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267 lines
12 KiB
Markdown
267 lines
12 KiB
Markdown
# Seeking
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Seeking in GStreamer means configuring the pipeline for playback of the
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media between a certain start and stop time, called the playback
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segment. By default a pipeline will play from position 0 to the total
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duration of the media at a rate of 1.0.
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A seek is performed by sending a `SEEK` event to the sink elements of a
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pipeline. Sending the `SEEK` event to a bin will by default forward the
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event to all sinks in the bin.
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When performing a seek, the start and stop values of the segment can be
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specified as absolute positions or relative to the currently configured
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playback segment. Note that it is not possible to seek relative to the
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current playback position. To seek relative to the current playback
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position, one must query the position first and then perform an absolute
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seek to the desired position.
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If a seek operation is requested using the `GST_SEEK_FLAG_FLUSH` flag, all
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pending data in the pipeline is discarded and playback starts from the new
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position immediately. If this flag is not set, the seek is queued to be
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executed as soon as possible, which might be after all queues are emptied.
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Seeking can be performed in different formats such as time, frames or
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samples.
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The seeking can be performed to a nearby key unit or to the exact
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(estimated) unit in the media (`GST_SEEK_FLAG_KEY_UNIT`). See below
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for more details on this.
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The seeking can be performed by using an estimated target position or in
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an accurate way (`GST_SEEK_FLAG_ACCURATE`). For some formats this can
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result in having to scan the complete file in order to accurately find
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the target unit. See below for more details on this.
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Non segment seeking will make the pipeline emit EOS when the configured
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segment has been played.
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Segment seeking (using the `GST_SEEK_FLAG_SEGMENT`) will not emit an
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EOS at the end of the playback segment but will post a `SEGMENT_DONE`
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message on the bus. This message is posted by the element driving the
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playback in the pipeline, typically a demuxer. After receiving the
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message, the application can reconnect the pipeline or issue other seek
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events in the pipeline. Since the message is posted as early as possible
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in the pipeline, the application has some time to issue a new seek to
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make the transition seamless. Typically the allowed delay is defined by
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the buffer sizes of the sinks as well as the size of any queues in the
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pipeline.
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The seek can also change the playback speed of the configured segment. A
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speed of 1.0 is normal speed, 2.0 is double speed. Negative values mean
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backward playback.
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When performing a seek, several trickmode flags can be used to instruct
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decoders and demuxers that they are allowed to skip decoding in various
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ways. This is most useful when changing to a playback rate different
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to 1.0 and helps when resource consumption is more important than
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accurately producing all frames.
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The trickmode flags are:
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- [](GST_SEEK_FLAG_TRICKMODE_KEY_UNITS): Only decode/display key frames
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- [](GST_SEEK_FLAG_TRICKMODE_FORWARD_PREDICTED): Skip B-frames
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- [](GST_SEEK_FLAG_TRICKMODE_NO_AUDIO): Don't decode audio
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In some pipelines, it is possible to control the playback rate instantly
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by sending a seek with the [](GST_SEEK_FLAG_INSTANT_RATE_CHANGE)
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flag. This flag does not work for all pipelines, in which case it is necessary to
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send a full flushing seek to change the playback rate. When using this
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flag, the seek event is only allowed to change the current rate and can
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modify the trickmode flags, but it is not possible to change the current
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playback position or flush.
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Instant rate changing is handled in the pipeline in a specific sequence.
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1. The application creates and sends a seek event with the
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[](GST_SEEK_FLAG_INSTANT_RATE_CHANGE) flag and `start_type = stop_type = GST_SEEK_TYPE_NONE`.
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2. When the seek event reaches an element that will perform the seek
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operation, that element calculates a rate multiplier according to the
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requested playback rate, divided by the element's current output rate
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(from the most recent seek, but usually 1.0). It also extracts the
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new trickmode flags from the seek event - the set of flags in
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[](GST_SEGMENT_INSTANT_FLAGS)
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3. The element sends a downstream [](GST_EVENT_INSTANT_RATE_CHANGE) containing
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the rate multiplier, and the flags subset, and copying the seqnum from the
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seek event.
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4. Downstream elements which handle the instant-rate-change event will
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update their trickmode flags, and (if they sync to the clock) send a
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[](GST_MESSAGE_INSTANT_RATE_REQUEST) message on the bus, with the event seqnum.
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5. The pipeline handles the message on the bus and responds with a
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[](GST_EVENT_INSTANT_RATE_SYNC_TIME)
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event into the pipeline, which informs all elements to switch to the new
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playback rate multiplier, and with a running-time and upstream-running-time
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from which the new rate applies. All elements now start synchronising to
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the clock using a new multiplied playback rate effective from the
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indicated running-time. The difference between running-time (the clock
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time at which the switch happens) and upstream-running-time is equal to
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the amount of accumulated extra playback due to chained instant-rate-changes.
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<!-- FIXME # Seeking in push based elements-->
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## Generating seeking events
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A seek event is created with `gst_event_new_seek()`.
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## Seeking variants
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The different kinds of seeking methods and their internal workings are
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described below.
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### FLUSH seeking
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This is the most common way of performing a seek in a playback
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application. The application issues a seek on the pipeline and the new
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media is immediately played after the seek call returns.
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### seeking without FLUSH
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This seek type is typically performed after issuing segment seeks to
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finish the playback of the pipeline.
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Performing a non-flushing seek in a `PAUSED` pipeline blocks until the
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pipeline is set to playing again, since all data passing is blocked in
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the prerolled sinks.
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### segment seeking with FLUSH
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This seek is typically performed when starting seamless looping.
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### segment seeking without FLUSH
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This seek is typically performed when continuing seamless looping.
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## `KEY_UNIT` and `ACCURATE` flags
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This section aims to explain the behaviour expected by an element with
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regard to the `KEY_UNIT` and `ACCURATE` seek flags, using a parser
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or demuxer as an example.
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### DEFAULT BEHAVIOUR:
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When a seek to a certain position is requested, the demuxer/parser will
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do two things (ignoring flushing and segment seeks, and simplified for
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illustration purposes):
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- send a segment event with a new start position
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- start pushing data/buffers again
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To ensure that the data corresponding to the requested seek position can
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actually be decoded, a demuxer or parser needs to start pushing data
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from a keyframe/keyunit at or before the requested seek position.
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Unless requested differently (via the `KEY_UNIT` flag), the start of the
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segment event should be the requested seek position.
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So by default a demuxer/parser will then start pushing data from
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position DATA and send a segment event with start position `SEG_START`,
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and `DATA ⇐ SEG_START`.
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If `DATA < SEG_START`, a well-behaved video decoder will start decoding
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frames from DATA, but take into account the segment configured by the
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demuxer via the segment event, and only actually output decoded video
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frames from `SEG_START` onwards, dropping all decoded frames that are
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before the segment start and adjusting the timestamp/duration of the
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buffer that overlaps the segment start ("clipping"). A
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not-so-well-behaved video decoder will start decoding frames from DATA
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and push decoded video frames out starting from position DATA, in which
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case the frames that are before the configured segment start will
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usually be dropped/clipped downstream (e.g. by the video sink).
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### `GST_SEEK_FLAG_KEY_UNIT`
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If the `KEY_UNIT` flag is specified, the demuxer/parser should adjust the
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segment start to the position of the key frame closest to the requested
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seek position and then start pushing out data from there. The nearest
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key frame may be before or after the requested seek position, but many
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implementations will only look for the closest keyframe before the
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requested position.
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Most media players and thumbnailers do (and should be doing) `KEY_UNIT`
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seeks by default, for performance reasons, to ensure almost-instant
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responsiveness when scrubbing (dragging the seek slider in `PAUSED` or
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`PLAYING` mode). This works well for most media, but results in suboptimal
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behaviour for a small number of *odd* files (e.g. files that only have
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one keyframe at the very beginning, or only a few keyframes throughout
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the entire stream). At the time of writing, a solution for this still
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needs to be found, but could be implemented demuxer/parser-side, e.g.
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make demuxers/parsers ignore the `KEY_UNIT` flag if the position
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adjustment would be larger than 1/10th of the duration or somesuch.
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Flags can be used to influence snapping direction for those cases where
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it matters. `SNAP_BEFORE` will select the preceding position to the seek
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target, and `SNAP_AFTER` will select the following one. If both flags are
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set, the nearest one to the seek target will be used. If none of these
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flags are set, the seeking implemention is free to select whichever it
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wants.
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#### Summary:
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- if the `KEY_UNIT` flag is **not** specified, the demuxer/parser
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should start pushing data from a key unit preceding the seek
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position (or from the seek position if that falls on a key unit),
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and the start of the new segment should be the requested seek
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position.
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- if the `KEY_UNIT` flag is specified, the demuxer/parser should start
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pushing data from the key unit nearest the seek position (or from
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the seek position if that falls on a key unit), and the start of the
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new segment should be adjusted to the position of that key unit
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which was nearest the requested seek position (ie. the new segment
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start should be the position from which data is pushed).
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### `GST_SEEK_FLAG_ACCURATE`
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If the `ACCURATE` flag is specified in a seek request, the demuxer/parser
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is asked to do whatever it takes (!) to make sure the position
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seeked to is accurate in relation to the beginning of the stream. This
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means that it is not acceptable to just approximate the position (e.g.
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using an average bitrate). The achieved position must be exact. In the
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worst case, the demuxer or parser needs to push data from the beginning
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of the file and let downstream clip everything before the requested
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segment start.
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The `ACCURATE` flag does not affect what the segment start should be in
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relation to the requested seek position. Only the `KEY_UNIT` flag (or its
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absence) has any effect on that.
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Video editors and frame-stepping applications usually use the `ACCURATE`
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flag.
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#### Summary:
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- if the `ACCURATE` flag is **not** specified, it is up to the
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demuxer/parser to decide how exact the seek should be. In this case,
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the expectation is that the demuxer/parser does a
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resonable best effort attempt, trading speed for accuracy. In the
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absence of an index, the seek position may be approximated.
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- if the `ACCURATE` flag **is** specified, absolute accuracy is required,
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and speed is of no concern. It is not acceptable to just approximate
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the seek position in that case.
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- the `ACCURATE` flag does not imply that the segment starts at the
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requested seek position or should be adjusted to the nearest
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keyframe, only the `KEY_UNIT` flag determines that.
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### `ACCURATE` and `KEY_UNIT` combinations:
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All combinations of these two flags are valid:
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- neither flag specified: segment starts at seek position, send data
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from preceding key frame (or earlier), feel free to approximate the
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seek position
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- only `KEY_UNIT` specified: segment starts from position of nearest
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keyframe, send data from nearest keyframe, feel free to approximate
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the seek position
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- only `ACCURATE` specified: segment starts at seek position, send data
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from preceding key frame (or earlier), do not approximate the seek
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position under any circumstances
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- `ACCURATE | KEY_UNIT` specified: segment starts from position of
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nearest keyframe, send data from nearest key frame, do not
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approximate the seek position under any circumstances
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