src/com/replica/replicaisland/OrbitalMagnetComponent.java - platform/external/replicaisland - Git at Google

 /*
  * Copyright (C) 2010 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package com.replica.replicaisland;


 public class OrbitalMagnetComponent extends GameComponent {
 	private final static float DEFAULT_STRENGTH = 15.0f;

 	private float mStrength;
 	private Vector2 mCenter;
 	private Vector2 mDelta;
 	private Vector2 mRim;
 	private Vector2 mVelocity;
 	private float mMagnetRadius;
 	private float mAreaRadius;

 	public OrbitalMagnetComponent() {
         super();
         mCenter = new Vector2();
         mDelta = new Vector2();
         mRim = new Vector2();
         mVelocity = new Vector2();
         reset();
         setPhase(ComponentPhases.COLLISION_DETECTION.ordinal());
     }

     @Override
     public void reset() {
     	mCenter.zero();
     	mDelta.zero();
     	mRim.zero();
     	mVelocity.zero();
     	mStrength = DEFAULT_STRENGTH;
     	mAreaRadius = 0.0f;
     	mMagnetRadius = 0.0f;
     }

     @Override
     public void update(float timeDelta, BaseObject parent) {
         GameObjectManager manager = sSystemRegistry.gameObjectManager;
         if (manager != null) {
         	GameObject player = manager.getPlayer();
         	if (player != null) {
         		GameObject parentObject =  (GameObject)parent;
         		applyMagnetism(player,
         				parentObject.getCenteredPositionX(),
         				parentObject.getCenteredPositionY(),
         				timeDelta);
         	}
         }
     }

     private void applyMagnetism(GameObject target, float centerX, float centerY, float timeDelta) {
     	mCenter.set(centerX, centerY);
     	final float targetX = target.getCenteredPositionX();
     	final float targetY = target.getCenteredPositionY();
     	mDelta.set(targetX, targetY);
     	mDelta.subtract(mCenter);

     	final float distanceFromCenter2 = mDelta.length2();
     	final float area2 = mAreaRadius * mAreaRadius;
     	if (distanceFromCenter2 < area2) {
     		mRim.set(mDelta);
     		mRim.normalize();
     		mRim.multiply(mMagnetRadius);
     		mRim.add(mCenter);
     		// rim is now the closest point on the magnet circle

     		// remove gravity
     		final Vector2 targetVelocity = target.getVelocity();
     		GravityComponent gravity = target.findByClass(GravityComponent.class);
             final Vector2 gravityVector = gravity.getGravity();
             mVelocity.set(gravityVector);
             mVelocity.multiply(timeDelta);
             targetVelocity.subtract(mVelocity);

     		mDelta.add(targetVelocity);
     		mDelta.normalize();
     		mDelta.multiply(mMagnetRadius);
     		mDelta.add(mCenter);

     		// mDelta is now the next point on the magnet circle in the direction of
     		// movement.

     		mDelta.subtract(mRim);
     		mDelta.normalize();
     		// Now mDelta is the tangent to the magnet circle, pointing in the direction
     		// of movement.

     		mVelocity.set(mDelta);
     		mVelocity.normalize();

     		// mVelocity is now the direction to push the player

 			mVelocity.multiply(mStrength);
 			float weight = 1.0f;
 			if (distanceFromCenter2 > mMagnetRadius * mMagnetRadius) {
 				float distance = (float)Math.sqrt(distanceFromCenter2);
 				weight = (distance - mMagnetRadius) / (mAreaRadius - mMagnetRadius);
 				weight = 1.0f - weight;
 				mVelocity.multiply(weight);
 			}
 			final float speed = targetVelocity.length();
 			targetVelocity.add(mVelocity);
 			if (targetVelocity.length2() > (speed * speed)) {
 				targetVelocity.normalize();
 				targetVelocity.multiply(speed);
 			}

     	}

     }

     public void setup(float areaRadius, float orbitRadius) {
     	mAreaRadius = areaRadius;
     	mMagnetRadius = orbitRadius;
     }
 }
	/*
	* Copyright (C) 2010 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package com.replica.replicaisland;


	public class OrbitalMagnetComponent extends GameComponent {
	private final static float DEFAULT_STRENGTH = 15.0f;

	private float mStrength;
	private Vector2 mCenter;
	private Vector2 mDelta;
	private Vector2 mRim;
	private Vector2 mVelocity;
	private float mMagnetRadius;
	private float mAreaRadius;

	public OrbitalMagnetComponent() {
	super();
	mCenter = new Vector2();
	mDelta = new Vector2();
	mRim = new Vector2();
	mVelocity = new Vector2();
	reset();
	setPhase(ComponentPhases.COLLISION_DETECTION.ordinal());
	}

	@Override
	public void reset() {
	mCenter.zero();
	mDelta.zero();
	mRim.zero();
	mVelocity.zero();
	mStrength = DEFAULT_STRENGTH;
	mAreaRadius = 0.0f;
	mMagnetRadius = 0.0f;
	}

	@Override
	public void update(float timeDelta, BaseObject parent) {
	GameObjectManager manager = sSystemRegistry.gameObjectManager;
	if (manager != null) {
	GameObject player = manager.getPlayer();
	if (player != null) {
	GameObject parentObject = (GameObject)parent;
	applyMagnetism(player,
	parentObject.getCenteredPositionX(),
	parentObject.getCenteredPositionY(),
	timeDelta);
	}
	}
	}

	private void applyMagnetism(GameObject target, float centerX, float centerY, float timeDelta) {
	mCenter.set(centerX, centerY);
	final float targetX = target.getCenteredPositionX();
	final float targetY = target.getCenteredPositionY();
	mDelta.set(targetX, targetY);
	mDelta.subtract(mCenter);

	final float distanceFromCenter2 = mDelta.length2();
	final float area2 = mAreaRadius * mAreaRadius;
	if (distanceFromCenter2 < area2) {
	mRim.set(mDelta);
	mRim.normalize();
	mRim.multiply(mMagnetRadius);
	mRim.add(mCenter);
	// rim is now the closest point on the magnet circle

	// remove gravity
	final Vector2 targetVelocity = target.getVelocity();
	GravityComponent gravity = target.findByClass(GravityComponent.class);
	final Vector2 gravityVector = gravity.getGravity();
	mVelocity.set(gravityVector);
	mVelocity.multiply(timeDelta);
	targetVelocity.subtract(mVelocity);

	mDelta.add(targetVelocity);
	mDelta.normalize();
	mDelta.multiply(mMagnetRadius);
	mDelta.add(mCenter);

	// mDelta is now the next point on the magnet circle in the direction of
	// movement.

	mDelta.subtract(mRim);
	mDelta.normalize();
	// Now mDelta is the tangent to the magnet circle, pointing in the direction
	// of movement.

	mVelocity.set(mDelta);
	mVelocity.normalize();

	// mVelocity is now the direction to push the player

	mVelocity.multiply(mStrength);
	float weight = 1.0f;
	if (distanceFromCenter2 > mMagnetRadius * mMagnetRadius) {
	float distance = (float)Math.sqrt(distanceFromCenter2);
	weight = (distance - mMagnetRadius) / (mAreaRadius - mMagnetRadius);
	weight = 1.0f - weight;
	mVelocity.multiply(weight);
	}
	final float speed = targetVelocity.length();
	targetVelocity.add(mVelocity);
	if (targetVelocity.length2() > (speed * speed)) {
	targetVelocity.normalize();
	targetVelocity.multiply(speed);
	}

	}

	}

	public void setup(float areaRadius, float orbitRadius) {
	mAreaRadius = areaRadius;
	mMagnetRadius = orbitRadius;
	}
	}