Issue with writing YUV image frame in C/C++

Question

I am trying to convert an RGB frame, which is taken from OpenGL glReadPixels(), to a YUV frame, and write the YUV frame to a file (.yuv). Later on I would like to write it to a named_pipe as an input for FFMPEG, but as for now I just want to write it to a file and view the image result using a YUV Image Viewer. So just disregard the "writing to pipe" for now.

After running my code, I encountered the following errors:

1. The number of frames shown in the YUV Image Viewer software is always 1/3 of the number of frames I declared in my program. When I declare fps as 10, I could only view 3 frames. When I declared fps as 30, I could only view 10 frames. However when I view the file in Text Editor, I could see that I have the correct amount of word "FRAME" printed in the file. This is the example output that I got: http://www.bobdanani.net/image.yuv

2. I could not see the correct image, but just some distorted green, blue, yellow, and black pixels.

I read about YUV format from http://wiki.multimedia.cx/index.php?title=YUV4MPEG2 and http://www.fourcc.org/fccyvrgb.php#mikes_answer and http://kylecordes.com/2007/pipe-ffmpeg

Here is what I have tried so far. I know that this conversion approach is quite in-efficient, and I can optimize it later. Now I just want to get this naive approach to work and have the image shown properly.

int frameCounter = 1; 
int windowWidth = 0, windowHeight = 0;
unsigned char *yuvBuffer;
unsigned long bufferLength = 0;
unsigned long frameLength = 0;
int fps = 10;

void display(void) {

    /* clear the color buffers */
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

    /* DRAW some OPENGL animation, i.e. cube, sphere, etc 
     .......
     .......
    */

    glutSwapBuffers();

    if ((frameCounter % fps) == 1){
        bufferLength = 0;
        windowWidth = glutGet(GLUT_WINDOW_WIDTH);
        windowHeight = glutGet (GLUT_WINDOW_HEIGHT);
        frameLength = (long) (windowWidth * windowHeight * 1.5 * fps) + 100; // YUV 420 length (width*height*1.5) + header length
        yuvBuffer = new unsigned char[frameLength];
        write_yuv_frame_header();
    }

    write_yuv_frame();

    frameCounter = (frameCounter % fps) + 1;

    if ( (frameCounter % fps) == 1){
        snprintf(filename, 100, "out/image-%d.yuv", seq_num);
        ofstream out(filename, ios::out | ios::binary); 
        if(!out) { 
            cout << "Cannot open file.\n"; 
        } 

        out.write (reinterpret_cast<char*> (yuvBuffer), bufferLength);
        out.close();
        bufferLength = 0;
        delete[] yuvBuffer;
    }
}


void write_yuv_frame_header (){
    char *yuvHeader = new char[100];
    sprintf (yuvHeader, "YUV4MPEG2 W%d H%d F%d:1 Ip A0:0 C420mpeg2 XYSCSS=420MPEG2\n", windowWidth, windowHeight, fps);
    memcpy ((char*)yuvBuffer + bufferLength, yuvHeader, strlen(yuvHeader));
    bufferLength += strlen (yuvHeader);
    delete (yuvHeader);
}

void write_yuv_frame() {
    int width = glutGet(GLUT_WINDOW_WIDTH);
    int height = glutGet(GLUT_WINDOW_HEIGHT);
    memcpy ((void*) (yuvBuffer+bufferLength), (void*) "FRAME\n", 6);
    bufferLength +=6;

    long length = windowWidth * windowHeight;
    long yuv420FrameLength = (float)length * 1.5;
    long lengthRGB = length * 3;
    unsigned char *rgb      = (unsigned char *) malloc(lengthRGB * sizeof(unsigned char));
    unsigned char *yuvdest  = (unsigned char *) malloc(yuv420FrameLength * sizeof(unsigned char));
    glReadPixels(0, 0, windowWidth, windowHeight, GL_RGB, GL_UNSIGNED_BYTE, rgb);

    int r, g, b, y, u, v, ypos, upos, vpos;

    for (int j = 0; j <  windowHeight; ++j){
        for (int i = 0; i < windowWidth; ++i){
            r = (int)rgb[(j * windowWidth + i) * 3 + 0];
            g = (int)rgb[(j * windowWidth + i) * 3 + 1];
            b = (int)rgb[(j * windowWidth + i) * 3 + 2];

            y = (int)(r *  0.257 + g *  0.504 + b *  0.098) + 16;
            u = (int)(r *  0.439 + g * -0.368 + b *  -0.071) + 128;
            v = (int)(r *  -0.148 + g * -0.291 + b * 0.439 + 128);

            ypos = j * windowWidth + i;
            upos = (j/2) * (windowWidth/2) + i/2 + length;
            vpos = (j/2) * (windowWidth/2) + i/2 + length + length/4;

            yuvdest[ypos] = y;
            yuvdest[upos] = u;
            yuvdest[vpos] = v;            
        } 
    }

    memcpy ((void*) (yuvBuffer + bufferLength), (void*)yuvdest, yuv420FrameLength);
    bufferLength += yuv420FrameLength;
    free (yuvdest);   
    free (rgb);
}

This is just the very basic approach, and I can optimize the conversion algorithm later. Can anyone tell me what is wrong in my approach? My guess is that one of the issues is with the outstream.write() call, because I converted the unsigned char* data to char* data that it may lose data precision. But if I don't cast it to char* I will get a compile error. However this doesn't explain why the output frames are corrupted (only account to 1/3 of the number of total frames).

Answer 1

It looks to me like you have too many bytes per frame for 4:2:0 data. ACcording to the spec you linked to, the number of bytes for a 200x200 pixel 4:2:0 frame should be 200 * 200 * 3 / 2 = 60,000. But you have ~90,000 bytes. Looking at your code, I don't see where you are convert from 4:4:4 to 4:2:0. So you have 2 choices - either set the header to 4:4:4, or convert the YCbCr data to 4:2:0 before writing it out.

Answer 2

I compiled your code and surely there is a problem when computing upos and vpos values. For me this worked (RGB to YUV NV12):

vpos = length + (windowWidth * (j/2)) + (i/2)*2;
upos = vpos + 1;