Examples of org.drools.core.reteoo.ObjectTypeNode

org.drools.core.reteoo.ObjectTypeNode
ObjectTypeNodes are responsible for filtering and propagating the matching fact assertions propagated from the Rete node using ObjectType interface. The assert and retract methods do not attempt to filter as this is the role of the Rete node which builds up a cache of matching ObjectTypdeNodess for each asserted object, using the matches(Object object) method. Incorrect propagation in these methods is not checked and will result in ClassCastExpcections later on in the network. Filters Objects coming from the Rete using a ObjectType semantic module. @see Rete



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94                 return new TraitProxyObjectTypeNode( id, objectSource, objectType, context );
            } else {
                return new TraitObjectTypeNode( id, objectSource, objectType, context );
            }
        } else {
            return new ObjectTypeNode( id, objectSource, objectType, context );
        }
    }

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488         LeftInputAdapterNode lian = ( LeftInputAdapterNode ) startNode;
        ObjectSource os = lian.getObjectSource();
        while (os.getType() != NodeTypeEnums.ObjectTypeNode) {
            os = os.getParentObjectSource();
        }
        ObjectTypeNode otn = (ObjectTypeNode) os;
        final ObjectTypeNodeMemory omem = (ObjectTypeNodeMemory) wm.getNodeMemory(otn);
        Iterator it = omem.getObjectHashSet().iterator();


        for (ObjectEntry entry = (ObjectEntry) it.next(); entry != null; entry = (ObjectEntry) it.next()) {
            InternalFactHandle fh = (InternalFactHandle) entry.getValue();

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        ObjectSource os = lian.getObjectSource();
        while (os.getType() != NodeTypeEnums.ObjectTypeNode) {
            os = os.getParentObjectSource();
        }
        ObjectTypeNode otn = (ObjectTypeNode) os;
        final ObjectTypeNodeMemory omem = (ObjectTypeNodeMemory) wm.getNodeMemory(otn);
        Iterator it = omem.getObjectHashSet().iterator();
        LeftTupleSink firstLiaSink = lian.getSinkPropagator().getFirstLeftTupleSink();


        for (ObjectEntry entry = (ObjectEntry) it.next(); entry != null; entry = (ObjectEntry) it.next()) {

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297             if ( epn == null ) {
                epn = nfactory.buildEntryPointNode( context.getNextId(), ruleBase.getRete(), context );
                epn.attach( context );
            }


            ObjectTypeNode otn = nfactory.buildObjectTypeNode( context.getNextId(), epn, objectType, context );


            long expirationOffset = getExpiratioOffsetForType( context,
                                                               objectType );
            otn.setExpirationOffset( expirationOffset );


            otn.attach( context );


            return otn;
        } finally {
            ruleBase.unlock();
        }

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396                 context.setTupleMemoryEnabled( false );
                context.setObjectTypeNodeMemoryEnabled( false );
            }
        }


        ObjectTypeNode otn = context.getComponentFactory().getNodeFactoryService().buildObjectTypeNode( context.getNextId(),
                                                 (EntryPointNode) context.getObjectSource(),
                                                 objectType,
                                                 context );
        if ( objectType.isEvent() && EventProcessingOption.STREAM.equals( context.getKnowledgeBase().getConfiguration().getEventProcessingMode() ) ) {
            long expirationOffset = getExpiratioOffsetForType( context,
                                                               objectType );
            if( expirationOffset != -1 ) {
                // expiration policy is set, so use it
                otn.setExpirationOffset( expirationOffset );
            } else {
                // otherwise calculate it based on behaviours and temporal constraints
                for ( Behavior behavior : pattern.getBehaviors() ) {
                    if ( behavior.getExpirationOffset() != -1 ) {
                        expirationOffset = Math.max( behavior.getExpirationOffset(),
                                                     expirationOffset );
                    }
                }
                long distance = context.getTemporalDistance() != null ? context.getTemporalDistance().getExpirationOffset( pattern ) : -1;
                if( distance == -1 ) {
                    // it means the rules have no temporal constraints, or
                    // the constraints require events to be hold forever. In this 
                    // case, we allow type declarations to override the implicit 
                    // expiration offset by defining an expiration policy with the
                    // @expires tag
                    otn.setExpirationOffset( expirationOffset );
                } else {
                    otn.setExpirationOffset( Math.max( distance, expirationOffset ) );
                }
            }
        }


        context.setObjectSource( (ObjectSource) utils.attachNode( context,

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                }
                rightTuple = (RightTuple) localIt.next( rightTuple );
            }
        } else if ( source instanceof LeftInputAdapterNode ) {
            ObjectTypeNode otn = null;
            ObjectSource os = ((LeftInputAdapterNode) source).getParentObjectSource();
            while ( !(os instanceof ObjectTypeNode) ) {
                os = os.getParentObjectSource();
            }
            otn = (ObjectTypeNode) os;

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832      */
    private void enableTMS(Object object, ObjectTypeConf conf) {
        final Rete source = this.kBase.getRete();
        final ClassObjectType cot = new ClassObjectType( object.getClass() );
        final Map<ObjectType, ObjectTypeNode> map = source.getObjectTypeNodes( EntryPointId.DEFAULT );
        final ObjectTypeNode node = map.get( cot );
        final ObjectHashSet memory = ((ObjectTypeNodeMemory) this.wm.getNodeMemory( node )).memory;
      
        // All objects of this type that are already there were certainly stated,
        // since this method call happens at the first logical insert, for any given type.
        org.drools.core.util.Iterator it = memory.iterator();
 

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884             // @propertyChangeSupport annotation, and clean them up
            if( conf.isDynamic() && conf.isSupportsPropertyChangeListeners() ) {
                // it is enough to iterate the facts on the concrete object type nodes 
                // only, as the facts will always be in their concrete object type nodes
                // even if they were also asserted into higher level OTNs as well
                ObjectTypeNode otn = conf.getConcreteObjectTypeNode();
                final ObjectHashSet memory = ((ObjectTypeNodeMemory) this.getInternalWorkingMemory().getNodeMemory( otn )).memory;
                Iterator it = memory.iterator();
                for ( ObjectEntry entry = (ObjectEntry) it.next(); entry != null; entry = (ObjectEntry) it.next() ) {
                    InternalFactHandle handle = (InternalFactHandle) entry.getValue();
                    removePropertyChangeListener( handle, false );

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        ObjectSource os = lian.getObjectSource();
        while (os.getType() != NodeTypeEnums.ObjectTypeNode) {
            os = os.getParentObjectSource();
        }
        ObjectTypeNode otn = (ObjectTypeNode) os;
        final ObjectTypeNodeMemory omem = (ObjectTypeNodeMemory) wm.getNodeMemory(otn);
        Iterator it = omem.getObjectHashSet().iterator();
        LeftTupleSink firstLiaSink = lian.getSinkPropagator().getFirstLeftTupleSink();


        for (ObjectEntry entry = (ObjectEntry) it.next(); entry != null; entry = (ObjectEntry) it.next()) {

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508         KnowledgeBase kbase = loadKnowledgeBase( kbc, "test_CEP_EventExpiration2.drl" );


        final TimeIntervalParser parser = new TimeIntervalParser();


        Map<ObjectType, ObjectTypeNode> objectTypeNodes = ((KnowledgeBaseImpl)kbase).getRete().getObjectTypeNodes( EntryPointId.DEFAULT );
        ObjectTypeNode node = objectTypeNodes.get( new ClassObjectType( StockTick.class ) );


        assertNotNull( node );


        // the expiration policy @expires(10m) should override the temporal operator usage 
        assertEquals( parser.parse( "10m" )[0].longValue() + 1,
                      node.getExpirationOffset() );
    }

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org.drools.compiler.integrationtests.AccumulateTest
org.drools.compiler.integrationtests.AlphaNetworkModifyTest
org.drools.compiler.integrationtests.BackwardChainingTest
org.drools.compiler.integrationtests.CepEspTest
org.drools.compiler.integrationtests.MVELTest
org.drools.compiler.integrationtests.PhreakConcurrencyTest$EPManipulator3
org.drools.compiler.integrationtests.PhreakConcurrencyTest$SegmentChecker
org.drools.compiler.integrationtests.PropertySpecificTest
org.drools.compiler.integrationtests.QueryTest
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