/* * Returns the process:components value for a Control Construct. If it is * null, it will be set to list:nil, and this will be returned. */ private OWLIndividual getComponents(OWLIndividual inst) { OWLIndividual components = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:components", okb); if (components == null) { components = okb.getOWLIndividual("list:nil"); OWLUtils.setNamedSlotValue(inst, "process:components", components, okb); } return components; }
/** Creates the tree for a composite process instance, and returns the root node of this tree. */ private OWLSTreeNode getCompositionTreeNodes(OWLIndividual inst) { OWLIndividual i = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:composedOf", okb); if (i != null) { OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(i, okb); OWLSTreeNode node = createTree(newni, inst, new HashSet()); // PerformTreeMapper mapper = PerformTreeMapper.getInstance(); // mapper.printAll(); return node; } else return null; }
/** * Creates the tree from a ControlConstruct. It returns the root node created even though the * caller already has it, since the method is recursive, and this is needed internally. This * method is only called when the user switches to a different composite process, to recreate the * whole tree. * * <p>Note: This method is not used to create RootNode instances - those are created directly * (i.e. using new RootNode()). * * <p>We also generate Vectors of unconditional predecessor Performs, and associate those with the * Perform constructs using the PerformTreeMapper class. See that class for more info. */ private OWLSTreeNode createTree(OWLSTreeNodeInfo ni, OWLIndividual cp, Set preds) { OWLIndividual inst = ni.getInstance(); if (inst == null) { System.out.println("ERROR! OWLSTreeMapper.createTree(): inst is null!"); return null; } OWLSTreeNode newnode = OWLSTreeNodeFactory.createTreeNode(ni); // System.out.println("Building tree for " + newnode.toString()); if (newnode instanceof ProduceNode) { // Store the mapping from produce to composite process in the // PerformTreeMapper. This will allow us to generate the Produce's // parents, which we need for the ProducedBindingWidget. OWLIndividual produce = newnode.getInstance(); PerformTreeMapper mapper = PerformTreeMapper.getInstance(); mapper.put(produce, cp); mapper.addPredecessors(produce, preds); } else if (newnode instanceof PerformNode) { // Store the mapping from perform to composite process in the // PerformTreeMapper. This will allow us to generate the Performs's // parents, which we need for the HasDataFromWidget. OWLIndividual perform = newnode.getInstance(); PerformTreeMapper mapper = PerformTreeMapper.getInstance(); mapper.put(perform, cp); mapper.addPredecessors(perform, preds); preds.add(perform); // mapper.printAll(); } else if (newnode instanceof SequenceNode) { OWLIndividual components = getComponents(inst); // OWLSList clist = new OWLSList(components, OWLSList.CC_LIST, okb); OWLSList clist = new OWLSList(inst, okb); while (clist.hasNext()) { OWLIndividual i = (OWLIndividual) clist.next(); if (i == null) System.out.println("instance in list is null!"); OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(i, okb); newnode.add(createTree(newni, cp, preds)); } } else if (newnode instanceof SplitNode || newnode instanceof ChoiceNode) { OWLIndividual components = getComponents(inst); // OWLSList clist = new OWLSList(components, OWLSList.CC_BAG, okb); OWLSList clist = new OWLSList(inst, okb); while (clist.hasNext()) { HashSet mypreds = new HashSet(preds); OWLIndividual i = (OWLIndividual) clist.next(); OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(i, okb); newnode.add(createTree(newni, cp, mypreds)); } } else if (newnode instanceof SplitJoinNode || newnode instanceof AnyOrderNode) { OWLIndividual components = getComponents(inst); // OWLSList clist = new OWLSList(components, OWLSList.CC_BAG, okb); OWLSList clist = new OWLSList(inst, okb); HashSet predsIn = new HashSet(preds); while (clist.hasNext()) { OWLIndividual i = (OWLIndividual) clist.next(); OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(i, okb); HashSet mypreds = new HashSet(predsIn); newnode.add(createTree(newni, cp, mypreds)); preds.addAll(mypreds); } } // We put the then-node first and the else-node second as a convention // This may need to be handled better (marking the nodes somehow). else if (newnode instanceof IfThenElseNode) { OWLIndividual thenc = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:then", okb); OWLSTreeNodeInfo thenni = new OWLSTreeNodeInfo(thenc, okb); HashSet mypreds = new HashSet(preds); newnode.add(createTree(thenni, cp, mypreds)); OWLIndividual elsec = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:else", okb); OWLSTreeNodeInfo elseni = new OWLSTreeNodeInfo(elsec, okb); if (elsec != null) { mypreds = new HashSet(preds); newnode.add(createTree(elseni, cp, mypreds)); } } else if (newnode instanceof RepeatWhileNode) { OWLIndividual whileProcess = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:whileProcess", okb); OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(whileProcess, okb); HashSet mypreds = new HashSet(preds); newnode.add(createTree(newni, cp, mypreds)); } else if (newnode instanceof RepeatUntilNode) { OWLIndividual untilProcess = (OWLIndividual) OWLUtils.getNamedSlotValue(inst, "process:untilProcess", okb); OWLSTreeNodeInfo newni = new OWLSTreeNodeInfo(untilProcess, okb); newnode.add(createTree(newni, cp, preds)); } else { System.out.println("Unsupported control construct"); return null; } return newnode; }