chromecast/media/cma/backend/video_decoder_for_mixer.h - chromium/src - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_
 #define CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_

 #include <memory>

 #include "chromecast/public/media/media_pipeline_backend.h"
 #include "chromecast/public/media/media_pipeline_device_params.h"

 namespace chromecast {
 namespace media {

 // This class represents a video decoder that exposes additional functionality
 // that allows a caller to control the rate and state of the video playback
 // with enough granularity to be able to sync it to the audio.
 //
 // The default implementation of this is in VideoDecoderNull. On no-video
 // platforms, that implementation is used.
 //
 // On video platforms that need to use the mixer, you may override this class
 // and link in an implementation of VideoDecoderForMixer::Create.
 class VideoDecoderForMixer : public MediaPipelineBackend::VideoDecoder {
  public:
   class Observer {
    public:
     // Notifies the observer that the video playback is ready to start. After
     // this is called, SetPts may be reliably called to start playback at the
     // desired time.
     virtual void VideoReadyToPlay() = 0;

    protected:
     virtual ~Observer() {}
   };

   static std::unique_ptr<VideoDecoderForMixer> Create(
       const MediaPipelineDeviceParams& params);

   // On some platforms, graphics needs to be initialized before this component
   // will function appropriately in tests. Add the initialization here if
   // necessary.
   static void InitializeGraphicsForTesting();

   ~VideoDecoderForMixer() override {}

   // Initializes the VideoDecoderForMixer. Called after allocation and before
   // Start is called. Gives the implementation a chance to initialize any
   // resources.
   virtual bool Initialize() = 0;

   // Sets the observer to be notified when the video is ready to play.
   virtual void SetObserver(Observer* observer) = 0;

   // When called, playback is expected to start from |start_pts|.
   //
   // start_pts: the pts to start playing at.
   // need_avsync: deprecated. Don't use or implement.
   // TODO(almasrymina): remove deprecated.
   virtual bool Start(int64_t start_pts, bool need_avsync) = 0;

   // Stop playback.
   virtual void Stop() = 0;

   // Pause playback. The video decoder must retain its playback rate after
   // resume.
   virtual bool Pause() = 0;

   // Resume playback. The video decoder must resume playback at the same
   // playback rate prior to pausing.
   virtual bool Resume() = 0;

   // Returns the current video PTS. This will typically be the pts of the last
   // video frame displayed.
   virtual bool GetCurrentPts(int64_t* timestamp, int64_t* pts) const = 0;

   // Set the playback rate. This is used to sync the audio to the video. This
   // call will change the rate of play of video in the following manner:
   //
   // rate = 1.0 -> 1 second of video pts is played for each 1 second of
   // wallclock time.
   // rate = 1.5 -> 1.5 seconds of video pts is played for each 1 second of
   // wallclock time.
   // etc.
   virtual bool SetPlaybackRate(float rate) = 0;

   // Sets the current pts to the provided value. If |pts| is greater than the
   // current pts, all video frames in between will be dropped. If |pts| is less
   // than the current pts, all video frames in this pts range will be repeated.
   // Implementation is encouraged to smooth out this transition, such that
   // minimal jitter in the video is shown, but that is not necessary.
   virtual bool SetPts(int64_t timestamp, int64_t pts) = 0;

   // Returns number of frames dropped since the last call to Start(). This is
   // used to estimate video playback smoothness.
   // This is different from VideoDecoder::Statistics::dropped_frames. That
   // value is the number of *decoded* dropped frames. The value returned here
   // must be the total number of dropped frames, whether the frames have been
   // decoded or not.
   virtual int64_t GetDroppedFrames() = 0;

   // Returns number of frames repeated since the last call to Start(). This is
   // used to estimate video playback smoothness. Note that repeated frames could
   // be due to changes in the rate of playback, setting the PTS, or simply due
   // to frame rate conversion. This number should be the sum of all of these
   // factors.
   //
   // For example, if the current OutputRefreshRate is 60hz, and the current
   // content frame rate is 24fps, it is expected to repeat 36fps.
   virtual int64_t GetRepeatedFrames() = 0;

   // Returns the output refresh rate on this platform, in mHz (millihertz). On
   // display devices, this will be the display refresh rate. On HDMI devices,
   // this will be the refresh rate of the HDMI connection.
   virtual int64_t GetOutputRefreshRate() = 0;

   // Returns the current content refresh rate in mHz (millihertz).
   virtual int64_t GetCurrentContentRefreshRate() = 0;
 };

 }  // namespace media
 }  // namespace chromecast

 #endif  // CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_
	#define CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_

	#include <memory>

	#include "chromecast/public/media/media_pipeline_backend.h"
	#include "chromecast/public/media/media_pipeline_device_params.h"

	namespace chromecast {
	namespace media {

	// This class represents a video decoder that exposes additional functionality
	// that allows a caller to control the rate and state of the video playback
	// with enough granularity to be able to sync it to the audio.
	//
	// The default implementation of this is in VideoDecoderNull. On no-video
	// platforms, that implementation is used.
	//
	// On video platforms that need to use the mixer, you may override this class
	// and link in an implementation of VideoDecoderForMixer::Create.
	class VideoDecoderForMixer : public MediaPipelineBackend::VideoDecoder {
	public:
	class Observer {
	public:
	// Notifies the observer that the video playback is ready to start. After
	// this is called, SetPts may be reliably called to start playback at the
	// desired time.
	virtual void VideoReadyToPlay() = 0;

	protected:
	virtual ~Observer() {}
	};

	static std::unique_ptr<VideoDecoderForMixer> Create(
	const MediaPipelineDeviceParams& params);

	// On some platforms, graphics needs to be initialized before this component
	// will function appropriately in tests. Add the initialization here if
	// necessary.
	static void InitializeGraphicsForTesting();

	~VideoDecoderForMixer() override {}

	// Initializes the VideoDecoderForMixer. Called after allocation and before
	// Start is called. Gives the implementation a chance to initialize any
	// resources.
	virtual bool Initialize() = 0;

	// Sets the observer to be notified when the video is ready to play.
	virtual void SetObserver(Observer* observer) = 0;

	// When called, playback is expected to start from \|start_pts\|.
	//
	// start_pts: the pts to start playing at.
	// need_avsync: deprecated. Don't use or implement.
	// TODO(almasrymina): remove deprecated.
	virtual bool Start(int64_t start_pts, bool need_avsync) = 0;

	// Stop playback.
	virtual void Stop() = 0;

	// Pause playback. The video decoder must retain its playback rate after
	// resume.
	virtual bool Pause() = 0;

	// Resume playback. The video decoder must resume playback at the same
	// playback rate prior to pausing.
	virtual bool Resume() = 0;

	// Returns the current video PTS. This will typically be the pts of the last
	// video frame displayed.
	virtual bool GetCurrentPts(int64_t* timestamp, int64_t* pts) const = 0;

	// Set the playback rate. This is used to sync the audio to the video. This
	// call will change the rate of play of video in the following manner:
	//
	// rate = 1.0 -> 1 second of video pts is played for each 1 second of
	// wallclock time.
	// rate = 1.5 -> 1.5 seconds of video pts is played for each 1 second of
	// wallclock time.
	// etc.
	virtual bool SetPlaybackRate(float rate) = 0;

	// Sets the current pts to the provided value. If \|pts\| is greater than the
	// current pts, all video frames in between will be dropped. If \|pts\| is less
	// than the current pts, all video frames in this pts range will be repeated.
	// Implementation is encouraged to smooth out this transition, such that
	// minimal jitter in the video is shown, but that is not necessary.
	virtual bool SetPts(int64_t timestamp, int64_t pts) = 0;

	// Returns number of frames dropped since the last call to Start(). This is
	// used to estimate video playback smoothness.
	// This is different from VideoDecoder::Statistics::dropped_frames. That
	// value is the number of decoded dropped frames. The value returned here
	// must be the total number of dropped frames, whether the frames have been
	// decoded or not.
	virtual int64_t GetDroppedFrames() = 0;

	// Returns number of frames repeated since the last call to Start(). This is
	// used to estimate video playback smoothness. Note that repeated frames could
	// be due to changes in the rate of playback, setting the PTS, or simply due
	// to frame rate conversion. This number should be the sum of all of these
	// factors.
	//
	// For example, if the current OutputRefreshRate is 60hz, and the current
	// content frame rate is 24fps, it is expected to repeat 36fps.
	virtual int64_t GetRepeatedFrames() = 0;

	// Returns the output refresh rate on this platform, in mHz (millihertz). On
	// display devices, this will be the display refresh rate. On HDMI devices,
	// this will be the refresh rate of the HDMI connection.
	virtual int64_t GetOutputRefreshRate() = 0;

	// Returns the current content refresh rate in mHz (millihertz).
	virtual int64_t GetCurrentContentRefreshRate() = 0;
	};

	} // namespace media
	} // namespace chromecast

	#endif // CHROMECAST_MEDIA_CMA_BACKEND_VIDEO_DECODER_FOR_MIXER_H_