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I built a test driver for encoding a series of images I have captured. I am using libx264 and based my driver off of this guy's answer:

StackOverflow link

In my case I am starting out by reading in a JPG image and converting to YUV and passing that same frame over and over in a loop to the x264 encoder.

My expectation was that since the frame is the same that the output from the encoder would be very small and constant.

Instead I find that the NAL payload is varied from a few bytes to a few KB and also varies highly depending on the frame rate I specify in the encoder parameters.

Obviously I don't understand video encoding. Why does the output size vary so much?

int main() 
{
  Image image(WIDTH, HEIGHT);
  image.FromJpeg("frame-1.jpg");

  unsigned char *data = image.GetRGB();

  x264_param_t param;

  x264_param_default_preset(&param, "fast", "zerolatency");
  param.i_threads = 1;
  param.i_width = WIDTH;
  param.i_height = HEIGHT;
  param.i_fps_num = FPS;
  param.i_fps_den = 1;

  // Intra refres:
  param.i_keyint_max = FPS;
  param.b_intra_refresh = 1;

  //Rate control:
  param.rc.i_rc_method = X264_RC_CRF;
  param.rc.f_rf_constant = FPS-5;
  param.rc.f_rf_constant_max = FPS+5;

  //For streaming:
  param.b_repeat_headers = 1;
  param.b_annexb = 1;

  x264_param_apply_profile(&param, "baseline");

  // initialize the encoder
  x264_t* encoder = x264_encoder_open(&param);
  x264_picture_t pic_in, pic_out;
  x264_picture_alloc(&pic_in, X264_CSP_I420, WIDTH, HEIGHT);
  // X264 expects YUV420P data use libswscale 
  // (from ffmpeg) to convert images to the right format
  struct SwsContext* convertCtx =
        sws_getContext(WIDTH, HEIGHT, PIX_FMT_RGB24, WIDTH, HEIGHT,
                       PIX_FMT_YUV420P, SWS_FAST_BILINEAR,
                       NULL, NULL, NULL);

  // encoding is as simple as this then, for each frame do:
  // data is a pointer to your RGB structure
  int srcstride = WIDTH*3; //RGB stride is just 3*width
  sws_scale(convertCtx, &data, &srcstride, 0, HEIGHT,
            pic_in.img.plane, pic_in.img.i_stride);
  x264_nal_t* nals;
  int i_nals;
  int frame_size =
        x264_encoder_encode(encoder, &nals, &i_nals, &pic_in, &pic_out);

  int max_loop=15;
  int this_loop=1;

  while (frame_size >= 0 && --max_loop)
  {
      cout << "------------" << this_loop++ << "-----------------\n";
      cout << "Frame size = " << frame_size << endl;
      cout << "output has " << pic_out.img.i_csp << " colorspace\n";
      cout << "output has " << pic_out.img.i_plane << " # img planes\n";

      cout << "i_nals = " << i_nals << endl;
      for (int n=0; n<i_nals; n++)
        cout << "nal[" << n << "] payload size = "
             << nals[n].i_payload << endl;



      // clean this input frame and grab another
      x264_picture_clean(&pic_in);
      x264_picture_alloc(&pic_in, X264_CSP_I420, WIDTH, HEIGHT);
      sws_scale(convertCtx, &data, &srcstride, 0, HEIGHT,
                pic_in.img.plane, pic_in.img.i_stride);


      frame_size=
        x264_encoder_encode(encoder, &nals, &i_nals, &pic_in, &pic_out);
  }

  delete [] data;
  return 0;
}

My original JPG image that I'm reading in is 320x240 and is roughly 9KB on disk. The output from running that same image in through the encoder looks like this:

x264 [warning]: ref > 1 + intra-refresh is not supported
x264 [info]: using cpu capabilities: MMX2 SSE2Fast SSSE3 FastShuffle SSE4.2 AVX
x264 [info]: profile Constrained Baseline, level 1.3 
------------1-----------------
Frame size = 17412
output has 3 colorspace
output has 2 # img planes
i_nals = 4 
nal[0] payload size = 26
nal[1] payload size = 8 
nal[2] payload size = 610 
nal[3] payload size = 16768
------------2-----------------
Frame size = 11
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 11
------------3-----------------
Frame size = 11
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 11
------------4-----------------
Frame size = 16
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 16
------------5-----------------
Frame size = 104 
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 104 
------------6-----------------
Frame size = 973 
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 973
------------7-----------------
Frame size = 4576
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 4576
------------8-----------------
Frame size = 4040
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 4040
------------9-----------------
Frame size = 3917
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 3917
------------10-----------------
Frame size = 3799
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 3799
------------11-----------------
Frame size = 2454
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 2454
------------12-----------------
Frame size = 1641
output has 3 colorspace
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 1641
------------13-----------------
Frame size = 1121
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 1121
------------14-----------------
Frame size = 247
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 247

If I set FPS to 10 instead of 30 then the output size changes dramatically:

x264 [warning]: ref > 1 + intra-refresh is not supported
x264 [info]: using cpu capabilities: MMX2 SSE2Fast SSSE3 FastShuffle SSE4.2 AVX
x264 [info]: profile Constrained Baseline, level 1.1 
------------1-----------------
Frame size = 60120
output has 3 colorspace
output has 2 # img planes
i_nals = 4 
nal[0] payload size = 25
nal[1] payload size = 9 
nal[2] payload size = 609 
nal[3] payload size = 59477
------------2-----------------
Frame size = 10
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 10
------------3-----------------
Frame size = 151 
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 151 
------------4-----------------
Frame size = 2329
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 2329
------------5-----------------
Frame size = 1466
output has 3 colorspace
output has 2 # img planes
i_nals = 1 
nal[0] payload size = 1466
------------6-----------------
Frame size = 539 
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 539
------------7-----------------
Frame size = 311
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 311
------------8-----------------
Frame size = 291
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 291
------------9-----------------
Frame size = 302
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 302
------------10-----------------
Frame size = 287
output has 3 colorspace
output has 2 # img planes
i_nals = 1
nal[0] payload size = 287
------------11-----------------
Frame size = 11937
output has 3 colorspace
output has 2 # img planes
i_nals = 4
nal[0] payload size = 25
nal[1] payload size = 9
nal[2] payload size = 9
nal[3] payload size = 11894

Can you enlighten me?

share|improve this question
    
it seems you're into Image Processing - could you assist us open this dedicated group: area51.stackexchange.com/proposals/66531/computer-vision/72084 Just vote to questions with less than 10 up votes. Thanks. – Drazick Mar 1 '15 at 17:47
up vote 2 down vote accepted

Rhe issue is mainly due "rate control" parameter. Remove CRF rate control and use constant quantizer. Constant quantizer is not a recommended mode of operation but in your case it (same image repetition) would produce similar size frames.

Remove:

param.b_intra_refresh = 1;

//Rate control:
param.rc.i_rc_method = X264_RC_CRF;
param.rc.f_rf_constant = FPS-5;
param.rc.f_rf_constant_max = FPS+5;

Then Add:

 param.rc.i_qp_constant = 18; 
 param.rc.i_qp_min = 18; 
 param.rc.i_qp_max = 18;
share|improve this answer
    
Thanks, that solved the issue of similar sized frames. For someone like me who has basically no knowledge of the codec the number of knobs and switches is overwhelming. – spartygw Jan 3 '13 at 15:41
    
By the way, for anyone coming to this later, the actual syntax is: param.rc.i_qp_constant=18; param.rc.i_qp_min=18; param.rc.i_qp_max=18; – spartygw Jan 3 '13 at 15:42
    
KevinA, ranjessh, it seems you're into Image Processing - could you assist us open this dedicated group: area51.stackexchange.com/proposals/66531/computer-vision/72084 Just vote to questions with less than 10 up votes. Thanks. – Drazick Mar 1 '15 at 17:47

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