14721d314f
* chore: Disable `semi` in Prettier * chore: Format w/o semi * Remove more `;` * Lint example * More ;
229 lines
9.6 KiB
TypeScript
229 lines
9.6 KiB
TypeScript
import { Orientation } from './Orientation'
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import type { PixelFormat } from './PixelFormat'
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/**
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* Represents the camera device position.
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*
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* * `"back"`: Indicates that the device is physically located on the back of the phone
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* * `"front"`: Indicates that the device is physically located on the front of the phone
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* * `"external"`: The camera device is an external camera, and has no fixed facing relative to the phone. (e.g. USB or Continuity Cameras)
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*/
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export type CameraPosition = 'front' | 'back' | 'external'
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/**
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* Indentifiers for a physical camera (one that actually exists on the back/front of the device)
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*
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* * `"ultra-wide-angle-camera"`: A built-in camera with a shorter focal length than that of a wide-angle camera. (focal length between below 24mm)
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* * `"wide-angle-camera"`: A built-in wide-angle camera. (focal length between 24mm and 43mm)
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* * `"telephoto-camera"`: A built-in camera device with a longer focal length than a wide-angle camera. (focal length between above 85mm)
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*
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* Some Camera devices consist of multiple physical devices. They can be interpreted as _logical devices_, for example:
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*
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* * `"ultra-wide-angle-camera"` + `"wide-angle-camera"` = **dual wide-angle camera**.
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* * `"wide-angle-camera"` + `"telephoto-camera"` = **dual camera**.
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* * `"ultra-wide-angle-camera"` + `"wide-angle-camera"` + `"telephoto-camera"` = **triple camera**.
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*/
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export type PhysicalCameraDeviceType = 'ultra-wide-angle-camera' | 'wide-angle-camera' | 'telephoto-camera'
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/**
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* Indicates a format's autofocus system.
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*
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* * `"none"`: Indicates that autofocus is not available
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* * `"contrast-detection"`: Indicates that autofocus is achieved by contrast detection. Contrast detection performs a focus scan to find the optimal position
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* * `"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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*/
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export type AutoFocusSystem = 'contrast-detection' | 'phase-detection' | 'none'
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/**
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* Indicates a format's supported video stabilization mode. Enabling video stabilization may introduce additional latency into the video capture pipeline.
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*
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* * `"off"`: No video stabilization. Indicates that video should not be stabilized
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* * `"standard"`: Standard software-based video stabilization. Standard video stabilization reduces the field of view by about 10%.
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* * `"cinematic"`: Advanced software-based video stabilization. This applies more aggressive cropping or transformations than standard.
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* * `"cinematic-extended"`: Extended software- and hardware-based stabilization that aggressively crops and transforms the video to apply a smooth cinematic stabilization.
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* * `"auto"`: Indicates that the most appropriate video stabilization mode for the device and format should be chosen automatically
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*/
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export type VideoStabilizationMode = 'off' | 'standard' | 'cinematic' | 'cinematic-extended' | 'auto'
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/**
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* A Camera Device's stream-configuration format.
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*
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* A format specifies:
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* - Video Resolution (`videoWidth`/`videoHeight`)
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* - Photo Resolution (`photoWidth`/`photoHeight`)
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* - Possible FPS ranges (`fps`)
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* - Video Stabilization Modes (`videoStabilizationModes`)
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* - Pixel Formats (`pixelFormats`)
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*/
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export interface CameraDeviceFormat {
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/**
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* The height of the highest resolution a still image (photo) can be produced in
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*/
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photoHeight: number
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/**
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* The width of the highest resolution a still image (photo) can be produced in
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*/
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photoWidth: number
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/**
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* The video resolutions's height
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*/
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videoHeight: number
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/**
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* The video resolution's width
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*/
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videoWidth: number
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/**
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* Maximum supported ISO value
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*/
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maxISO: number
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/**
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* Minimum supported ISO value
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*/
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minISO: number
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/**
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* The video field of view in degrees
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*/
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fieldOfView: number
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/**
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* The maximum zoom factor (e.g. `128`)
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*/
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maxZoom: number
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/**
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* Specifies whether this format supports HDR mode for video capture
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*/
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supportsVideoHDR: boolean
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/**
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* Specifies whether this format supports HDR mode for photo capture
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*/
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supportsPhotoHDR: boolean
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/**
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* Specifies whether this format supports delivering depth data for photo or video capture.
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*/
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supportsDepthCapture: boolean
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/**
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* The minum frame rate this Format needs to run at. High resolution formats often run at lower frame rates.
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*/
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minFps: number
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/**
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* The maximum frame rate this Format is able to run at. High resolution formats often run at lower frame rates.
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*/
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maxFps: number
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/**
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* Specifies this format's auto focus system.
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*/
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autoFocusSystem: AutoFocusSystem
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/**
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* All supported video stabilization modes
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*/
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videoStabilizationModes: VideoStabilizationMode[]
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/**
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* Specifies this format's supported pixel-formats.
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* In most cases, this is `['native', 'yuv']`.
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*/
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pixelFormats: 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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/**
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* The native ID of the camera device instance.
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*/
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id: string
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/**
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* The physical devices this `CameraDevice` consists of.
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*
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* * If this camera device is a **logical camera** (combination of multiple physical cameras, e.g. "Triple Camera"), there are multiple cameras in this array.
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* * If this camera device is a **physical camera** (e.g. "wide-angle-camera"), there is only a single element in this array.
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*
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* You can check if the camera is a logical multi-camera by using the `isMultiCam` property.
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*/
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physicalDevices: PhysicalCameraDeviceType[]
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/**
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* Specifies the physical position of this camera.
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* - `back`: The Camera Device is located on the back of the phone. These devices can be used for capturing what's in front of the user.
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* - `front`: The Camera Device is located on the front of the phone. These devices can be used for selfies or FaceTime.
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* - `external`: The Camera Device is an external device. These devices can be either:
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* - USB Camera Devices (if they support the [USB Video Class (UVC) Specification](https://en.wikipedia.org/wiki/List_of_USB_video_class_devices))
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* - [Continuity Camera Devices](https://support.apple.com/en-us/HT213244) (e.g. your iPhone's or Mac's Camera connected through WiFi/Continuity)
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* - Bluetooth/WiFi Camera Devices (if they are supported in the platform-native Camera APIs; Camera2 and AVFoundation)
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*/
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position: CameraPosition
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/**
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* A friendly localized name describing the camera.
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*/
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name: string
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/**
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* Specifies whether this camera supports enabling flash for photo capture.
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*/
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hasFlash: boolean
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/**
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* Specifies whether this camera supports continuously enabling the flash to act like a torch (flash with video capture)
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*/
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hasTorch: boolean
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/**
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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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*
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* Examples:
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* * 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.
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* * The TrueDepth Camera, which generates depth data from disparities between a YUV camera and an Infrared camera pointed in the same direction.
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*/
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isMultiCam: boolean
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/**
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* Minimum available zoom factor (e.g. `1`)
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*/
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minZoom: number
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/**
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* Maximum available zoom factor (e.g. `128`)
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*/
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maxZoom: number
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/**
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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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*
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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
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* const device = ...
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*
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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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*/
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neutralZoom: number
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/**
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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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*/
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formats: CameraDeviceFormat[]
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/**
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* Whether this camera device supports low light boost.
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*/
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supportsLowLightBoost: boolean
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/**
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* Whether this camera supports taking photos in RAW format
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*
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* **! Work in Progress !**
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*/
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supportsRawCapture: boolean
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/**
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* Specifies whether this device supports focusing ({@linkcode Camera.focus | Camera.focus(...)})
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*/
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supportsFocus: boolean
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/**
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* The hardware level of the Camera.
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* - On Android, some older devices are running at a `legacy` or `limited` level which means they are running in a backwards compatible mode.
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* - On iOS, all devices are `full`.
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*/
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hardwareLevel: 'legacy' | 'limited' | 'full'
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/**
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* Represents the sensor's orientation relative to the phone.
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* For most phones this will be landscape, as Camera sensors are usually always rotated by 90 degrees (i.e. width and height are flipped).
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*/
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sensorOrientation: Orientation
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}
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