKeyIterator.hasNext()) { // get the key for this collaborator networkKey = (Integer) networkKeyIterator.next(); // create a new collaborator object collaborator = new Collaborator(networkKey.toString()); // build the query queryToExecute = sparqlQuery.replaceAll( "@", "<" + AusStageURI.getContributorURI(collaborator.getId()) + ">"); // execute the query results = rdf.executeSparqlQuery(queryToExecute); // add details to this contributor while (results.hasNext()) { // loop though the resulset // get a new row of data row = results.nextSolution(); // add the data to the collaborator collaborator.setName(row.get("collabName").toString()); if (row.get("function") != null) { collaborator.setFunction(row.get("function").toString()); } if (row.get("gender") != null) { collaborator.setGender(row.get("gender").toString()); } if (row.get("nationality") != null) { collaborator.setNationality(row.get("nationality").toString()); } collaborator.setUrl(AusStageURI.getContributorURL(collaborator.getId())); } // play nice and tidy rdf.tidyUp(); results = null; // add the collaborator to the list collaborators.add(collaborator); } return collaborators; }