Package org.drools.reteoo

Examples of org.drools.reteoo.BetaMemory

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    public static void writeBehaviours(BetaNode betaNode,
                                       MarshallerWriteContext outCtx) throws IOException {
        Behavior[] behaviors = betaNode.getBehaviors();
       
        BetaMemory betaMemory = null;      
        if ( betaNode instanceof AccumulateNode ) {
            betaMemory = (( AccumulateMemory ) outCtx.wm.getNodeMemory( betaNode )).betaMemory;
        } else {
            betaMemory = ( BetaMemory ) outCtx.wm.getNodeMemory( betaNode );
        }
       
        Object[] behaviorContexts = ( Object[] ) betaMemory.getBehaviorContext();
       
        for ( int i = 0; i < behaviors.length; i++ ) {
            if ( betaNode.getBehaviors()[i] instanceof SlidingTimeWindow) {
                outCtx.writeShort( PersisterEnums.SLIDING_TIME_WIN );
                outCtx.writeInt( i );
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    protected void doVisit(NetworkNode node,
                           Stack<NetworkNode> nodeStack,
                           StatefulKnowledgeSessionInfo info) {
        BetaNode bn = (BetaNode) node;
        DefaultNodeInfo ni = (DefaultNodeInfo) info.getNodeInfo( node );
        final BetaMemory memory = (BetaMemory) info.getSession().getNodeMemory( bn );
       
        ni.setMemoryEnabled( true );
       
        if( bn.isObjectMemoryEnabled() ) {
            ni.setFactMemorySize( memory.getRightTupleMemory().size() );
        }
        if( bn.isLeftTupleMemoryEnabled() ) {
            ni.setTupleMemorySize( memory.getLeftTupleMemory().size() );
        }

    }
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        context.rightTuples.put( new RightTupleKey( factHandle.getId(),
                                                    sink ),
                                 rightTuple );

        if( sink != null ) {
            BetaMemory memory = null;
            switch ( sink.getType() ) {
                case NodeTypeEnums.AccumulateNode : {
                    memory = ((AccumulateMemory) context.wm.getNodeMemory( (BetaNode) sink )).betaMemory;
                    break;
                }
                default : {
                    memory = (BetaMemory) context.wm.getNodeMemory( (BetaNode) sink );
                    break;
                }
            }
            memory.getRightTupleMemory().add( rightTuple );
        }
    }
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        LeftTupleSink sink = parentLeftTuple.getLeftTupleSink();

        switch ( sink.getType() ) {
            case NodeTypeEnums.JoinNode : {
                BetaMemory memory = (BetaMemory) context.wm.getNodeMemory( (BetaNode) sink );
                memory.getLeftTupleMemory().add( parentLeftTuple );

                while ( stream.readShort() == PersisterEnums.RIGHT_TUPLE ) {
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           sink );
                    RightTuple rightTuple = context.rightTuples.get( key );
                    LeftTuple childLeftTuple = new LeftTuple( parentLeftTuple,
                                                              rightTuple,
                                                              childSink,
                                                              true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                break;

            }
            case NodeTypeEnums.EvalConditionNode : {
                while ( stream.readShort() == PersisterEnums.LEFT_TUPLE ) {
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                    LeftTuple childLeftTuple = new LeftTuple( parentLeftTuple,
                                                              childSink,
                                                              true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                break;
            }
            case NodeTypeEnums.NotNode :
            case NodeTypeEnums.ForallNotNode : {
                BetaMemory memory = (BetaMemory) context.wm.getNodeMemory( (BetaNode) sink );
                int type = stream.readShort();
                if ( type == PersisterEnums.LEFT_TUPLE_NOT_BLOCKED ) {
                    memory.getLeftTupleMemory().add( parentLeftTuple );

                    while ( stream.readShort() == PersisterEnums.LEFT_TUPLE ) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        LeftTuple childLeftTuple = new LeftTuple( parentLeftTuple,
                                                                  childSink,
                                                                  true );
                        readLeftTuple( childLeftTuple,
                                       context );
                    }

                } else {
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           sink );
                    RightTuple rightTuple = context.rightTuples.get( key );

                    parentLeftTuple.setBlocker( rightTuple );
                    rightTuple.addBlocked( parentLeftTuple );
                }
                break;
            }
            case NodeTypeEnums.ExistsNode : {
                BetaMemory memory = (BetaMemory) context.wm.getNodeMemory( (BetaNode) sink );
                int type = stream.readShort();
                if ( type == PersisterEnums.LEFT_TUPLE_NOT_BLOCKED ) {
                    memory.getLeftTupleMemory().add( parentLeftTuple );
                } else {
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           sink );
                    RightTuple rightTuple = context.rightTuples.get( key );

                    parentLeftTuple.setBlocker( rightTuple );
                    rightTuple.addBlocked( parentLeftTuple );

                    while ( stream.readShort() == PersisterEnums.LEFT_TUPLE ) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        LeftTuple childLeftTuple = new LeftTuple( parentLeftTuple,
                                                                  childSink,
                                                                  true );
                        readLeftTuple( childLeftTuple,
                                       context );
                    }
                }
                break;
            }
            case NodeTypeEnums.AccumulateNode : {
                // accumulate nodes generate new facts on-demand and need special procedures when de-serializing from persistent storage
                AccumulateMemory memory = (AccumulateMemory) context.wm.getNodeMemory( (BetaNode) sink );
                memory.betaMemory.getLeftTupleMemory().add( parentLeftTuple );

                AccumulateContext accctx = new AccumulateContext();
                memory.betaMemory.getCreatedHandles().put( parentLeftTuple,
                                                           accctx,
                                                           false );
                // first we de-serialize the generated fact handle
                InternalFactHandle handle = readFactHandle( context );
                accctx.result = new RightTuple( handle,
                                                (RightTupleSink) sink );

                // then we de-serialize the associated accumulation context
                accctx.context = (Serializable) stream.readObject();
                // then we de-serialize the boolean propagated flag
                accctx.propagated = stream.readBoolean();

                // then we de-serialize all the propagated tuples
                short head = -1;
                while ( (head = stream.readShort()) != PersisterEnums.END ) {
                    switch ( head ) {
                        case PersisterEnums.RIGHT_TUPLE : {
                            int factHandleId = stream.readInt();
                            RightTupleKey key = new RightTupleKey( factHandleId,
                                                                   sink );
                            RightTuple rightTuple = context.rightTuples.get( key );
                            // just wiring up the match record
                            new LeftTuple( parentLeftTuple,
                                           rightTuple,
                                           sink,
                                           true );
                            break;
                        }
                        case PersisterEnums.LEFT_TUPLE : {
                            LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                            LeftTuple childLeftTuple = new LeftTuple( parentLeftTuple,
                                                                      accctx.result,
                                                                      childSink,
                                                                      true );
                            readLeftTuple( childLeftTuple,
                                           context );
                            break;
                        }
                        default : {
                            throw new RuntimeDroolsException( "Marshalling error. This is a bug. Please contact the development team." );
                        }
                    }
                }
                break;
            }
            case NodeTypeEnums.RightInputAdaterNode : {
                // RIANs generate new fact handles on-demand to wrap tuples and need special procedures when de-serializing from persistent storage
                ObjectHashMap memory = (ObjectHashMap) context.wm.getNodeMemory( (NodeMemory) sink );
                // create fact handle
                int id = stream.readInt();
                long recency = stream.readLong();
                InternalFactHandle handle = new DefaultFactHandle( id,
                                                                   parentLeftTuple,
                                                                   recency,
                                                                   context.wm.getEntryPoints().get( EntryPoint.DEFAULT.getEntryPointId() ) );
                memory.put( parentLeftTuple, handle );
               
                readRightTuples( handle, context );
               
                stream.readShort(); // Persistence.END
                break;
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                                                                 null,
                                                                 null );
        ReteooWorkingMemory workingMemory = new ReteooWorkingMemory( 1,
                                                                     (ReteooRuleBase) RuleBaseFactory.newRuleBase() );

        BetaMemory memory = (BetaMemory) workingMemory.getNodeMemory( join1 );

        final DefaultFactHandle f0 = new DefaultFactHandle( 0,
                                                            0 );
        final LeftTuple tuple0 = new LeftTuple( f0,
                                                join1,
                                                true );

        // assert tuple, should add one to left memory
        join1.assertLeftTuple( tuple0,
                               context,
                               workingMemory );
        // check memories, left memory is populated, right memory is emptys
        assertEquals( 1,
                      memory.getLeftTupleMemory().size() );
        assertEquals( 0,
                      memory.getRightTupleMemory().size() );

        // assert tuple, should add left memory should be 2
        final DefaultFactHandle f1 = new DefaultFactHandle( 1,
                                                            0 );
        final LeftTuple tuple1 = new LeftTuple( f1,
                                                join1,
                                                true );
        join1.assertLeftTuple( tuple1,
                               context,
                               workingMemory );
        assertEquals( 2,
                      memory.getLeftTupleMemory().size() );

        LeftTuple leftTuple = ((LeftTupleList)memory.getLeftTupleMemory()).getFirst( );
        assertEquals( tuple0,
                      leftTuple );
        assertEquals( tuple1,
                      leftTuple.getNext() );
    }
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        InternalWorkingMemory wm = (InternalWorkingMemory) map.get( "WorkingMemory" );

        JoinNode join1 = (JoinNode) map.get( "join1" );

        BetaMemory memory = (BetaMemory) wm.getNodeMemory( join1 );
        assertEquals( 2,
                      memory.getRightTupleMemory().size() );

        assertEquals( 2,
                      memory.getLeftTupleMemory().size() );
    }
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        InternalWorkingMemory wm = (InternalWorkingMemory) map.get( "WorkingMemory" );
        List<InternalFactHandle> handles = (List<InternalFactHandle>) map.get( "Handles" );

        JoinNode join1 = (JoinNode) map.get( "join1" );

        BetaMemory memory = (BetaMemory) wm.getNodeMemory( join1 );
        assertEquals( 1,
                      memory.getRightTupleMemory().size() );

        assertEquals( 1,
                      memory.getLeftTupleMemory().size() );
    }
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        InternalWorkingMemory wm = (InternalWorkingMemory) map.get( "WorkingMemory" );
        List<InternalFactHandle> handles = (List<InternalFactHandle>) map.get( "Handles" );

        JoinNode join1 = (JoinNode) map.get( "join1" );

        BetaMemory memory = (BetaMemory) wm.getNodeMemory( join1 );
        assertEquals( 1,
                      memory.getRightTupleMemory().size() );

        assertEquals( 1,
                      memory.getLeftTupleMemory().size() );
    }
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        InternalWorkingMemory wm = (InternalWorkingMemory) map.get( "WorkingMemory" );
        List<InternalFactHandle> handles = (List<InternalFactHandle>) map.get( "Handles" );

        JoinNode join1 = (JoinNode) map.get( "join1" );

        BetaMemory memory = (BetaMemory) wm.getNodeMemory( join1 );
        assertEquals( 1,
                      memory.getRightTupleMemory().size() );

        assertEquals( 1,
                      memory.getLeftTupleMemory().size() );
    }
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        InternalWorkingMemory wm = (InternalWorkingMemory) map.get( "WorkingMemory" );
        List<InternalFactHandle> handles = (List<InternalFactHandle>) map.get( "Handles" );

        JoinNode join1 = (JoinNode) map.get( "join1" );

        BetaMemory memory = (BetaMemory) wm.getNodeMemory( join1 );
        assertEquals( 1,
                      memory.getRightTupleMemory().size() );

        assertEquals( 1,
                      memory.getLeftTupleMemory().size() );
    }
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Related Classes of org.drools.reteoo.BetaMemory

  • org.drools.common.BaseBetaConstraintsTest
  • org.drools.common.DefaultBetaConstraints
  • org.drools.common.DoubleBetaConstraints
  • org.drools.common.EmptyBetaConstraints
  • org.drools.common.LeftTupleIterator
  • org.drools.common.QuadroupleBetaConstraints
  • org.drools.common.RightTupleSets
  • org.drools.common.SingleBetaConstraints
  • org.drools.common.StagedRightTuples
  • org.drools.common.TripleBetaConstraints
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