package org.mote.wiimote.whiteboard; import java.awt.Point; import java.util.Collection; import java.util.Collections; import java.util.EventObject; import java.util.HashSet; import java.util.LinkedHashMap; import java.util.Map; import java.util.Set; import java.util.logging.Level; import org.jdesktop.application.Application; import org.jdesktop.application.Application.ExitListener; import org.mote.wiimote.whiteboard.calibration.WiimoteCalibration; import org.mote.wiimote.whiteboard.ds.IRDot; import org.mote.wiimote.whiteboard.ds.Wiimote; import org.mote.wiimote.whiteboard.mouse.CursorControlStrategy; import org.mote.wiimote.whiteboard.mouse.Mouse; import org.mote.wiimote.whiteboard.mouse.smoothing.MouseSmoothingStrategy; import org.mote.wiimote.whiteboard.preferences.WWPreferences; import org.mote.wiimote.whiteboard.preferences.WWPreferences.PreferencesListener; import wiiremotej.WiiRemote; import wiiremotej.WiiRemoteJ; import wiiremotej.event.WRButtonEvent; import wiiremotej.event.WRIREvent; import wiiremotej.event.WRStatusEvent; import wiiremotej.event.WiiDeviceDiscoveredEvent; import wiiremotej.event.WiiDeviceDiscoveryListener; import wiiremotej.event.WiiRemoteAdapter; public class WiimoteDataHandler extends WiiRemoteAdapter implements ExitListener, WiiDeviceDiscoveryListener, PreferencesListener { public static interface WiimoteDataListener { public void wiimoteConnected(Wiimote wiimote); public void wiimoteDisconnected(Wiimote wiimote); public void irLights(Wiimote wiimote, IRDot[] lights); public void irWarped(Map data, Point[] warped); public void batteryLevel(Wiimote wiimote, double level); } private Map remotes = new LinkedHashMap(WWPreferences.WIIMOTES, 1f); private Map events = new LinkedHashMap(WWPreferences.WIIMOTES, 1f); private final WiimoteCalibration calibration; private static final WWPreferences prefs = WWPreferences.getPreferences(); private final Set listener = Collections.synchronizedSet(new HashSet()); private boolean cursorControl = true; private MouseSmoothingStrategy mss[] = new MouseSmoothingStrategy[4]; private CursorControlStrategy cursorControlStrategy; public WiimoteDataHandler(WiimoteCalibration calibration) { this.calibration = calibration; Application.getInstance().addExitListener(this); prefs.addPreferencesListener(this); preferencesChanged(); new WiimoteConnector(this).connect(); } public void enableIR(Wiimote wiimote) throws Exception { if (wiimote != null && wiimote.getWiiRemote().isConnected()) { wiimote.getWiiRemote().setIRSensorEnabled(true, WRIREvent.BASIC, WWPreferences.SENSITIVITY_SETTINGS); } WiimoteWhiteboard.getLogger().info(String.format("(Re-)Setting IR sensor of Wiimote %d: %s", wiimote.getId(), (wiimote != null && wiimote.getWiiRemote().isConnected() ? "done" : "not connected"))); } void addRemote(final WiiRemote remote) { try { int id = remotes.size()+1; final Wiimote wiimote = new Wiimote(remote, remote.getBluetoothAddress(), id); remotes.put(remote, wiimote); remote.setAccelerometerEnabled(false); enableIR(wiimote); remote.setLEDIlluminated(id-1, true); remote.setUseMouse(false); synchronized (listener) { for (WiimoteDataListener l : listener) l.wiimoteConnected(wiimote); } } catch (Exception e) { e.printStackTrace(); WiimoteWhiteboard.getLogger().log(Level.SEVERE, "Error on configuring Wii Remote", e); } remote.addWiiRemoteListener(this); // update battery level every minute new Thread(new Runnable() { public void run() { while (true) { try { // triggers #statusReported(WRStatusEvent) if (remote.isConnected()) remote.requestStatus(); } catch (Exception e) { e.printStackTrace(); WiimoteWhiteboard.getLogger().log(Level.WARNING, "Error on requesting status from Wii Remote", e); } try { Thread.sleep(60 * 1000); } catch (InterruptedException e) { e.printStackTrace(); } } } }).start(); } /* * EXIT */ public void willExit(EventObject event) { for (WiiRemote remote : remotes.keySet()) remote.disconnect(); } public boolean canExit(EventObject event) { return true; } /* * WIIREMOTEJ LISTENER */ @Override public synchronized void IRInputReceived(WRIREvent e) { events.put(e.getSource(), e); // wait till data from all connected wiimotes was received once and only process input on data from first wiimote to reduce the number of times the function gets called if (events.size() == getNumberOfConnectedWiimotes() && remotes.get(e.getSource()).getId() == 1) IRInputReceived(); } private void IRInputReceived() { boolean firstDotVisible = false; Map data = new LinkedHashMap(); for (WiiRemote r : events.keySet()) { Wiimote wiimote = remotes.get(r); IRDot[] dots = IRDot.getIRDots(events.get(r).getIRLights()); synchronized (listener) { for (WiimoteDataListener l : listener) l.irLights(wiimote, dots); } // exclude points from uncalibrated wiimotes during "normal operation" if (!calibration.isDone() || calibration.isCalibrated(wiimote)) { firstDotVisible = firstDotVisible || dots[0] != null; data.put(wiimote, dots); } } if (calibration.isDone()) { // should always be true, but just in case... if (calibration.isAnyCalibrated(data.keySet())) { Point warped[] = calibration.warp(data); for (int i = 0; i < 4; i++) { if (warped[i] != null) { warped[i] = mss[i].translate(warped[i]); } else { mss[i].reset(); } } if (isCursorControl()) { cursorControlStrategy.process(warped[0]); } else { // if (Mouse.LEFT_BUTTON.isPressed()) Mouse.LEFT_BUTTON.setPressed(false); // if (Mouse.RIGHT_BUTTON.isPressed()) Mouse.RIGHT_BUTTON.setPressed(false); } // if (warped[0] != null) { // // normal operation after calibration has been done // if (isCursorControl()) { // Mouse.move(warped[0]); // rcs.process(warped[0]); // if (prefs.isLeftClick() && !(prefs.isRightClick() && rcs.trigger())) { // Mouse.LEFT_BUTTON.setPressed(true); // } // } // } else { // rcs.process(null); // Mouse.LEFT_BUTTON.setPressed(false); // } synchronized (listener) { for (WiimoteDataListener l : listener) l.irWarped(data, warped); } } } else if (calibration.inProgress()) { if (firstDotVisible) calibration.process(data); } } @Override public void statusReported(WRStatusEvent e) { synchronized (listener) { for (WiimoteDataListener l : listener) l.batteryLevel(remotes.get(e.getSource()), e.getBatteryLevel()); } } @Override public void buttonInputReceived(WRButtonEvent e) { if (e.isOnlyPressed(WRButtonEvent.A)) { calibration.start(getConnectedWiimotes()); } else if (e.isOnlyPressed(WRButtonEvent.HOME)) { Application.getInstance().exit(); } } public void wiiDeviceDiscovered(WiiDeviceDiscoveredEvent e) { if (e.getWiiDevice() instanceof WiiRemote) { addRemote((WiiRemote)e.getWiiDevice()); } } public void findFinished(int numberFound) { } @Override public void disconnected() { // TODO support dis-/reconnecting? WiiRemoteJ.stopFind(); WiiRemote remove = null; for (WiiRemote remote : remotes.keySet()) { if (!remote.isConnected()) { remove = remote; synchronized (listener) { for (WiimoteDataListener l : listener) l.wiimoteDisconnected(remotes.get(remote)); } break; } } if (remove != null) remotes.remove(remove); } /* * LISTENER */ public void addWiimoteDataListener(WiimoteDataListener l) { listener.add(l); } public void removeWiimoteDataListener(WiimoteDataListener l) { listener.remove(l); } /* * PREFERENCES STUFF */ public void preferencesChanged() { updateMSS(); updateCursorControlStrategy(); // final int newNumWiimotes = prefs.getNumberOfWiimotes(); // if (numWiimotes != newNumWiimotes) { // WiiRemoteJ.stopFind(); // if (newNumWiimotes > getNumberOfConnectedWiimotes()) { // WiiRemoteJ.findRemotes(this, newNumWiimotes - getNumberOfConnectedWiimotes()); // } // numWiimotes = newNumWiimotes; // } } @SuppressWarnings("unchecked") private void updateCursorControlStrategy() { if (cursorControlStrategy == null || !cursorControlStrategy.getClass().getName().equals(prefs.getCursorControl())) { try { Class c = Class.forName(prefs.getCursorControl()); cursorControlStrategy = ((Class)c).newInstance(); } catch (Exception e) { e.printStackTrace(); WiimoteWhiteboard.getLogger().log(Level.SEVERE, "Cursor Control Method error.", e); } } } @SuppressWarnings("unchecked") private void updateMSS() { if (mss[0] == null || !mss[0].getClass().getName().equals(prefs.getMouseSmoothing())) { try { Class c = Class.forName(prefs.getMouseSmoothing()); for (int i = 0; i < 4; i++) mss[i] = ((Class)c).newInstance(); } catch (Exception e) { e.printStackTrace(); WiimoteWhiteboard.getLogger().log(Level.SEVERE, "Mouse Movement Smoothing error.", e); } } } /* * GETTER & SETTER */ public boolean isConnected() { for (WiiRemote remote : remotes.keySet()) { if (remote.isConnected()) return true; } return false; } public boolean isConnected(Wiimote wiimote) { return wiimote != null && wiimote.getWiiRemote().isConnected(); } public int getNumberOfConnectedWiimotes() { return remotes.size(); } public Collection getConnectedWiimotes() { return remotes.values(); } public boolean isCursorControl() { return cursorControl; } public void setCursorControl(boolean cursorControl) { this.cursorControl = cursorControl; } }