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// Copyright (c) 2011 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 MEDIA_VIDEO_VIDEO_DECODE_ENGINE_H_
#define MEDIA_VIDEO_VIDEO_DECODE_ENGINE_H_
#include "base/callback.h"
#include "base/memory/scoped_ptr.h"
#include "media/base/media_export.h"
#include "media/base/video_decoder_config.h"
#include "media/base/video_frame.h"
namespace media {
class Buffer;
struct PipelineStatistics;
class MEDIA_EXPORT VideoDecodeEngine {
public:
struct MEDIA_EXPORT EventHandler {
public:
virtual ~EventHandler() {}
virtual void OnInitializeComplete(bool success) = 0;
virtual void OnUninitializeComplete() = 0;
virtual void OnFlushComplete() = 0;
virtual void OnSeekComplete() = 0;
virtual void OnError() = 0;
// TODO(hclam): The following two methods shouldn't belong to this class
// because they are not video decode events but used to send decoded
// video frames and request video packets.
//
// Signal the user of VideoDecodeEngine to provide a video sample.
//
// In the normal running state, this method is called by the video decode
// engine to request video samples used for decoding.
//
// In the case when the video decode engine is flushing, this method is
// called to return video samples acquired by the video decode engine.
//
// |buffer| can be NULL in which case this method call is purely for
// requesting new video samples. If |buffer| is non-NULL, the buffer is
// returned to the owner at the same time as a request for video sample
// is made.
virtual void ProduceVideoSample(scoped_refptr<Buffer> buffer) = 0;
// Signal the user of VideoDecodeEngine that a video frame is ready to
// be consumed or a video frame is returned to the owner.
//
// In the normal running state, this method is called to signal that
// |frame| contains a decoded video frame and is ready to be used.
//
// In the case of flushing and video frame is provided externally, this
// method is called to return the video frame object to the owner.
// The content of the video frame may be invalid.
virtual void ConsumeVideoFrame(scoped_refptr<VideoFrame> frame,
const PipelineStatistics& statistics) = 0;
};
virtual ~VideoDecodeEngine() {}
// Initialize the engine with specified configuration.
//
// Engine should call EventHandler::OnInitializeDone() whether the
// initialization operation finished successfully or not.
virtual void Initialize(EventHandler* event_handler,
const VideoDecoderConfig& config) = 0;
// Uninitialize the engine. Engine should destroy all resources and call
// EventHandler::OnUninitializeComplete().
virtual void Uninitialize() = 0;
// Flush the engine. Engine should return all the buffers to owner ( which
// could be itself. ) then call EventHandler::OnFlushDone().
virtual void Flush() = 0;
// This method is used as a signal for the decode engine to preroll and
// issue read requests after Flush() is made.
virtual void Seek() = 0;
// Provide a video sample to be used by the video decode engine.
//
// This method is called in response to ProvideVideoSample() called to the
// user.
virtual void ConsumeVideoSample(scoped_refptr<Buffer> buffer) = 0;
// Signal the video decode engine to produce a video frame or return the
// video frame object to the video decode engine.
//
// In the normal running state, this method is called by the user of the
// video decode engine to request a decoded video frame. If |frame| is
// NULL the video decode engine should allocate a video frame object.
// Otherwise video decode engine should try to use the video frame object
// provided as output.
//
// In flushing state and video frames are allocated internally this method
// is called by the user to return the video frame object.
//
// In response to this method call, ConsumeVideoFrame() is called with a
// video frame object containing decoded video content.
virtual void ProduceVideoFrame(scoped_refptr<VideoFrame> frame) = 0;
};
} // namespace media
#endif // MEDIA_VIDEO_VIDEO_DECODE_ENGINE_H_
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