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so I have VideoEncoder.h with such code

/*
  FFmpeg simple Encoder
 */


#ifndef __VIDEO_ENCODER_H__
#define __VIDEO_ENCODER_H__

#include "ffmpegInclude.h"
#include <Windows.h>
#include <string>

class VideoEncoder
{
  private:

  // output file name
  std::string     outputFilename;
  // output format.
  AVOutputFormat  *pOutFormat;
  // format context
  AVFormatContext *pFormatContext;
  // video stream context
  AVStream * pVideoStream;
  // audio streams context
  AVStream * pAudioStream;
  // convert context context
  struct SwsContext *pImgConvertCtx;
  // encode buffer and size
  uint8_t * pVideoEncodeBuffer;
  int nSizeVideoEncodeBuffer;

  // audio buffer and size
  uint8_t * pAudioEncodeBuffer;
  int nSizeAudioEncodeBuffer;


  // count of sample
  int audioInputSampleSize;
  // current picture
  AVFrame *pCurrentPicture;

  // audio buffer
  char* audioBuffer;
  int   nAudioBufferSize;
  int   nAudioBufferSizeCurrent;

  public:

  VideoEncoder() 
  {
    pOutFormat = NULL;
    pFormatContext = NULL;
    pVideoStream = NULL;
    pImgConvertCtx = NULL;
    pCurrentPicture = NULL;
    pVideoEncodeBuffer = NULL;
    nSizeVideoEncodeBuffer = 0;
    pAudioEncodeBuffer = NULL;
    nSizeAudioEncodeBuffer = 0;
    nAudioBufferSize = 1024 * 1024 * 4;
    audioBuffer      = new char[nAudioBufferSize];
    nAudioBufferSizeCurrent = 0;
  }

  virtual ~VideoEncoder() 
  {
    Finish();
  }

  // init output file
  bool InitFile(std::string& inputFile, std::string& container);
  // Add video and audio data
  bool AddFrame(AVFrame* frame, const char* soundBuffer, int soundBufferSize);
  // end of output
  bool Finish();

  private: 

  // Add video stream
  AVStream *AddVideoStream(AVFormatContext *pContext, CodecID codec_id);
  // Open Video Stream
  bool OpenVideo(AVFormatContext *oc, AVStream *pStream);
  // Allocate memory
  AVFrame * CreateFFmpegPicture(int pix_fmt, int nWidth, int nHeight);
  // Close video stream
  void CloseVideo(AVFormatContext *pContext, AVStream *pStream);
  // Add audio stream
  AVStream * AddAudioStream(AVFormatContext *pContext, CodecID codec_id);
  // Open audio stream
  bool OpenAudio(AVFormatContext *pContext, AVStream *pStream);
  // close audio stream
  void CloseAudio(AVFormatContext *pContext, AVStream *pStream);
  // Add video frame
  bool AddVideoFrame(AVFrame * frame, AVCodecContext *pVideoCodec);
  // Add audio samples
  bool AddAudioSample(AVFormatContext *pFormatContext, 
    AVStream *pStream, const char* soundBuffer, int soundBufferSize);
  // Free resourses.
  void Free();
  bool NeedConvert();
};

#endif // __VIDEO_ENCODER_H__

so I see InitFile, AddFrame and Finish here.

While in in VideoEncoder.cpp I see this

#include <stdio.h>
#include <stdlib.h>
#include "ffmpegInclude.h"
#include <math.h>
#include "VideoEncoder.h"
#include "Settings.h"

#define MAX_AUDIO_PACKET_SIZE (128 * 1024)

bool VideoEncoder::InitFile(std::string& inputFile, std::string& container)
{
  bool res = false;

  const char * filename = inputFile.c_str();
  outputFilename = inputFile;

  // Initialize libavcodec
  av_register_all();

  if (container == std::string("auto"))
  {
    // Create format
    pOutFormat = guess_format(NULL, filename, NULL);
  }
  else
  {
    // use contanier
    pOutFormat = guess_format(container.c_str(), NULL, NULL);
  }

  if (pOutFormat) 
  {
    // allocate context
    pFormatContext = avformat_alloc_context();
    if (pFormatContext) 
    {    
      pFormatContext->oformat = pOutFormat;
      memcpy(pFormatContext->filename, filename, min(strlen(filename), 
        sizeof(pFormatContext->filename)));

      // Add video and audio stream
      pVideoStream   = AddVideoStream(pFormatContext, pOutFormat->video_codec);
      pAudioStream   = AddAudioStream(pFormatContext, pOutFormat->audio_codec);

      // Set the output parameters (must be done even if no
      // parameters).
      if (av_set_parameters(pFormatContext, NULL) >=0) 
      {
        dump_format(pFormatContext, 0, filename, 1);

        // Open Video and Audio stream
        res = false;
        if (pVideoStream)
        {
          res = OpenVideo(pFormatContext, pVideoStream);
        }

        res = OpenAudio(pFormatContext, pAudioStream);

        if (res && !(pOutFormat->flags & AVFMT_NOFILE)) 
        {
          if (url_fopen(&pFormatContext->pb, filename, URL_WRONLY) < 0) 
          {
            res = false;
            printf("Cannot open file\n");
          }
        }

        if (res)
        {
          av_write_header(pFormatContext);
          res = true;
        }
      }    
    }   
  }

  if (!res)
  {
    Free();
    printf("Cannot init file\n");
  }

  return res;
}


bool VideoEncoder::AddFrame(AVFrame* frame, const char* soundBuffer, int soundBufferSize)
{
  bool res = true;
  int nOutputSize = 0;
  AVCodecContext *pVideoCodec = NULL;

  if (pVideoStream && frame && frame->data[0])
  {
    pVideoCodec = pVideoStream->codec;

    if (NeedConvert()) 
    {
      // RGB to YUV420P.
      if (!pImgConvertCtx) 
      {
        pImgConvertCtx = sws_getContext(pVideoCodec->width, pVideoCodec->height,
          PIX_FMT_RGB24,
          pVideoCodec->width, pVideoCodec->height,
          pVideoCodec->pix_fmt,
          SWS_BICUBLIN, NULL, NULL, NULL);
      }
    }

    // Allocate picture.
    pCurrentPicture = CreateFFmpegPicture(pVideoCodec->pix_fmt, pVideoCodec->width, 
      pVideoCodec->height);

    if (NeedConvert() && pImgConvertCtx) 
    {
      // Convert RGB to YUV.
      sws_scale(pImgConvertCtx, frame->data, frame->linesize,
        0, pVideoCodec->height, pCurrentPicture->data, pCurrentPicture->linesize);      
    }

    res = AddVideoFrame(pCurrentPicture, pVideoStream->codec);

    // Free temp frame
    av_free(pCurrentPicture->data[0]);
    av_free(pCurrentPicture);
    pCurrentPicture = NULL;
  }

  // Add sound
  if (soundBuffer && soundBufferSize > 0)
  {
    res = AddAudioSample(pFormatContext, pAudioStream, soundBuffer, soundBufferSize);
  }

  return res;
}


bool VideoEncoder::Finish()
{
  bool res = true;

  if (pFormatContext)
  {
    av_write_trailer(pFormatContext);
    Free();
  }

  if (audioBuffer)
  {
    delete[] audioBuffer;
    audioBuffer = NULL;
  }

  return res;
}


void VideoEncoder::Free()
{
  bool res = true;

  if (pFormatContext)
  {
    // close video stream
    if (pVideoStream)
    {
      CloseVideo(pFormatContext, pVideoStream);
    }

    // close audio stream.
    if (pAudioStream)
    {
      CloseAudio(pFormatContext, pAudioStream);
    }

    // Free the streams.
    for(size_t i = 0; i < pFormatContext->nb_streams; i++) 
    {
      av_freep(&pFormatContext->streams[i]->codec);
      av_freep(&pFormatContext->streams[i]);
    }

    if (!(pFormatContext->flags & AVFMT_NOFILE) && pFormatContext->pb) 
    {
      url_fclose(pFormatContext->pb);
    }

    // Free the stream.
    av_free(pFormatContext);
    pFormatContext = NULL;
  }
}

AVFrame * VideoEncoder::CreateFFmpegPicture(int pix_fmt, int nWidth, int nHeight)
{
  AVFrame *picture     = NULL;
  uint8_t *picture_buf = NULL;
  int size;

  picture = avcodec_alloc_frame();
  if ( !picture)
  {
    printf("Cannot create frame\n");
    return NULL;
  }

  size = avpicture_get_size(pix_fmt, nWidth, nHeight);

  picture_buf = (uint8_t *) av_malloc(size);

  if (!picture_buf) 
  {
    av_free(picture);
    printf("Cannot allocate buffer\n");
    return NULL;
  }

  avpicture_fill((AVPicture *)picture, picture_buf,
    pix_fmt, nWidth, nHeight);

  return picture;
}


bool VideoEncoder::OpenVideo(AVFormatContext *oc, AVStream *pStream)
{
  AVCodec *pCodec;
  AVCodecContext *pContext;

  pContext = pStream->codec;

  // Find the video encoder.
  pCodec = avcodec_find_encoder(pContext->codec_id);
  if (!pCodec) 
  {
    printf("Cannot found video codec\n");
    return false;
  }

  // Open the codec.
  if (avcodec_open(pContext, pCodec) < 0) 
  {
    printf("Cannot open video codec\n");
    return false;
  }

  pVideoEncodeBuffer = NULL;      
  if (!(pFormatContext->oformat->flags & AVFMT_RAWPICTURE)) 
  {
    /* allocate output buffer */
    nSizeVideoEncodeBuffer = 10000000;
    pVideoEncodeBuffer = (uint8_t *)av_malloc(nSizeVideoEncodeBuffer);
  }

  return true;
}


void VideoEncoder::CloseVideo(AVFormatContext *pContext, AVStream *pStream)
{
  avcodec_close(pStream->codec);
  if (pCurrentPicture)
  {
    if (pCurrentPicture->data)
    {
      av_free(pCurrentPicture->data[0]);
      pCurrentPicture->data[0] = NULL;
    }
    av_free(pCurrentPicture);
    pCurrentPicture = NULL;
  }

  if (pVideoEncodeBuffer)
  {
    av_free(pVideoEncodeBuffer);
    pVideoEncodeBuffer = NULL;
  }
  nSizeVideoEncodeBuffer = 0;
}


bool VideoEncoder::NeedConvert()
{
  bool res = false;
  if (pVideoStream && pVideoStream->codec)
  {
    res = (pVideoStream->codec->pix_fmt != PIX_FMT_RGB24);
  }
  return res;
}


AVStream *VideoEncoder::AddVideoStream(AVFormatContext *pContext, CodecID codec_id)
{
  AVCodecContext *pCodecCxt = NULL;
  AVStream *st    = NULL;

  st = av_new_stream(pContext, 0);
  if (!st) 
  {
    printf("Cannot add new vidoe stream\n");
    return NULL;
  }

  pCodecCxt = st->codec;
  pCodecCxt->codec_id = (CodecID)codec_id;
  pCodecCxt->codec_type = CODEC_TYPE_VIDEO;
  pCodecCxt->frame_number = 0;
  // Put sample parameters.
  pCodecCxt->bit_rate = 2000000;
  // Resolution must be a multiple of two.
  pCodecCxt->width  = W_VIDEO;
  pCodecCxt->height = H_VIDEO;
  /* time base: this is the fundamental unit of time (in seconds) in terms
     of which frame timestamps are represented. for fixed-fps content,
     timebase should be 1/framerate and timestamp increments should be
     identically 1. */
  pCodecCxt->time_base.den = 25;
  pCodecCxt->time_base.num = 1;
  pCodecCxt->gop_size = 12; // emit one intra frame every twelve frames at most

  pCodecCxt->pix_fmt = PIX_FMT_YUV420P;
  if (pCodecCxt->codec_id == CODEC_ID_MPEG2VIDEO) 
  {
      // Just for testing, we also add B frames 
      pCodecCxt->max_b_frames = 2;
  }
  if (pCodecCxt->codec_id == CODEC_ID_MPEG1VIDEO)
  {
      /* Needed to avoid using macroblocks in which some coeffs overflow.
         This does not happen with normal video, it just happens here as
         the motion of the chroma plane does not match the luma plane. */
      pCodecCxt->mb_decision = 2;
  }

  // Some formats want stream headers to be separate.
  if(pContext->oformat->flags & AVFMT_GLOBALHEADER)
  {
      pCodecCxt->flags |= CODEC_FLAG_GLOBAL_HEADER;
  }

  return st;
}


AVStream * VideoEncoder::AddAudioStream(AVFormatContext *pContext, CodecID codec_id)
{
  AVCodecContext *pCodecCxt = NULL;
  AVStream *pStream = NULL;

  // Try create stream.
  pStream = av_new_stream(pContext, 1);
  if (!pStream) 
  {
    printf("Cannot add new audio stream\n");
    return NULL;
  }

  // Codec.
  pCodecCxt = pStream->codec;
  pCodecCxt->codec_id = codec_id;
  pCodecCxt->codec_type = CODEC_TYPE_AUDIO;
  // Set format
  pCodecCxt->bit_rate    = 128000;
  pCodecCxt->sample_rate = 44100;
  pCodecCxt->channels    = 1;
  pCodecCxt->sample_fmt  = SAMPLE_FMT_S16;

  nSizeAudioEncodeBuffer = 4 * MAX_AUDIO_PACKET_SIZE;
  if (pAudioEncodeBuffer == NULL)
  {      
    pAudioEncodeBuffer = (uint8_t * )av_malloc(nSizeAudioEncodeBuffer);
  }

  // Some formats want stream headers to be separate.
  if(pContext->oformat->flags & AVFMT_GLOBALHEADER)
  {
    pCodecCxt->flags |= CODEC_FLAG_GLOBAL_HEADER;
  }

  return pStream;
}


bool VideoEncoder::OpenAudio(AVFormatContext *pContext, AVStream *pStream)
{
  AVCodecContext *pCodecCxt = NULL;
  AVCodec *pCodec = NULL;
  pCodecCxt = pStream->codec;

  // Find the audio encoder.
  pCodec = avcodec_find_encoder(pCodecCxt->codec_id);
  if (!pCodec) 
  {
    printf("Cannot open audio codec\n");
    return false;
  }

  // Open it.
  if (avcodec_open(pCodecCxt, pCodec) < 0) 
  {
    printf("Cannot open audio codec\n");
    return false;
  }

  if (pCodecCxt->frame_size <= 1) 
  {
    // Ugly hack for PCM codecs (will be removed ASAP with new PCM
    // support to compute the input frame size in samples. 
    audioInputSampleSize = nSizeAudioEncodeBuffer / pCodecCxt->channels;
    switch (pStream->codec->codec_id) 
    {
      case CODEC_ID_PCM_S16LE:
      case CODEC_ID_PCM_S16BE:
      case CODEC_ID_PCM_U16LE:
      case CODEC_ID_PCM_U16BE:
        audioInputSampleSize >>= 1;
        break;
      default:
        break;
    }
    pCodecCxt->frame_size = audioInputSampleSize;
  } 
  else 
  {
    audioInputSampleSize = pCodecCxt->frame_size;
  }

  return true;
}


void VideoEncoder::CloseAudio(AVFormatContext *pContext, AVStream *pStream)
{
  avcodec_close(pStream->codec);
  if (pAudioEncodeBuffer)
  {
    av_free(pAudioEncodeBuffer);
    pAudioEncodeBuffer = NULL;
  }
  nSizeAudioEncodeBuffer = 0;
}


bool VideoEncoder::AddVideoFrame(AVFrame * pOutputFrame, AVCodecContext *pVideoCodec)
{
  bool res = false;

  if (pFormatContext->oformat->flags & AVFMT_RAWPICTURE) 
  {
    // Raw video case. The API will change slightly in the near
    // futur for that.
    AVPacket pkt;
    av_init_packet(&pkt);

    pkt.flags |= PKT_FLAG_KEY;
    pkt.stream_index = pVideoStream->index;
    pkt.data= (uint8_t *) pOutputFrame;
    pkt.size= sizeof(AVPicture);

    res = av_interleaved_write_frame(pFormatContext, &pkt);
    res = true;
  } 
  else 
  {
    // Encode
    int nOutputSize = avcodec_encode_video(pVideoCodec, pVideoEncodeBuffer, 
      nSizeVideoEncodeBuffer, pOutputFrame);
    if (nOutputSize > 0) 
    {
      AVPacket pkt;
      av_init_packet(&pkt);

      if (pVideoCodec->coded_frame->pts != AV_NOPTS_VALUE)
      {
        pkt.pts = av_rescale_q(pVideoCodec->coded_frame->pts, 
          pVideoCodec->time_base, pVideoStream->time_base);
      }

      if(pVideoCodec->coded_frame->key_frame)
      {
        pkt.flags |= PKT_FLAG_KEY;
      }
      pkt.stream_index = pVideoStream->index;
      pkt.data         = pVideoEncodeBuffer;
      pkt.size         = nOutputSize;

      // Write frame
      res = (av_interleaved_write_frame(pFormatContext, &pkt) == 0);
    }
    else 
    {
      res = false;
    }
  }

  return res;
}


bool VideoEncoder::AddAudioSample(AVFormatContext *pFormatContext, AVStream *pStream, 
                                        const char* soundBuffer, int soundBufferSize)
{
  AVCodecContext *pCodecCxt;    
  bool res = true;  

  pCodecCxt       = pStream->codec;
  memcpy(audioBuffer + nAudioBufferSizeCurrent, soundBuffer, soundBufferSize);
  nAudioBufferSizeCurrent += soundBufferSize;

  BYTE * pSoundBuffer = (BYTE *)audioBuffer;
  int nCurrentSize    = nAudioBufferSizeCurrent;

  // Size of packet on bytes.
  // FORMAT s16
  DWORD packSizeInSize = 2 * audioInputSampleSize;

  while(nCurrentSize >= packSizeInSize)
  {
    AVPacket pkt;
    av_init_packet(&pkt);

    pkt.size = avcodec_encode_audio(pCodecCxt, pAudioEncodeBuffer, 
      nSizeAudioEncodeBuffer, (const short *)pSoundBuffer);

    if (pCodecCxt->coded_frame && pCodecCxt->coded_frame->pts != AV_NOPTS_VALUE)
    {
      pkt.pts = av_rescale_q(pCodecCxt->coded_frame->pts, pCodecCxt->time_base, pStream->time_base);
    }

    pkt.flags |= PKT_FLAG_KEY;
    pkt.stream_index = pStream->index;
    pkt.data = pAudioEncodeBuffer;

    // Write the compressed frame in the media file.
    if (av_interleaved_write_frame(pFormatContext, &pkt) != 0) 
    {
      res = false;
      break;
    }

    nCurrentSize -= packSizeInSize;  
    pSoundBuffer += packSizeInSize;      
  }

  // save excess
  memcpy(audioBuffer, audioBuffer + nAudioBufferSizeCurrent - nCurrentSize, nCurrentSize);
  nAudioBufferSizeCurrent = nCurrentSize; 

  return res;
}

(code samples from example presented in this article in russian)

what does all this VideoEncoder:: is fore and about? why to declare tham in H file and not create all the class inside cpp file?

And why further in code only #include "VideoEncoder.h" is used for declaring VE class and why functions just declared in VE.h work perfectly even with out refrence to VE.cpp file?

share|improve this question

closed as not a real question by Loki Astari, AnT, 0A0D, bmargulies, George Stocker Aug 29 '10 at 20:52

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

8  
Your question reflects a lack of understanding of basic, fundamental C++. That's not necessarily a problem, but you really should really pick up a book on C++ if you plan to work with code like this. – Tyler McHenry Aug 27 '10 at 21:13
3  
You have so many basic C++ questions it seems you would be best off getting a learning text on it than asking here. – Greg Domjan Aug 27 '10 at 21:15
    
Recommend you pick up a good book on C++ based on your question history – user195488 Aug 29 '10 at 1:58
up vote 9 down vote accepted

The fundamental reason why the .cpp file has so many functions preceded with VideoEncoder:: is that the .cpp file contains the implementation of what the .h file declares as the interface. It is common practice in c++ to declare the class's functionality in the header file and then implement it in a separate .cpp file.

One benefit is that whenever you decide to change the implementation details of the class (leaving the interface untouched), you will have to only re-compile the .cpp file. Everything else needs not be recompiled. Developers also try to utilize this technique to the max trying to declare as little as possible in the .h file. Read more about the pImpl pattern (after reading a good c++ intro). The basic idea is that the less info is in the .h file, the less time will be required to re-compile the files that include this header file. So you only put into the .h file functions that are absolutely essential for the class's clients to understand what the class is all about.

As for why the functions declared in the .h file work perfectly without ever referencing the .cpp file -- it's all about the way c++ programs are compiled. People are right saying that you need to pick a book on c++ and study it carefully. Anyway, the concept of a c++ program is that the program consists of compilation units -- individual .cpp files that can be compiled independently. You only need to #include the functionality that your individual .cpp file is using. The compiler is satisfied with that on this stage. However, there is another stage -- linkage. On this stage the linker checks whether there are actual implementations available. It does so by searching the .obj files (generated by the compiler) and evaluating whether there is an entry corresponding to a certain class function. If the entry is not available, you will see a linker error (note that the compiler will not report any errors because the function was declared somewhere, but not implemented).

share|improve this answer

what does all this VideoEncoder:: is fore and about?

This says what class these methods are a part of.

why to declare tham in H file and not create all the class inside cpp file?

That's the way C++ does it. The header file defines the class, and the cpp defines the implementation of the methods.

And why further in code only #include "VideoEncoder.h" is used for declaring VE class and why functions just declared in VE.h work perfectly even with out refrence to VE.cpp file?

The linker takes care of "linking" the code in the cpp to other code that includes the header file.

share|improve this answer
    
"That's the way C++ does it". That's not entirely true. You could, for example, declare a class and define all of its member functions right there in the header file. However, the more common approach is to separate interface from implementation; C++ programmers commonly declare the class' interface in a header file and place the definitions of the member functions (the class' implementation) in one or more CPP files. – Daniel Trebbien Aug 27 '10 at 21:43

You should read Getting Started: The Basic Elements of C++. It is extremely well-written and it will give you a nice overview of the C++ language without teaching programming. You can then read Separate Compilation and Namespaces in C++ to get answers to your questions.

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