Loading services/core/java/com/android/server/display/DisplayDeviceConfig.java +3 −8 Original line number Diff line number Diff line Loading @@ -74,6 +74,8 @@ public class DisplayDeviceConfig { // so -2 is used instead private static final float INVALID_BRIGHTNESS_IN_CONFIG = -2f; private static final float NITS_INVALID = -1; private final Context mContext; // The details of the ambient light sensor associated with this display. Loading Loading @@ -230,7 +232,7 @@ public class DisplayDeviceConfig { public float getNitsFromBacklight(float backlight) { if (mBacklightToNitsSpline == null) { Slog.wtf(TAG, "requesting nits when no mapping exists."); return -1; return NITS_INVALID; } backlight = Math.max(backlight, mBacklightMinimum); return mBacklightToNitsSpline.interpolate(backlight); Loading Loading @@ -279,13 +281,6 @@ public class DisplayDeviceConfig { return mProximitySensor; } /** * @return true if a nits to backlight mapping is defined in this config, false otherwise. */ public boolean hasNitsMapping() { return mBacklightToNitsSpline != null; } /** * @param quirkValue The quirk to test. * @return {@code true} if the specified quirk is present in this configuration, Loading services/core/java/com/android/server/display/LocalDisplayAdapter.java +24 −23 Original line number Diff line number Diff line Loading @@ -67,8 +67,6 @@ final class LocalDisplayAdapter extends DisplayAdapter { private static final int NO_DISPLAY_MODE_ID = 0; private static final float NITS_INVALID = -1; private final LongSparseArray<LocalDisplayDevice> mDevices = new LongSparseArray<>(); private final Injector mInjector; Loading Loading @@ -770,49 +768,52 @@ final class LocalDisplayAdapter extends DisplayAdapter { } } private void setDisplayBrightness(float brightness, float sdrBrightness) { // Ensure brightnessState is valid before processing and sending to // surface control if (Float.isNaN(brightness)) { private void setDisplayBrightness(float brightnessState, float sdrBrightnessState) { // brightnessState includes invalid, off and full range. if (Float.isNaN(brightnessState) || Float.isNaN(sdrBrightnessState)) { return; } if (DEBUG) { Slog.d(TAG, "setDisplayBrightness(" + "id=" + physicalDisplayId + ", brightness=" + brightness + ", sdrBrightness=" + sdrBrightness + ")"); + ", brightnessState=" + brightnessState + ", sdrBrightnessState=" + sdrBrightnessState + ")"); } Trace.traceBegin(Trace.TRACE_TAG_POWER, "setDisplayBrightness(" + "id=" + physicalDisplayId + ", brightness=" + brightness + ", sdrBrightness=" + sdrBrightness + ")"); + "id=" + physicalDisplayId + ", brightnessState=" + brightnessState + ", sdrBrightnessState=" + sdrBrightnessState + ")"); try { final float backlight = brightnessToBacklight(brightness); float nits = NITS_INVALID; float sdrBacklight = PowerManager.BRIGHTNESS_INVALID_FLOAT; float sdrNits = NITS_INVALID; if (getDisplayDeviceConfig().hasNitsMapping() && sdrBrightness != PowerManager.BRIGHTNESS_INVALID_FLOAT) { nits = backlightToNits(backlight); sdrBacklight = brightnessToBacklight(sdrBrightness); sdrNits = backlightToNits(sdrBacklight); } final float backlight = brightnessToBacklight(brightnessState); final float sdrBacklight = brightnessToBacklight(sdrBrightnessState); final float nits = backlightToNits(backlight); final float sdrNits = backlightToNits(sdrBacklight); mBacklightAdapter.setBacklight(sdrBacklight, sdrNits, backlight, nits); Trace.traceCounter(Trace.TRACE_TAG_POWER, "ScreenBrightness", BrightnessSynchronizer.brightnessFloatToInt(brightness)); BrightnessSynchronizer.brightnessFloatToInt(brightnessState)); Trace.traceCounter(Trace.TRACE_TAG_POWER, "SdrScreenBrightness", BrightnessSynchronizer.brightnessFloatToInt(sdrBrightness)); BrightnessSynchronizer.brightnessFloatToInt( sdrBrightnessState)); } finally { Trace.traceEnd(Trace.TRACE_TAG_POWER); } } private float brightnessToBacklight(float brightness) { if (BrightnessSynchronizer.floatEquals( brightness, PowerManager.BRIGHTNESS_OFF_FLOAT)) { return PowerManager.BRIGHTNESS_OFF_FLOAT; } else { return getDisplayDeviceConfig().getBacklightFromBrightness(brightness); } } private float backlightToNits(float backlight) { return getDisplayDeviceConfig().getNitsFromBacklight(backlight); Loading Loading
services/core/java/com/android/server/display/DisplayDeviceConfig.java +3 −8 Original line number Diff line number Diff line Loading @@ -74,6 +74,8 @@ public class DisplayDeviceConfig { // so -2 is used instead private static final float INVALID_BRIGHTNESS_IN_CONFIG = -2f; private static final float NITS_INVALID = -1; private final Context mContext; // The details of the ambient light sensor associated with this display. Loading Loading @@ -230,7 +232,7 @@ public class DisplayDeviceConfig { public float getNitsFromBacklight(float backlight) { if (mBacklightToNitsSpline == null) { Slog.wtf(TAG, "requesting nits when no mapping exists."); return -1; return NITS_INVALID; } backlight = Math.max(backlight, mBacklightMinimum); return mBacklightToNitsSpline.interpolate(backlight); Loading Loading @@ -279,13 +281,6 @@ public class DisplayDeviceConfig { return mProximitySensor; } /** * @return true if a nits to backlight mapping is defined in this config, false otherwise. */ public boolean hasNitsMapping() { return mBacklightToNitsSpline != null; } /** * @param quirkValue The quirk to test. * @return {@code true} if the specified quirk is present in this configuration, Loading
services/core/java/com/android/server/display/LocalDisplayAdapter.java +24 −23 Original line number Diff line number Diff line Loading @@ -67,8 +67,6 @@ final class LocalDisplayAdapter extends DisplayAdapter { private static final int NO_DISPLAY_MODE_ID = 0; private static final float NITS_INVALID = -1; private final LongSparseArray<LocalDisplayDevice> mDevices = new LongSparseArray<>(); private final Injector mInjector; Loading Loading @@ -770,49 +768,52 @@ final class LocalDisplayAdapter extends DisplayAdapter { } } private void setDisplayBrightness(float brightness, float sdrBrightness) { // Ensure brightnessState is valid before processing and sending to // surface control if (Float.isNaN(brightness)) { private void setDisplayBrightness(float brightnessState, float sdrBrightnessState) { // brightnessState includes invalid, off and full range. if (Float.isNaN(brightnessState) || Float.isNaN(sdrBrightnessState)) { return; } if (DEBUG) { Slog.d(TAG, "setDisplayBrightness(" + "id=" + physicalDisplayId + ", brightness=" + brightness + ", sdrBrightness=" + sdrBrightness + ")"); + ", brightnessState=" + brightnessState + ", sdrBrightnessState=" + sdrBrightnessState + ")"); } Trace.traceBegin(Trace.TRACE_TAG_POWER, "setDisplayBrightness(" + "id=" + physicalDisplayId + ", brightness=" + brightness + ", sdrBrightness=" + sdrBrightness + ")"); + "id=" + physicalDisplayId + ", brightnessState=" + brightnessState + ", sdrBrightnessState=" + sdrBrightnessState + ")"); try { final float backlight = brightnessToBacklight(brightness); float nits = NITS_INVALID; float sdrBacklight = PowerManager.BRIGHTNESS_INVALID_FLOAT; float sdrNits = NITS_INVALID; if (getDisplayDeviceConfig().hasNitsMapping() && sdrBrightness != PowerManager.BRIGHTNESS_INVALID_FLOAT) { nits = backlightToNits(backlight); sdrBacklight = brightnessToBacklight(sdrBrightness); sdrNits = backlightToNits(sdrBacklight); } final float backlight = brightnessToBacklight(brightnessState); final float sdrBacklight = brightnessToBacklight(sdrBrightnessState); final float nits = backlightToNits(backlight); final float sdrNits = backlightToNits(sdrBacklight); mBacklightAdapter.setBacklight(sdrBacklight, sdrNits, backlight, nits); Trace.traceCounter(Trace.TRACE_TAG_POWER, "ScreenBrightness", BrightnessSynchronizer.brightnessFloatToInt(brightness)); BrightnessSynchronizer.brightnessFloatToInt(brightnessState)); Trace.traceCounter(Trace.TRACE_TAG_POWER, "SdrScreenBrightness", BrightnessSynchronizer.brightnessFloatToInt(sdrBrightness)); BrightnessSynchronizer.brightnessFloatToInt( sdrBrightnessState)); } finally { Trace.traceEnd(Trace.TRACE_TAG_POWER); } } private float brightnessToBacklight(float brightness) { if (BrightnessSynchronizer.floatEquals( brightness, PowerManager.BRIGHTNESS_OFF_FLOAT)) { return PowerManager.BRIGHTNESS_OFF_FLOAT; } else { return getDisplayDeviceConfig().getBacklightFromBrightness(brightness); } } private float backlightToNits(float backlight) { return getDisplayDeviceConfig().getNitsFromBacklight(backlight); Loading
