* This class defines the basic key/value map used for querying for camera * characteristics or capture results, and for setting camera request * parameters. *
* ** All instances of CameraMetadata are immutable. The list of keys with {@link #getKeys()} * never changes, nor do the values returned by any key with {@code #get} throughout * the lifetime of the object. *
* * @see CameraDevice * @see CameraManager * @see CameraCharacteristics **/ public abstract class CameraMetadataThe field definitions can be * found in {@link CameraCharacteristics}, {@link CaptureResult}, and * {@link CaptureRequest}.
* *Querying the value for the same key more than once will return a value * which is equal to the previous queried value.
* * @throws IllegalArgumentException if the key was not valid * * @param key The metadata field to read. * @return The value of that key, or {@code null} if the field is not set. * * @hide */ protected abstractThe list returned is not modifiable, so any attempts to modify it will throw * a {@code UnsupportedOperationException}.
* *All values retrieved by a key from this list with {@code #get} are guaranteed to be * non-{@code null}. Each key is only listed once in the list. The order of the keys * is undefined.
* * @return List of the keys contained in this map. */ @SuppressWarnings("unchecked") @NonNull public List* Optionally, if {@code instance} is not null, then filter out any keys with null values. *
* ** Optionally, if {@code filterTags} is not {@code null}, then filter out any keys * whose native {@code tag} is not in {@code filterTags}. The {@code filterTags} array will be * sorted as a side effect. *
*/ /*package*/ @SuppressWarnings("unchecked") staticThe lens focus distance is not accurate, and the units used for * {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance} do not correspond to any physical units.
*Setting the lens to the same focus distance on separate occasions may
* result in a different real focus distance, depending on factors such
* as the orientation of the device, the age of the focusing mechanism,
* and the device temperature. The focus distance value will still be
* in the range of [0, {@link CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE android.lens.info.minimumFocusDistance}], where 0
* represents the farthest focus.
The lens focus distance is measured in diopters.
*However, setting the lens to the same focus distance * on separate occasions may result in a different real * focus distance, depending on factors such as the * orientation of the device, the age of the focusing * mechanism, and the device temperature.
* @see CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION */ public static final int LENS_INFO_FOCUS_DISTANCE_CALIBRATION_APPROXIMATE = 1; /** *The lens focus distance is measured in diopters, and * is calibrated.
*The lens mechanism is calibrated so that setting the * same focus distance is repeatable on multiple * occasions with good accuracy, and the focus distance * corresponds to the real physical distance to the plane * of best focus.
* @see CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION */ public static final int LENS_INFO_FOCUS_DISTANCE_CALIBRATION_CALIBRATED = 2; // // Enumeration values for CameraCharacteristics#LENS_FACING // /** *The camera device faces the same direction as the device's screen.
* @see CameraCharacteristics#LENS_FACING */ public static final int LENS_FACING_FRONT = 0; /** *The camera device faces the opposite direction as the device's screen.
* @see CameraCharacteristics#LENS_FACING */ public static final int LENS_FACING_BACK = 1; /** *The camera device is an external camera, and has no fixed facing relative to the * device's screen.
* @see CameraCharacteristics#LENS_FACING */ public static final int LENS_FACING_EXTERNAL = 2; // // Enumeration values for CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES // /** *The minimal set of capabilities that every camera * device (regardless of {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel}) * supports.
*This capability is listed by all normal devices, and * indicates that the camera device has a feature set * that's comparable to the baseline requirements for the * older android.hardware.Camera API.
*Devices with the DEPTH_OUTPUT capability might not list this * capability, indicating that they support only depth measurement, * not standard color output.
* * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE = 0; /** *The camera device can be manually controlled (3A algorithms such * as auto-exposure, and auto-focus can be bypassed). * The camera device supports basic manual control of the sensor image * acquisition related stages. This means the following controls are * guaranteed to be supported:
*If any of the above 3A algorithms are enabled, then the camera * device will accurately report the values applied by 3A in the * result.
*A given camera device may also support additional manual sensor controls, * but this capability only covers the above list of controls.
*If this is supported, {@link CameraCharacteristics#SCALER_STREAM_CONFIGURATION_MAP android.scaler.streamConfigurationMap} will * additionally return a min frame duration that is greater than * zero for each supported size-format combination.
* * @see CaptureRequest#BLACK_LEVEL_LOCK * @see CaptureRequest#CONTROL_AE_LOCK * @see CameraCharacteristics#SCALER_STREAM_CONFIGURATION_MAP * @see CaptureRequest#SENSOR_EXPOSURE_TIME * @see CaptureRequest#SENSOR_FRAME_DURATION * @see CameraCharacteristics#SENSOR_INFO_EXPOSURE_TIME_RANGE * @see CameraCharacteristics#SENSOR_INFO_MAX_FRAME_DURATION * @see CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE * @see CaptureRequest#SENSOR_SENSITIVITY * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_MANUAL_SENSOR = 1; /** *The camera device post-processing stages can be manually controlled. * The camera device supports basic manual control of the image post-processing * stages. This means the following controls are guaranteed to be supported:
*Manual tonemap control
*Manual white balance control
*If auto white balance is enabled, then the camera device * will accurately report the values applied by AWB in the result.
*A given camera device may also support additional post-processing * controls, but this capability only covers the above list of controls.
* * @see CaptureRequest#COLOR_CORRECTION_ABERRATION_MODE * @see CameraCharacteristics#COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_LOCK * @see CaptureRequest#SHADING_MODE * @see CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE * @see CaptureRequest#TONEMAP_CURVE * @see CaptureRequest#TONEMAP_GAMMA * @see CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS * @see CaptureRequest#TONEMAP_MODE * @see CaptureRequest#TONEMAP_PRESET_CURVE * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_MANUAL_POST_PROCESSING = 2; /** *The camera device supports outputting RAW buffers and * metadata for interpreting them.
*Devices supporting the RAW capability allow both for * saving DNG files, and for direct application processing of * raw sensor images.
*The camera device supports the Zero Shutter Lag reprocessing use case.
*{@link CameraCharacteristics#REQUEST_MAX_NUM_INPUT_STREAMS android.request.maxNumInputStreams} == 1.The camera device supports accurately reporting the sensor settings for many of * the sensor controls while the built-in 3A algorithm is running. This allows * reporting of sensor settings even when these settings cannot be manually changed.
*The values reported for the following controls are guaranteed to be available * in the CaptureResult, including when 3A is enabled:
*This capability is a subset of the MANUAL_SENSOR control capability, and will * always be included if the MANUAL_SENSOR capability is available.
* * @see CaptureRequest#LENS_APERTURE * @see CaptureRequest#LENS_FOCUS_DISTANCE * @see CaptureRequest#SENSOR_EXPOSURE_TIME * @see CaptureRequest#SENSOR_SENSITIVITY * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_READ_SENSOR_SETTINGS = 5; /** *The camera device supports capturing high-resolution images at >= 20 frames per * second, in at least the uncompressed YUV format, when post-processing settings are set * to FAST. Additionally, maximum-resolution images can be captured at >= 10 frames * per second. Here, 'high resolution' means at least 8 megapixels, or the maximum * resolution of the device, whichever is smaller.
*More specifically, this means that a size matching the camera device's active array * size is listed as a supported size for the {@link android.graphics.ImageFormat#YUV_420_888 } format in either {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes } or {@link android.hardware.camera2.params.StreamConfigurationMap#getHighResolutionOutputSizes }, * with a minimum frame duration for that format and size of either <= 1/20 s, or * <= 1/10 s, respectively; and the {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES android.control.aeAvailableTargetFpsRanges} entry * lists at least one FPS range where the minimum FPS is >= 1 / minimumFrameDuration * for the maximum-size YUV_420_888 format. If that maximum size is listed in {@link android.hardware.camera2.params.StreamConfigurationMap#getHighResolutionOutputSizes }, * then the list of resolutions for YUV_420_888 from {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes } contains at * least one resolution >= 8 megapixels, with a minimum frame duration of <= 1/20 * s.
*If the device supports the {@link android.graphics.ImageFormat#RAW10 }, {@link android.graphics.ImageFormat#RAW12 }, then those can also be captured at the same rate * as the maximum-size YUV_420_888 resolution is.
*If the device supports the PRIVATE_REPROCESSING capability, then the same guarantees * as for the YUV_420_888 format also apply to the {@link android.graphics.ImageFormat#PRIVATE } format.
*In addition, the {@link CameraCharacteristics#SYNC_MAX_LATENCY android.sync.maxLatency} field is guaranted to have a value between 0
* and 4, inclusive. {@link CameraCharacteristics#CONTROL_AE_LOCK_AVAILABLE android.control.aeLockAvailable} and {@link CameraCharacteristics#CONTROL_AWB_LOCK_AVAILABLE android.control.awbLockAvailable}
* are also guaranteed to be true so burst capture with these two locks ON yields
* consistent image output.
The camera device supports the YUV_420_888 reprocessing use case, similar as * PRIVATE_REPROCESSING, This capability requires the camera device to support the * following:
*{@link CameraCharacteristics#REQUEST_MAX_NUM_INPUT_STREAMS android.request.maxNumInputStreams} == 1.The camera device can produce depth measurements from its field of view.
*This capability requires the camera device to support the following:
*Generally, depth output operates at a slower frame rate than standard color capture, * so the DEPTH16 and DEPTH_POINT_CLOUD formats will commonly have a stall duration that * should be accounted for (see * {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration }). * On a device that supports both depth and color-based output, to enable smooth preview, * using a repeating burst is recommended, where a depth-output target is only included * once every N frames, where N is the ratio between preview output rate and depth output * rate, including depth stall time.
* * @see CameraCharacteristics#DEPTH_DEPTH_IS_EXCLUSIVE * @see CameraCharacteristics#LENS_FACING * @see CameraCharacteristics#LENS_INTRINSIC_CALIBRATION * @see CameraCharacteristics#LENS_POSE_ROTATION * @see CameraCharacteristics#LENS_POSE_TRANSLATION * @see CameraCharacteristics#LENS_RADIAL_DISTORTION * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT = 8; /** *The device supports constrained high speed video recording (frame rate >=120fps) * use case. The camera device will support high speed capture session created by * {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession }, which * only accepts high speed request lists created by * {@link android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList }.
*A camera device can still support high speed video streaming by advertising the high speed * FPS ranges in {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES android.control.aeAvailableTargetFpsRanges}. For this case, all normal * capture request per frame control and synchronization requirements will apply to * the high speed fps ranges, the same as all other fps ranges. This capability describes * the capability of a specialized operating mode with many limitations (see below), which * is only targeted at high speed video recording.
*The supported high speed video sizes and fps ranges are specified in * {@link android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoFpsRanges }. * To get desired output frame rates, the application is only allowed to select video size * and FPS range combinations provided by * {@link android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoSizes }. * The fps range can be controlled via {@link CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE android.control.aeTargetFpsRange}.
*In this capability, the camera device will override aeMode, awbMode, and afMode to * ON, AUTO, and CONTINUOUS_VIDEO, respectively. All post-processing block mode * controls will be overridden to be FAST. Therefore, no manual control of capture * and post-processing parameters is possible. All other controls operate the * same as when {@link CaptureRequest#CONTROL_MODE android.control.mode} == AUTO. This means that all other * android.control.* fields continue to work, such as
*Outside of android.control.*, the following controls will work:
*For high speed recording use case, the actual maximum supported frame rate may * be lower than what camera can output, depending on the destination Surfaces for * the image data. For example, if the destination surface is from video encoder, * the application need check if the video encoder is capable of supporting the * high frame rate for a given video size, or it will end up with lower recording * frame rate. If the destination surface is from preview window, the actual preview frame * rate will be bounded by the screen refresh rate.
*The camera device will only support up to 2 high speed simultaneous output surfaces * (preview and recording surfaces) * in this mode. Above controls will be effective only if all of below conditions are true:
*When above conditions are NOT satistied, * {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession } * will fail.
*Switching to a FPS range that has different maximum FPS may trigger some camera device * reconfigurations, which may introduce extra latency. It is recommended that * the application avoids unnecessary maximum target FPS changes as much as possible * during high speed streaming.
* * @see CameraCharacteristics#CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES * @see CaptureRequest#CONTROL_AE_EXPOSURE_COMPENSATION * @see CaptureRequest#CONTROL_AE_LOCK * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER * @see CaptureRequest#CONTROL_AE_REGIONS * @see CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE * @see CaptureRequest#CONTROL_AF_REGIONS * @see CaptureRequest#CONTROL_AF_TRIGGER * @see CaptureRequest#CONTROL_AWB_LOCK * @see CaptureRequest#CONTROL_AWB_REGIONS * @see CaptureRequest#CONTROL_EFFECT_MODE * @see CaptureRequest#CONTROL_MODE * @see CaptureRequest#FLASH_MODE * @see CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE * @see CaptureRequest#SCALER_CROP_REGION * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES */ public static final int REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO = 9; // // Enumeration values for CameraCharacteristics#SCALER_CROPPING_TYPE // /** *The camera device only supports centered crop regions.
* @see CameraCharacteristics#SCALER_CROPPING_TYPE */ public static final int SCALER_CROPPING_TYPE_CENTER_ONLY = 0; /** *The camera device supports arbitrarily chosen crop regions.
* @see CameraCharacteristics#SCALER_CROPPING_TYPE */ public static final int SCALER_CROPPING_TYPE_FREEFORM = 1; // // Enumeration values for CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT // /** * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT */ public static final int SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_RGGB = 0; /** * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT */ public static final int SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_GRBG = 1; /** * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT */ public static final int SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_GBRG = 2; /** * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT */ public static final int SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_BGGR = 3; /** *Sensor is not Bayer; output has 3 16-bit * values for each pixel, instead of just 1 16-bit value * per pixel.
* @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT */ public static final int SENSOR_INFO_COLOR_FILTER_ARRANGEMENT_RGB = 4; // // Enumeration values for CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE // /** *Timestamps from {@link CaptureResult#SENSOR_TIMESTAMP android.sensor.timestamp} are in nanoseconds and monotonic, * but can not be compared to timestamps from other subsystems * (e.g. accelerometer, gyro etc.), or other instances of the same or different * camera devices in the same system. Timestamps between streams and results for * a single camera instance are comparable, and the timestamps for all buffers * and the result metadata generated by a single capture are identical.
* * @see CaptureResult#SENSOR_TIMESTAMP * @see CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE */ public static final int SENSOR_INFO_TIMESTAMP_SOURCE_UNKNOWN = 0; /** *Timestamps from {@link CaptureResult#SENSOR_TIMESTAMP android.sensor.timestamp} are in the same timebase as * {@link android.os.SystemClock#elapsedRealtimeNanos }, * and they can be compared to other timestamps using that base.
* * @see CaptureResult#SENSOR_TIMESTAMP * @see CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE */ public static final int SENSOR_INFO_TIMESTAMP_SOURCE_REALTIME = 1; // // Enumeration values for CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 // /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_DAYLIGHT = 1; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_FLUORESCENT = 2; /** *Incandescent light
* @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_TUNGSTEN = 3; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_FLASH = 4; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_FINE_WEATHER = 9; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_CLOUDY_WEATHER = 10; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_SHADE = 11; /** *D 5700 - 7100K
* @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_DAYLIGHT_FLUORESCENT = 12; /** *N 4600 - 5400K
* @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_DAY_WHITE_FLUORESCENT = 13; /** *W 3900 - 4500K
* @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_COOL_WHITE_FLUORESCENT = 14; /** *WW 3200 - 3700K
* @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_WHITE_FLUORESCENT = 15; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_STANDARD_A = 17; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_STANDARD_B = 18; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_STANDARD_C = 19; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_D55 = 20; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_D65 = 21; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_D75 = 22; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_D50 = 23; /** * @see CameraCharacteristics#SENSOR_REFERENCE_ILLUMINANT1 */ public static final int SENSOR_REFERENCE_ILLUMINANT1_ISO_STUDIO_TUNGSTEN = 24; // // Enumeration values for CameraCharacteristics#LED_AVAILABLE_LEDS // /** *android.led.transmit control is used.
* @see CameraCharacteristics#LED_AVAILABLE_LEDS * @hide */ public static final int LED_AVAILABLE_LEDS_TRANSMIT = 0; // // Enumeration values for CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL // /** *This camera device does not have enough capabilities to qualify as a FULL device or
* better.
Only the stream configurations listed in the LEGACY and LIMITED tables in the
* {@link android.hardware.camera2.CameraDevice#createCaptureSession createCaptureSession} documentation are guaranteed to be supported.
All LIMITED devices support the BACKWARDS_COMPATIBLE capability, indicating basic
* support for color image capture. The only exception is that the device may
* alternatively support only the DEPTH_OUTPUT capability, if it can only output depth
* measurements and not color images.
LIMITED devices and above require the use of {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger}
* to lock exposure metering (and calculate flash power, for cameras with flash) before
* capturing a high-quality still image.
A LIMITED device that only lists the BACKWARDS_COMPATIBLE capability is only
* required to support full-automatic operation and post-processing (OFF is not
* supported for {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode}, {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}, or
* {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode})
Additional capabilities may optionally be supported by a LIMITED-level device, and
* can be checked for in {@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities}.
This camera device is capable of supporting advanced imaging applications.
*The stream configurations listed in the FULL, LEGACY and LIMITED tables in the
* {@link android.hardware.camera2.CameraDevice#createCaptureSession createCaptureSession} documentation are guaranteed to be supported.
A FULL device will support below capabilities:
BURST_CAPTURE capability ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains
* BURST_CAPTURE)== PER_FRAME_CONTROL)MANUAL_SENSOR)MANUAL_POST_PROCESSING)Note:
* Pre-API level 23, FULL devices also supported arbitrary cropping region
* ({@link CameraCharacteristics#SCALER_CROPPING_TYPE android.scaler.croppingType} == FREEFORM); this requirement was relaxed in API level
* 23, and FULL devices may only support CENTERED cropping.
This camera device is running in backward compatibility mode.
*Only the stream configurations listed in the LEGACY table in the {@link android.hardware.camera2.CameraDevice#createCaptureSession createCaptureSession}
* documentation are supported.
A LEGACY device does not support per-frame control, manual sensor control, manual
* post-processing, arbitrary cropping regions, and has relaxed performance constraints.
* No additional capabilities beyond BACKWARD_COMPATIBLE will ever be listed by a
* LEGACY device in {@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities}.
In addition, the {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is not functional on LEGACY
* devices. Instead, every request that includes a JPEG-format output target is treated
* as triggering a still capture, internally executing a precapture trigger. This may
* fire the flash for flash power metering during precapture, and then fire the flash
* for the final capture, if a flash is available on the device and the AE mode is set to
* enable the flash.
This camera device is capable of YUV reprocessing and RAW data capture, in addition to * FULL-level capabilities.
*The stream configurations listed in the LEVEL_3, RAW, FULL, LEGACY and
* LIMITED tables in the {@link android.hardware.camera2.CameraDevice#createCaptureSession createCaptureSession}
* documentation are guaranteed to be supported.
The following additional capabilities are guaranteed to be supported:
*YUV_REPROCESSING capability ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains
* YUV_REPROCESSING)RAW capability ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains
* RAW)Every frame has the requests immediately applied.
*Changing controls over multiple requests one after another will * produce results that have those controls applied atomically * each frame.
*All FULL capability devices will have this as their maxLatency.
* @see CameraCharacteristics#SYNC_MAX_LATENCY */ public static final int SYNC_MAX_LATENCY_PER_FRAME_CONTROL = 0; /** *Each new frame has some subset (potentially the entire set) * of the past requests applied to the camera settings.
*By submitting a series of identical requests, the camera device * will eventually have the camera settings applied, but it is * unknown when that exact point will be.
*All LEGACY capability devices will have this as their maxLatency.
* @see CameraCharacteristics#SYNC_MAX_LATENCY */ public static final int SYNC_MAX_LATENCY_UNKNOWN = -1; // // Enumeration values for CaptureRequest#COLOR_CORRECTION_MODE // /** *Use the {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} matrix * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} to do color conversion.
*All advanced white balance adjustments (not specified * by our white balance pipeline) must be disabled.
*If AWB is enabled with {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} != OFF, then
* TRANSFORM_MATRIX is ignored. The camera device will override
* this value to either FAST or HIGH_QUALITY.
Color correction processing must not slow down * capture rate relative to sensor raw output.
*Advanced white balance adjustments above and beyond * the specified white balance pipeline may be applied.
*If AWB is enabled with {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} != OFF, then
* the camera device uses the last frame's AWB values
* (or defaults if AWB has never been run).
Color correction processing operates at improved * quality but the capture rate might be reduced (relative to sensor * raw output rate)
*Advanced white balance adjustments above and beyond * the specified white balance pipeline may be applied.
*If AWB is enabled with {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} != OFF, then
* the camera device uses the last frame's AWB values
* (or defaults if AWB has never been run).
No aberration correction is applied.
* @see CaptureRequest#COLOR_CORRECTION_ABERRATION_MODE */ public static final int COLOR_CORRECTION_ABERRATION_MODE_OFF = 0; /** *Aberration correction will not slow down capture rate * relative to sensor raw output.
* @see CaptureRequest#COLOR_CORRECTION_ABERRATION_MODE */ public static final int COLOR_CORRECTION_ABERRATION_MODE_FAST = 1; /** *Aberration correction operates at improved quality but the capture rate might be * reduced (relative to sensor raw output rate)
* @see CaptureRequest#COLOR_CORRECTION_ABERRATION_MODE */ public static final int COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY = 2; // // Enumeration values for CaptureRequest#CONTROL_AE_ANTIBANDING_MODE // /** *The camera device will not adjust exposure duration to * avoid banding problems.
* @see CaptureRequest#CONTROL_AE_ANTIBANDING_MODE */ public static final int CONTROL_AE_ANTIBANDING_MODE_OFF = 0; /** *The camera device will adjust exposure duration to * avoid banding problems with 50Hz illumination sources.
* @see CaptureRequest#CONTROL_AE_ANTIBANDING_MODE */ public static final int CONTROL_AE_ANTIBANDING_MODE_50HZ = 1; /** *The camera device will adjust exposure duration to * avoid banding problems with 60Hz illumination * sources.
* @see CaptureRequest#CONTROL_AE_ANTIBANDING_MODE */ public static final int CONTROL_AE_ANTIBANDING_MODE_60HZ = 2; /** *The camera device will automatically adapt its * antibanding routine to the current illumination * condition. This is the default mode if AUTO is * available on given camera device.
* @see CaptureRequest#CONTROL_AE_ANTIBANDING_MODE */ public static final int CONTROL_AE_ANTIBANDING_MODE_AUTO = 3; // // Enumeration values for CaptureRequest#CONTROL_AE_MODE // /** *The camera device's autoexposure routine is disabled.
*The application-selected {@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}, * {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity} and * {@link CaptureRequest#SENSOR_FRAME_DURATION android.sensor.frameDuration} are used by the camera * device, along with android.flash.* fields, if there's * a flash unit for this camera device.
*Note that auto-white balance (AWB) and auto-focus (AF) * behavior is device dependent when AE is in OFF mode. * To have consistent behavior across different devices, * it is recommended to either set AWB and AF to OFF mode * or lock AWB and AF before setting AE to OFF. * See {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}, {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}, * {@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock}, and {@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger} * for more details.
*LEGACY devices do not support the OFF mode and will * override attempts to use this value to ON.
* * @see CaptureRequest#CONTROL_AF_MODE * @see CaptureRequest#CONTROL_AF_TRIGGER * @see CaptureRequest#CONTROL_AWB_LOCK * @see CaptureRequest#CONTROL_AWB_MODE * @see CaptureRequest#SENSOR_EXPOSURE_TIME * @see CaptureRequest#SENSOR_FRAME_DURATION * @see CaptureRequest#SENSOR_SENSITIVITY * @see CaptureRequest#CONTROL_AE_MODE */ public static final int CONTROL_AE_MODE_OFF = 0; /** *The camera device's autoexposure routine is active, * with no flash control.
*The application's values for * {@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}, * {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}, and * {@link CaptureRequest#SENSOR_FRAME_DURATION android.sensor.frameDuration} are ignored. The * application has control over the various * android.flash.* fields.
* * @see CaptureRequest#SENSOR_EXPOSURE_TIME * @see CaptureRequest#SENSOR_FRAME_DURATION * @see CaptureRequest#SENSOR_SENSITIVITY * @see CaptureRequest#CONTROL_AE_MODE */ public static final int CONTROL_AE_MODE_ON = 1; /** *Like ON, except that the camera device also controls * the camera's flash unit, firing it in low-light * conditions.
*The flash may be fired during a precapture sequence * (triggered by {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger}) and * may be fired for captures for which the * {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} field is set to * STILL_CAPTURE
* * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER * @see CaptureRequest#CONTROL_CAPTURE_INTENT * @see CaptureRequest#CONTROL_AE_MODE */ public static final int CONTROL_AE_MODE_ON_AUTO_FLASH = 2; /** *Like ON, except that the camera device also controls * the camera's flash unit, always firing it for still * captures.
*The flash may be fired during a precapture sequence * (triggered by {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger}) and * will always be fired for captures for which the * {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} field is set to * STILL_CAPTURE
* * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER * @see CaptureRequest#CONTROL_CAPTURE_INTENT * @see CaptureRequest#CONTROL_AE_MODE */ public static final int CONTROL_AE_MODE_ON_ALWAYS_FLASH = 3; /** *Like ON_AUTO_FLASH, but with automatic red eye * reduction.
*If deemed necessary by the camera device, a red eye * reduction flash will fire during the precapture * sequence.
* @see CaptureRequest#CONTROL_AE_MODE */ public static final int CONTROL_AE_MODE_ON_AUTO_FLASH_REDEYE = 4; // // Enumeration values for CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER // /** *The trigger is idle.
* @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER */ public static final int CONTROL_AE_PRECAPTURE_TRIGGER_IDLE = 0; /** *The precapture metering sequence will be started * by the camera device.
*The exact effect of the precapture trigger depends on * the current AE mode and state.
* @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER */ public static final int CONTROL_AE_PRECAPTURE_TRIGGER_START = 1; /** *The camera device will cancel any currently active or completed * precapture metering sequence, the auto-exposure routine will return to its * initial state.
* @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER */ public static final int CONTROL_AE_PRECAPTURE_TRIGGER_CANCEL = 2; // // Enumeration values for CaptureRequest#CONTROL_AF_MODE // /** *The auto-focus routine does not control the lens; * {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance} is controlled by the * application.
* * @see CaptureRequest#LENS_FOCUS_DISTANCE * @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_OFF = 0; /** *Basic automatic focus mode.
*In this mode, the lens does not move unless * the autofocus trigger action is called. When that trigger * is activated, AF will transition to ACTIVE_SCAN, then to * the outcome of the scan (FOCUSED or NOT_FOCUSED).
*Always supported if lens is not fixed focus.
*Use {@link CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE android.lens.info.minimumFocusDistance} to determine if lens * is fixed-focus.
*Triggering AF_CANCEL resets the lens position to default, * and sets the AF state to INACTIVE.
* * @see CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE * @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_AUTO = 1; /** *Close-up focusing mode.
*In this mode, the lens does not move unless the * autofocus trigger action is called. When that trigger is * activated, AF will transition to ACTIVE_SCAN, then to * the outcome of the scan (FOCUSED or NOT_FOCUSED). This * mode is optimized for focusing on objects very close to * the camera.
*When that trigger is activated, AF will transition to * ACTIVE_SCAN, then to the outcome of the scan (FOCUSED or * NOT_FOCUSED). Triggering cancel AF resets the lens * position to default, and sets the AF state to * INACTIVE.
* @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_MACRO = 2; /** *In this mode, the AF algorithm modifies the lens * position continually to attempt to provide a * constantly-in-focus image stream.
*The focusing behavior should be suitable for good quality * video recording; typically this means slower focus * movement and no overshoots. When the AF trigger is not * involved, the AF algorithm should start in INACTIVE state, * and then transition into PASSIVE_SCAN and PASSIVE_FOCUSED * states as appropriate. When the AF trigger is activated, * the algorithm should immediately transition into * AF_FOCUSED or AF_NOT_FOCUSED as appropriate, and lock the * lens position until a cancel AF trigger is received.
*Once cancel is received, the algorithm should transition * back to INACTIVE and resume passive scan. Note that this * behavior is not identical to CONTINUOUS_PICTURE, since an * ongoing PASSIVE_SCAN must immediately be * canceled.
* @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_CONTINUOUS_VIDEO = 3; /** *In this mode, the AF algorithm modifies the lens * position continually to attempt to provide a * constantly-in-focus image stream.
*The focusing behavior should be suitable for still image * capture; typically this means focusing as fast as * possible. When the AF trigger is not involved, the AF * algorithm should start in INACTIVE state, and then * transition into PASSIVE_SCAN and PASSIVE_FOCUSED states as * appropriate as it attempts to maintain focus. When the AF * trigger is activated, the algorithm should finish its * PASSIVE_SCAN if active, and then transition into * AF_FOCUSED or AF_NOT_FOCUSED as appropriate, and lock the * lens position until a cancel AF trigger is received.
*When the AF cancel trigger is activated, the algorithm * should transition back to INACTIVE and then act as if it * has just been started.
* @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_CONTINUOUS_PICTURE = 4; /** *Extended depth of field (digital focus) mode.
*The camera device will produce images with an extended * depth of field automatically; no special focusing * operations need to be done before taking a picture.
*AF triggers are ignored, and the AF state will always be * INACTIVE.
* @see CaptureRequest#CONTROL_AF_MODE */ public static final int CONTROL_AF_MODE_EDOF = 5; // // Enumeration values for CaptureRequest#CONTROL_AF_TRIGGER // /** *The trigger is idle.
* @see CaptureRequest#CONTROL_AF_TRIGGER */ public static final int CONTROL_AF_TRIGGER_IDLE = 0; /** *Autofocus will trigger now.
* @see CaptureRequest#CONTROL_AF_TRIGGER */ public static final int CONTROL_AF_TRIGGER_START = 1; /** *Autofocus will return to its initial * state, and cancel any currently active trigger.
* @see CaptureRequest#CONTROL_AF_TRIGGER */ public static final int CONTROL_AF_TRIGGER_CANCEL = 2; // // Enumeration values for CaptureRequest#CONTROL_AWB_MODE // /** *The camera device's auto-white balance routine is disabled.
*The application-selected color transform matrix * ({@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform}) and gains * ({@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains}) are used by the camera * device for manual white balance control.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_OFF = 0; /** *The camera device's auto-white balance routine is active.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_AUTO = 1; /** *The camera device's auto-white balance routine is disabled; * the camera device uses incandescent light as the assumed scene * illumination for white balance.
*While the exact white balance transforms are up to the * camera device, they will approximately match the CIE * standard illuminant A.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_INCANDESCENT = 2; /** *The camera device's auto-white balance routine is disabled; * the camera device uses fluorescent light as the assumed scene * illumination for white balance.
*While the exact white balance transforms are up to the * camera device, they will approximately match the CIE * standard illuminant F2.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_FLUORESCENT = 3; /** *The camera device's auto-white balance routine is disabled; * the camera device uses warm fluorescent light as the assumed scene * illumination for white balance.
*While the exact white balance transforms are up to the * camera device, they will approximately match the CIE * standard illuminant F4.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_WARM_FLUORESCENT = 4; /** *The camera device's auto-white balance routine is disabled; * the camera device uses daylight light as the assumed scene * illumination for white balance.
*While the exact white balance transforms are up to the * camera device, they will approximately match the CIE * standard illuminant D65.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_DAYLIGHT = 5; /** *The camera device's auto-white balance routine is disabled; * the camera device uses cloudy daylight light as the assumed scene * illumination for white balance.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_CLOUDY_DAYLIGHT = 6; /** *The camera device's auto-white balance routine is disabled; * the camera device uses twilight light as the assumed scene * illumination for white balance.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_TWILIGHT = 7; /** *The camera device's auto-white balance routine is disabled; * the camera device uses shade light as the assumed scene * illumination for white balance.
*The application's values for {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} * and {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} are ignored. * For devices that support the MANUAL_POST_PROCESSING capability, the * values used by the camera device for the transform and gains * will be available in the capture result for this request.
* * @see CaptureRequest#COLOR_CORRECTION_GAINS * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM * @see CaptureRequest#CONTROL_AWB_MODE */ public static final int CONTROL_AWB_MODE_SHADE = 8; // // Enumeration values for CaptureRequest#CONTROL_CAPTURE_INTENT // /** *The goal of this request doesn't fall into the other * categories. The camera device will default to preview-like * behavior.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_CUSTOM = 0; /** *This request is for a preview-like use case.
*The precapture trigger may be used to start off a metering * w/flash sequence.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_PREVIEW = 1; /** *This request is for a still capture-type * use case.
*If the flash unit is under automatic control, it may fire as needed.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_STILL_CAPTURE = 2; /** *This request is for a video recording * use case.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_VIDEO_RECORD = 3; /** *This request is for a video snapshot (still * image while recording video) use case.
*The camera device should take the highest-quality image * possible (given the other settings) without disrupting the * frame rate of video recording.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT = 4; /** *This request is for a ZSL usecase; the * application will stream full-resolution images and * reprocess one or several later for a final * capture.
* @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_ZERO_SHUTTER_LAG = 5; /** *This request is for manual capture use case where * the applications want to directly control the capture parameters.
*For example, the application may wish to manually control * {@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}, {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}, etc.
* * @see CaptureRequest#SENSOR_EXPOSURE_TIME * @see CaptureRequest#SENSOR_SENSITIVITY * @see CaptureRequest#CONTROL_CAPTURE_INTENT */ public static final int CONTROL_CAPTURE_INTENT_MANUAL = 6; // // Enumeration values for CaptureRequest#CONTROL_EFFECT_MODE // /** *No color effect will be applied.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_OFF = 0; /** *A "monocolor" effect where the image is mapped into * a single color.
*This will typically be grayscale.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_MONO = 1; /** *A "photo-negative" effect where the image's colors * are inverted.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_NEGATIVE = 2; /** *A "solarisation" effect (Sabattier effect) where the * image is wholly or partially reversed in * tone.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_SOLARIZE = 3; /** *A "sepia" effect where the image is mapped into warm * gray, red, and brown tones.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_SEPIA = 4; /** *A "posterization" effect where the image uses * discrete regions of tone rather than a continuous * gradient of tones.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_POSTERIZE = 5; /** *A "whiteboard" effect where the image is typically displayed * as regions of white, with black or grey details.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_WHITEBOARD = 6; /** *A "blackboard" effect where the image is typically displayed * as regions of black, with white or grey details.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_BLACKBOARD = 7; /** *An "aqua" effect where a blue hue is added to the image.
* @see CaptureRequest#CONTROL_EFFECT_MODE */ public static final int CONTROL_EFFECT_MODE_AQUA = 8; // // Enumeration values for CaptureRequest#CONTROL_MODE // /** *Full application control of pipeline.
*All control by the device's metering and focusing (3A) * routines is disabled, and no other settings in * android.control.* have any effect, except that * {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} may be used by the camera * device to select post-processing values for processing * blocks that do not allow for manual control, or are not * exposed by the camera API.
*However, the camera device's 3A routines may continue to * collect statistics and update their internal state so that * when control is switched to AUTO mode, good control values * can be immediately applied.
* * @see CaptureRequest#CONTROL_CAPTURE_INTENT * @see CaptureRequest#CONTROL_MODE */ public static final int CONTROL_MODE_OFF = 0; /** *Use settings for each individual 3A routine.
*Manual control of capture parameters is disabled. All * controls in android.control.* besides sceneMode take * effect.
* @see CaptureRequest#CONTROL_MODE */ public static final int CONTROL_MODE_AUTO = 1; /** *Use a specific scene mode.
*Enabling this disables control.aeMode, control.awbMode and * control.afMode controls; the camera device will ignore * those settings while USE_SCENE_MODE is active (except for * FACE_PRIORITY scene mode). Other control entries are still active. * This setting can only be used if scene mode is supported (i.e. * {@link CameraCharacteristics#CONTROL_AVAILABLE_SCENE_MODES android.control.availableSceneModes} * contain some modes other than DISABLED).
* * @see CameraCharacteristics#CONTROL_AVAILABLE_SCENE_MODES * @see CaptureRequest#CONTROL_MODE */ public static final int CONTROL_MODE_USE_SCENE_MODE = 2; /** *Same as OFF mode, except that this capture will not be * used by camera device background auto-exposure, auto-white balance and * auto-focus algorithms (3A) to update their statistics.
*Specifically, the 3A routines are locked to the last * values set from a request with AUTO, OFF, or * USE_SCENE_MODE, and any statistics or state updates * collected from manual captures with OFF_KEEP_STATE will be * discarded by the camera device.
* @see CaptureRequest#CONTROL_MODE */ public static final int CONTROL_MODE_OFF_KEEP_STATE = 3; // // Enumeration values for CaptureRequest#CONTROL_SCENE_MODE // /** *Indicates that no scene modes are set for a given capture request.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_DISABLED = 0; /** *If face detection support exists, use face * detection data for auto-focus, auto-white balance, and * auto-exposure routines.
*If face detection statistics are disabled * (i.e. {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} is set to OFF), * this should still operate correctly (but will not return * face detection statistics to the framework).
*Unlike the other scene modes, {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode}, * {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}, and {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} * remain active when FACE_PRIORITY is set.
* * @see CaptureRequest#CONTROL_AE_MODE * @see CaptureRequest#CONTROL_AF_MODE * @see CaptureRequest#CONTROL_AWB_MODE * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE * @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_FACE_PRIORITY = 1; /** *Optimized for photos of quickly moving objects.
*Similar to SPORTS.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_ACTION = 2; /** *Optimized for still photos of people.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_PORTRAIT = 3; /** *Optimized for photos of distant macroscopic objects.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_LANDSCAPE = 4; /** *Optimized for low-light settings.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_NIGHT = 5; /** *Optimized for still photos of people in low-light * settings.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_NIGHT_PORTRAIT = 6; /** *Optimized for dim, indoor settings where flash must * remain off.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_THEATRE = 7; /** *Optimized for bright, outdoor beach settings.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_BEACH = 8; /** *Optimized for bright, outdoor settings containing snow.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_SNOW = 9; /** *Optimized for scenes of the setting sun.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_SUNSET = 10; /** *Optimized to avoid blurry photos due to small amounts of * device motion (for example: due to hand shake).
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_STEADYPHOTO = 11; /** *Optimized for nighttime photos of fireworks.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_FIREWORKS = 12; /** *Optimized for photos of quickly moving people.
*Similar to ACTION.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_SPORTS = 13; /** *Optimized for dim, indoor settings with multiple moving * people.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_PARTY = 14; /** *Optimized for dim settings where the main light source * is a flame.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_CANDLELIGHT = 15; /** *Optimized for accurately capturing a photo of barcode * for use by camera applications that wish to read the * barcode value.
* @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_BARCODE = 16; /** *This is deprecated, please use {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession } * and {@link android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList } * for high speed video recording.
*Optimized for high speed video recording (frame rate >=60fps) use case.
*The supported high speed video sizes and fps ranges are specified in * android.control.availableHighSpeedVideoConfigurations. To get desired * output frame rates, the application is only allowed to select video size * and fps range combinations listed in this static metadata. The fps range * can be control via {@link CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE android.control.aeTargetFpsRange}.
*In this mode, the camera device will override aeMode, awbMode, and afMode to * ON, ON, and CONTINUOUS_VIDEO, respectively. All post-processing block mode * controls will be overridden to be FAST. Therefore, no manual control of capture * and post-processing parameters is possible. All other controls operate the * same as when {@link CaptureRequest#CONTROL_MODE android.control.mode} == AUTO. This means that all other * android.control.* fields continue to work, such as
*Outside of android.control.*, the following controls will work:
*For high speed recording use case, the actual maximum supported frame rate may * be lower than what camera can output, depending on the destination Surfaces for * the image data. For example, if the destination surface is from video encoder, * the application need check if the video encoder is capable of supporting the * high frame rate for a given video size, or it will end up with lower recording * frame rate. If the destination surface is from preview window, the preview frame * rate will be bounded by the screen refresh rate.
*The camera device will only support up to 2 output high speed streams * (processed non-stalling format defined in android.request.maxNumOutputStreams) * in this mode. This control will be effective only if all of below conditions are true:
*When above conditions are NOT satistied, the controls of this mode and
* {@link CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE android.control.aeTargetFpsRange} will be ignored by the camera device,
* the camera device will fall back to {@link CaptureRequest#CONTROL_MODE android.control.mode} == AUTO,
* and the returned capture result metadata will give the fps range choosen
* by the camera device.
Switching into or out of this mode may trigger some camera ISP/sensor * reconfigurations, which may introduce extra latency. It is recommended that * the application avoids unnecessary scene mode switch as much as possible.
* * @see CaptureRequest#CONTROL_AE_EXPOSURE_COMPENSATION * @see CaptureRequest#CONTROL_AE_LOCK * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER * @see CaptureRequest#CONTROL_AE_REGIONS * @see CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE * @see CaptureRequest#CONTROL_AF_REGIONS * @see CaptureRequest#CONTROL_AF_TRIGGER * @see CaptureRequest#CONTROL_AWB_LOCK * @see CaptureRequest#CONTROL_AWB_REGIONS * @see CaptureRequest#CONTROL_EFFECT_MODE * @see CaptureRequest#CONTROL_MODE * @see CaptureRequest#FLASH_MODE * @see CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE * @see CaptureRequest#SCALER_CROP_REGION * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE * @see CaptureRequest#CONTROL_SCENE_MODE * @deprecated Please refer to this API documentation to find the alternatives */ public static final int CONTROL_SCENE_MODE_HIGH_SPEED_VIDEO = 17; /** *Turn on a device-specific high dynamic range (HDR) mode.
*In this scene mode, the camera device captures images * that keep a larger range of scene illumination levels * visible in the final image. For example, when taking a * picture of a object in front of a bright window, both * the object and the scene through the window may be * visible when using HDR mode, while in normal AUTO mode, * one or the other may be poorly exposed. As a tradeoff, * HDR mode generally takes much longer to capture a single * image, has no user control, and may have other artifacts * depending on the HDR method used.
*Therefore, HDR captures operate at a much slower rate * than regular captures.
*In this mode, on LIMITED or FULL devices, when a request * is made with a {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} of * STILL_CAPTURE, the camera device will capture an image * using a high dynamic range capture technique. On LEGACY * devices, captures that target a JPEG-format output will * be captured with HDR, and the capture intent is not * relevant.
*The HDR capture may involve the device capturing a burst * of images internally and combining them into one, or it * may involve the device using specialized high dynamic * range capture hardware. In all cases, a single image is * produced in response to a capture request submitted * while in HDR mode.
*Since substantial post-processing is generally needed to * produce an HDR image, only YUV, PRIVATE, and JPEG * outputs are supported for LIMITED/FULL device HDR * captures, and only JPEG outputs are supported for LEGACY * HDR captures. Using a RAW output for HDR capture is not * supported.
*Some devices may also support always-on HDR, which * applies HDR processing at full frame rate. For these * devices, intents other than STILL_CAPTURE will also * produce an HDR output with no frame rate impact compared * to normal operation, though the quality may be lower * than for STILL_CAPTURE intents.
*If SCENE_MODE_HDR is used with unsupported output types * or capture intents, the images captured will be as if * the SCENE_MODE was not enabled at all.
* * @see CaptureRequest#CONTROL_CAPTURE_INTENT * @see CaptureRequest#CONTROL_SCENE_MODE */ public static final int CONTROL_SCENE_MODE_HDR = 18; /** *Same as FACE_PRIORITY scene mode, except that the camera * device will choose higher sensitivity values ({@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}) * under low light conditions.
*The camera device may be tuned to expose the images in a reduced * sensitivity range to produce the best quality images. For example, * if the {@link CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE android.sensor.info.sensitivityRange} gives range of [100, 1600], * the camera device auto-exposure routine tuning process may limit the actual * exposure sensitivity range to [100, 1200] to ensure that the noise level isn't * exessive in order to preserve the image quality. Under this situation, the image under * low light may be under-exposed when the sensor max exposure time (bounded by the * {@link CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE android.control.aeTargetFpsRange} when {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is one of the * ON_* modes) and effective max sensitivity are reached. This scene mode allows the * camera device auto-exposure routine to increase the sensitivity up to the max * sensitivity specified by {@link CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE android.sensor.info.sensitivityRange} when the scene is too * dark and the max exposure time is reached. The captured images may be noisier * compared with the images captured in normal FACE_PRIORITY mode; therefore, it is * recommended that the application only use this scene mode when it is capable of * reducing the noise level of the captured images.
*Unlike the other scene modes, {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode}, * {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}, and {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} * remain active when FACE_PRIORITY_LOW_LIGHT is set.
* * @see CaptureRequest#CONTROL_AE_MODE * @see CaptureRequest#CONTROL_AE_TARGET_FPS_RANGE * @see CaptureRequest#CONTROL_AF_MODE * @see CaptureRequest#CONTROL_AWB_MODE * @see CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE * @see CaptureRequest#SENSOR_SENSITIVITY * @see CaptureRequest#CONTROL_SCENE_MODE * @hide */ public static final int CONTROL_SCENE_MODE_FACE_PRIORITY_LOW_LIGHT = 19; /** *Scene mode values within the range of
* [DEVICE_CUSTOM_START, DEVICE_CUSTOM_END] are reserved for device specific
* customized scene modes.
Scene mode values within the range of
* [DEVICE_CUSTOM_START, DEVICE_CUSTOM_END] are reserved for device specific
* customized scene modes.
Video stabilization is disabled.
* @see CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE */ public static final int CONTROL_VIDEO_STABILIZATION_MODE_OFF = 0; /** *Video stabilization is enabled.
* @see CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE */ public static final int CONTROL_VIDEO_STABILIZATION_MODE_ON = 1; // // Enumeration values for CaptureRequest#EDGE_MODE // /** *No edge enhancement is applied.
* @see CaptureRequest#EDGE_MODE */ public static final int EDGE_MODE_OFF = 0; /** *Apply edge enhancement at a quality level that does not slow down frame rate * relative to sensor output. It may be the same as OFF if edge enhancement will * slow down frame rate relative to sensor.
* @see CaptureRequest#EDGE_MODE */ public static final int EDGE_MODE_FAST = 1; /** *Apply high-quality edge enhancement, at a cost of possibly reduced output frame rate.
* @see CaptureRequest#EDGE_MODE */ public static final int EDGE_MODE_HIGH_QUALITY = 2; /** *Edge enhancement is applied at different levels for different output streams, * based on resolution. Streams at maximum recording resolution (see {@link android.hardware.camera2.CameraDevice#createCaptureSession }) or below have * edge enhancement applied, while higher-resolution streams have no edge enhancement * applied. The level of edge enhancement for low-resolution streams is tuned so that * frame rate is not impacted, and the quality is equal to or better than FAST (since it * is only applied to lower-resolution outputs, quality may improve from FAST).
*This mode is intended to be used by applications operating in a zero-shutter-lag mode * with YUV or PRIVATE reprocessing, where the application continuously captures * high-resolution intermediate buffers into a circular buffer, from which a final image is * produced via reprocessing when a user takes a picture. For such a use case, the * high-resolution buffers must not have edge enhancement applied to maximize efficiency of * preview and to avoid double-applying enhancement when reprocessed, while low-resolution * buffers (used for recording or preview, generally) need edge enhancement applied for * reasonable preview quality.
*This mode is guaranteed to be supported by devices that support either the * YUV_REPROCESSING or PRIVATE_REPROCESSING capabilities * ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} lists either of those capabilities) and it will * be the default mode for CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.
* * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES * @see CaptureRequest#EDGE_MODE */ public static final int EDGE_MODE_ZERO_SHUTTER_LAG = 3; // // Enumeration values for CaptureRequest#FLASH_MODE // /** *Do not fire the flash for this capture.
* @see CaptureRequest#FLASH_MODE */ public static final int FLASH_MODE_OFF = 0; /** *If the flash is available and charged, fire flash * for this capture.
* @see CaptureRequest#FLASH_MODE */ public static final int FLASH_MODE_SINGLE = 1; /** *Transition flash to continuously on.
* @see CaptureRequest#FLASH_MODE */ public static final int FLASH_MODE_TORCH = 2; // // Enumeration values for CaptureRequest#HOT_PIXEL_MODE // /** *No hot pixel correction is applied.
*The frame rate must not be reduced relative to sensor raw output * for this option.
*The hotpixel map may be returned in {@link CaptureResult#STATISTICS_HOT_PIXEL_MAP android.statistics.hotPixelMap}.
* * @see CaptureResult#STATISTICS_HOT_PIXEL_MAP * @see CaptureRequest#HOT_PIXEL_MODE */ public static final int HOT_PIXEL_MODE_OFF = 0; /** *Hot pixel correction is applied, without reducing frame * rate relative to sensor raw output.
*The hotpixel map may be returned in {@link CaptureResult#STATISTICS_HOT_PIXEL_MAP android.statistics.hotPixelMap}.
* * @see CaptureResult#STATISTICS_HOT_PIXEL_MAP * @see CaptureRequest#HOT_PIXEL_MODE */ public static final int HOT_PIXEL_MODE_FAST = 1; /** *High-quality hot pixel correction is applied, at a cost * of possibly reduced frame rate relative to sensor raw output.
*The hotpixel map may be returned in {@link CaptureResult#STATISTICS_HOT_PIXEL_MAP android.statistics.hotPixelMap}.
* * @see CaptureResult#STATISTICS_HOT_PIXEL_MAP * @see CaptureRequest#HOT_PIXEL_MODE */ public static final int HOT_PIXEL_MODE_HIGH_QUALITY = 2; // // Enumeration values for CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE // /** *Optical stabilization is unavailable.
* @see CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE */ public static final int LENS_OPTICAL_STABILIZATION_MODE_OFF = 0; /** *Optical stabilization is enabled.
* @see CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE */ public static final int LENS_OPTICAL_STABILIZATION_MODE_ON = 1; // // Enumeration values for CaptureRequest#NOISE_REDUCTION_MODE // /** *No noise reduction is applied.
* @see CaptureRequest#NOISE_REDUCTION_MODE */ public static final int NOISE_REDUCTION_MODE_OFF = 0; /** *Noise reduction is applied without reducing frame rate relative to sensor * output. It may be the same as OFF if noise reduction will reduce frame rate * relative to sensor.
* @see CaptureRequest#NOISE_REDUCTION_MODE */ public static final int NOISE_REDUCTION_MODE_FAST = 1; /** *High-quality noise reduction is applied, at the cost of possibly reduced frame * rate relative to sensor output.
* @see CaptureRequest#NOISE_REDUCTION_MODE */ public static final int NOISE_REDUCTION_MODE_HIGH_QUALITY = 2; /** *MINIMAL noise reduction is applied without reducing frame rate relative to * sensor output.
* @see CaptureRequest#NOISE_REDUCTION_MODE */ public static final int NOISE_REDUCTION_MODE_MINIMAL = 3; /** *Noise reduction is applied at different levels for different output streams, * based on resolution. Streams at maximum recording resolution (see {@link android.hardware.camera2.CameraDevice#createCaptureSession }) or below have noise * reduction applied, while higher-resolution streams have MINIMAL (if supported) or no * noise reduction applied (if MINIMAL is not supported.) The degree of noise reduction * for low-resolution streams is tuned so that frame rate is not impacted, and the quality * is equal to or better than FAST (since it is only applied to lower-resolution outputs, * quality may improve from FAST).
*This mode is intended to be used by applications operating in a zero-shutter-lag mode * with YUV or PRIVATE reprocessing, where the application continuously captures * high-resolution intermediate buffers into a circular buffer, from which a final image is * produced via reprocessing when a user takes a picture. For such a use case, the * high-resolution buffers must not have noise reduction applied to maximize efficiency of * preview and to avoid over-applying noise filtering when reprocessing, while * low-resolution buffers (used for recording or preview, generally) need noise reduction * applied for reasonable preview quality.
*This mode is guaranteed to be supported by devices that support either the * YUV_REPROCESSING or PRIVATE_REPROCESSING capabilities * ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} lists either of those capabilities) and it will * be the default mode for CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.
* * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES * @see CaptureRequest#NOISE_REDUCTION_MODE */ public static final int NOISE_REDUCTION_MODE_ZERO_SHUTTER_LAG = 4; // // Enumeration values for CaptureRequest#SENSOR_TEST_PATTERN_MODE // /** *No test pattern mode is used, and the camera * device returns captures from the image sensor.
*This is the default if the key is not set.
* @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_OFF = 0; /** *Each pixel in [R, G_even, G_odd, B] is replaced by its
* respective color channel provided in
* {@link CaptureRequest#SENSOR_TEST_PATTERN_DATA android.sensor.testPatternData}.
For example:
*android.testPatternData = [0, 0xFFFFFFFF, 0xFFFFFFFF, 0]
* All green pixels are 100% green. All red/blue pixels are black.
*android.testPatternData = [0xFFFFFFFF, 0, 0xFFFFFFFF, 0]
* All red pixels are 100% red. Only the odd green pixels * are 100% green. All blue pixels are 100% black.
* * @see CaptureRequest#SENSOR_TEST_PATTERN_DATA * @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_SOLID_COLOR = 1; /** *All pixel data is replaced with an 8-bar color pattern.
*The vertical bars (left-to-right) are as follows:
*In general the image would look like the following:
*W Y C G M R B K
* W Y C G M R B K
* W Y C G M R B K
* W Y C G M R B K
* W Y C G M R B K
* . . . . . . . .
* . . . . . . . .
* . . . . . . . .
*
* (B = Blue, K = Black)
* Each bar should take up 1/8 of the sensor pixel array width. * When this is not possible, the bar size should be rounded * down to the nearest integer and the pattern can repeat * on the right side.
*Each bar's height must always take up the full sensor * pixel array height.
*Each pixel in this test pattern must be set to either * 0% intensity or 100% intensity.
* @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_COLOR_BARS = 2; /** *The test pattern is similar to COLOR_BARS, except that * each bar should start at its specified color at the top, * and fade to gray at the bottom.
*Furthermore each bar is further subdivided into a left and * right half. The left half should have a smooth gradient, * and the right half should have a quantized gradient.
*In particular, the right half's should consist of blocks of the * same color for 1/16th active sensor pixel array width.
*The least significant bits in the quantized gradient should * be copied from the most significant bits of the smooth gradient.
*The height of each bar should always be a multiple of 128. * When this is not the case, the pattern should repeat at the bottom * of the image.
* @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_COLOR_BARS_FADE_TO_GRAY = 3; /** *All pixel data is replaced by a pseudo-random sequence * generated from a PN9 512-bit sequence (typically implemented * in hardware with a linear feedback shift register).
*The generator should be reset at the beginning of each frame, * and thus each subsequent raw frame with this test pattern should * be exactly the same as the last.
* @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_PN9 = 4; /** *The first custom test pattern. All custom patterns that are * available only on this camera device are at least this numeric * value.
*All of the custom test patterns will be static * (that is the raw image must not vary from frame to frame).
* @see CaptureRequest#SENSOR_TEST_PATTERN_MODE */ public static final int SENSOR_TEST_PATTERN_MODE_CUSTOM1 = 256; // // Enumeration values for CaptureRequest#SHADING_MODE // /** *No lens shading correction is applied.
* @see CaptureRequest#SHADING_MODE */ public static final int SHADING_MODE_OFF = 0; /** *Apply lens shading corrections, without slowing * frame rate relative to sensor raw output
* @see CaptureRequest#SHADING_MODE */ public static final int SHADING_MODE_FAST = 1; /** *Apply high-quality lens shading correction, at the * cost of possibly reduced frame rate.
* @see CaptureRequest#SHADING_MODE */ public static final int SHADING_MODE_HIGH_QUALITY = 2; // // Enumeration values for CaptureRequest#STATISTICS_FACE_DETECT_MODE // /** *Do not include face detection statistics in capture * results.
* @see CaptureRequest#STATISTICS_FACE_DETECT_MODE */ public static final int STATISTICS_FACE_DETECT_MODE_OFF = 0; /** *Return face rectangle and confidence values only.
* @see CaptureRequest#STATISTICS_FACE_DETECT_MODE */ public static final int STATISTICS_FACE_DETECT_MODE_SIMPLE = 1; /** *Return all face * metadata.
*In this mode, face rectangles, scores, landmarks, and face IDs are all valid.
* @see CaptureRequest#STATISTICS_FACE_DETECT_MODE */ public static final int STATISTICS_FACE_DETECT_MODE_FULL = 2; // // Enumeration values for CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE // /** *Do not include a lens shading map in the capture result.
* @see CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE */ public static final int STATISTICS_LENS_SHADING_MAP_MODE_OFF = 0; /** *Include a lens shading map in the capture result.
* @see CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE */ public static final int STATISTICS_LENS_SHADING_MAP_MODE_ON = 1; // // Enumeration values for CaptureRequest#TONEMAP_MODE // /** *Use the tone mapping curve specified in * the {@link CaptureRequest#TONEMAP_CURVE android.tonemap.curve}* entries.
*All color enhancement and tonemapping must be disabled, except * for applying the tonemapping curve specified by * {@link CaptureRequest#TONEMAP_CURVE android.tonemap.curve}.
*Must not slow down frame rate relative to raw * sensor output.
* * @see CaptureRequest#TONEMAP_CURVE * @see CaptureRequest#TONEMAP_MODE */ public static final int TONEMAP_MODE_CONTRAST_CURVE = 0; /** *Advanced gamma mapping and color enhancement may be applied, without * reducing frame rate compared to raw sensor output.
* @see CaptureRequest#TONEMAP_MODE */ public static final int TONEMAP_MODE_FAST = 1; /** *High-quality gamma mapping and color enhancement will be applied, at * the cost of possibly reduced frame rate compared to raw sensor output.
* @see CaptureRequest#TONEMAP_MODE */ public static final int TONEMAP_MODE_HIGH_QUALITY = 2; /** *Use the gamma value specified in {@link CaptureRequest#TONEMAP_GAMMA android.tonemap.gamma} to peform * tonemapping.
*All color enhancement and tonemapping must be disabled, except * for applying the tonemapping curve specified by {@link CaptureRequest#TONEMAP_GAMMA android.tonemap.gamma}.
*Must not slow down frame rate relative to raw sensor output.
* * @see CaptureRequest#TONEMAP_GAMMA * @see CaptureRequest#TONEMAP_MODE */ public static final int TONEMAP_MODE_GAMMA_VALUE = 3; /** *Use the preset tonemapping curve specified in * {@link CaptureRequest#TONEMAP_PRESET_CURVE android.tonemap.presetCurve} to peform tonemapping.
*All color enhancement and tonemapping must be disabled, except * for applying the tonemapping curve specified by * {@link CaptureRequest#TONEMAP_PRESET_CURVE android.tonemap.presetCurve}.
*Must not slow down frame rate relative to raw sensor output.
* * @see CaptureRequest#TONEMAP_PRESET_CURVE * @see CaptureRequest#TONEMAP_MODE */ public static final int TONEMAP_MODE_PRESET_CURVE = 4; // // Enumeration values for CaptureRequest#TONEMAP_PRESET_CURVE // /** *Tonemapping curve is defined by sRGB
* @see CaptureRequest#TONEMAP_PRESET_CURVE */ public static final int TONEMAP_PRESET_CURVE_SRGB = 0; /** *Tonemapping curve is defined by ITU-R BT.709
* @see CaptureRequest#TONEMAP_PRESET_CURVE */ public static final int TONEMAP_PRESET_CURVE_REC709 = 1; // // Enumeration values for CaptureResult#CONTROL_AE_STATE // /** *AE is off or recently reset.
*When a camera device is opened, it starts in * this state. This is a transient state, the camera device may skip reporting * this state in capture result.
* @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_INACTIVE = 0; /** *AE doesn't yet have a good set of control values * for the current scene.
*This is a transient state, the camera device may skip * reporting this state in capture result.
* @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_SEARCHING = 1; /** *AE has a good set of control values for the * current scene.
* @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_CONVERGED = 2; /** *AE has been locked.
* @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_LOCKED = 3; /** *AE has a good set of control values, but flash * needs to be fired for good quality still * capture.
* @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_FLASH_REQUIRED = 4; /** *AE has been asked to do a precapture sequence * and is currently executing it.
*Precapture can be triggered through setting * {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} to START. Currently * active and completed (if it causes camera device internal AE lock) precapture * metering sequence can be canceled through setting * {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} to CANCEL.
*Once PRECAPTURE completes, AE will transition to CONVERGED * or FLASH_REQUIRED as appropriate. This is a transient * state, the camera device may skip reporting this state in * capture result.
* * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER * @see CaptureResult#CONTROL_AE_STATE */ public static final int CONTROL_AE_STATE_PRECAPTURE = 5; // // Enumeration values for CaptureResult#CONTROL_AF_STATE // /** *AF is off or has not yet tried to scan/been asked * to scan.
*When a camera device is opened, it starts in this * state. This is a transient state, the camera device may * skip reporting this state in capture * result.
* @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_INACTIVE = 0; /** *AF is currently performing an AF scan initiated the * camera device in a continuous autofocus mode.
*Only used by CONTINUOUS_* AF modes. This is a transient * state, the camera device may skip reporting this state in * capture result.
* @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_PASSIVE_SCAN = 1; /** *AF currently believes it is in focus, but may * restart scanning at any time.
*Only used by CONTINUOUS_* AF modes. This is a transient * state, the camera device may skip reporting this state in * capture result.
* @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_PASSIVE_FOCUSED = 2; /** *AF is performing an AF scan because it was * triggered by AF trigger.
*Only used by AUTO or MACRO AF modes. This is a transient * state, the camera device may skip reporting this state in * capture result.
* @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_ACTIVE_SCAN = 3; /** *AF believes it is focused correctly and has locked * focus.
*This state is reached only after an explicit START AF trigger has been * sent ({@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger}), when good focus has been obtained.
*The lens will remain stationary until the AF mode ({@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}) is changed or * a new AF trigger is sent to the camera device ({@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger}).
* * @see CaptureRequest#CONTROL_AF_MODE * @see CaptureRequest#CONTROL_AF_TRIGGER * @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_FOCUSED_LOCKED = 4; /** *AF has failed to focus successfully and has locked * focus.
*This state is reached only after an explicit START AF trigger has been * sent ({@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger}), when good focus cannot be obtained.
*The lens will remain stationary until the AF mode ({@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}) is changed or * a new AF trigger is sent to the camera device ({@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger}).
* * @see CaptureRequest#CONTROL_AF_MODE * @see CaptureRequest#CONTROL_AF_TRIGGER * @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_NOT_FOCUSED_LOCKED = 5; /** *AF finished a passive scan without finding focus, * and may restart scanning at any time.
*Only used by CONTINUOUS_* AF modes. This is a transient state, the camera * device may skip reporting this state in capture result.
*LEGACY camera devices do not support this state. When a passive * scan has finished, it will always go to PASSIVE_FOCUSED.
* @see CaptureResult#CONTROL_AF_STATE */ public static final int CONTROL_AF_STATE_PASSIVE_UNFOCUSED = 6; // // Enumeration values for CaptureResult#CONTROL_AWB_STATE // /** *AWB is not in auto mode, or has not yet started metering.
*When a camera device is opened, it starts in this * state. This is a transient state, the camera device may * skip reporting this state in capture * result.
* @see CaptureResult#CONTROL_AWB_STATE */ public static final int CONTROL_AWB_STATE_INACTIVE = 0; /** *AWB doesn't yet have a good set of control * values for the current scene.
*This is a transient state, the camera device * may skip reporting this state in capture result.
* @see CaptureResult#CONTROL_AWB_STATE */ public static final int CONTROL_AWB_STATE_SEARCHING = 1; /** *AWB has a good set of control values for the * current scene.
* @see CaptureResult#CONTROL_AWB_STATE */ public static final int CONTROL_AWB_STATE_CONVERGED = 2; /** *AWB has been locked.
* @see CaptureResult#CONTROL_AWB_STATE */ public static final int CONTROL_AWB_STATE_LOCKED = 3; // // Enumeration values for CaptureResult#FLASH_STATE // /** *No flash on camera.
* @see CaptureResult#FLASH_STATE */ public static final int FLASH_STATE_UNAVAILABLE = 0; /** *Flash is charging and cannot be fired.
* @see CaptureResult#FLASH_STATE */ public static final int FLASH_STATE_CHARGING = 1; /** *Flash is ready to fire.
* @see CaptureResult#FLASH_STATE */ public static final int FLASH_STATE_READY = 2; /** *Flash fired for this capture.
* @see CaptureResult#FLASH_STATE */ public static final int FLASH_STATE_FIRED = 3; /** *Flash partially illuminated this frame.
*This is usually due to the next or previous frame having * the flash fire, and the flash spilling into this capture * due to hardware limitations.
* @see CaptureResult#FLASH_STATE */ public static final int FLASH_STATE_PARTIAL = 4; // // Enumeration values for CaptureResult#LENS_STATE // /** *The lens parameters ({@link CaptureRequest#LENS_FOCAL_LENGTH android.lens.focalLength}, {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance}, * {@link CaptureRequest#LENS_FILTER_DENSITY android.lens.filterDensity} and {@link CaptureRequest#LENS_APERTURE android.lens.aperture}) are not changing.
* * @see CaptureRequest#LENS_APERTURE * @see CaptureRequest#LENS_FILTER_DENSITY * @see CaptureRequest#LENS_FOCAL_LENGTH * @see CaptureRequest#LENS_FOCUS_DISTANCE * @see CaptureResult#LENS_STATE */ public static final int LENS_STATE_STATIONARY = 0; /** *One or several of the lens parameters * ({@link CaptureRequest#LENS_FOCAL_LENGTH android.lens.focalLength}, {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance}, * {@link CaptureRequest#LENS_FILTER_DENSITY android.lens.filterDensity} or {@link CaptureRequest#LENS_APERTURE android.lens.aperture}) is * currently changing.
* * @see CaptureRequest#LENS_APERTURE * @see CaptureRequest#LENS_FILTER_DENSITY * @see CaptureRequest#LENS_FOCAL_LENGTH * @see CaptureRequest#LENS_FOCUS_DISTANCE * @see CaptureResult#LENS_STATE */ public static final int LENS_STATE_MOVING = 1; // // Enumeration values for CaptureResult#STATISTICS_SCENE_FLICKER // /** *The camera device does not detect any flickering illumination * in the current scene.
* @see CaptureResult#STATISTICS_SCENE_FLICKER */ public static final int STATISTICS_SCENE_FLICKER_NONE = 0; /** *The camera device detects illumination flickering at 50Hz * in the current scene.
* @see CaptureResult#STATISTICS_SCENE_FLICKER */ public static final int STATISTICS_SCENE_FLICKER_50HZ = 1; /** *The camera device detects illumination flickering at 60Hz * in the current scene.
* @see CaptureResult#STATISTICS_SCENE_FLICKER */ public static final int STATISTICS_SCENE_FLICKER_60HZ = 2; // // Enumeration values for CaptureResult#SYNC_FRAME_NUMBER // /** *The current result is not yet fully synchronized to any request.
*Synchronization is in progress, and reading metadata from this * result may include a mix of data that have taken effect since the * last synchronization time.
*In some future result, within {@link CameraCharacteristics#SYNC_MAX_LATENCY android.sync.maxLatency} frames, * this value will update to the actual frame number frame number * the result is guaranteed to be synchronized to (as long as the * request settings remain constant).
* * @see CameraCharacteristics#SYNC_MAX_LATENCY * @see CaptureResult#SYNC_FRAME_NUMBER * @hide */ public static final int SYNC_FRAME_NUMBER_CONVERGING = -1; /** *The current result's synchronization status is unknown.
*The result may have already converged, or it may be in * progress. Reading from this result may include some mix * of settings from past requests.
*After a settings change, the new settings will eventually all * take effect for the output buffers and results. However, this * value will not change when that happens. Altering settings * rapidly may provide outcomes using mixes of settings from recent * requests.
*This value is intended primarily for backwards compatibility with * the older camera implementations (for android.hardware.Camera).
* @see CaptureResult#SYNC_FRAME_NUMBER * @hide */ public static final int SYNC_FRAME_NUMBER_UNKNOWN = -2; /*~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~ * End generated code *~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~O@*/ }