@Override
public void process() {
if (containers.length > 1) {
throw new RuntimeException("This processor can only handle single containers");
}
ContainerUnloader container = containers[0];
// Workspace
ProjectController pc = Lookup.getDefault().lookup(ProjectController.class);
if (workspace == null) {
workspace = pc.newWorkspace(pc.getCurrentProject());
pc.openWorkspace(workspace);
}
processConfiguration(container, workspace);
if (container.getSource() != null) {
pc.setSource(workspace, container.getSource());
}
process(container, workspace);
// Clean
workspace = null;
graphModel = null;
containers = null;
progressTicket = null;
}
public void process() {
// Workspace
ProjectController pc = Lookup.getDefault().lookup(ProjectController.class);
if (workspace == null) {
workspace = pc.newWorkspace(pc.getCurrentProject());
pc.openWorkspace(workspace);
}
if (container.getSource() != null) {
pc.setSource(workspace, container.getSource());
}
// Architecture
GraphModel graphModel = Lookup.getDefault().lookup(GraphController.class).getModel(workspace);
HierarchicalGraph graph = null;
switch (container.getEdgeDefault()) {
case DIRECTED:
graph = graphModel.getHierarchicalDirectedGraph();
break;
case UNDIRECTED:
graph = graphModel.getHierarchicalUndirectedGraph();
break;
case MIXED:
graph = graphModel.getHierarchicalMixedGraph();
break;
default:
graph = graphModel.getHierarchicalMixedGraph();
break;
}
GraphFactory factory = graphModel.factory();
// Attributes - Creates columns for properties
attributeModel = Lookup.getDefault().lookup(AttributeController.class).getModel(workspace);
attributeModel.mergeModel(container.getAttributeModel());
// Dynamic
if (container.getTimeFormat() != null) {
DynamicController dynamicController = Lookup.getDefault().lookup(DynamicController.class);
if (dynamicController != null) {
dynamicController.setTimeFormat(container.getTimeFormat());
}
}
int nodeCount = 0;
// Create all nodes
for (NodeDraftGetter draftNode : container.getNodes()) {
Node n = factory.newNode(draftNode.isAutoId() ? null : draftNode.getId());
flushToNode(draftNode, n);
draftNode.setNode(n);
nodeCount++;
}
// Push nodes in data structure
for (NodeDraftGetter draftNode : container.getNodes()) {
Node n = draftNode.getNode();
NodeDraftGetter[] parents = draftNode.getParents();
if (parents != null) {
for (int i = 0; i < parents.length; i++) {
Node parent = parents[i].getNode();
graph.addNode(n, parent);
}
} else {
graph.addNode(n);
}
}
// Create all edges and push to data structure
int edgeCount = 0;
for (EdgeDraftGetter edge : container.getEdges()) {
Node source = edge.getSource().getNode();
Node target = edge.getTarget().getNode();
Edge e = null;
switch (container.getEdgeDefault()) {
case DIRECTED:
e =
factory.newEdge(
edge.isAutoId() ? null : edge.getId(), source, target, edge.getWeight(), true);
break;
case UNDIRECTED:
e =
factory.newEdge(
edge.isAutoId() ? null : edge.getId(), source, target, edge.getWeight(), false);
break;
case MIXED:
e =
factory.newEdge(
edge.isAutoId() ? null : edge.getId(),
source,
target,
edge.getWeight(),
edge.getType().equals(EdgeType.UNDIRECTED) ? false : true);
break;
}
flushToEdge(edge, e);
edgeCount++;
graph.addEdge(e);
}
workspace = null;
}