services/tests/servicestests/src/com/android/server/Vector3Test.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2016 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.server;

 import android.test.AndroidTestCase;

 import java.lang.Exception;
 import java.lang.Math;

 /**
  * Tests for {@link com.android.server.AnyMotionDetector.Vector3}
  */
 public class Vector3Test extends AndroidTestCase {
     private static final float tolerance = 1.0f / (1 << 12);
     private static final float STATIONARY_ANGLE_THRESHOLD = 0.05f;

     private AnyMotionDetector.Vector3 unitXAxis;
     private AnyMotionDetector.Vector3 unitYAxis;
     private AnyMotionDetector.Vector3 unitZAxis;
     private AnyMotionDetector.Vector3 x3;
     private AnyMotionDetector.Vector3 case1A;
     private AnyMotionDetector.Vector3 case1B;
     private AnyMotionDetector.Vector3 case2A;
     private AnyMotionDetector.Vector3 case2B;
     private AnyMotionDetector.Vector3 x1y1;
     private AnyMotionDetector.Vector3 xn1y1;
     private AnyMotionDetector.Vector3 x1z1;
     private AnyMotionDetector.Vector3 y1z1;
     private AnyMotionDetector.Vector3 piOverSixUnitCircle;


     private boolean nearlyEqual(float a, float b) {
         return Math.abs(a - b) <= tolerance;
     }

     public void setUp() throws Exception {
         super.setUp();
         unitXAxis = new AnyMotionDetector.Vector3(0, 1, 0, 0);
         unitYAxis = new AnyMotionDetector.Vector3(0, 0, 1, 0);
         unitZAxis = new AnyMotionDetector.Vector3(0, 0, 0, 1);
         x3 = new AnyMotionDetector.Vector3(0, 3, 0, 0);
         x1y1 = new AnyMotionDetector.Vector3(0, 1, 1, 0);
         xn1y1 = new AnyMotionDetector.Vector3(0, -1, 1, 0);
         x1z1 = new AnyMotionDetector.Vector3(0, 1, 0, 1);
         y1z1 = new AnyMotionDetector.Vector3(0, 0, 1, 1);
         piOverSixUnitCircle = new AnyMotionDetector.Vector3(
                 0, (float)Math.sqrt(3)/2, (float)0.5, 0);

         case1A = new AnyMotionDetector.Vector3(0, -9.81f, -0.02f, 0.3f);
         case1B = new AnyMotionDetector.Vector3(0, -9.80f, -0.02f, 0.3f);
         case2A = new AnyMotionDetector.Vector3(0, 1f, 2f, 3f);
         case2B = new AnyMotionDetector.Vector3(0, 4f, 5f, 6f);
     }

     public void testVector3Norm() {
         assertTrue(nearlyEqual(unitXAxis.norm(), 1.0f));
         assertTrue(nearlyEqual(unitYAxis.norm(), 1.0f));
         assertTrue(nearlyEqual(unitZAxis.norm(), 1.0f));
         assertTrue(nearlyEqual(x1y1.norm(), (float)Math.sqrt(2)));
     }

     public void testVector3AngleBetween() {
         // Zero angle.
         assertTrue(nearlyEqual(unitXAxis.angleBetween(unitXAxis), 0.0f));
         assertTrue(nearlyEqual(unitYAxis.angleBetween(unitYAxis), 0.0f));
         assertTrue(nearlyEqual(unitZAxis.angleBetween(unitZAxis), 0.0f));

         // Unit axes should be perpendicular.
         assertTrue(nearlyEqual(unitXAxis.angleBetween(unitYAxis), 90.0f));
         assertTrue(nearlyEqual(unitXAxis.angleBetween(unitZAxis), 90.0f));
         assertTrue(nearlyEqual(unitYAxis.angleBetween(unitZAxis), 90.0f));

         // 45 degree angles.
         assertTrue(nearlyEqual(unitXAxis.angleBetween(x1y1), 45.0f));
         assertTrue(nearlyEqual(unitYAxis.angleBetween(x1y1), 45.0f));

         // 135 degree angles.
         assertTrue(nearlyEqual(xn1y1.angleBetween(unitXAxis), 135.0f));

         // 30 degree angles.
         assertTrue(nearlyEqual(piOverSixUnitCircle.angleBetween(unitXAxis), 30.0f));

         // These vectors are expected to be still.
         assertTrue(case1A.angleBetween(case1A) < STATIONARY_ANGLE_THRESHOLD);
         assertTrue(case1A.angleBetween(case1B) < STATIONARY_ANGLE_THRESHOLD);
         assertTrue(unitXAxis.angleBetween(unitXAxis) < STATIONARY_ANGLE_THRESHOLD);
         assertTrue(unitYAxis.angleBetween(unitYAxis) < STATIONARY_ANGLE_THRESHOLD);
         assertTrue(unitZAxis.angleBetween(unitZAxis) < STATIONARY_ANGLE_THRESHOLD);
     }

     public void testVector3Normalized() {
         AnyMotionDetector.Vector3 unitXAxisNormalized = unitXAxis.normalized();
         assertTrue(nearlyEqual(unitXAxisNormalized.x, unitXAxis.x));
         assertTrue(nearlyEqual(unitXAxisNormalized.y, unitXAxis.y));
         assertTrue(nearlyEqual(unitXAxisNormalized.z, unitXAxis.z));

         // Normalizing the vector created by multiplying the unit vector by 3 gets the unit vector.
         AnyMotionDetector.Vector3 x3Normalized = x3.normalized();
         assertTrue(nearlyEqual(x3Normalized.x, unitXAxis.x));
         assertTrue(nearlyEqual(x3Normalized.y, unitXAxis.y));
         assertTrue(nearlyEqual(x3Normalized.z, unitXAxis.z));
     }

     public void testVector3Cross() {
         AnyMotionDetector.Vector3 xCrossX = unitXAxis.cross(unitXAxis);
         assertTrue(nearlyEqual(xCrossX.x, 0f));
         assertTrue(nearlyEqual(xCrossX.y, 0f));
         assertTrue(nearlyEqual(xCrossX.z, 0f));

         AnyMotionDetector.Vector3 xCrossNx = unitXAxis.cross(unitXAxis.times(-1));
         assertTrue(nearlyEqual(xCrossNx.x, 0f));
         assertTrue(nearlyEqual(xCrossNx.y, 0f));
         assertTrue(nearlyEqual(xCrossNx.z, 0f));

         AnyMotionDetector.Vector3 cross2 = case2A.cross(case2B);
         assertTrue(nearlyEqual(cross2.x, -3));
         assertTrue(nearlyEqual(cross2.y, 6));
         assertTrue(nearlyEqual(cross2.z, -3));
     }

      public void testVector3Times() {
          AnyMotionDetector.Vector3 yTimes2 = unitYAxis.times(2);
          assertTrue(nearlyEqual(yTimes2.x, 0f));
          assertTrue(nearlyEqual(yTimes2.y, 2f));
          assertTrue(nearlyEqual(yTimes2.z, 0f));
      }

      public void testVector3Plus() {
          AnyMotionDetector.Vector3 xPlusY = unitXAxis.plus(unitYAxis);
          assertTrue(nearlyEqual(xPlusY.x, 1f));
          assertTrue(nearlyEqual(xPlusY.y, 1f));
          assertTrue(nearlyEqual(xPlusY.z, 0f));
      }

      public void testVector3Minus() {
          AnyMotionDetector.Vector3 xMinusY = unitXAxis.minus(unitYAxis);
          assertTrue(nearlyEqual(xMinusY.x, 1f));
          assertTrue(nearlyEqual(xMinusY.y, -1f));
          assertTrue(nearlyEqual(xMinusY.z, 0f));
      }

      public void testVector3DotProduct() {
          float xDotX = unitXAxis.dotProduct(unitXAxis);
          float xDotY = unitXAxis.dotProduct(unitYAxis);
          float xDotZ = unitXAxis.dotProduct(unitZAxis);
          assertTrue(nearlyEqual(xDotX, 1f));
          assertTrue(nearlyEqual(xDotY, 0f));
          assertTrue(nearlyEqual(xDotZ, 0f));
      }
 }
	/*
	* Copyright (C) 2016 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.server;

	import android.test.AndroidTestCase;

	import java.lang.Exception;
	import java.lang.Math;

	/**
	* Tests for {@link com.android.server.AnyMotionDetector.Vector3}
	*/
	public class Vector3Test extends AndroidTestCase {
	private static final float tolerance = 1.0f / (1 << 12);
	private static final float STATIONARY_ANGLE_THRESHOLD = 0.05f;

	private AnyMotionDetector.Vector3 unitXAxis;
	private AnyMotionDetector.Vector3 unitYAxis;
	private AnyMotionDetector.Vector3 unitZAxis;
	private AnyMotionDetector.Vector3 x3;
	private AnyMotionDetector.Vector3 case1A;
	private AnyMotionDetector.Vector3 case1B;
	private AnyMotionDetector.Vector3 case2A;
	private AnyMotionDetector.Vector3 case2B;
	private AnyMotionDetector.Vector3 x1y1;
	private AnyMotionDetector.Vector3 xn1y1;
	private AnyMotionDetector.Vector3 x1z1;
	private AnyMotionDetector.Vector3 y1z1;
	private AnyMotionDetector.Vector3 piOverSixUnitCircle;


	private boolean nearlyEqual(float a, float b) {
	return Math.abs(a - b) <= tolerance;
	}

	public void setUp() throws Exception {
	super.setUp();
	unitXAxis = new AnyMotionDetector.Vector3(0, 1, 0, 0);
	unitYAxis = new AnyMotionDetector.Vector3(0, 0, 1, 0);
	unitZAxis = new AnyMotionDetector.Vector3(0, 0, 0, 1);
	x3 = new AnyMotionDetector.Vector3(0, 3, 0, 0);
	x1y1 = new AnyMotionDetector.Vector3(0, 1, 1, 0);
	xn1y1 = new AnyMotionDetector.Vector3(0, -1, 1, 0);
	x1z1 = new AnyMotionDetector.Vector3(0, 1, 0, 1);
	y1z1 = new AnyMotionDetector.Vector3(0, 0, 1, 1);
	piOverSixUnitCircle = new AnyMotionDetector.Vector3(
	0, (float)Math.sqrt(3)/2, (float)0.5, 0);

	case1A = new AnyMotionDetector.Vector3(0, -9.81f, -0.02f, 0.3f);
	case1B = new AnyMotionDetector.Vector3(0, -9.80f, -0.02f, 0.3f);
	case2A = new AnyMotionDetector.Vector3(0, 1f, 2f, 3f);
	case2B = new AnyMotionDetector.Vector3(0, 4f, 5f, 6f);
	}

	public void testVector3Norm() {
	assertTrue(nearlyEqual(unitXAxis.norm(), 1.0f));
	assertTrue(nearlyEqual(unitYAxis.norm(), 1.0f));
	assertTrue(nearlyEqual(unitZAxis.norm(), 1.0f));
	assertTrue(nearlyEqual(x1y1.norm(), (float)Math.sqrt(2)));
	}

	public void testVector3AngleBetween() {
	// Zero angle.
	assertTrue(nearlyEqual(unitXAxis.angleBetween(unitXAxis), 0.0f));
	assertTrue(nearlyEqual(unitYAxis.angleBetween(unitYAxis), 0.0f));
	assertTrue(nearlyEqual(unitZAxis.angleBetween(unitZAxis), 0.0f));

	// Unit axes should be perpendicular.
	assertTrue(nearlyEqual(unitXAxis.angleBetween(unitYAxis), 90.0f));
	assertTrue(nearlyEqual(unitXAxis.angleBetween(unitZAxis), 90.0f));
	assertTrue(nearlyEqual(unitYAxis.angleBetween(unitZAxis), 90.0f));

	// 45 degree angles.
	assertTrue(nearlyEqual(unitXAxis.angleBetween(x1y1), 45.0f));
	assertTrue(nearlyEqual(unitYAxis.angleBetween(x1y1), 45.0f));

	// 135 degree angles.
	assertTrue(nearlyEqual(xn1y1.angleBetween(unitXAxis), 135.0f));

	// 30 degree angles.
	assertTrue(nearlyEqual(piOverSixUnitCircle.angleBetween(unitXAxis), 30.0f));

	// These vectors are expected to be still.
	assertTrue(case1A.angleBetween(case1A) < STATIONARY_ANGLE_THRESHOLD);
	assertTrue(case1A.angleBetween(case1B) < STATIONARY_ANGLE_THRESHOLD);
	assertTrue(unitXAxis.angleBetween(unitXAxis) < STATIONARY_ANGLE_THRESHOLD);
	assertTrue(unitYAxis.angleBetween(unitYAxis) < STATIONARY_ANGLE_THRESHOLD);
	assertTrue(unitZAxis.angleBetween(unitZAxis) < STATIONARY_ANGLE_THRESHOLD);
	}

	public void testVector3Normalized() {
	AnyMotionDetector.Vector3 unitXAxisNormalized = unitXAxis.normalized();
	assertTrue(nearlyEqual(unitXAxisNormalized.x, unitXAxis.x));
	assertTrue(nearlyEqual(unitXAxisNormalized.y, unitXAxis.y));
	assertTrue(nearlyEqual(unitXAxisNormalized.z, unitXAxis.z));

	// Normalizing the vector created by multiplying the unit vector by 3 gets the unit vector.
	AnyMotionDetector.Vector3 x3Normalized = x3.normalized();
	assertTrue(nearlyEqual(x3Normalized.x, unitXAxis.x));
	assertTrue(nearlyEqual(x3Normalized.y, unitXAxis.y));
	assertTrue(nearlyEqual(x3Normalized.z, unitXAxis.z));
	}

	public void testVector3Cross() {
	AnyMotionDetector.Vector3 xCrossX = unitXAxis.cross(unitXAxis);
	assertTrue(nearlyEqual(xCrossX.x, 0f));
	assertTrue(nearlyEqual(xCrossX.y, 0f));
	assertTrue(nearlyEqual(xCrossX.z, 0f));

	AnyMotionDetector.Vector3 xCrossNx = unitXAxis.cross(unitXAxis.times(-1));
	assertTrue(nearlyEqual(xCrossNx.x, 0f));
	assertTrue(nearlyEqual(xCrossNx.y, 0f));
	assertTrue(nearlyEqual(xCrossNx.z, 0f));

	AnyMotionDetector.Vector3 cross2 = case2A.cross(case2B);
	assertTrue(nearlyEqual(cross2.x, -3));
	assertTrue(nearlyEqual(cross2.y, 6));
	assertTrue(nearlyEqual(cross2.z, -3));
	}

	public void testVector3Times() {
	AnyMotionDetector.Vector3 yTimes2 = unitYAxis.times(2);
	assertTrue(nearlyEqual(yTimes2.x, 0f));
	assertTrue(nearlyEqual(yTimes2.y, 2f));
	assertTrue(nearlyEqual(yTimes2.z, 0f));
	}

	public void testVector3Plus() {
	AnyMotionDetector.Vector3 xPlusY = unitXAxis.plus(unitYAxis);
	assertTrue(nearlyEqual(xPlusY.x, 1f));
	assertTrue(nearlyEqual(xPlusY.y, 1f));
	assertTrue(nearlyEqual(xPlusY.z, 0f));
	}

	public void testVector3Minus() {
	AnyMotionDetector.Vector3 xMinusY = unitXAxis.minus(unitYAxis);
	assertTrue(nearlyEqual(xMinusY.x, 1f));
	assertTrue(nearlyEqual(xMinusY.y, -1f));
	assertTrue(nearlyEqual(xMinusY.z, 0f));
	}

	public void testVector3DotProduct() {
	float xDotX = unitXAxis.dotProduct(unitXAxis);
	float xDotY = unitXAxis.dotProduct(unitYAxis);
	float xDotZ = unitXAxis.dotProduct(unitZAxis);
	assertTrue(nearlyEqual(xDotX, 1f));
	assertTrue(nearlyEqual(xDotY, 0f));
	assertTrue(nearlyEqual(xDotZ, 0f));
	}
	}