/**
* Converts the prefuse graph data into the jung graph data.
*
* @param vg the prefuse visual graph
* @return graph the jung graph data
*/
public static edu.uci.ics.jung.graph.Graph<String, String> convertJungGraph(VisualGraph vg) {
edu.uci.ics.jung.graph.Graph<String, String> graph =
new UndirectedSparseGraph<String, String>();
if (vg != null) {
Iterator<?> nodeIter = vg.nodes();
while (nodeIter.hasNext()) {
VisualItem node = (VisualItem) nodeIter.next();
String nodeId = node.getString("id");
// System.out.println("node id == " + nodeId);
graph.addVertex(nodeId);
}
Iterator<?> edgeIter = vg.edges();
while (edgeIter.hasNext()) {
VisualItem edge = (VisualItem) edgeIter.next();
String node1 = edge.getString("node1");
String node2 = edge.getString("node2");
String edgeId = node1 + node2;
// System.out.println("edge id == " + edgeId);
graph.addEdge(edgeId, node1, node2, EdgeType.UNDIRECTED);
}
}
return graph;
}
@Before
public void setUp() {
m_vis = new Visualization();
m_t = TableTest.getTestCaseTable();
m_g = GraphTest.getTestCaseGraph();
m_t0 = m_t.getTuple(0);
m_n0 = m_g.getNode(0);
VisualTable vt = (VisualTable) m_vis.add("t", m_t);
VisualGraph vg = (VisualGraph) m_vis.add("g", m_g);
m_vt0 = vt.getItem(0);
m_vn0 = (NodeItem) vg.getNode(0);
TupleSet ts = m_vis.getFocusGroup(Visualization.FOCUS_ITEMS);
ts.addTuple(m_vt0);
ts.addTuple(m_vn0);
}
/**
* Finds a node by node id.
*
* @param vg
* @param nodeId
* @return VisualItem the node
*/
public static VisualItem findNode(VisualGraph vg, String nodeId) {
if (vg != null) {
Iterator<?> nodeIter = vg.nodes();
while (nodeIter.hasNext()) {
VisualItem node = (VisualItem) nodeIter.next();
if (node.getString("id").equals(nodeId)) {
return node;
}
}
}
return null;
}
private void initDataGroups() {
// create sample graph
// 9 nodes broken up into 3 interconnected cliques
Graph g = new Graph();
for (int i = 0; i < 3; ++i) {
Node n1 = g.addNode();
Node n2 = g.addNode();
Node n3 = g.addNode();
g.addEdge(n1, n2);
g.addEdge(n1, n3);
g.addEdge(n2, n3);
}
g.addEdge(0, 3);
g.addEdge(3, 6);
g.addEdge(6, 0);
// add visual data groups
VisualGraph vg = m_vis.addGraph(GRAPH, g);
m_vis.setInteractive(EDGES, null, false);
m_vis.setValue(NODES, null, VisualItem.SHAPE, new Integer(Constants.SHAPE_ELLIPSE));
at = m_vis.addAggregates(AGGR);
at.addColumn(VisualItem.POLYGON, float[].class);
at.addColumn("id", int.class);
// add nodes to aggregates
// create an aggregate for each 3-clique of nodes
Iterator nodes = vg.nodes();
for (int i = 0; i < 3; ++i) {
AggregateItem aitem = (AggregateItem) at.addItem();
aitem.setInt("id", i);
for (int j = 0; j < 3; ++j) {
aitem.addItem((VisualItem) nodes.next());
}
}
}
public static JComponent demo(Graph g, String label) {
// create a new, empty visualization for our data
final Visualization vis = new Visualization();
VisualGraph vg = vis.addGraph(graph, g);
vis.setValue(edges, null, VisualItem.INTERACTIVE, Boolean.FALSE);
int[] palette =
new int[] {
ColorLib.rgb(77, 175, 74),
ColorLib.rgb(55, 126, 184),
ColorLib.rgb(228, 26, 28),
ColorLib.rgb(152, 78, 163),
ColorLib.rgb(255, 127, 0)
};
int[] shape_palette =
new int[] {Constants.SHAPE_ELLIPSE, Constants.SHAPE_RECTANGLE, Constants.SHAPE_TRIANGLE_UP};
TupleSet focusGroup = vis.getGroup(Visualization.FOCUS_ITEMS);
focusGroup.addTupleSetListener(
new TupleSetListener() {
public void tupleSetChanged(TupleSet ts, Tuple[] add, Tuple[] rem) {
for (int i = 0; i < rem.length; ++i) ((VisualItem) rem[i]).setFixed(false);
for (int i = 0; i < add.length; ++i) {
((VisualItem) add[i]).setFixed(false);
((VisualItem) add[i]).setFixed(true);
}
vis.run("draw");
}
});
// set up the renderers
/* ShapeRenderer s = new ShapeRenderer();
s.rectangle(0, 0, 30, 30);
vis.setRendererFactory(new DefaultRendererFactory(s));*/
MyRenderer tr = new MyRenderer(label);
// MyRenderer tr = new MyRenderer(label);
DefaultRendererFactory d = new DefaultRendererFactory(tr);
EdgeRenderer MyEdgeRenderer = new EdgeRenderer();
d.add(new InGroupPredicate(edges), MyEdgeRenderer);
vis.setRendererFactory(d);
// -- set up the actions ----------------------------------------------
int maxhops = 1024, hops = 1024;
final GraphDistanceFilter filter = new GraphDistanceFilter(graph, hops);
ActionList draw = new ActionList();
draw.add(filter);
// draw.add(new ColorAction(nodes, VisualItem.FILLCOLOR, ColorLib.rgb(180,180,255)));
draw.add(new ColorAction(nodes, VisualItem.STROKECOLOR, 0));
draw.add(new ColorAction(nodes, VisualItem.TEXTCOLOR, ColorLib.rgb(0, 0, 0)));
draw.add(new ColorAction(edges, VisualItem.FILLCOLOR, ColorLib.gray(100)));
draw.add(new ColorAction(edges, VisualItem.STROKECOLOR, ColorLib.gray(170)));
draw.add(new DataShapeAction(nodes, "type", shape_palette));
DataColorAction fill =
new DataColorAction(
"graph.nodes", "type", Constants.NOMINAL, VisualItem.FILLCOLOR, palette);
// use black for node text
ColorAction text = new ColorAction("graph.nodes", VisualItem.TEXTCOLOR, ColorLib.gray(0));
// use light grey for edges
ColorAction edges = new ColorAction("graph.edges", VisualItem.STROKECOLOR, ColorLib.gray(200));
// create an action list containing all color assignments
ActionList color = new ActionList();
color.add(fill);
color.add(text);
color.add(edges);
// ColorAction fill = new ColorAction(nodes,
// VisualItem.FILLCOLOR, ColorLib.rgb(200,200,255));
fill.add("_fixed", ColorLib.rgb(255, 100, 100));
fill.add("_highlight", ColorLib.rgb(255, 200, 125));
// Instead have to use GridLayout here - how do i create
ForceDirectedLayout fdl = new ForceDirectedLayout(graph);
// GridLayout fdl = new GridLayout(graph);
ForceSimulator fsim = fdl.getForceSimulator();
fsim.getForces()[0].setParameter(0, -5f);
ActionList animate = new ActionList(Activity.INFINITY);
// ActionList animate = new ActionList(vis);
animate.add(fdl);
animate.add(fill);
animate.add(new RepaintAction());
// finally, we register our ActionList with the Visualization.
// we can later execute our Actions by invoking a method on our
// Visualization, using the name we've chosen below.
vis.putAction("draw", draw);
vis.putAction("layout", animate);
vis.runAfter("draw", "layout");
vis.putAction("color", color);
// vis.putAction("layout", layout);
// --------------------------------------------------------------------
// STEP 4: set up a display to show the visualization
Display display = new Display(vis);
display.setSize(2000, 2000);
display.setForeground(Color.GRAY);
display.setBackground(Color.WHITE);
// main display controls
display.addControlListener(new FocusControl(1));
display.addControlListener(new DragControl());
display.addControlListener(new PanControl());
display.addControlListener(new ZoomControl());
display.addControlListener(new WheelZoomControl());
display.addControlListener(new ZoomToFitControl());
display.addControlListener(new NeighborHighlightControl());
display.setForeground(Color.GRAY);
display.setBackground(Color.WHITE);
// --------------------------------------------------------------------
// STEP 5: launching the visualization
// create a panel for editing force values
final JForcePanel fpanel = new JForcePanel(fsim);
final JValueSlider slider = new JValueSlider("Distance", 0, maxhops, hops);
slider.addChangeListener(
new ChangeListener() {
public void stateChanged(ChangeEvent e) {
filter.setDistance(slider.getValue().intValue());
vis.run("draw");
}
});
slider.setBackground(Color.WHITE);
slider.setPreferredSize(new Dimension(300, 30));
slider.setMaximumSize(new Dimension(300, 30));
Box cf = new Box(BoxLayout.Y_AXIS);
cf.add(slider);
cf.setBorder(BorderFactory.createTitledBorder("Connectivity Filter"));
fpanel.add(cf);
fpanel.add(Box.createVerticalGlue());
// create a new JSplitPane to present the interface
JSplitPane split = new JSplitPane();
split.setLeftComponent(display);
split.setRightComponent(fpanel);
split.setOneTouchExpandable(true);
split.setContinuousLayout(false);
split.setDividerLocation(530);
split.setDividerLocation(800);
// position and fix the default focus node
NodeItem focus = (NodeItem) vg.getNode(0);
PrefuseLib.setX(focus, null, 400);
PrefuseLib.setY(focus, null, 250);
focusGroup.setTuple(focus);
// now we run our action list and return
return split;
}
