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import type { CameraPosition } from './CameraPosition' ;
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import type { PixelFormat } from './PixelFormat' ;
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/ * *
* Indentifiers for a physical camera ( one that actually exists on the back / front of the device )
*
* * ` "ultra-wide-angle-camera" ` : A built - in camera with a shorter focal length than that of a wide - angle camera . ( focal length between below 24 mm )
* * ` "wide-angle-camera" ` : A built - in wide - angle camera . ( focal length between 24 mm and 35 mm )
* * ` "telephoto-camera" ` : A built - in camera device with a longer focal length than a wide - angle camera . ( focal length between above 85 mm )
* /
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export type PhysicalCameraDeviceType = 'ultra-wide-angle-camera' | 'wide-angle-camera' | 'telephoto-camera' ;
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/ * *
* Indentifiers for a logical camera ( Combinations of multiple physical cameras to create a single logical camera ) .
*
* * ` "dual-camera" ` : A combination of wide - angle and telephoto cameras that creates a capture device .
* * ` "dual-wide-camera" ` : A device that consists of two cameras of fixed focal length , one ultrawide angle and one wide angle .
* * ` "triple-camera" ` : A device that consists of three cameras of fixed focal length , one ultrawide angle , one wide angle , and one telephoto .
* /
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export type LogicalCameraDeviceType = 'dual-camera' | 'dual-wide-camera' | 'triple-camera' ;
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/ * *
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* Parses an array of physical device types into a single { @linkcode PhysicalCameraDeviceType } or { @linkcode LogicalCameraDeviceType } , depending what matches .
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* @method
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* /
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export const parsePhysicalDeviceTypes = (
physicalDeviceTypes : PhysicalCameraDeviceType [ ] ,
) : PhysicalCameraDeviceType | LogicalCameraDeviceType = > {
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if ( physicalDeviceTypes . length === 1 ) {
// @ts-expect-error for very obvious reasons
return physicalDeviceTypes [ 0 ] ;
}
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const hasWide = physicalDeviceTypes . includes ( 'wide-angle-camera' ) ;
const hasUltra = physicalDeviceTypes . includes ( 'ultra-wide-angle-camera' ) ;
const hasTele = physicalDeviceTypes . includes ( 'telephoto-camera' ) ;
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if ( hasTele && hasWide && hasUltra ) return 'triple-camera' ;
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if ( hasWide && hasUltra ) return 'dual-wide-camera' ;
if ( hasWide && hasTele ) return 'dual-camera' ;
throw new Error ( ` Invalid physical device type combination! ${ physicalDeviceTypes . join ( ' + ' ) } ` ) ;
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} ;
/ * *
* Indicates a format ' s color space .
*
* # # # # The following colorspaces are available on iOS :
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* * ` "srgb" ` : The sGRB color space .
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* * ` "p3-d65" ` : The P3 D65 wide color space which uses Illuminant D65 as the white point
* * ` "hlg-bt2020" ` : The BT2020 wide color space which uses Illuminant D65 as the white point and Hybrid Log - Gamma as the transfer function
*
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* > See [ "AVCaptureColorSpace" ] ( https : //developer.apple.com/documentation/avfoundation/avcapturecolorspace) for more information.
*
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* # # # # The following colorspaces are available on Android :
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* * ` "yuv" ` : The Multi - plane Android YCbCr color space . ( YUV 420 _888 , 422 _888 or 444 _888 )
* * ` "jpeg" ` : The compressed JPEG color space .
* * ` "jpeg-depth" ` : The compressed JPEG color space including depth data .
* * ` "raw" ` : The Camera ' s RAW sensor color space . ( Single - channel Bayer - mosaic image , usually 16 bit )
* * ` "heic" ` : The compressed HEIC color space .
* * ` "private" ` : The Android private opaque image format . ( The choices of the actual format and pixel data layout are entirely up to the device - specific and framework internal implementations , and may vary depending on use cases even for the same device . These buffers are not directly accessible to the application )
* * ` "depth-16" ` : The Android dense depth image format ( 16 bit )
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* * ` "unknown" ` : Placeholder for an unknown image / pixel format . [ Edit this file ] ( https : //github.com/mrousavy/react-native-vision-camera/edit/main/android/src/main/java/com/mrousavy/camera/parsers/ImageFormat+String.kt) to add a name for the unknown format.
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*
* > See [ "Android Color Formats" ] ( https : //jbit.net/Android_Colors/) for more information.
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* /
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export type ColorSpace =
// ios
| 'hlg-bt2020'
| 'p3-d65'
| 'srgb'
// android
| 'yuv'
| 'jpeg'
| 'jpeg-depth'
| 'raw'
| 'heic'
| 'private'
| 'depth-16'
| 'unknown' ;
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/ * *
* Indicates a format ' s autofocus system .
*
* * ` "none" ` : Indicates that autofocus is not available
* * ` "contrast-detection" ` : Indicates that autofocus is achieved by contrast detection . Contrast detection performs a focus scan to find the optimal position
* * ` "phase-detection" ` : Indicates that autofocus is achieved by phase detection . Phase detection has the ability to achieve focus in many cases without a focus scan . Phase detection autofocus is typically less visually intrusive than contrast detection autofocus
* /
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export type AutoFocusSystem = 'contrast-detection' | 'phase-detection' | 'none' ;
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/ * *
* Indicates a format ' s supported video stabilization mode
*
* * ` "off" ` : Indicates that video should not be stabilized
* * ` "standard" ` : Indicates that video should be stabilized using the standard video stabilization algorithm introduced with iOS 5.0 . Standard video stabilization has a reduced field of view . Enabling video stabilization may introduce additional latency into the video capture pipeline
* * ` "cinematic" ` : Indicates that video should be stabilized using the cinematic stabilization algorithm for more dramatic results . Cinematic video stabilization has a reduced field of view compared to standard video stabilization . Enabling cinematic video stabilization introduces much more latency into the video capture pipeline than standard video stabilization and consumes significantly more system memory . Use narrow or identical min and max frame durations in conjunction with this mode
* * ` "cinematic-extended" ` : Indicates that the video should be stabilized using the extended cinematic stabilization algorithm . Enabling extended cinematic stabilization introduces longer latency into the video capture pipeline compared to the AVCaptureVideoStabilizationModeCinematic and consumes more memory , but yields improved stability . It is recommended to use identical or similar min and max frame durations in conjunction with this mode ( iOS 13.0 + )
* * ` "auto" ` : Indicates that the most appropriate video stabilization mode for the device and format should be chosen automatically
* /
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export type VideoStabilizationMode = 'off' | 'standard' | 'cinematic' | 'cinematic-extended' | 'auto' ;
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export interface FrameRateRange {
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minFrameRate : number ;
maxFrameRate : number ;
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}
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/ * *
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* A Camera Device ' s video format . Do not create instances of this type yourself , only use { @linkcode Camera . getAvailableCameraDevices | Camera . getAvailableCameraDevices ( ) } .
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* /
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export interface CameraDeviceFormat {
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/ * *
* The height of the highest resolution a still image ( photo ) can be produced in
* /
photoHeight : number ;
/ * *
* The width of the highest resolution a still image ( photo ) can be produced in
* /
photoWidth : number ;
/ * *
* The video resolutions ' s height
* /
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videoHeight : number ;
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/ * *
* The video resolution ' s width
* /
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videoWidth : number ;
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/ * *
* A boolean value specifying whether this format supports the highest possible photo quality that can be delivered on the current platform .
*
* @platform iOS 13.0 +
* /
isHighestPhotoQualitySupported? : boolean ;
/ * *
* Maximum supported ISO value
* /
maxISO : number ;
/ * *
* Minimum supported ISO value
* /
minISO : number ;
/ * *
* The video field of view in degrees
* /
fieldOfView : number ;
/ * *
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* The maximum zoom factor ( e . g . ` 128 ` )
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* /
maxZoom : number ;
/ * *
* The available color spaces .
*
* Note : On Android , this will always be only ` ["yuv"] `
* /
colorSpaces : ColorSpace [ ] ;
/ * *
* Specifies whether this format supports HDR mode for video capture
* /
supportsVideoHDR : boolean ;
/ * *
* Specifies whether this format supports HDR mode for photo capture
* /
supportsPhotoHDR : boolean ;
/ * *
* All available frame rate ranges . You can query this to find the highest frame rate available
* /
frameRateRanges : FrameRateRange [ ] ;
/ * *
* Specifies this format ' s auto focus system .
* /
autoFocusSystem : AutoFocusSystem ;
/ * *
* All supported video stabilization modes
* /
videoStabilizationModes : VideoStabilizationMode [ ] ;
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/ * *
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* Specifies this format ' s pixel format . The pixel format specifies how the individual pixels are interpreted as a visual image .
*
* The most common format is ` 420v ` . Some formats ( like ` x420 ` ) are not compatible with some frame processor plugins ( e . g . MLKit )
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* /
pixelFormat : PixelFormat ;
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}
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/ * *
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* Represents a camera device discovered by the { @linkcode Camera . getAvailableCameraDevices | Camera . getAvailableCameraDevices ( ) } function
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* /
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export interface CameraDevice {
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/ * *
* The native ID of the camera device instance .
* /
id : string ;
/ * *
* The physical devices this ` CameraDevice ` contains .
*
* * If this camera device is a * * logical camera * * ( combination of multiple physical cameras ) , there are multiple cameras in this array .
* * If this camera device is a * * physical camera * * , there is only a single element in this array .
*
* You can check if the camera is a logical multi - camera by using the ` isMultiCam ` property .
* /
devices : PhysicalCameraDeviceType [ ] ;
/ * *
* Specifies the physical position of this camera . ( back or front )
* /
position : CameraPosition ;
/ * *
* A friendly localized name describing the camera .
* /
name : string ;
/ * *
* Specifies whether this camera supports enabling flash for photo capture .
* /
hasFlash : boolean ;
/ * *
* Specifies whether this camera supports continuously enabling the flash to act like a torch ( flash with video capture )
* /
hasTorch : boolean ;
/ * *
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* A property indicating whether the device is a virtual multi - camera consisting of multiple combined physical cameras .
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*
* Examples :
* * The Dual Camera , which supports seamlessly switching between a wide and telephoto camera while zooming and generating depth data from the disparities between the different points of view of the physical cameras .
* * The TrueDepth Camera , which generates depth data from disparities between a YUV camera and an Infrared camera pointed in the same direction .
* /
isMultiCam : boolean ;
/ * *
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* Minimum available zoom factor ( e . g . ` 1 ` )
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* /
minZoom : number ;
/ * *
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* Maximum available zoom factor ( e . g . ` 128 ` )
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* /
maxZoom : number ;
/ * *
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* The zoom factor where the camera is "neutral" .
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*
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* * For single - physical cameras this property is always ` 1.0 ` .
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* * For multi cameras this property is a value between ` minZoom ` and ` maxZoom ` , where the camera is in _wide - angle_ mode and hasn ' t switched to the _ultra - wide - angle_ ( "fish-eye" ) or telephoto camera yet .
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*
* Use this value as an initial value for the zoom property if you implement custom zoom . ( e . g . reanimated shared value should be initially set to this value )
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* @example
* const device = . . .
*
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* const zoom = useSharedValue ( device . neutralZoom ) // <-- initial value so it doesn't start at ultra-wide
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* const cameraProps = useAnimatedProps ( ( ) = > ( {
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* zoom : zoom.value
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* } ) )
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* /
neutralZoom : number ;
/ * *
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* All available formats for this camera device . Use this to find the best format for your use case and set it to the Camera 's {@linkcode CameraProps.format | Camera' s . format } property .
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*
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* See [ the Camera Formats documentation ] ( https : //react-native-vision-camera.com/docs/guides/formats) for more information about Camera Formats.
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* /
formats : CameraDeviceFormat [ ] ;
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/ * *
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* Whether this camera device supports using Video Recordings ( ` video={true} ` ) and Frame Processors ( ` frameProcessor={...} ` ) at the same time . See [ "The `supportsParallelVideoProcessing` prop" ] ( https : //react-native-vision-camera.com/docs/guides/devices#the-supportsparallelvideoprocessing-prop) for more information.
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*
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* If this property is ` false ` , you can only enable ` video ` or add a ` frameProcessor ` , but not both .
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*
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* * On iOS this value is always ` true ` .
* * On newer Android devices this value is always ` true ` .
* * On older Android devices this value is ` false ` if the Camera ' s hardware level is ` LEGACY ` or ` LIMITED ` , ` true ` otherwise . ( See [ ` INFO_SUPPORTED_HARDWARE_LEVEL ` ] ( https : //developer.android.com/reference/android/hardware/camera2/CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL) or [the tables at "Regular capture"](https://developer.android.com/reference/android/hardware/camera2/CameraDevice#regular-capture))
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* /
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supportsParallelVideoProcessing : boolean ;
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/ * *
* Whether this camera device supports low light boost .
* /
supportsLowLightBoost : boolean ;
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/ * *
* Whether this camera supports taking photos with depth data .
*
* * * ! Work in Progress ! * *
* /
supportsDepthCapture : boolean ;
/ * *
* Whether this camera supports taking photos in RAW format
*
* * * ! Work in Progress ! * *
* /
supportsRawCapture : boolean ;
/ * *
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* Specifies whether this device supports focusing ( { @linkcode Camera . focus | Camera . focus ( . . . ) } )
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* /
supportsFocus : boolean ;
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}