public static void setBestExposure(Camera.Parameters parameters, boolean lightOn) { int minExposure = parameters.getMinExposureCompensation(); int maxExposure = parameters.getMaxExposureCompensation(); float step = parameters.getExposureCompensationStep(); if ((minExposure != 0 || maxExposure != 0) && step > 0.0f) { // Set low when light is on float targetCompensation = lightOn ? MIN_EXPOSURE_COMPENSATION : MAX_EXPOSURE_COMPENSATION; int compensationSteps = Math.round(targetCompensation / step); float actualCompensation = step * compensationSteps; // Clamp value: compensationSteps = Math.max(Math.min(compensationSteps, maxExposure), minExposure); if (parameters.getExposureCompensation() == compensationSteps) { Log.i( TAG, "Exposure compensation already set to " + compensationSteps + " / " + actualCompensation); } else { Log.i( TAG, "Setting exposure compensation to " + compensationSteps + " / " + actualCompensation); parameters.setExposureCompensation(compensationSteps); } } else { Log.i(TAG, "Camera does not support exposure compensation"); } }
/** * Set the legacy parameters using the {@link LegacyRequest legacy request}. * * <p>The legacy request's parameters are changed as a side effect of calling this method. * * @param legacyRequest a non-{@code null} legacy request */ public static void convertRequestMetadata(LegacyRequest legacyRequest) { CameraCharacteristics characteristics = legacyRequest.characteristics; CaptureRequest request = legacyRequest.captureRequest; Size previewSize = legacyRequest.previewSize; Camera.Parameters params = legacyRequest.parameters; Rect activeArray = characteristics.get(CameraCharacteristics.SENSOR_INFO_ACTIVE_ARRAY_SIZE); /* * scaler.cropRegion */ ParameterUtils.ZoomData zoomData; { zoomData = ParameterUtils.convertScalerCropRegion( activeArray, request.get(SCALER_CROP_REGION), previewSize, params); if (params.isZoomSupported()) { params.setZoom(zoomData.zoomIndex); } else if (VERBOSE) { Log.v(TAG, "convertRequestToMetadata - zoom is not supported"); } } /* * colorCorrection.* */ // colorCorrection.aberrationMode { int aberrationMode = ParamsUtils.getOrDefault( request, COLOR_CORRECTION_ABERRATION_MODE, /*defaultValue*/ COLOR_CORRECTION_ABERRATION_MODE_FAST); if (aberrationMode != COLOR_CORRECTION_ABERRATION_MODE_FAST) { Log.w( TAG, "convertRequestToMetadata - Ignoring unsupported " + "colorCorrection.aberrationMode = " + aberrationMode); } } /* * control.ae* */ // control.aeAntibandingMode { String legacyMode; Integer antiBandingMode = request.get(CONTROL_AE_ANTIBANDING_MODE); if (antiBandingMode != null) { legacyMode = convertAeAntiBandingModeToLegacy(antiBandingMode); } else { legacyMode = ListUtils.listSelectFirstFrom( params.getSupportedAntibanding(), new String[] { Parameters.ANTIBANDING_AUTO, Parameters.ANTIBANDING_OFF, Parameters.ANTIBANDING_50HZ, Parameters.ANTIBANDING_60HZ, }); } if (legacyMode != null) { params.setAntibanding(legacyMode); } } /* * control.aeRegions, afRegions */ { // aeRegions { // Use aeRegions if available, fall back to using awbRegions if present MeteringRectangle[] aeRegions = request.get(CONTROL_AE_REGIONS); if (request.get(CONTROL_AWB_REGIONS) != null) { Log.w( TAG, "convertRequestMetadata - control.awbRegions setting is not " + "supported, ignoring value"); } int maxNumMeteringAreas = params.getMaxNumMeteringAreas(); List<Camera.Area> meteringAreaList = convertMeteringRegionsToLegacy( activeArray, zoomData, aeRegions, maxNumMeteringAreas, /*regionName*/ "AE"); // WAR: for b/17252693, some devices can't handle params.setFocusAreas(null). if (maxNumMeteringAreas > 0) { params.setMeteringAreas(meteringAreaList); } } // afRegions { MeteringRectangle[] afRegions = request.get(CONTROL_AF_REGIONS); int maxNumFocusAreas = params.getMaxNumFocusAreas(); List<Camera.Area> focusAreaList = convertMeteringRegionsToLegacy( activeArray, zoomData, afRegions, maxNumFocusAreas, /*regionName*/ "AF"); // WAR: for b/17252693, some devices can't handle params.setFocusAreas(null). if (maxNumFocusAreas > 0) { params.setFocusAreas(focusAreaList); } } } // control.aeTargetFpsRange Range<Integer> aeFpsRange = request.get(CONTROL_AE_TARGET_FPS_RANGE); if (aeFpsRange != null) { int[] legacyFps = convertAeFpsRangeToLegacy(aeFpsRange); // TODO - Should we enforce that all HAL1 devices must include (30, 30) FPS range? boolean supported = false; for (int[] range : params.getSupportedPreviewFpsRange()) { if (legacyFps[0] == range[0] && legacyFps[1] == range[1]) { supported = true; break; } } if (supported) { params.setPreviewFpsRange( legacyFps[Camera.Parameters.PREVIEW_FPS_MIN_INDEX], legacyFps[Camera.Parameters.PREVIEW_FPS_MAX_INDEX]); } else { Log.w(TAG, "Unsupported FPS range set [" + legacyFps[0] + "," + legacyFps[1] + "]"); } } /* * control */ // control.aeExposureCompensation { Range<Integer> compensationRange = characteristics.get(CameraCharacteristics.CONTROL_AE_COMPENSATION_RANGE); int compensation = ParamsUtils.getOrDefault(request, CONTROL_AE_EXPOSURE_COMPENSATION, /*defaultValue*/ 0); if (!compensationRange.contains(compensation)) { Log.w( TAG, "convertRequestMetadata - control.aeExposureCompensation " + "is out of range, ignoring value"); compensation = 0; } params.setExposureCompensation(compensation); } // control.aeLock { Boolean aeLock = getIfSupported( request, CONTROL_AE_LOCK, /*defaultValue*/ false, params.isAutoExposureLockSupported(), /*allowedValue*/ false); if (aeLock != null) { params.setAutoExposureLock(aeLock); } if (VERBOSE) { Log.v(TAG, "convertRequestToMetadata - control.aeLock set to " + aeLock); } // TODO: Don't add control.aeLock to availableRequestKeys if it's not supported } // control.aeMode, flash.mode mapAeAndFlashMode(request, /*out*/ params); // control.afMode { int afMode = ParamsUtils.getOrDefault(request, CONTROL_AF_MODE, /*defaultValue*/ CONTROL_AF_MODE_OFF); String focusMode = LegacyMetadataMapper.convertAfModeToLegacy(afMode, params.getSupportedFocusModes()); if (focusMode != null) { params.setFocusMode(focusMode); } if (VERBOSE) { Log.v( TAG, "convertRequestToMetadata - control.afMode " + afMode + " mapped to " + focusMode); } } // control.awbMode { Integer awbMode = getIfSupported( request, CONTROL_AWB_MODE, /*defaultValue*/ CONTROL_AWB_MODE_AUTO, params.getSupportedWhiteBalance() != null, /*allowedValue*/ CONTROL_AWB_MODE_AUTO); String whiteBalanceMode = null; if (awbMode != null) { // null iff AWB is not supported by camera1 api whiteBalanceMode = convertAwbModeToLegacy(awbMode); params.setWhiteBalance(whiteBalanceMode); } if (VERBOSE) { Log.v( TAG, "convertRequestToMetadata - control.awbMode " + awbMode + " mapped to " + whiteBalanceMode); } } // control.awbLock { Boolean awbLock = getIfSupported( request, CONTROL_AWB_LOCK, /*defaultValue*/ false, params.isAutoWhiteBalanceLockSupported(), /*allowedValue*/ false); if (awbLock != null) { params.setAutoWhiteBalanceLock(awbLock); } // TODO: Don't add control.awbLock to availableRequestKeys if it's not supported } // control.captureIntent { int captureIntent = ParamsUtils.getOrDefault( request, CONTROL_CAPTURE_INTENT, /*defaultValue*/ CONTROL_CAPTURE_INTENT_PREVIEW); captureIntent = filterSupportedCaptureIntent(captureIntent); params.setRecordingHint( captureIntent == CONTROL_CAPTURE_INTENT_VIDEO_RECORD || captureIntent == CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT); } // control.videoStabilizationMode { Integer stabMode = getIfSupported( request, CONTROL_VIDEO_STABILIZATION_MODE, /*defaultValue*/ CONTROL_VIDEO_STABILIZATION_MODE_OFF, params.isVideoStabilizationSupported(), /*allowedValue*/ CONTROL_VIDEO_STABILIZATION_MODE_OFF); if (stabMode != null) { params.setVideoStabilization(stabMode == CONTROL_VIDEO_STABILIZATION_MODE_ON); } } // lens.focusDistance { boolean infinityFocusSupported = ListUtils.listContains(params.getSupportedFocusModes(), Parameters.FOCUS_MODE_INFINITY); Float focusDistance = getIfSupported( request, LENS_FOCUS_DISTANCE, /*defaultValue*/ 0f, infinityFocusSupported, /*allowedValue*/ 0f); if (focusDistance == null || focusDistance != 0f) { Log.w( TAG, "convertRequestToMetadata - Ignoring android.lens.focusDistance " + infinityFocusSupported + ", only 0.0f is supported"); } } // control.sceneMode, control.mode { // TODO: Map FACE_PRIORITY scene mode to face detection. if (params.getSupportedSceneModes() != null) { int controlMode = ParamsUtils.getOrDefault(request, CONTROL_MODE, /*defaultValue*/ CONTROL_MODE_AUTO); String modeToSet; switch (controlMode) { case CONTROL_MODE_USE_SCENE_MODE: { int sceneMode = ParamsUtils.getOrDefault( request, CONTROL_SCENE_MODE, /*defaultValue*/ CONTROL_SCENE_MODE_DISABLED); String legacySceneMode = LegacyMetadataMapper.convertSceneModeToLegacy(sceneMode); if (legacySceneMode != null) { modeToSet = legacySceneMode; } else { modeToSet = Parameters.SCENE_MODE_AUTO; Log.w(TAG, "Skipping unknown requested scene mode: " + sceneMode); } break; } case CONTROL_MODE_AUTO: { modeToSet = Parameters.SCENE_MODE_AUTO; break; } default: { Log.w(TAG, "Control mode " + controlMode + " is unsupported, defaulting to AUTO"); modeToSet = Parameters.SCENE_MODE_AUTO; } } params.setSceneMode(modeToSet); } } // control.effectMode { if (params.getSupportedColorEffects() != null) { int effectMode = ParamsUtils.getOrDefault( request, CONTROL_EFFECT_MODE, /*defaultValue*/ CONTROL_EFFECT_MODE_OFF); String legacyEffectMode = LegacyMetadataMapper.convertEffectModeToLegacy(effectMode); if (legacyEffectMode != null) { params.setColorEffect(legacyEffectMode); } else { params.setColorEffect(Parameters.EFFECT_NONE); Log.w(TAG, "Skipping unknown requested effect mode: " + effectMode); } } } /* * sensor */ // sensor.testPattern { int testPatternMode = ParamsUtils.getOrDefault( request, SENSOR_TEST_PATTERN_MODE, /*defaultValue*/ SENSOR_TEST_PATTERN_MODE_OFF); if (testPatternMode != SENSOR_TEST_PATTERN_MODE_OFF) { Log.w( TAG, "convertRequestToMetadata - ignoring sensor.testPatternMode " + testPatternMode + "; only OFF is supported"); } } /* * jpeg.* */ // jpeg.gpsLocation { Location location = request.get(JPEG_GPS_LOCATION); if (location != null) { if (checkForCompleteGpsData(location)) { params.setGpsAltitude(location.getAltitude()); params.setGpsLatitude(location.getLatitude()); params.setGpsLongitude(location.getLongitude()); params.setGpsProcessingMethod(location.getProvider().toUpperCase()); params.setGpsTimestamp(location.getTime()); } else { Log.w(TAG, "Incomplete GPS parameters provided in location " + location); } } else { params.removeGpsData(); } } // jpeg.orientation { Integer orientation = request.get(CaptureRequest.JPEG_ORIENTATION); params.setRotation( ParamsUtils.getOrDefault( request, JPEG_ORIENTATION, (orientation == null) ? 0 : orientation)); } // jpeg.quality { params.setJpegQuality( 0xFF & ParamsUtils.getOrDefault(request, JPEG_QUALITY, DEFAULT_JPEG_QUALITY)); } // jpeg.thumbnailQuality { params.setJpegThumbnailQuality( 0xFF & ParamsUtils.getOrDefault(request, JPEG_THUMBNAIL_QUALITY, DEFAULT_JPEG_QUALITY)); } // jpeg.thumbnailSize { List<Camera.Size> sizes = params.getSupportedJpegThumbnailSizes(); if (sizes != null && sizes.size() > 0) { Size s = request.get(JPEG_THUMBNAIL_SIZE); boolean invalidSize = (s == null) ? false : !ParameterUtils.containsSize(sizes, s.getWidth(), s.getHeight()); if (invalidSize) { Log.w(TAG, "Invalid JPEG thumbnail size set " + s + ", skipping thumbnail..."); } if (s == null || invalidSize) { // (0,0) = "no thumbnail" in Camera API 1 params.setJpegThumbnailSize(/*width*/ 0, /*height*/ 0); } else { params.setJpegThumbnailSize(s.getWidth(), s.getHeight()); } } } /* * noiseReduction.* */ // noiseReduction.mode { int mode = ParamsUtils.getOrDefault( request, NOISE_REDUCTION_MODE, /*defaultValue*/ NOISE_REDUCTION_MODE_FAST); if (mode != NOISE_REDUCTION_MODE_FAST) { Log.w( TAG, "convertRequestToMetadata - Ignoring unsupported " + "noiseReduction.mode = " + mode); } } }
public void set_camera_recover() { parameters.setExposureCompensation(0); parameters.set("scene-mode-values", "auto"); camera.setParameters(parameters); }