I am trying to write video using opencv. It is important for me to do this precisely - so it has to be a lossless codec. I am working with OpenCV 2.4.1 on Ubuntu 12.04
Previously, I was using the fourcc code 0. This gave me the exact result I wanted, and I was able to recover the images perfectly.
I am not sure what happened, but as of a recent update (around Jul 20th 2012), something went wrong and I am no longer able to write files with this fourcc code. I really don't remember what it was, but it could have come from doing an update, removing some software from my software center, and some other things I did during general cleaning...
When I check an older file with mediainfo (http://www.fourcc.org/identifier/) I see the following result:
Complete name : oldsample.avi Format : AVI Format/Info : Audio Video Interleave Format profile : OpenDML File size : 1.07 GiB Duration : 41s 467ms Overall bit rate : 221 Mbps Writing application : Lavf53.5.0 Video ID : 0 Format : RGB Codec ID : 0x00000000 Codec ID/Info : Basic Windows bitmap format. 1, 4 and 8 bpp versions are palettised. 16, 24 and 32bpp contain raw RGB samples Duration : 41s 467ms Bit rate : 221 Mbps Width : 640 pixels Height : 4294966 816 pixels Display aspect ratio : 0.000 Frame rate : 30.000 fps Bit depth : 8 bits Stream size : 1.07 GiB (100%)
Now, I see that when I write using the 0 fourcc codec, the program actually defaults to the i420 codec. Here is the output from one of the files I try to write now:
Complete name : newsample.avi Format : AVI Format/Info : Audio Video Interleave File size : 73.0 MiB Duration : 5s 533ms Overall bit rate : 111 Mbps Writing application : Lavf54.6.100 Video ID : 0 Format : YUV Codec ID : I420 Codec ID/Info : 8 bit Y plane followed by 8 bit 2x2 subsampled U and V planes. Duration : 5s 533ms Bit rate : 111 Mbps Width : 640 pixels Height : 480 pixels Display aspect ratio : 4:3 Frame rate : 30.000 fps Compression mode : Lossless Bits/(Pixel*Frame) : 12.000 Stream size : 72.9 MiB (100%)
This format, and other formats I try to use (like huffyuv HFYU), do not work for me because I end up with effects like this http://imgur.com/a/0OC4y - you see the bright artifacts coming in due to what I assume is either lossy compression or chroma subsampling in the case of HFYU which is supposed to be lossless. What you are looking at is the red channel from one of my videos. The perceptual effect is negligible when you look at all 3 channels simultaneously but it is essential that I reconstruct the images exactly.
Furthermore, while I am able to play my old files in media players like vlc, I suddenly find them to be completely incompatible with opencv. When I try to open the older files with a videocapture, the open step works fine, but trying to do a read operation results in a segfault. Furthermore, When I try to write with either:
Opencv defaults to I420 for some reason.
Next, I tried using some alternate codecs. 'DIB ' seems like something that should work for me, and on the opencv website (http://opencv.willowgarage.com/wiki/VideoCodecs) it is listed as a 'recommended' codec. However, trying to use this results in the following message:
OpenCV-2.4.1/modules/highgui/src/cap_gstreamer.cpp:483: error: (-210) Gstreamer Opencv backend doesn't support this codec acutally. in function CvVideoWriter_GStreamer::open Aborted (core dumped)
I checked the opencv source for this codec, and stumbled across the following:
cd OpenCV-2.4.1/modules grep -i -r "CV_FOURCC" ./* ... ./highgui/src/cap_qt.cpp: /*if( fourcc == CV_FOURCC( 'D', 'I', 'B', ' ' )) ./highgui/include/opencv2/highgui/highgui_c.h:#define CV_FOURCC_DEFAULT CV_FOURCC('I', 'Y', 'U', 'V') /* Use default codec for specified filename (Linux only) */
I tried installing qt4 and reconfiguring with the WITH_QT flag, but that did not change anything. I also tried uncommenting that part of the code and reinstalling opencv, but that also did not work.
My ultimate goal is for any way to efficiently store and retrieve a video stream with 16 bits for every pixel (like 32float would work fine, and then it wouldn't need to be perfect). Right now I am unpacking the 16 bits into the red and green channels, which is why I need it to be perfect - since an error of 1 in the red channel is multiplied by 256 in the final result. I am not having success with any of the fourcc codes available to me.