sdk/objc/Framework/UnitTests/ObjCVideoTrackSource_xctest.mm - src - Git at Google

 /*
  *  Copyright 2018 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.
  */

 #import <Foundation/Foundation.h>
 #import <XCTest/XCTest.h>

 #include "sdk/objc/Framework/Native/src/objc_video_track_source.h"

 #import "Video/RTCI420Buffer+Private.h"
 #import "WebRTC/RTCVideoFrame.h"
 #import "WebRTC/RTCVideoFrameBuffer.h"
 #include "common_video/libyuv/include/webrtc_libyuv.h"
 #include "media/base/fakevideorenderer.h"
 #include "rtc_base/refcountedobject.h"
 #include "rtc_base/scoped_ref_ptr.h"
 #include "sdk/objc/Framework/Native/api/video_frame.h"
 #import "sdk/objc/Framework/UnitTests/frame_buffer_helpers.h"

 typedef void (^VideoSinkCallback)(RTCVideoFrame *);

 namespace {

 class ObjCCallbackVideoSink : public rtc::VideoSinkInterface<webrtc::VideoFrame> {
  public:
   ObjCCallbackVideoSink(VideoSinkCallback callback) : callback_(callback) {}

   void OnFrame(const webrtc::VideoFrame &frame) override {
     callback_(NativeToObjCVideoFrame(frame));
   }

  private:
   VideoSinkCallback callback_;
 };

 }  // namespace

 @interface ObjCVideoTrackSourceTests : XCTestCase
 @end

 @implementation ObjCVideoTrackSourceTests {
   rtc::scoped_refptr<webrtc::ObjCVideoTrackSource> _video_source;
 }

 - (void)setUp {
   _video_source = new rtc::RefCountedObject<webrtc::ObjCVideoTrackSource>();
 }

 - (void)tearDown {
   _video_source = NULL;
 }

 - (void)testOnCapturedFrameAdaptsFrame {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];

   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   cricket::FakeVideoRenderer *video_renderer = new cricket::FakeVideoRenderer();
   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(video_renderer, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   XCTAssertEqual(video_renderer->num_rendered_frames(), 1);
   XCTAssertEqual(video_renderer->width(), 360);
   XCTAssertEqual(video_renderer->height(), 640);

   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameAdaptsFrameWithAlignment {
   // Requesting to adapt 1280x720 to 912x514 gives 639x360 without alignment. The 639 causes issues
   // with some hardware encoders (e.g. HEVC) so in this test we verify that the alignment is set and
   // respected.

   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];

   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   cricket::FakeVideoRenderer *video_renderer = new cricket::FakeVideoRenderer();
   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(video_renderer, video_sink_wants);

   _video_source->OnOutputFormatRequest(912, 514, 30);
   _video_source->OnCapturedFrame(frame);

   XCTAssertEqual(video_renderer->num_rendered_frames(), 1);
   XCTAssertEqual(video_renderer->width(), 360);
   XCTAssertEqual(video_renderer->height(), 640);

   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameWithoutAdaptation {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 360, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(frame.width, outputFrame.width);
     XCTAssertEqual(frame.height, outputFrame.height);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(buffer.cropX, outputBuffer.cropX);
     XCTAssertEqual(buffer.cropY, outputBuffer.cropY);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameCVPixelBufferNeedsAdaptation {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 360);
     XCTAssertEqual(outputFrame.height, 640);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(outputBuffer.cropX, 0);
     XCTAssertEqual(outputBuffer.cropY, 0);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameCVPixelBufferNeedsCropping {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 360);
     XCTAssertEqual(outputFrame.height, 640);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(outputBuffer.cropX, 10);
     XCTAssertEqual(outputBuffer.cropY, 0);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFramePreAdaptedCVPixelBufferNeedsAdaptation {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
                                                               adaptedWidth:700
                                                              adaptedHeight:700
                                                                  cropWidth:720
                                                                 cropHeight:1280
                                                                      cropX:0
                                                                      cropY:0];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 300);
     XCTAssertEqual(outputFrame.height, 516);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(outputBuffer.cropX, 150);
     XCTAssertEqual(outputBuffer.cropY, 6);
     XCTAssertEqual(outputBuffer.cropWidth, 400);
     XCTAssertEqual(outputBuffer.cropHeight, 688);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFramePreCroppedCVPixelBufferNeedsCropping {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
                                                               adaptedWidth:370
                                                              adaptedHeight:640
                                                                  cropWidth:370
                                                                 cropHeight:640
                                                                      cropX:10
                                                                      cropY:0];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 360);
     XCTAssertEqual(outputFrame.height, 640);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(outputBuffer.cropX, 14);
     XCTAssertEqual(outputBuffer.cropY, 0);
     XCTAssertEqual(outputBuffer.cropWidth, 360);
     XCTAssertEqual(outputBuffer.cropHeight, 640);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameSmallerPreCroppedCVPixelBufferNeedsCropping {
   CVPixelBufferRef pixelBufferRef = NULL;
   CVPixelBufferCreate(
       NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

   RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
                                                               adaptedWidth:300
                                                              adaptedHeight:640
                                                                  cropWidth:300
                                                                 cropHeight:640
                                                                      cropX:40
                                                                      cropY:0];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 300);
     XCTAssertEqual(outputFrame.height, 536);

     RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
     XCTAssertEqual(outputBuffer.cropX, 40);
     XCTAssertEqual(outputBuffer.cropY, 52);
     XCTAssertEqual(outputBuffer.cropWidth, 300);
     XCTAssertEqual(outputBuffer.cropHeight, 536);
     XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
   CVBufferRelease(pixelBufferRef);
 }

 - (void)testOnCapturedFrameI420BufferNeedsAdaptation {
   rtc::scoped_refptr<webrtc::I420Buffer> i420Buffer = CreateI420Gradient(720, 1280);
   RTCI420Buffer *buffer = [[RTCI420Buffer alloc] initWithFrameBuffer:i420Buffer];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 360);
     XCTAssertEqual(outputFrame.height, 640);

     RTCI420Buffer *outputBuffer = (RTCI420Buffer *)outputFrame.buffer;

     double psnr = I420PSNR(*[buffer nativeI420Buffer], *[outputBuffer nativeI420Buffer]);
     XCTAssertEqual(psnr, webrtc::kPerfectPSNR);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
 }

 - (void)testOnCapturedFrameI420BufferNeedsCropping {
   rtc::scoped_refptr<webrtc::I420Buffer> i420Buffer = CreateI420Gradient(380, 640);
   RTCI420Buffer *buffer = [[RTCI420Buffer alloc] initWithFrameBuffer:i420Buffer];
   RTCVideoFrame *frame =
       [[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

   XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
   ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
     XCTAssertEqual(outputFrame.width, 360);
     XCTAssertEqual(outputFrame.height, 640);

     RTCI420Buffer *outputBuffer = (RTCI420Buffer *)outputFrame.buffer;

     double psnr = I420PSNR(*[buffer nativeI420Buffer], *[outputBuffer nativeI420Buffer]);
     XCTAssertGreaterThanOrEqual(psnr, 40);

     [callbackExpectation fulfill];
   });

   const rtc::VideoSinkWants video_sink_wants;
   rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
   video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

   _video_source->OnOutputFormatRequest(640, 360, 30);
   _video_source->OnCapturedFrame(frame);

   [self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
 }

 @end
	/*
	* Copyright 2018 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.
	*/

	#import <Foundation/Foundation.h>
	#import <XCTest/XCTest.h>

	#include "sdk/objc/Framework/Native/src/objc_video_track_source.h"

	#import "Video/RTCI420Buffer+Private.h"
	#import "WebRTC/RTCVideoFrame.h"
	#import "WebRTC/RTCVideoFrameBuffer.h"
	#include "common_video/libyuv/include/webrtc_libyuv.h"
	#include "media/base/fakevideorenderer.h"
	#include "rtc_base/refcountedobject.h"
	#include "rtc_base/scoped_ref_ptr.h"
	#include "sdk/objc/Framework/Native/api/video_frame.h"
	#import "sdk/objc/Framework/UnitTests/frame_buffer_helpers.h"

	typedef void (^VideoSinkCallback)(RTCVideoFrame *);

	namespace {

	class ObjCCallbackVideoSink : public rtc::VideoSinkInterface<webrtc::VideoFrame> {
	public:
	ObjCCallbackVideoSink(VideoSinkCallback callback) : callback_(callback) {}

	void OnFrame(const webrtc::VideoFrame &frame) override {
	callback_(NativeToObjCVideoFrame(frame));
	}

	private:
	VideoSinkCallback callback_;
	};

	} // namespace

	@interface ObjCVideoTrackSourceTests : XCTestCase
	@end

	@implementation ObjCVideoTrackSourceTests {
	rtc::scoped_refptr<webrtc::ObjCVideoTrackSource> _video_source;
	}

	- (void)setUp {
	_video_source = new rtc::RefCountedObject<webrtc::ObjCVideoTrackSource>();
	}

	- (void)tearDown {
	_video_source = NULL;
	}

	- (void)testOnCapturedFrameAdaptsFrame {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];

	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	cricket::FakeVideoRenderer *video_renderer = new cricket::FakeVideoRenderer();
	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(video_renderer, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	XCTAssertEqual(video_renderer->num_rendered_frames(), 1);
	XCTAssertEqual(video_renderer->width(), 360);
	XCTAssertEqual(video_renderer->height(), 640);

	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameAdaptsFrameWithAlignment {
	// Requesting to adapt 1280x720 to 912x514 gives 639x360 without alignment. The 639 causes issues
	// with some hardware encoders (e.g. HEVC) so in this test we verify that the alignment is set and
	// respected.

	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];

	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	cricket::FakeVideoRenderer *video_renderer = new cricket::FakeVideoRenderer();
	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(video_renderer, video_sink_wants);

	_video_source->OnOutputFormatRequest(912, 514, 30);
	_video_source->OnCapturedFrame(frame);

	XCTAssertEqual(video_renderer->num_rendered_frames(), 1);
	XCTAssertEqual(video_renderer->width(), 360);
	XCTAssertEqual(video_renderer->height(), 640);

	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameWithoutAdaptation {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 360, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(frame.width, outputFrame.width);
	XCTAssertEqual(frame.height, outputFrame.height);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(buffer.cropX, outputBuffer.cropX);
	XCTAssertEqual(buffer.cropY, outputBuffer.cropY);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameCVPixelBufferNeedsAdaptation {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 360);
	XCTAssertEqual(outputFrame.height, 640);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(outputBuffer.cropX, 0);
	XCTAssertEqual(outputBuffer.cropY, 0);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameCVPixelBufferNeedsCropping {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 360);
	XCTAssertEqual(outputFrame.height, 640);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(outputBuffer.cropX, 10);
	XCTAssertEqual(outputBuffer.cropY, 0);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFramePreAdaptedCVPixelBufferNeedsAdaptation {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 720, 1280, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
	adaptedWidth:700
	adaptedHeight:700
	cropWidth:720
	cropHeight:1280
	cropX:0
	cropY:0];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 300);
	XCTAssertEqual(outputFrame.height, 516);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(outputBuffer.cropX, 150);
	XCTAssertEqual(outputBuffer.cropY, 6);
	XCTAssertEqual(outputBuffer.cropWidth, 400);
	XCTAssertEqual(outputBuffer.cropHeight, 688);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFramePreCroppedCVPixelBufferNeedsCropping {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
	adaptedWidth:370
	adaptedHeight:640
	cropWidth:370
	cropHeight:640
	cropX:10
	cropY:0];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 360);
	XCTAssertEqual(outputFrame.height, 640);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(outputBuffer.cropX, 14);
	XCTAssertEqual(outputBuffer.cropY, 0);
	XCTAssertEqual(outputBuffer.cropWidth, 360);
	XCTAssertEqual(outputBuffer.cropHeight, 640);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameSmallerPreCroppedCVPixelBufferNeedsCropping {
	CVPixelBufferRef pixelBufferRef = NULL;
	CVPixelBufferCreate(
	NULL, 380, 640, kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange, NULL, &pixelBufferRef);

	RTCCVPixelBuffer *buffer = [[RTCCVPixelBuffer alloc] initWithPixelBuffer:pixelBufferRef
	adaptedWidth:300
	adaptedHeight:640
	cropWidth:300
	cropHeight:640
	cropX:40
	cropY:0];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 300);
	XCTAssertEqual(outputFrame.height, 536);

	RTCCVPixelBuffer *outputBuffer = outputFrame.buffer;
	XCTAssertEqual(outputBuffer.cropX, 40);
	XCTAssertEqual(outputBuffer.cropY, 52);
	XCTAssertEqual(outputBuffer.cropWidth, 300);
	XCTAssertEqual(outputBuffer.cropHeight, 536);
	XCTAssertEqual(buffer.pixelBuffer, outputBuffer.pixelBuffer);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	CVBufferRelease(pixelBufferRef);
	}

	- (void)testOnCapturedFrameI420BufferNeedsAdaptation {
	rtc::scoped_refptr<webrtc::I420Buffer> i420Buffer = CreateI420Gradient(720, 1280);
	RTCI420Buffer *buffer = [[RTCI420Buffer alloc] initWithFrameBuffer:i420Buffer];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 360);
	XCTAssertEqual(outputFrame.height, 640);

	RTCI420Buffer outputBuffer = (RTCI420Buffer )outputFrame.buffer;

	double psnr = I420PSNR([buffer nativeI420Buffer], [outputBuffer nativeI420Buffer]);
	XCTAssertEqual(psnr, webrtc::kPerfectPSNR);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	}

	- (void)testOnCapturedFrameI420BufferNeedsCropping {
	rtc::scoped_refptr<webrtc::I420Buffer> i420Buffer = CreateI420Gradient(380, 640);
	RTCI420Buffer *buffer = [[RTCI420Buffer alloc] initWithFrameBuffer:i420Buffer];
	RTCVideoFrame *frame =
	[[RTCVideoFrame alloc] initWithBuffer:buffer rotation:RTCVideoRotation_0 timeStampNs:0];

	XCTestExpectation *callbackExpectation = [self expectationWithDescription:@"videoSinkCallback"];
	ObjCCallbackVideoSink callback_video_sink(^void(RTCVideoFrame *outputFrame) {
	XCTAssertEqual(outputFrame.width, 360);
	XCTAssertEqual(outputFrame.height, 640);

	RTCI420Buffer outputBuffer = (RTCI420Buffer )outputFrame.buffer;

	double psnr = I420PSNR([buffer nativeI420Buffer], [outputBuffer nativeI420Buffer]);
	XCTAssertGreaterThanOrEqual(psnr, 40);

	[callbackExpectation fulfill];
	});

	const rtc::VideoSinkWants video_sink_wants;
	rtc::VideoSourceInterface<webrtc::VideoFrame> *video_source_interface = _video_source;
	video_source_interface->AddOrUpdateSink(&callback_video_sink, video_sink_wants);

	_video_source->OnOutputFormatRequest(640, 360, 30);
	_video_source->OnCapturedFrame(frame);

	[self waitForExpectations:@[ callbackExpectation ] timeout:10.0];
	}

	@end