package org.ntlab.animations; import java.awt.Point; import java.awt.geom.Point2D; import java.util.concurrent.ThreadPoolExecutor; import org.ntlab.deltaViewer.DeltaGraphAdapter; import com.mxgraph.model.mxICell; import com.mxgraph.swing.mxGraphComponent; /** * Animation of edge stretching and shrinking, vertex translating. * * @author Nitta Lab. */ public class TranslateAnimation extends MagnetRONAnimation { // Test code (will be deleted) private static final String TAG = TranslateAnimation.class.getSimpleName(); /** * The destination point where the sourceCell animates. */ private Point2D destinationPoint; /** * The point to update for each cycle count. */ private Point2D velocity; /** * The constructor of {@code TranslateAnimation}. * * @param mxgraph * @param mxgraphComponent */ public TranslateAnimation(DeltaGraphAdapter mxgraph, mxGraphComponent mxgraphComponent) { super(mxgraph, mxgraphComponent); } @Override protected void setDestination(double x, double y) { setDestinationPoint(new Point2D.Double(x, y)); } private void setDestinationPoint(Point2D destinationPoint) { this.destinationPoint = destinationPoint; } @Override protected void setVelocity(double x, double y) { setVelocity(new Point2D.Double(x, y)); } private void setVelocity(Point2D velocity) { this.velocity = velocity; } private Point2D getDestinationPoint() { return destinationPoint; } private Point2D getVelocity() { return velocity; } public void init(mxICell sourceCell, Point2D destinationPoint, ThreadPoolExecutor threadPoolExecutor) { init(sourceCell, destinationPoint.getX(), destinationPoint.getY(), threadPoolExecutor); } /** * See {@code MagnetRONAnimation#init(mxICell, double, double, ThreadPoolExecutor)} * * @param sourceCell * @param destinationPoint * @param threadPoolExecutor */ @Override public void init(mxICell sourceCell, double x, double y, ThreadPoolExecutor threadPoolExecutor) { super.init(sourceCell, x, y, threadPoolExecutor); Point2D curPt = new Point(sourceCell.getGeometry().getPoint()); // Calculate resize line model Point2D distancePoint = new Point(); distancePoint.setLocation(destinationPoint.getX() - curPt.getX(), destinationPoint.getY() - curPt.getY()); Point2D velocity = new Point2D.Double(); velocity.setLocation(distancePoint.getX() / getTotalCycleCount(), distancePoint.getY() / getTotalCycleCount()); setVelocity(velocity); } @Override protected void jumpTo(int currentCycleCount) { // Add a vertex to the graph in a transactional fashion. The vertex is actually a 'cell' in jgraphx terminology. mxgraph.getModel().beginUpdate(); synchronized(mxgraph.getModel()) { try { getSourceCell().getGeometry().setX(getSourceInitialPoint().getX() + getVelocity().getX() * currentCycleCount); getSourceCell().getGeometry().setY(getSourceInitialPoint().getY() + getVelocity().getY() * currentCycleCount); } finally { mxgraph.getModel().endUpdate(); } mxgraphComponent.refresh(); } } }