public void outerEval( LeftInputAdapterNode liaNode, PathMemory pmem, NetworkNode node, long bit, Memory nodeMem, SegmentMemory[] smems, int smemIndex, TupleSets<LeftTuple> trgTuples, InternalWorkingMemory wm, LinkedList<StackEntry> stack, boolean processRian, RuleExecutor executor) { innerEval( liaNode, pmem, node, bit, nodeMem, smems, smemIndex, trgTuples, wm, stack, processRian, executor); while (true) { // eval if (!stack.isEmpty()) { StackEntry entry = stack.removeLast(); evalStackEntry(entry, stack, executor, wm); } else { return; // stack is empty return; } } }
public void eval1( LeftInputAdapterNode liaNode, PathMemory rmem, NetworkNode node, Memory nodeMem, SegmentMemory[] smems, int smemIndex, LeftTupleSets trgTuples, InternalWorkingMemory wm, LinkedList<StackEntry> stack, Set<String> visitedRules, boolean processRian, RuleExecutor executor) { while (true) { eval2( liaNode, rmem, node, nodeMem, smems, smemIndex, trgTuples, wm, stack, visitedRules, processRian, executor); // eval if (!stack.isEmpty()) { StackEntry entry = stack.removeLast(); node = entry.getNode(); nodeMem = entry.getNodeMem(); trgTuples = entry.getTrgTuples(); if (node.getType() == NodeTypeEnums.QueryElementNode) { // copy across the results, if any from the query node memory trgTuples.addAll(((QueryElementNodeMemory) nodeMem).getResultLeftTuples()); } LeftTupleSinkNode sink = entry.getSink(); rmem = entry.getRmem(); smems = entry.getSmems(); smemIndex = entry.getSmemIndex(); visitedRules = entry.getVisitedRules(); if (NodeTypeEnums.isBetaNode(node)) { // queued beta nodes do not want their ria node evaluated, otherwise there is recursion processRian = false; } else { processRian = true; } if (entry.isResumeFromNextNode()) { SegmentMemory smem = smems[smemIndex]; if (node != smem.getTipNode()) { // get next node and node memory in the segment LeftTupleSink nextSink = sink.getNextLeftTupleSinkNode(); if (nextSink == null) { node = sink; } else { // there is a nested subnetwork, take out path node = nextSink; } nodeMem = nodeMem.getNext(); } else { // Reached end of segment, start on new segment. SegmentPropagator.propagate(smem, trgTuples, wm); smem = smems[++smemIndex]; trgTuples = smem.getStagedLeftTuples(); node = (LeftTupleSink) smem.getRootNode(); nodeMem = smem.getNodeMemories().getFirst(); } } if (log.isTraceEnabled()) { int offset = getOffset(node); log.trace("{} Resume {} {}", indent(offset), node.toString(), trgTuples.toStringSizes()); } } else { return; // stack is empty return; } } }