private String labelString(Node node) {
try (ResourceIterator<Label> labels = node.getLabels().iterator()) {
if (!labels.hasNext()) return "";
StringBuilder result = new StringBuilder();
while (labels.hasNext()) {
Label next = labels.next();
result.append(":").append(quote(next.name()));
}
return result.toString();
}
}
public void printAllLabelNodes() {
ResourceIterator<Node> allLabelNodes =
GlobalGraphOperations.at(graphDb).getAllNodesWithLabel(getLabel()).iterator();
while (allLabelNodes.hasNext()) {
System.out.println(allLabelNodes.next().toString());
}
}
private Map<RowKey, Tuple> createAssociationMap(
AssociationKey associationKey, AssociationContext associationContext, EntityKey entityKey) {
String relationshipType = associationContext.getAssociationTypeContext().getRoleOnMainSide();
ResourceIterator<Relationship> relationships =
entityQueries
.get(entityKey.getMetadata())
.findAssociation(dataBase, entityKey.getColumnValues(), relationshipType);
Map<RowKey, Tuple> tuples = new HashMap<RowKey, Tuple>();
try {
while (relationships.hasNext()) {
Relationship relationship = relationships.next();
AssociatedEntityKeyMetadata associatedEntityKeyMetadata =
associationContext.getAssociationTypeContext().getAssociatedEntityKeyMetadata();
EmbeddedNeo4jTupleAssociationSnapshot snapshot =
new EmbeddedNeo4jTupleAssociationSnapshot(
relationship, associationKey, associatedEntityKeyMetadata);
RowKey rowKey = convert(associationKey, snapshot);
tuples.put(rowKey, new Tuple(snapshot, SnapshotType.UPDATE));
}
return tuples;
} finally {
relationships.close();
}
}
public Node _findSingleNode(Label label, String key, Object value) {
try (ResourceIterator<Node> nodes = _findNodes(label, key, value)) {
if (!nodes.hasNext()) return null;
return nodes.next();
}
}
/** @return a {@link RequestContext} specifying at which point the store copy started. */
public RequestContext flushStoresAndStreamStoreFiles(StoreWriter writer, boolean includeLogs) {
try {
long lastAppliedTransaction = transactionIdStore.getLastClosedTransactionId();
monitor.startFlushingEverything();
logRotationControl.forceEverything();
monitor.finishFlushingEverything();
ByteBuffer temporaryBuffer = ByteBuffer.allocateDirect(1024 * 1024);
// Copy the store files
monitor.startStreamingStoreFiles();
try (ResourceIterator<File> files = dataSource.listStoreFiles(includeLogs)) {
while (files.hasNext()) {
File file = files.next();
try (StoreChannel fileChannel = fileSystem.open(file, "r")) {
monitor.startStreamingStoreFile(file);
writer.write(
relativePath(storeDirectory, file),
fileChannel,
temporaryBuffer,
file.length() > 0);
monitor.finishStreamingStoreFile(file);
}
}
} finally {
monitor.finishStreamingStoreFiles();
}
return anonymous(lastAppliedTransaction);
} catch (IOException e) {
throw new ServerFailureException(e);
}
}
@Override
@WebMethod
public ResponseDTO findAll(@WebParam NodeType nodeType, @WebParam SortOrder sortOrder) {
Validator.checkRequiredArgument(nodeType);
List<Domain> domainList = null;
try (Transaction tx = graphDatabaseService.beginTx()) {
ResourceIterator<Node> resourceIterator = indexRepository.getNodes(nodeType);
if (resourceIterator != null && resourceIterator.hasNext()) {
domainList = Lists.newArrayList();
while (resourceIterator.hasNext()) {
domainList.add(domainFactory.create(resourceIterator.next(), nodeType));
}
}
tx.success();
tx.close();
}
return new ResponseDTO(new Assembler().toDtos(domainList, nodeType));
}
private List<Node> _findRelatedNodes(Label label, String key, Object value) {
try (ResourceIterator<Node> hits = _findNodes(label, key, value)) {
List<Node> nodes = new ArrayList<Node>();
while (hits.hasNext()) {
nodes.add(hits.next());
}
return nodes;
}
}
public void enumrateAllNodesWithLabel(Label label, ProcessNode processNode) throws Exception {
try (Transaction tx = graphDb.beginTx()) {
// GlobalGraphOperations global = Neo4jUtils.getGlobalOperations(graphDb);
// global.
try (ResourceIterator<Node> nodes = graphDb.findNodes(label)) {
while (nodes.hasNext()) {
if (!processNode.processNode(nodes.next())) break;
}
}
tx.success();
}
}
private static Node findNodeByName(String nameToFind) {
ArrayList<Node> userNodes = new ArrayList<>();
Label label = DynamicLabel.label("Nome");
try (Transaction tx = graphDb.beginTx()) {
try (ResourceIterator<Node> users = graphDb.findNodes(label, "name", nameToFind)) {
while (users.hasNext()) {
userNodes.add(users.next());
}
for (Node node : userNodes) {
System.out.println("trovato nodo: " + node.getProperty("name"));
}
}
}
return userNodes.get(0);
}
@Override
public void forEachTuple(ModelConsumer consumer, EntityKeyMetadata... entityKeyMetadatas) {
for (EntityKeyMetadata entityKeyMetadata : entityKeyMetadatas) {
ResourceIterator<Node> queryNodes =
entityQueries.get(entityKeyMetadata).findEntities(dataBase);
try {
while (queryNodes.hasNext()) {
Node next = queryNodes.next();
Tuple tuple = new Tuple(new Neo4jTupleSnapshot(next, entityKeyMetadata));
consumer.consume(tuple);
}
} finally {
queryNodes.close();
}
}
}
@Override
@WebMethod
public ResponseDTO findCauseOfDepartureDelaysAtEachAirport() {
Map<String, Map<String, Integer>> airportDelayCauseMap = Maps.newHashMap();
try (Transaction tx = graphDatabaseService.beginTx()) {
ResourceIterator<Node> resourceIterator = indexRepository.getNodes(NodeType.AIRPORT);
if (resourceIterator != null) {
while (resourceIterator.hasNext()) {
Node node = resourceIterator.next();
airportDelayCauseMap.put(
node.getProperty(NodeType.AIRPORT.getIdType()).toString(),
airportTraversal.findCauseOfDepartureDelaysAtEachAirport(node));
}
}
tx.success();
tx.close();
}
return new ResponseDTO(new Assembler().toCauseDtos(airportDelayCauseMap));
}
@Override
@WebMethod
public ResponseDTO findDelayedFlights(Integer delayTime) {
Map<String, List<DelayDTO>> delayDtoMap = Maps.newHashMap();
try (Transaction tx = graphDatabaseService.beginTx()) {
ResourceIterator<Node> resourceIterator = indexRepository.getNodes(NodeType.AIRPORT);
if (resourceIterator != null) {
while (resourceIterator.hasNext()) {
Node node = resourceIterator.next();
delayDtoMap.put(
node.getProperty(NodeType.AIRPORT.getIdType()).toString(),
airportTraversal.findDelayedFlights(node, delayTime));
}
}
tx.success();
tx.close();
}
return new ResponseDTO(new Assembler().toDelayDtos(delayDtoMap));
}
/*
* This method assumes that the nodes might not be in the same order as the keys and some keys might not have a
* matching result in the db.
*/
private List<Tuple> tuplesResult(
EntityKey[] keys, TupleContext tupleContext, ResourceIterator<Node> nodes) {
// The list is initialized with null because some keys might not have a corresponding node
Tuple[] tuples = new Tuple[keys.length];
while (nodes.hasNext()) {
Node node = nodes.next();
for (int i = 0; i < keys.length; i++) {
if (matches(node, keys[i].getColumnNames(), keys[i].getColumnValues())) {
tuples[i] =
new Tuple(
new Neo4jTupleSnapshot(
node,
tupleContext.getAllAssociatedEntityKeyMetadata(),
tupleContext.getAllRoles(),
keys[i].getMetadata()));
// We assume there are no duplicated keys
break;
}
}
}
return Arrays.asList(tuples);
}
@Override
public void forEachTuple(
ModelConsumer consumer,
TupleTypeContext tupleTypeContext,
EntityKeyMetadata entityKeyMetadata) {
ResourceIterator<Node> queryNodes = entityQueries.get(entityKeyMetadata).findEntities(dataBase);
try {
while (queryNodes.hasNext()) {
Node next = queryNodes.next();
Tuple tuple =
new Tuple(
EmbeddedNeo4jTupleSnapshot.fromNode(
next,
tupleTypeContext.getAllAssociatedEntityKeyMetadata(),
tupleTypeContext.getAllRoles(),
entityKeyMetadata),
SnapshotType.UPDATE);
consumer.consume(tuple);
}
} finally {
queryNodes.close();
}
}