# format conversion

In OpenGL ES 2.0 after reading the framebuffer and converting it to RGBA frames. I want to convert it to YUV format.

I tried using this table. Which ignore alpha component. When i do that and see the YUV frame generated its distorted.

``````yuvdata[i * j *1]= (0.257)*memory[i*j*1] + (0.504)*memory[i*j*2]+(0.098)*memory[i*j*3]+16;
yuvdata[i * j *3]= (0.439)*memory[i*j*1] - (0.368)*memory[i*j*2] -(0.071)*memory[i*j*3]+128;
yuvdata[i * j *2]= -(0.148)*memory[i*j*1] - (0.291)*memory[i*j*2] +(0.439)*memory[i*j*3]+128;
``````

`

Normalization did not help memory store rgba and yuv is free space to store yuv

i used rgb to yuv conversion ignoring alpha component

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post the offending code –  Kip9000 Jun 27 '12 at 6:58
@Kip9000 i added the code. –  user1465380 Jun 27 '12 at 7:09
There are YUV420p, YUV411, YUV422 and YUV444. The first three must be converted to YUV444 before applying the matrix. What is the exact YUV format you want to use ? –  Viktor Latypov Jun 27 '12 at 7:20
@ViktorLatypov: How do i convert YUV420p YUV411 and YUv422 to YUV 444? I am just taking RGB and converting using the above formula. which must give a consistant YUV format. Please correct me if i am wrong –  user1465380 Jun 27 '12 at 8:16

"YUV" is not a complete format.

From this wikipedia article you can get the conversions of YUV411,YUV422,YUV420p to YUV444. Combine the inverse of these transforms with your RGB conversion and you'll get the result.

The thing you are missing: one RGB triple may produce a number (not one) of YUV components this way.

1. YUV444 3 bytes per pixel
2. YUV422 4 bytes per 2 pixels
3. YUV411 6 bytes per 4 pixels
4. YUV420p 6 bytes per 4 pixels, reordered

First, YUV422

Y'UV422 to RGB888 conversion

Input: Read 4 bytes of Y'UV (u, y1, v, y2 )

Output: Writes 6 bytes of RGB (R, G, B, R, G, B)

Then YUV4111

Y'UV411 to RGB888 conversion

Input: Read 6 bytes of Y'UV

Output: Writes 12 bytes of RGB

``````// Extract YUV components
u  = yuv[0];
y1 = yuv[1];
y2 = yuv[2];
v  = yuv[3];
y3 = yuv[4];
y4 = yuv[5];
rgb1 = Y'UV444toRGB888(y1, u, v);
rgb2 = Y'UV444toRGB888(y2, u, v);
rgb3 = Y'UV444toRGB888(y3, u, v);
rgb4 = Y'UV444toRGB888(y4, u, v);
``````

Similar with 420p, but the YUV values are distributed over the rectangle there - see the Wikipedia's diagram and image for that.

Basically, you should fetch 4 RGB pixels, convert each one of them to YUV (using your hopefully valid 444 converter) and then store the YUV[4] array in a tricky way shown at the wikipedia.

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In my case i took RGB components and converted to YUV444. Now i am converting to YUV 420. This answer helped me a lot :) –  user1465380 Jun 28 '12 at 1:54

Are you sure you are accessing memory array correctly right? Shouldn't it be something like this:

``````R=memory[(i*width + j)*4+0]
G=memory[(i*width + j)*4+1]
B=memory[(i*width + j)*4+3]
``````

or swap 0 with 3, if you have BGRA.

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@Martin I changed the memory which i access to to +0 +1 +3 but the result is same.. –  user1465380 Jun 27 '12 at 8:20
It is not possible that the result is the same! –  Mārtiņš Možeiko Jun 27 '12 at 19:30
@Martins Thank you. I was wrong. :) after doing it my problem was with the datatype. I resolved it. Thank you once again –  user1465380 Jun 28 '12 at 1:52