packages/SystemUI/tests/src/com/android/systemui/classifier/TypeClassifierTest.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2020 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.classifier;

 import static com.android.systemui.classifier.Classifier.BOUNCER_UNLOCK;
 import static com.android.systemui.classifier.Classifier.BRIGHTNESS_SLIDER;
 import static com.android.systemui.classifier.Classifier.LEFT_AFFORDANCE;
 import static com.android.systemui.classifier.Classifier.NOTIFICATION_DISMISS;
 import static com.android.systemui.classifier.Classifier.NOTIFICATION_DRAG_DOWN;
 import static com.android.systemui.classifier.Classifier.PULSE_EXPAND;
 import static com.android.systemui.classifier.Classifier.QS_SWIPE;
 import static com.android.systemui.classifier.Classifier.QUICK_SETTINGS;
 import static com.android.systemui.classifier.Classifier.RIGHT_AFFORDANCE;
 import static com.android.systemui.classifier.Classifier.UNLOCK;

 import static com.google.common.truth.Truth.assertThat;

 import static org.mockito.Mockito.when;

 import android.testing.AndroidTestingRunner;

 import androidx.test.filters.SmallTest;

 import org.junit.Before;
 import org.junit.Test;
 import org.junit.runner.RunWith;
 import org.mockito.Mock;
 import org.mockito.MockitoAnnotations;

 @SmallTest
 @RunWith(AndroidTestingRunner.class)
 public class TypeClassifierTest extends ClassifierTest {

     @Mock
     private FalsingDataProvider mDataProvider;
     private FalsingClassifier mClassifier;

     @Before
     public void setup() {
         super.setup();
         MockitoAnnotations.initMocks(this);
         mClassifier = new TypeClassifier(mDataProvider);
     }

     @Test
     public void testPass_QuickSettings() {
         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);

         when(mDataProvider.isRight()).thenReturn(false);  // right should cause no effect.
         assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_QuickSettings() {
         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_PulseExpand() {
         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);

         when(mDataProvider.isRight()).thenReturn(false);  // right should cause no effect.
         assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_PulseExpand() {
         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_NotificationDragDown() {
         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);

         when(mDataProvider.isRight()).thenReturn(false);  // right should cause no effect.
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_NotificationDragDown() {
         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_NotificationDismiss() {
         when(mDataProvider.isVertical()).thenReturn(false);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_NotificationDismiss() {
         when(mDataProvider.isVertical()).thenReturn(true);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();
     }


     @Test
     public void testPass_Unlock() {
         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(true);


         when(mDataProvider.isRight()).thenReturn(false);  // right should cause no effect.
         assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_Unlock() {
         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_BouncerUnlock() {
         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(true);


         when(mDataProvider.isRight()).thenReturn(false);  // right should cause no effect.
         assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_BouncerUnlock() {
         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isVertical()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_LeftAffordance() {
         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);


         when(mDataProvider.isVertical()).thenReturn(false);  // vertical should cause no effect.
         assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isVertical()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_LeftAffordance() {
         when(mDataProvider.isRight()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isRight()).thenReturn(true);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isRight()).thenReturn(false);
         when(mDataProvider.isUp()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_RightAffordance() {
         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);


         when(mDataProvider.isVertical()).thenReturn(false);  // vertical should cause no effect.
         assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isVertical()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_RightAffordance() {
         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_BrightnessSlider() {
         when(mDataProvider.isVertical()).thenReturn(false);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_BrightnessSlider() {
         when(mDataProvider.isVertical()).thenReturn(true);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();
     }

     @Test
     public void testPass_QsSwipe() {
         when(mDataProvider.isVertical()).thenReturn(false);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();
     }

     @Test
     public void testFalse_QsSwipe() {
         when(mDataProvider.isVertical()).thenReturn(true);

         when(mDataProvider.isUp()).thenReturn(false);  // up and right should cause no effect.
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(false);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(false);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

         when(mDataProvider.isUp()).thenReturn(true);
         when(mDataProvider.isRight()).thenReturn(true);
         assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();
     }
 }
	/*
	* Copyright (C) 2020 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.classifier;

	import static com.android.systemui.classifier.Classifier.BOUNCER_UNLOCK;
	import static com.android.systemui.classifier.Classifier.BRIGHTNESS_SLIDER;
	import static com.android.systemui.classifier.Classifier.LEFT_AFFORDANCE;
	import static com.android.systemui.classifier.Classifier.NOTIFICATION_DISMISS;
	import static com.android.systemui.classifier.Classifier.NOTIFICATION_DRAG_DOWN;
	import static com.android.systemui.classifier.Classifier.PULSE_EXPAND;
	import static com.android.systemui.classifier.Classifier.QS_SWIPE;
	import static com.android.systemui.classifier.Classifier.QUICK_SETTINGS;
	import static com.android.systemui.classifier.Classifier.RIGHT_AFFORDANCE;
	import static com.android.systemui.classifier.Classifier.UNLOCK;

	import static com.google.common.truth.Truth.assertThat;

	import static org.mockito.Mockito.when;

	import android.testing.AndroidTestingRunner;

	import androidx.test.filters.SmallTest;

	import org.junit.Before;
	import org.junit.Test;
	import org.junit.runner.RunWith;
	import org.mockito.Mock;
	import org.mockito.MockitoAnnotations;

	@SmallTest
	@RunWith(AndroidTestingRunner.class)
	public class TypeClassifierTest extends ClassifierTest {

	@Mock
	private FalsingDataProvider mDataProvider;
	private FalsingClassifier mClassifier;

	@Before
	public void setup() {
	super.setup();
	MockitoAnnotations.initMocks(this);
	mClassifier = new TypeClassifier(mDataProvider);
	}

	@Test
	public void testPass_QuickSettings() {
	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);

	when(mDataProvider.isRight()).thenReturn(false); // right should cause no effect.
	assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_QuickSettings() {
	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QUICK_SETTINGS, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_PulseExpand() {
	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);

	when(mDataProvider.isRight()).thenReturn(false); // right should cause no effect.
	assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_PulseExpand() {
	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(PULSE_EXPAND, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_NotificationDragDown() {
	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);

	when(mDataProvider.isRight()).thenReturn(false); // right should cause no effect.
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_NotificationDragDown() {
	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DRAG_DOWN, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_NotificationDismiss() {
	when(mDataProvider.isVertical()).thenReturn(false);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_NotificationDismiss() {
	when(mDataProvider.isVertical()).thenReturn(true);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(NOTIFICATION_DISMISS, 0.5, 0).isFalse()).isTrue();
	}


	@Test
	public void testPass_Unlock() {
	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(true);


	when(mDataProvider.isRight()).thenReturn(false); // right should cause no effect.
	assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_Unlock() {
	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(UNLOCK, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_BouncerUnlock() {
	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(true);


	when(mDataProvider.isRight()).thenReturn(false); // right should cause no effect.
	assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_BouncerUnlock() {
	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isVertical()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BOUNCER_UNLOCK, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_LeftAffordance() {
	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);


	when(mDataProvider.isVertical()).thenReturn(false); // vertical should cause no effect.
	assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isVertical()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_LeftAffordance() {
	when(mDataProvider.isRight()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isRight()).thenReturn(true);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isRight()).thenReturn(false);
	when(mDataProvider.isUp()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(LEFT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_RightAffordance() {
	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);


	when(mDataProvider.isVertical()).thenReturn(false); // vertical should cause no effect.
	assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isVertical()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_RightAffordance() {
	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(RIGHT_AFFORDANCE, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_BrightnessSlider() {
	when(mDataProvider.isVertical()).thenReturn(false);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_BrightnessSlider() {
	when(mDataProvider.isVertical()).thenReturn(true);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(BRIGHTNESS_SLIDER, 0.5, 0).isFalse()).isTrue();
	}

	@Test
	public void testPass_QsSwipe() {
	when(mDataProvider.isVertical()).thenReturn(false);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isFalse();
	}

	@Test
	public void testFalse_QsSwipe() {
	when(mDataProvider.isVertical()).thenReturn(true);

	when(mDataProvider.isUp()).thenReturn(false); // up and right should cause no effect.
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(false);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(false);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();

	when(mDataProvider.isUp()).thenReturn(true);
	when(mDataProvider.isRight()).thenReturn(true);
	assertThat(mClassifier.classifyGesture(QS_SWIPE, 0.5, 0).isFalse()).isTrue();
	}
	}