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I am referring to this source code . The code snippets provided here are from lines (114-138) in the code . This is using the ffmpeg library . Can anyone explain why is the following code required in the program ?

// Determine required buffer size and allocate buffer
numBytes=avpicture_get_size(PIX_FMT_RGB24, pCodecCtx->width,
              pCodecCtx->height);
buffer=(uint8_t *)av_malloc(numBytes*sizeof(uint8_t)); 

In a sense I understand that the following function is associating the destination frame to the buffer . But what is the necessity ?

avpicture_fill((AVPicture *)pFrameRGB, buffer, PIX_FMT_RGB24, pCodecCtx->width, pCodecCtx->height);  

PS : I tried removing the buffer and compiling the program . It got compiled . But it is showing the following run time error .

[swscaler @ 0xa06d0a0] bad dst image pointers
Segmentation fault (core dumped)

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up vote 19 down vote accepted

I think that what puzzles you is that there seem to be two allocations for AVFrame.

The first, done with avcodec_alloc_frame(), allocates the space for a generic frame and its metadata. At this point the memory required to hold the frame proper is still unknown.

You then populate that frame from another source, and it is then that you specify how much memory you need by passing width, height and color depth:

numBytes=avpicture_get_size(PIX_FMT_RGB24, pCodecCtx->width, pCodecCtx->height);

At this point the frame and its content are two separate objects (an AVFrame and its buffer). You put them together with this code, which is not actually a conversion at all:

avpicture_fill((AVPicture *)pFrameRGB, buffer, PIX_FMT_RGB24,
pCodecCtx->width, pCodecCtx->height);

What the code above does is to "tell" pFrameRGB: " you are a RGB-24 frame, this wide, this tall, and the memory you need is in 'buffer' ".

Then and only then you can do whatever you want with pFrameRGB. Otherwise, you try to paint on a frame without the canvas, and the paint splashes down -- you get a core dump.

Once you have the frame (AVFrame) and the canvas (the buffer), you can use it:

// Read frames and save first five frames to disk
i=0;
while(av_read_frame(pFormatCtx, &packet)>=0) {
    // Is this a packet from the video stream?
    if(packet.stream_index==videoStream) {
      // Decode video frame
      avcodec_decode_video2(pCodecCtx, pFrame, &frameFinished,
&packet);

The above code extracts a video frame and decodes it into pFrame (which is native format). We could save pFrame to disk at this stage. We would not need buffer, and we could then not use pFrameRGB.

Instead we convert the frame to RGB-24 using sws_scale().

To convert a frame into another format, we copy the source to a different destination. This is both because the destination frame could be bigger than what can be accommodated by the source frame, and because some conversion algorithms need to operate on larger areas of the untransformed source, so it would be awkward to transmogrify the source in-place. Also, the source frame is handled by the library and might conceivably not be safe to write to.

Update (comments)

What does the data[] of pFrame/pFrameRGB point to: initially, nothing. They are NULL, and that is why using a noninitialized AVframe results in a core dump. You initialize them (and linesize[] etc.) using avpicture_fill (that fits in an empty buffer, plus image format and size information) or one of the decode functions (which do the same).

Why does pFrame not require memory allocation: good question. The answer is in the used function's prototype and layout, where the picture parameter is described thus:

The AVFrame in which the decoded video frame will be stored. Use avcodec_alloc_frame to get an AVFrame, the codec will allocate memory for the actual bitmap. with default get/release_buffer(), the decoder frees/reuses the bitmap as it sees fit. with overridden get/release_buffer() (needs CODEC_CAP_DR1) the user decides into what buffer the decoder decodes and the decoder tells the user once it does not need the data anymore, the user app can at this point free/reuse/keep the memory as it sees fit.

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I am getting confused :D .. This quite famous tutorial says that we are converting frames from native format to RGB . – jsp99 Jan 3 '13 at 12:43
    
Yes, but that's another, further, operation. I'm updating the answer, hope to be clearer... – lserni Jan 3 '13 at 13:08
    
Why dont we need a 'canvas' for pFrame ? The AVFrame of pFrame has data[] and linesize[] arrays . What are they pointing to , then ? – jsp99 Jan 3 '13 at 13:26
    
The codec takes care of that (see updates). – lserni Jan 3 '13 at 17:12
    
@Iserni ... Your explanation was very clear . Thanks a lot :) – jsp99 Jan 4 '13 at 3:06

ffmpeg store the frame's pixel data in specific order within framebuffer. the storage depends on picture format (YUV, RGB,).

avpicture_fill() => this function takes the raw buffer and set various pointers of AVPicture structure.

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These terms I am referring to are from the source code : The AVFrame pointed to by 'pFrame' has data[] and linesize[] arrays . But then we didn't allocate any buffer for the pFrame before decoding the 'packet' and thus placing the frame received in the AVFrame pointed to by pFrame . What do these arrays point to ? – jsp99 Jan 3 '13 at 12:48

ffmpeg or similar libraries will not do an inplace buffer conversion. First thing it is about not loosing the original data and speed of working with different buffers. Secondly, if you do a lot of conversions, you can allocate the needed buffer beforehand.

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Can you explain it in layman's terms ! I didn't understand that well . Also if possible , please commpare it with 'SOMETHING' which has implicit buffers :) Thanks . – jsp99 Jan 3 '13 at 12:29

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