// // CameraView+AVCaptureSession.swift // VisionCamera // // Created by Marc Rousavy on 26.03.21. // Copyright © 2021 mrousavy. All rights reserved. // import AVFoundation import Foundation /** Extension for CameraView that sets up the AVCaptureSession, Device and Format. */ extension CameraView { // pragma MARK: Configure Capture Session /** Configures the Capture Session. */ final func configureCaptureSession() { ReactLogger.log(level: .info, message: "Configuring Session...") isReady = false #if targetEnvironment(simulator) invokeOnError(.device(.notAvailableOnSimulator)) return #endif guard cameraId != nil else { invokeOnError(.device(.noDevice)) return } let cameraId = self.cameraId! as String ReactLogger.log(level: .info, message: "Initializing Camera with device \(cameraId)...") captureSession.beginConfiguration() defer { captureSession.commitConfiguration() } // pragma MARK: Capture Session Inputs // Video Input do { if let videoDeviceInput = videoDeviceInput { captureSession.removeInput(videoDeviceInput) self.videoDeviceInput = nil } ReactLogger.log(level: .info, message: "Adding Video input...") guard let videoDevice = AVCaptureDevice(uniqueID: cameraId) else { invokeOnError(.device(.invalid)) return } videoDeviceInput = try AVCaptureDeviceInput(device: videoDevice) guard captureSession.canAddInput(videoDeviceInput!) else { invokeOnError(.parameter(.unsupportedInput(inputDescriptor: "video-input"))) return } captureSession.addInput(videoDeviceInput!) } catch { invokeOnError(.device(.invalid)) return } // pragma MARK: Capture Session Outputs // Photo Output if let photoOutput = photoOutput { captureSession.removeOutput(photoOutput) self.photoOutput = nil } if photo?.boolValue == true { ReactLogger.log(level: .info, message: "Adding Photo output...") photoOutput = AVCapturePhotoOutput() if enableHighQualityPhotos?.boolValue == true { photoOutput!.isHighResolutionCaptureEnabled = true if #available(iOS 13.0, *) { photoOutput!.isVirtualDeviceConstituentPhotoDeliveryEnabled = photoOutput!.isVirtualDeviceConstituentPhotoDeliverySupported photoOutput!.maxPhotoQualityPrioritization = .quality } else { photoOutput!.isDualCameraDualPhotoDeliveryEnabled = photoOutput!.isDualCameraDualPhotoDeliverySupported } } if enableDepthData { photoOutput!.isDepthDataDeliveryEnabled = photoOutput!.isDepthDataDeliverySupported } if #available(iOS 12.0, *), enablePortraitEffectsMatteDelivery { photoOutput!.isPortraitEffectsMatteDeliveryEnabled = photoOutput!.isPortraitEffectsMatteDeliverySupported } guard captureSession.canAddOutput(photoOutput!) else { invokeOnError(.parameter(.unsupportedOutput(outputDescriptor: "photo-output"))) return } captureSession.addOutput(photoOutput!) if videoDeviceInput!.device.position == .front { photoOutput!.mirror() } } // Video Output + Frame Processor if let videoOutput = videoOutput { captureSession.removeOutput(videoOutput) self.videoOutput = nil } if video?.boolValue == true || enableFrameProcessor { ReactLogger.log(level: .info, message: "Adding Video Data output...") videoOutput = AVCaptureVideoDataOutput() guard captureSession.canAddOutput(videoOutput!) else { invokeOnError(.parameter(.unsupportedOutput(outputDescriptor: "video-output"))) return } videoOutput!.setSampleBufferDelegate(self, queue: CameraQueues.videoQueue) videoOutput!.alwaysDiscardsLateVideoFrames = false if previewType == "skia" { // If the PreviewView is a Skia view, we need to use the RGB format since Skia works in the RGB colorspace instead of YUV. // This does introduce a performance overhead, but it's inevitable since Skia would internally convert // YUV frames to RGB anyways since all Shaders and draw operations operate in the RGB space. videoOutput!.videoSettings = [ String(kCVPixelBufferPixelFormatTypeKey): kCVPixelFormatType_32BGRA, // default: kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange ] } captureSession.addOutput(videoOutput!) } onOrientationChanged() invokeOnInitialized() isReady = true ReactLogger.log(level: .info, message: "Session successfully configured!") } // pragma MARK: Configure Device /** Configures the Video Device with the given FPS, HDR and ColorSpace. */ final func configureDevice() { ReactLogger.log(level: .info, message: "Configuring Device...") guard let device = videoDeviceInput?.device else { invokeOnError(.session(.cameraNotReady)) return } do { try device.lockForConfiguration() if let fps = fps?.int32Value { let supportsGivenFps = device.activeFormat.videoSupportedFrameRateRanges.contains { range in return range.includes(fps: Double(fps)) } if !supportsGivenFps { invokeOnError(.format(.invalidFps(fps: Int(fps)))) return } let duration = CMTimeMake(value: 1, timescale: fps) device.activeVideoMinFrameDuration = duration device.activeVideoMaxFrameDuration = duration } else { device.activeVideoMinFrameDuration = CMTime.invalid device.activeVideoMaxFrameDuration = CMTime.invalid } if hdr != nil { if hdr == true && !device.activeFormat.isVideoHDRSupported { invokeOnError(.format(.invalidHdr)) return } if !device.automaticallyAdjustsVideoHDREnabled { if device.isVideoHDREnabled != hdr!.boolValue { device.isVideoHDREnabled = hdr!.boolValue } } } if lowLightBoost != nil { if lowLightBoost == true && !device.isLowLightBoostSupported { invokeOnError(.device(.lowLightBoostNotSupported)) return } if device.automaticallyEnablesLowLightBoostWhenAvailable != lowLightBoost!.boolValue { device.automaticallyEnablesLowLightBoostWhenAvailable = lowLightBoost!.boolValue } } if let colorSpace = colorSpace as String? { guard let avColorSpace = try? AVCaptureColorSpace(string: colorSpace), device.activeFormat.supportedColorSpaces.contains(avColorSpace) else { invokeOnError(.format(.invalidColorSpace(colorSpace: colorSpace))) return } device.activeColorSpace = avColorSpace } device.unlockForConfiguration() ReactLogger.log(level: .info, message: "Device successfully configured!") } catch let error as NSError { invokeOnError(.device(.configureError), cause: error) return } } // pragma MARK: Configure Format /** Configures the Video Device to find the best matching Format. */ final func configureFormat() { ReactLogger.log(level: .info, message: "Configuring Format...") guard let filter = format else { // Format Filter was null. Ignore it. return } guard let device = videoDeviceInput?.device else { invokeOnError(.session(.cameraNotReady)) return } if device.activeFormat.matchesFilter(filter) { ReactLogger.log(level: .info, message: "Active format already matches filter.") return } // get matching format let matchingFormats = device.formats.filter { $0.matchesFilter(filter) }.sorted { $0.isBetterThan($1) } guard let format = matchingFormats.first else { invokeOnError(.format(.invalidFormat)) return } do { try device.lockForConfiguration() device.activeFormat = format device.unlockForConfiguration() ReactLogger.log(level: .info, message: "Format successfully configured!") } catch let error as NSError { invokeOnError(.device(.configureError), cause: error) return } } // pragma MARK: Notifications/Interruptions @objc func sessionRuntimeError(notification: Notification) { ReactLogger.log(level: .error, message: "Unexpected Camera Runtime Error occured!") guard let error = notification.userInfo?[AVCaptureSessionErrorKey] as? AVError else { return } invokeOnError(.unknown(message: error._nsError.description), cause: error._nsError) if isActive { // restart capture session after an error occured CameraQueues.cameraQueue.async { self.captureSession.startRunning() } } } }