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doc: fix element section documentations
Element sections were not rendered anymore after the hotdoc port, fixing this revealed a few incorrect links.
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13 changed files with 29 additions and 29 deletions
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@ -48,7 +48,7 @@
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* This element is meant for easy no-hassle video snapshotting. It is not
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* suitable for video playback or video display at high framerates. Use
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* ximagesink, xvimagesink or some other suitable video sink in connection
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* with the #GstXOverlay interface instead if you want to do video playback.
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* with the #GstVideoOverlay interface instead if you want to do video playback.
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*
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* ## Message details
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*
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@ -60,7 +60,7 @@
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*
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* * `pixbuf`: the #GdkPixbuf object
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* * `pixel-aspect-ratio`: the pixel aspect ratio (PAR) of the input image
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* (this field contains a #GstFraction); the
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* (this field contains a value of type #GST_TYPE_FRACTION); the
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* PAR is usually 1:1 for images, but is often something non-1:1 in the case
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* of video input. In this case the image may be distorted and you may need
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* to rescale it accordingly before saving it to file or displaying it. This
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@ -31,7 +31,7 @@
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* If the server is not an Icecast server, it will behave as if the
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* #GstSoupHTTPSrc:iradio-mode property were not set. If it is, souphttpsrc will
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* output data with a media type of application/x-icy, in which case you will
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* need to use the #ICYDemux element as follow-up element to extract the Icecast
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* need to use the #GstICYDemux element as follow-up element to extract the Icecast
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* metadata and to determine the underlying media type.
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*
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* ## Example launch line
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@ -30,10 +30,10 @@
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* </ulink>. It's the successor of On2 VP3, which was the base of the
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* Theora video codec.
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*
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* To control the quality of the encoding, the #GstVP8Enc::target-bitrate,
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* #GstVP8Enc::min-quantizer, #GstVP8Enc::max-quantizer or #GstVP8Enc::cq-level
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* To control the quality of the encoding, the #GstVP8Enc:target-bitrate,
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* #GstVP8Enc:min-quantizer, #GstVP8Enc:max-quantizer or #GstVP8Enc:cq-level
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* properties can be used. Which one is used depends on the mode selected by
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* the #GstVP8Enc::end-usage property.
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* the #GstVP8Enc:end-usage property.
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* See <ulink url="http://www.webmproject.org/docs/encoder-parameters/">Encoder Parameters</ulink>
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* for explanation, examples for useful encoding parameters and more details
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* on the encoding parameters.
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* </ulink>. It's the successor of On2 VP3, which was the base of the
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* Theora video codec.
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*
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* To control the quality of the encoding, the #GstVP9Enc::target-bitrate,
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* #GstVP9Enc::min-quantizer, #GstVP9Enc::max-quantizer or #GstVP9Enc::cq-level
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* To control the quality of the encoding, the #GstVP9Enc:target-bitrate,
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* #GstVP9Enc:min-quantizer, #GstVP9Enc:max-quantizer or #GstVP9Enc:cq-level
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* properties can be used. Which one is used depends on the mode selected by
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* the #GstVP9Enc::end-usage property.
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* the #GstVP9Enc:end-usage property.
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* See <ulink url="http://www.webmproject.org/docs/encoder-parameters/">Encoder Parameters</ulink>
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* for explanation, examples for useful encoding parameters and more details
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* on the encoding parameters.
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@ -66,20 +66,20 @@
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* The fragmented file features defined (only) in ISO Base Media are used by
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* ISMV files making up (a.o.) Smooth Streaming (ismlmux).
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*
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* A few properties (#GstMp4Mux:movie-timescale, #GstMp4Mux:trak-timescale)
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* A few properties (#GstMP4Mux:movie-timescale, #GstMP4Mux:trak-timescale)
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* allow adjusting some technical parameters, which might be useful in (rare)
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* cases to resolve compatibility issues in some situations.
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*
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* Some other properties influence the result more fundamentally.
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* A typical mov/mp4 file's metadata (aka moov) is located at the end of the
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* file, somewhat contrary to this usually being called "the header".
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* However, a #GstMp4Mux:faststart file will (with some effort) arrange this to
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* However, a #GstMP4Mux:faststart file will (with some effort) arrange this to
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* be located near start of the file, which then allows it e.g. to be played
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* while downloading. Alternatively, rather than having one chunk of metadata at
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* start (or end), there can be some metadata at start and most of the other
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* data can be spread out into fragments of #GstMp4Mux:fragment-duration.
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* data can be spread out into fragments of #GstMP4Mux:fragment-duration.
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* If such fragmented layout is intended for streaming purposes, then
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* #GstMp4Mux:streamable allows foregoing to add index metadata (at the end of
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* #GstMP4Mux:streamable allows foregoing to add index metadata (at the end of
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* file).
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*
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* ## Example pipelines
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* is interrupted uncleanly by a crash. Robust muxing mode requires a seekable
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* output, such as filesink, because it needs to rewrite the start of the file.
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*
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* To enable robust muxing mode, set the #GstQTMux::reserved-moov-update-period
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* and #GstQTMux::reserved-max-duration property. Also present is the
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* #GstQTMux::reserved-bytes-per-sec property, which can be increased if
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* To enable robust muxing mode, set the #GstQTMux:reserved-moov-update-period
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* and #GstQTMux:reserved-max-duration property. Also present is the
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* #GstQTMux:reserved-bytes-per-sec property, which can be increased if
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* for some reason the default is not large enough and the initial reserved
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* space for headers is too small. Applications can monitor the
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* #GstQTMux::reserved-duration-remaining property to see how close to full
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* #GstQTMux:reserved-duration-remaining property to see how close to full
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* the reserved space is becoming.
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*
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* Applications that wish to be able to use/edit a file while it is being
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* completely valid header from the start for all tracks (i.e. it appears as
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* though the file is "reserved-max-duration" long with all samples
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* present). This mode can be enabled by setting the
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* #GstQTMux::reserved-moov-update-period and #GstQTMux::reserved-prefill
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* #GstQTMux:reserved-moov-update-period and #GstQTMux:reserved-prefill
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* properties. Note that this mode is only possible with input streams that have
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* a fixed sample size (such as raw audio and Prores Video) and that don't
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* have reordered samples.
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@ -29,7 +29,7 @@
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* after the first picture. We also need a videorate element to set timestamps
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* on all buffers after the first one in accordance with the framerate.
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*
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* File names are created by replacing "\%d" with the index using printf().
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* File names are created by replacing "\%d" with the index using `printf()`.
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*
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* ## Example launch line
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* |[
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@ -25,8 +25,8 @@
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* @title: rtprtxqueue
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*
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* rtprtxqueue maintains a queue of transmitted RTP packets, up to a
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* configurable limit (see #GstRTPRtxQueue::max-size-time,
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* #GstRTPRtxQueue::max-size-packets), and retransmits them upon request
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* configurable limit (see #GstRTPRtxQueue:max-size-time,
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* #GstRTPRtxQueue:max-size-packets), and retransmits them upon request
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* from the downstream rtpsession (GstRTPRetransmissionRequest event).
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*
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* This element is similar to rtprtxsend, but it has differences:
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* * Support for multiple sender SSRC.
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*
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* The rtpsession will not demux packets based on SSRC or payload type, nor will
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* it correct for packet reordering and jitter. Use #GstRtpsSrcDemux,
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* it correct for packet reordering and jitter. Use #GstRtpSsrcDemux,
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* #GstRtpPtDemux and GstRtpJitterBuffer in addition to #GstRtpSession to
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* perform these tasks. It is usually a good idea to use #GstRtpBin, which
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* combines all these features in one element.
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*
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* The message's structure contains three fields:
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*
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* #GstRTSPSrcTimeoutCause `cause`: the cause of the timeout.
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* GstRTSPSrcTimeoutCause `cause`: the cause of the timeout.
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*
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* #gint `stream-number`: an internal identifier of the stream that timed out.
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*
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* framerate. The two incoming buffers are blended together using an effect
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* specific alpha mask.
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*
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* The #GstSmpte:depth property defines the presision in bits of the mask. A
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* The #GstSMPTE:depth property defines the presision in bits of the mask. A
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* higher presision will create a mask with smoother gradients in order to avoid
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* banding.
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*
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* using an effect specific SMPTE mask in the I420 input case. In the AYUV case,
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* the alpha channel is modified using the effect specific SMPTE mask.
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*
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* The #GstSmpteAlpha:position property is a controllabe double between 0.0 and
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* The #GstSMPTEAlpha:position property is a controllabe double between 0.0 and
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* 1.0 that specifies the position in the transition. 0.0 is the start of the
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* transition with the alpha channel to complete opaque where 1.0 has the alpha
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* channel set to completely transparent.
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*
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* The #GstSmpteAlpha:depth property defines the precision in bits of the mask.
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* The #GstSMPTEAlpha:depth property defines the precision in bits of the mask.
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* A higher presision will create a mask with smoother gradients in order to
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* avoid banding.
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*
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* * #GstClockTime `duration`: the duration of the buffer.
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* * #GstClockTime `endtime`: the end time of the buffer that triggered the message as stream time (this
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* is deprecated, as it can be calculated from stream-time + duration)
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* * #GstValueList of #gfloat `magnitude`: the level for each frequency band in dB.
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* * A #GST_TYPE_LIST value of #gfloat `magnitude`: the level for each frequency band in dB.
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* All values below the value of the
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* #GstSpectrum:threshold property will be set to the threshold. Only present
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* if the #GstSpectrum:message-magnitude property is %TRUE.
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* * #GstValueList of #gfloat `phase`: The phase for each frequency band. The value is between -pi and pi. Only
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* * A #GST_TYPE_LIST of #gfloat `phase`: The phase for each frequency band. The value is between -pi and pi. Only
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* present if the #GstSpectrum:message-phase property is %TRUE.
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*
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* If #GstSpectrum:multi-channel property is set to true. magnitude and phase
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* fields will be each a nested #GstValueArray. The first dimension are the
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* fields will be each a nested #GST_TYPE_ARRAY value. The first dimension are the
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* channels and the second dimension are the values.
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*
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* ## Example application
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