CameraDevice
public
abstract
class
CameraDevice
extends Object
implements
AutoCloseable
java.lang.Object | |
↳ | android.hardware.camera2.CameraDevice |
The CameraDevice class is a representation of a single camera connected to an Android device, allowing for fine-grain control of image capture and post-processing at high frame rates.
Your application must declare the
Camera
permission in its manifest
in order to access camera devices.
A given camera device may provide support at one of several levels defined
in CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
.
If a device supports LEGACY
level,
the camera device is running in backward compatibility mode and has minimum camera2 API support.
If a device supports the LIMITED
level, then Camera2 exposes a feature set that is roughly equivalent to the older
Camera
API, although with a cleaner and more
efficient interface.
If a device supports the EXTERNAL
level, then the device is a removable camera that provides similar but slightly less features
as the LIMITED
level.
Devices that implement the FULL
or
LEVEL3
level of support
provide substantially improved capabilities over the older camera
API. If your application requires a full-level device for
proper operation, declare the "android.hardware.camera.level.full" feature in your
manifest.
See also:
Summary
Nested classes | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
class |
CameraDevice.CameraDeviceSetup
CameraDeviceSetup is a limited representation of |
|||||||||||
class |
CameraDevice.StateCallback
A callback objects for receiving updates about the state of a camera device. |
Constants | |
---|---|
int |
AUDIO_RESTRICTION_NONE
No vibration or sound muting for this camera device. |
int |
AUDIO_RESTRICTION_VIBRATION
Mute vibration from ringtones, alarms or notifications while this camera device is in use. |
int |
AUDIO_RESTRICTION_VIBRATION_SOUND
Mute vibration and sound from ringtones, alarms or notifications while this camera device is in use. |
int |
TEMPLATE_MANUAL
A basic template for direct application control of capture parameters. |
int |
TEMPLATE_PREVIEW
Create a request suitable for a camera preview window. |
int |
TEMPLATE_RECORD
Create a request suitable for video recording. |
int |
TEMPLATE_STILL_CAPTURE
Create a request suitable for still image capture. |
int |
TEMPLATE_VIDEO_SNAPSHOT
Create a request suitable for still image capture while recording video. |
int |
TEMPLATE_ZERO_SHUTTER_LAG
Create a request suitable for zero shutter lag still capture. |
Public methods | |
---|---|
abstract
void
|
close()
Close the connection to this camera device as quickly as possible. |
CaptureRequest.Builder
|
createCaptureRequest(int templateType, Set<String> physicalCameraIdSet)
Create a |
abstract
CaptureRequest.Builder
|
createCaptureRequest(int templateType)
Create a |
void
|
createCaptureSession(SessionConfiguration config)
Create a new |
abstract
void
|
createCaptureSession(List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use |
abstract
void
|
createCaptureSessionByOutputConfigurations(List<OutputConfiguration> outputConfigurations, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use |
abstract
void
|
createConstrainedHighSpeedCaptureSession(List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use |
void
|
createExtensionSession(ExtensionSessionConfiguration extensionConfiguration)
Initialize a specific device-specific extension augmented camera capture session. |
abstract
CaptureRequest.Builder
|
createReprocessCaptureRequest(TotalCaptureResult inputResult)
Create a |
abstract
void
|
createReprocessableCaptureSession(InputConfiguration inputConfig, List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use |
abstract
void
|
createReprocessableCaptureSessionByConfigurations(InputConfiguration inputConfig, List<OutputConfiguration> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use |
int
|
getCameraAudioRestriction()
Get currently applied global camera audio restriction mode. |
abstract
String
|
getId()
Get the ID of this camera device. |
boolean
|
isSessionConfigurationSupported(SessionConfiguration sessionConfig)
Checks whether a particular |
void
|
setCameraAudioRestriction(int mode)
Set audio restriction mode when this CameraDevice is being used. |
Inherited methods | |
---|---|
Constants
AUDIO_RESTRICTION_NONE
public static final int AUDIO_RESTRICTION_NONE
No vibration or sound muting for this camera device. This is the default mode for all camera devices.
See also:
Constant Value: 0 (0x00000000)
AUDIO_RESTRICTION_VIBRATION
public static final int AUDIO_RESTRICTION_VIBRATION
Mute vibration from ringtones, alarms or notifications while this camera device is in use.
See also:
Constant Value: 1 (0x00000001)
AUDIO_RESTRICTION_VIBRATION_SOUND
public static final int AUDIO_RESTRICTION_VIBRATION_SOUND
Mute vibration and sound from ringtones, alarms or notifications while this camera device is in use.
See also:
Constant Value: 3 (0x00000003)
TEMPLATE_MANUAL
public static final int TEMPLATE_MANUAL
A basic template for direct application control of capture
parameters. All automatic control is disabled (auto-exposure, auto-white
balance, auto-focus), and post-processing parameters are set to preview
quality. The manual capture parameters (exposure, sensitivity, and so on)
are set to reasonable defaults, but should be overridden by the
application depending on the intended use case.
This template is guaranteed to be supported on camera devices that support the
MANUAL_SENSOR
capability.
See also:
Constant Value: 6 (0x00000006)
TEMPLATE_PREVIEW
public static final int TEMPLATE_PREVIEW
Create a request suitable for a camera preview window. Specifically, this
means that high frame rate is given priority over the highest-quality
post-processing. These requests would normally be used with the
CameraCaptureSession.setRepeatingRequest
method.
This template is guaranteed to be supported on all camera devices.
See also:
Constant Value: 1 (0x00000001)
TEMPLATE_RECORD
public static final int TEMPLATE_RECORD
Create a request suitable for video recording. Specifically, this means
that a stable frame rate is used, and post-processing is set for
recording quality. These requests would commonly be used with the
CameraCaptureSession.setRepeatingRequest
method.
This template is guaranteed to be supported on all camera devices except
DEPTH_OUTPUT
devices
that are not BACKWARD_COMPATIBLE
.
See also:
Constant Value: 3 (0x00000003)
TEMPLATE_STILL_CAPTURE
public static final int TEMPLATE_STILL_CAPTURE
Create a request suitable for still image capture. Specifically, this
means prioritizing image quality over frame rate. These requests would
commonly be used with the CameraCaptureSession.capture
method.
This template is guaranteed to be supported on all camera devices except
DEPTH_OUTPUT
devices
that are not BACKWARD_COMPATIBLE
.
See also:
Constant Value: 2 (0x00000002)
TEMPLATE_VIDEO_SNAPSHOT
public static final int TEMPLATE_VIDEO_SNAPSHOT
Create a request suitable for still image capture while recording
video. Specifically, this means maximizing image quality without
disrupting the ongoing recording. These requests would commonly be used
with the CameraCaptureSession.capture
method while a request based on
TEMPLATE_RECORD
is is in use with CameraCaptureSession.setRepeatingRequest
.
This template is guaranteed to be supported on all camera devices except
legacy devices (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LEGACY
) and
DEPTH_OUTPUT
devices
that are not BACKWARD_COMPATIBLE
.
See also:
Constant Value: 4 (0x00000004)
TEMPLATE_ZERO_SHUTTER_LAG
public static final int TEMPLATE_ZERO_SHUTTER_LAG
Create a request suitable for zero shutter lag still capture. This means
means maximizing image quality without compromising preview frame rate.
AE/AWB/AF should be on auto mode. This is intended for application-operated ZSL. For
device-operated ZSL, use CaptureRequest.CONTROL_ENABLE_ZSL
if available.
This template is guaranteed to be supported on camera devices that support the
PRIVATE_REPROCESSING
capability or the
YUV_REPROCESSING
capability.
Constant Value: 5 (0x00000005)
Public methods
close
public abstract void close ()
Close the connection to this camera device as quickly as possible.
Immediately after this call, all calls to the camera device or active session interface
will throw a IllegalStateException
, except for calls to close(). Once the device has
fully shut down, the StateCallback.onClosed
callback will be called, and the camera
is free to be re-opened.
Immediately after this call, besides the final StateCallback.onClosed
calls, no
further callbacks from the device or the active session will occur, and any remaining
submitted capture requests will be discarded, as if
CameraCaptureSession.abortCaptures
had been called, except that no success or failure
callbacks will be invoked.
createCaptureRequest
public CaptureRequest.Builder createCaptureRequest (int templateType, Set<String> physicalCameraIdSet)
Create a CaptureRequest.Builder
for new capture requests,
initialized with template for a target use case. This methods allows
clients to pass physical camera ids which can be used to customize the
request for a specific physical camera. The settings are chosen
to be the best options for the specific logical camera device. If
additional physical camera ids are passed, then they will also use the
same settings template. Clients can further modify individual camera
settings by calling CaptureRequest.Builder.setPhysicalCameraKey
.
Individual physical camera settings will only be honored for camera session
that was initialized with corresponding physical camera id output configuration
OutputConfiguration.setPhysicalCameraId
and the same output targets are
also attached in the request by CaptureRequest.Builder.addTarget
.
The output is undefined for any logical camera streams in case valid physical camera settings are attached.
Parameters | |
---|---|
templateType |
int : An enumeration selecting the use case for this request. Not all template
types are supported on every device. See the documentation for each template type for
details.
Value is TEMPLATE_PREVIEW , TEMPLATE_STILL_CAPTURE , TEMPLATE_RECORD , TEMPLATE_VIDEO_SNAPSHOT , TEMPLATE_ZERO_SHUTTER_LAG , or TEMPLATE_MANUAL |
physicalCameraIdSet |
Set : A set of physical camera ids that can be used to customize
the request for a specific physical camera. |
Returns | |
---|---|
CaptureRequest.Builder |
a builder for a capture request, initialized with default
settings for that template, and no output streams
This value cannot be null . |
Throws | |
---|---|
IllegalArgumentException |
if the templateType is not supported by this device, or one of the physical id arguments matches with logical camera id. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
createCaptureRequest
public abstract CaptureRequest.Builder createCaptureRequest (int templateType)
Create a CaptureRequest.Builder
for new capture requests,
initialized with template for a target use case. The settings are chosen
to be the best options for the specific camera device, so it is not
recommended to reuse the same request for a different camera device;
create a builder specific for that device and template and override the
settings as desired, instead.
Parameters | |
---|---|
templateType |
int : An enumeration selecting the use case for this request. Not all template
types are supported on every device. See the documentation for each template type for
details.
Value is TEMPLATE_PREVIEW , TEMPLATE_STILL_CAPTURE , TEMPLATE_RECORD , TEMPLATE_VIDEO_SNAPSHOT , TEMPLATE_ZERO_SHUTTER_LAG , or TEMPLATE_MANUAL |
Returns | |
---|---|
CaptureRequest.Builder |
a builder for a capture request, initialized with default
settings for that template, and no output streams
This value cannot be null . |
Throws | |
---|---|
IllegalArgumentException |
if the templateType is not supported by this device. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
createCaptureSession
public void createCaptureSession (SessionConfiguration config)
Create a new CameraCaptureSession
using a SessionConfiguration
helper
object that aggregates all supported parameters.
The active capture session determines the set of potential output Surfaces for
the camera device for each capture request. A given request may use all
or only some of the outputs. Once the CameraCaptureSession is created, requests can be
submitted with capture
,
captureBurst
,
setRepeatingRequest
, or
setRepeatingBurst
.
Surfaces suitable for inclusion as a camera output can be created for various use cases and targets:
- For drawing to a
SurfaceView
: Once the SurfaceView's Surface iscreated
, set the size of the Surface withSurfaceHolder.setFixedSize(int, int)
to be one of the sizes returned bygetOutputSizes(SurfaceHolder.class)
and then obtain the Surface by callingSurfaceHolder.getSurface()
. If the size is not set by the application, it will be rounded to the nearest supported size less than 1080p, by the camera device. - For accessing through an OpenGL texture via a
SurfaceTexture
: Set the size of the SurfaceTexture withSurfaceTexture.setDefaultBufferSize(int, int)
to be one of the sizes returned bygetOutputSizes(SurfaceTexture.class)
before creating a Surface from the SurfaceTexture withSurface.Surface(SurfaceTexture)
. If the size is not set by the application, it will be set to be the smallest supported size less than 1080p, by the camera device. - For recording with
MediaCodec
: CallMediaCodec.createInputSurface()
after configuring the media codec to use one of the sizes returned bygetOutputSizes(MediaCodec.class)
- For recording with
MediaRecorder
: CallMediaRecorder.getSurface()
after configuring the media recorder to use one of the sizes returned bygetOutputSizes(MediaRecorder.class)
, or configuring it to use one of the supportedCamcorderProfiles
. - For access to RAW, uncompressed YUV, or compressed JPEG data in the application: Create an
ImageReader
object with one of the supported output formats given byStreamConfigurationMap.getOutputFormats()
, setting its size to one of the corresponding supported sizes by passing the chosen output format intoStreamConfigurationMap.getOutputSizes(int)
. Then obtain aSurface
from it withImageReader.getSurface()
. If the ImageReader size is not set to a supported size, it will be rounded to a supported size less than 1080p by the camera device.
The camera device will query each Surface's size and formats upon this call, so they must be set to a valid setting at this time.
It can take several hundred milliseconds for the session's configuration to complete,
since camera hardware may need to be powered on or reconfigured. Once the configuration is
complete and the session is ready to actually capture data, the provided
CameraCaptureSession.StateCallback
's
CameraCaptureSession.StateCallback.onConfigured
callback will be called.
If a prior CameraCaptureSession already exists when this method is called, the previous
session will no longer be able to accept new capture requests and will be closed. Any
in-progress capture requests made on the prior session will be completed before it's closed.
CameraCaptureSession.StateCallback.onConfigured
for the new session may be invoked
before CameraCaptureSession.StateCallback.onClosed
is invoked for the prior
session. Once the new session is configured
, it is able to start capturing its own requests. To minimize the transition time,
the CameraCaptureSession.abortCaptures
call can be used to discard the remaining
requests for the prior capture session before a new one is created. Note that once the new
session is created, the old one can no longer have its captures aborted.
Using larger resolution outputs, or more outputs, can result in slower output rate from the device.
Configuring a session with an empty or null list will close the current session, if any. This can be used to release the current session's target surfaces for another use.
This function throws an IllegalArgumentException
if called with a
SessionConfiguration lacking state callbacks or valid output surfaces. The only exceptions
are deferred SurfaceView or SurfaceTexture outputs. See OutputConfiguration.OutputConfiguration(android.util.Size, java.lang.Class)
for details.
Regular capture
While any of the sizes from StreamConfigurationMap.getOutputSizes
can be used when
a single output stream is configured, a given camera device may not be able to support all
combination of sizes, formats, and targets when multiple outputs are configured at once. The
tables below list the maximum guaranteed resolutions for combinations of streams and targets,
given the capabilities of the camera device. These are valid for when the
input configuration
is not set and therefore no reprocessing is active.
If an application tries to create a session using a set of targets that exceed the limits
described in the below tables, one of three possibilities may occur. First, the session may
be successfully created and work normally. Second, the session may be successfully created,
but the camera device won't meet the frame rate guarantees as described in
StreamConfigurationMap.getOutputMinFrameDuration
. Or third, if the output set
cannot be used at all, session creation will fail entirely, with
CameraCaptureSession.StateCallback.onConfigureFailed
being invoked.
For the type column, PRIV
refers to any target whose available sizes are found
using StreamConfigurationMap.getOutputSizes(Class)
with no direct application-visible
format, YUV
refers to a target Surface using the
ImageFormat.YUV_420_888
format, JPEG
refers to the
ImageFormat.JPEG
format, and RAW
refers to the
ImageFormat.RAW_SENSOR
format.
For the maximum size column, PREVIEW
refers to the best size match to the
device's screen resolution, or to 1080p (1920x1080
), whichever is
smaller. RECORD
refers to the camera device's maximum supported recording resolution,
as determined by CamcorderProfile
. And MAXIMUM
refers to the
camera device's maximum output resolution for that format or target from
StreamConfigurationMap.getOutputSizes
.
To use these tables, determine the number and the formats/targets of outputs needed, and
find the row(s) of the table with those targets. The sizes indicate the maximum set of sizes
that can be used; it is guaranteed that for those targets, the listed sizes and anything
smaller from the list given by StreamConfigurationMap.getOutputSizes
can be
successfully used to create a session. For example, if a row indicates that a 8 megapixel
(MP) YUV_420_888 output can be used together with a 2 MP PRIV
output, then a session
can be created with targets [8 MP YUV, 2 MP PRIV]
or targets [2 MP YUV, 2 MP
PRIV]
; but a session with targets [8 MP YUV, 4 MP PRIV]
, targets [4 MP YUV, 4
MP PRIV]
, or targets [8 MP PRIV, 2 MP YUV]
would not be guaranteed to work, unless
some other row of the table lists such a combination.
LEGACY-level guaranteed configurations
Legacy devices (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LEGACY
) support at
least the following stream combinations:
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
PRIV | MAXIMUM | Simple preview, GPU video processing, or no-preview video recording. | ||||
JPEG | MAXIMUM | No-viewfinder still image capture. | ||||
YUV | MAXIMUM | In-application video/image processing. | ||||
PRIV | PREVIEW | JPEG | MAXIMUM | Standard still imaging. | ||
YUV | PREVIEW | JPEG | MAXIMUM | In-app processing plus still capture. | ||
PRIV | PREVIEW | PRIV | PREVIEW | Standard recording. | ||
PRIV | PREVIEW | YUV | PREVIEW | Preview plus in-app processing. | ||
PRIV | PREVIEW | YUV | PREVIEW | JPEG | MAXIMUM | Still capture plus in-app processing. |
LIMITED-level additional guaranteed configurations
Limited-level (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LIMITED
) devices
support at least the following stream combinations in addition to those for
LEGACY
devices:
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
PRIV | PREVIEW | PRIV | RECORD | High-resolution video recording with preview. | ||
PRIV | PREVIEW | YUV | RECORD | High-resolution in-app video processing with preview. | ||
YUV | PREVIEW | YUV | RECORD | Two-input in-app video processing. | ||
PRIV | PREVIEW | PRIV | RECORD | JPEG | RECORD | High-resolution recording with video snapshot. |
PRIV | PREVIEW | YUV | RECORD | JPEG | RECORD | High-resolution in-app processing with video snapshot. |
YUV | PREVIEW | YUV | PREVIEW | JPEG | MAXIMUM | Two-input in-app processing with still capture. |
FULL-level additional guaranteed configurations
FULL-level (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
FULL
) devices
support at least the following stream combinations in addition to those for
LIMITED
devices:
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
PRIV | PREVIEW | PRIV | MAXIMUM | Maximum-resolution GPU processing with preview. | ||
PRIV | PREVIEW | YUV | MAXIMUM | Maximum-resolution in-app processing with preview. | ||
YUV | PREVIEW | YUV | MAXIMUM | Maximum-resolution two-input in-app processing. | ||
PRIV | PREVIEW | PRIV | PREVIEW | JPEG | MAXIMUM | Video recording with maximum-size video snapshot |
YUV | 640x480 | PRIV | PREVIEW | YUV | MAXIMUM | Standard video recording plus maximum-resolution in-app processing. |
YUV | 640x480 | YUV | PREVIEW | YUV | MAXIMUM | Preview plus two-input maximum-resolution in-app processing. |
RAW-capability additional guaranteed configurations
RAW-capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes
RAW
) devices additionally support
at least the following stream combinations on both
FULL
and
LIMITED
devices:
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
RAW | MAXIMUM | No-preview DNG capture. | ||||
PRIV | PREVIEW | RAW | MAXIMUM | Standard DNG capture. | ||
YUV | PREVIEW | RAW | MAXIMUM | In-app processing plus DNG capture. | ||
PRIV | PREVIEW | PRIV | PREVIEW | RAW | MAXIMUM | Video recording with DNG capture. |
PRIV | PREVIEW | YUV | PREVIEW | RAW | MAXIMUM | Preview with in-app processing and DNG capture. |
YUV | PREVIEW | YUV | PREVIEW | RAW | MAXIMUM | Two-input in-app processing plus DNG capture. |
PRIV | PREVIEW | JPEG | MAXIMUM | RAW | MAXIMUM | Still capture with simultaneous JPEG and DNG. |
YUV | PREVIEW | JPEG | MAXIMUM | RAW | MAXIMUM | In-app processing with simultaneous JPEG and DNG. |
BURST-capability additional guaranteed configurations
BURST-capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes
BURST_CAPTURE
) devices
support at least the below stream combinations in addition to those for
LIMITED
devices. Note that all
FULL-level devices support the BURST capability, and the below list is a strict subset of the
list for FULL-level devices, so this table is only relevant for LIMITED-level devices that
support the BURST_CAPTURE capability.
Target 1 | Target 2 | Sample use case(s) | ||
---|---|---|---|---|
Type | Max size | Type | Max size | |
PRIV | PREVIEW | PRIV | MAXIMUM | Maximum-resolution GPU processing with preview. |
PRIV | PREVIEW | YUV | MAXIMUM | Maximum-resolution in-app processing with preview. |
YUV | PREVIEW | YUV | MAXIMUM | Maximum-resolution two-input in-app processing. |
LEVEL-3 additional guaranteed configurations
LEVEL-3 (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LEVEL_3
)
support at least the following stream combinations in addition to the combinations for
FULL
and for
RAW capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes
RAW
):
Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | ||||
---|---|---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
PRIV | PREVIEW | PRIV | 640x480 | YUV | MAXIMUM | RAW | MAXIMUM | In-app viewfinder analysis with dynamic selection of output format. |
PRIV | PREVIEW | PRIV | 640x480 | JPEG | MAXIMUM | RAW | MAXIMUM | In-app viewfinder analysis with dynamic selection of output format. |
Concurrent stream guaranteed configurations
BACKWARD_COMPATIBLE devices capable of streaming concurrently with other devices as
described by CameraManager.getConcurrentCameraIds()
have the
following guaranteed streams (when streaming concurrently with other devices)
Note: The sizes mentioned for these concurrent streams are the maximum sizes guaranteed
to be supported. Sizes smaller than these, obtained by StreamConfigurationMap.getOutputSizes
for a particular format, are supported as well.
Target 1 | Target 2 | Sample use case(s) | ||
---|---|---|---|---|
Type | Max size | Type | Max size | |
YUV | s1440p | In-app video / image processing. | ||
PRIV | s1440p | In-app viewfinder analysis. | ||
JPEG | s1440p | No viewfinder still image capture. | ||
YUV / PRIV | s720p | JPEG | s1440p | Standard still imaging. |
YUV / PRIV | s720p | YUV / PRIV | s1440p | In-app video / processing with preview. |
Devices which are not backwards-compatible, support a mandatory single stream of size sVGA with image format DEPTH16
during concurrent operation.
For guaranteed concurrent stream configurations:
sVGA refers to the camera device's maximum resolution for that format from StreamConfigurationMap.getOutputSizes
or
VGA resolution (640X480) whichever is lower.
s720p refers to the camera device's maximum resolution for that format from StreamConfigurationMap.getOutputSizes
or
720p(1280X720) whichever is lower.
s1440p refers to the camera device's maximum resolution for that format from StreamConfigurationMap.getOutputSizes
or
1440p(1920X1440) whichever is lower.
MONOCHROME-capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes MONOCHROME
) devices
supporting Y8
support substituting YUV
streams with Y8
in all guaranteed stream combinations for the device's hardware level
and capabilities.
Clients can access the above mandatory stream combination tables via
MandatoryStreamCombination
.
Devices capable of outputting HEIC formats (StreamConfigurationMap.getOutputFormats
contains ImageFormat.HEIC
) will support substituting JPEG
streams with HEIC
in all guaranteed stream combinations for the device's hardware
level and capabilities. Calling createCaptureSession with both JPEG and HEIC outputs is not
supported.
LEGACY-level additional guaranteed combinations with multi-resolution outputs
Devices capable of multi-resolution output for a particular format (
MultiResolutionStreamConfigurationMap.getOutputInfo(int)
returns a non-empty list) support using MultiResolutionImageReader
for MAXIMUM
resolution streams of that format for all mandatory stream combinations. For example,
if a LIMITED camera device supports multi-resolution output streams for both JPEG
and
PRIVATE
, in addition to the stream configurations
in the LIMITED and Legacy table above, the camera device supports the following guaranteed
stream combinations (MULTI_RES
in the Max size column refers to a MultiResolutionImageReader
created based on the variable max resolutions supported):
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
PRIV | MULTI_RES | Simple preview, GPU video processing, or no-preview video recording. | ||||
JPEG | MULTI_RES | No-viewfinder still image capture. | ||||
PRIV | PREVIEW | JPEG | MULTI_RES | Standard still imaging. | ||
PRIV | PREVIEW | YUV | PREVIEW | JPEG | MULTI_RES | Still capture plus in-app processing. |
LIMITED-level additional guaranteed configurations with multi-resolution outputs
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
YUV | PREVIEW | YUV | PREVIEW | JPEG | MULTI_RES | Two-input in-app processing with still capture. |
The same logic applies to other hardware levels and capabilities.
Additional guaranteed combinations for ULTRA_HIGH_RESOLUTION sensors
Devices with the ULTRA_HIGH_RESOLUTION_SENSOR capability have some additional guarantees which clients can take advantage of:
Target 1 | Target 2 | Target 3 | Sample use case(s) | ||||||
---|---|---|---|---|---|---|---|---|---|
Type | SC Map | Max size | Type | SC Map | Max size | Type | SC Map | Max size | |
YUV / JPEG / RAW | MAX_RES | MAX | PRIV / YUV | DEFAULT | PREVIEW | Ultra high res still image capture with preview | |||
YUV / JPEG / RAW | MAX_RES | MAX | PRIV | DEFAULT | PREVIEW | PRIV / YUV | DEFAULT | RECORD | Ultra high res still capture with preview + app based RECORD size analysis |
YUV / JPEG / RAW | MAX_RES | MAX | PRIV | DEFAULT | PREVIEW | JPEG / YUV / RAW | DEFAULT | MAX | Ultra high res still image capture with preview + default sensor pixel mode analysis stream |
Here, SC Map, refers to the StreamConfigurationMap
, the target stream sizes must
be chosen from. DEFAULT
refers to the default sensor pixel mode StreamConfigurationMap
and MAX_RES
refers to the maximum resolution StreamConfigurationMap
. For MAX_RES
streams, MAX
in the Max size
column refers to the maximum size from
StreamConfigurationMap.getOutputSizes
and StreamConfigurationMap.getHighResolutionOutputSizes
.
Note: The same capture request must not mix targets from
StreamConfigurationMap
s corresponding to different sensor pixel modes.
10-bit output additional guaranteed configurations
10-bit output capable
CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_DYNAMIC_RANGE_TEN_BIT
devices support at least the following stream combinations:
Target 1 | Target 2 | Target 3 | Sample use case(s) | |||
---|---|---|---|---|---|---|
Type | Max size | Type | Max size | Type | Max size | |
PRIV | MAXIMUM | Simple preview, GPU video processing, or no-preview video recording. | ||||
YUV | MAXIMUM | In-application video/image processing. | ||||
PRIV | PREVIEW | JPEG | MAXIMUM | Standard still imaging. | ||
PRIV | PREVIEW | YUV | MAXIMUM | Maximum-resolution in-app processing with preview. | ||
YUV | PREVIEW | YUV | MAXIMUM | Maximum-resolution two-input in-app processing. | ||
PRIV | PREVIEW | PRIV | RECORD | High-resolution video recording with preview. | ||
PRIV | PREVIEW | PRIV | RECORD | YUV | RECORD | High-resolution recording with in-app snapshot. |
PRIV | PREVIEW | PRIV | RECORD | JPEG | RECORD | High-resolution recording with video snapshot. |
Here PRIV can be either 8 or 10-bit ImageFormat.PRIVATE
pixel
format. YUV can be either ImageFormat.YUV_420_888
or
ImageFormat.YCBCR_P010
.
For the maximum size column, PREVIEW refers to the best size match to the device's screen
resolution, or to 1080p (1920x1080), whichever is smaller. RECORD refers to the camera
device's maximum supported recording resolution, as determined by
CamcorderProfile
. MAXIMUM refers to the camera device's maximum output
resolution for that format or target from StreamConfigurationMap.getOutputSizes(int)
.
Do note that invalid combinations such as having a camera surface configured to use pixel
format ImageFormat.YUV_420_888
with a 10-bit profile
will cause a capture session initialization failure.
ImageFormat.JPEG_R
may also be supported if advertised by
StreamConfigurationMap
. When initializing a capture
session that includes a Jpeg/R camera output clients must consider the following items w.r.t.
the 10-bit mandatory stream combination table:
- To generate the compressed Jpeg/R image a single
ImageFormat.YCBCR_P010
output will be used internally by the camera device. - On camera devices that are able to support concurrent 10 and 8-bit capture requests
see
DynamicRangeProfiles.getProfileCaptureRequestConstraints(long)
an extraImageFormat.JPEG
will also be configured internally to help speed up the encoding process.
StreamConfigurationMap.getOutputSizes(int)
for a complete list
supported sizes.
Camera clients that register a Jpeg/R output within a stream combination that doesn't fit
in the mandatory stream table above can call
isSessionConfigurationSupported(SessionConfiguration)
to ensure that this particular
configuration is supported.
STREAM_USE_CASE capability additional guaranteed configurations
Devices with the STREAM_USE_CASE capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_STREAM_USE_CASE
) support below additional
stream combinations:
Target 1 | Target 2 | Target 3 | Sample use case(s) | ||||||
---|---|---|---|---|---|---|---|---|---|
Type | Max size | Usecase | Type | Max size | Usecase | Type | Max size | Usecase | |
YUV / PRIV | PREVIEW | PREVIEW | Simple preview or in-app image processing | ||||||
YUV / PRIV | RECORD | VIDEO_RECORD | Simple video recording or in-app video processing | ||||||
YUV / JPEG | MAXIMUM | STILL_CAPTURE | Simple JPEG or YUV still image capture | ||||||
YUV / PRIV | s1440p | PREVIEW_VIDEO_STILL | Multi-purpose stream for preview, video and still image capture | ||||||
YUV / PRIV | s1440p | VIDEO_CALL | Simple video call | ||||||
PRIV | PREVIEW | PREVIEW | YUV / JPEG | MAXIMUM | STILL_CAPTURE | Preview with JPEG or YUV still image capture | |||
PRIV | PREVIEW | PREVIEW | YUV / PRIV | RECORD | VIDEO_RECORD | Preview with video recording or in-app video processing | |||
PRIV | PREVIEW | PREVIEW | YUV | PREVIEW | PREVIEW | Preview with in-application image processing | |||
PRIV | PREVIEW | PREVIEW | YUV / PRIV | s1440p | VIDEO_CALL | Preview with video call | |||
YUV / PRIV | s1440p | PREVIEW_VIDEO_STILL | YUV / JPEG | MAXIMUM | STILL_CAPTURE | MultI-purpose stream with JPEG or YUV still capture | |||
YUV | PREVIEW | STILL_CAPTURE | JPEG | MAXIMUM | STILL_CAPTURE | YUV and JPEG concurrent still image capture (for testing) | |||
PRIV | PREVIEW | PREVIEW | YUV / PRIV | RECORD | VIDEO_RECORD | JPEG | RECORD | STILL_CAPTURE | Preview, video record and JPEG video snapshot |
PRIV | PREVIEW | PREVIEW | YUV | PREVIEW | PREVIEW | JPEG | MAXIMUM | STILL_CAPTURE | Preview, in-application image processing, and JPEG still image capture |
STREAM_USE_CASE_CROPPED_RAW capability additional guaranteed configurations
Devices that include the CameraMetadata.SCALER_AVAILABLE_STREAM_USE_CASES_CROPPED_RAW
stream use-case in CameraCharacteristics.SCALER_AVAILABLE_STREAM_USE_CASES
,
support the additional stream combinations below:
Target 1 | Target 2 | Target 3 | Sample use case(s) | ||||||
---|---|---|---|---|---|---|---|---|---|
Type | Max size | Usecase | Type | Max size | Usecase | Type | Max size | Usecase | |
RAW | MAXIMUM | CROPPED_RAW | Cropped RAW still capture without preview | ||||||
PRIV / YUV | PREVIEW | PREVIEW | RAW | MAXIMUM | CROPPED_RAW | Preview with cropped RAW still capture | |||
PRIV / YUV | PREVIEW | PREVIEW | YUV / JPEG | MAXIMUM | STILL_CAPTURE | RAW | MAXIMUM | CROPPED_RAW | Preview with YUV / JPEG and cropped RAW still capture |
PRIV / YUV | PREVIEW | PREVIEW | PRIV / YUV | PREVIEW | VIDEO_RECORD / PREVIEW | RAW | MAXIMUM | CROPPED_RAW | Video recording with preview and cropped RAW still capture |
Preview stabilization guaranteed stream configurations
For devices where
CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES
includes
CameraMetadata.CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION
,
the following stream combinations are guaranteed,
for CaptureRequests where CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE
is set to
CameraMetadata.CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION
Target 1 | Target 2 | Sample use case(s) | ||
---|---|---|---|---|
Type | Max size | Type | Max size | |
PRIV / YUV | s1440p | Stabilized preview, GPU video processing, or no-preview stabilized video recording. | ||
PRIV / YUV | s1440p | JPEG / YUV | MAXIMUM | Standard still imaging with stabilized preview. |
PRIV / YUV | PREVIEW | PRIV / YUV | s1440p | High-resolution recording with stabilized preview and recording stream. |
For the maximum size column, PREVIEW refers to the best size match to the device's screen
resolution, or to 1080p (1920x1080), whichever is smaller. RECORD refers to the camera
device's maximum supported recording resolution, as determined by
CamcorderProfile
. MAXIMUM refers to the camera device's maximum output
resolution for that format or target from StreamConfigurationMap.getOutputSizes(int)
.
Since the capabilities of camera devices vary greatly, a given camera device may support
target combinations with sizes outside of these guarantees, but this can only be tested for
by calling isSessionConfigurationSupported(SessionConfiguration)
or attempting
to create a session with such targets.
Exception on 176x144 (QCIF) resolution: Camera devices usually have a fixed capability for downscaling from larger resolution to smaller, and the QCIF resolution sometimes is not fully supported due to this limitation on devices with high-resolution image sensors. Therefore, trying to configure a QCIF resolution stream together with any other stream larger than 1920x1080 resolution (either width or height) might not be supported, and capture session creation will fail if it is not.
Reprocessing
If a camera device supports YUV reprocessing
(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_YUV_REPROCESSING
) or PRIVATE
reprocessing
(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_PRIVATE_REPROCESSING
), the
application can also create a reprocessable capture session to submit reprocess capture
requests in addition to regular capture requests, by setting an
input configuration
for the session. A reprocess capture request takes the next available
buffer from the
session's input Surface, and sends it through the camera device's processing pipeline again,
to produce buffers for the request's target output Surfaces. No new image data is captured
for a reprocess request. However the input buffer provided by the application must be
captured previously by the same camera device in the same session directly (e.g. for
Zero-Shutter-Lag use case) or indirectly (e.g. combining multiple output images).
The active reprocessable capture session determines an input Surface
and the set
of potential output Surfaces for the camera devices for each capture request. The application
can use createCaptureRequest
to create regular capture requests
to capture new images from the camera device, and use createReprocessCaptureRequest
to create reprocess capture requests to process buffers from
the input Surface
. Some combinations of output Surfaces in a session may not be used
in a request simultaneously. The guaranteed combinations of output Surfaces that can be used
in a request simultaneously are listed in the tables under createCaptureSession
. All the output Surfaces in one capture request will come from the
same source, either from a new capture by the camera device, or from the input Surface
depending on if the request is a reprocess capture request.
Input formats and sizes supported by the camera device can be queried via
StreamConfigurationMap.getInputFormats
and
StreamConfigurationMap.getInputSizes
. For each supported input format, the camera
device supports a set of output formats and sizes for reprocessing that can be queried via
StreamConfigurationMap.getValidOutputFormatsForInput
and
StreamConfigurationMap.getOutputSizes
. While output Surfaces with formats that
aren't valid reprocess output targets for the input configuration can be part of a session,
they cannot be used as targets for a reprocessing request.
Since the application cannot access ImageFormat.PRIVATE
images
directly, an output Surface created by ImageReader.newInstance(int, int, int, int)
with
ImageFormat.PRIVATE
as the format will be considered as intended to
be used for reprocessing input and thus the ImageReader
size must
match one of the supported input sizes for ImageFormat.PRIVATE
format. Otherwise, creating a reprocessable capture session will fail.
Starting from API level 30, recreating a reprocessable capture session will flush all the queued but not yet processed buffers from the input surface.
The configurations in the tables below are guaranteed for creating a reprocessable
capture session if the camera device supports YUV reprocessing or PRIVATE reprocessing.
However, not all output targets used to create a reprocessable session may be used in a
CaptureRequest
simultaneously. For devices that support only 1 output target in a
reprocess CaptureRequest
, submitting a reprocess CaptureRequest
with multiple
output targets will result in a CaptureFailure
. For devices that support multiple
output targets in a reprocess CaptureRequest
, the guaranteed output targets that can
be included in a CaptureRequest
simultaneously are listed in the tables under
createCaptureSession
. For example, with a FULL-capability
(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
FULL
) device that supports PRIVATE
reprocessing, an application can create a reprocessable capture session with 1 input,
(PRIV
, MAXIMUM
), and 3 outputs, (PRIV
, MAXIMUM
),
(PRIV
, PREVIEW
), and (YUV
, MAXIMUM
). However, it's not
guaranteed that an application can submit a regular or reprocess capture with (PRIV
,
MAXIMUM
) and (YUV
, MAXIMUM
) outputs based on the table listed under
createCaptureSession
. In other words, use the tables below to
determine the guaranteed stream configurations for creating a reprocessable capture session,
and use the tables under createCaptureSession
to determine the
guaranteed output targets that can be submitted in a regular or reprocess
CaptureRequest
simultaneously.
Reprocessing with 10-bit output targets on 10-bit capable
CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DYNAMIC_RANGE_TEN_BIT
devices is
not supported. Trying to initialize a repreocessable capture session with one ore more
output configurations set OutputConfiguration.setDynamicRangeProfile
to use
a 10-bit dynamic range profile DynamicRangeProfiles
will trigger IllegalArgumentException
.
LIMITED-level (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LIMITED
) devices
support at least the following stream combinations for creating a reprocessable capture
session in addition to those listed earlier for regular captures for
LIMITED
devices:
LIMITED-level additional guaranteed configurations for creating a reprocessable capture session ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is guaranteed only if YUV reprocessing is supported) | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | |||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | JPEG | MAXIMUM | No-viewfinder still image reprocessing. | ||||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | JPEG | MAXIMUM | ZSL(Zero-Shutter-Lag) still imaging. | ||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | YUV | PREVIEW | JPEG | MAXIMUM | ZSL still and in-app processing imaging. | ||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | YUV | PREVIEW | YUV | PREVIEW | JPEG | MAXIMUM | ZSL in-app processing with still capture. |
FULL-level (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
FULL
) devices
support at least the following stream combinations for creating a reprocessable capture
session in addition to those for
LIMITED
devices:
FULL-level additional guaranteed configurations for creating a reprocessable capture session ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is guaranteed only if YUV reprocessing is supported) | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | |||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
YUV | MAXIMUM | YUV | MAXIMUM | PRIV | PREVIEW | Maximum-resolution multi-frame image fusion in-app processing with regular preview. | ||||
YUV | MAXIMUM | YUV | MAXIMUM | YUV | PREVIEW | Maximum-resolution multi-frame image fusion two-input in-app processing. | ||||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | YUV | RECORD | High-resolution ZSL in-app video processing with regular preview. | ||
PRIV | MAXIMUM | PRIV | MAXIMUM | PRIV | PREVIEW | YUV | MAXIMUM | Maximum-resolution ZSL in-app processing with regular preview. | ||
PRIV | MAXIMUM | PRIV | MAXIMUM | YUV | PREVIEW | YUV | MAXIMUM | Maximum-resolution two-input ZSL in-app processing. | ||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | YUV | PREVIEW | JPEG | MAXIMUM | ZSL still capture and in-app processing. |
RAW-capability (CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
includes
RAW
) devices additionally support
at least the following stream combinations for creating a reprocessable capture session
on both FULL
and
LIMITED
devices
RAW-capability additional guaranteed configurations for creating a reprocessable capture session ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is guaranteed only if YUV reprocessing is supported) | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | |||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | YUV | PREVIEW | RAW | MAXIMUM | Mutually exclusive ZSL in-app processing and DNG capture. | ||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | YUV | PREVIEW | RAW | MAXIMUM | Mutually exclusive ZSL in-app processing and preview with DNG capture. |
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | YUV | PREVIEW | YUV | PREVIEW | RAW | MAXIMUM | Mutually exclusive ZSL two-input in-app processing and DNG capture. |
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | JPEG | MAXIMUM | RAW | MAXIMUM | Mutually exclusive ZSL still capture and preview with DNG capture. |
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | YUV | PREVIEW | JPEG | MAXIMUM | RAW | MAXIMUM | Mutually exclusive ZSL in-app processing with still capture and DNG capture. |
LEVEL-3 (CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL
==
LEVEL_3
) devices
support at least the following stream combinations for creating a reprocessable capture
session in addition to those for
FULL
devices. Note that while
the second configuration allows for configuring MAXIMUM
YUV
and JPEG
outputs at the same time, that configuration is not listed for regular capture sessions, and
therefore simultaneous output to both targets is not allowed.
LEVEL-3 additional guaranteed configurations for creating a reprocessable capture session ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is always guaranteed. | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Target 5 | Sample use case(s) | ||||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
YUV | MAXIMUM | YUV | MAXIMUM | PRIV | PREVIEW | PRIV | 640x480 | RAW | MAXIMUM | In-app viewfinder analysis with ZSL and RAW. | ||
PRIV /YUV | MAXIMUM | Same as input | MAXIMUM | PRIV | PREVIEW | PRIV | 640x480 | RAW | MAXIMUM | JPEG | MAXIMUM | In-app viewfinder analysis with ZSL, RAW, and JPEG reprocessing output. |
If a camera device supports multi-resolution YUV
input and multi-resolution
YUV
output or supports multi-resolution PRIVATE
input and multi-resolution
PRIVATE
output, the additional mandatory stream combinations for LIMITED and FULL devices are listed
below (MULTI_RES
in the Max size column refers to a
MultiResolutionImageReader
for output, and a multi-resolution
InputConfiguration
for input):
LIMITED-level additional guaranteed configurations for creating a reprocessable capture session with multi-resolution input and multi-resolution outputs ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is guaranteed only if YUV reprocessing is supported) | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | |||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
PRIV /YUV | MULTI_RES | Same as input | MULTI_RES | JPEG | MULTI_RES | No-viewfinder still image reprocessing. | ||||
PRIV /YUV | MULTI_RES | Same as input | MULTI_RES | PRIV | PREVIEW | JPEG | MULTI_RES | ZSL(Zero-Shutter-Lag) still imaging. | ||
PRIV /YUV | MULTI_RES | Same as input | MULTI_RES | YUV | PREVIEW | JPEG | MULTI_RES | ZSL still and in-app processing imaging. | ||
PRIV /YUV | MULTI_RES | Same as input | MULTI_RES | YUV | PREVIEW | YUV | PREVIEW | JPEG | MULTI_RES | ZSL in-app processing with still capture. |
FULL-level additional guaranteed configurations for creating a reprocessable capture session with multi-resolution input and multi-resolution outputs ( PRIV input is guaranteed only if PRIVATE reprocessing is supported. YUV input is guaranteed only if YUV reprocessing is supported) | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Target 4 | Sample use case(s) | |||||
Type | Max size | Type | Max size | Type | Max size | Type | Max size | Type | Max size | |
PRIV | MULTI_RES | PRIV | MULTI_RES | PRIV | PREVIEW | YUV | MULTI_RES | Maximum-resolution ZSL in-app processing with regular preview. | ||
PRIV | MULTI_RES | PRIV | MULTI_RES | YUV | PREVIEW | YUV | MULTI_RES | Maximum-resolution two-input ZSL in-app processing. | ||
PRIV /YUV | MULTI_RES | Same as input | MULTI_RES | PRIV | PREVIEW | YUV | PREVIEW | JPEG | MULTI_RES | ZSL still capture and in-app processing. |
Devices with the ULTRA_HIGH_RESOLUTION_SENSOR capability have some additional guarantees which clients can take advantage of :
Additional guaranteed combinations for ULTRA_HIGH_RESOLUTION sensors (YUV / PRIV inputs are guaranteed only if YUV / PRIVATE reprocessing are supported) | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Input | Target 1 | Target 2 | Target 3 | Sample use case(s) | ||||||||
Type | SC Map | Max size | Type | SC Map | Max size | Type | SC Map | Max size | Type | SC Map | Max size | |
RAW | MAX_RES | MAX | RAW | MAX_RES | MAX | PRIV / YUV | DEFAULT | PREVIEW | RAW remosaic reprocessing with separate preview | |||
RAW | MAX_RES | MAX | RAW | MAX_RES | MAX | PRIV / YUV | DEFAULT | PREVIEW | JPEG / YUV | MAX_RES | MAX | Ultra high res RAW -> JPEG / YUV with seperate preview |
YUV / PRIV | MAX_RES | MAX | YUV / PRIV | MAX_RES | MAX | YUV / PRIV | DEFAULT | PREVIEW | JPEG | MAX_RES | MAX | Ultra high res PRIV / YUV -> YUV / JPEG reprocessing with seperate preview |
No additional mandatory stream combinations for RAW capability and LEVEL-3 hardware level.
Constrained high-speed recording
The application can use a
normal capture session
for high speed capture if the desired high speed FPS ranges are advertised by
CameraCharacteristics.CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES
, in which case all API
semantics associated with normal capture sessions applies.
A
high-speed capture session
can be use for high speed video recording (>=120fps) when the camera device supports high
speed video capability (i.e., CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
contains CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO
).
A constrained high-speed capture session has special limitations compared with a normal
capture session:
- In addition to the output target Surface requirements specified above for regular
captures, a high speed capture session will only support up to 2 output Surfaces, though
the application might choose to configure just one Surface (e.g., preview only). All
Surfaces must be either video encoder surfaces (acquired by
MediaRecorder.getSurface()
orMediaCodec.createInputSurface()
) or preview surfaces (obtained fromSurfaceView
,SurfaceTexture
viaSurface.Surface(android.graphics.SurfaceTexture)
). The Surface sizes must be one of the sizes reported byStreamConfigurationMap.getHighSpeedVideoSizes
. When multiple Surfaces are configured, their size must be same. - An active high speed capture session only accepts request lists created via
CameraConstrainedHighSpeedCaptureSession.createHighSpeedRequestList
, and the request list can only be submitted to this session viacaptureBurst
, orsetRepeatingBurst
. - The FPS ranges being requested to this session must be selected from
StreamConfigurationMap.getHighSpeedVideoFpsRangesFor
. The application can still useCaptureRequest.CONTROL_AE_TARGET_FPS_RANGE
to control the desired FPS range. Switching to an FPS range that has differentmaximum 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. - For the request lists submitted to this session, the camera device will override the
control mode
, auto-exposure (AE), auto-white balance (AWB) and auto-focus (AF) toCameraMetadata.CONTROL_MODE_AUTO
,CameraMetadata.CONTROL_AE_MODE_ON
,CameraMetadata.CONTROL_AWB_MODE_AUTO
andCameraMetadata.CONTROL_AF_MODE_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. Beside these, only a subset of controls will work, seeCameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO
for more details.
Parameters | |
---|---|
config |
SessionConfiguration : A session configuration (see SessionConfiguration ). |
Throws | |
---|---|
IllegalArgumentException |
In case the session configuration is invalid; or the output configurations are empty; or the session configuration executor is invalid; or the output dynamic range combination is invalid/unsupported. |
CameraAccessException |
In case the camera device is no longer connected or has encountered a fatal error. |
See also:
createCaptureSession(List, CameraCaptureSession.StateCallback, Handler)
createCaptureSessionByOutputConfigurations(List, StateCallback, Handler)
createReprocessableCaptureSession(InputConfiguration, List, StateCallback, Handler)
createConstrainedHighSpeedCaptureSession(List, StateCallback, Handler)
OutputConfiguration.setDynamicRangeProfile(long)
DynamicRangeProfiles
createCaptureSession
public abstract void createCaptureSession (List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use createCaptureSession(android.hardware.camera2.params.SessionConfiguration)
for the
full set of configuration options available.
Create a new camera capture session by providing the target output set of Surfaces to the camera device.
Parameters | |
---|---|
outputs |
List : The new set of Surfaces that should be made available as
targets for captured image data.
This value cannot be null . |
callback |
CameraCaptureSession.StateCallback : The callback to notify about the status of the new capture session.
This value cannot be null . |
handler |
Handler : The handler on which the callback should be invoked, or null to use
the current thread's looper . |
Throws | |
---|---|
IllegalArgumentException |
if the set of output Surfaces do not meet the requirements, the callback is null, or the handler is null but the current thread has no looper. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
createCaptureSessionByOutputConfigurations
public abstract void createCaptureSessionByOutputConfigurations (List<OutputConfiguration> outputConfigurations, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use createCaptureSession(android.hardware.camera2.params.SessionConfiguration)
for the
full set of configuration options available.
Create a new camera capture session by providing the target output set of Surfaces and its corresponding surface configuration to the camera device.
Parameters | |
---|---|
outputConfigurations |
List |
callback |
CameraCaptureSession.StateCallback |
handler |
Handler : This value may be null . |
Throws | |
---|---|
CameraAccessException |
createConstrainedHighSpeedCaptureSession
public abstract void createConstrainedHighSpeedCaptureSession (List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use createCaptureSession(android.hardware.camera2.params.SessionConfiguration)
for the
full set of configuration options available.
Create a new constrained high speed capture session.
Parameters | |
---|---|
outputs |
List : The new set of Surfaces that should be made available as
targets for captured high speed image data.
This value cannot be null . |
callback |
CameraCaptureSession.StateCallback : The callback to notify about the status of the new capture session.
This value cannot be null . |
handler |
Handler : The handler on which the callback should be invoked, or null to use
the current thread's looper . |
Throws | |
---|---|
IllegalArgumentException |
if the set of output Surfaces do not meet the requirements, the callback is null, or the handler is null but the current thread has no looper, or the camera device doesn't support high speed video capability. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
See also:
createCaptureSession(SessionConfiguration)
CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE
StreamConfigurationMap.getHighSpeedVideoSizes()
StreamConfigurationMap.getHighSpeedVideoFpsRangesFor(Size)
CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES
CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO
CameraCaptureSession.captureBurst(List, CaptureCallback, Handler)
CameraCaptureSession.setRepeatingBurst(List, CaptureCallback, Handler)
CameraConstrainedHighSpeedCaptureSession.createHighSpeedRequestList(CaptureRequest)
createExtensionSession
public void createExtensionSession (ExtensionSessionConfiguration extensionConfiguration)
Initialize a specific device-specific extension augmented camera capture session.
Extension sessions can be used to enable device-specific operation modes like
CameraExtensionCharacteristics.EXTENSION_NIGHT
or
CameraExtensionCharacteristics.EXTENSION_HDR
. These modes are less flexible than the
full camera API, but enable access to more sophisticated processing algorithms that can
capture multi-frame bursts to generate single output images. To query for available
extensions on this device call
CameraExtensionCharacteristics.getSupportedExtensions()
.
This method will also trigger the setup of the internal processing pipeline for extension augmented preview and multi-frame still capture.
If a prior CameraCaptureSession already exists when this method is called, the previous session will no longer be able to accept new capture requests and will be closed. Any in-progress capture requests made on the prior session will be completed before it's closed.
The CameraExtensionSession will be active until the client either calls CameraExtensionSession.close() or creates a new camera capture session. In both cases all internal resources will be released, continuous repeating requests stopped and any pending multi-frame capture requests flushed.
Note that the CameraExtensionSession currently supports at most wo
multi frame capture surface formats: ImageFormat.JPEG will be supported
by all extensions and ImageFormat.YUV_420_888 may or may not be supported.
Clients must query the multi-frame capture format support using
CameraExtensionCharacteristics.getExtensionSupportedSizes(int, int)
.
For repeating requests CameraExtensionSession supports only
SurfaceTexture
as output. Clients can query the supported resolution
for the repeating request output using
getExtensionSupportedSizes(..., Class)
.
At the very minimum the initialization expects either one valid output
surface for repeating or one valid output for high-quality single requests registered in the
outputs argument of the extension configuration argument. At the maximum the initialization
will accept two valid output surfaces, one for repeating and the other for single requests.
Additional unsupported surfaces passed to ExtensionSessionConfiguration will cause an
IllegalArgumentException
to be thrown.
Parameters | |
---|---|
extensionConfiguration |
ExtensionSessionConfiguration : extension configuration
This value cannot be null . |
Throws | |
---|---|
IllegalArgumentException |
If both the preview and still
capture surfaces are not set or invalid, or if any of the
registered surfaces do not meet the device-specific
extension requirements such as dimensions and/or
(output format)/(surface type), or if the extension is not
supported, or if any of the output configurations select
a dynamic range different from
DynamicRangeProfiles.STANDARD ,
or if any of the output configurations sets a stream use
case different from CameraMetadata.SCALER_AVAILABLE_STREAM_USE_CASES_DEFAULT . |
CameraAccessException |
createReprocessCaptureRequest
public abstract CaptureRequest.Builder createReprocessCaptureRequest (TotalCaptureResult inputResult)
Create a CaptureRequest.Builder
for a new reprocess CaptureRequest
from a
TotalCaptureResult
.
Each reprocess CaptureRequest
processes one buffer from
CameraCaptureSession
's input Surface
to all output Surfaces
included in the reprocess capture request. The reprocess input images must be generated from
one or multiple output images captured from the same camera device. The application can
provide input images to camera device via ImageWriter.queueInputImage(Image)
.
The application must use the capture result of one of those output images to create a
reprocess capture request so that the camera device can use the information to achieve
optimal reprocess image quality. For camera devices that support only 1 output
Surface
, submitting a reprocess CaptureRequest
with multiple
output targets will result in a CaptureFailure
.
From Android 14 onward, CaptureRequest.CONTROL_CAPTURE_INTENT
will be set to
CameraMetadata.CONTROL_CAPTURE_INTENT_STILL_CAPTURE
by default. Prior to Android 14,
apps will need to explicitly set this key themselves.
Parameters | |
---|---|
inputResult |
TotalCaptureResult : The capture result of the output image or one of the output images used
to generate the reprocess input image for this capture request.
This value cannot be null . |
Returns | |
---|---|
CaptureRequest.Builder |
This value cannot be null . |
Throws | |
---|---|
IllegalArgumentException |
if inputResult is null. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
createReprocessableCaptureSession
public abstract void createReprocessableCaptureSession (InputConfiguration inputConfig, List<Surface> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use createCaptureSession(android.hardware.camera2.params.SessionConfiguration)
for the
full set of configuration options available.
Create a new reprocessable camera capture session by providing the desired reprocessing input Surface configuration and the target output set of Surfaces to the camera device.
Parameters | |
---|---|
inputConfig |
InputConfiguration : The configuration for the input Surface
This value cannot be null . |
outputs |
List : The new set of Surfaces that should be made available as
targets for captured image data.
This value cannot be null . |
callback |
CameraCaptureSession.StateCallback : The callback to notify about the status of the new capture session.
This value cannot be null . |
handler |
Handler : The handler on which the callback should be invoked, or null to use
the current thread's looper . |
Throws | |
---|---|
IllegalArgumentException |
if the input configuration is null or not supported, the set of output Surfaces do not meet the requirements, the callback is null, or the handler is null but the current thread has no looper. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
See also:
createCaptureSession(SessionConfiguration)
CameraCaptureSession
StreamConfigurationMap.getInputFormats()
StreamConfigurationMap.getInputSizes(int)
StreamConfigurationMap.getValidOutputFormatsForInput(int)
StreamConfigurationMap.getOutputSizes(int)
StreamConfigurationMap.getOutputSizes(Class)
ImageWriter
ImageReader
createReprocessableCaptureSessionByConfigurations
public abstract void createReprocessableCaptureSessionByConfigurations (InputConfiguration inputConfig, List<OutputConfiguration> outputs, CameraCaptureSession.StateCallback callback, Handler handler)
This method was deprecated
in API level 30.
Please use createCaptureSession(android.hardware.camera2.params.SessionConfiguration)
for the
full set of configuration options available.
Create a new reprocessable camera capture session by providing the desired reprocessing
input configuration and output OutputConfiguration
to the camera device.
Parameters | |
---|---|
inputConfig |
InputConfiguration : This value cannot be null . |
outputs |
List : This value cannot be null . |
callback |
CameraCaptureSession.StateCallback : This value cannot be null . |
handler |
Handler : This value may be null . |
Throws | |
---|---|
CameraAccessException |
getCameraAudioRestriction
public int getCameraAudioRestriction ()
Get currently applied global camera audio restriction mode.
Application can use this method to retrieve the system-wide camera audio restriction
settings described in setCameraAudioRestriction(int)
.
Returns | |
---|---|
int |
The current system-wide mute mode setting in effect
Value is AUDIO_RESTRICTION_NONE , AUDIO_RESTRICTION_VIBRATION , or AUDIO_RESTRICTION_VIBRATION_SOUND |
Throws | |
---|---|
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
See also:
getId
public abstract String getId ()
Get the ID of this camera device.
This matches the ID given to CameraManager.openCamera
to instantiate this
this camera device.
This ID can be used to query the camera device's fixed properties
with CameraManager.getCameraCharacteristics(String)
.
This method can be called even if the device has been closed or has encountered a serious error.
Returns | |
---|---|
String |
the ID for this camera device
This value cannot be null . |
isSessionConfigurationSupported
public boolean isSessionConfigurationSupported (SessionConfiguration sessionConfig)
Checks whether a particular SessionConfiguration
is supported by the camera device.
This method performs a runtime check of a given SessionConfiguration
. The result
confirms whether or not the passed session configuration can be successfully used to
create a camera capture session using
CameraDevice.createCaptureSession(
android.hardware.camera2.params.SessionConfiguration)
.
The method can be called at any point before, during and after active capture session. It must not impact normal camera behavior in any way and must complete significantly faster than creating a regular or constrained capture session.
Although this method is faster than creating a new capture session, it is not intended
to be used for exploring the entire space of supported stream combinations. The available
mandatory stream combinations
MandatoryStreamCombination
are better suited for this
purpose.
If this function returns true
for a particular stream combination, the camera
device supports concurrent captures on all of the streams in the same CaptureRequest, with
two exceptions below where concurrent captures are not supported:
- Supported stream combinations with exclusive dynamic range profiles as specified by
DynamicRangeProfiles.getProfileCaptureRequestConstraints(long)
. - Supported combinations of 'default' mode and 'max resolution' mode streams for devices with ULTRA_HIGH_RESOLUTION_SENSOR capability.
For other cases where concurrent captures of a stream combination are not supported,
this function returns false
.
NOTE:
- For apps targeting
Build.VERSION_CODES.VANILLA_ICE_CREAM
and above, this method will automatically delegate toCameraDeviceSetup.isSessionConfigurationSupported
whenever possible. This means that the output of this method will consider parameters set throughSessionConfiguration.setSessionParameters
as well. - Session Parameters will be ignored for apps targeting <=
Build.VERSION_CODES.UPSIDE_DOWN_CAKE
, or ifCameraManager.isCameraDeviceSetupSupported
returns false for the camera id associated with thisCameraDevice
.
Parameters | |
---|---|
sessionConfig |
SessionConfiguration : This value cannot be null . |
Returns | |
---|---|
boolean |
true if the given session configuration is supported by the camera device
false otherwise. |
Throws | |
---|---|
UnsupportedOperationException |
if the query operation is not supported by the camera device |
IllegalArgumentException |
if the session configuration is invalid, including, if it contains certain non-supported features queryable via CameraCharacteristics. |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
setCameraAudioRestriction
public void setCameraAudioRestriction (int mode)
Set audio restriction mode when this CameraDevice is being used.
Some camera hardware (e.g. devices with optical image stabilization support) are sensitive to device vibration and video recordings can be ruined by unexpected sounds. Applications can use this method to suppress vibration or sounds coming from ringtones, alarms or notifications. Other vibration or sounds (e.g. media playback or accessibility) will not be muted.
The mute mode is a system-wide setting. When multiple CameraDevice objects
are setting different modes, the system will pick a the mode that's union of
all modes set by CameraDevice. Applications can also use
getCameraAudioRestriction()
to query current system-wide camera
mute mode in effect.
The mute settings from this CameraDevice will be automatically removed when the CameraDevice is closed or the application is disconnected from the camera.
Parameters | |
---|---|
mode |
int : An enumeration selecting the audio restriction mode for this camera device.
Value is AUDIO_RESTRICTION_NONE , AUDIO_RESTRICTION_VIBRATION , or AUDIO_RESTRICTION_VIBRATION_SOUND |
Throws | |
---|---|
IllegalArgumentException |
if the mode is not supported |
CameraAccessException |
if the camera device is no longer connected or has encountered a fatal error |
IllegalStateException |
if the camera device has been closed |
See also:
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Last updated 2024-12-18 UTC.