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// This file was generated by gir (https://github.com/gtk-rs/gir) // from gir-files (https://github.com/gtk-rs/gir-files) // DO NOT EDIT use glib::object::Cast; use glib::object::IsA; use glib::signal::connect_raw; use glib::signal::SignalHandlerId; use glib::translate::*; use glib::StaticType; use glib::Value; use glib_sys; use gobject_sys; use gst; use gst_base_sys; use std::boxed::Box as Box_; use std::mem::transmute; glib_wrapper! { /// This base class is for parser elements that process data and splits it /// into separate audio/video/whatever frames. /// /// It provides for: /// /// * provides one sink pad and one source pad /// * handles state changes /// * can operate in pull mode or push mode /// * handles seeking in both modes /// * handles events (SEGMENT/EOS/FLUSH) /// * handles queries (POSITION/DURATION/SEEKING/FORMAT/CONVERT) /// * handles flushing /// /// The purpose of this base class is to provide the basic functionality of /// a parser and share a lot of rather complex code. /// /// # Description of the parsing mechanism: /// /// ## Set-up phase /// /// * `BaseParse` calls `BaseParseClass.start`() to inform subclass /// that data processing is about to start now. /// /// * `BaseParse` class calls `BaseParseClass.set_sink_caps`() to /// inform the subclass about incoming sinkpad caps. Subclass could /// already set the srcpad caps accordingly, but this might be delayed /// until calling `BaseParse::finish_frame` with a non-queued frame. /// /// * At least at this point subclass needs to tell the `BaseParse` class /// how big data chunks it wants to receive (minimum frame size ). It can /// do this with `BaseParseExt::set_min_frame_size`. /// /// * `BaseParse` class sets up appropriate data passing mode (pull/push) /// and starts to process the data. /// /// ## Parsing phase /// /// * `BaseParse` gathers at least min_frame_size bytes of data either /// by pulling it from upstream or collecting buffers in an internal /// `Adapter`. /// /// * A buffer of (at least) min_frame_size bytes is passed to subclass /// with `BaseParseClass.handle_frame`(). Subclass checks the contents /// and can optionally return `gst::FlowReturn::Ok` along with an amount of data /// to be skipped to find a valid frame (which will result in a /// subsequent DISCONT). If, otherwise, the buffer does not hold a /// complete frame, `BaseParseClass.handle_frame`() can merely return /// and will be called again when additional data is available. In push /// mode this amounts to an additional input buffer (thus minimal /// additional latency), in pull mode this amounts to some arbitrary /// reasonable buffer size increase. /// /// Of course, `BaseParseExt::set_min_frame_size` could also be used if /// a very specific known amount of additional data is required. If, /// however, the buffer holds a complete valid frame, it can pass the /// size of this frame to `BaseParse::finish_frame`. /// /// If acting as a converter, it can also merely indicate consumed input /// data while simultaneously providing custom output data. Note that /// baseclass performs some processing (such as tracking overall consumed /// data rate versus duration) for each finished frame, but other state /// is only updated upon each call to `BaseParseClass.handle_frame`() /// (such as tracking upstream input timestamp). /// /// Subclass is also responsible for setting the buffer metadata /// (e.g. buffer timestamp and duration, or keyframe if applicable). /// (although the latter can also be done by `BaseParse` if it is /// appropriately configured, see below). Frame is provided with /// timestamp derived from upstream (as much as generally possible), /// duration obtained from configuration (see below), and offset /// if meaningful (in pull mode). /// /// Note that `BaseParseClass.handle_frame`() might receive any small /// amount of input data when leftover data is being drained (e.g. at /// EOS). /// /// * As part of finish frame processing, just prior to actually pushing /// the buffer in question, it is passed to /// `BaseParseClass.pre_push_frame`() which gives subclass yet one last /// chance to examine buffer metadata, or to send some custom (tag) /// events, or to perform custom (segment) filtering. /// /// * During the parsing process `BaseParseClass` will handle both srcpad /// and sinkpad events. They will be passed to subclass if /// `BaseParseClass.sink_event`() or `BaseParseClass.src_event`() /// implementations have been provided. /// /// ## Shutdown phase /// /// * `BaseParse` class calls `BaseParseClass.stop`() to inform the /// subclass that data parsing will be stopped. /// /// Subclass is responsible for providing pad template caps for source and /// sink pads. The pads need to be named "sink" and "src". It also needs to /// set the fixed caps on srcpad, when the format is ensured (e.g. when /// base class calls subclass' `BaseParseClass.set_sink_caps`() function). /// /// This base class uses `gst::Format::Default` as a meaning of frames. So, /// subclass conversion routine needs to know that conversion from /// `gst::Format::Time` to `gst::Format::Default` must return the /// frame number that can be found from the given byte position. /// /// `BaseParse` uses subclasses conversion methods also for seeking (or /// otherwise uses its own default one, see also below). /// /// Subclass `start` and `stop` functions will be called to inform the beginning /// and end of data processing. /// /// Things that subclass need to take care of: /// /// * Provide pad templates /// * Fixate the source pad caps when appropriate /// * Inform base class how big data chunks should be retrieved. This is /// done with `BaseParseExt::set_min_frame_size` function. /// * Examine data chunks passed to subclass with /// `BaseParseClass.handle_frame`() and pass proper frame(s) to /// `BaseParse::finish_frame`, and setting src pad caps and timestamps /// on frame. /// * Provide conversion functions /// * Update the duration information with `BaseParse::set_duration` /// * Optionally passthrough using `BaseParseExt::set_passthrough` /// * Configure various baseparse parameters using /// `BaseParseExt::set_average_bitrate`, `BaseParseExt::set_syncable` /// and `BaseParse::set_frame_rate`. /// /// * In particular, if subclass is unable to determine a duration, but /// parsing (or specs) yields a frames per seconds rate, then this can be /// provided to `BaseParse` to enable it to cater for buffer time /// metadata (which will be taken from upstream as much as /// possible). Internally keeping track of frame durations and respective /// sizes that have been pushed provides `BaseParse` with an estimated /// bitrate. A default `BaseParseClass.convert`() (used if not /// overridden) will then use these rates to perform obvious conversions. /// These rates are also used to update (estimated) duration at regular /// frame intervals. /// /// # Implements /// /// [`BaseParseExt`](trait.BaseParseExt.html), [`gst::ElementExt`](../gst/trait.ElementExt.html), [`gst::ObjectExt`](../gst/trait.ObjectExt.html), [`glib::object::ObjectExt`](../glib/object/trait.ObjectExt.html), [`BaseParseExtManual`](prelude/trait.BaseParseExtManual.html) pub struct BaseParse(Object<gst_base_sys::GstBaseParse, gst_base_sys::GstBaseParseClass, BaseParseClass>) @extends gst::Element, gst::Object; match fn { get_type => || gst_base_sys::gst_base_parse_get_type(), } } unsafe impl Send for BaseParse {} unsafe impl Sync for BaseParse {} pub const NONE_BASE_PARSE: Option<&BaseParse> = None; /// Trait containing all `BaseParse` methods. /// /// # Implementors /// /// [`BaseParse`](struct.BaseParse.html) pub trait BaseParseExt: 'static { /// Adds an entry to the index associating `offset` to `ts`. It is recommended /// to only add keyframe entries. `force` allows to bypass checks, such as /// whether the stream is (upstream) seekable, another entry is already "close" /// to the new entry, etc. /// ## `offset` /// offset of entry /// ## `ts` /// timestamp associated with offset /// ## `key` /// whether entry refers to keyframe /// ## `force` /// add entry disregarding sanity checks /// /// # Returns /// /// `gboolean` indicating whether entry was added fn add_index_entry(&self, offset: u64, ts: gst::ClockTime, key: bool, force: bool) -> bool; /// Drains the adapter until it is empty. It decreases the min_frame_size to /// match the current adapter size and calls chain method until the adapter /// is emptied or chain returns with error. /// /// Feature: `v1_12` /// #[cfg(any(feature = "v1_12", feature = "dox"))] fn drain(&self); /// Sets the parser subclass's tags and how they should be merged with any /// upstream stream tags. This will override any tags previously-set /// with `BaseParseExt::merge_tags`. /// /// Note that this is provided for convenience, and the subclass is /// not required to use this and can still do tag handling on its own. /// ## `tags` /// a `gst::TagList` to merge, or NULL to unset /// previously-set tags /// ## `mode` /// the `gst::TagMergeMode` to use, usually `gst::TagMergeMode::Replace` fn merge_tags(&self, tags: Option<&gst::TagList>, mode: gst::TagMergeMode); /// Optionally sets the average bitrate detected in media (if non-zero), /// e.g. based on metadata, as it will be posted to the application. /// /// By default, announced average bitrate is estimated. The average bitrate /// is used to estimate the total duration of the stream and to estimate /// a seek position, if there's no index and the format is syncable /// (see `BaseParseExt::set_syncable`). /// ## `bitrate` /// average bitrate in bits/second fn set_average_bitrate(&self, bitrate: u32); /// Set if frames carry timing information which the subclass can (generally) /// parse and provide. In particular, intrinsic (rather than estimated) time /// can be obtained following a seek. /// ## `has_timing` /// whether frames carry timing information fn set_has_timing_info(&self, has_timing: bool); /// By default, the base class might try to infer PTS from DTS and vice /// versa. While this is generally correct for audio data, it may not /// be otherwise. Sub-classes implementing such formats should disable /// timestamp inferring. /// ## `infer_ts` /// `true` if parser should infer DTS/PTS from each other fn set_infer_ts(&self, infer_ts: bool); /// Sets the minimum and maximum (which may likely be equal) latency introduced /// by the parsing process. If there is such a latency, which depends on the /// particular parsing of the format, it typically corresponds to 1 frame duration. /// ## `min_latency` /// minimum parse latency /// ## `max_latency` /// maximum parse latency fn set_latency(&self, min_latency: gst::ClockTime, max_latency: gst::ClockTime); /// Subclass can use this function to tell the base class that it needs to /// be given buffers of at least `min_size` bytes. /// ## `min_size` /// Minimum size in bytes of the data that this base class should /// give to subclass. fn set_min_frame_size(&self, min_size: u32); /// Set if the nature of the format or configuration does not allow (much) /// parsing, and the parser should operate in passthrough mode (which only /// applies when operating in push mode). That is, incoming buffers are /// pushed through unmodified, i.e. no `BaseParseClass.handle_frame`() /// will be invoked, but `BaseParseClass.pre_push_frame`() will still be /// invoked, so subclass can perform as much or as little is appropriate for /// passthrough semantics in `BaseParseClass.pre_push_frame`(). /// ## `passthrough` /// `true` if parser should run in passthrough mode fn set_passthrough(&self, passthrough: bool); /// By default, the base class will guess PTS timestamps using a simple /// interpolation (previous timestamp + duration), which is incorrect for /// data streams with reordering, where PTS can go backward. Sub-classes /// implementing such formats should disable PTS interpolation. /// ## `pts_interpolate` /// `true` if parser should interpolate PTS timestamps fn set_pts_interpolation(&self, pts_interpolate: bool); /// Set if frame starts can be identified. This is set by default and /// determines whether seeking based on bitrate averages /// is possible for a format/stream. /// ## `syncable` /// set if frame starts can be identified fn set_syncable(&self, syncable: bool); /// This function should only be called from a `handle_frame` implementation. /// /// `BaseParse` creates initial timestamps for frames by using the last /// timestamp seen in the stream before the frame starts. In certain /// cases, the correct timestamps will occur in the stream after the /// start of the frame, but before the start of the actual picture data. /// This function can be used to set the timestamps based on the offset /// into the frame data that the picture starts. /// ## `offset` /// offset into current buffer fn set_ts_at_offset(&self, offset: usize); /// If set to `true`, baseparse will unconditionally force parsing of the /// incoming data. This can be required in the rare cases where the incoming /// side-data (caps, pts, dts, ...) is not trusted by the user and wants to /// force validation and parsing of the incoming data. /// If set to `false`, decision of whether to parse the data or not is up to /// the implementation (standard behaviour). fn get_property_disable_passthrough(&self) -> bool; /// If set to `true`, baseparse will unconditionally force parsing of the /// incoming data. This can be required in the rare cases where the incoming /// side-data (caps, pts, dts, ...) is not trusted by the user and wants to /// force validation and parsing of the incoming data. /// If set to `false`, decision of whether to parse the data or not is up to /// the implementation (standard behaviour). fn set_property_disable_passthrough(&self, disable_passthrough: bool); fn connect_property_disable_passthrough_notify<F: Fn(&Self) + Send + Sync + 'static>( &self, f: F, ) -> SignalHandlerId; } impl<O: IsA<BaseParse>> BaseParseExt for O { fn add_index_entry(&self, offset: u64, ts: gst::ClockTime, key: bool, force: bool) -> bool { unsafe { from_glib(gst_base_sys::gst_base_parse_add_index_entry( self.as_ref().to_glib_none().0, offset, ts.to_glib(), key.to_glib(), force.to_glib(), )) } } #[cfg(any(feature = "v1_12", feature = "dox"))] fn drain(&self) { unsafe { gst_base_sys::gst_base_parse_drain(self.as_ref().to_glib_none().0); } } fn merge_tags(&self, tags: Option<&gst::TagList>, mode: gst::TagMergeMode) { unsafe { gst_base_sys::gst_base_parse_merge_tags( self.as_ref().to_glib_none().0, tags.to_glib_none().0, mode.to_glib(), ); } } fn set_average_bitrate(&self, bitrate: u32) { unsafe { gst_base_sys::gst_base_parse_set_average_bitrate( self.as_ref().to_glib_none().0, bitrate, ); } } fn set_has_timing_info(&self, has_timing: bool) { unsafe { gst_base_sys::gst_base_parse_set_has_timing_info( self.as_ref().to_glib_none().0, has_timing.to_glib(), ); } } fn set_infer_ts(&self, infer_ts: bool) { unsafe { gst_base_sys::gst_base_parse_set_infer_ts( self.as_ref().to_glib_none().0, infer_ts.to_glib(), ); } } fn set_latency(&self, min_latency: gst::ClockTime, max_latency: gst::ClockTime) { unsafe { gst_base_sys::gst_base_parse_set_latency( self.as_ref().to_glib_none().0, min_latency.to_glib(), max_latency.to_glib(), ); } } fn set_min_frame_size(&self, min_size: u32) { unsafe { gst_base_sys::gst_base_parse_set_min_frame_size( self.as_ref().to_glib_none().0, min_size, ); } } fn set_passthrough(&self, passthrough: bool) { unsafe { gst_base_sys::gst_base_parse_set_passthrough( self.as_ref().to_glib_none().0, passthrough.to_glib(), ); } } fn set_pts_interpolation(&self, pts_interpolate: bool) { unsafe { gst_base_sys::gst_base_parse_set_pts_interpolation( self.as_ref().to_glib_none().0, pts_interpolate.to_glib(), ); } } fn set_syncable(&self, syncable: bool) { unsafe { gst_base_sys::gst_base_parse_set_syncable( self.as_ref().to_glib_none().0, syncable.to_glib(), ); } } fn set_ts_at_offset(&self, offset: usize) { unsafe { gst_base_sys::gst_base_parse_set_ts_at_offset(self.as_ref().to_glib_none().0, offset); } } fn get_property_disable_passthrough(&self) -> bool { unsafe { let mut value = Value::from_type(<bool as StaticType>::static_type()); gobject_sys::g_object_get_property( self.to_glib_none().0 as *mut gobject_sys::GObject, b"disable-passthrough\0".as_ptr() as *const _, value.to_glib_none_mut().0, ); value .get() .expect("Return Value for property `disable-passthrough` getter") .unwrap() } } fn set_property_disable_passthrough(&self, disable_passthrough: bool) { unsafe { gobject_sys::g_object_set_property( self.to_glib_none().0 as *mut gobject_sys::GObject, b"disable-passthrough\0".as_ptr() as *const _, Value::from(&disable_passthrough).to_glib_none().0, ); } } fn connect_property_disable_passthrough_notify<F: Fn(&Self) + Send + Sync + 'static>( &self, f: F, ) -> SignalHandlerId { unsafe extern "C" fn notify_disable_passthrough_trampoline< P, F: Fn(&P) + Send + Sync + 'static, >( this: *mut gst_base_sys::GstBaseParse, _param_spec: glib_sys::gpointer, f: glib_sys::gpointer, ) where P: IsA<BaseParse>, { let f: &F = &*(f as *const F); f(&BaseParse::from_glib_borrow(this).unsafe_cast_ref()) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"notify::disable-passthrough\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( notify_disable_passthrough_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } }