/* * @(#)LineConnection.java * * Project: JHotdraw - a GUI framework for technical drawings * http://www.jhotdraw.org * http://jhotdraw.sourceforge.net * Copyright: © by the original author(s) and all contributors * License: Lesser GNU Public License (LGPL) * http://www.opensource.org/licenses/lgpl-license.html */ package CH.ifa.draw.figures; import java.awt.*; import java.util.List; import java.io.*; import CH.ifa.draw.framework.*; import CH.ifa.draw.standard.*; import CH.ifa.draw.util.*; /** * A LineConnection is a standard implementation of the * ConnectionFigure interface. The interface is implemented with PolyLineFigure. * * @see ConnectionFigure * * @version <$CURRENT_VERSION$> */ public class LineConnection extends PolyLineFigure implements ConnectionFigure { protected Connector myStartConnector; protected Connector myEndConnector; /* * Serialization support. */ private static final long serialVersionUID = 6883731614578414801L; private int lineConnectionSerializedDataVersion = 1; /** * Constructs a LineConnection. A connection figure has * an arrow decoration at the start and end. */ public LineConnection() { super(4); setStartDecoration(new ArrowTip()); setEndDecoration(new ArrowTip()); } /** * Tests whether a figure can be a connection target. * ConnectionFigures cannot be connected and return false. */ public boolean canConnect() { return false; } /** * Ensures that a connection is updated if the connection * was moved. */ protected void basicMoveBy(int dx, int dy) { // don't move the start and end point since they are connected for (int i = 1; i < fPoints.size()-1; i++) { pointAt(i).translate(dx, dy); } updateConnection(); // make sure that we are still connected } /** * Sets the start figure of the connection. */ public void connectStart(Connector newStartConnector) { setStartConnector(newStartConnector); if (newStartConnector != null) { startFigure().addDependendFigure(this); startFigure().addFigureChangeListener(this); } } /** * Sets the end figure of the connection. */ public void connectEnd(Connector newEndConnector) { setEndConnector(newEndConnector); if (newEndConnector != null) { endFigure().addDependendFigure(this); endFigure().addFigureChangeListener(this); handleConnect(startFigure(), endFigure()); } } /** * Disconnects the start figure. */ public void disconnectStart() { startFigure().removeFigureChangeListener(this); startFigure().removeDependendFigure(this); setStartConnector(null); } /** * Disconnects the end figure. */ public void disconnectEnd() { handleDisconnect(startFigure(), endFigure()); endFigure().removeFigureChangeListener(this); endFigure().removeDependendFigure(this); setEndConnector(null); } /** * Tests whether a connection connects the same figures * as another ConnectionFigure. */ public boolean connectsSame(ConnectionFigure other) { return other.getStartConnector() == getStartConnector() && other.getEndConnector() == getEndConnector(); } /** * Handles the disconnection of a connection. * Override this method to handle this event. */ protected void handleDisconnect(Figure start, Figure end) {} /** * Handles the connection of a connection. * Override this method to handle this event. */ protected void handleConnect(Figure start, Figure end) {} /** * Gets the start figure of the connection. */ public Figure startFigure() { if (getStartConnector() != null) { return getStartConnector().owner(); } return null; } /** * Gets the end figure of the connection. */ public Figure endFigure() { if (getEndConnector() != null) { return getEndConnector().owner(); } return null; } protected void setStartConnector(Connector newStartConnector) { myStartConnector = newStartConnector; } /** * Gets the start figure of the connection. */ public Connector getStartConnector() { return myStartConnector; } protected void setEndConnector(Connector newEndConnector) { myEndConnector = newEndConnector; } /** * Gets the end figure of the connection. */ public Connector getEndConnector() { return myEndConnector; } /** * Tests whether two figures can be connected. */ public boolean canConnect(Figure start, Figure end) { return true; } /** * Sets the start point. */ public void startPoint(int x, int y) { willChange(); if (fPoints.size() == 0) { fPoints.add(new Point(x, y)); } else { fPoints.set(0, new Point(x, y)); } changed(); } /** * Sets the end point. */ public void endPoint(int x, int y) { willChange(); if (fPoints.size() < 2) { fPoints.add(new Point(x, y)); } else { fPoints.set(fPoints.size()-1, new Point(x, y)); } changed(); } /** * Gets the start point. */ public Point startPoint() { Point p = pointAt(0); return new Point(p.x, p.y); } /** * Gets the end point. */ public Point endPoint() { if (fPoints.size() > 0) { Point p = pointAt(fPoints.size()-1); return new Point(p.x, p.y); } else { return null; } } /** * Gets the handles of the figure. It returns the normal * PolyLineHandles but adds ChangeConnectionHandles at the * start and end. */ public HandleEnumeration handles() { List handles = CollectionsFactory.current().createList(fPoints.size()); handles.add(new ChangeConnectionStartHandle(this)); for (int i = 1; i < fPoints.size()-1; i++) { handles.add(new PolyLineHandle(this, locator(i), i)); } handles.add(new ChangeConnectionEndHandle(this)); return new HandleEnumerator(handles); } /** * Sets the point and updates the connection. */ public void setPointAt(Point p, int i) { super.setPointAt(p, i); layoutConnection(); } /** * Inserts the point and updates the connection. */ public void insertPointAt(Point p, int i) { super.insertPointAt(p, i); layoutConnection(); } /** * Removes the point and updates the connection. */ public void removePointAt(int i) { super.removePointAt(i); layoutConnection(); } /** * Updates the connection. */ public void updateConnection() { if (getStartConnector() != null) { Point start = getStartConnector().findStart(this); if (start != null) { startPoint(start.x, start.y); } } if (getEndConnector() != null) { Point end = getEndConnector().findEnd(this); if (end != null) { endPoint(end.x, end.y); } } } /** * Lays out the connection. This is called when the connection * itself changes. By default the connection is recalculated */ public void layoutConnection() { updateConnection(); } public void figureChanged(FigureChangeEvent e) { updateConnection(); } public void figureRemoved(FigureChangeEvent e) { } public void figureRequestRemove(FigureChangeEvent e) { } public void figureInvalidated(FigureChangeEvent e) { } public void figureRequestUpdate(FigureChangeEvent e) { } public void release() { super.release(); handleDisconnect(startFigure(), endFigure()); if (getStartConnector() != null) { startFigure().removeFigureChangeListener(this); } if (getEndConnector() != null) { endFigure().removeFigureChangeListener(this); } } public void write(StorableOutput dw) { super.write(dw); dw.writeStorable(getStartConnector()); dw.writeStorable(getEndConnector()); } public void read(StorableInput dr) throws IOException { super.read(dr); Connector start = (Connector)dr.readStorable(); if (start != null) { connectStart(start); } Connector end = (Connector)dr.readStorable(); if (end != null) { connectEnd(end); } if ((start != null) && (end != null)) { updateConnection(); } } private void readObject(ObjectInputStream s) throws ClassNotFoundException, IOException { s.defaultReadObject(); if (getStartConnector() != null) { connectStart(getStartConnector()); } if (getEndConnector() != null) { connectEnd(getEndConnector()); } } public void visit(FigureVisitor visitor) { visitor.visitFigure(this); } }