@Override
public void executeInObjectContainer(ObjectContainer objectContainer) {
ObjectSet<Training> trainings = objectContainer.query(Training.class);
while (trainings.hasNext()) {
objectContainer.delete(trainings.next());
}
}
protected static void showAgglomerationsInfoFromDeparment(ObjectContainer bd, String depId) {
ObjectSet<Departement> oc =
bd.query(
new Predicate<Departement>() {
public boolean match(Departement d) {
return true;
}
});
for (Departement d : oc) {
if (d.getNom() == depId) {
for (Agglomeration ag : d.agglomerations) {
System.out.println(
"codePostal: "
+ ag.codePostal
+ " nom: "
+ ag.nom
+ " descritpion: "
+ ag.description
+ " nbHabit: "
+ ag.description
+ " surface: "
+ d.surface);
}
}
}
}
public static boolean deleteRegistration(final RegisterContextRequest rcrNew) {
List<RegisterContextRequest> results;
final String updateRegId = rcrNew.getRegistrationId();
results =
db.query(
new Predicate<RegisterContextRequest>() {
public boolean match(RegisterContextRequest req) {
String storedRegID = req.getRegistrationId();
if (storedRegID.equals(updateRegId)) {
return true;
}
return false;
}
});
if (results.size() > 0) {
RegisterContextRequest found = results.get(0);
System.out.println("Deleting registration");
db.delete(found);
db.commit();
return true;
}
return false;
}
public long size(ObjectContainer container) {
Query query = container.query();
query.constrain(PersistentCooldownQueueItem.class);
query.descend("parent").constrain(this).identity();
ObjectSet<PersistentCooldownQueueItem> results = query.execute();
return results.size();
}
static void init(USKManager manager, ObjectContainer container, final ClientContext context) {
ObjectSet<USKFetcherTag> set =
container.query(
new Predicate<USKFetcherTag>() {
private static final long serialVersionUID = 9150637337019063048L;
@Override
public boolean match(USKFetcherTag tag) {
if (tag.nodeDBHandle != context.nodeDBHandle) return false;
if (tag.isFinished()) return false;
return true;
}
});
while (set.hasNext()) {
try {
set.next().start(manager, context, container);
} catch (Throwable t) {
Logger.error(
USKManagerPersistent.class,
"USKFetcherTag failed to start - partially removed??? : " + t,
t);
System.err.println("USKFetcherTag failed to start - partially removed??? : " + t);
t.printStackTrace();
}
}
}
public static List<RegisterContextRequest> getRegByEntityType(final String entityType) {
List<RegisterContextRequest> results;
results =
db.query(
new Predicate<RegisterContextRequest>() {
public boolean match(RegisterContextRequest req) {
final int contRegListSize = req.getContextRegistration().size();
// System.out.println("contRegListSize: " + contRegListSize);
for (int i = 0; i < contRegListSize; i++) {
final int entityIdListSize =
req.getContextRegistration().get(i).getEntityId().size();
// System.out.println("entityidListSize: " + entityIdListSize);
for (int j = 0; j < entityIdListSize; j++) {
String storedEType =
req.getContextRegistration().get(i).getEntityId().get(j).getType();
// return storedEType.equals(entityType);
if (storedEType.equals(entityType)) {
return true;
}
}
} // contRegList loop
return false;
}
});
return results;
}
public List<Persona> recuperarPersonaAvanzada() {
List<Persona> listaAvanzada = new ArrayList<Persona>();
int edad = 30;
String dni = "20";
String letraF = "o";
try {
ObjectSet<Persona> set =
bbdd.query(
new Predicate<Persona>() {
public boolean match(Persona p) {
return p.getNombre().endsWith(letraF)
|| p.getDni().startsWith(dni)
|| p.getEdad() > edad;
}
});
for (Persona p : set) {
p.print();
listaAvanzada.add(p);
}
} finally {
bbdd.close();
}
return listaAvanzada;
}
private boolean expect(ObjectContainer container, String[] names) {
Collection4 expected = new Collection4(names);
ObjectSet actual = container.query(CrashData.class);
while (actual.hasNext()) {
CrashData current = (CrashData) actual.next();
if (!expected.remove(current._name)) {
return false;
}
}
return expected.isEmpty();
}
@SuppressWarnings("rawtypes")
public ArrayList<Usuario> recuperarUsuario() {
ObjectContainer usuarioBD =
Db4oEmbedded.openFile(Db4oEmbedded.newConfiguration(), "../usuarios.db4o");
List usuariosBanco = usuarioBD.query(Usuario.class);
ArrayList<Usuario> lista = new ArrayList<Usuario>();
for (Object i : usuariosBanco) {
lista.add((Usuario) i);
}
usuarioBD.close();
return lista;
}
public List<Cliente> BuscarClientes(final String filtro) {
ObjectContainer db = DBController.getInstance().getDB();
return db.query(
new Predicate<Cliente>() {
@Override
public boolean match(Cliente cliente) {
return cliente.getNombres().toUpperCase().contains(filtro.toUpperCase())
|| cliente.getApellidos().contains(filtro.toUpperCase());
}
});
}
/**
* Realiza pesquisa de objetos com base em sua classe e ordenada pelo atributo informado.
*
* @param classe tipo do objeto pesquisado
* @param nomeAtributoOrdenacao o nome do atributo que será utilizado para ordenar a pesquisa
* @param tipoOrdenacao o tipo de ordenação desejada ('1 - crescente' e '2 - decrescente')
* @return a lista ordenada de objetos da classe especificada @
*/
public List pesquisarOrdenado(Class classe, String nomeAtributoOrdenacao, int tipoOrdenacao) {
// Configura os filtros/critérios de pesquisa:
Query query = bd.query();
query.constrain(classe);
// Configura a ordenação do resultado da pesquisa:
configurarOrdenacao(query, nomeAtributoOrdenacao, tipoOrdenacao);
// Executa a pesquisa e retorna o resultado:
return efetivarPesquisar(query);
}
public List filtrar(Class classe, Evaluation filtro, String campoOrdem, int ordem) {
Query query = bd.query();
query.constrain(classe);
query.constrain(filtro);
if (ORDENACAO_CRESCENTE == ordem) {
query.descend(campoOrdem).orderAscending();
} else {
query.descend(campoOrdem).orderDescending();
}
return query.execute();
}
public void salvarUsuario(Usuario user) {
ObjectContainer usuarioBD =
Db4oEmbedded.openFile(Db4oEmbedded.newConfiguration(), "../usuarios.db4o");
boolean adicionar = true;
List<Usuario> usuariosBanco = usuarioBD.query(Usuario.class);
for (Usuario i : usuariosBanco) {
if (i.matches(user.getNome())) {
adicionar = false;
}
}
if (adicionar) {
usuarioBD.store(user);
JOptionPane.showMessageDialog(null, "Adicionado com Sucesso");
}
usuarioBD.close();
}
private void populate(ObjectContainer container) {
for (int i = 0; i < 10; i++) {
container.store(new Item("delme"));
}
CrashData one = new CrashData(null, "one");
CrashData two = new CrashData(one, "two");
CrashData three = new CrashData(one, "three");
container.store(one);
container.store(two);
container.store(three);
container.commit();
ObjectSet objectSet = container.query(Item.class);
while (objectSet.hasNext()) {
container.delete(objectSet.next());
}
}
@Override
public boolean removeKey(
final Key key, final SendableGet client, final long time, ObjectContainer container) {
boolean found = false;
final String keyAsBytes = HexUtil.bytesToHex(key.getFullKey());
Query query = container.query();
query.constrain(PersistentCooldownQueueItem.class);
query.descend("keyAsBytes").constrain(keyAsBytes);
// The result from parent will be huge, and client may be huge too.
// Don't bother with a join, just check in the evaluation.
// query.descend("client").constrain(client);
// query.descend("parent").constrain(this);
Evaluation eval =
new Evaluation() {
private static final long serialVersionUID = 1537102695504880276L;
@Override
public void evaluate(Candidate candidate) {
PersistentCooldownQueueItem item = (PersistentCooldownQueueItem) candidate.getObject();
if (item.client != client) {
candidate.include(false);
return;
}
if (item.parent != PersistentCooldownQueue.this) {
candidate.include(false);
return;
}
Key k = item.key;
candidate.objectContainer().activate(k, 5);
if (k.equals(key)) candidate.include(true);
else {
candidate.include(false);
candidate.objectContainer().deactivate(k, 5);
}
}
};
query.constrain(eval);
ObjectSet<PersistentCooldownQueueItem> results = query.execute();
while (results.hasNext()) {
found = true;
PersistentCooldownQueueItem i = (PersistentCooldownQueueItem) results.next();
i.delete(container);
itemsFromLastTime.remove(i);
}
return found;
}
public List<Persona> recuperarPersonaPorInicial(String ini) {
List<Persona> listaIniciales = new ArrayList<Persona>();
try {
Query q = bbdd.query();
q.constrain(Persona.class);
q.descend("nombre").constrain(ini).startsWith(true);
ObjectSet<Persona> res = q.execute();
for (Persona p : res) {
p.print();
listaIniciales.add(p);
}
} finally {
bbdd.close();
}
return listaIniciales;
}
public List<Persona> recuperarPersonaPorNombre(String n) {
List<Persona> listaNombre = new ArrayList<Persona>();
try {
Query q = bbdd.query();
q.constrain(Persona.class);
q.descend("nombre").constrain(n);
ObjectSet<Persona> res = q.execute();
for (Persona p : res) {
p.print();
listaNombre.add(p);
}
} finally {
bbdd.close();
}
return listaNombre;
}
public List<Persona> recuperarPersonaPorDni(String dni) {
List<Persona> listaDni = new ArrayList<Persona>();
try {
Query q = bbdd.query();
q.constrain(Persona.class);
q.descend("dni").constrain(dni);
ObjectSet<Persona> res = q.execute();
for (Persona p : res) {
p.print();
listaDni.add(p);
}
} finally {
bbdd.close();
}
return listaDni;
}
public List<Persona> recuperarPersonaPorEdad(int menor, int mayor) {
List<Persona> listaEdad = new ArrayList<Persona>();
try {
Query q = bbdd.query();
q.constrain(Persona.class);
q.descend("edad").constrain(menor).greater();
q.descend("edad").constrain(mayor).smaller();
ObjectSet<Persona> res = q.execute();
for (Persona p : res) {
p.print();
listaEdad.add(p);
}
} finally {
bbdd.close();
}
return listaEdad;
}
/**
* Realiza pesquisa de objetos com base em vários valores de um atributo específico (disjunção OR)
* e ordenada pelo outro atributo informado.
*
* @param classe tipo do objeto pesquisado
* @param nomeAtributoFiltro nome do atributo utilizado para filtrar a pesquisa
* @param valoresAtributoFiltro conjunto de valores do atributo utilizados para filtrar a pesquisa
* @param nomeAtributoOrdenacao o nome do atributo que será utilizado para ordenar a pesquisa
* @param tipoOrdenacao o tipo de ordenação desejada ('1 - crescente' e '2 - decrescente')
* @return a lista ordenada de objetos que correspondem aos valores do atributo utilizado para
* filtrar a pesquisa @
*/
public List pesquisarOrdenado(
Class classe,
String nomeAtributoFiltro,
List valoresAtributoFiltro,
String nomeAtributoOrdenacao,
int tipoOrdenacao) {
// Configura os filtros/critérios de pesquisa:
Query query = bd.query();
query.constrain(classe);
Constraint constr = query.descend(nomeAtributoFiltro).constrain(valoresAtributoFiltro.get(0));
for (int i = 1; i < valoresAtributoFiltro.size(); i++) {
constr = constr.or(query.descend(nomeAtributoFiltro).constrain(valoresAtributoFiltro.get(i)));
}
// Configura a ordenação do resultado da pesquisa:
configurarOrdenacao(query, nomeAtributoOrdenacao, tipoOrdenacao);
// Executa a pesquisa e retorna o resultado:
return efetivarPesquisar(query);
}
/**
* Realiza pesquisa de objetos com base em vários atributos e seus respectivos valores (conjunção
* ou disjunção) e ordenada pelo outro atributo informado.
*
* @param classe tipo do objeto pesquisado
* @param nomesAtributosFiltro conjunto de atributos utilizados para filtrar a pesquisa
* @param valoresAtributosFiltro conjunto de valores dos atributos utilizados para filtrar a
* pesquisa
* @param juncao o tipo de junção desejada entre os filtros ('1 - and' e '2 - or')
* @param nomeAtributoOrdenacao o nome do atributo que será utilizado para ordenar a pesquisa
* @param tipoOrdenacao o tipo de ordenação desejada ('1 - crescente' e '2 - decrescente')
* @return a lista ordenada de objetos que correspondem aos valores dos atributos utilizados para
* filtrar a pesquisa @
*/
public List pesquisarOrdenado(
Class classe,
List<String> nomesAtributosFiltro,
List valoresAtributosFiltro,
int juncao,
String nomeAtributoOrdenacao,
int tipoOrdenacao) {
// Configura os filtros/critérios de pesquisa:
Query query = bd.query();
query.constrain(classe);
Constraint constr =
query.descend(nomesAtributosFiltro.get(0)).constrain(valoresAtributosFiltro.get(0));
if (juncao == JUNCAO_AND) {
for (int i = 1; i < valoresAtributosFiltro.size(); i++) {
constr =
constr.and(
query
.descend(nomesAtributosFiltro.get(i))
.constrain(valoresAtributosFiltro.get(i)));
}
} else if (juncao == JUNCAO_OR) {
for (int i = 1; i < valoresAtributosFiltro.size(); i++) {
constr =
constr.or(
query
.descend(nomesAtributosFiltro.get(i))
.constrain(valoresAtributosFiltro.get(i)));
}
} else {
throw new RuntimeException(
"[pesquisar] Os tipos validos de junção são '1 - AND' e '2 - OR'.");
}
// Configura a ordenação do resultado da pesquisa:
configurarOrdenacao(query, nomeAtributoOrdenacao, tipoOrdenacao);
// Executa a pesquisa e retorna o resultado:
return efetivarPesquisar(query);
}
public void test() {
Test.store(new Parent1(new Child1()));
ObjectContainer container = Test.reOpen();
container
.ext()
.configure()
.addAlias(new TypeAlias("com.db4o.test.aliases.Parent1", "com.db4o.test.aliases.Parent2"));
container
.ext()
.configure()
.addAlias(new TypeAlias("com.db4o.test.aliases.Child1", "com.db4o.test.aliases.Child2"));
ObjectSet os = container.query(Parent2.class);
Test.ensure(os.size() > 0);
Parent2 p2 = (Parent2) os.next();
Test.ensure(p2.child != null);
}
public static boolean checkRegIdUsed(final String idGenerated) {
// openDb4o();
List<RegisterContextRequest> results;
// final String updateRegId = rcrNew.getRegistrationId();
results =
db.query(
new Predicate<RegisterContextRequest>() {
public boolean match(RegisterContextRequest req) {
String storedRegID = req.getRegistrationId();
if (storedRegID.equals(idGenerated)) {
return true;
}
return false;
}
});
if (results.size() > 0) {
// closeDb4o();
return true;
}
// closeDb4o();
return false;
}
private static void referentialIntegrity() {
ObjectContainer container = Db4oEmbedded.openFile(DATABASE_FILE);
// #example: Referential integrity
final EventRegistry events = EventRegistryFactory.forObjectContainer(container);
events
.deleting()
.addListener(
new EventListener4<CancellableObjectEventArgs>() {
@Override
public void onEvent(
Event4<CancellableObjectEventArgs> events, CancellableObjectEventArgs eventArgs) {
final Object toDelete = eventArgs.object();
if (toDelete instanceof Pilot) {
final ObjectContainer container = eventArgs.objectContainer();
final ObjectSet<Car> cars =
container.query(
new Predicate<Car>() {
@Override
public boolean match(Car car) {
return car.getPilot() == toDelete;
}
});
if (cars.size() > 0) {
eventArgs.cancel();
}
}
}
});
// #end example
try {
Pilot pilot = container.query(Pilot.class).get(0);
container.delete(pilot);
} finally {
container.close();
}
}
public <C> List<C> getAllObjects(Class<C> componentType) {
return db.query(componentType);
}
public <T> List<? extends T> filtrar(
Class<? extends T> classe, Predicate<T> filtro, Comparator<T> comparador) {
return bd.query(filtro, comparador);
}
public static long[] allActivatableElementIds(ObjectContainer db) {
Query q = db.query();
q.constrain(ActivatableElement.class);
ObjectSet<Object> objectSet = q.execute();
return objectSet.ext().getIDs();
}
public static List<RegisterContextRequest> getRegByEntityID(
final EntityId reqEntityId, final ArrayList<String> discAttrList) {
List<RegisterContextRequest> results;
String reqEId = reqEntityId.getId();
if (reqEId.contentEquals(".*") && reqEntityId.isIsPattern()) {
System.out.println("\".*\" specified");
return getRegByEntityType(reqEntityId.getType());
}
System.out.println("\".*\" NOT specified");
results =
db.query(
new Predicate<RegisterContextRequest>() {
public boolean match(RegisterContextRequest req) {
final int contRegListSize = req.getContextRegistration().size();
for (int i = 0; i < contRegListSize; i++) {
final int reqEIdListSize =
req.getContextRegistration().get(i).getEntityId().size();
for (int j = 0; j < reqEIdListSize; j++) {
String storedId =
req.getContextRegistration().get(i).getEntityId().get(j).getId();
String storedIdType =
req.getContextRegistration().get(i).getEntityId().get(j).getType();
// String reqEId = reqEntityId.getId();
boolean reqIsPattern; // = false;
String reqIdType = "";
try {
if (reqEntityId.getType() != null) {
reqIdType = reqEntityId.getType();
}
} catch (NullPointerException npe) {
System.out.println("'type' field missing in request");
}
if (!reqIdType.isEmpty()) {
if (!reqIdType.equals(storedIdType)) {
continue;
}
}
try {
reqIsPattern = reqEntityId.isIsPattern();
} catch (NullPointerException npe) {
System.out.println("'isPattern' field missing in request");
reqIsPattern = false;
}
List<ContextRegistrationAttribute> contRegAttrlist =
req.getContextRegistration().get(i).getContextRegistrationAttribute();
boolean attrMatch = checkAttrMatch(contRegAttrlist, discAttrList);
if (reqIsPattern) {
if (reqEId.contains("*")) {
if (reqEId.startsWith("*")) {
String[] suffix = reqEId.split("\\*");
// System.out.println("ends with:
// "+suffix[1]);
// System.out.println("stored:
// "+storedId);
if ((storedId.endsWith(suffix[1]) && reqIdType.isEmpty())
|| (storedId.endsWith(suffix[1])
&& storedIdType.equals(reqEntityId.getType()))) {
System.out.println("'isPattern'");
return true;
}
} else if (reqEId.endsWith(".*")) {
String[] suffix = reqEId.split("\\.*");
// System.out.println(suffix[0]);
if ((storedId.startsWith(suffix[0]) && reqIdType.isEmpty())
|| (storedId.startsWith(suffix[0])
&& storedIdType.equals(reqEntityId.getType()))) {
return true;
}
}
}
} else {
if (reqIdType.isEmpty() && storedId.equals(reqEntityId.getId())) {
return true;
} else if (storedIdType.equals(reqEntityId.getType())
&& storedId.equals(reqEntityId.getId())) {
return true;
}
} // if not regIsPattern
}
} // loop until true or end
return false;
}
});
return results;
}
public static List<RegisterContextRequest> getAssociations(
final EntityId eID, final String scopeValueType, final ArrayList<String> discAttrList) {
List<RegisterContextRequest> results;
results =
db.query(
new Predicate<RegisterContextRequest>() {
public boolean match(RegisterContextRequest req) {
final int contRegListSize = req.getContextRegistration().size();
// System.out.println("contRegListSize: " + contRegListSize);
for (int i = 0; i < contRegListSize; i++) {
final int contMetadataListSize =
req.getContextRegistration().get(i).getContextMetadata().size();
// System.out.println("entityidListSize: " + entityIdListSize);
if (contMetadataListSize < 1) {
return false;
}
for (int j = 0; j < contMetadataListSize; j++) {
String scopeValueEId = "";
ArrayList<String> scopeValueAttr = new ArrayList<>();
Value association =
(Value)
req.getContextRegistration()
.get(i)
.getContextMetadata()
.get(j)
.getValue();
int attrListSize = association.getAttributeAssociation().size();
// check if operation scope is "Association"
String scopeField =
req.getContextRegistration().get(i).getContextMetadata().get(j).getType();
if (scopeField.equalsIgnoreCase("Association")) {
if (scopeValueType.equalsIgnoreCase("SOURCES")) {
scopeValueEId =
association./*getEntityAssociation().*/ getTargetEntityId().getId();
// System.out.println("target eid is: " +
// scopeValueEId);
for (int k = 0; k < attrListSize; k++) {
String scopeValueAttrString =
association.getAttributeAssociation().get(k).getTargetAttribute();
scopeValueAttr.add(scopeValueAttrString);
}
} else if (scopeValueType.equalsIgnoreCase("TARGETS")) {
scopeValueEId =
association./*getEntityAssociation().*/ getSourceEntityId().getId();
// System.out.println("source eid is: " +
// scopeValueEId);
for (int k = 0; k < attrListSize; k++) {
String scopeValueAttrString =
association.getAttributeAssociation().get(k).getSourceAttribute();
scopeValueAttr.add(scopeValueAttrString);
}
}
// System.out.println("eid is: "+eID.getId());
// System.out.println("scope eid is: "+scopeValueEId);
if (scopeValueEId.equalsIgnoreCase(eID.getId())) {
// System.out.println("eid is:
// "+eID.getId());
// int scopeValueAttrSize = scopeValueAttr.size();
int discAttrListSize = discAttrList.size();
if (discAttrListSize > 0) {
for (int m = 0; m < discAttrListSize; m++) {
if (scopeValueAttr.contains(discAttrList.get(m))) {
return true;
}
}
} else {
return true; // no attributes in request
}
} else {
return false;
}
}
}
}
return false;
}
});
return results;
}
public Object removeKeyBefore(
final long now,
long dontCareAfterMillis,
ObjectContainer container,
int maxCount,
PersistentCooldownQueue altQueue) {
// Will be called repeatedly until no more keys are returned, so it doesn't
// matter very much if they're not in order.
// This query returns bogus results (cooldown items with times in the future).
// ObjectSet results = container.query(new Predicate() {
// public boolean match(PersistentCooldownQueueItem persistentCooldownQueueItem) {
// if(persistentCooldownQueueItem.time >= now) return false;
// if(persistentCooldownQueueItem.parent != PersistentCooldownQueue.this) return false;
// return true;
// }
// });
ArrayList<Key> v = null;
if (!itemsFromLastTime.isEmpty()) {
if (v == null) v = new ArrayList<Key>(Math.min(maxCount, itemsFromLastTime.size()));
Logger.normal(
this,
"Overflow handling in cooldown queue: reusing items from last time, now "
+ itemsFromLastTime.size());
for (Iterator<PersistentCooldownQueueItem> it = itemsFromLastTime.iterator();
it.hasNext() && v.size() < maxCount; ) {
PersistentCooldownQueueItem i = it.next();
container.activate(i, 1);
if (i.parent != this && i.parent != altQueue) {
container.deactivate(i, 1);
continue;
}
if (i.time >= now) {
container.deactivate(i, 1);
if (v.isEmpty()) return i.time;
return v.toArray(new Key[v.size()]);
}
container.activate(i.key, 5);
if (i.client == null || !container.ext().isStored(i.client)) {
Logger.normal(
this,
"Client has been removed but not the persistent cooldown queue item: time "
+ i.time
+ " for key "
+ i.key);
}
if (i.key == null) {
Logger.error(
this,
"Key is null on cooldown queue! i = "
+ i
+ " client="
+ i.client
+ " key as bytes = "
+ i.keyAsBytes);
} else {
v.add(i.key.cloneKey());
i.key.removeFrom(container);
}
i.delete(container);
it.remove();
}
}
if (v != null && v.size() == maxCount) return v.toArray(new Key[v.size()]);
// Lets re-code it in SODA.
long tStart = System.currentTimeMillis();
Query query = container.query();
query.constrain(PersistentCooldownQueueItem.class);
// Don't constrain on parent.
// parent index is humongous, so we get a huge memory spike, queries take ages.
// Just check manually.
query
.descend("time")
.orderAscending()
.constrain(Long.valueOf(now + dontCareAfterMillis))
.smaller();
ObjectSet<PersistentCooldownQueueItem> results = query.execute();
if (results.hasNext()) {
long tEnd = System.currentTimeMillis();
if (tEnd - tStart > 1000)
Logger.error(this, "Query took " + (tEnd - tStart) + " for " + results.size());
else if (logMINOR) Logger.minor(this, "Query took " + (tEnd - tStart));
if (v == null) v = new ArrayList<Key>(Math.min(maxCount, results.size()));
while (results.hasNext() && v.size() < maxCount) {
PersistentCooldownQueueItem i = (PersistentCooldownQueueItem) results.next();
if (i.parent != this && i.parent != altQueue) {
continue;
}
if (i.time >= now) {
if (v.isEmpty()) return i.time;
break;
}
container.activate(i.key, 5);
if (i.client == null || !container.ext().isStored(i.client)) {
Logger.normal(
this,
"Client has been removed but not the persistent cooldown queue item: time "
+ i.time
+ " for key "
+ i.key);
}
if (i.key == null) {
Logger.error(
this,
"Key is null on cooldown queue! i = "
+ i
+ " client="
+ i.client
+ " key as bytes = "
+ i.keyAsBytes);
} else {
v.add(i.key.cloneKey());
i.key.removeFrom(container);
}
i.delete(container);
}
if (!v.isEmpty()) {
while (results.hasNext() && itemsFromLastTime.size() < KEEP_ITEMS_FROM_LAST_TIME) {
PersistentCooldownQueueItem i = (PersistentCooldownQueueItem) results.next();
container.deactivate(i, 1);
itemsFromLastTime.add(i);
}
Logger.normal(
this,
"Overflow handling in cooldown queue: added items, items from last time now "
+ itemsFromLastTime.size());
return v.toArray(new Key[v.size()]);
}
} else {
long tEnd = System.currentTimeMillis();
if (tEnd - tStart > 1000) Logger.error(this, "Query took " + (tEnd - tStart));
else if (logMINOR) Logger.minor(this, "Query took " + (tEnd - tStart));
return null;
}
return null;
}