@SuppressWarnings("unchecked") Set<ReteSimpleMatch> getStorageFor(RuleToHostMap anchorMap) { Set<ReteSimpleMatch> result = null; HashMap<HostElement, Object> leaf = this.root; for (int i = 0; i < this.rootSearchOrder.length - 1; i++) { HostElement ei; if (this.rootSearchOrder[i] instanceof RuleNode) { ei = anchorMap.nodeMap().get(this.rootSearchOrder[i]); } else { ei = anchorMap.edgeMap().get(this.rootSearchOrder[i]); } HashMap<HostElement, Object> treeNode = (HashMap<HostElement, Object>) leaf.get(ei); if (treeNode == null) { treeNode = new HashMap<HostElement, Object>(); leaf.put(ei, treeNode); } leaf = treeNode; } HostElement ei = (this.rootSearchOrder[this.rootSearchOrder.length - 1] instanceof RuleNode) ? anchorMap.nodeMap().get(this.rootSearchOrder[this.rootSearchOrder.length - 1]) : anchorMap.edgeMap().get(this.rootSearchOrder[this.rootSearchOrder.length - 1]); Object o = leaf.get(ei); if (o == null) { o = new TreeHashSet<AbstractReteMatch>(); leaf.put(ei, o); } result = (Set<ReteSimpleMatch>) o; this.collectionsToAnchorsMap.put(result, anchorMap); return result; }
/** * Extracts the morphism from rule nodes to input graph nodes corresponding to the transition's * input parameters. * * @return if {@code null}, the binding cannot be constructed and so the rule cannot match */ private RuleToHostMap extractBinding(Step step) { RuleToHostMap result = this.state.getGraph().getFactory().createRuleToHostMap(); Object[] sourceValues = this.state.getActualValues(); for (Assignment assign : step.getEnterAssignments()) { sourceValues = assign.compute(sourceValues); } for (Pair<Var, Binding> entry : step.getRuleSwitch().getCallBinding()) { Binding bind = entry.two(); HostNode value; if (bind == null) { // this corresponds to an output parameter of the call continue; } switch (bind.getSource()) { case CONST: value = bind.getValue().getNode(); break; case VAR: value = Valuator.get(sourceValues, bind); break; default: assert false; value = null; } RuleNode ruleNode = entry.one().getRuleNode(); if (isCompatible(ruleNode, value)) { result.putNode(ruleNode, value); } else { result = null; break; } } return result; }
@SuppressWarnings("unchecked") Set<ReteSimpleMatch> getStorageFor(ReteSimpleMatch m, boolean create) { Set<ReteSimpleMatch> result = null; HashMap<HostElement, Object> leaf = this.root; RuleToHostMap anchorMap = getFactory().createRuleToHostMap(); int i = 0; for (; i < this.rootSearchOrder.length - 1; i++) { HostElement ei; if (this.rootSearchOrder[i] instanceof RuleNode) { ei = m.getNode((RuleNode) this.rootSearchOrder[i]); anchorMap.putNode((RuleNode) this.rootSearchOrder[i], (HostNode) ei); } else { ei = m.getEdge((RuleEdge) this.rootSearchOrder[i]); anchorMap.putEdge((RuleEdge) this.rootSearchOrder[i], (HostEdge) ei); } HashMap<HostElement, Object> treeNode = (HashMap<HostElement, Object>) leaf.get(ei); if (treeNode == null) { if (create) { treeNode = new HashMap<HostElement, Object>(); leaf.put(ei, treeNode); } else { leaf = null; break; } } leaf = treeNode; } if (leaf != null) { HostElement ei; if (this.rootSearchOrder[this.rootSearchOrder.length - 1] instanceof RuleNode) { ei = m.getNode((RuleNode) this.rootSearchOrder[this.rootSearchOrder.length - 1]); anchorMap.putNode((RuleNode) this.rootSearchOrder[i], (HostNode) ei); } else { ei = m.getEdge((RuleEdge) this.rootSearchOrder[this.rootSearchOrder.length - 1]); anchorMap.putEdge((RuleEdge) this.rootSearchOrder[i], (HostEdge) ei); } Object o = leaf.get(ei); if ((o == null) && create) { o = new TreeHashSet<AbstractReteMatch>(); leaf.put(ei, o); } result = (Set<ReteSimpleMatch>) o; } this.collectionsToAnchorsMap.put(result, anchorMap); return result; }