Examples of org.drools.reteoo.RightTuple

org.drools.reteoo.RightTuple

                    int childSinkId = stream.readInt();
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( childSinkId );
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           sink );
                    RightTuple rightTuple = context.rightTuples.get( key );
                    LeftTuple childLeftTuple = childSink.createLeftTuple( parentLeftTuple,
                                                                          rightTuple,
                                                                          null,
                                                                          null,
                                                                          childSink,
                                                                          true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                break;


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


                    while (stream.readShort() == PersisterEnums.LEFT_TUPLE) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        LeftTuple childLeftTuple = childSink.createLeftTuple( 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 );
                readBehaviors( (BetaNode) sink,
                               memory,
                               context );
                int type = stream.readShort();
                if (type == PersisterEnums.LEFT_TUPLE_NOT_BLOCKED) {
                    addToLeftMemory( parentLeftTuple,
                                     memory );
                } 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 = childSink.createLeftTuple( 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 );


                readBehaviors( (BetaNode) sink,
                               memory.betaMemory,
                               context );


                AccumulateContext accctx = new AccumulateContext();
                parentLeftTuple.setObject( accctx );


                // 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
                            sink.createLeftTuple( parentLeftTuple,
                                                  rightTuple,
                                                  null,
                                                  null,
                                                  sink,
                                                  true );
                            break;
                        }
                        case PersisterEnums.LEFT_TUPLE: {
                            int sinkId = stream.readInt();
                            LeftTupleSink childSink = (LeftTupleSink) sinks.get( sinkId );
                            LeftTuple childLeftTuple = new LeftTupleImpl( 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;
            }
            case NodeTypeEnums.FromNode: {
                //              context.out.println( "FromNode" );
                // FNs generate new fact handles on-demand to wrap objects and need special procedures when serializing to persistent storage
                FromMemory memory = (FromMemory) context.wm.getNodeMemory( (NodeMemory) sink );


                memory.betaMemory.getLeftTupleMemory().add( parentLeftTuple );
                Map<Object, RightTuple> matches = new LinkedHashMap<Object, RightTuple>();
                parentLeftTuple.setObject( matches );


                while (stream.readShort() == PersisterEnums.FACT_HANDLE) {
                    // we de-serialize the generated fact handle ID
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    readRightTuples( handle,
                                     context );
                    matches.put( handle.getObject(),
                                 handle.getFirstRightTuple() );
                }
                while (stream.readShort() == PersisterEnums.RIGHT_TUPLE) {
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           null ); // created tuples in from node always use null sink
                    RightTuple rightTuple = context.rightTuples.get( key );
                    LeftTuple childLeftTuple = new LeftTupleImpl( parentLeftTuple,
                                                                  rightTuple,
                                                                  childSink,
                                                                  true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                //                context.out.println( "FromNode   ---   END" );
                break;
            }
            case NodeTypeEnums.UnificationNode: {
                boolean isOpen = context.readBoolean();


                if (isOpen) {
                    QueryElementNode node = (QueryElementNode) sink;
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    node.createDroolsQuery( parentLeftTuple,
                                            handle,
                                            context.wm );
                    readLeftTuples( context );
                } else {
                    while (stream.readShort() == PersisterEnums.LEFT_TUPLE) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        // we de-serialize the generated fact handle ID
                        InternalFactHandle handle = readFactHandle( context );
                        context.handles.put( handle.getId(),
                                             handle );
                        RightTuple rightTuple = new RightTuple( handle );
                        // @TODO check if open query
                        LeftTuple childLeftTuple = new LeftTupleImpl( parentLeftTuple,
                                                                      rightTuple,
                                                                      childSink,
                                                                      true );
                        readLeftTuple( childLeftTuple,
                                       context );
                    }
                }
                break;
            }
            case NodeTypeEnums.RuleTerminalNode: {
                int pos = context.terminalTupleMap.size();
                context.terminalTupleMap.put( pos,
                                              parentLeftTuple );
                break;
            }
            case NodeTypeEnums.QueryTerminalNode: {
                boolean unificationNode = context.readBoolean();
                if (unificationNode) {
                    // we de-serialize the generated fact handle ID
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    RightTuple rightTuple = new RightTuple( handle );
                    parentLeftTuple.setObject( rightTuple );


                    LeftTuple entry = parentLeftTuple;


                    // find the DroolsQuery object

View Full Code Here

            int factId = inCtx.readInt();


            RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
            RightTupleKey key = new RightTupleKey( factId,
                                                   sink );
            RightTuple rightTuple = inCtx.rightTuples.get( key );


            stwCtx.expiringTuple = rightTuple;
        }


        if (inCtx.readBoolean()) {
            int size = inCtx.readInt();
            for (int i = 0; i < size; i++) {
                int sinkId = inCtx.readInt();
                int factId = inCtx.readInt();


                RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
                RightTupleKey key = new RightTupleKey( factId,
                                                       sink );
                RightTuple rightTuple = inCtx.rightTuples.get( key );


                stwCtx.queue.add( rightTuple );
            }
        }
    }

View Full Code Here

                int sinkId = inCtx.readInt();


                RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
                RightTupleKey key = new RightTupleKey( factId,
                                                       sink );
                RightTuple rightTuple = inCtx.rightTuples.get( key );


                slwCtx.rightTuples[i] = rightTuple;
            }


        }

View Full Code Here

                    .setTuple( PersisterHelper.createTuple( leftTuple ) )
                    .setHandle( _handle );
            
            LeftTuple childLeftTuple = leftTuple.getFirstChild();
            while ( childLeftTuple != null ) {
                RightTuple rightParent = childLeftTuple.getRightParent();
                _context.addResult( ProtobufMessages.FactHandle.newBuilder()
                    .setId( rightParent.getFactHandle().getId() )
                    .setRecency( rightParent.getFactHandle().getRecency() )
                    .build() );
                while ( childLeftTuple != null && childLeftTuple.getRightParent() == rightParent ) {
                    // skip to the next child that has a different right parent
                    childLeftTuple = childLeftTuple.getLeftParentNext();
                }

View Full Code Here

                //                    context.writeBoolean( true );
                //                    UnificationNodeViewChangedEventListener collector = (UnificationNodeViewChangedEventListener) query.getQueryResultCollector();
                //                    leftTuple = collector.getLeftTuple();
                //        
                context.writeBoolean( true );
                RightTuple rightTuple = (RightTuple) leftTuple.getObject();
                //context.out.println( "rightTuple:" +  rightTuple.getFactHandle() );
                writeFactHandle( context,
                                 stream,
                                 context.objectMarshallingStrategyStore,
                                 1,
                                 rightTuple.getFactHandle() );
                
                for ( LeftTuple childLeftTuple = rightTuple.firstChild; childLeftTuple != null; childLeftTuple = (LeftTuple) childLeftTuple.getRightParentNext() ) {
                    stream.writeShort( PersisterEnums.LEFT_TUPLE );
                    stream.writeInt( childLeftTuple.getLeftTupleSink().getId() );
                    writeLeftTuple( childLeftTuple,

View Full Code Here

            int factId = inCtx.readInt();


            RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
            RightTupleKey key = new RightTupleKey( factId,
                                                   sink );
            RightTuple rightTuple = inCtx.rightTuples.get( key );


            //FIXME: stwCtx.expiringTuple = rightTuple;
        }


        if (inCtx.readBoolean()) {
            int size = inCtx.readInt();
            for (int i = 0; i < size; i++) {
                int sinkId = inCtx.readInt();
                int factId = inCtx.readInt();


                RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
                RightTupleKey key = new RightTupleKey( factId,
                                                       sink );
                RightTuple rightTuple = inCtx.rightTuples.get( key );


                //FIXME: stwCtx.queue.add( rightTuple );
            }
        }
    }

View Full Code Here

                int sinkId = inCtx.readInt();


                RightTupleSink sink = (RightTupleSink) inCtx.sinks.get( sinkId );
                RightTupleKey key = new RightTupleKey( factId,
                                                       sink );
                RightTuple rightTuple = inCtx.rightTuples.get( key );


                //FIXME: slwCtx.rightTuples[i] = rightTuple;
            }


        }

View Full Code Here

        ObjectInputStream stream = context.stream;


        int sinkId = stream.readInt();
        RightTupleSink sink = ( sinkId >= 0 ) ? (RightTupleSink) context.sinks.get( sinkId ) : null;


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

View Full Code Here

                    int childSinkId = stream.readInt();
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( childSinkId );
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           sink );
                    RightTuple rightTuple = context.rightTuples.get( key );
                    LeftTuple childLeftTuple = childSink.createLeftTuple( parentLeftTuple,
                                                                          rightTuple,
                                                                          null,
                                                                          null,
                                                                          childSink,
                                                                          true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                break;


            }
            case NodeTypeEnums.EvalConditionNode: {
                while (stream.readShort() == PersisterEnums.LEFT_TUPLE) {
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                    LeftTuple childLeftTuple = childSink.createLeftTuple( 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) {
                    addToLeftMemory( parentLeftTuple,
                                     memory );


                    while (stream.readShort() == PersisterEnums.LEFT_TUPLE) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        LeftTuple childLeftTuple = childSink.createLeftTuple( 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) {
                    addToLeftMemory( parentLeftTuple,
                                     memory );
                } 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 = childSink.createLeftTuple( 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();
                parentLeftTuple.setObject( accctx );


                // 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
                            sink.createLeftTuple( parentLeftTuple,
                                                  rightTuple,
                                                  null,
                                                  null,
                                                  sink,
                                                  true );
                            break;
                        }
                        case PersisterEnums.LEFT_TUPLE: {
                            int sinkId = stream.readInt();
                            LeftTupleSink childSink = (LeftTupleSink) sinks.get( sinkId );
                            LeftTuple childLeftTuple = new LeftTupleImpl( 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;
            }
            case NodeTypeEnums.FromNode: {
                //              context.out.println( "FromNode" );
                // FNs generate new fact handles on-demand to wrap objects and need special procedures when serializing to persistent storage
                FromMemory memory = (FromMemory) context.wm.getNodeMemory( (NodeMemory) sink );


                memory.betaMemory.getLeftTupleMemory().add( parentLeftTuple );
                Map<Object, RightTuple> matches = new LinkedHashMap<Object, RightTuple>();
                parentLeftTuple.setObject( matches );


                while (stream.readShort() == PersisterEnums.FACT_HANDLE) {
                    // we de-serialize the generated fact handle ID
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    readRightTuples( handle,
                                     context );
                    matches.put( handle.getObject(),
                                 handle.getFirstRightTuple() );
                }
                while (stream.readShort() == PersisterEnums.RIGHT_TUPLE) {
                    LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                    int factHandleId = stream.readInt();
                    RightTupleKey key = new RightTupleKey( factHandleId,
                                                           null ); // created tuples in from node always use null sink
                    RightTuple rightTuple = context.rightTuples.get( key );
                    LeftTuple childLeftTuple = new LeftTupleImpl( parentLeftTuple,
                                                                  rightTuple,
                                                                  childSink,
                                                                  true );
                    readLeftTuple( childLeftTuple,
                                   context );
                }
                //                context.out.println( "FromNode   ---   END" );
                break;
            }
            case NodeTypeEnums.UnificationNode: {
                boolean isOpen = context.readBoolean();


                if (isOpen) {
                    QueryElementNode node = (QueryElementNode) sink;
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    node.createDroolsQuery( parentLeftTuple,
                                            handle,
                                            context.wm );
                    readLeftTuples( context );
                } else {
                    while (stream.readShort() == PersisterEnums.LEFT_TUPLE) {
                        LeftTupleSink childSink = (LeftTupleSink) sinks.get( stream.readInt() );
                        // we de-serialize the generated fact handle ID
                        InternalFactHandle handle = readFactHandle( context );
                        context.handles.put( handle.getId(),
                                             handle );
                        RightTuple rightTuple = new RightTuple( handle );
                        // @TODO check if open query
                        LeftTuple childLeftTuple = new LeftTupleImpl( parentLeftTuple,
                                                                      rightTuple,
                                                                      childSink,
                                                                      true );
                        readLeftTuple( childLeftTuple,
                                       context );
                    }
                }
                break;
            }
            case NodeTypeEnums.RuleTerminalNode: {
                int pos = context.terminalTupleMap.size();
                context.terminalTupleMap.put( pos,
                                              parentLeftTuple );
                break;
            }
            case NodeTypeEnums.QueryTerminalNode: {
                boolean unificationNode = context.readBoolean();
                if (unificationNode) {
                    // we de-serialize the generated fact handle ID
                    InternalFactHandle handle = readFactHandle( context );
                    context.handles.put( handle.getId(),
                                         handle );
                    RightTuple rightTuple = new RightTuple( handle );
                    parentLeftTuple.setObject( rightTuple );


                    LeftTuple entry = parentLeftTuple;


                    // find the DroolsQuery object

View Full Code Here

                    .setTuple( PersisterHelper.createTuple( leftTuple ) )
                    .setHandle( _handle );
            
            LeftTuple childLeftTuple = leftTuple.getFirstChild();
            while ( childLeftTuple != null ) {
                RightTuple rightParent = childLeftTuple.getRightParent();
                _context.addResult( ProtobufMessages.FactHandle.newBuilder()
                    .setId( rightParent.getFactHandle().getId() )
                    .setRecency( rightParent.getFactHandle().getRecency() )
                    .build() );
                while ( childLeftTuple != null && childLeftTuple.getRightParent() == rightParent ) {
                    // skip to the next child that has a different right parent
                    childLeftTuple = childLeftTuple.getLeftParentNext();
                }

View Full Code Here

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org.drools.core.util.index.RightTupleIndexRangeRBTree$RightTupleBoundedFastIterator

org.drools.core.util.index.RightTupleIndexRBTree

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