import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.util.ArrayList;
+import java.util.Collections;
import java.util.List;
import org.simantics.db.Resource;
import org.simantics.diagram.ui.DiagramModelHints;
import org.simantics.district.network.ui.adapters.DistrictNetworkEdgeElement;
import org.simantics.district.network.ui.adapters.DistrictNetworkVertexElement;
-import org.simantics.district.network.ui.nodes.DistrictNetworkEdgeNode;
import org.simantics.district.network.ui.nodes.DistrictNetworkVertexNode;
-import org.simantics.district.network.ui.nodes.HoverSensitiveNode;
import org.simantics.district.network.ui.nodes.NetworkDrawingNode;
+import org.simantics.district.network.ui.participants.DNPickSorter;
import org.simantics.district.network.ui.participants.DynamicVisualisationContributionsParticipant;
import org.simantics.g2d.canvas.impl.DependencyReflection.Dependency;
import org.simantics.g2d.canvas.impl.SGNodeReflection.SGInit;
import org.simantics.g2d.diagram.participant.AbstractDiagramParticipant;
import org.simantics.g2d.element.ElementHints;
import org.simantics.g2d.element.IElement;
+import org.simantics.maps.MapScalingTransform;
+import org.simantics.scenegraph.INode;
import org.simantics.scenegraph.Node;
import org.simantics.scenegraph.g2d.G2DParentNode;
-import org.simantics.scenegraph.g2d.IG2DNode;
-import org.simantics.utils.datastructures.hints.IHintContext.Key;
-import org.simantics.utils.datastructures.hints.IHintContext.KeyOf;
+import org.simantics.scenegraph.utils.GeometryUtils;
public class NetworkDrawingParticipant extends AbstractDiagramParticipant {
public static final String NETWORK_DRAWING_NODE = "networkDrawingNode";
- @Dependency
+ @Dependency
PickContext pick;
-
- /**
- * A hint key for terminal pick distance in control pixels.
- * @see #PICK_DIST
- */
- public static final Key KEY_PICK_DISTANCE = new KeyOf(Double.class, "PICK_DISTANCE");
- /**
- * Default terminal pick distance in control pixels.
- * @see #DEFAULT_PICK_DISTANCE
- */
- public static final double PICK_DIST = 10;
-
private NetworkDrawingNode node;
-
private DynamicVisualisationContributionsParticipant dynamicVisualisationContributionsParticipant;
private AffineTransform transform;
-
+
+ /**
+ * Holds the current element for which hover information is shown.
+ * This exists only to optimize the hover updating procedure.
+ */
+ private IElement currentHoverElement;
+
public NetworkDrawingParticipant(DynamicVisualisationContributionsParticipant dynamicVisualisationContributionsParticipant, AffineTransform transform) {
this.dynamicVisualisationContributionsParticipant = dynamicVisualisationContributionsParticipant;
this.transform = transform;
node.setTransform(transform);
node.setNetworkDrawingParticipant(this);
}
-
+
@Override
protected void onDiagramSet(IDiagram newDiagram, IDiagram oldDiagram) {
node.setDiagram(newDiagram);
}
- public boolean pickHoveredElement(Point2D currentMousePos, boolean isConnectionTool) {
- PickRequest req = new PickRequest(new Rectangle2D.Double(currentMousePos.getX(), currentMousePos.getY(), 1e-8, 1e-8)).context(getContext());
+ public boolean pickHoveredElement(Point2D canvasPos, boolean isConnectionTool, AffineTransform viewTransform) {
+ PickRequest req = new PickRequest(getPickRect(canvasPos, viewTransform)).context(getContext());
List<IElement> pickables = new ArrayList<>();
pick.pick(diagram, req, pickables);
- List<IElement> snap = diagram.getSnapshot();
+ Collections.sort(pickables, DNPickSorter.nearestVerticesFirst(false, DNPickSorter.centerDistSq(canvasPos.getX(), canvasPos.getY())));
- hoverNodes2(pickables, true, isConnectionTool, currentMousePos);
- // we repaint ourselves once the async calulation is ready
+ updateHoveredElement(pickables, true, isConnectionTool, viewTransform);
+ // Will repaint once the async hover info calculation is ready, no need to do it here
return false;
-
-// boolean changed = false;
-// changed |= hoverNodes(snap, false, isConnectionTool, currentMousePos);
-// changed |= hoverNodes(pickables, true, isConnectionTool, currentMousePos);
- //return changed;
}
- private boolean hoverNodes2(List<IElement> elements, boolean hover, boolean isConnectionTool, Point2D p) {
+ private boolean updateHoveredElement(List<IElement> elements, boolean hover, boolean isConnectionTool, AffineTransform viewTransform) {
if (elements == null || elements.isEmpty()) {
+ currentHoverElement = null;
return dynamicVisualisationContributionsParticipant.doHover(false, isConnectionTool);
} else {
- boolean changed = dynamicVisualisationContributionsParticipant.doHover(true, isConnectionTool);
- if (changed) {
- // we prefer the first picked element only
- IElement elem = elements.get(0);
- G2DParentNode node = elem.getHint(DistrictNetworkVertexElement.KEY_DN_VERTEX_NODE);
- if (node instanceof DistrictNetworkVertexNode) {
- } else {
- node = elem.getHint(DistrictNetworkEdgeElement.KEY_DN_EDGE_NODE);
- }
- Resource mapElement = elem.getHint(ElementHints.KEY_OBJECT);
- Resource runtimeDiagram = diagram.getHint(DiagramModelHints.KEY_DIAGRAM_RUNTIME_RESOURCE);
- dynamicVisualisationContributionsParticipant.hoverNode(runtimeDiagram, mapElement, node);
- }
- return changed;
- }
- }
+ dynamicVisualisationContributionsParticipant.doHover(true, isConnectionTool);
- private boolean hoverNodes(List<IElement> elements, boolean hover, boolean isConnectionTool, Point2D p) {
- boolean changed = false;
- for (IElement elem : elements) {
- Node node = elem.getHint(DistrictNetworkVertexElement.KEY_DN_VERTEX_NODE);
- if (node instanceof DistrictNetworkVertexNode) {
- changed |= ((DistrictNetworkVertexNode) node).hover(hover, isConnectionTool);
- if (hover)
- ((DistrictNetworkVertexNode) node).setMousePosition(p);
- } else {
+ // we prefer the first picked element only
+ IElement elem = elements.get(0);
+ if (elem.equals(currentHoverElement))
+ return false;
+
+ INode node = elem.getHint(DistrictNetworkVertexElement.KEY_DN_VERTEX_NODE);
+ if (node == null)
node = elem.getHint(DistrictNetworkEdgeElement.KEY_DN_EDGE_NODE);
- if (node instanceof DistrictNetworkEdgeNode) {
- for (IG2DNode n : ((DistrictNetworkEdgeNode) node).getNodes()) {
- if (n instanceof HoverSensitiveNode) {
- changed |= ((HoverSensitiveNode)n).hover(hover, isConnectionTool);
- if (hover)
- ((HoverSensitiveNode)n).setMousePosition(p);
- }
- }
- }
- }
+ if (node == null)
+ return false;
+
+ Resource mapElement = elem.getHint(ElementHints.KEY_OBJECT);
+ Resource runtimeDiagram = diagram.getHint(DiagramModelHints.KEY_DIAGRAM_RUNTIME_RESOURCE);
+ currentHoverElement = elem;
+ dynamicVisualisationContributionsParticipant.hoverNode(runtimeDiagram, mapElement, node, MapScalingTransform.zoomLevel(viewTransform));
+ return true;
}
- return changed;
}
- public boolean isHoveringOverNode(Point2D currentMousePos) {
- PickRequest req = new PickRequest(currentMousePos).context(getContext());
- List<IElement> pickables = new ArrayList<IElement>();
+ public boolean isHoveringOverNode(Point2D canvasPos, AffineTransform viewTransform) {
+ PickRequest req = new PickRequest(getPickRect(canvasPos, viewTransform)).context(getContext());
+ List<IElement> pickables = new ArrayList<>();
pick.pick(diagram, req, pickables);
for (IElement elem : pickables) {
Node node = elem.getHint(DistrictNetworkVertexElement.KEY_DN_VERTEX_NODE);
return false;
}
+ private Rectangle2D getPickRect(Point2D canvasPos, AffineTransform viewTransform) {
+ double pixelScale = 1.0 / GeometryUtils.getScale(viewTransform);
+ if (Double.isInfinite(pixelScale))
+ pixelScale = 1e-8;
+
+ Rectangle2D pickRect = GeometryUtils.expandRectangle(
+ new Rectangle2D.Double(canvasPos.getX(), canvasPos.getY(), 0, 0),
+ pixelScale * 4);
+
+ return pickRect;
+ }
+
public AffineTransform getTransform() {
return transform;
}
+
}