packages/SystemUI/src/com/android/systemui/statusbar/FlingAnimationUtils.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2014 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.android.systemui.statusbar;

 import android.animation.Animator;
 import android.content.Context;
 import android.view.ViewPropertyAnimator;
 import android.view.animation.AnimationUtils;
 import android.view.animation.Interpolator;
 import android.view.animation.PathInterpolator;

 /**
  * Utility class to calculate general fling animation when the finger is released.
  */
 public class FlingAnimationUtils {

     private static final float LINEAR_OUT_SLOW_IN_X2 = 0.35f;
     private static final float LINEAR_OUT_FASTER_IN_X2 = 0.5f;
     private static final float LINEAR_OUT_FASTER_IN_Y2_MIN = 0.4f;
     private static final float LINEAR_OUT_FASTER_IN_Y2_MAX = 0.5f;
     private static final float MIN_VELOCITY_DP_PER_SECOND = 250;
     private static final float HIGH_VELOCITY_DP_PER_SECOND = 3000;

     /**
      * Crazy math. http://en.wikipedia.org/wiki/B%C3%A9zier_curve
      */
     private static final float LINEAR_OUT_SLOW_IN_START_GRADIENT = 1.0f / LINEAR_OUT_SLOW_IN_X2;

     private Interpolator mLinearOutSlowIn;
     private Interpolator mFastOutSlowIn;
     private Interpolator mFastOutLinearIn;

     private float mMinVelocityPxPerSecond;
     private float mMaxLengthSeconds;
     private float mHighVelocityPxPerSecond;

     private AnimatorProperties mAnimatorProperties = new AnimatorProperties();

     public FlingAnimationUtils(Context ctx, float maxLengthSeconds) {
         mMaxLengthSeconds = maxLengthSeconds;
         mLinearOutSlowIn = new PathInterpolator(0, 0, LINEAR_OUT_SLOW_IN_X2, 1);
         mFastOutSlowIn
                 = AnimationUtils.loadInterpolator(ctx, android.R.interpolator.fast_out_slow_in);
         mFastOutLinearIn
                 = AnimationUtils.loadInterpolator(ctx, android.R.interpolator.fast_out_linear_in);
         mMinVelocityPxPerSecond
                 = MIN_VELOCITY_DP_PER_SECOND * ctx.getResources().getDisplayMetrics().density;
         mHighVelocityPxPerSecond
                 = HIGH_VELOCITY_DP_PER_SECOND * ctx.getResources().getDisplayMetrics().density;
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      */
     public void apply(Animator animator, float currValue, float endValue, float velocity) {
         apply(animator, currValue, endValue, velocity, Math.abs(endValue - currValue));
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      */
     public void apply(ViewPropertyAnimator animator, float currValue, float endValue,
             float velocity) {
         apply(animator, currValue, endValue, velocity, Math.abs(endValue - currValue));
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      * @param maxDistance the maximum distance for this interaction; the maximum animation length
      *                    gets multiplied by the ratio between the actual distance and this value
      */
     public void apply(Animator animator, float currValue, float endValue, float velocity,
             float maxDistance) {
         AnimatorProperties properties = getProperties(currValue, endValue, velocity,
                 maxDistance);
         animator.setDuration(properties.duration);
         animator.setInterpolator(properties.interpolator);
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      * @param maxDistance the maximum distance for this interaction; the maximum animation length
      *                    gets multiplied by the ratio between the actual distance and this value
      */
     public void apply(ViewPropertyAnimator animator, float currValue, float endValue,
             float velocity, float maxDistance) {
         AnimatorProperties properties = getProperties(currValue, endValue, velocity,
                 maxDistance);
         animator.setDuration(properties.duration);
         animator.setInterpolator(properties.interpolator);
     }

     private AnimatorProperties getProperties(float currValue,
             float endValue, float velocity, float maxDistance) {
         float maxLengthSeconds = (float) (mMaxLengthSeconds
                 * Math.sqrt(Math.abs(endValue - currValue) / maxDistance));
         float diff = Math.abs(endValue - currValue);
         float velAbs = Math.abs(velocity);
         float durationSeconds = LINEAR_OUT_SLOW_IN_START_GRADIENT * diff / velAbs;
         if (durationSeconds <= maxLengthSeconds) {
             mAnimatorProperties.interpolator = mLinearOutSlowIn;
         } else if (velAbs >= mMinVelocityPxPerSecond) {

             // Cross fade between fast-out-slow-in and linear interpolator with current velocity.
             durationSeconds = maxLengthSeconds;
             VelocityInterpolator velocityInterpolator
                     = new VelocityInterpolator(durationSeconds, velAbs, diff);
             InterpolatorInterpolator superInterpolator = new InterpolatorInterpolator(
                     velocityInterpolator, mLinearOutSlowIn, mLinearOutSlowIn);
             mAnimatorProperties.interpolator = superInterpolator;
         } else {

             // Just use a normal interpolator which doesn't take the velocity into account.
             durationSeconds = maxLengthSeconds;
             mAnimatorProperties.interpolator = mFastOutSlowIn;
         }
         mAnimatorProperties.duration = (long) (durationSeconds * 1000);
         return mAnimatorProperties;
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion for the case when the animation is making something
      * disappear.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      * @param maxDistance the maximum distance for this interaction; the maximum animation length
      *                    gets multiplied by the ratio between the actual distance and this value
      */
     public void applyDismissing(Animator animator, float currValue, float endValue,
             float velocity, float maxDistance) {
         AnimatorProperties properties = getDismissingProperties(currValue, endValue, velocity,
                 maxDistance);
         animator.setDuration(properties.duration);
         animator.setInterpolator(properties.interpolator);
     }

     /**
      * Applies the interpolator and length to the animator, such that the fling animation is
      * consistent with the finger motion for the case when the animation is making something
      * disappear.
      *
      * @param animator the animator to apply
      * @param currValue the current value
      * @param endValue the end value of the animator
      * @param velocity the current velocity of the motion
      * @param maxDistance the maximum distance for this interaction; the maximum animation length
      *                    gets multiplied by the ratio between the actual distance and this value
      */
     public void applyDismissing(ViewPropertyAnimator animator, float currValue, float endValue,
             float velocity, float maxDistance) {
         AnimatorProperties properties = getDismissingProperties(currValue, endValue, velocity,
                 maxDistance);
         animator.setDuration(properties.duration);
         animator.setInterpolator(properties.interpolator);
     }

     private AnimatorProperties getDismissingProperties(float currValue, float endValue,
             float velocity, float maxDistance) {
         float maxLengthSeconds = (float) (mMaxLengthSeconds
                 * Math.pow(Math.abs(endValue - currValue) / maxDistance, 0.5f));
         float diff = Math.abs(endValue - currValue);
         float velAbs = Math.abs(velocity);
         float y2 = calculateLinearOutFasterInY2(velAbs);

         float startGradient = y2 / LINEAR_OUT_FASTER_IN_X2;
         Interpolator mLinearOutFasterIn = new PathInterpolator(0, 0, LINEAR_OUT_FASTER_IN_X2, y2);
         float durationSeconds = startGradient * diff / velAbs;
         if (durationSeconds <= maxLengthSeconds) {
             mAnimatorProperties.interpolator = mLinearOutFasterIn;
         } else if (velAbs >= mMinVelocityPxPerSecond) {

             // Cross fade between linear-out-faster-in and linear interpolator with current
             // velocity.
             durationSeconds = maxLengthSeconds;
             VelocityInterpolator velocityInterpolator
                     = new VelocityInterpolator(durationSeconds, velAbs, diff);
             InterpolatorInterpolator superInterpolator = new InterpolatorInterpolator(
                     velocityInterpolator, mLinearOutFasterIn, mLinearOutSlowIn);
             mAnimatorProperties.interpolator = superInterpolator;
         } else {

             // Just use a normal interpolator which doesn't take the velocity into account.
             durationSeconds = maxLengthSeconds;
             mAnimatorProperties.interpolator = mFastOutLinearIn;
         }
         mAnimatorProperties.duration = (long) (durationSeconds * 1000);
         return mAnimatorProperties;
     }

     /**
      * Calculates the y2 control point for a linear-out-faster-in path interpolator depending on the
      * velocity. The faster the velocity, the more "linear" the interpolator gets.
      *
      * @param velocity the velocity of the gesture.
      * @return the y2 control point for a cubic bezier path interpolator
      */
     private float calculateLinearOutFasterInY2(float velocity) {
         float t = (velocity - mMinVelocityPxPerSecond)
                 / (mHighVelocityPxPerSecond - mMinVelocityPxPerSecond);
         t = Math.max(0, Math.min(1, t));
         return (1 - t) * LINEAR_OUT_FASTER_IN_Y2_MIN + t * LINEAR_OUT_FASTER_IN_Y2_MAX;
     }

     /**
      * @return the minimum velocity a gesture needs to have to be considered a fling
      */
     public float getMinVelocityPxPerSecond() {
         return mMinVelocityPxPerSecond;
     }

     /**
      * An interpolator which interpolates two interpolators with an interpolator.
      */
     private static final class InterpolatorInterpolator implements Interpolator {

         private Interpolator mInterpolator1;
         private Interpolator mInterpolator2;
         private Interpolator mCrossfader;

         InterpolatorInterpolator(Interpolator interpolator1, Interpolator interpolator2,
                 Interpolator crossfader) {
             mInterpolator1 = interpolator1;
             mInterpolator2 = interpolator2;
             mCrossfader = crossfader;
         }

         @Override
         public float getInterpolation(float input) {
             float t = mCrossfader.getInterpolation(input);
             return (1 - t) * mInterpolator1.getInterpolation(input)
                     + t * mInterpolator2.getInterpolation(input);
         }
     }

     /**
      * An interpolator which interpolates with a fixed velocity.
      */
     private static final class VelocityInterpolator implements Interpolator {

         private float mDurationSeconds;
         private float mVelocity;
         private float mDiff;

         private VelocityInterpolator(float durationSeconds, float velocity, float diff) {
             mDurationSeconds = durationSeconds;
             mVelocity = velocity;
             mDiff = diff;
         }

         @Override
         public float getInterpolation(float input) {
             float time = input * mDurationSeconds;
             return time * mVelocity / mDiff;
         }
     }

     private static class AnimatorProperties {
         Interpolator interpolator;
         long duration;
     }

 }
	/*
	* Copyright (C) 2014 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.android.systemui.statusbar;

	import android.animation.Animator;
	import android.content.Context;
	import android.view.ViewPropertyAnimator;
	import android.view.animation.AnimationUtils;
	import android.view.animation.Interpolator;
	import android.view.animation.PathInterpolator;

	/**
	* Utility class to calculate general fling animation when the finger is released.
	*/
	public class FlingAnimationUtils {

	private static final float LINEAR_OUT_SLOW_IN_X2 = 0.35f;
	private static final float LINEAR_OUT_FASTER_IN_X2 = 0.5f;
	private static final float LINEAR_OUT_FASTER_IN_Y2_MIN = 0.4f;
	private static final float LINEAR_OUT_FASTER_IN_Y2_MAX = 0.5f;
	private static final float MIN_VELOCITY_DP_PER_SECOND = 250;
	private static final float HIGH_VELOCITY_DP_PER_SECOND = 3000;

	/**
	* Crazy math. http://en.wikipedia.org/wiki/B%C3%A9zier_curve
	*/
	private static final float LINEAR_OUT_SLOW_IN_START_GRADIENT = 1.0f / LINEAR_OUT_SLOW_IN_X2;

	private Interpolator mLinearOutSlowIn;
	private Interpolator mFastOutSlowIn;
	private Interpolator mFastOutLinearIn;

	private float mMinVelocityPxPerSecond;
	private float mMaxLengthSeconds;
	private float mHighVelocityPxPerSecond;

	private AnimatorProperties mAnimatorProperties = new AnimatorProperties();

	public FlingAnimationUtils(Context ctx, float maxLengthSeconds) {
	mMaxLengthSeconds = maxLengthSeconds;
	mLinearOutSlowIn = new PathInterpolator(0, 0, LINEAR_OUT_SLOW_IN_X2, 1);
	mFastOutSlowIn
	= AnimationUtils.loadInterpolator(ctx, android.R.interpolator.fast_out_slow_in);
	mFastOutLinearIn
	= AnimationUtils.loadInterpolator(ctx, android.R.interpolator.fast_out_linear_in);
	mMinVelocityPxPerSecond
	= MIN_VELOCITY_DP_PER_SECOND * ctx.getResources().getDisplayMetrics().density;
	mHighVelocityPxPerSecond
	= HIGH_VELOCITY_DP_PER_SECOND * ctx.getResources().getDisplayMetrics().density;
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	*/
	public void apply(Animator animator, float currValue, float endValue, float velocity) {
	apply(animator, currValue, endValue, velocity, Math.abs(endValue - currValue));
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	*/
	public void apply(ViewPropertyAnimator animator, float currValue, float endValue,
	float velocity) {
	apply(animator, currValue, endValue, velocity, Math.abs(endValue - currValue));
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	* @param maxDistance the maximum distance for this interaction; the maximum animation length
	* gets multiplied by the ratio between the actual distance and this value
	*/
	public void apply(Animator animator, float currValue, float endValue, float velocity,
	float maxDistance) {
	AnimatorProperties properties = getProperties(currValue, endValue, velocity,
	maxDistance);
	animator.setDuration(properties.duration);
	animator.setInterpolator(properties.interpolator);
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	* @param maxDistance the maximum distance for this interaction; the maximum animation length
	* gets multiplied by the ratio between the actual distance and this value
	*/
	public void apply(ViewPropertyAnimator animator, float currValue, float endValue,
	float velocity, float maxDistance) {
	AnimatorProperties properties = getProperties(currValue, endValue, velocity,
	maxDistance);
	animator.setDuration(properties.duration);
	animator.setInterpolator(properties.interpolator);
	}

	private AnimatorProperties getProperties(float currValue,
	float endValue, float velocity, float maxDistance) {
	float maxLengthSeconds = (float) (mMaxLengthSeconds
	* Math.sqrt(Math.abs(endValue - currValue) / maxDistance));
	float diff = Math.abs(endValue - currValue);
	float velAbs = Math.abs(velocity);
	float durationSeconds = LINEAR_OUT_SLOW_IN_START_GRADIENT * diff / velAbs;
	if (durationSeconds <= maxLengthSeconds) {
	mAnimatorProperties.interpolator = mLinearOutSlowIn;
	} else if (velAbs >= mMinVelocityPxPerSecond) {

	// Cross fade between fast-out-slow-in and linear interpolator with current velocity.
	durationSeconds = maxLengthSeconds;
	VelocityInterpolator velocityInterpolator
	= new VelocityInterpolator(durationSeconds, velAbs, diff);
	InterpolatorInterpolator superInterpolator = new InterpolatorInterpolator(
	velocityInterpolator, mLinearOutSlowIn, mLinearOutSlowIn);
	mAnimatorProperties.interpolator = superInterpolator;
	} else {

	// Just use a normal interpolator which doesn't take the velocity into account.
	durationSeconds = maxLengthSeconds;
	mAnimatorProperties.interpolator = mFastOutSlowIn;
	}
	mAnimatorProperties.duration = (long) (durationSeconds * 1000);
	return mAnimatorProperties;
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion for the case when the animation is making something
	* disappear.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	* @param maxDistance the maximum distance for this interaction; the maximum animation length
	* gets multiplied by the ratio between the actual distance and this value
	*/
	public void applyDismissing(Animator animator, float currValue, float endValue,
	float velocity, float maxDistance) {
	AnimatorProperties properties = getDismissingProperties(currValue, endValue, velocity,
	maxDistance);
	animator.setDuration(properties.duration);
	animator.setInterpolator(properties.interpolator);
	}

	/**
	* Applies the interpolator and length to the animator, such that the fling animation is
	* consistent with the finger motion for the case when the animation is making something
	* disappear.
	*
	* @param animator the animator to apply
	* @param currValue the current value
	* @param endValue the end value of the animator
	* @param velocity the current velocity of the motion
	* @param maxDistance the maximum distance for this interaction; the maximum animation length
	* gets multiplied by the ratio between the actual distance and this value
	*/
	public void applyDismissing(ViewPropertyAnimator animator, float currValue, float endValue,
	float velocity, float maxDistance) {
	AnimatorProperties properties = getDismissingProperties(currValue, endValue, velocity,
	maxDistance);
	animator.setDuration(properties.duration);
	animator.setInterpolator(properties.interpolator);
	}

	private AnimatorProperties getDismissingProperties(float currValue, float endValue,
	float velocity, float maxDistance) {
	float maxLengthSeconds = (float) (mMaxLengthSeconds
	* Math.pow(Math.abs(endValue - currValue) / maxDistance, 0.5f));
	float diff = Math.abs(endValue - currValue);
	float velAbs = Math.abs(velocity);
	float y2 = calculateLinearOutFasterInY2(velAbs);

	float startGradient = y2 / LINEAR_OUT_FASTER_IN_X2;
	Interpolator mLinearOutFasterIn = new PathInterpolator(0, 0, LINEAR_OUT_FASTER_IN_X2, y2);
	float durationSeconds = startGradient * diff / velAbs;
	if (durationSeconds <= maxLengthSeconds) {
	mAnimatorProperties.interpolator = mLinearOutFasterIn;
	} else if (velAbs >= mMinVelocityPxPerSecond) {

	// Cross fade between linear-out-faster-in and linear interpolator with current
	// velocity.
	durationSeconds = maxLengthSeconds;
	VelocityInterpolator velocityInterpolator
	= new VelocityInterpolator(durationSeconds, velAbs, diff);
	InterpolatorInterpolator superInterpolator = new InterpolatorInterpolator(
	velocityInterpolator, mLinearOutFasterIn, mLinearOutSlowIn);
	mAnimatorProperties.interpolator = superInterpolator;
	} else {

	// Just use a normal interpolator which doesn't take the velocity into account.
	durationSeconds = maxLengthSeconds;
	mAnimatorProperties.interpolator = mFastOutLinearIn;
	}
	mAnimatorProperties.duration = (long) (durationSeconds * 1000);
	return mAnimatorProperties;
	}

	/**
	* Calculates the y2 control point for a linear-out-faster-in path interpolator depending on the
	* velocity. The faster the velocity, the more "linear" the interpolator gets.
	*
	* @param velocity the velocity of the gesture.
	* @return the y2 control point for a cubic bezier path interpolator
	*/
	private float calculateLinearOutFasterInY2(float velocity) {
	float t = (velocity - mMinVelocityPxPerSecond)
	/ (mHighVelocityPxPerSecond - mMinVelocityPxPerSecond);
	t = Math.max(0, Math.min(1, t));
	return (1 - t) * LINEAR_OUT_FASTER_IN_Y2_MIN + t * LINEAR_OUT_FASTER_IN_Y2_MAX;
	}

	/**
	* @return the minimum velocity a gesture needs to have to be considered a fling
	*/
	public float getMinVelocityPxPerSecond() {
	return mMinVelocityPxPerSecond;
	}

	/**
	* An interpolator which interpolates two interpolators with an interpolator.
	*/
	private static final class InterpolatorInterpolator implements Interpolator {

	private Interpolator mInterpolator1;
	private Interpolator mInterpolator2;
	private Interpolator mCrossfader;

	InterpolatorInterpolator(Interpolator interpolator1, Interpolator interpolator2,
	Interpolator crossfader) {
	mInterpolator1 = interpolator1;
	mInterpolator2 = interpolator2;
	mCrossfader = crossfader;
	}

	@Override
	public float getInterpolation(float input) {
	float t = mCrossfader.getInterpolation(input);
	return (1 - t) * mInterpolator1.getInterpolation(input)
	+ t * mInterpolator2.getInterpolation(input);
	}
	}

	/**
	* An interpolator which interpolates with a fixed velocity.
	*/
	private static final class VelocityInterpolator implements Interpolator {

	private float mDurationSeconds;
	private float mVelocity;
	private float mDiff;

	private VelocityInterpolator(float durationSeconds, float velocity, float diff) {
	mDurationSeconds = durationSeconds;
	mVelocity = velocity;
	mDiff = diff;
	}

	@Override
	public float getInterpolation(float input) {
	float time = input * mDurationSeconds;
	return time * mVelocity / mDiff;
	}
	}

	private static class AnimatorProperties {
	Interpolator interpolator;
	long duration;
	}

	}