Examples of org.drools.core.util.FastIterator$IteratorAdapter

• org.drools.core.util.FastIterator

    public int size() {
        return size;
    }

    public Entry[] toArray() {
        FastIterator it = tree.fastIterator();
        if (it == null) {
            return new Entry[0];
        }

        List<Comparable> toBeRemoved = new ArrayList<Comparable>();
        List<Comparable> nestedToBeRemoved = new ArrayList<Comparable>();
        List<LeftTuple> result = new ArrayList<LeftTuple>();

        RBTree.Node<Comparable<Comparable>, RBTree<Comparable<Comparable>, LeftTupleList>> node = null;
        RBTree.Node<Comparable<Comparable>, LeftTupleList> nestedNode = null;

        while ( (node = (RBTree.Node<Comparable<Comparable>, RBTree<Comparable<Comparable>, LeftTupleList>>) it.next( node )) != null ) {
            nestedToBeRemoved.clear();
            RBTree<Comparable<Comparable>, LeftTupleList> nestedTree = node.value;
            FastIterator nestedIt = nestedTree.fastIterator();

            while ( (nestedNode = (RBTree.Node<Comparable<Comparable>, LeftTupleList>) nestedIt.next( nestedNode )) != null ) {
                LeftTupleList list = nestedNode.value;
                int listSize = list.size();
                if (listSize == 0) {
                    nestedToBeRemoved.add(nestedNode.key);
                } else {

    public FastIterator fullFastIterator() {
        return new LeftTupleFastIterator();
    }

    public FastIterator fullFastIterator(LeftTuple leftTuple) {
        FastIterator fastIterator = fullFastIterator();
        fastIterator.next(getNext(leftTuple));
        return fastIterator;
    }

            LeftTupleMemory ltm = bm.getLeftTupleMemory();
            RightTupleMemory rtm = bm.getRightTupleMemory();
            ContextEntry[] contextEntry = bm.getContext();
            BetaConstraints constraints = notNode.getRawConstraints();
            FastIterator it = notNode.getRightIterator( rtm );

            for ( LeftTuple leftTuple = srcLeftTuples.getInsertFirst(); leftTuple != null; ) {
                LeftTuple next = leftTuple.getStagedNext();
                PropagationContext context = leftTuple.getPropagationContext();

                boolean useLeftMemory = true;
                if ( !tupleMemoryEnabled ) {
                    // This is a hack, to not add closed DroolsQuery objects
                    Object object = leftTuple.get( 0 ).getObject();
                    if ( !(object instanceof DroolsQuery) || !((DroolsQuery) object).isOpen() ) {
                        useLeftMemory = false;
                    }
                }

                constraints.updateFromTuple( contextEntry,
                                             wm,
                                             leftTuple );

                for ( RightTuple rightTuple = notNode.getFirstRightTuple( leftTuple, rtm, context, it ); rightTuple != null; rightTuple = (RightTuple) it.next( rightTuple ) ) {
                    if ( constraints.isAllowedCachedLeft( contextEntry,
                                                          rightTuple.getFactHandle() ) ) {
                        leftTuple.setBlocker( rightTuple );

                        if ( useLeftMemory ) {

    public int size() {
        return size;
    }

    public Entry[] toArray() {
        FastIterator it = tree.fastIterator();
        if (it == null) {
            return new Entry[0];
        }

        List<Comparable> toBeRemoved = new ArrayList<Comparable>();
        List<LeftTuple> result = new ArrayList<LeftTuple>();

        LeftTupleList list = null;
        while ( (list = (LeftTupleList) it.next( list )) != null ) {
            LeftTuple entry = list.getFirst();
            while (entry != null) {
                result.add(entry);
                entry = (LeftTuple) entry.getNext();
            }

            LeftTupleMemory ltm = bm.getLeftTupleMemory();
            RightTupleMemory rtm = bm.getRightTupleMemory();
            ContextEntry[] contextEntry = bm.getContext();
            BetaConstraints constraints = notNode.getRawConstraints();
            FastIterator it = notNode.getLeftIterator( ltm );

            StagedLeftTuples stagedLeftTuples = null;
            if ( !bm.getSegmentMemory().isEmpty() ) {
                stagedLeftTuples = bm.getSegmentMemory().getFirst().getStagedLeftTuples();
            }

            if ( bm.getSegmentMemory().isSegmentLinked() && !notNode.isRightInputIsRiaNode() && notNode.isEmptyBetaConstraints() ) {
                    // this must be processed here, rather than initial insert, as we need to link the blocker
                    // @TODO this could be more efficient, as it means the entire StagedLeftTuples for all previous nodes where evaluated, needlessly.
                    bm.unlinkNode( wm );
            }

            for ( RightTuple rightTuple = srcRightTuples.getInsertFirst(); rightTuple != null; ) {
                RightTuple next = rightTuple.getStagedNext();
                rtm.add( rightTuple );
                PropagationContext context = rightTuple.getPropagationContext();

                constraints.updateFromFactHandle( contextEntry,
                                                  wm,
                                                  rightTuple.getFactHandle() );
                for ( LeftTuple leftTuple = notNode.getFirstLeftTuple( rightTuple, ltm, context, it ); leftTuple != null; ) {
                    // preserve next now, in case we remove this leftTuple
                    LeftTuple temp = (LeftTuple) it.next( leftTuple );

                    // we know that only unblocked LeftTuples are  still in the memory
                    if ( constraints.isAllowedCachedRight( contextEntry,
                                                           leftTuple ) ) {
                        leftTuple.setBlocker( rightTuple );

    public FastIterator fullFastIterator() {
        return new LeftTupleFastIterator();
    }

    public FastIterator fullFastIterator(LeftTuple leftTuple) {
        FastIterator fastIterator = fullFastIterator();
        Comparable key = getIndexedValue(leftTuple);
        fastIterator.next(getNext(key, true));
        return fastIterator;
    }

            LeftTupleMemory ltm = bm.getLeftTupleMemory();
            RightTupleMemory rtm = bm.getRightTupleMemory();
            ContextEntry[] contextEntry = bm.getContext();
            BetaConstraints constraints = notNode.getRawConstraints();
            FastIterator rightIt = notNode.getRightIterator( rtm );

            for ( LeftTuple leftTuple = srcLeftTuples.getUpdateFirst(); leftTuple != null; ) {
                LeftTuple next = leftTuple.getStagedNext();
                PropagationContext context = leftTuple.getPropagationContext();
                RightTuple firstRightTuple = notNode.getFirstRightTuple( leftTuple, rtm, context, rightIt );

                // If in memory, remove it, because we'll need to add it anyway if it's not blocked, to ensure iteration order
                RightTuple blocker = leftTuple.getBlocker();
                if ( blocker == null ) {
                    ltm.remove( leftTuple );
                } else {
                    // check if we changed bucket
                    if ( rtm.isIndexed() && !rightIt.isFullIterator() ) {
                        // if newRightTuple is null, we assume there was a bucket change and that bucket is empty
                        if ( firstRightTuple == null || firstRightTuple.getMemory() != blocker.getMemory() ) {
                            removeBlocker( leftTuple, blocker );
                            blocker = null;
                        }
                    }
                }

                constraints.updateFromTuple( contextEntry,
                                             wm,
                                             leftTuple );

                // if we where not blocked before (or changed buckets), or the previous blocker no longer blocks, then find the next blocker
                if ( blocker == null || !constraints.isAllowedCachedLeft( contextEntry,
                                                                          blocker.getFactHandle() ) ) {
                    if ( blocker != null ) {
                        // remove previous blocker if it exists, as we know it doesn't block any more
                        removeBlocker( leftTuple, blocker );
                    }

                    // find first blocker, because it's a modify, we need to start from the beginning again
                    for ( RightTuple newBlocker = firstRightTuple; newBlocker != null; newBlocker = (RightTuple) rightIt.next( newBlocker ) ) {
                        if ( constraints.isAllowedCachedLeft( contextEntry,
                                                              newBlocker.getFactHandle() ) ) {
                            leftTuple.setBlocker( newBlocker );
                            newBlocker.addBlocked( leftTuple );

            LeftTupleMemory ltm = bm.getLeftTupleMemory();
            RightTupleMemory rtm = bm.getRightTupleMemory();
            ContextEntry[] contextEntry = bm.getContext();
            BetaConstraints constraints = notNode.getRawConstraints();

            FastIterator leftIt = notNode.getLeftIterator( ltm );
            FastIterator rightIt = notNode.getRightIterator( rtm );

            for ( RightTuple rightTuple = srcRightTuples.getUpdateFirst(); rightTuple != null; ) {
                RightTuple next = rightTuple.getStagedNext();
                if ( bm.getLeftTupleMemory() == null || (bm.getLeftTupleMemory().size() == 0 && rightTuple.getBlocked() == null) ) {
                    // do nothing here, as we know there are no left tuples

                    //normally do this at the end, but as we are exiting early, make sure the buckets are still correct.
                    bm.getRightTupleMemory().removeAdd( rightTuple );
                    rightTuple.clearStaged();
                    rightTuple = next;
                    continue;
                }

                PropagationContext context = rightTuple.getPropagationContext();

                constraints.updateFromFactHandle( contextEntry,
                                                  wm,
                                                  rightTuple.getFactHandle() );

                LeftTuple firstLeftTuple = notNode.getFirstLeftTuple( rightTuple, ltm, context, leftIt );

                LeftTuple firstBlocked = rightTuple.getBlocked();
                // we now have  reference to the first Blocked, so null it in the rightTuple itself, so we can rebuild
                rightTuple.nullBlocked();

                // first process non-blocked tuples, as we know only those ones are in the left memory.
                for ( LeftTuple leftTuple = firstLeftTuple; leftTuple != null; ) {
                    // preserve next now, in case we remove this leftTuple
                    LeftTuple temp = (LeftTuple) leftIt.next( leftTuple );

                    // we know that only unblocked LeftTuples are  still in the memory
                    if ( constraints.isAllowedCachedRight( contextEntry,
                                                           leftTuple ) ) {
                        leftTuple.setBlocker( rightTuple );
                        rightTuple.addBlocked( leftTuple );

                        // this is now blocked so remove from memory
                        ltm.remove( leftTuple );

                        // subclasses like ForallNotNode might override this propagation
                        if ( leftTuple.getFirstChild() != null ) {
                            deleteRightChild( leftTuple.getFirstChild(), trgLeftTuples, stagedLeftTuples );
                        }
                    }

                    leftTuple = temp;
                }

                if ( firstBlocked != null ) {
                    // now process existing blocks, we only process existing and not new from above loop
                    boolean useComparisonIndex = rtm.getIndexType().isComparison();
                    RightTuple rootBlocker = useComparisonIndex ? null : (RightTuple) rightIt.next( rightTuple );

                    RightTupleList list = rightTuple.getMemory();

                    // we must do this after we have the next in memory
                    // We add to the end to give an opportunity to re-match if in same bucket
                    rtm.removeAdd( rightTuple );

                    if ( !useComparisonIndex && rootBlocker == null && list == rightTuple.getMemory() ) {
                        // we are at the end of the list, so set to self, to give self a chance to rematch
                        rootBlocker = rightTuple;
                    }

                    // iterate all the existing previous blocked LeftTuples
                    for ( LeftTuple leftTuple = firstBlocked; leftTuple != null; ) {
                        LeftTuple temp = leftTuple.getBlockedNext();

                        leftTuple.clearBlocker();

                        constraints.updateFromTuple( contextEntry,
                                                     wm,
                                                     leftTuple );

                        if ( useComparisonIndex ) {
                            rootBlocker = notNode.getFirstRightTuple( leftTuple, rtm, context, rightIt );
                        }

                        // we know that older tuples have been checked so continue next
                        for ( RightTuple newBlocker = rootBlocker; newBlocker != null; newBlocker = (RightTuple) rightIt.next( newBlocker ) ) {
                            if ( constraints.isAllowedCachedLeft( contextEntry,
                                                                  newBlocker.getFactHandle() ) ) {
                                leftTuple.setBlocker( newBlocker );
                                newBlocker.addBlocked( leftTuple );

            LeftTupleMemory ltm = bm.getLeftTupleMemory();
            RightTupleMemory rtm = bm.getRightTupleMemory();
            ContextEntry[] contextEntry = bm.getContext();
            BetaConstraints constraints = notNode.getRawConstraints();
            FastIterator it = notNode.getRightIterator( rtm );

            for ( RightTuple rightTuple = srcRightTuples.getDeleteFirst(); rightTuple != null; ) {
                RightTuple next = rightTuple.getStagedNext();
                // assign now, so we can remove from memory before doing any possible propagations
                final RightTuple rootBlocker = (RightTuple) it.next( rightTuple );

                rtm.remove( rightTuple );

                if ( rightTuple.getBlocked() != null ) {
                    PropagationContext context = rightTuple.getPropagationContext();

                    for ( LeftTuple leftTuple = rightTuple.getBlocked(); leftTuple != null; ) {
                        LeftTuple temp = leftTuple.getBlockedNext();

                        leftTuple.clearBlocker();

                        constraints.updateFromTuple( contextEntry,
                                                     wm,
                                                     leftTuple );

                        // we know that older tuples have been checked so continue next
                        for ( RightTuple newBlocker = rootBlocker; newBlocker != null; newBlocker = (RightTuple) it.next( newBlocker ) ) {
                            if ( constraints.isAllowedCachedLeft( contextEntry,
                                                                  newBlocker.getFactHandle() ) ) {
                                leftTuple.setBlocker( newBlocker );
                                newBlocker.addBlocked( leftTuple );

        this.constraints.updateFromTuple( memory.betaMemory.getContext(),
                                          workingMemory,
                                          leftTuple );
        RightTupleMemory rightMemory = memory.betaMemory.getRightTupleMemory();

        FastIterator rightIt = getRightIterator( rightMemory );

        for ( RightTuple rightTuple = getFirstRightTuple( leftTuple,
                                                          rightMemory,
                                                          context,
                                                          rightIt ); rightTuple != null; rightTuple = (RightTuple) rightIt.next( rightTuple ) ) {
            InternalFactHandle handle = rightTuple.getFactHandle();
            if ( this.constraints.isAllowedCachedLeft( memory.betaMemory.getContext(),
                                                       handle ) ) {

                // add a match