import React from 'react'; import { requireNativeComponent, NativeModules, NativeSyntheticEvent, findNodeHandle, NativeMethods, Platform } from 'react-native'; import type { FrameProcessorPerformanceSuggestion, VideoFileType } from '.'; import type { CameraDevice } from './CameraDevice'; import type { ErrorWithCause } from './CameraError'; import { CameraCaptureError, CameraRuntimeError, tryParseNativeCameraError, isErrorWithCause } from './CameraError'; import type { CameraProps } from './CameraProps'; import type { Frame } from './Frame'; import type { PhotoFile, TakePhotoOptions } from './PhotoFile'; import type { Point } from './Point'; import type { TakeSnapshotOptions } from './Snapshot'; import type { CameraVideoCodec, RecordVideoOptions, VideoFile } from './VideoFile'; //#region Types export type CameraPermissionStatus = 'authorized' | 'not-determined' | 'denied' | 'restricted'; export type CameraPermissionRequestResult = 'authorized' | 'denied'; interface OnErrorEvent { code: string; message: string; cause?: ErrorWithCause; } type NativeCameraViewProps = Omit< CameraProps, 'device' | 'onInitialized' | 'onError' | 'onFrameProcessorPerformanceSuggestionAvailable' | 'frameProcessor' | 'frameProcessorFps' > & { cameraId: string; frameProcessorFps?: number; // native cannot use number | string, so we use '-1' for 'auto' enableFrameProcessor: boolean; onInitialized?: (event: NativeSyntheticEvent) => void; onError?: (event: NativeSyntheticEvent) => void; onFrameProcessorPerformanceSuggestionAvailable?: (event: NativeSyntheticEvent) => void; onViewReady: () => void; }; type RefType = React.Component & Readonly; //#endregion // NativeModules automatically resolves 'CameraView' to 'CameraViewModule' // eslint-disable-next-line @typescript-eslint/no-unsafe-assignment const CameraModule = NativeModules.CameraView; if (CameraModule == null) console.error("Camera: Native Module 'CameraView' was null! Did you run pod install?"); //#region Camera Component /** * ### A powerful `` component. * * Read the [VisionCamera documentation](https://react-native-vision-camera.com/) for more information. * * The `` component's most important (and therefore _required_) properties are: * * * {@linkcode CameraProps.device | device}: Specifies the {@linkcode CameraDevice} to use. Get a {@linkcode CameraDevice} by using the {@linkcode useCameraDevices | useCameraDevices()} hook, or manually by using the {@linkcode Camera.getAvailableCameraDevices Camera.getAvailableCameraDevices()} function. * * {@linkcode CameraProps.isActive | isActive}: A boolean value that specifies whether the Camera should actively stream video frames or not. This can be compared to a Video component, where `isActive` specifies whether the video is paused or not. If you fully unmount the `` component instead of using `isActive={false}`, the Camera will take a bit longer to start again. * * @example * ```tsx * function App() { * const devices = useCameraDevices('wide-angle-camera') * const device = devices.back * * if (device == null) return * return ( * * ) * } * ``` * * @component */ export class Camera extends React.PureComponent { /** @internal */ static displayName = 'Camera'; /** @internal */ displayName = Camera.displayName; private lastFrameProcessor: ((frame: Frame) => void) | undefined; private isNativeViewMounted = false; private readonly ref: React.RefObject; /** @internal */ constructor(props: CameraProps) { super(props); this.onViewReady = this.onViewReady.bind(this); this.onInitialized = this.onInitialized.bind(this); this.onError = this.onError.bind(this); this.onFrameProcessorPerformanceSuggestionAvailable = this.onFrameProcessorPerformanceSuggestionAvailable.bind(this); this.ref = React.createRef(); this.lastFrameProcessor = undefined; } private get handle(): number | null { const nodeHandle = findNodeHandle(this.ref.current); if (nodeHandle == null || nodeHandle === -1) { throw new CameraRuntimeError( 'system/view-not-found', "Could not get the Camera's native view tag! Does the Camera View exist in the native view-tree?", ); } return nodeHandle; } //#region View-specific functions (UIViewManager) /** * Take a single photo and write it's content to a temporary file. * * @throws {@linkcode CameraCaptureError} When any kind of error occured while capturing the photo. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * @example * ```ts * const photo = await camera.current.takePhoto({ * qualityPrioritization: 'quality', * flash: 'on', * enableAutoRedEyeReduction: true * }) * ``` */ public async takePhoto(options?: TakePhotoOptions): Promise { try { return await CameraModule.takePhoto(this.handle, options ?? {}); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Take a snapshot of the current preview view. * * This can be used as an alternative to {@linkcode Camera.takePhoto | takePhoto()} if speed is more important than quality * * @throws {@linkcode CameraCaptureError} When any kind of error occured while taking a snapshot. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * * @platform Android * @example * ```ts * const photo = await camera.current.takeSnapshot({ * quality: 85, * skipMetadata: true * }) * ``` */ public async takeSnapshot(options?: TakeSnapshotOptions): Promise { if (Platform.OS !== 'android') throw new CameraCaptureError('capture/capture-type-not-supported', `'takeSnapshot()' is not available on ${Platform.OS}!`); try { return await CameraModule.takeSnapshot(this.handle, options ?? {}); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Start a new video recording. * * Records in the following formats: * * **iOS**: QuickTime (`.mov`) * * **Android**: MPEG4 (`.mp4`) * * @blocking This function is synchronized/blocking. * * @throws {@linkcode CameraCaptureError} When any kind of error occured while starting the video recording. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * * @example * ```ts * camera.current.startRecording({ * onRecordingFinished: (video) => console.log(video), * onRecordingError: (error) => console.error(error), * }) * setTimeout(() => { * camera.current.stopRecording() * }, 5000) * ``` */ public startRecording(options: RecordVideoOptions): void { const { onRecordingError, onRecordingFinished, ...passThroughOptions } = options; if (typeof onRecordingError !== 'function' || typeof onRecordingFinished !== 'function') throw new CameraRuntimeError('parameter/invalid-parameter', 'The onRecordingError or onRecordingFinished functions were not set!'); const onRecordCallback = (video?: VideoFile, error?: CameraCaptureError): void => { if (error != null) return onRecordingError(error); if (video != null) return onRecordingFinished(video); }; // TODO: Use TurboModules to either make this a sync invokation, or make it async. try { CameraModule.startRecording(this.handle, passThroughOptions, onRecordCallback); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Pauses the current video recording. * * @throws {@linkcode CameraCaptureError} When any kind of error occured while pausing the video recording. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * * @example * ```ts * // Start * await camera.current.startRecording() * await timeout(1000) * // Pause * await camera.current.pauseRecording() * await timeout(500) * // Resume * await camera.current.resumeRecording() * await timeout(2000) * // Stop * const video = await camera.current.stopRecording() * ``` */ public async pauseRecording(): Promise { try { return await CameraModule.pauseRecording(this.handle); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Resumes a currently paused video recording. * * @throws {@linkcode CameraCaptureError} When any kind of error occured while resuming the video recording. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * * @example * ```ts * // Start * await camera.current.startRecording() * await timeout(1000) * // Pause * await camera.current.pauseRecording() * await timeout(500) * // Resume * await camera.current.resumeRecording() * await timeout(2000) * // Stop * const video = await camera.current.stopRecording() * ``` */ public async resumeRecording(): Promise { try { return await CameraModule.resumeRecording(this.handle); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Stop the current video recording. * * @throws {@linkcode CameraCaptureError} When any kind of error occured while stopping the video recording. Use the {@linkcode CameraCaptureError.code | code} property to get the actual error * * @example * ```ts * await camera.current.startRecording() * setTimeout(async () => { * const video = await camera.current.stopRecording() * }, 5000) * ``` */ public async stopRecording(): Promise { try { return await CameraModule.stopRecording(this.handle); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Focus the camera to a specific point in the coordinate system. * @param {Point} point The point to focus to. This should be relative to the Camera view's coordinate system, * and expressed in Pixel on iOS and Points on Android. * * `(0, 0)` means **top left**. * * `(CameraView.width, CameraView.height)` means **bottom right**. * * Make sure the value doesn't exceed the CameraView's dimensions. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while focussing. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error * @example * ```ts * await camera.current.focus({ * x: tapEvent.x, * y: tapEvent.y * }) * ``` */ public async focus(point: Point): Promise { try { return await CameraModule.focus(this.handle, point); } catch (e) { throw tryParseNativeCameraError(e); } } //#endregion /** * Get a list of video codecs the current camera supports for a given file type. Returned values are ordered by efficiency (descending). * @example * ```ts * const codecs = await camera.current.getAvailableVideoCodecs("mp4") * ``` * @throws {@linkcode CameraRuntimeError} When any kind of error occured while getting available video codecs. Use the {@linkcode ParameterError.code | code} property to get the actual error * @platform iOS */ public async getAvailableVideoCodecs(fileType?: VideoFileType): Promise { if (Platform.OS !== 'ios') return []; // no video codecs supported on other platforms. try { return await CameraModule.getAvailableVideoCodecs(this.handle, fileType); } catch (e) { throw tryParseNativeCameraError(e); } } //#region Static Functions (NativeModule) /** * Get a list of all available camera devices on the current phone. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while getting all available camera devices. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error * @example * ```ts * const devices = await Camera.getAvailableCameraDevices() * const filtered = devices.filter((d) => matchesMyExpectations(d)) * const sorted = devices.sort(sortDevicesByAmountOfCameras) * return { * back: sorted.find((d) => d.position === "back"), * front: sorted.find((d) => d.position === "front") * } * ``` */ public static async getAvailableCameraDevices(): Promise { try { return await CameraModule.getAvailableCameraDevices(); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Gets the current Camera Permission Status. Check this before mounting the Camera to ensure * the user has permitted the app to use the camera. * * To actually prompt the user for camera permission, use {@linkcode Camera.requestCameraPermission | requestCameraPermission()}. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while getting the current permission status. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error */ public static async getCameraPermissionStatus(): Promise { try { return await CameraModule.getCameraPermissionStatus(); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Gets the current Microphone-Recording Permission Status. Check this before mounting the Camera to ensure * the user has permitted the app to use the microphone. * * To actually prompt the user for microphone permission, use {@linkcode Camera.requestMicrophonePermission | requestMicrophonePermission()}. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while getting the current permission status. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error */ public static async getMicrophonePermissionStatus(): Promise { try { return await CameraModule.getMicrophonePermissionStatus(); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Shows a "request permission" alert to the user, and resolves with the new camera permission status. * * If the user has previously blocked the app from using the camera, the alert will not be shown * and `"denied"` will be returned. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while requesting permission. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error */ public static async requestCameraPermission(): Promise { try { return await CameraModule.requestCameraPermission(); } catch (e) { throw tryParseNativeCameraError(e); } } /** * Shows a "request permission" alert to the user, and resolves with the new microphone permission status. * * If the user has previously blocked the app from using the microphone, the alert will not be shown * and `"denied"` will be returned. * * @throws {@linkcode CameraRuntimeError} When any kind of error occured while requesting permission. Use the {@linkcode CameraRuntimeError.code | code} property to get the actual error */ public static async requestMicrophonePermission(): Promise { try { return await CameraModule.requestMicrophonePermission(); } catch (e) { throw tryParseNativeCameraError(e); } } //#endregion //#region Events (Wrapped to maintain reference equality) private onError(event: NativeSyntheticEvent): void { if (this.props.onError != null) { const error = event.nativeEvent; const cause = isErrorWithCause(error.cause) ? error.cause : undefined; this.props.onError( // @ts-expect-error We're casting from unknown bridge types to TS unions, I expect it to hopefully work new CameraRuntimeError(error.code, error.message, cause), ); } } private onInitialized(): void { this.props.onInitialized?.(); } private onFrameProcessorPerformanceSuggestionAvailable(event: NativeSyntheticEvent): void { if (this.props.onFrameProcessorPerformanceSuggestionAvailable != null) this.props.onFrameProcessorPerformanceSuggestionAvailable(event.nativeEvent); } //#endregion //#region Lifecycle /** @internal */ private assertFrameProcessorsEnabled(): void { // @ts-expect-error JSI functions aren't typed if (global.setFrameProcessor == null || global.unsetFrameProcessor == null) { throw new CameraRuntimeError( 'frame-processor/unavailable', 'Frame Processors are not enabled. See https://react-native-vision-camera.com/docs/guides/troubleshooting', ); } } private setFrameProcessor(frameProcessor: (frame: Frame) => void): void { this.assertFrameProcessorsEnabled(); // @ts-expect-error JSI functions aren't typed global.setFrameProcessor(this.handle, frameProcessor); } private unsetFrameProcessor(): void { this.assertFrameProcessorsEnabled(); // @ts-expect-error JSI functions aren't typed global.unsetFrameProcessor(this.handle); } private onViewReady(): void { this.isNativeViewMounted = true; if (this.props.frameProcessor != null) { // user passed a `frameProcessor` but we didn't set it yet because the native view was not mounted yet. set it now. this.setFrameProcessor(this.props.frameProcessor); this.lastFrameProcessor = this.props.frameProcessor; } } /** @internal */ componentDidUpdate(): void { if (!this.isNativeViewMounted) return; const frameProcessor = this.props.frameProcessor; if (frameProcessor !== this.lastFrameProcessor) { // frameProcessor argument identity changed. Update native to reflect the change. if (frameProcessor != null) this.setFrameProcessor(frameProcessor); else this.unsetFrameProcessor(); this.lastFrameProcessor = frameProcessor; } } //#endregion /** @internal */ public render(): React.ReactNode { // We remove the big `device` object from the props because we only need to pass `cameraId` to native. const { device, frameProcessor, frameProcessorFps, ...props } = this.props; return ( ); } } //#endregion // requireNativeComponent automatically resolves 'CameraView' to 'CameraViewManager' const NativeCameraView = requireNativeComponent( 'CameraView', // @ts-expect-error because the type declarations are kinda wrong, no? Camera, );