StreamConfigurationMap

equals

fun equals(other: Any?): Boolean

Check if this StreamConfigurationMap is equal to another StreamConfigurationMap.

Two vectors are only equal if and only if each of the respective elements is equal.

getHighResolutionOutputSizes

fun getHighResolutionOutputSizes(format: Int): Array<Size!>!

Get a list of supported high resolution sizes, which cannot operate at full BURST_CAPTURE rate.

This includes all output sizes that cannot meet the 20 fps frame rate requirements for the BURST_CAPTURE capability. This does not include the stall duration, so for example, a JPEG or RAW16 output resolution with a large stall duration but a minimum frame duration that's above 20 fps will still be listed in the regular #getOutputSizes list. All the sizes on this list that are less than 24 megapixels are still guaranteed to operate at a rate of at least 10 fps, not including stall duration. Sizes on this list that are at least 24 megapixels are allowed to operate at less than 10 fps.

For a device that does not support the BURST_CAPTURE capability, this list will be null, since resolutions in the #getOutputSizes list are already not guaranteed to meet >= 20 fps rate requirements. For a device that does support the BURST_CAPTURE capability, this list may be empty, if all supported resolutions meet the 20 fps requirement.

getHighSpeedVideoFpsRanges

fun getHighSpeedVideoFpsRanges(): Array<Range<Int!>!>!

Get a list of supported high speed video recording FPS ranges.

When CameraMetadata#REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO is supported in CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES, this method will list the supported high speed video FPS range configurations. Application can then use getHighSpeedVideoSizesFor to query available sizes for one of returned FPS range.

To enable high speed video recording, application must create a constrained create high speed capture session via CameraDevice#createConstrainedHighSpeedCaptureSession, and submit a CaptureRequest list created by android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList to this session. The application must select the video size from this method and FPS range from getHighSpeedVideoFpsRangesFor to configure the constrained high speed session and generate the high speed request list. For example, if the application intends to do high speed recording, it can select one FPS range reported by this method, query the video sizes corresponding to this FPS range by getHighSpeedVideoSizesFor and use one of reported sizes to create a high speed capture session. Note that for the use case of multiple output streams, application must select one unique size from this method to use (e.g., preview and recording streams must have the same size). Otherwise, the high speed session creation will fail. Once the high speed capture session is created, the application can set the FPS range in the recording request lists via android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList.

The FPS ranges reported by this method will have below characteristics:

getHighSpeedVideoFpsRangesFor

fun getHighSpeedVideoFpsRangesFor(size: Size!): Array<Range<Int!>!>!

Get the frame per second ranges (fpsMin, fpsMax) for input high speed video size.

See getHighSpeedVideoFpsRanges for how to enable high speed recording.

The FPS ranges reported in this method must not be used to setup capture requests that are submitted to unconstrained capture sessions, or it will result in IllegalArgumentExceptions.

See getHighSpeedVideoFpsRanges for the characteristics of the returned FPS ranges.

getHighSpeedVideoSizes

fun getHighSpeedVideoSizes(): Array<Size!>!

Get a list of supported high speed video recording sizes.

When CameraMetadata#REQUEST_AVAILABLE_CAPABILITIES_CONSTRAINED_HIGH_SPEED_VIDEO is supported in CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES, this method will list the supported high speed video size configurations. All the sizes listed will be a subset of the sizes reported by #getOutputSizes for processed non-stalling formats (typically ImageFormat#PRIVATE ImageFormat#YUV_420_888, etc.)

To enable high speed video recording, application must create a constrained create high speed capture session via CameraDevice#createConstrainedHighSpeedCaptureSession, and submit a CaptureRequest list created by android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList to this session. The application must select the video size from this method and FPS range from getHighSpeedVideoFpsRangesFor to configure the constrained high speed session and generate the high speed request list. For example, if the application intends to do high speed recording, it can select the maximum size reported by this method to create high speed capture session. Note that for the use case of multiple output streams, application must select one unique size from this method to use (e.g., preview and recording streams must have the same size). Otherwise, the high speed session creation will fail. Once the size is selected, application can get the supported FPS ranges by getHighSpeedVideoFpsRangesFor, and use these FPS ranges to setup the recording request lists via android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList.

getHighSpeedVideoSizesFor

fun getHighSpeedVideoSizesFor(fpsRange: Range<Int!>!): Array<Size!>!

Get the supported video sizes for an input high speed FPS range.

See getHighSpeedVideoSizes for how to enable high speed recording.

getInputFormats

fun getInputFormats(): IntArray!

Get the image format input formats in this stream configuration.

All image formats returned by this function will be defined in either ImageFormat or in PixelFormat (and there is no possibility of collision).

getInputSizes

fun getInputSizes(format: Int): Array<Size!>!

Get the supported input sizes for this input format.

The format must have come from getInputFormats; otherwise null is returned.

getOutputFormats

fun getOutputFormats(): IntArray!

Get the image format output formats in this stream configuration.

All image formats returned by this function will be defined in either ImageFormat or in PixelFormat (and there is no possibility of collision).

Formats listed in this array are guaranteed to return true if queried with isOutputSupportedFor(int).

getOutputMinFrameDuration

fun getOutputMinFrameDuration(
    format: Int, 
    size: Size!
): Long

Get the minimum frame duration for the format/size combination (in nanoseconds).

format should be one of the ones returned by getOutputFormats().

size should be one of the ones returned by getOutputSizes(int).

This corresponds to the minimum frame duration (maximum frame rate) possible when only that stream is configured in a session, with all processing (typically in android.*.mode) set to either OFF or FAST.

When multiple streams are used in a session, the minimum frame duration will be max(individual stream min durations). See #getOutputStallDuration for details of timing for formats that may cause frame rate slowdown when they are targeted by a capture request.

For devices that do not support manual sensor control (android.hardware.camera2.CameraMetadata#REQUEST_AVAILABLE_CAPABILITIES_MANUAL_SENSOR), this function may return 0.

The minimum frame duration of a stream (of a particular format, size) is the same regardless of whether the stream is input or output.

getOutputMinFrameDuration

fun <T : Any!> getOutputMinFrameDuration(
    klass: Class<T>!, 
    size: Size!
): Long

Get the minimum frame duration for the class/size combination (in nanoseconds).

This assumes that the klass is set up to use ImageFormat#PRIVATE. For user-defined formats, use getOutputMinFrameDuration(int,android.util.Size).

klass should be one of the ones which is supported by isOutputSupportedFor(java.lang.Class).

size should be one of the ones returned by getOutputSizes(int).

This corresponds to the minimum frame duration (maximum frame rate) possible when only that stream is configured in a session, with all processing (typically in android.*.mode) set to either OFF or FAST.

When multiple streams are used in a session, the minimum frame duration will be max(individual stream min durations). See #getOutputStallDuration for details of timing for formats that may cause frame rate slowdown when they are targeted by a capture request.

For devices that do not support manual sensor control (android.hardware.camera2.CameraMetadata#REQUEST_AVAILABLE_CAPABILITIES_MANUAL_SENSOR), this function may return 0.

The minimum frame duration of a stream (of a particular format, size) is the same regardless of whether the stream is input or output.

getOutputSizes

fun <T : Any!> getOutputSizes(klass: Class<T>!): Array<Size!>!

Get a list of sizes compatible with klass to use as an output.

Some of the supported classes may support additional formats beyond ImageFormat#PRIVATE; this function only returns sizes for ImageFormat#PRIVATE. For example, android.media.ImageReader supports ImageFormat#YUV_420_888 and ImageFormat#PRIVATE, this method will only return the sizes for ImageFormat#PRIVATE for android.media.ImageReader class.

If a well-defined format such as NV21 is required, use getOutputSizes(int) instead.

The klass should be a supported output, that querying isOutputSupportedFor(Class) should return true.

getOutputSizes

fun getOutputSizes(format: Int): Array<Size!>!

Get a list of sizes compatible with the requested image format.

The format should be a supported format (one of the formats returned by getOutputFormats).

getOutputStallDuration

fun getOutputStallDuration(
    format: Int, 
    size: Size!
): Long

Get the stall duration for the format/size combination (in nanoseconds).

format should be one of the ones returned by getOutputFormats().

size should be one of the ones returned by getOutputSizes(int).

A stall duration is how much extra time would get added to the normal minimum frame duration for a repeating request that has streams with non-zero stall.

For example, consider JPEG captures which have the following characteristics:

• JPEG streams act like processed YUV streams in requests for which they are not included; in requests in which they are directly referenced, they act as JPEG streams. This is because supporting a JPEG stream requires the underlying YUV data to always be ready for use by a JPEG encoder, but the encoder will only be used (and impact frame duration) on requests that actually reference a JPEG stream.
• The JPEG processor can run concurrently to the rest of the camera pipeline, but cannot process more than 1 capture at a time.

In other words, using a repeating YUV request would result in a steady frame rate (let's say it's 30 FPS). If a single JPEG request is submitted periodically, the frame rate will stay at 30 FPS (as long as we wait for the previous JPEG to return each time). If we try to submit a repeating YUV + JPEG request, then the frame rate will drop from 30 FPS.

In general, submitting a new request with a non-0 stall time stream will not cause a frame rate drop unless there are still outstanding buffers for that stream from previous requests.

Submitting a repeating request with streams (call this S) is the same as setting the minimum frame duration from the normal minimum frame duration corresponding to S, added with the maximum stall duration for S.

If interleaving requests with and without a stall duration, a request will stall by the maximum of the remaining times for each can-stall stream with outstanding buffers.

This means that a stalling request will not have an exposure start until the stall has completed.

This should correspond to the stall duration when only that stream is active, with all processing (typically in android.*.mode) set to FAST or OFF. Setting any of the processing modes to HIGH_QUALITY effectively results in an indeterminate stall duration for all streams in a request (the regular stall calculation rules are ignored).

The following formats may always have a stall duration:

• JPEG
• RAW16
• RAW_PRIVATE

The following formats will never have a stall duration:

• YUV_420_888
• PRIVATE

All other formats may or may not have an allowed stall duration on a per-capability basis; refer to android.request.availableCapabilities for more details.

See android.sensor.frameDuration for more information about calculating the max frame rate (absent stalls).

getOutputStallDuration

fun <T : Any!> getOutputStallDuration(
    klass: Class<T>!, 
    size: Size!
): Long

Get the stall duration for the class/size combination (in nanoseconds).

This assumes that the klass is set up to use ImageFormat#PRIVATE. For user-defined formats, use getOutputMinFrameDuration(int,android.util.Size).

klass should be one of the ones with a non-empty array returned by getOutputSizes(java.lang.Class).

size should be one of the ones returned by getOutputSizes(java.lang.Class).

See getOutputStallDuration(int,android.util.Size) for a definition of a stall duration.

getValidOutputFormatsForInput

fun getValidOutputFormatsForInput(inputFormat: Int): IntArray!

Get the image format output formats for a reprocessing input format.

When submitting a CaptureRequest with an input Surface of a given format, the only allowed target outputs of the CaptureRequest are the ones with a format listed in the return value of this method. Including any other output Surface as a target will throw an IllegalArgumentException. If no output format is supported given the input format, an empty int[] will be returned.

All image formats returned by this function will be defined in either ImageFormat or in PixelFormat (and there is no possibility of collision).

Formats listed in this array are guaranteed to return true if queried with isOutputSupportedFor(int).

hashCode

fun hashCode(): Int

Returns a hash code value for the object. This method is supported for the benefit of hash tables such as those provided by java.util.HashMap.

The general contract of hashCode is:

• Whenever it is invoked on the same object more than once during an execution of a Java application, the hashCode method must consistently return the same integer, provided no information used in equals comparisons on the object is modified. This integer need not remain consistent from one execution of an application to another execution of the same application.
• If two objects are equal according to the equals method, then calling the hashCode method on each of the two objects must produce the same integer result.
• It is not required that if two objects are unequal according to the equals method, then calling the hashCode method on each of the two objects must produce distinct integer results. However, the programmer should be aware that producing distinct integer results for unequal objects may improve the performance of hash tables.

isOutputSupportedFor

fun isOutputSupportedFor(format: Int): Boolean

Determine whether or not output surfaces with a particular user-defined format can be passed createCaptureSession.

This method determines that the output format is supported by the camera device; each output surface target may or may not itself support that format. Refer to the class which provides the surface for additional documentation.

Formats for which this returns true are guaranteed to exist in the result returned by #getOutputSizes.

isOutputSupportedFor

fun isOutputSupportedFor(surface: Surface!): Boolean

Determine whether or not the surface in its current state is suitable to be included in a session as an output.

Not all surfaces are usable with the CameraDevice, and not all configurations of that surface are compatible. Some classes that provide the surface are compatible with the CameraDevice in general (see isOutputSupportedFor(java.lang.Class), but it is the caller's responsibility to put the surface into a state that will be compatible with the CameraDevice.

Reasons for a surface being specifically incompatible might be:

• Using a format that's not listed by getOutputFormats
• Using a format/size combination that's not listed by #getOutputSizes
• The surface itself is not in a state where it can service a new producer.

Surfaces from flexible sources will return true even if the exact size of the Surface does not match a camera-supported size, as long as the format (or class) is supported and the camera device supports a size that is equal to or less than 1080p in that format. If such as Surface is used to create a capture session, it will have its size rounded to the nearest supported size, below or equal to 1080p. Flexible sources include SurfaceView, SurfaceTexture, and ImageReader.

This is not an exhaustive list; see the particular class's documentation for further possible reasons of incompatibility.

isOutputSupportedFor

static fun <T : Any!> isOutputSupportedFor(klass: Class<T>!): Boolean

Determine whether or not output streams can be configured with a particular class as a consumer.

The following list is generally usable for outputs:

• android.media.ImageReader - Recommended for image processing or streaming to external resources (such as a file or network)
• android.media.MediaRecorder - Recommended for recording video (simple to use)
• android.media.MediaCodec - Recommended for recording video (more complicated to use, with more flexibility)
• android.view.SurfaceHolder - Recommended for low-power camera preview with android.view.SurfaceView
• android.graphics.SurfaceTexture - Recommended for OpenGL-accelerated preview processing or compositing with android.view.TextureView

Generally speaking this means that creating a Surface from that class may provide a producer endpoint that is suitable to be used with CameraDevice#createCaptureSession(SessionConfiguration).

Since not all of the above classes support output of all format and size combinations, the particular combination should be queried with isOutputSupportedFor(android.view.Surface).

toString

fun toString(): String

Return this StreamConfigurationMap as a string representation.

"StreamConfigurationMap(Outputs([w:%d, h:%d, format:%s(%d), min_duration:%d, stall:%d], ... [w:%d, h:%d, format:%s(%d), min_duration:%d, stall:%d]), Inputs([w:%d, h:%d, format:%s(%d)], ... [w:%d, h:%d, format:%s(%d)]), ValidOutputFormatsForInput( [in:%d, out:%d, ... %d], ... [in:%d, out:%d, ... %d]), HighSpeedVideoConfigurations( [w:%d, h:%d, min_fps:%d, max_fps:%d], ... [w:%d, h:%d, min_fps:%d, max_fps:%d]))".

Outputs([w:%d, h:%d, format:%s(%d), min_duration:%d, stall:%d], ... [w:%d, h:%d, format:%s(%d), min_duration:%d, stall:%d]), where [w:%d, h:%d, format:%s(%d), min_duration:%d, stall:%d] represents an output configuration's width, height, format, minimal frame duration in nanoseconds, and stall duration in nanoseconds.

Inputs([w:%d, h:%d, format:%s(%d)], ... [w:%d, h:%d, format:%s(%d)]), where [w:%d, h:%d, format:%s(%d)] represents an input configuration's width, height, and format.

ValidOutputFormatsForInput([in:%s(%d), out:%s(%d), ... %s(%d)], ... [in:%s(%d), out:%s(%d), ... %s(%d)]), where [in:%s(%d), out:%s(%d), ... %s(%d)] represents an input format and its valid output formats.

HighSpeedVideoConfigurations([w:%d, h:%d, min_fps:%d, max_fps:%d], ... [w:%d, h:%d, min_fps:%d, max_fps:%d]), where [w:%d, h:%d, min_fps:%d, max_fps:%d] represents a high speed video output configuration's width, height, minimal frame rate, and maximal frame rate.