diff options
7 files changed, 76 insertions, 91 deletions
diff --git a/services/core/java/com/android/server/display/AutomaticBrightnessController.java b/services/core/java/com/android/server/display/AutomaticBrightnessController.java index 88f5c81231b8..c41b8db1ce75 100644 --- a/services/core/java/com/android/server/display/AutomaticBrightnessController.java +++ b/services/core/java/com/android/server/display/AutomaticBrightnessController.java @@ -333,7 +333,7 @@ public class AutomaticBrightnessController { int ambientLightHorizonLong, float userLux, float userNits, DisplayManagerFlags displayManagerFlags) { mInjector = injector; - mClock = injector.createClock(displayManagerFlags.offloadControlsDozeAutoBrightness()); + mClock = injector.createClock(); mContext = context; mCallbacks = callbacks; mSensorManager = sensorManager; @@ -1402,8 +1402,7 @@ public class AutomaticBrightnessController { public void onSensorChanged(SensorEvent event) { if (mLightSensorEnabled) { // The time received from the sensor is in nano seconds, hence changing it to ms - final long time = (mDisplayManagerFlags.offloadControlsDozeAutoBrightness()) - ? TimeUnit.NANOSECONDS.toMillis(event.timestamp) : mClock.uptimeMillis(); + final long time = TimeUnit.NANOSECONDS.toMillis(event.timestamp); final float lux = event.values[0]; handleLightSensorEvent(time, lux); } @@ -1616,20 +1615,13 @@ public class AutomaticBrightnessController { } private static class RealClock implements Clock { - private final boolean mOffloadControlsDozeBrightness; - - RealClock(boolean offloadControlsDozeBrightness) { - mOffloadControlsDozeBrightness = offloadControlsDozeBrightness; - } - @Override public long uptimeMillis() { return SystemClock.uptimeMillis(); } public long getSensorEventScaleTime() { - return (mOffloadControlsDozeBrightness) - ? SystemClock.elapsedRealtime() : uptimeMillis(); + return SystemClock.elapsedRealtime(); } } @@ -1638,8 +1630,8 @@ public class AutomaticBrightnessController { return BackgroundThread.getHandler(); } - Clock createClock(boolean offloadControlsDozeBrightness) { - return new RealClock(offloadControlsDozeBrightness); + Clock createClock() { + return new RealClock(); } } } diff --git a/services/core/java/com/android/server/display/brightness/DisplayBrightnessStrategySelector.java b/services/core/java/com/android/server/display/brightness/DisplayBrightnessStrategySelector.java index 2c6f37448735..6510441ba28f 100644 --- a/services/core/java/com/android/server/display/brightness/DisplayBrightnessStrategySelector.java +++ b/services/core/java/com/android/server/display/brightness/DisplayBrightnessStrategySelector.java @@ -291,8 +291,7 @@ public class DisplayBrightnessStrategySelector { void setAllowAutoBrightnessWhileDozing( DisplayManagerInternal.DisplayOffloadSession displayOffloadSession) { mAllowAutoBrightnessWhileDozing = mAllowAutoBrightnessWhileDozingConfig; - if (mDisplayManagerFlags.offloadControlsDozeAutoBrightness() - && mDisplayManagerFlags.isDisplayOffloadEnabled() + if (mDisplayManagerFlags.isDisplayOffloadEnabled() && displayOffloadSession != null) { mAllowAutoBrightnessWhileDozing &= displayOffloadSession.allowAutoBrightnessInDoze(); } diff --git a/services/core/java/com/android/server/display/feature/DisplayManagerFlags.java b/services/core/java/com/android/server/display/feature/DisplayManagerFlags.java index e4b595ab7c55..c3057ded66eb 100644 --- a/services/core/java/com/android/server/display/feature/DisplayManagerFlags.java +++ b/services/core/java/com/android/server/display/feature/DisplayManagerFlags.java @@ -156,11 +156,6 @@ public class DisplayManagerFlags { Flags.FLAG_DOZE_BRIGHTNESS_FLOAT, Flags::dozeBrightnessFloat); - private final FlagState mOffloadControlsDozeAutoBrightness = new FlagState( - Flags.FLAG_OFFLOAD_CONTROLS_DOZE_AUTO_BRIGHTNESS, - Flags::offloadControlsDozeAutoBrightness - ); - private final FlagState mPeakRefreshRatePhysicalLimit = new FlagState( Flags.FLAG_ENABLE_PEAK_REFRESH_RATE_PHYSICAL_LIMIT, Flags::enablePeakRefreshRatePhysicalLimit @@ -440,13 +435,6 @@ public class DisplayManagerFlags { return mDozeBrightnessFloat.isEnabled(); } - /** - * @return Whether DisplayOffload should control auto-brightness in doze - */ - public boolean offloadControlsDozeAutoBrightness() { - return mOffloadControlsDozeAutoBrightness.isEnabled(); - } - public boolean isPeakRefreshRatePhysicalLimitEnabled() { return mPeakRefreshRatePhysicalLimit.isEnabled(); } @@ -647,7 +635,6 @@ public class DisplayManagerFlags { pw.println(" " + mResolutionBackupRestore); pw.println(" " + mUseFusionProxSensor); pw.println(" " + mDozeBrightnessFloat); - pw.println(" " + mOffloadControlsDozeAutoBrightness); pw.println(" " + mPeakRefreshRatePhysicalLimit); pw.println(" " + mIgnoreAppPreferredRefreshRate); pw.println(" " + mSynthetic60hzModes); diff --git a/services/core/java/com/android/server/display/feature/display_flags.aconfig b/services/core/java/com/android/server/display/feature/display_flags.aconfig index acdc0e0cf891..f5451307afb7 100644 --- a/services/core/java/com/android/server/display/feature/display_flags.aconfig +++ b/services/core/java/com/android/server/display/feature/display_flags.aconfig @@ -255,17 +255,6 @@ flag { } flag { - name: "offload_controls_doze_auto_brightness" - namespace: "display_manager" - description: "Allows the registered DisplayOffloader to control if auto-brightness is used in doze" - bug: "327392714" - is_fixed_read_only: true - metadata { - purpose: PURPOSE_BUGFIX - } -} - -flag { name: "enable_peak_refresh_rate_physical_limit" namespace: "display_manager" description: "Flag for adding physical refresh rate limit if smooth display setting is on " diff --git a/services/tests/displayservicetests/src/com/android/server/display/AutomaticBrightnessControllerTest.java b/services/tests/displayservicetests/src/com/android/server/display/AutomaticBrightnessControllerTest.java index 7d25acd7f5e7..a42116351c2d 100644 --- a/services/tests/displayservicetests/src/com/android/server/display/AutomaticBrightnessControllerTest.java +++ b/services/tests/displayservicetests/src/com/android/server/display/AutomaticBrightnessControllerTest.java @@ -152,7 +152,7 @@ public class AutomaticBrightnessControllerTest { } @Override - AutomaticBrightnessController.Clock createClock(boolean isEnabled) { + AutomaticBrightnessController.Clock createClock() { return new AutomaticBrightnessController.Clock() { @Override public long uptimeMillis() { @@ -618,39 +618,46 @@ public class AutomaticBrightnessControllerTest { long increment = 500; // set autobrightness to low // t = 0 - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); // t = 500 mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); // t = 1000 mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(0.0f, mController.getAmbientLux(), EPSILON); // t = 1500 mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(0.0f, mController.getAmbientLux(), EPSILON); // t = 2000 // ensure that our reading is at 0. mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(0.0f, mController.getAmbientLux(), EPSILON); // t = 2500 // first 10000 lux sensor event reading mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertTrue(mController.getAmbientLux() > 0.0f); assertTrue(mController.getAmbientLux() < 10000.0f); // t = 3000 // lux reading should still not yet be 10000. mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertTrue(mController.getAmbientLux() > 0.0f); assertTrue(mController.getAmbientLux() < 10000.0f); @@ -659,45 +666,53 @@ public class AutomaticBrightnessControllerTest { // lux has been high (10000) for 1000ms. // lux reading should be 10000 // short horizon (ambient lux) is high, long horizon is still not high - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(10000.0f, mController.getAmbientLux(), EPSILON); // t = 4000 // stay high mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(10000.0f, mController.getAmbientLux(), EPSILON); // t = 4500 Mockito.clearInvocations(mBrightnessMappingStrategy); mClock.fastForward(increment); // short horizon is high, long horizon is high too - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 10000, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); verify(mBrightnessMappingStrategy, times(1)).getBrightness(10000, null, -1); assertEquals(10000.0f, mController.getAmbientLux(), EPSILON); // t = 5000 mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertTrue(mController.getAmbientLux() > 0.0f); assertTrue(mController.getAmbientLux() < 10000.0f); // t = 5500 mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertTrue(mController.getAmbientLux() > 0.0f); assertTrue(mController.getAmbientLux() < 10000.0f); // t = 6000 mClock.fastForward(increment); // ambient lux goes to 0 - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 0, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(0.0f, mController.getAmbientLux(), EPSILON); // only the values within the horizon should be kept assertArrayEquals(new float[] {10000, 10000, 0, 0, 0}, mController.getLastSensorValues(), EPSILON); - assertArrayEquals(new long[] {4000, 4500, 5000, 5500, 6000}, + assertArrayEquals(new long[]{4000 + ANDROID_SLEEP_TIME, 4500 + ANDROID_SLEEP_TIME, + 5000 + ANDROID_SLEEP_TIME, 5500 + ANDROID_SLEEP_TIME, + 6000 + ANDROID_SLEEP_TIME}, mController.getLastSensorTimestamps()); } @@ -793,7 +808,8 @@ public class AutomaticBrightnessControllerTest { for (int i = 0; i < 1000; i++) { lux += increment; mClock.fastForward(increment); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); } int valuesCount = (int) Math.ceil((double) AMBIENT_LIGHT_HORIZON_LONG / increment + 1); @@ -807,17 +823,17 @@ public class AutomaticBrightnessControllerTest { long sensorTimestamp = mClock.now(); for (int i = valuesCount - 1; i >= 1; i--) { assertEquals(lux, sensorValues[i], EPSILON); - assertEquals(sensorTimestamp, sensorTimestamps[i]); + assertEquals(sensorTimestamp + ANDROID_SLEEP_TIME, sensorTimestamps[i]); lux -= increment; sensorTimestamp -= increment; } assertEquals(lux, sensorValues[0], EPSILON); - assertEquals(mClock.now() - AMBIENT_LIGHT_HORIZON_LONG, sensorTimestamps[0]); + assertEquals(mClock.now() - AMBIENT_LIGHT_HORIZON_LONG + ANDROID_SLEEP_TIME, + sensorTimestamps[0]); } @Test public void testAmbientLuxBuffers_prunedBeyondLongHorizonExceptLatestValue() throws Exception { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); ArgumentCaptor<SensorEventListener> listenerCaptor = ArgumentCaptor.forClass(SensorEventListener.class); verify(mSensorManager).registerListener(listenerCaptor.capture(), eq(mLightSensor), @@ -867,7 +883,8 @@ public class AutomaticBrightnessControllerTest { for (int i = 0; i < 20; i++) { lux += increment1; mClock.fastForward(increment1); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); } int valuesCount = (int) Math.ceil((double) AMBIENT_LIGHT_HORIZON_LONG / increment1 + 1); @@ -877,7 +894,8 @@ public class AutomaticBrightnessControllerTest { for (int i = 0; i < initialCapacity - valuesCount; i++) { lux += increment2; mClock.fastForward(increment2); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, lux, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); } float[] sensorValues = mController.getLastSensorValues(); @@ -890,7 +908,7 @@ public class AutomaticBrightnessControllerTest { long sensorTimestamp = mClock.now(); for (int i = initialCapacity - 1; i >= 1; i--) { assertEquals(lux, sensorValues[i], EPSILON); - assertEquals(sensorTimestamp, sensorTimestamps[i]); + assertEquals(sensorTimestamp + ANDROID_SLEEP_TIME, sensorTimestamps[i]); if (i >= valuesCount) { lux -= increment2; @@ -901,7 +919,8 @@ public class AutomaticBrightnessControllerTest { } } assertEquals(lux, sensorValues[0], EPSILON); - assertEquals(mClock.now() - AMBIENT_LIGHT_HORIZON_LONG, sensorTimestamps[0]); + assertEquals(mClock.now() - AMBIENT_LIGHT_HORIZON_LONG + ANDROID_SLEEP_TIME, + sensorTimestamps[0]); } @Test @@ -951,25 +970,29 @@ public class AutomaticBrightnessControllerTest { // t = 0 // Initial lux - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); // t = 1000 // Lux isn't steady yet mClock.fastForward(1000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); // t = 1500 // Lux isn't steady yet mClock.fastForward(500); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); // t = 2500 // Lux is steady now mClock.fastForward(1000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); } @@ -992,25 +1015,29 @@ public class AutomaticBrightnessControllerTest { // t = 0 // Initial lux - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); // t = 2000 // Lux isn't steady yet mClock.fastForward(2000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); // t = 2500 // Lux isn't steady yet mClock.fastForward(500); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); // t = 4500 // Lux is steady now mClock.fastForward(2000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); } @@ -1031,19 +1058,22 @@ public class AutomaticBrightnessControllerTest { // t = 0 // Initial lux - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); // t = 500 // Lux isn't steady yet mClock.fastForward(500); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); // t = 1500 // Lux is steady now mClock.fastForward(1000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); } @@ -1068,19 +1098,22 @@ public class AutomaticBrightnessControllerTest { // t = 0 // Initial lux - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 1200, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); // t = 1000 // Lux isn't steady yet mClock.fastForward(1000); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(1200, mController.getAmbientLux(), EPSILON); // t = 2500 // Lux is steady now mClock.fastForward(1500); - listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500)); + listener.onSensorChanged(TestUtils.createSensorEvent(mLightSensor, 500, + (mClock.now() + ANDROID_SLEEP_TIME) * NANO_SECONDS_MULTIPLIER)); assertEquals(500, mController.getAmbientLux(), EPSILON); } diff --git a/services/tests/displayservicetests/src/com/android/server/display/DisplayPowerControllerTest.java b/services/tests/displayservicetests/src/com/android/server/display/DisplayPowerControllerTest.java index aed1f9858660..db94958f769e 100644 --- a/services/tests/displayservicetests/src/com/android/server/display/DisplayPowerControllerTest.java +++ b/services/tests/displayservicetests/src/com/android/server/display/DisplayPowerControllerTest.java @@ -1066,7 +1066,6 @@ public final class DisplayPowerControllerTest { com.android.internal.R.bool.config_allowAutoBrightnessWhileDozing, true); mHolder = createDisplayPowerController(DISPLAY_ID, UNIQUE_ID); when(mDisplayManagerFlagsMock.isDisplayOffloadEnabled()).thenReturn(true); - when(mDisplayManagerFlagsMock.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); mHolder.dpc.setDisplayOffloadSession(mDisplayOffloadSession); @@ -1172,7 +1171,6 @@ public final class DisplayPowerControllerTest { com.android.internal.R.bool.config_allowAutoBrightnessWhileDozing, true); mHolder = createDisplayPowerController(DISPLAY_ID, UNIQUE_ID); when(mDisplayManagerFlagsMock.isDisplayOffloadEnabled()).thenReturn(true); - when(mDisplayManagerFlagsMock.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(false); mHolder.dpc.setDisplayOffloadSession(mDisplayOffloadSession); diff --git a/services/tests/displayservicetests/src/com/android/server/display/brightness/DisplayBrightnessStrategySelectorTest.java b/services/tests/displayservicetests/src/com/android/server/display/brightness/DisplayBrightnessStrategySelectorTest.java index 2ebb6c2a3ce4..ef39167dbabc 100644 --- a/services/tests/displayservicetests/src/com/android/server/display/brightness/DisplayBrightnessStrategySelectorTest.java +++ b/services/tests/displayservicetests/src/com/android/server/display/brightness/DisplayBrightnessStrategySelectorTest.java @@ -240,7 +240,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void selectStrategyDoesNotSelectDozeStrategyWhenOffloadSessionAutoBrightnessIsEnabled() { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -378,7 +377,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void selectStrategy_selectsAutomaticStrategyWhenValid() { when(mDisplayManagerFlags.isRefactorDisplayPowerControllerEnabled()).thenReturn(true); - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -409,7 +407,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void selectStrategy_doesNotSelectAutomaticStrategyWhenStylusInUse() { when(mDisplayManagerFlags.isRefactorDisplayPowerControllerEnabled()).thenReturn(true); - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -536,7 +533,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void setAllowAutoBrightnessWhileDozing_enabledWhenConfigAndOffloadSessionAreEnabled() { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -550,7 +546,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void setAllowAutoBrightnessWhileDozing_disabledWhenOffloadSessionFlagIsDisabled() { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(false); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -564,7 +559,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void setAllowAutoBrightnessWhileDozing_disabledWhenABWhileDozingConfigIsDisabled() { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); when(mDisplayOffloadSession.allowAutoBrightnessInDoze()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( @@ -588,7 +582,6 @@ public final class DisplayBrightnessStrategySelectorTest { @Test public void setAllowAutoBrightnessWhileDozing_EnabledWhenFlagsAreDisabled() { - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(true); when(mResources.getBoolean(R.bool.config_allowAutoBrightnessWhileDozing)).thenReturn( true); mDisplayBrightnessStrategySelector = new DisplayBrightnessStrategySelector(mContext, @@ -600,11 +593,5 @@ public final class DisplayBrightnessStrategySelectorTest { mDisplayBrightnessStrategySelector .setAllowAutoBrightnessWhileDozing(mDisplayOffloadSession); assertTrue(mDisplayBrightnessStrategySelector.isAllowAutoBrightnessWhileDozing()); - - when(mDisplayManagerFlags.isDisplayOffloadEnabled()).thenReturn(true); - when(mDisplayManagerFlags.offloadControlsDozeAutoBrightness()).thenReturn(false); - mDisplayBrightnessStrategySelector - .setAllowAutoBrightnessWhileDozing(mDisplayOffloadSession); - assertTrue(mDisplayBrightnessStrategySelector.isAllowAutoBrightnessWhileDozing()); } } |