# How to find out resolution and count of frames in YUV 4:2:0 file?

How to find out resolution and count of frames in YUV 4:2:0 file if i know how many pixel(luma samples) in the image?

-

YUV 4:2:0 planar looks like this:

``````----------------------
|     Y      | Cb|Cr |
----------------------
``````

where:

``````Y = width x height pixels (bytes)
Cb = Y / 4 pixels (bytes)
Cr = Y / 4 pixels (bytes)

Total num pixels (bytes) = width * height * 3 / 2
``````

This is how pixels are placed in 4:2:0 sub-sampling:

As you can see, each chroma value is shared between 4 luma-pixels.

Basically, the only thing you can do is to see which frame-sizes divides the total file-size evenly.

As an example, consider the classic forman-clip, which you can download from http://trace.eas.asu.edu/yuv/foreman/foreman_cif.7z

The size of that clip is `45619200` bytes. How do one get the dimensions and number of frames from that? Try different resolutions!

is it SDTV?

``````In [7]: 45619200 / float(720*576*3/2)
Out[7]: 73.33333333333333
``````

nope!

is it QCIF?

``````In [8]: 45619200 / float(176*144*3/2)
Out[8]: 1200.0
``````

might be...

is it CIF?

``````In [9]: 45619200 / float(352*288*3/2)
Out[9]: 300.0
``````

might be...

Only way to find out is trying to display it.

Let's try QCIF

that doesn't look right. Lets try CIF

Bingo!

-
Based on your note: Total num pixels (bytes) = width * height * 3 / 2 you can calculate widthHeight = frameSize * 2 / 3; Then you could check the common sizes for a match. Or go for the common aspect ratio of 4:3. width = widthHeight / 3; height = widthHeight / 4; check = width * height; ASSERT(check == widthHeight); There are, of course, other aspect ratios to check. 16:9 for high def for example. – Jesse Chisholm Sep 10 '14 at 21:32
You are absolutely right. My idea with this answer was just to provide some basic insight to get the OP started. You can spend a lifetime investigating all aspects of YCbCr-data :-) – Fredrik Pihl Sep 11 '14 at 8:28
re: lifetime - Yep. This OP is just about 4:2:0, it all changes if you're talking 4:2:2 or any of the other variations of YCbCr. And converting to other color formats (RGB) even changes if you are talking co-sited. Your answer is an excellent primer for YCbCr 4:2:0. Those who have need for the gory details of the rest are reading thick tomes. ;-D – Jesse Chisholm Dec 16 '14 at 16:54