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321 lines
11 KiB
Text
321 lines
11 KiB
Text
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The elementfactory for a given element will contain some information about the capabilities of element's
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pads or potential pads. An indication will be provided as to whether the pad always exists, always
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exists once data is present, or *might* exist once data is present (the latter case is for things like
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the MPEG system parsers, where an audio stream might or might not exist).
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First, an entirely normal example:
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----------------------------------
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(-----------) (----------) (-------------)
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! disksrc ! ! mpg123 ! ! audiosink !
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! src sink src sink !
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! ! ! ! ! !
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(-----------) (----------) (-------------)
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We start with only the disksrc. The typefind filter is attached to the disksrc, and via typefind magic
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the properties of the disksrc are found to be:
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disksrc->src->caps = {
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"audio/mp3",
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"layer", GST_CAPS_INT (3),
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"bitrate", GST_CAPS_INT (128),
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NULL
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};
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A look through the plugin registry shows that we have an element called mpg123 that has the following
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caps:
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static GstCapsFactory mpg123_sink_caps = {
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"audio/mp3",
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"layer", GST_CAPS_INT_RANGE (1, 3),
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"bitrate", GST_CAPS_INT_RANGE (8, 320),
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NULL
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};
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The caps of the disksrc fit within those parameters, so we instantiate an mpg123 and attach it to the
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disksrc. The connection succeeds negotiation and as a result the mpg123 specifies its output caps as:
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mpg123->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S16),
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"depth", GST_CAPS_INT (16),
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"rate", GST_CAPS_INT (44100),
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"channels", GST_CAPS_INT (2),
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NULL
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};
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Again from the plugin registry we find an element audiosink that has appropriate caps:
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static GstCapsFactory audiosink_src_caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S16,....),
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"depth", GST_CAPS_INT (16),
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"rate", GST_CAPS_INT_RANGE (4000, 96000),
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"channels", GST_CAPS_INT_RANGE (1, 2),
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NULL
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};
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A copy of the audiosink is instantiated and attached, negotiation goes smoothly, and we're done. No
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dataflow has occured, no failure found, etc. An ideal autoplug.
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Now, a slightly more convoluted example:
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----------------------------------------
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Start with the same graph:
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(-----------) (----------) (-------------)
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! disksrc ! ! mpg123 ! ! audiosink !
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! src sink src sink !
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! ! ! ! ! !
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(-----------) (----------) (-------------)
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Run typefind on the disksrc's output, get the same output caps:
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disksrc->src->caps = {
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"audio/mp3",
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"layer", GST_CAPS_INT (3),
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"bitrate", GST_CAPS_INT (128),
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NULL
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};
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Find and attach mpg123, get the following output caps this time:
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mpg123->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S16),
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"depth", GST_CAPS_INT (16),
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"rate", GST_CAPS_INT (44100),
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"channels", GST_CAPS_INT (1),
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NULL
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};
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Note that this time we have a mono output. A look into the audiosink caps shows that we have a match.
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So we instantiate a copy. Oops. We now find that the caps for the input pad on our audiosink have
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changed:
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mpg123->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S16,...),
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"depth", GST_CAPS_INT (16),
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"rate", GST_CAPS_INT (11025, 48000),
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"channels", GST_CAPS_INT (2),
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NULL
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};
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Whoops. It seems that the sound card we've got in this machine (FIXME how on earth to deal with
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multiple sound cards???) doesn't support mono output *at all*. This is a problem. We now find that we
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hae no options as far as directly matching the mpg123 to the audiosink.
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A look through our (ficticious) plugin registry shows at least one element that at least has audio/raw
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on both input and ouput (since both mpg123 and audiosink have open pads with this mime type). A closerlook shows that its caps are:
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static GstCapsFactory mono2stereo_sink_caps = {
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"audio/raw",
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"channels", GST_CAPS_INT (1),
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NULL
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};
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static GstCapsFactory mono2stereo_src_caps = {
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"audio/raw",
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"channels", GST_CAPS_INT (2),
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NULL
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};
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Wow, that's a perfect match. Instantiate, attach to mpg123, no problems. Attach to audiosink, no
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problems. Done. When we start up the pipeline, we should get absolutely no callbacks from pads saying
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"help me, I've fallen and..., er, I don't like this buffer!".
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A really messy case:
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--------------------
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Start with a disksrc, typefind it, get the following:
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disksrc->src->caps = {
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"audio/mp3",
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"layer", GST_CAPS_INT (3),
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"bitrate", GST_CAPS_INT (128),
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NULL
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};
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Look through the plugin registry, find mpg123. Instantiate it, attach it. It spits out audio
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parameters as usual:
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mpg123->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S16),
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"depth", GST_CAPS_INT (16),
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"rate", GST_CAPS_INT (44100),
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"channels", GST_CAPS_INT (2),
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NULL
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};
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Now we instantiate an audiosink plugin. This time, we're sunk:
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mpg123->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S8,U8),
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"depth", GST_CAPS_INT (8),
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"rate", GST_CAPS_INT_RANGE (11025, 22050),
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"channels", GST_CAPS_INT (1),
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NULL
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};
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ACK! It's one of those Disney Sound Source things. We've got a problem here that isn't obviously
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solvable. However, there happens to be another mp3 decoder sitting around. It's got the same
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properties as mpg123, but a lower merit value. Let's instantiate one and attach it. We get the
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following output pad caps:
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mp3decoder->src->caps = {
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"audio/raw",
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"format", GST_CAPS_BITFIELD (S8,S16),
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"depth", GST_CAPS_INT_RANGE (8,16),
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"rate", GST_CAPS_INT_RANGE (8000, 44100),
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"channels", GST_CAPS_INT (1,2),
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NULL
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};
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Well, that matches the audiosink. We try attaching it, and during negotiation the mp3decoder finds
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sufficient common ground with the castrated audiosink and sets its output pad to match the best of the
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options: S8 at 22050 KHz.
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Next to impossible scenario: DVD
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--------------------------------
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Start with a dvdsrc. It's output pad caps are:
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static GstCapsFactory dvdsrc_src_caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_INT (2),
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"systemstream", GST_CAPS_BOOLEAN (TRUE),
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NULL
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};
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The type would be classified as incomplete via some mechanism. This might cause the autoplug code to go
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and run the typefind function. It would flesh the type out to the following:
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dvdsrc->src->caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_INT (2),
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"systemstream", GST_CAPS_BOOLEAN (TRUE),
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"videostreams", GST_CAPS_INT (1),
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"audiostreams", GST_CAPS_INT (3),
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"bitrate", GST_CAPS_INT (40960),
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NULL,
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};
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Wow, that helped a lot. A check through the plugin registry shows that the mpeg2parse will match those
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properties:
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static GstCapsFactory mpeg2parse_sink_caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_INT (2),
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"systemstream", GST_CAPS_BOOLEAN (TRUE),
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NULL
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};
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(In retrospect, it may not be necessary to run typefind if there's match this good right away. Only run
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typefind when there's no exact match.)
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Since there are no output pads yet, we have to actually push data through the pipeline. The moment a
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buffer or two get to the mpeg2parse element, it promptly goes and creates an output pad, probably of the
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following caps:
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mpeg2parse_video_src_caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_RANGE (1,2),
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"systemstream", GST_CAPS_BOOLEAN (FALSE),
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NULL
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};
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This seems to be a task for typefind again. But since data is flowing, we have to be careful with the
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buffers. (This is the case in any typefind maneuver, but moreso when one really can't rewind the
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source without consequences) The autoplug system attaches a special pseudo-element to mpeg2parse's new
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output pad, and attaches the typefind element to the end of that. The pseudo-element takes the buffer,
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stores it, and passes a copy off to the attached element, in this case typefind. This repeats until
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typefind has determined the type, at which point the typefind is removed, and the newly found element is
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attached instead.
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The pseudo-element is 'rewound' and the stored buffers flow out and into the newly attached element.
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When the cache of buffers is gone, a signal fires and the autoplug system removes the pseudo-element and
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reconnects the pipeline.
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In this case, the typefind function will find the following:
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mpeg2parse_video_src_caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_INT (2),
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"systemstream", GST_CAPS_BOOLEAN (FALSE),
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"bitrate", GST_CAPS_INT (36864),
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"width", GST_CAPS_INT (720),
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"height", GST_CAPS_INT (480),
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"framerate", GST_CAPS_FLOAT (29.97003),
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"chromaformat", GST_CAPS_INT (1), [GST_CAPS_STRING ("4:2:0") ?]
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NULL
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};
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Back to the plugin registry, we find our only choice is mpeg2dec, which has input caps of:
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static GstCapsFactory mpeg2dec_sink_caps = {
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"video/mpeg",
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"mpegversion", GST_CAPS_RANGE (1,2),
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"systemstream", GST_CAPS_BOOLEAN (FALSE),
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NULL
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};
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Once again it just so happens that we really didn't need to do the typefind at all. But it can't hurt
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unless the typefind is slow and painful, which we can guess won't be the case since the choices are
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rather limited by the fact that there's already a MIME type attached, meaning we can drastically reduce
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the number of typefind functions we try (down to one, actually).
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However, since we *have* run the typefind, upon attachment of the input pad of mpeg2dec, the output pad
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looks like the following:
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mpeg2dec_src_caps = {
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"video/raw",
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"fourcc", GST_CAPS_LIST (
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GST_CAPS_FOURCC ("YV12"), [identical...]
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GST_CAPS_FOURCC ("IYUV"),
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GST_CAPS_FOURCC ("I420"),
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),
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"width", GST_CAPS_INT (720),
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"height", GST_CAPS_INT (480),
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"framerate", GST_CAPS_FLOAT (29.97003),
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NULL
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};
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Currently only videosink supports the output of video/raw. It claims a list of FOURCCs but nothing
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more:
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static GstCapsFactory videosink_sink_caps = {
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"video/raw",
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"fourcc", GST_CAP_LIST ( GST_CAPS_FOURCC ("YV12"),
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GST_CAPS_FOURCC ("IYUV"), GST_CAPS_FOURCC ("I420"),
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GST_CAPS_FOURCC ("YUY2"), GST_CAPS_FOURCC ("UYVY"),
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[ etc... ],
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),
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NULL
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};
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When instantiated, we potentially have the same problem as with the audiosink: we don't necessarily know
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which hardware output to use. Somehow we have to solve the problem of setting some element arguments
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before we can get useful information out of them as to the properties. In this case anyway, if the
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videosink were to find only one output possibility, it would trim the list of FOURCCs it can deal with
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to what the hardware can handle, as well as add further properties:
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videosink_sink_caps = {
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"video/raw",
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"fourcc", GST_CAPS_LIST (GST_CAPS_FOURCC ("YV12"),
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GST_CAPS_FOURCC ("YUY2"),
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),
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"width", GST_CAPS_INT_RANGE (4,1020),
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"height", GST_CAPS_INT_RANGE (4,1020),
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NULL
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};
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We can now connect the mpeg2dec output to the videosink, and we now have displaying video.
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. . . .
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