sdk/objc/Framework/Classes/Video/avfoundationvideocapturer.mm - src/webrtc - Git at Google

 /*
  *  Copyright 2015 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "avfoundationvideocapturer.h"

 #import <AVFoundation/AVFoundation.h>

 #import "RTCAVFoundationVideoCapturerInternal.h"
 #import "RTCDispatcher+Private.h"
 #import "WebRTC/RTCLogging.h"
 #import "WebRTC/RTCVideoFrameBuffer.h"

 #include "avfoundationformatmapper.h"

 #include "webrtc/api/video/video_rotation.h"
 #include "webrtc/rtc_base/bind.h"
 #include "webrtc/rtc_base/checks.h"
 #include "webrtc/rtc_base/logging.h"
 #include "webrtc/rtc_base/thread.h"
 #include "webrtc/sdk/objc/Framework/Classes/Video/objc_frame_buffer.h"

 namespace webrtc {

 enum AVFoundationVideoCapturerMessageType : uint32_t {
   kMessageTypeFrame,
 };

 AVFoundationVideoCapturer::AVFoundationVideoCapturer() : _capturer(nil) {
   _capturer =
       [[RTCAVFoundationVideoCapturerInternal alloc] initWithCapturer:this];

   std::set<cricket::VideoFormat> front_camera_video_formats =
       GetSupportedVideoFormatsForDevice([_capturer frontCaptureDevice]);
   std::set<cricket::VideoFormat> back_camera_video_formats =
       GetSupportedVideoFormatsForDevice([_capturer backCaptureDevice]);
   std::vector<cricket::VideoFormat> intersection_video_formats;
   if (back_camera_video_formats.empty()) {
     intersection_video_formats.assign(front_camera_video_formats.begin(),
                                       front_camera_video_formats.end());

   } else if (front_camera_video_formats.empty()) {
     intersection_video_formats.assign(back_camera_video_formats.begin(),
                                       back_camera_video_formats.end());
   } else {
     std::set_intersection(
         front_camera_video_formats.begin(), front_camera_video_formats.end(),
         back_camera_video_formats.begin(), back_camera_video_formats.end(),
         std::back_inserter(intersection_video_formats));
   }
   SetSupportedFormats(intersection_video_formats);
 }

 AVFoundationVideoCapturer::~AVFoundationVideoCapturer() {
   _capturer = nil;
 }

 cricket::CaptureState AVFoundationVideoCapturer::Start(
     const cricket::VideoFormat& format) {
   if (!_capturer) {
     LOG(LS_ERROR) << "Failed to create AVFoundation capturer.";
     return cricket::CaptureState::CS_FAILED;
   }
   if (_capturer.isRunning) {
     LOG(LS_ERROR) << "The capturer is already running.";
     return cricket::CaptureState::CS_FAILED;
   }

   AVCaptureDevice* device = [_capturer getActiveCaptureDevice];
   AVCaptureSession* session = _capturer.captureSession;

   if (!SetFormatForCaptureDevice(device, session, format)) {
     return cricket::CaptureState::CS_FAILED;
   }

   SetCaptureFormat(&format);
   // This isn't super accurate because it takes a while for the AVCaptureSession
   // to spin up, and this call returns async.
   // TODO(tkchin): make this better.
   [_capturer start];
   SetCaptureState(cricket::CaptureState::CS_RUNNING);

   return cricket::CaptureState::CS_STARTING;
 }

 void AVFoundationVideoCapturer::Stop() {
   [_capturer stop];
   SetCaptureFormat(NULL);
 }

 bool AVFoundationVideoCapturer::IsRunning() {
   return _capturer.isRunning;
 }

 AVCaptureSession* AVFoundationVideoCapturer::GetCaptureSession() {
   return _capturer.captureSession;
 }

 bool AVFoundationVideoCapturer::CanUseBackCamera() const {
   return _capturer.canUseBackCamera;
 }

 void AVFoundationVideoCapturer::SetUseBackCamera(bool useBackCamera) {
   _capturer.useBackCamera = useBackCamera;
 }

 bool AVFoundationVideoCapturer::GetUseBackCamera() const {
   return _capturer.useBackCamera;
 }

 void AVFoundationVideoCapturer::AdaptOutputFormat(int width, int height, int fps) {
   cricket::VideoFormat format(width, height, cricket::VideoFormat::FpsToInterval(fps), 0);
   video_adapter()->OnOutputFormatRequest(format);
 }

 void AVFoundationVideoCapturer::CaptureSampleBuffer(
     CMSampleBufferRef sample_buffer, VideoRotation rotation) {
   if (CMSampleBufferGetNumSamples(sample_buffer) != 1 ||
       !CMSampleBufferIsValid(sample_buffer) ||
       !CMSampleBufferDataIsReady(sample_buffer)) {
     return;
   }

   CVImageBufferRef image_buffer = CMSampleBufferGetImageBuffer(sample_buffer);
   if (image_buffer == NULL) {
     return;
   }

   int captured_width = CVPixelBufferGetWidth(image_buffer);
   int captured_height = CVPixelBufferGetHeight(image_buffer);

   int adapted_width;
   int adapted_height;
   int crop_width;
   int crop_height;
   int crop_x;
   int crop_y;
   int64_t translated_camera_time_us;

   if (!AdaptFrame(captured_width, captured_height,
                   rtc::TimeNanos() / rtc::kNumNanosecsPerMicrosec,
                   rtc::TimeMicros(), &adapted_width, &adapted_height,
                   &crop_width, &crop_height, &crop_x, &crop_y,
                   &translated_camera_time_us)) {
     return;
   }

   RTCCVPixelBuffer* rtcPixelBuffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:image_buffer
                                                                       adaptedWidth:adapted_width
                                                                      adaptedHeight:adapted_height
                                                                          cropWidth:crop_width
                                                                         cropHeight:crop_height
                                                                              cropX:crop_x
                                                                              cropY:crop_y];
   rtc::scoped_refptr<VideoFrameBuffer> buffer =
       new rtc::RefCountedObject<ObjCFrameBuffer>(rtcPixelBuffer);

   // Applying rotation is only supported for legacy reasons and performance is
   // not critical here.
   if (apply_rotation() && rotation != kVideoRotation_0) {
     buffer = I420Buffer::Rotate(*buffer->ToI420(), rotation);
     if (rotation == kVideoRotation_90 || rotation == kVideoRotation_270) {
       std::swap(captured_width, captured_height);
     }

     rotation = kVideoRotation_0;
   }

   OnFrame(webrtc::VideoFrame(buffer, rotation, translated_camera_time_us),
           captured_width, captured_height);
 }

 }  // namespace webrtc
	/*
	* Copyright 2015 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "avfoundationvideocapturer.h"

	#import <AVFoundation/AVFoundation.h>

	#import "RTCAVFoundationVideoCapturerInternal.h"
	#import "RTCDispatcher+Private.h"
	#import "WebRTC/RTCLogging.h"
	#import "WebRTC/RTCVideoFrameBuffer.h"

	#include "avfoundationformatmapper.h"

	#include "webrtc/api/video/video_rotation.h"
	#include "webrtc/rtc_base/bind.h"
	#include "webrtc/rtc_base/checks.h"
	#include "webrtc/rtc_base/logging.h"
	#include "webrtc/rtc_base/thread.h"
	#include "webrtc/sdk/objc/Framework/Classes/Video/objc_frame_buffer.h"

	namespace webrtc {

	enum AVFoundationVideoCapturerMessageType : uint32_t {
	kMessageTypeFrame,
	};

	AVFoundationVideoCapturer::AVFoundationVideoCapturer() : _capturer(nil) {
	_capturer =
	[[RTCAVFoundationVideoCapturerInternal alloc] initWithCapturer:this];

	std::set<cricket::VideoFormat> front_camera_video_formats =
	GetSupportedVideoFormatsForDevice([_capturer frontCaptureDevice]);
	std::set<cricket::VideoFormat> back_camera_video_formats =
	GetSupportedVideoFormatsForDevice([_capturer backCaptureDevice]);
	std::vector<cricket::VideoFormat> intersection_video_formats;
	if (back_camera_video_formats.empty()) {
	intersection_video_formats.assign(front_camera_video_formats.begin(),
	front_camera_video_formats.end());

	} else if (front_camera_video_formats.empty()) {
	intersection_video_formats.assign(back_camera_video_formats.begin(),
	back_camera_video_formats.end());
	} else {
	std::set_intersection(
	front_camera_video_formats.begin(), front_camera_video_formats.end(),
	back_camera_video_formats.begin(), back_camera_video_formats.end(),
	std::back_inserter(intersection_video_formats));
	}
	SetSupportedFormats(intersection_video_formats);
	}

	AVFoundationVideoCapturer::~AVFoundationVideoCapturer() {
	_capturer = nil;
	}

	cricket::CaptureState AVFoundationVideoCapturer::Start(
	const cricket::VideoFormat& format) {
	if (!_capturer) {
	LOG(LS_ERROR) << "Failed to create AVFoundation capturer.";
	return cricket::CaptureState::CS_FAILED;
	}
	if (_capturer.isRunning) {
	LOG(LS_ERROR) << "The capturer is already running.";
	return cricket::CaptureState::CS_FAILED;
	}

	AVCaptureDevice* device = [_capturer getActiveCaptureDevice];
	AVCaptureSession* session = _capturer.captureSession;

	if (!SetFormatForCaptureDevice(device, session, format)) {
	return cricket::CaptureState::CS_FAILED;
	}

	SetCaptureFormat(&format);
	// This isn't super accurate because it takes a while for the AVCaptureSession
	// to spin up, and this call returns async.
	// TODO(tkchin): make this better.
	[_capturer start];
	SetCaptureState(cricket::CaptureState::CS_RUNNING);

	return cricket::CaptureState::CS_STARTING;
	}

	void AVFoundationVideoCapturer::Stop() {
	[_capturer stop];
	SetCaptureFormat(NULL);
	}

	bool AVFoundationVideoCapturer::IsRunning() {
	return _capturer.isRunning;
	}

	AVCaptureSession* AVFoundationVideoCapturer::GetCaptureSession() {
	return _capturer.captureSession;
	}

	bool AVFoundationVideoCapturer::CanUseBackCamera() const {
	return _capturer.canUseBackCamera;
	}

	void AVFoundationVideoCapturer::SetUseBackCamera(bool useBackCamera) {
	_capturer.useBackCamera = useBackCamera;
	}

	bool AVFoundationVideoCapturer::GetUseBackCamera() const {
	return _capturer.useBackCamera;
	}

	void AVFoundationVideoCapturer::AdaptOutputFormat(int width, int height, int fps) {
	cricket::VideoFormat format(width, height, cricket::VideoFormat::FpsToInterval(fps), 0);
	video_adapter()->OnOutputFormatRequest(format);
	}

	void AVFoundationVideoCapturer::CaptureSampleBuffer(
	CMSampleBufferRef sample_buffer, VideoRotation rotation) {
	if (CMSampleBufferGetNumSamples(sample_buffer) != 1 \|\|
	!CMSampleBufferIsValid(sample_buffer) \|\|
	!CMSampleBufferDataIsReady(sample_buffer)) {
	return;
	}

	CVImageBufferRef image_buffer = CMSampleBufferGetImageBuffer(sample_buffer);
	if (image_buffer == NULL) {
	return;
	}

	int captured_width = CVPixelBufferGetWidth(image_buffer);
	int captured_height = CVPixelBufferGetHeight(image_buffer);

	int adapted_width;
	int adapted_height;
	int crop_width;
	int crop_height;
	int crop_x;
	int crop_y;
	int64_t translated_camera_time_us;

	if (!AdaptFrame(captured_width, captured_height,
	rtc::TimeNanos() / rtc::kNumNanosecsPerMicrosec,
	rtc::TimeMicros(), &adapted_width, &adapted_height,
	&crop_width, &crop_height, &crop_x, &crop_y,
	&translated_camera_time_us)) {
	return;
	}

	RTCCVPixelBuffer* rtcPixelBuffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:image_buffer
	adaptedWidth:adapted_width
	adaptedHeight:adapted_height
	cropWidth:crop_width
	cropHeight:crop_height
	cropX:crop_x
	cropY:crop_y];
	rtc::scoped_refptr<VideoFrameBuffer> buffer =
	new rtc::RefCountedObject<ObjCFrameBuffer>(rtcPixelBuffer);

	// Applying rotation is only supported for legacy reasons and performance is
	// not critical here.
	if (apply_rotation() && rotation != kVideoRotation_0) {
	buffer = I420Buffer::Rotate(*buffer->ToI420(), rotation);
	if (rotation == kVideoRotation_90 \|\| rotation == kVideoRotation_270) {
	std::swap(captured_width, captured_height);
	}

	rotation = kVideoRotation_0;
	}

	OnFrame(webrtc::VideoFrame(buffer, rotation, translated_camera_time_us),
	captured_width, captured_height);
	}

	} // namespace webrtc