+package org.simantics.db.impl.query;
+
+import org.simantics.db.ObjectResourceIdMap;
+import org.simantics.db.RelationInfo;
+import org.simantics.db.common.utils.Logger;
+import org.simantics.db.exception.DatabaseException;
+import org.simantics.db.impl.graph.ReadGraphImpl;
+import org.simantics.db.impl.procedure.InternalProcedure;
+import org.simantics.db.impl.query.QueryProcessor.SessionTask;
+import org.simantics.db.procedure.AsyncMultiProcedure;
+import org.simantics.db.procedure.AsyncProcedure;
+import org.simantics.db.procedure.ListenerBase;
+import org.simantics.db.procedure.SyncMultiProcedure;
+import org.simantics.db.request.AsyncMultiRead;
+import org.simantics.db.request.AsyncRead;
+import org.simantics.db.request.ExternalRead;
+import org.simantics.db.request.MultiRead;
+import org.simantics.db.request.Read;
+
+public class QueryCache extends QueryCacheBase {
+
+ public QueryCache(QuerySupport querySupport, int threads) {
+ super(querySupport, threads);
+ }
+
+ Objects getOrCreateObjects(QueryProcessor processor, int r1, int r2) throws DatabaseException {
+ Objects existing = null;
+ synchronized(objectsMap) {
+ existing = (Objects)objectsMap.get(r1,r2);
+ if(existing == null) {
+ existing = new Objects(r1,r2);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ objectsMap.put(keyR2(r1,r2), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(Objects entry) {
+ synchronized(objectsMap) {
+ objectsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerObjects(ReadGraphImpl graph, int r1, int r2, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r1,r2)) {
+ Objects.computeForEach(graph, r1,r2, null, procedure);
+ return;
+ }
+ Objects entry = (Objects)cache.getOrCreateObjects(graph.processor, r1,r2);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedureObjects;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ Objects.computeForEach(graph, r1,r2, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ Statements getOrCreateStatements(QueryProcessor processor, int r1, int r2) throws DatabaseException {
+ Statements existing = null;
+ synchronized(statementsMap) {
+ existing = (Statements)statementsMap.get(r1,r2);
+ if(existing == null) {
+ existing = new Statements(r1,r2);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ statementsMap.put(keyR2(r1,r2), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(Statements entry) {
+ synchronized(statementsMap) {
+ statementsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerStatements(ReadGraphImpl graph, int r1, int r2, CacheEntry parent, ListenerBase listener, final TripleIntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r1,r2)) {
+ Statements.computeForEach(graph, r1,r2, null, procedure);
+ return;
+ }
+ Statements entry = (Statements)cache.getOrCreateStatements(graph.processor, r1,r2);
+ TripleIntProcedure procedure_ = procedure != null ? procedure : emptyProcedureStatements;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ Statements.computeForEach(graph, r1,r2, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ DirectObjects getOrCreateDirectObjects(QueryProcessor processor, int r1, int r2) throws DatabaseException {
+ DirectObjects existing = null;
+ synchronized(directObjectsMap) {
+ existing = (DirectObjects)directObjectsMap.get(r1,r2);
+ if(existing == null) {
+ existing = new DirectObjects(r1,r2);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ directObjectsMap.put(keyR2(r1,r2), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(DirectObjects entry) {
+ synchronized(directObjectsMap) {
+ directObjectsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerDirectObjects(ReadGraphImpl graph, int r1, int r2, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r1,r2)) {
+ DirectObjects.computeForEach(graph, r1,r2, null, procedure);
+ return;
+ }
+ DirectObjects entry = (DirectObjects)cache.getOrCreateDirectObjects(graph.processor, r1,r2);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedureDirectObjects;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ DirectObjects.computeForEach(graph, r1,r2, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ RelationInfoQuery getOrCreateRelationInfoQuery(QueryProcessor processor, int r) throws DatabaseException {
+ RelationInfoQuery existing = null;
+ synchronized(relationInfoQueryMap) {
+ existing = (RelationInfoQuery)relationInfoQueryMap.get(r);
+ if(existing == null) {
+ existing = new RelationInfoQuery(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ relationInfoQueryMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(RelationInfoQuery entry) {
+ synchronized(relationInfoQueryMap) {
+ relationInfoQueryMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerRelationInfoQuery(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<RelationInfo> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ RelationInfoQuery.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ RelationInfoQuery entry = (RelationInfoQuery)cache.getOrCreateRelationInfoQuery(graph.processor, r);
+ InternalProcedure<RelationInfo> procedure_ = procedure != null ? procedure : emptyProcedureRelationInfoQuery;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ RelationInfoQuery.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ URIToResource getOrCreateURIToResource(QueryProcessor processor, String id) throws DatabaseException {
+ URIToResource existing = null;
+ synchronized(uRIToResourceMap) {
+ existing = (URIToResource)uRIToResourceMap.get(id);
+ if(existing == null) {
+ existing = new URIToResource(id);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ uRIToResourceMap.put(keyID(id), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(URIToResource entry) {
+ synchronized(uRIToResourceMap) {
+ uRIToResourceMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerURIToResource(ReadGraphImpl graph, String id, CacheEntry parent, ListenerBase listener, final InternalProcedure<Integer> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, id)) {
+ URIToResource.computeForEach(graph, id, null, procedure);
+ return;
+ }
+ URIToResource entry = (URIToResource)cache.getOrCreateURIToResource(graph.processor, id);
+ InternalProcedure<Integer> procedure_ = procedure != null ? procedure : emptyProcedureURIToResource;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ URIToResource.computeForEach(graph, id, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ ValueQuery getOrCreateValueQuery(QueryProcessor processor, int r) throws DatabaseException {
+ ValueQuery existing = null;
+ synchronized(valueQueryMap) {
+ existing = (ValueQuery)valueQueryMap.get(r);
+ if(existing == null) {
+ existing = new ValueQuery(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ valueQueryMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(ValueQuery entry) {
+ synchronized(valueQueryMap) {
+ valueQueryMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerValueQuery(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<byte[]> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ ValueQuery.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ ValueQuery entry = (ValueQuery)cache.getOrCreateValueQuery(graph.processor, r);
+ InternalProcedure<byte[]> procedure_ = procedure != null ? procedure : emptyProcedureValueQuery;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ ValueQuery.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ OrderedSet getOrCreateOrderedSet(QueryProcessor processor, int r) throws DatabaseException {
+ OrderedSet existing = null;
+ synchronized(orderedSetMap) {
+ existing = (OrderedSet)orderedSetMap.get(r);
+ if(existing == null) {
+ existing = new OrderedSet(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ orderedSetMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(OrderedSet entry) {
+ synchronized(orderedSetMap) {
+ orderedSetMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerOrderedSet(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ OrderedSet.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ OrderedSet entry = (OrderedSet)cache.getOrCreateOrderedSet(graph.processor, r);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedureOrderedSet;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ OrderedSet.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ PrincipalTypes getOrCreatePrincipalTypes(QueryProcessor processor, int r) throws DatabaseException {
+ PrincipalTypes existing = null;
+ synchronized(principalTypesMap) {
+ existing = (PrincipalTypes)principalTypesMap.get(r);
+ if(existing == null) {
+ existing = new PrincipalTypes(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ principalTypesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(PrincipalTypes entry) {
+ synchronized(principalTypesMap) {
+ principalTypesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerPrincipalTypes(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ PrincipalTypes.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ PrincipalTypes entry = (PrincipalTypes)cache.getOrCreatePrincipalTypes(graph.processor, r);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedurePrincipalTypes;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ PrincipalTypes.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ DirectPredicates getOrCreateDirectPredicates(QueryProcessor processor, int r) throws DatabaseException {
+ DirectPredicates existing = null;
+ synchronized(directPredicatesMap) {
+ existing = (DirectPredicates)directPredicatesMap.get(r);
+ if(existing == null) {
+ existing = new DirectPredicates(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ directPredicatesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(DirectPredicates entry) {
+ synchronized(directPredicatesMap) {
+ directPredicatesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerDirectPredicates(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ DirectPredicates.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ DirectPredicates entry = (DirectPredicates)cache.getOrCreateDirectPredicates(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedureDirectPredicates;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ DirectPredicates.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ Predicates getOrCreatePredicates(QueryProcessor processor, int r) throws DatabaseException {
+ Predicates existing = null;
+ synchronized(predicatesMap) {
+ existing = (Predicates)predicatesMap.get(r);
+ if(existing == null) {
+ existing = new Predicates(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ predicatesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(Predicates entry) {
+ synchronized(predicatesMap) {
+ predicatesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerPredicates(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ Predicates.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ Predicates entry = (Predicates)cache.getOrCreatePredicates(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedurePredicates;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ Predicates.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ ReadEntry getOrCreateReadEntry(QueryProcessor processor, Read<?> r, boolean isSync) throws DatabaseException {
+ ReadEntry existing = null;
+ synchronized(readEntryMap) {
+ existing = (ReadEntry)readEntryMap.get(r);
+ if(existing == null) {
+ existing = new ReadEntry(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ readEntryMap.put(id(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) {
+ if(isSync) waitPending(processor, existing);
+ else return null;
+ }
+ return existing;
+ }
+
+ void remove(ReadEntry entry) {
+ synchronized(readEntryMap) {
+ readEntryMap.remove(entry.request);
+ }
+ }
+
+ public static void runnerReadEntry(ReadGraphImpl graph, Read<?> r, CacheEntry parent, ListenerBase listener, final AsyncProcedure procedure, boolean isSync) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ ReadEntry.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ ReadEntry entry = (ReadEntry)cache.getOrCreateReadEntry(graph.processor, r, isSync);
+ if(entry == null) {
+ graph.processor.schedule(new SessionTask(false) {
+ @Override
+ public void run(int thread) {
+ try {
+ assert(!isSync);
+ runnerReadEntry(graph, r, parent, listener, procedure, isSync);
+ } catch (DatabaseException e) {
+ Logger.defaultLogError(e);
+ }
+ }
+ });
+ return;
+ }
+ AsyncProcedure procedure_ = procedure != null ? procedure : emptyProcedureReadEntry;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ ReadEntry.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ AsyncReadEntry getOrCreateAsyncReadEntry(QueryProcessor processor, AsyncRead<?> r, boolean isSync) throws DatabaseException {
+ AsyncReadEntry existing = null;
+ synchronized(asyncReadEntryMap) {
+ existing = (AsyncReadEntry)asyncReadEntryMap.get(r);
+ if(existing == null) {
+ existing = new AsyncReadEntry(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ asyncReadEntryMap.put(id(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) {
+ if(isSync) waitPending(processor, existing);
+ else return null;
+ }
+ return existing;
+ }
+
+ void remove(AsyncReadEntry entry) {
+ synchronized(asyncReadEntryMap) {
+ asyncReadEntryMap.remove(entry.request);
+ }
+ }
+
+ public static void runnerAsyncReadEntry(ReadGraphImpl graph, AsyncRead<?> r, CacheEntry parent, ListenerBase listener, final AsyncProcedure procedure, boolean isSync) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ AsyncReadEntry.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ AsyncReadEntry entry = (AsyncReadEntry)cache.getOrCreateAsyncReadEntry(graph.processor, r, isSync);
+ if(entry == null) {
+ graph.processor.schedule(new SessionTask(false) {
+ @Override
+ public void run(int thread) {
+ try {
+ assert(!isSync);
+ runnerAsyncReadEntry(graph, r, parent, listener, procedure, isSync);
+ } catch (DatabaseException e) {
+ Logger.defaultLogError(e);
+ }
+ }
+ });
+ return;
+ }
+ AsyncProcedure procedure_ = procedure != null ? procedure : emptyProcedureAsyncReadEntry;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ AsyncReadEntry.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ Types getOrCreateTypes(QueryProcessor processor, int r) throws DatabaseException {
+ Types existing = null;
+ synchronized(typesMap) {
+ existing = (Types)typesMap.get(r);
+ if(existing == null) {
+ existing = new Types(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ typesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(Types entry) {
+ synchronized(typesMap) {
+ typesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerTypes(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ Types.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ Types entry = (Types)cache.getOrCreateTypes(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedureTypes;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ Types.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ ChildMap getOrCreateChildMap(QueryProcessor processor, int r) throws DatabaseException {
+ ChildMap existing = null;
+ synchronized(childMapMap) {
+ existing = (ChildMap)childMapMap.get(r);
+ if(existing == null) {
+ existing = new ChildMap(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ childMapMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(ChildMap entry) {
+ synchronized(childMapMap) {
+ childMapMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerChildMap(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<ObjectResourceIdMap<String>> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ ChildMap.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ ChildMap entry = (ChildMap)cache.getOrCreateChildMap(graph.processor, r);
+ InternalProcedure<ObjectResourceIdMap<String>> procedure_ = procedure != null ? procedure : emptyProcedureChildMap;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ ChildMap.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ TypeHierarchy getOrCreateTypeHierarchy(QueryProcessor processor, int r) throws DatabaseException {
+ TypeHierarchy existing = null;
+ synchronized(typeHierarchyMap) {
+ existing = (TypeHierarchy)typeHierarchyMap.get(r);
+ if(existing == null) {
+ existing = new TypeHierarchy(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ typeHierarchyMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(TypeHierarchy entry) {
+ synchronized(typeHierarchyMap) {
+ typeHierarchyMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerTypeHierarchy(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ TypeHierarchy.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ TypeHierarchy entry = (TypeHierarchy)cache.getOrCreateTypeHierarchy(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedureTypeHierarchy;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ TypeHierarchy.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ SuperTypes getOrCreateSuperTypes(QueryProcessor processor, int r) throws DatabaseException {
+ SuperTypes existing = null;
+ synchronized(superTypesMap) {
+ existing = (SuperTypes)superTypesMap.get(r);
+ if(existing == null) {
+ existing = new SuperTypes(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ superTypesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(SuperTypes entry) {
+ synchronized(superTypesMap) {
+ superTypesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerSuperTypes(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ SuperTypes.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ SuperTypes entry = (SuperTypes)cache.getOrCreateSuperTypes(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedureSuperTypes;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ SuperTypes.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ SuperRelations getOrCreateSuperRelations(QueryProcessor processor, int r) throws DatabaseException {
+ SuperRelations existing = null;
+ synchronized(superRelationsMap) {
+ existing = (SuperRelations)superRelationsMap.get(r);
+ if(existing == null) {
+ existing = new SuperRelations(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ superRelationsMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(SuperRelations entry) {
+ synchronized(superRelationsMap) {
+ superRelationsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerSuperRelations(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final InternalProcedure<IntSet> procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ if(parent == null && listener == null && !cache.shouldCache(graph.processor, r)) {
+ SuperRelations.computeForEach(graph, r, null, procedure);
+ return;
+ }
+ SuperRelations entry = (SuperRelations)cache.getOrCreateSuperRelations(graph.processor, r);
+ InternalProcedure<IntSet> procedure_ = procedure != null ? procedure : emptyProcedureSuperRelations;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ SuperRelations.computeForEach(graph, r, entry, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ AssertedPredicates getOrCreateAssertedPredicates(QueryProcessor processor, int r) throws DatabaseException {
+ AssertedPredicates existing = null;
+ synchronized(assertedPredicatesMap) {
+ existing = (AssertedPredicates)assertedPredicatesMap.get(r);
+ if(existing == null) {
+ existing = new AssertedPredicates(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ assertedPredicatesMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(AssertedPredicates entry) {
+ synchronized(assertedPredicatesMap) {
+ assertedPredicatesMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerAssertedPredicates(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ AssertedPredicates entry = (AssertedPredicates)cache.getOrCreateAssertedPredicates(graph.processor, r);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedureAssertedPredicates;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ AssertedStatements getOrCreateAssertedStatements(QueryProcessor processor, int r1, int r2) throws DatabaseException {
+ AssertedStatements existing = null;
+ synchronized(assertedStatementsMap) {
+ existing = (AssertedStatements)assertedStatementsMap.get(r1,r2);
+ if(existing == null) {
+ existing = new AssertedStatements(r1,r2);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ assertedStatementsMap.put(keyR2(r1,r2), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(AssertedStatements entry) {
+ synchronized(assertedStatementsMap) {
+ assertedStatementsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerAssertedStatements(ReadGraphImpl graph, int r1, int r2, CacheEntry parent, ListenerBase listener, final TripleIntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ AssertedStatements entry = (AssertedStatements)cache.getOrCreateAssertedStatements(graph.processor, r1,r2);
+ TripleIntProcedure procedure_ = procedure != null ? procedure : emptyProcedureAssertedStatements;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ DirectSuperRelations getOrCreateDirectSuperRelations(QueryProcessor processor, int r) throws DatabaseException {
+ DirectSuperRelations existing = null;
+ synchronized(directSuperRelationsMap) {
+ existing = (DirectSuperRelations)directSuperRelationsMap.get(r);
+ if(existing == null) {
+ existing = new DirectSuperRelations(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ directSuperRelationsMap.put(keyR(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(DirectSuperRelations entry) {
+ synchronized(directSuperRelationsMap) {
+ directSuperRelationsMap.remove(entry.id);
+ }
+ }
+
+ public static void runnerDirectSuperRelations(ReadGraphImpl graph, int r, CacheEntry parent, ListenerBase listener, final IntProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ DirectSuperRelations entry = (DirectSuperRelations)cache.getOrCreateDirectSuperRelations(graph.processor, r);
+ IntProcedure procedure_ = procedure != null ? procedure : emptyProcedureDirectSuperRelations;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ MultiReadEntry getOrCreateMultiReadEntry(QueryProcessor processor, MultiRead<?> r) throws DatabaseException {
+ MultiReadEntry existing = null;
+ synchronized(multiReadEntryMap) {
+ existing = (MultiReadEntry)multiReadEntryMap.get(r);
+ if(existing == null) {
+ existing = new MultiReadEntry(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ multiReadEntryMap.put(id(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(MultiReadEntry entry) {
+ synchronized(multiReadEntryMap) {
+ multiReadEntryMap.remove(entry.request);
+ }
+ }
+
+ public static void runnerMultiReadEntry(ReadGraphImpl graph, MultiRead<?> r, CacheEntry parent, ListenerBase listener, final SyncMultiProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ MultiReadEntry entry = (MultiReadEntry)cache.getOrCreateMultiReadEntry(graph.processor, r);
+ SyncMultiProcedure procedure_ = procedure != null ? procedure : emptyProcedureMultiReadEntry;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ AsyncMultiReadEntry getOrCreateAsyncMultiReadEntry(QueryProcessor processor, AsyncMultiRead<?> r) throws DatabaseException {
+ AsyncMultiReadEntry existing = null;
+ synchronized(asyncMultiReadEntryMap) {
+ existing = (AsyncMultiReadEntry)asyncMultiReadEntryMap.get(r);
+ if(existing == null) {
+ existing = new AsyncMultiReadEntry(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ asyncMultiReadEntryMap.put(id(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(AsyncMultiReadEntry entry) {
+ synchronized(asyncMultiReadEntryMap) {
+ asyncMultiReadEntryMap.remove(entry.request);
+ }
+ }
+
+ public static void runnerAsyncMultiReadEntry(ReadGraphImpl graph, AsyncMultiRead<?> r, CacheEntry parent, ListenerBase listener, final AsyncMultiProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ AsyncMultiReadEntry entry = (AsyncMultiReadEntry)cache.getOrCreateAsyncMultiReadEntry(graph.processor, r);
+ AsyncMultiProcedure procedure_ = procedure != null ? procedure : emptyProcedureAsyncMultiReadEntry;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+ ExternalReadEntry getOrCreateExternalReadEntry(QueryProcessor processor, ExternalRead<?> r) throws DatabaseException {
+ ExternalReadEntry existing = null;
+ synchronized(externalReadEntryMap) {
+ existing = (ExternalReadEntry)externalReadEntryMap.get(r);
+ if(existing == null) {
+ existing = new ExternalReadEntry(r);
+ existing.clearResult(querySupport);
+ existing.setPending();
+ externalReadEntryMap.put(id(r), existing);
+ size++;
+ return existing;
+ }
+ if(existing.requiresComputation()) {
+ existing.setPending();
+ return existing;
+ }
+ }
+ if(existing.isPending()) waitPending(processor, existing);
+ return existing;
+ }
+
+ void remove(ExternalReadEntry entry) {
+ synchronized(externalReadEntryMap) {
+ externalReadEntryMap.remove(entry.request);
+ }
+ }
+
+ public static void runnerExternalReadEntry(ReadGraphImpl graph, ExternalRead<?> r, CacheEntry parent, ListenerBase listener, final AsyncProcedure procedure) throws DatabaseException {
+ QueryCache cache = graph.processor.cache;
+ ExternalReadEntry entry = (ExternalReadEntry)cache.getOrCreateExternalReadEntry(graph.processor, r);
+ AsyncProcedure procedure_ = procedure != null ? procedure : emptyProcedureExternalReadEntry;
+ ListenerEntry listenerEntry = cache.registerDependencies(graph, entry, parent, listener, procedure_, false);
+ if(entry.isReady()) entry.performFromCache(graph, procedure_);
+ else {
+ assert(entry.isPending());
+ entry.compute(graph, procedure_);
+ if(listenerEntry != null) cache.primeListenerEntry(listenerEntry, entry.getResult());
+ }
+ }
+
+}