MultiTouch camera controls

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MultiTouch camera controls

This code will handle control from 1 or 2 fingers, it was made for a tablet showing 3D objects, so it's made for navigating not for FPS gaming.

Usage Call MovementHandler.handleMotionEvent for every motionEvent you receive. CAll MovementHandler.getMovement for every tick or whenever you can to update the movement.


import android.util.Log;
import android.view.MotionEvent;

/**
 * 
 * @author [email protected]
 *
 */
public class MovementHandler {

	/**
	 * Logs a lot of stuff
	 */
	public static final boolean DEBUG_MOVEMENT = false;

	/**
	 * Min 0.25 degrees
	 */
	public static final float MIN_ANGLE_XMOVEMENT = (float) (Math.PI / 720);

	/**
	 * Max 15 degrees
	 */
	public static final float MAX_ANGLE_XMOVEMENT = (float) MIN_ANGLE_XMOVEMENT * 60;

	/**
	 * Pixels->Angle ratio on the X-axis
	 */
	public static final float XANGLE_FACTOR = 360;

	/**
	 * Min 0.25 degrees
	 */
	public static final float MIN_ANGLE_YMOVEMENT = (float) (Math.PI / 720);

	/**
	 * Max 15 degrees
	 */
	public static final float MAX_ANGLE_YMOVEMENT = (float) MIN_ANGLE_YMOVEMENT * 60;

	/**
	 * Pixels->Angle ratio on the Y-axis
	 */
	public static final float YANGLE_FACTOR = 360;

	/**
	 * Pixels->Distance ratio
	 */
	public static final float DISTANCE_FACTOR = 10;

	/**
	 * Pixels->Movement ratio
	 */
	public static final float MOVEMENT_X_FACTOR = 10;

	/**
	 * Pixels->Movement ratio
	 */
	public static final float MOVEMENT_Y_FACTOR = 10;

	public static final float MIN_MOVEMENT_DELTA = 0.1f;
	public static final float MAX_MOVEMENT_DELTA = 5;

	private int _firstPointerId = MotionEvent.INVALID_POINTER_ID;
	private float startMovementx1;
	private float startMovementy1;
	private float lastMovementx1;
	private float lastMovementy1;

	private int _secondPointerId = MotionEvent.INVALID_POINTER_ID;
	private float startMovementx2;
	private float startMovementy2;
	private float lastMovementy2;
	private float lastMovementx2;

	private float startDistance;
	private float lastDistance;

	private float startAngle;
	private float lastAngle;

	public synchronized Movement getMovement() {
		Movement movement = new Movement();

		if (_secondPointerId != MotionEvent.INVALID_POINTER_ID) {
			float movementX1 = lastMovementx1 - startMovementx1;
			float movementY1 = lastMovementy1 - startMovementy1;
			float movementX2 = lastMovementx2 - startMovementx2;
			float movementY2 = lastMovementy2 - startMovementy2;

			if ((movementX1 > 0 && movementX2 > 0)
					|| (movementX1 < 0 && movementX2 < 0)) {
				float movementX = Math.min(Math.abs(movementX1),
						Math.abs(movementX2))
						/ MOVEMENT_X_FACTOR;
				if (movementX > MIN_MOVEMENT_DELTA
						&& movementX < MAX_MOVEMENT_DELTA) {
					if (movementX1 > 0) {
						movement.cameraMovementX = movementX;
					} else {
						movement.cameraMovementX = -movementX;
					}
				} else {
					if (DEBUG_MOVEMENT) {
						Log.d("MovementHandler",
								"getMovement(): Invalid movement: movementX=<"
										+ movementX + ">, movementX1=<"
										+ movementX1 + ">, movementX2=<"
										+ movementX2 + ">");
					}
				}
			}

			if ((movementY1 > 0 && movementY2 > 0)
					|| (movementY1 < 0 && movementY2 < 0)) {
				float movementY = Math.min(Math.abs(movementY1),
						Math.abs(movementY2))
						/ MOVEMENT_Y_FACTOR;
				if (movementY > MIN_MOVEMENT_DELTA
						&& movementY < MAX_MOVEMENT_DELTA) {
					if (movementY1 > 0) {
						movement.cameraMovementY = movementY;
					} else {
						movement.cameraMovementY = -movementY;
					}
				} else {
					if (DEBUG_MOVEMENT) {
						Log.d("MovementHandler",
								"getMovement(): Invalid movement: movementY<"
										+ movementY + ">, movementY1=<"
										+ movementY1 + ">, movementY2=<"
										+ movementY2 + ">");
					}
				}
			}
			float distanceDelta = lastDistance - startDistance;
			float distance = distanceDelta / DISTANCE_FACTOR;
			float absoluteDistance = Math.abs(distance);
			if (absoluteDistance > MIN_MOVEMENT_DELTA
					&& absoluteDistance < MAX_MOVEMENT_DELTA) {
				movement.cameraMovementZ = distance;
			} else {
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"getMovement(): Invalid movement: distanceDelta=<"
									+ distanceDelta + ">, distance=<"
									+ distance + ">");
				}
			}

			float angleDelta = lastAngle - startAngle;
			float absoluteAngle = Math.abs(angleDelta);
			if (absoluteAngle > MIN_ANGLE_XMOVEMENT
					&& absoluteAngle < MAX_ANGLE_XMOVEMENT) {
				movement.cameraRotationY = angleDelta;
			} else {
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"getMovement(): Invalid movement: absoluteAngle=<"
									+ absoluteAngle + ">, startAngle=<"
									+ Math.toDegrees(startAngle)
									+ ">, lastAngle=<"
									+ Math.toDegrees(lastAngle) + ">");
				}
			}
		} else if (_firstPointerId != MotionEvent.INVALID_POINTER_ID) {
			float movementX1 = lastMovementx1 - startMovementx1;
			float angle = (float) ((movementX1) / XANGLE_FACTOR);
			float absoluteAngle = Math.abs(angle);
			if (absoluteAngle > MIN_ANGLE_XMOVEMENT
					&& absoluteAngle < MAX_ANGLE_XMOVEMENT) {
				movement.cameraRotationY = angle;
			} else {
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"getMovement(): Invalid movement: movementX=<"
									+ movementX1 + ">, angle=<" + absoluteAngle
									+ ">");
				}
			}

			float movementY1 = lastMovementy1 - startMovementy1;
			angle = (float) ((movementY1) / YANGLE_FACTOR);
			absoluteAngle = Math.abs(angle);
			if (absoluteAngle > MIN_ANGLE_YMOVEMENT
					&& absoluteAngle < MAX_ANGLE_YMOVEMENT) {
				movement.worldRotationX = angle;
			} else {
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"getMovement(): Invalid movement: movementY=<"
									+ movementY1 + ">, angle=<" + absoluteAngle
									+ ">");
				}
			}
		}
		startMovementx1 = lastMovementx1;
		startMovementy1 = lastMovementy1;
		startMovementx2 = lastMovementx2;
		startMovementy2 = lastMovementy2;
		startDistance = lastDistance;
		startAngle = lastAngle;
		return movement;
	}

	public synchronized void handleMotionEvent(MotionEvent event) {
		final int pointerIndex = event.getActionIndex();
		final int pointerId = event.getPointerId(pointerIndex);

		if (DEBUG_MOVEMENT) {
			Log.d("MovementHandler", "handleMotionEvent(pointerIndex=<"
					+ pointerIndex + ">, pointerId=<" + pointerId
					+ ">, event=<" + event.getActionMasked()
					+ ">, pointerCount=<" + event.getPointerCount() + ">");
		}
		switch (event.getActionMasked()) {
		case MotionEvent.ACTION_DOWN: {
			_firstPointerId = pointerId;
			_secondPointerId = MotionEvent.INVALID_POINTER_ID;
			startMovementx1 = event.getX(_firstPointerId);
			startMovementy1 = event.getY(_firstPointerId);
			lastMovementx1 = startMovementx1;
			lastMovementy1 = startMovementy1;
			if (DEBUG_MOVEMENT) {
				Log.d("MovementHandler", "ACTION_DOWN(firstPointerId=<"
						+ _firstPointerId + ">(" + startMovementx1 + ","
						+ startMovementy1 + ")");
			}
			break;
		}
		case MotionEvent.ACTION_UP: {
			_firstPointerId = MotionEvent.INVALID_POINTER_ID;
			_secondPointerId = MotionEvent.INVALID_POINTER_ID;
			if (DEBUG_MOVEMENT) {
				Log.d("MovementHandler", "ACTION_UP(firstPointerId=<"
						+ _firstPointerId + ">)");
			}
			break;
		}
		case MotionEvent.ACTION_POINTER_DOWN:
			if (event.getPointerCount() == 2) {
				_secondPointerId = pointerId;
				startMovementx2 = event.getX(_secondPointerId);
				startMovementy2 = event.getY(_secondPointerId);
				lastMovementx2 = startMovementx2;
				lastMovementy2 = startMovementy2;
				startDistance = calcDistance();
				startAngle = calcAngle();
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"ACTION_POINTER_DOWN(secondPointerId=<"
									+ _secondPointerId + ">)");
				}
			}
			break;
		case MotionEvent.ACTION_POINTER_UP:
			if (pointerId == _firstPointerId) {
				// This was our active pointer going up. Choose a new
				// active pointer and adjust accordingly.
				final int newPointerIndex = pointerIndex == 0 ? 1 : 0;
				_firstPointerId = event.getPointerId(newPointerIndex);
				int oldPointerId = _firstPointerId;
				if (DEBUG_MOVEMENT) {
					Log.d("MovementHandler",
							"ACTION_POINTER_UP(_firstPointerId=<"
									+ _firstPointerId + ">, oldPointerId=<"
									+ oldPointerId + ">)");
				}
				startMovementx1 = event.getX(newPointerIndex);
				startMovementy1 = event.getY(newPointerIndex);
			} else if (pointerId == _secondPointerId) {
				if (event.getPointerCount() > 2) {
					// This was our active secondpointer going up. Choose a new
					// active pointer and adjust accordingly.
					final int newPointerIndex = pointerIndex == 1 ? 2 : 1;
					_secondPointerId = event.getPointerId(newPointerIndex);
					int oldPointerId = _secondPointerId;
					if (DEBUG_MOVEMENT) {
						Log.d("MovementHandler",
								"ACTION_POINTER_UP(secondPointerId=<"
										+ _secondPointerId
										+ ">, oldPointerId=<" + oldPointerId
										+ ">)");
					}
					startMovementx2 = event.getX(newPointerIndex);
					startMovementy2 = event.getY(newPointerIndex);
				} else {
					_secondPointerId = MotionEvent.INVALID_POINTER_ID;
					if (DEBUG_MOVEMENT) {
						Log.d("MovementHandler",
								"ACTION_POINTER_UP(secondPointerId=<"
										+ _secondPointerId + ">)");
					}
				}
			}
			break;
		case MotionEvent.ACTION_MOVE: {
			int firstPointerIndex = event.findPointerIndex(_firstPointerId);
			int secondPointerIndex = event.findPointerIndex(_secondPointerId);
			if (event.getPointerCount() > 0) {
				lastMovementx1 = event.getX(firstPointerIndex);
				lastMovementy1 = event.getY(firstPointerIndex);
			}
			if (event.getPointerCount() > 1) {
				lastMovementx2 = event.getX(secondPointerIndex);
				lastMovementy2 = event.getY(secondPointerIndex);
				lastDistance = calcDistance();
				lastAngle = calcAngle();
			}
			break;
		}
		}
	}

	private float calcDistance() {
		float deltaX = lastMovementx2 - lastMovementx1;
		float deltaY = lastMovementy2 - lastMovementy1;
		return (float) Math.sqrt(deltaX * deltaX + deltaY * deltaY);
	}

	private float calcAngle() {
		return (float) Math.atan2(lastMovementx1 - lastMovementx2,
				lastMovementy1 - lastMovementy2);
	}
}
/**
 * 
 * @author [email protected]
 *
 */
public class Movement {

	public float worldRotationX;
	public float cameraRotationY;
	public float cameraMovementX;
	public float cameraMovementY;
	public float cameraMovementZ;

	public boolean hasMovement() {
		return worldRotationX != 0f || cameraRotationY != 0f
				|| cameraMovementX != 0f || cameraMovementY != 0f
				|| cameraMovementZ != 0f;
	}

	@Override
	public String toString() {
		return "Movement (hasMovement=<"+hasMovement()+">, worldRotationX=" + worldRotationX
				+ ", cameraRotationY=" + cameraRotationY + ", cameraMovementX="
				+ cameraMovementX + ", cameraMovementY=" + cameraMovementY
				+ ", cameraMovementZ=" + cameraMovementZ + ")";
	}

}

	@Override
	public boolean onTouchEvent(MotionEvent event) {

		_movementHandler.handleMotionEvent(event);
		return true;
	}

	private void moveCamera() {
		Movement movement = _movementHandler.getMovement();

		if (movement.hasMovement()) {
			Camera camera = world.getCamera();

			Matrix rot = camera.getBack();

			rot.rotateAxis(rot.getYAxis(), -(float) movement.cameraRotationY);
			worldObject.rotateX(movement.worldRotationX);
			float angle = worldObject.getYAxis().calcAngle(
					new SimpleVector(0, 1, 0));
			float crossAngle = worldObject.getYAxis().calcCross(
					new SimpleVector(0, 1, 0)).x;
			if (crossAngle > 0) {
				worldObject.rotateX(-angle);
			} else {
				float delta = (float) (angle - (Math.PI / 2));
				if (delta > 0) {
					worldObject.rotateX(delta);
				}
			}

			camera.moveCamera(Camera.CAMERA_MOVELEFT, movement.cameraMovementX);
			camera.moveCamera(Camera.CAMERA_MOVEUP, movement.cameraMovementY);
			camera.moveCamera(Camera.CAMERA_MOVEIN, movement.cameraMovementZ);
		}
	}