#ifndef ENGINE_CLIENT_VIDEO_H
#define ENGINE_CLIENT_VIDEO_H
#include
extern "C" {
#include
#include
};
#include
#include
#include
#include
#include
#include
#define ALEN 2048
class CGraphics_Threaded;
class ISound;
class IStorage;
extern LOCK g_WriteLock;
// a wrapper around a single output AVStream
struct OutputStream
{
AVStream *pSt = nullptr;
AVCodecContext *pEnc = nullptr;
/* pts of the next frame that will be generated */
int64_t NextPts = 0;
int64_t m_SamplesCount = 0;
int64_t m_SamplesFrameCount = 0;
std::vector m_vpFrames;
std::vector m_vpTmpFrames;
std::vector m_vpSwsCtxs;
std::vector m_vpSwrCtxs;
};
class CVideo : public IVideo
{
public:
CVideo(CGraphics_Threaded *pGraphics, ISound *pSound, IStorage *pStorage, int Width, int Height, const char *pName);
~CVideo();
void Start() override REQUIRES(!g_WriteLock);
void Stop() override;
void Pause(bool Pause) override;
bool IsRecording() override { return m_Recording; }
void NextVideoFrame() override;
void NextVideoFrameThread() override;
void NextAudioFrame(ISoundMixFunc Mix) override;
void NextAudioFrameTimeline(ISoundMixFunc Mix) override;
static IVideo *Current() { return IVideo::ms_pCurrentVideo; }
static void Init() { av_log_set_level(AV_LOG_DEBUG); }
private:
void RunVideoThread(size_t ParentThreadIndex, size_t ThreadIndex) REQUIRES(!g_WriteLock);
void FillVideoFrame(size_t ThreadIndex) REQUIRES(!g_WriteLock);
void ReadRGBFromGL(size_t ThreadIndex);
void RunAudioThread(size_t ParentThreadIndex, size_t ThreadIndex) REQUIRES(!g_WriteLock);
void FillAudioFrame(size_t ThreadIndex);
bool OpenVideo();
bool OpenAudio();
AVFrame *AllocPicture(enum AVPixelFormat PixFmt, int Width, int Height);
AVFrame *AllocAudioFrame(enum AVSampleFormat SampleFmt, uint64_t ChannelLayout, int SampleRate, int NbSamples);
void WriteFrame(OutputStream *pStream, size_t ThreadIndex) REQUIRES(g_WriteLock);
void FinishFrames(OutputStream *pStream);
void CloseStream(OutputStream *pStream);
bool AddStream(OutputStream *pStream, AVFormatContext *pOC, const AVCodec **ppCodec, enum AVCodecID CodecId);
CGraphics_Threaded *m_pGraphics;
IStorage *m_pStorage;
ISound *m_pSound;
int m_Width;
int m_Height;
char m_aName[256];
//FILE *m_dbgfile;
uint64_t m_VSeq = 0;
uint64_t m_ASeq = 0;
uint64_t m_Vframe;
int m_FPS;
bool m_Started;
bool m_Recording;
size_t m_VideoThreads = 2;
size_t m_CurVideoThreadIndex = 0;
size_t m_AudioThreads = 2;
size_t m_CurAudioThreadIndex = 0;
struct SVideoRecorderThread
{
std::thread m_Thread;
std::mutex m_Mutex;
std::condition_variable m_Cond;
bool m_Started = false;
bool m_Finished = false;
bool m_HasVideoFrame = false;
std::mutex m_VideoFillMutex;
std::condition_variable m_VideoFillCond;
uint64_t m_VideoFrameToFill = 0;
};
std::vector> m_vVideoThreads;
struct SAudioRecorderThread
{
std::thread m_Thread;
std::mutex m_Mutex;
std::condition_variable m_Cond;
bool m_Started = false;
bool m_Finished = false;
bool m_HasAudioFrame = false;
std::mutex m_AudioFillMutex;
std::condition_variable m_AudioFillCond;
uint64_t m_AudioFrameToFill = 0;
int64_t m_SampleCountStart = 0;
};
std::vector> m_vAudioThreads;
std::atomic m_ProcessingVideoFrame;
std::atomic m_ProcessingAudioFrame;
bool m_HasAudio;
struct SVideoSoundBuffer
{
int16_t m_aBuffer[ALEN * 2];
};
std::vector m_vBuffer;
std::vector> m_vPixelHelper;
OutputStream m_VideoStream;
OutputStream m_AudioStream;
const AVCodec *m_pVideoCodec;
const AVCodec *m_pAudioCodec;
AVDictionary *m_pOptDict;
AVFormatContext *m_pFormatContext;
const AVOutputFormat *m_pFormat;
};
#endif