try: Improvements from WWDC 2021 1:1 workshop (#197)

* perf: Automatically determine Pixel Format depending on active format. (More efficient video recording 🚀)
* perf: Skip `AVAssetWriter` transform by directly correctly orienting the Video Output connection
* feat: Support camera flipping while recording
* feat: Run frame processor on separate queue, avoids stutters in video recordigns
* feat: Automatically drop late frame processor frames
This commit is contained in:
Marc Rousavy 2021-06-11 21:06:19 +02:00 committed by GitHub
parent 26cf21ff5f
commit 9c579c65aa
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GPG Key ID: 4AEE18F83AFDEB23
14 changed files with 103 additions and 74 deletions

View File

@ -151,10 +151,8 @@ export const CameraPage: NavigationFunctionComponent = ({ componentId }) => {
//#region Tap Gesture //#region Tap Gesture
const onDoubleTap = useCallback(() => { const onDoubleTap = useCallback(() => {
// TODO: (MARC) Allow switching camera (back <-> front) while recording and stich videos together!
if (isPressingButton.value) return;
onFlipCameraPressed(); onFlipCameraPressed();
}, [isPressingButton, onFlipCameraPressed]); }, [onFlipCameraPressed]);
//#endregion //#endregion
//#region Effects //#region Effects

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@ -17,13 +17,20 @@ public class CameraQueues: NSObject {
autoreleaseFrequency: .inherit, autoreleaseFrequency: .inherit,
target: nil) target: nil)
/// The serial execution queue for output processing of videos as well as frame processors. /// The serial execution queue for output processing of videos for recording.
@objc public static let videoQueue = DispatchQueue(label: "mrousavy/VisionCamera.video", @objc public static let videoQueue = DispatchQueue(label: "mrousavy/VisionCamera.video",
qos: .userInteractive, qos: .userInteractive,
attributes: [], attributes: [],
autoreleaseFrequency: .inherit, autoreleaseFrequency: .inherit,
target: nil) target: nil)
/// The serial execution queue for output processing of videos for frame processing.
@objc public static let frameProcessorQueue = DispatchQueue(label: "mrousavy/VisionCamera.frame-processor",
qos: .userInteractive,
attributes: [],
autoreleaseFrequency: .inherit,
target: nil)
/// The serial execution queue for output processing of audio buffers. /// The serial execution queue for output processing of audio buffers.
@objc public static let audioQueue = DispatchQueue(label: "mrousavy/VisionCamera.audio", @objc public static let audioQueue = DispatchQueue(label: "mrousavy/VisionCamera.audio",
qos: .userInteractive, qos: .userInteractive,

View File

@ -133,11 +133,9 @@ extension CameraView {
return return
} }
videoOutput!.setSampleBufferDelegate(self, queue: videoQueue) videoOutput!.setSampleBufferDelegate(self, queue: videoQueue)
videoOutput!.alwaysDiscardsLateVideoFrames = true videoOutput!.alwaysDiscardsLateVideoFrames = false
captureSession.addOutput(videoOutput!) captureSession.addOutput(videoOutput!)
if videoDeviceInput!.device.position == .front { videoOutput!.setOrientation(forCameraPosition: videoDeviceInput!.device.position)
videoOutput!.mirror()
}
} }
invokeOnInitialized() invokeOnInitialized()

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@ -8,7 +8,8 @@
import AVFoundation import AVFoundation
private var hasLoggedFrameDropWarning = false private var hasLoggedVideoFrameDropWarning = false
private var hasLoggedFrameProcessorFrameDropWarning = false
// MARK: - CameraView + AVCaptureVideoDataOutputSampleBufferDelegate, AVCaptureAudioDataOutputSampleBufferDelegate // MARK: - CameraView + AVCaptureVideoDataOutputSampleBufferDelegate, AVCaptureAudioDataOutputSampleBufferDelegate
@ -54,6 +55,10 @@ extension CameraView: AVCaptureVideoDataOutputSampleBufferDelegate, AVCaptureAud
return return
} }
} }
guard let videoInput = self.videoDeviceInput else {
callback.reject(error: .session(.cameraNotReady))
return
}
// TODO: The startRecording() func cannot be async because RN doesn't allow // TODO: The startRecording() func cannot be async because RN doesn't allow
// both a callback and a Promise in a single function. Wait for TurboModules? // both a callback and a Promise in a single function. Wait for TurboModules?
@ -108,8 +113,10 @@ extension CameraView: AVCaptureVideoDataOutputSampleBufferDelegate, AVCaptureAud
callback.reject(error: .capture(.createRecorderError(message: "Failed to get video settings!"))) callback.reject(error: .capture(.createRecorderError(message: "Failed to get video settings!")))
return return
} }
// get pixel format (420f, 420v)
let pixelFormat = CMFormatDescriptionGetMediaSubType(videoInput.device.activeFormat.formatDescription)
self.recordingSession!.initializeVideoWriter(withSettings: videoSettings, self.recordingSession!.initializeVideoWriter(withSettings: videoSettings,
isVideoMirrored: self.videoOutput!.isMirrored) pixelFormat: pixelFormat)
// Init Audio (optional, async) // Init Audio (optional, async)
if enableAudio { if enableAudio {
@ -196,30 +203,60 @@ extension CameraView: AVCaptureVideoDataOutputSampleBufferDelegate, AVCaptureAud
} }
} }
if let frameProcessor = frameProcessorCallback, captureOutput is AVCaptureVideoDataOutput { // TODO: resize using VideoToolbox (VTPixelTransferSession)
if let frameProcessor = frameProcessorCallback,
captureOutput is AVCaptureVideoDataOutput {
// check if last frame was x nanoseconds ago, effectively throttling FPS // check if last frame was x nanoseconds ago, effectively throttling FPS
let diff = DispatchTime.now().uptimeNanoseconds - lastFrameProcessorCall.uptimeNanoseconds let diff = DispatchTime.now().uptimeNanoseconds - lastFrameProcessorCall.uptimeNanoseconds
let secondsPerFrame = 1.0 / frameProcessorFps.doubleValue let secondsPerFrame = 1.0 / frameProcessorFps.doubleValue
let nanosecondsPerFrame = secondsPerFrame * 1_000_000_000.0 let nanosecondsPerFrame = secondsPerFrame * 1_000_000_000.0
if diff > UInt64(nanosecondsPerFrame) { if diff > UInt64(nanosecondsPerFrame) {
let frame = Frame(buffer: sampleBuffer, orientation: bufferOrientation) if !isRunningFrameProcessor {
frameProcessor(frame) // we're not in the middle of executing the Frame Processor, so prepare for next call.
lastFrameProcessorCall = DispatchTime.now() var bufferCopy: CMSampleBuffer?
CMSampleBufferCreateCopy(allocator: kCFAllocatorDefault,
sampleBuffer: sampleBuffer,
sampleBufferOut: &bufferCopy)
if let bufferCopy = bufferCopy {
// successfully copied buffer, dispatch frame processor call.
CameraQueues.frameProcessorQueue.async {
self.isRunningFrameProcessor = true
let frame = Frame(buffer: bufferCopy, orientation: self.bufferOrientation)
frameProcessor(frame)
self.isRunningFrameProcessor = false
}
lastFrameProcessorCall = DispatchTime.now()
} else {
// failed to create a buffer copy.
ReactLogger.log(level: .error, message: "Failed to copy buffer! Frame Processor cannot be called.", alsoLogToJS: true)
}
} else {
// we're still in the middle of executing a Frame Processor for a previous frame, notify user about dropped frame.
if !hasLoggedFrameProcessorFrameDropWarning {
ReactLogger.log(level: .warning,
message: "Your Frame Processor took so long to execute that a frame was dropped. " +
"Either throttle your Frame Processor's frame rate using the `frameProcessorFps` prop, or optimize " +
"it's execution speed. (This warning will only be shown once)",
alsoLogToJS: true)
hasLoggedFrameProcessorFrameDropWarning = true
}
}
} }
} }
} }
#if DEBUG #if DEBUG
public final func captureOutput(_ captureOutput: AVCaptureOutput, didDrop buffer: CMSampleBuffer, from _: AVCaptureConnection) { public final func captureOutput(_ captureOutput: AVCaptureOutput, didDrop buffer: CMSampleBuffer, from _: AVCaptureConnection) {
if frameProcessorCallback != nil && !hasLoggedFrameDropWarning && captureOutput is AVCaptureVideoDataOutput { if !hasLoggedVideoFrameDropWarning && captureOutput is AVCaptureVideoDataOutput {
let reason = findFrameDropReason(inBuffer: buffer) let reason = findFrameDropReason(inBuffer: buffer)
ReactLogger.log(level: .warning, ReactLogger.log(level: .warning,
message: "Dropped a Frame - This might indicate that your Frame Processor is doing too much work. " + message: "Dropped a Frame - This might indicate that your frame rate is higher than the phone can currently process. " +
"Either throttle the frame processor's frame rate using the `frameProcessorFps` prop, or optimize " + "Throttle the Camera frame rate using the `fps` prop and make sure the device stays in optimal condition for recording. " +
"your frame processor's execution speed. Frame drop reason: \(reason)", "Frame drop reason: \(reason). (This warning will only be shown once)",
alsoLogToJS: true) alsoLogToJS: true)
hasLoggedFrameDropWarning = true hasLoggedVideoFrameDropWarning = true
} }
} }

View File

@ -100,6 +100,9 @@ public final class CameraView: UIView {
internal let videoQueue = CameraQueues.videoQueue internal let videoQueue = CameraQueues.videoQueue
internal let audioQueue = CameraQueues.audioQueue internal let audioQueue = CameraQueues.audioQueue
/// Specifies whether the frameProcessor() function is currently executing. used to drop late frames.
internal var isRunningFrameProcessor = false
var isRunning: Bool { var isRunning: Bool {
return captureSession.isRunning return captureSession.isRunning
} }

View File

@ -24,7 +24,7 @@ final class CameraViewManager: RCTViewManager {
// Install Frame Processor bindings and setup Runtime // Install Frame Processor bindings and setup Runtime
if enableFrameProcessors { if enableFrameProcessors {
CameraQueues.videoQueue.async { CameraQueues.frameProcessorQueue.async {
self.runtimeManager = FrameProcessorRuntimeManager(bridge: self.bridge) self.runtimeManager = FrameProcessorRuntimeManager(bridge: self.bridge)
self.bridge.runOnJS { self.bridge.runOnJS {
self.runtimeManager!.installFrameProcessorBindings() self.runtimeManager!.installFrameProcessorBindings()

View File

@ -13,7 +13,9 @@ extension AVAssetWriterInputPixelBufferAdaptor {
/** /**
Convenience initializer to extract correct attributes from the given videoSettings. Convenience initializer to extract correct attributes from the given videoSettings.
*/ */
convenience init(assetWriterInput: AVAssetWriterInput, withVideoSettings videoSettings: [String: Any]) { convenience init(assetWriterInput: AVAssetWriterInput,
withVideoSettings videoSettings: [String: Any],
pixelFormat: OSType) {
var attributes: [String: Any] = [:] var attributes: [String: Any] = [:]
if let width = videoSettings[AVVideoWidthKey] as? NSNumber, if let width = videoSettings[AVVideoWidthKey] as? NSNumber,
@ -22,8 +24,7 @@ extension AVAssetWriterInputPixelBufferAdaptor {
attributes[kCVPixelBufferHeightKey as String] = height as CFNumber attributes[kCVPixelBufferHeightKey as String] = height as CFNumber
} }
// TODO: Is "Bi-Planar Y'CbCr 8-bit 4:2:0 full-range" the best CVPixelFormatType? How can I find natively supported ones? attributes[kCVPixelBufferPixelFormatTypeKey as String] = pixelFormat
attributes[kCVPixelBufferPixelFormatTypeKey as String] = kCVPixelFormatType_420YpCbCr8BiPlanarFullRange
self.init(assetWriterInput: assetWriterInput, sourcePixelBufferAttributes: attributes) self.init(assetWriterInput: assetWriterInput, sourcePixelBufferAttributes: attributes)
} }

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@ -12,6 +12,7 @@ extension AVCapturePhotoOutput {
func mirror() { func mirror() {
connections.forEach { connection in connections.forEach { connection in
if connection.isVideoMirroringSupported { if connection.isVideoMirroringSupported {
connection.automaticallyAdjustsVideoMirroring = false
connection.isVideoMirrored = true connection.isVideoMirrored = true
} }
} }

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@ -1,25 +0,0 @@
//
// AVCaptureVideoDataOutput+mirror.swift
// Cuvent
//
// Created by Marc Rousavy on 18.01.21.
// Copyright © 2021 mrousavy. All rights reserved.
//
import AVFoundation
extension AVCaptureVideoDataOutput {
func mirror() {
connections.forEach { connection in
if connection.isVideoMirroringSupported {
connection.isVideoMirrored = true
}
}
}
var isMirrored: Bool {
return connections.contains { connection in
connection.isVideoMirrored
}
}
}

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@ -0,0 +1,24 @@
//
// AVCaptureVideoDataOutput+setOrientation.swift
// Cuvent
//
// Created by Marc Rousavy on 18.01.21.
// Copyright © 2021 mrousavy. All rights reserved.
//
import AVFoundation
extension AVCaptureVideoDataOutput {
func setOrientation(forCameraPosition position: AVCaptureDevice.Position) {
let isMirrored = position == .front
connections.forEach { connection in
if connection.isVideoMirroringSupported {
connection.automaticallyAdjustsVideoMirroring = false
connection.isVideoMirrored = isMirrored
}
if connection.isVideoOrientationSupported {
connection.videoOrientation = .portrait
}
}
}
}

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@ -43,7 +43,7 @@
// Forward declarations for the Swift classes // Forward declarations for the Swift classes
__attribute__((objc_runtime_name("_TtC12VisionCamera12CameraQueues"))) __attribute__((objc_runtime_name("_TtC12VisionCamera12CameraQueues")))
@interface CameraQueues : NSObject @interface CameraQueues : NSObject
@property (nonatomic, class, readonly, strong) dispatch_queue_t _Nonnull videoQueue; @property (nonatomic, class, readonly, strong) dispatch_queue_t _Nonnull frameProcessorQueue;
@end @end
__attribute__((objc_runtime_name("_TtC12VisionCamera10CameraView"))) __attribute__((objc_runtime_name("_TtC12VisionCamera10CameraView")))
@interface CameraView : UIView @interface CameraView : UIView
@ -153,7 +153,7 @@ __attribute__((objc_runtime_name("_TtC12VisionCamera10CameraView")))
auto anonymousView = [currentBridge.uiManager viewForReactTag:[NSNumber numberWithDouble:viewTag]]; auto anonymousView = [currentBridge.uiManager viewForReactTag:[NSNumber numberWithDouble:viewTag]];
auto view = static_cast<CameraView*>(anonymousView); auto view = static_cast<CameraView*>(anonymousView);
dispatch_async(CameraQueues.videoQueue, [worklet, view, self]() { dispatch_async(CameraQueues.frameProcessorQueue, [worklet, view, self]() {
NSLog(@"FrameProcessorBindings: Converting worklet to Objective-C callback..."); NSLog(@"FrameProcessorBindings: Converting worklet to Objective-C callback...");
auto& rt = *runtimeManager->runtime; auto& rt = *runtimeManager->runtime;
auto function = worklet->getValue(rt).asObject(rt).asFunction(rt); auto function = worklet->getValue(rt).asObject(rt).asFunction(rt);

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@ -16,9 +16,6 @@ FrameProcessorCallback convertJSIFunctionToFrameProcessorCallback(jsi::Runtime &
__block auto cb = value.getFunction(runtime); __block auto cb = value.getFunction(runtime);
return ^(Frame* frame) { return ^(Frame* frame) {
#if DEBUG
std::chrono::steady_clock::time_point begin = std::chrono::steady_clock::now();
#endif
auto frameHostObject = std::make_shared<FrameHostObject>(frame); auto frameHostObject = std::make_shared<FrameHostObject>(frame);
try { try {
@ -27,14 +24,6 @@ FrameProcessorCallback convertJSIFunctionToFrameProcessorCallback(jsi::Runtime &
NSLog(@"Frame Processor threw an error: %s", jsError.getMessage().c_str()); NSLog(@"Frame Processor threw an error: %s", jsError.getMessage().c_str());
} }
#if DEBUG
std::chrono::steady_clock::time_point end = std::chrono::steady_clock::now();
auto duration = std::chrono::duration_cast<std::chrono::milliseconds>(end - begin).count();
if (duration > 100) {
NSLog(@"Warning: Frame Processor function took %lld ms to execute. This blocks the video queue from recording, optimize your frame processor!", duration);
}
#endif
// Manually free the buffer because: // Manually free the buffer because:
// 1. we are sure we don't need it anymore, the frame processor worklet has finished executing. // 1. we are sure we don't need it anymore, the frame processor worklet has finished executing.
// 2. we don't know when the JS runtime garbage collects this object, it might be holding it for a few more frames // 2. we don't know when the JS runtime garbage collects this object, it might be holding it for a few more frames

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@ -68,7 +68,7 @@ class RecordingSession {
/** /**
Initializes an AssetWriter for video frames (CMSampleBuffers). Initializes an AssetWriter for video frames (CMSampleBuffers).
*/ */
func initializeVideoWriter(withSettings settings: [String: Any], isVideoMirrored: Bool) { func initializeVideoWriter(withSettings settings: [String: Any], pixelFormat: OSType) {
guard !settings.isEmpty else { guard !settings.isEmpty else {
ReactLogger.log(level: .error, message: "Tried to initialize Video Writer with empty settings!", alsoLogToJS: true) ReactLogger.log(level: .error, message: "Tried to initialize Video Writer with empty settings!", alsoLogToJS: true)
return return
@ -81,14 +81,10 @@ class RecordingSession {
let videoWriter = AVAssetWriterInput(mediaType: .video, outputSettings: settings) let videoWriter = AVAssetWriterInput(mediaType: .video, outputSettings: settings)
videoWriter.expectsMediaDataInRealTime = true videoWriter.expectsMediaDataInRealTime = true
if isVideoMirrored {
videoWriter.transform = CGAffineTransform(rotationAngle: -(.pi / 2))
} else {
videoWriter.transform = CGAffineTransform(rotationAngle: .pi / 2)
}
assetWriter.add(videoWriter) assetWriter.add(videoWriter)
bufferAdaptor = AVAssetWriterInputPixelBufferAdaptor(assetWriterInput: videoWriter, withVideoSettings: settings) bufferAdaptor = AVAssetWriterInputPixelBufferAdaptor(assetWriterInput: videoWriter,
withVideoSettings: settings,
pixelFormat: pixelFormat)
ReactLogger.log(level: .info, message: "Initialized Video AssetWriter.") ReactLogger.log(level: .info, message: "Initialized Video AssetWriter.")
} }

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@ -29,7 +29,7 @@
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B887519425E0102000DB86D6 /* MakeReactError.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887516E25E0102000DB86D6 /* MakeReactError.swift */; }; B887519425E0102000DB86D6 /* MakeReactError.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887516E25E0102000DB86D6 /* MakeReactError.swift */; };
B887519525E0102000DB86D6 /* ReactLogger.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887516F25E0102000DB86D6 /* ReactLogger.swift */; }; B887519525E0102000DB86D6 /* ReactLogger.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887516F25E0102000DB86D6 /* ReactLogger.swift */; };
B887519625E0102000DB86D6 /* Promise.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887517025E0102000DB86D6 /* Promise.swift */; }; B887519625E0102000DB86D6 /* Promise.swift in Sources */ = {isa = PBXBuildFile; fileRef = B887517025E0102000DB86D6 /* Promise.swift */; };
@ -106,7 +106,7 @@
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B887516F25E0102000DB86D6 /* ReactLogger.swift */ = {isa = PBXFileReference; fileEncoding = 4; lastKnownFileType = sourcecode.swift; path = ReactLogger.swift; sourceTree = "<group>"; }; B887516F25E0102000DB86D6 /* ReactLogger.swift */ = {isa = PBXFileReference; fileEncoding = 4; lastKnownFileType = sourcecode.swift; path = ReactLogger.swift; sourceTree = "<group>"; };
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@ -203,7 +203,7 @@
B887516925E0102000DB86D6 /* AVCaptureDevice.Format+matchesFilter.swift */, B887516925E0102000DB86D6 /* AVCaptureDevice.Format+matchesFilter.swift */,
B887516A25E0102000DB86D6 /* AVCaptureDevice.Format+toDictionary.swift */, B887516A25E0102000DB86D6 /* AVCaptureDevice.Format+toDictionary.swift */,
B88B47462667C8E00091F538 /* AVCaptureSession+setVideoStabilizationMode.swift */, B88B47462667C8E00091F538 /* AVCaptureSession+setVideoStabilizationMode.swift */,
B887516B25E0102000DB86D6 /* AVCaptureVideoDataOutput+mirror.swift */, B887516B25E0102000DB86D6 /* AVCaptureVideoDataOutput+setOrientation.swift */,
B887516225E0102000DB86D6 /* Collection+safe.swift */, B887516225E0102000DB86D6 /* Collection+safe.swift */,
); );
path = Extensions; path = Extensions;
@ -407,7 +407,7 @@
B8A751D82609E4B30011C623 /* FrameProcessorRuntimeManager.mm in Sources */, B8A751D82609E4B30011C623 /* FrameProcessorRuntimeManager.mm in Sources */,
B887519A25E0102000DB86D6 /* AVVideoCodecType+descriptor.swift in Sources */, B887519A25E0102000DB86D6 /* AVVideoCodecType+descriptor.swift in Sources */,
B88751A825E0102000DB86D6 /* CameraError.swift in Sources */, B88751A825E0102000DB86D6 /* CameraError.swift in Sources */,
B887519225E0102000DB86D6 /* AVCaptureVideoDataOutput+mirror.swift in Sources */, B887519225E0102000DB86D6 /* AVCaptureVideoDataOutput+setOrientation.swift in Sources */,
B88751A625E0102000DB86D6 /* CameraViewManager.swift in Sources */, B88751A625E0102000DB86D6 /* CameraViewManager.swift in Sources */,
B887519F25E0102000DB86D6 /* AVCaptureDevice.DeviceType+descriptor.swift in Sources */, B887519F25E0102000DB86D6 /* AVCaptureDevice.DeviceType+descriptor.swift in Sources */,
B8D22CDC2642DB4D00234472 /* AVAssetWriterInputPixelBufferAdaptor+initWithVideoSettings.swift in Sources */, B8D22CDC2642DB4D00234472 /* AVAssetWriterInputPixelBufferAdaptor+initWithVideoSettings.swift in Sources */,