tests/tests/view/src/android/view/animation/cts/AccelerateInterpolatorTest.java - platform/cts - Git at Google

 /*
  * Copyright (C) 2008 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 android.view.animation.cts;

 import com.android.cts.view.R;


 import android.app.Activity;
 import android.content.res.XmlResourceParser;
 import android.test.ActivityInstrumentationTestCase2;
 import android.util.AttributeSet;
 import android.util.Xml;
 import android.view.View;
 import android.view.animation.AccelerateInterpolator;
 import android.view.animation.AlphaAnimation;
 import android.view.animation.Animation;
 import android.view.animation.AnimationUtils;
 import android.view.animation.Interpolator;
 import android.view.animation.Transformation;

 public class AccelerateInterpolatorTest
         extends ActivityInstrumentationTestCase2<AnimationTestCtsActivity> {

     public AccelerateInterpolatorTest() {
         super("com.android.cts.view", AnimationTestCtsActivity.class);
     }

     private Activity mActivity;
     private static final float ALPHA_DELTA = 0.001f;

     /** It is defined in R.anim.accelerate_alpha */
     private static final long ACCELERATE_ALPHA_DURATION = 1000;

     @Override
     protected void setUp() throws Exception {
         super.setUp();
         mActivity = getActivity();
     }

     public void testConstructor() {
         new AccelerateInterpolator();

         new AccelerateInterpolator(1.0f);

         XmlResourceParser parser = mActivity.getResources().getAnimation(R.anim.accelerate_alpha);
         AttributeSet attrs = Xml.asAttributeSet(parser);
         new AccelerateInterpolator(mActivity, attrs);
     }

     public void testAccelerateInterpolator() {
         final View animWindow = mActivity.findViewById(R.id.anim_window);

         // XML file of R.anim.accelerate_alpha
         // <alpha xmlns:android="http://schemas.android.com/apk/res/android"
         //      android:interpolator="@android:anim/accelerate_interpolator"
         //      android:fromAlpha="0.1"
         //      android:toAlpha="0.9"
         //      android:duration="1000" />
         final Animation anim = AnimationUtils.loadAnimation(mActivity, R.anim.accelerate_alpha);

         assertEquals(ACCELERATE_ALPHA_DURATION, anim.getDuration());
         assertTrue(anim instanceof AlphaAnimation);

         // factor is 1.0f
         Interpolator interpolator = new AccelerateInterpolator(1.0f);
         anim.setInterpolator(interpolator);
         assertFalse(anim.hasStarted());

         AnimationTestUtils.assertRunAnimation(getInstrumentation(), animWindow, anim);

         Transformation transformation = new Transformation();
         long startTime = anim.getStartTime();
         anim.getTransformation(startTime, transformation);
         float alpha1 = transformation.getAlpha();
         assertEquals(0.1f, alpha1, ALPHA_DELTA);

         anim.getTransformation(startTime + 250, transformation);
         float alpha2 = transformation.getAlpha();

         anim.getTransformation(startTime + 500, transformation);
         float alpha3 = transformation.getAlpha();

         anim.getTransformation(startTime + 750, transformation);
         float alpha4 = transformation.getAlpha();

         anim.getTransformation(startTime + ACCELERATE_ALPHA_DURATION, transformation);
         float alpha5 = transformation.getAlpha();
         assertEquals(0.9f, alpha5, ALPHA_DELTA);

         // check accelerating delta alpha
         float delta1 = alpha2 - alpha1;
         float delta2 = alpha3 - alpha2;
         float delta3 = alpha4 - alpha3;
         float delta4 = alpha5 - alpha4;
         assertTrue(delta1 < delta2);
         assertTrue(delta2 < delta3);
         assertTrue(delta3 < delta4);

         // factor is 1.5f, it starts even slower and ends even faster than 1.0f
         interpolator = new AccelerateInterpolator(1.5f);
         anim.setInterpolator(interpolator);

         AnimationTestUtils.assertRunAnimation(getInstrumentation(), animWindow, anim);

         transformation = new Transformation();
         startTime = anim.getStartTime();
         anim.getTransformation(startTime, transformation);
         float alpha6 = transformation.getAlpha();
         assertEquals(0.1f, alpha1, ALPHA_DELTA);

         anim.getTransformation(startTime + 250, transformation);
         float alpha7 = transformation.getAlpha();

         anim.getTransformation(startTime + 500, transformation);
         float alpha8 = transformation.getAlpha();

         anim.getTransformation(startTime + 750, transformation);
         float alpha9 = transformation.getAlpha();

         anim.getTransformation(startTime + ACCELERATE_ALPHA_DURATION, transformation);
         float alpha10 = transformation.getAlpha();
         assertEquals(0.9f, alpha5, ALPHA_DELTA);

         // check accelerating delta alpha
         float delta5 = alpha7 - alpha6;
         float delta6 = alpha8 - alpha7;
         float delta7 = alpha9 - alpha8;
         float delta8 = alpha10 - alpha9;
         assertTrue(delta5 < delta6);
         assertTrue(delta6 < delta7);
         assertTrue(delta7 < delta8);

         // check whether it starts even slower
         assertTrue(delta5 < delta1);
     }

     public void testGetInterpolation() {
         final float input = 0.25f;
         Interpolator interpolator1 = new AccelerateInterpolator(1.0f);
         // factor is 2.0f, it starts even slower and ends even faster than 1.0f
         Interpolator interpolator2 = new AccelerateInterpolator(2.0f);

         float delta1 = interpolator1.getInterpolation(input);
         float delta2 = interpolator2.getInterpolation(input);

         // check whether it starts even slower
         assertTrue(delta2 < delta1);

         // call directly
         Interpolator interpolator = new AccelerateInterpolator();

         float alpha1 = interpolator.getInterpolation(0f);
         float alpha2 = interpolator.getInterpolation(0.25f);
         float alpha3 = interpolator.getInterpolation(0.5f);
         float alpha4 = interpolator.getInterpolation(0.75f);
         float alpha5 = interpolator.getInterpolation(1f);
         // check accelerating and decelerating delta alpha
         // starts and ends slowly, accelerates through middle
         float delta3 = alpha2 - alpha1;
         float delta4 = alpha3 - alpha2;
         float delta5 = alpha4 - alpha3;
         float delta6 = alpha5 - alpha4;
         assertTrue(delta3 < delta4);
         assertTrue(delta4 < delta5);
         assertTrue(delta5 < delta6);
     }
 }
	/*
	* Copyright (C) 2008 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 android.view.animation.cts;

	import com.android.cts.view.R;


	import android.app.Activity;
	import android.content.res.XmlResourceParser;
	import android.test.ActivityInstrumentationTestCase2;
	import android.util.AttributeSet;
	import android.util.Xml;
	import android.view.View;
	import android.view.animation.AccelerateInterpolator;
	import android.view.animation.AlphaAnimation;
	import android.view.animation.Animation;
	import android.view.animation.AnimationUtils;
	import android.view.animation.Interpolator;
	import android.view.animation.Transformation;

	public class AccelerateInterpolatorTest
	extends ActivityInstrumentationTestCase2<AnimationTestCtsActivity> {

	public AccelerateInterpolatorTest() {
	super("com.android.cts.view", AnimationTestCtsActivity.class);
	}

	private Activity mActivity;
	private static final float ALPHA_DELTA = 0.001f;

	/** It is defined in R.anim.accelerate_alpha */
	private static final long ACCELERATE_ALPHA_DURATION = 1000;

	@Override
	protected void setUp() throws Exception {
	super.setUp();
	mActivity = getActivity();
	}

	public void testConstructor() {
	new AccelerateInterpolator();

	new AccelerateInterpolator(1.0f);

	XmlResourceParser parser = mActivity.getResources().getAnimation(R.anim.accelerate_alpha);
	AttributeSet attrs = Xml.asAttributeSet(parser);
	new AccelerateInterpolator(mActivity, attrs);
	}

	public void testAccelerateInterpolator() {
	final View animWindow = mActivity.findViewById(R.id.anim_window);

	// XML file of R.anim.accelerate_alpha
	// <alpha xmlns:android="http://schemas.android.com/apk/res/android"
	// android:interpolator="@android:anim/accelerate_interpolator"
	// android:fromAlpha="0.1"
	// android:toAlpha="0.9"
	// android:duration="1000" />
	final Animation anim = AnimationUtils.loadAnimation(mActivity, R.anim.accelerate_alpha);

	assertEquals(ACCELERATE_ALPHA_DURATION, anim.getDuration());
	assertTrue(anim instanceof AlphaAnimation);

	// factor is 1.0f
	Interpolator interpolator = new AccelerateInterpolator(1.0f);
	anim.setInterpolator(interpolator);
	assertFalse(anim.hasStarted());

	AnimationTestUtils.assertRunAnimation(getInstrumentation(), animWindow, anim);

	Transformation transformation = new Transformation();
	long startTime = anim.getStartTime();
	anim.getTransformation(startTime, transformation);
	float alpha1 = transformation.getAlpha();
	assertEquals(0.1f, alpha1, ALPHA_DELTA);

	anim.getTransformation(startTime + 250, transformation);
	float alpha2 = transformation.getAlpha();

	anim.getTransformation(startTime + 500, transformation);
	float alpha3 = transformation.getAlpha();

	anim.getTransformation(startTime + 750, transformation);
	float alpha4 = transformation.getAlpha();

	anim.getTransformation(startTime + ACCELERATE_ALPHA_DURATION, transformation);
	float alpha5 = transformation.getAlpha();
	assertEquals(0.9f, alpha5, ALPHA_DELTA);

	// check accelerating delta alpha
	float delta1 = alpha2 - alpha1;
	float delta2 = alpha3 - alpha2;
	float delta3 = alpha4 - alpha3;
	float delta4 = alpha5 - alpha4;
	assertTrue(delta1 < delta2);
	assertTrue(delta2 < delta3);
	assertTrue(delta3 < delta4);

	// factor is 1.5f, it starts even slower and ends even faster than 1.0f
	interpolator = new AccelerateInterpolator(1.5f);
	anim.setInterpolator(interpolator);

	AnimationTestUtils.assertRunAnimation(getInstrumentation(), animWindow, anim);

	transformation = new Transformation();
	startTime = anim.getStartTime();
	anim.getTransformation(startTime, transformation);
	float alpha6 = transformation.getAlpha();
	assertEquals(0.1f, alpha1, ALPHA_DELTA);

	anim.getTransformation(startTime + 250, transformation);
	float alpha7 = transformation.getAlpha();

	anim.getTransformation(startTime + 500, transformation);
	float alpha8 = transformation.getAlpha();

	anim.getTransformation(startTime + 750, transformation);
	float alpha9 = transformation.getAlpha();

	anim.getTransformation(startTime + ACCELERATE_ALPHA_DURATION, transformation);
	float alpha10 = transformation.getAlpha();
	assertEquals(0.9f, alpha5, ALPHA_DELTA);

	// check accelerating delta alpha
	float delta5 = alpha7 - alpha6;
	float delta6 = alpha8 - alpha7;
	float delta7 = alpha9 - alpha8;
	float delta8 = alpha10 - alpha9;
	assertTrue(delta5 < delta6);
	assertTrue(delta6 < delta7);
	assertTrue(delta7 < delta8);

	// check whether it starts even slower
	assertTrue(delta5 < delta1);
	}

	public void testGetInterpolation() {
	final float input = 0.25f;
	Interpolator interpolator1 = new AccelerateInterpolator(1.0f);
	// factor is 2.0f, it starts even slower and ends even faster than 1.0f
	Interpolator interpolator2 = new AccelerateInterpolator(2.0f);

	float delta1 = interpolator1.getInterpolation(input);
	float delta2 = interpolator2.getInterpolation(input);

	// check whether it starts even slower
	assertTrue(delta2 < delta1);

	// call directly
	Interpolator interpolator = new AccelerateInterpolator();

	float alpha1 = interpolator.getInterpolation(0f);
	float alpha2 = interpolator.getInterpolation(0.25f);
	float alpha3 = interpolator.getInterpolation(0.5f);
	float alpha4 = interpolator.getInterpolation(0.75f);
	float alpha5 = interpolator.getInterpolation(1f);
	// check accelerating and decelerating delta alpha
	// starts and ends slowly, accelerates through middle
	float delta3 = alpha2 - alpha1;
	float delta4 = alpha3 - alpha2;
	float delta5 = alpha4 - alpha3;
	float delta6 = alpha5 - alpha4;
	assertTrue(delta3 < delta4);
	assertTrue(delta4 < delta5);
	assertTrue(delta5 < delta6);
	}
	}