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// Take a look at the license at the top of the repository in the LICENSE file. use crate::TestClock; use glib::translate::*; use gst::prelude::*; use std::marker::PhantomData; use std::mem; use std::ops; use std::path; use std::ptr; /// [`Harness`][crate::Harness] is meant to make writing unit test for GStreamer much easier. /// It can be thought of as a way of treating a [`gst::Element`][crate::gst::Element] as a black box, /// deterministically feeding it data, and controlling what data it outputs. /// /// The basic structure of [`Harness`][crate::Harness] is two "floating" `GstPads` that connect /// to the harnessed [`gst::Element`][crate::gst::Element] src and sink `GstPads` like so: /// /// /// ```C /// #include <gst/gst.h> /// #include <gst/check/gstharness.h> /// GstHarness *h; /// GstBuffer *in_buf; /// GstBuffer *out_buf; /// /// // attach the harness to the src and sink pad of GstQueue /// h = gst_harness_new ("queue"); /// /// // we must specify a caps before pushing buffers /// gst_harness_set_src_caps_str (h, "mycaps"); /// /// // create a buffer of size 42 /// in_buf = gst_harness_create_buffer (h, 42); /// /// // push the buffer into the queue /// gst_harness_push (h, in_buf); /// /// // pull the buffer from the queue /// out_buf = gst_harness_pull (h); /// /// // validate the buffer in is the same as buffer out /// fail_unless (in_buf == out_buf); /// /// // cleanup /// gst_buffer_unref (out_buf); /// gst_harness_teardown (h); /// /// ]| /// /// Another main feature of the #GstHarness is its integration with the /// #GstTestClock. Operating the #GstTestClock can be very challenging, but /// #GstHarness simplifies some of the most desired actions a lot, like wanting /// to manually advance the clock while at the same time releasing a #GstClockID /// that is waiting, with functions like gst_harness_crank_single_clock_wait(). /// /// #GstHarness also supports sub-harnesses, as a way of generating and /// validating data. A sub-harness is another #GstHarness that is managed by /// the "parent" harness, and can either be created by using the standard /// gst_harness_new type functions directly on the (GstHarness *)->src_harness, /// or using the much more convenient gst_harness_add_src() or /// gst_harness_add_sink_parse(). If you have a decoder-element you want to test, /// (like vp8dec) it can be very useful to add a src-harness with both a /// src-element (videotestsrc) and an encoder (vp8enc) to feed the decoder data /// with different configurations, by simply doing: /// /// |[<!-- language="C" --> /// GstHarness * h = gst_harness_new (h, "vp8dec"); /// gst_harness_add_src_parse (h, "videotestsrc is-live=1 ! vp8enc", TRUE); /// ``` /// /// and then feeding it data with: /// /// /// ```C /// gst_harness_push_from_src (h); /// ``` #[derive(Debug)] #[doc(alias = "GstHarness")] pub struct Harness(ptr::NonNull<ffi::GstHarness>); impl Drop for Harness { fn drop(&mut self) { unsafe { ffi::gst_harness_teardown(self.0.as_ptr()); } } } unsafe impl Send for Harness {} unsafe impl Sync for Harness {} impl Harness { /// Adds a [`gst::Element`][crate::gst::Element] to an empty [`Harness`][crate::Harness] /// /// MT safe. /// ## `element` /// a [`gst::Element`][crate::gst::Element] to add to the harness (transfer none) /// ## `hsrc` /// a [`gst::StaticPadTemplate`][crate::gst::StaticPadTemplate] describing the harness srcpad. /// [`None`] will not create a harness srcpad. /// ## `element_sinkpad_name` /// a `gchar` with the name of the element /// sinkpad that is then linked to the harness srcpad. Can be a static or request /// or a sometimes pad that has been added. [`None`] will not get/request a sinkpad /// from the element. (Like if the element is a src.) /// ## `hsink` /// a [`gst::StaticPadTemplate`][crate::gst::StaticPadTemplate] describing the harness sinkpad. /// [`None`] will not create a harness sinkpad. /// ## `element_srcpad_name` /// a `gchar` with the name of the element /// srcpad that is then linked to the harness sinkpad, similar to the /// `element_sinkpad_name`. #[doc(alias = "gst_harness_add_element_full")] pub fn add_element_full<P: IsA<gst::Element>>( &mut self, element: &P, hsrc: Option<&gst::StaticPadTemplate>, element_sinkpad_name: Option<&str>, hsink: Option<&gst::StaticPadTemplate>, element_srcpad_name: Option<&str>, ) { let element_sinkpad_name = element_sinkpad_name.to_glib_none(); let element_srcpad_name = element_srcpad_name.to_glib_none(); unsafe { ffi::gst_harness_add_element_full( self.0.as_ptr(), element.as_ref().to_glib_none().0, hsrc.to_glib_none().0 as *mut _, element_sinkpad_name.0, hsink.to_glib_none().0 as *mut _, element_srcpad_name.0, ); } } /// Links the specified [`gst::Pad`][crate::gst::Pad] the [`Harness`][crate::Harness] srcpad. /// /// MT safe. /// ## `sinkpad` /// a [`gst::Pad`][crate::gst::Pad] to link to the harness srcpad #[doc(alias = "gst_harness_add_element_sink_pad")] pub fn add_element_sink_pad<P: IsA<gst::Pad>>(&mut self, sinkpad: &P) { unsafe { ffi::gst_harness_add_element_sink_pad( self.0.as_ptr(), sinkpad.as_ref().to_glib_none().0, ); } } /// Links the specified [`gst::Pad`][crate::gst::Pad] the [`Harness`][crate::Harness] sinkpad. This can be useful if /// perhaps the srcpad did not exist at the time of creating the harness, /// like a demuxer that provides a sometimes-pad after receiving data. /// /// MT safe. /// ## `srcpad` /// a [`gst::Pad`][crate::gst::Pad] to link to the harness sinkpad #[doc(alias = "gst_harness_add_element_src_pad")] pub fn add_element_src_pad<P: IsA<gst::Pad>>(&mut self, srcpad: &P) { unsafe { ffi::gst_harness_add_element_src_pad(self.0.as_ptr(), srcpad.as_ref().to_glib_none().0); } } /// Parses the `launchline` and puts that in a [`gst::Bin`][crate::gst::Bin], /// and then attches the supplied [`Harness`][crate::Harness] to the bin. /// /// MT safe. /// ## `launchline` /// a `gchar` describing a gst-launch type line #[doc(alias = "gst_harness_add_parse")] pub fn add_parse(&mut self, launchline: &str) { unsafe { ffi::gst_harness_add_parse(self.0.as_ptr(), launchline.to_glib_none().0); } } /// A convenience function to allows you to call gst_pad_add_probe on a /// [`gst::Pad`][crate::gst::Pad] of a [`gst::Element`][crate::gst::Element] that are residing inside the [`Harness`][crate::Harness], /// by using normal gst_pad_add_probe syntax /// /// MT safe. /// ## `element_name` /// a `gchar` with a [`gst::ElementFactory`][crate::gst::ElementFactory] name /// ## `pad_name` /// a `gchar` with the name of the pad to attach the probe to /// ## `mask` /// a [`gst::PadProbeType`][crate::gst::PadProbeType] (see gst_pad_add_probe) /// ## `callback` /// a `GstPadProbeCallback` (see gst_pad_add_probe) /// ## `destroy_data` /// a `GDestroyNotify` (see gst_pad_add_probe) pub fn add_probe<F>( &mut self, element_name: &str, pad_name: &str, mask: gst::PadProbeType, func: F, ) where F: Fn(&gst::Pad, &mut gst::PadProbeInfo) -> gst::PadProbeReturn + Send + Sync + 'static, { // Reimplementation of the C code so we don't have to duplicate all the callback code let element = self.find_element(element_name).expect("Element not found"); let pad = element.static_pad(pad_name).expect("Pad not found"); pad.add_probe(mask, func); } /// Add api with params as one of the supported metadata API to propose when /// receiving an allocation query. /// /// MT safe. /// ## `api` /// a metadata API /// ## `params` /// API specific parameters #[cfg(any(feature = "v1_16", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_16")))] #[doc(alias = "gst_harness_add_propose_allocation_meta")] pub fn add_propose_allocation_meta( &mut self, api: glib::types::Type, params: Option<&gst::StructureRef>, ) { unsafe { let params = params.map(|p| p.as_ptr()).unwrap_or(ptr::null_mut()); ffi::gst_harness_add_propose_allocation_meta(self.0.as_ptr(), api.into_glib(), params); } } /// Similar to gst_harness_add_sink_harness, this is a convenience to /// directly create a sink-harness using the `sink_element_name` name specified. /// /// MT safe. /// ## `sink_element_name` /// a `gchar` with the name of a [`gst::Element`][crate::gst::Element] #[doc(alias = "gst_harness_add_sink")] pub fn add_sink(&mut self, sink_element_name: &str) { unsafe { ffi::gst_harness_add_sink(self.0.as_ptr(), sink_element_name.to_glib_none().0); } } /// Similar to gst_harness_add_src, this allows you to send the data coming out /// of your harnessed [`gst::Element`][crate::gst::Element] to a sink-element, allowing to test different /// responses the element output might create in sink elements. An example might /// be an existing sink providing some analytical data on the input it receives that /// can be useful to your testing. If the goal is to test a sink-element itself, /// this is better achieved using gst_harness_new directly on the sink. /// /// If a sink-harness already exists it will be replaced. /// /// MT safe. /// ## `sink_harness` /// a [`Harness`][crate::Harness] to be added as a sink-harness. #[doc(alias = "gst_harness_add_sink_harness")] pub fn add_sink_harness(&mut self, sink_harness: Harness) { unsafe { let sink_harness = mem::ManuallyDrop::new(sink_harness); ffi::gst_harness_add_sink_harness(self.0.as_ptr(), sink_harness.0.as_ptr()); } } /// Similar to gst_harness_add_sink, this allows you to specify a launch-line /// instead of just an element name. See gst_harness_add_src_parse for details. /// /// MT safe. /// ## `launchline` /// a `gchar` with the name of a [`gst::Element`][crate::gst::Element] #[doc(alias = "gst_harness_add_sink_parse")] pub fn add_sink_parse(&mut self, launchline: &str) { unsafe { ffi::gst_harness_add_sink_parse(self.0.as_ptr(), launchline.to_glib_none().0); } } /// Similar to gst_harness_add_src_harness, this is a convenience to /// directly create a src-harness using the `src_element_name` name specified. /// /// MT safe. /// ## `src_element_name` /// a `gchar` with the name of a [`gst::Element`][crate::gst::Element] /// ## `has_clock_wait` /// a `gboolean` specifying if the [`gst::Element`][crate::gst::Element] uses /// gst_clock_wait_id internally. #[doc(alias = "gst_harness_add_src")] pub fn add_src(&mut self, src_element_name: &str, has_clock_wait: bool) { unsafe { ffi::gst_harness_add_src( self.0.as_ptr(), src_element_name.to_glib_none().0, has_clock_wait.into_glib(), ); } } /// A src-harness is a great way of providing the [`Harness`][crate::Harness] with data. /// By adding a src-type [`gst::Element`][crate::gst::Element], it is then easy to use functions like /// gst_harness_push_from_src or gst_harness_src_crank_and_push_many /// to provide your harnessed element with input. The `has_clock_wait` variable /// is a great way to control you src-element with, in that you can have it /// produce a buffer for you by simply cranking the clock, and not have it /// spin out of control producing buffers as fast as possible. /// /// If a src-harness already exists it will be replaced. /// /// MT safe. /// ## `src_harness` /// a [`Harness`][crate::Harness] to be added as a src-harness. /// ## `has_clock_wait` /// a `gboolean` specifying if the [`gst::Element`][crate::gst::Element] uses /// gst_clock_wait_id internally. #[doc(alias = "gst_harness_add_src_harness")] pub fn add_src_harness(&mut self, src_harness: Harness, has_clock_wait: bool) { unsafe { let src_harness = mem::ManuallyDrop::new(src_harness); ffi::gst_harness_add_src_harness( self.0.as_ptr(), src_harness.0.as_ptr(), has_clock_wait.into_glib(), ); } } /// Similar to gst_harness_add_src, this allows you to specify a launch-line, /// which can be useful for both having more then one [`gst::Element`][crate::gst::Element] acting as your /// src (Like a src producing raw buffers, and then an encoder, providing encoded /// data), but also by allowing you to set properties like "is-live" directly on /// the elements. /// /// MT safe. /// ## `launchline` /// a `gchar` describing a gst-launch type line /// ## `has_clock_wait` /// a `gboolean` specifying if the [`gst::Element`][crate::gst::Element] uses /// gst_clock_wait_id internally. #[doc(alias = "gst_harness_add_src_parse")] pub fn add_src_parse(&mut self, launchline: &str, has_clock_wait: bool) { unsafe { ffi::gst_harness_add_src_parse( self.0.as_ptr(), launchline.to_glib_none().0, has_clock_wait.into_glib(), ); } } /// The number of `GstBuffers` currently in the [`Harness`][crate::Harness] sinkpad `GAsyncQueue` /// /// MT safe. /// /// # Returns /// /// a `guint` number of buffers in the queue #[doc(alias = "gst_harness_buffers_in_queue")] pub fn buffers_in_queue(&self) -> u32 { unsafe { ffi::gst_harness_buffers_in_queue(self.0.as_ptr()) } } /// The total number of `GstBuffers` that has arrived on the [`Harness`][crate::Harness] sinkpad. /// This number includes buffers that have been dropped as well as buffers /// that have already been pulled out. /// /// MT safe. /// /// # Returns /// /// a `guint` number of buffers received #[doc(alias = "gst_harness_buffers_received")] pub fn buffers_received(&self) -> u32 { unsafe { ffi::gst_harness_buffers_received(self.0.as_ptr()) } } /// Similar to [`crank_single_clock_wait()`][Self::crank_single_clock_wait()], this is the function to use /// if your harnessed element(s) are using more then one gst_clock_id_wait. /// Failing to do so can (and will) make it racy which `GstClockID` you actually /// are releasing, where as this function will process all the waits at the /// same time, ensuring that one thread can't register another wait before /// both are released. /// /// MT safe. /// ## `waits` /// a `guint` describing the number of `GstClockIDs` to crank /// /// # Returns /// /// a `gboolean` [`true`] if the "crank" was successful, [`false`] if not. #[doc(alias = "gst_harness_crank_multiple_clock_waits")] pub fn crank_multiple_clock_waits(&mut self, waits: u32) -> Result<(), glib::BoolError> { unsafe { glib::result_from_gboolean!( ffi::gst_harness_crank_multiple_clock_waits(self.0.as_ptr(), waits), "Failed to crank multiple clock waits", ) } } /// A "crank" consists of three steps: /// 1: Wait for a `GstClockID` to be registered with the [`TestClock`][crate::TestClock]. /// 2: Advance the [`TestClock`][crate::TestClock] to the time the `GstClockID` is waiting for. /// 3: Release the `GstClockID` wait. /// Together, this provides an easy way to not have to think about the details /// around clocks and time, but still being able to write deterministic tests /// that are dependent on this. A "crank" can be though of as the notion of /// manually driving the clock forward to its next logical step. /// /// MT safe. /// /// # Returns /// /// a `gboolean` [`true`] if the "crank" was successful, [`false`] if not. #[doc(alias = "gst_harness_crank_single_clock_wait")] pub fn crank_single_clock_wait(&mut self) -> Result<(), glib::BoolError> { unsafe { glib::result_from_gboolean!( ffi::gst_harness_crank_single_clock_wait(self.0.as_ptr()), "Failed to crank single clock wait", ) } } /// Allocates a buffer using a [`gst::BufferPool`][crate::gst::BufferPool] if present, or else using the /// configured [`gst::Allocator`][crate::gst::Allocator] and [`gst::AllocationParams`][crate::gst::AllocationParams] /// /// MT safe. /// ## `size` /// a `gsize` specifying the size of the buffer /// /// # Returns /// /// a [`gst::Buffer`][crate::gst::Buffer] of size `size` #[doc(alias = "gst_harness_create_buffer")] pub fn create_buffer(&mut self, size: usize) -> Result<gst::Buffer, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_create_buffer(self.0.as_ptr(), size)) .ok_or_else(|| glib::bool_error!("Failed to create new buffer")) } } /// Allows you to dump the `GstBuffers` the [`Harness`][crate::Harness] sinkpad `GAsyncQueue` /// to a file. /// /// MT safe. /// ## `filename` /// a `gchar` with a the name of a file #[doc(alias = "gst_harness_dump_to_file")] pub fn dump_to_file<P: AsRef<path::Path>>(&mut self, filename: P) { let filename = filename.as_ref(); unsafe { ffi::gst_harness_dump_to_file(self.0.as_ptr(), filename.to_glib_none().0); } } /// The number of `GstEvents` currently in the [`Harness`][crate::Harness] sinkpad `GAsyncQueue` /// /// MT safe. /// /// # Returns /// /// a `guint` number of events in the queue #[doc(alias = "gst_harness_events_in_queue")] pub fn events_in_queue(&self) -> u32 { unsafe { ffi::gst_harness_events_in_queue(self.0.as_ptr()) } } /// The total number of `GstEvents` that has arrived on the [`Harness`][crate::Harness] sinkpad /// This number includes events handled by the harness as well as events /// that have already been pulled out. /// /// MT safe. /// /// # Returns /// /// a `guint` number of events received #[doc(alias = "gst_harness_events_received")] pub fn events_received(&self) -> u32 { unsafe { ffi::gst_harness_events_received(self.0.as_ptr()) } } /// Most useful in conjunction with gst_harness_new_parse, this will scan the /// `GstElements` inside the [`Harness`][crate::Harness], and check if any of them matches /// `element_name`. Typical usecase being that you need to access one of the /// harnessed elements for properties and/or signals. /// /// MT safe. /// ## `element_name` /// a `gchar` with a [`gst::ElementFactory`][crate::gst::ElementFactory] name /// /// # Returns /// /// a [`gst::Element`][crate::gst::Element] or [`None`] if not found #[doc(alias = "gst_harness_find_element")] pub fn find_element(&mut self, element_name: &str) -> Option<gst::Element> { unsafe { // Work around https://gitlab.freedesktop.org/gstreamer/gstreamer/merge_requests/31 let ptr = ffi::gst_harness_find_element(self.0.as_ptr(), element_name.to_glib_none().0); if ptr.is_null() { return None; } // Clear floating flag if it is set if glib::gobject_ffi::g_object_is_floating(ptr as *mut _) != glib::ffi::GFALSE { glib::gobject_ffi::g_object_ref_sink(ptr as *mut _); } from_glib_full(ptr) } } //pub fn get(&mut self, element_name: &str, first_property_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs) { // unsafe { TODO: call ffi::gst_harness_get() } //} //pub fn get_allocator(&mut self, allocator: /*Ignored*/gst::Allocator, params: /*Ignored*/gst::AllocationParams) { // unsafe { TODO: call ffi::gst_harness_get_allocator() } //} /// Get the timestamp of the last [`gst::Buffer`][crate::gst::Buffer] pushed on the [`Harness`][crate::Harness] srcpad, /// typically with gst_harness_push or gst_harness_push_from_src. /// /// MT safe. /// /// # Returns /// /// a `GstClockTime` with the timestamp or `GST_CLOCK_TIME_NONE` if no /// [`gst::Buffer`][crate::gst::Buffer] has been pushed on the [`Harness`][crate::Harness] srcpad #[doc(alias = "get_last_pushed_timestamp")] #[doc(alias = "gst_harness_get_last_pushed_timestamp")] pub fn last_pushed_timestamp(&self) -> Option<gst::ClockTime> { unsafe { from_glib(ffi::gst_harness_get_last_pushed_timestamp(self.0.as_ptr())) } } /// Get the [`TestClock`][crate::TestClock]. Useful if specific operations on the testclock is /// needed. /// /// MT safe. /// /// # Returns /// /// a [`TestClock`][crate::TestClock], or [`None`] if the testclock is not /// present. #[doc(alias = "get_testclock")] #[doc(alias = "gst_harness_get_testclock")] pub fn testclock(&self) -> Option<TestClock> { unsafe { from_glib_full(ffi::gst_harness_get_testclock(self.0.as_ptr())) } } /// This will set the harnessed [`gst::Element`][crate::gst::Element] to [`gst::State::Playing`][crate::gst::State::Playing]. /// `GstElements` without a sink-[`gst::Pad`][crate::gst::Pad] and with the [`gst::ElementFlags::SOURCE`][crate::gst::ElementFlags::SOURCE] /// flag set is considered a src [`gst::Element`][crate::gst::Element] /// Non-src `GstElements` (like sinks and filters) are automatically set to /// playing by the [`Harness`][crate::Harness], but src `GstElements` are not to avoid them /// starting to produce buffers. /// Hence, for src [`gst::Element`][crate::gst::Element] you must call [`play()`][Self::play()] explicitly. /// /// MT safe. #[doc(alias = "gst_harness_play")] pub fn play(&mut self) { unsafe { ffi::gst_harness_play(self.0.as_ptr()); } } /// Pulls a [`gst::Buffer`][crate::gst::Buffer] from the `GAsyncQueue` on the [`Harness`][crate::Harness] sinkpad. The pull /// will timeout in 60 seconds. This is the standard way of getting a buffer /// from a harnessed [`gst::Element`][crate::gst::Element]. /// /// MT safe. /// /// # Returns /// /// a [`gst::Buffer`][crate::gst::Buffer] or [`None`] if timed out. #[doc(alias = "gst_harness_pull")] pub fn pull(&mut self) -> Result<gst::Buffer, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_pull(self.0.as_ptr())) .ok_or_else(|| glib::bool_error!("Failed to pull buffer")) } } /// Pulls a [`gst::Buffer`][crate::gst::Buffer] from the `GAsyncQueue` on the [`Harness`][crate::Harness] sinkpad. The pull /// will block until an EOS event is received, or timeout in 60 seconds. /// MT safe. /// /// # Returns /// /// [`true`] on success, [`false`] on timeout. /// /// ## `buf` /// A [`gst::Buffer`][crate::gst::Buffer], or [`None`] if EOS or timeout occures /// first. #[cfg(any(feature = "v1_18", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_18")))] #[doc(alias = "gst_harness_pull_until_eos")] pub fn pull_until_eos(&mut self) -> Result<Option<gst::Buffer>, glib::BoolError> { unsafe { let mut buffer = ptr::null_mut(); let res = ffi::gst_harness_pull_until_eos(self.0.as_ptr(), &mut buffer); if from_glib(res) { Ok(from_glib_full(buffer)) } else { Err(glib::bool_error!("Failed to pull buffer or EOS")) } } } /// Pulls an [`gst::Event`][crate::gst::Event] from the `GAsyncQueue` on the [`Harness`][crate::Harness] sinkpad. /// Timeouts after 60 seconds similar to gst_harness_pull. /// /// MT safe. /// /// # Returns /// /// a [`gst::Event`][crate::gst::Event] or [`None`] if timed out. #[doc(alias = "gst_harness_pull_event")] pub fn pull_event(&mut self) -> Result<gst::Event, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_pull_event(self.0.as_ptr())) .ok_or_else(|| glib::bool_error!("Failed to pull event")) } } /// Pulls an [`gst::Event`][crate::gst::Event] from the `GAsyncQueue` on the [`Harness`][crate::Harness] srcpad. /// Timeouts after 60 seconds similar to gst_harness_pull. /// /// MT safe. /// /// # Returns /// /// a [`gst::Event`][crate::gst::Event] or [`None`] if timed out. #[doc(alias = "gst_harness_pull_upstream_event")] pub fn pull_upstream_event(&mut self) -> Result<gst::Event, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_pull_upstream_event(self.0.as_ptr())) .ok_or_else(|| glib::bool_error!("Failed to pull event")) } } /// Pushes a [`gst::Buffer`][crate::gst::Buffer] on the [`Harness`][crate::Harness] srcpad. The standard way of /// interacting with an harnessed element. /// /// MT safe. /// ## `buffer` /// a [`gst::Buffer`][crate::gst::Buffer] to push /// /// # Returns /// /// a [`gst::FlowReturn`][crate::gst::FlowReturn] with the result from the push #[doc(alias = "gst_harness_push")] pub fn push(&mut self, buffer: gst::Buffer) -> Result<gst::FlowSuccess, gst::FlowError> { unsafe { try_from_glib(ffi::gst_harness_push(self.0.as_ptr(), buffer.into_ptr())) } } /// Basically a gst_harness_push and a gst_harness_pull in one line. Reflects /// the fact that you often want to do exactly this in your test: Push one buffer /// in, and inspect the outcome. /// /// MT safe. /// ## `buffer` /// a [`gst::Buffer`][crate::gst::Buffer] to push /// /// # Returns /// /// a [`gst::Buffer`][crate::gst::Buffer] or [`None`] if timed out. #[doc(alias = "gst_harness_push_and_pull")] pub fn push_and_pull(&mut self, buffer: gst::Buffer) -> Result<gst::Buffer, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_push_and_pull( self.0.as_ptr(), buffer.into_ptr(), )) .ok_or_else(|| glib::bool_error!("Failed to push and pull buffer")) } } /// Pushes an [`gst::Event`][crate::gst::Event] on the [`Harness`][crate::Harness] srcpad. /// /// MT safe. /// ## `event` /// a [`gst::Event`][crate::gst::Event] to push /// /// # Returns /// /// a `gboolean` with the result from the push #[doc(alias = "gst_harness_push_event")] pub fn push_event(&mut self, event: gst::Event) -> bool { unsafe { from_glib(ffi::gst_harness_push_event( self.0.as_ptr(), event.into_ptr(), )) } } /// Transfer data from the src-[`Harness`][crate::Harness] to the main-[`Harness`][crate::Harness]. It consists /// of 4 steps: /// 1: Make sure the src is started. (see: gst_harness_play) /// 2: Crank the clock (see: gst_harness_crank_single_clock_wait) /// 3: Pull a [`gst::Buffer`][crate::gst::Buffer] from the src-[`Harness`][crate::Harness] (see: gst_harness_pull) /// 4: Push the same [`gst::Buffer`][crate::gst::Buffer] into the main-[`Harness`][crate::Harness] (see: gst_harness_push) /// /// MT safe. /// /// # Returns /// /// a [`gst::FlowReturn`][crate::gst::FlowReturn] with the result of the push #[doc(alias = "gst_harness_push_from_src")] pub fn push_from_src(&mut self) -> Result<gst::FlowSuccess, gst::FlowError> { unsafe { try_from_glib(ffi::gst_harness_push_from_src(self.0.as_ptr())) } } /// Transfer one [`gst::Buffer`][crate::gst::Buffer] from the main-[`Harness`][crate::Harness] to the sink-[`Harness`][crate::Harness]. /// See gst_harness_push_from_src for details. /// /// MT safe. /// /// # Returns /// /// a [`gst::FlowReturn`][crate::gst::FlowReturn] with the result of the push #[doc(alias = "gst_harness_push_to_sink")] pub fn push_to_sink(&mut self) -> Result<gst::FlowSuccess, gst::FlowError> { unsafe { try_from_glib(ffi::gst_harness_push_to_sink(self.0.as_ptr())) } } /// Pushes an [`gst::Event`][crate::gst::Event] on the [`Harness`][crate::Harness] sinkpad. /// /// MT safe. /// ## `event` /// a [`gst::Event`][crate::gst::Event] to push /// /// # Returns /// /// a `gboolean` with the result from the push #[doc(alias = "gst_harness_push_upstream_event")] pub fn push_upstream_event(&mut self, event: gst::Event) -> bool { unsafe { from_glib(ffi::gst_harness_push_upstream_event( self.0.as_ptr(), event.into_ptr(), )) } } /// Get the min latency reported by any harnessed [`gst::Element`][crate::gst::Element]. /// /// MT safe. /// /// # Returns /// /// a `GstClockTime` with min latency #[doc(alias = "gst_harness_query_latency")] pub fn query_latency(&self) -> Option<gst::ClockTime> { unsafe { from_glib(ffi::gst_harness_query_latency(self.0.as_ptr())) } } //pub fn set(&mut self, element_name: &str, first_property_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs) { // unsafe { TODO: call ffi::gst_harness_set() } //} /// Setting this will make the harness block in the chain-function, and /// then release when [`pull()`][Self::pull()] or [`try_pull()`][Self::try_pull()] is called. /// Can be useful when wanting to control a src-element that is not implementing /// `gst_clock_id_wait()` so it can't be controlled by the [`TestClock`][crate::TestClock], since /// it otherwise would produce buffers as fast as possible. /// /// MT safe. #[doc(alias = "gst_harness_set_blocking_push_mode")] pub fn set_blocking_push_mode(&mut self) { unsafe { ffi::gst_harness_set_blocking_push_mode(self.0.as_ptr()); } } /// Sets the [`Harness`][crate::Harness] srcpad and sinkpad caps. /// /// MT safe. /// ## `in_` /// a [`gst::Caps`][crate::gst::Caps] to set on the harness srcpad /// ## `out` /// a [`gst::Caps`][crate::gst::Caps] to set on the harness sinkpad #[doc(alias = "gst_harness_set_caps")] pub fn set_caps(&mut self, in_: gst::Caps, out: gst::Caps) { unsafe { ffi::gst_harness_set_caps(self.0.as_ptr(), in_.into_ptr(), out.into_ptr()); } } /// Sets the [`Harness`][crate::Harness] srcpad and sinkpad caps using strings. /// /// MT safe. /// ## `in_` /// a `gchar` describing a [`gst::Caps`][crate::gst::Caps] to set on the harness srcpad /// ## `out` /// a `gchar` describing a [`gst::Caps`][crate::gst::Caps] to set on the harness sinkpad #[doc(alias = "gst_harness_set_caps_str")] pub fn set_caps_str(&mut self, in_: &str, out: &str) { unsafe { ffi::gst_harness_set_caps_str( self.0.as_ptr(), in_.to_glib_none().0, out.to_glib_none().0, ); } } /// When set to [`true`], instead of placing the buffers arriving from the harnessed /// [`gst::Element`][crate::gst::Element] inside the sinkpads `GAsyncQueue`, they are instead unreffed. /// /// MT safe. /// ## `drop_buffers` /// a `gboolean` specifying to drop outgoing buffers or not #[doc(alias = "gst_harness_set_drop_buffers")] pub fn set_drop_buffers(&mut self, drop_buffers: bool) { unsafe { ffi::gst_harness_set_drop_buffers(self.0.as_ptr(), drop_buffers.into_glib()); } } /// As a convenience, a src-harness will forward [`gst::EventType::StreamStart`][crate::gst::EventType::StreamStart], /// [`gst::EventType::Caps`][crate::gst::EventType::Caps] and [`gst::EventType::Segment`][crate::gst::EventType::Segment] to the main-harness if forwarding /// is enabled, and forward any sticky-events from the main-harness to /// the sink-harness. It will also forward the `GST_QUERY_ALLOCATION`. /// /// If forwarding is disabled, the user will have to either manually push /// these events from the src-harness using [`src_push_event()`][Self::src_push_event()], or /// create and push them manually. While this will allow full control and /// inspection of these events, for the most cases having forwarding enabled /// will be sufficient when writing a test where the src-harness' main function /// is providing data for the main-harness. /// /// Forwarding is enabled by default. /// /// MT safe. /// ## `forwarding` /// a `gboolean` to enable/disable forwarding #[doc(alias = "gst_harness_set_forwarding")] pub fn set_forwarding(&mut self, forwarding: bool) { unsafe { ffi::gst_harness_set_forwarding(self.0.as_ptr(), forwarding.into_glib()); } } /// Sets the liveness reported by [`Harness`][crate::Harness] when receiving a latency-query. /// The default is [`true`]. /// ## `is_live` /// [`true`] for live, [`false`] for non-live #[doc(alias = "gst_harness_set_live")] #[cfg(any(feature = "v1_20", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_20")))] pub fn set_live(&mut self, is_live: bool) { unsafe { ffi::gst_harness_set_live(self.0.as_ptr(), is_live.into_glib()) } } //pub fn set_propose_allocator<P: IsA<gst::Allocator>>(&mut self, allocator: Option<&P>, params: Option<&gst::AllocationParams>) { // unsafe { TODO: call ffi::gst_harness_set_propose_allocator() } //} /// Sets the [`Harness`][crate::Harness] sinkpad caps. /// /// MT safe. /// ## `caps` /// a [`gst::Caps`][crate::gst::Caps] to set on the harness sinkpad #[doc(alias = "gst_harness_set_sink_caps")] pub fn set_sink_caps(&mut self, caps: gst::Caps) { unsafe { ffi::gst_harness_set_sink_caps(self.0.as_ptr(), caps.into_ptr()); } } /// Sets the [`Harness`][crate::Harness] sinkpad caps using a string. /// /// MT safe. /// ## `str` /// a `gchar` describing a [`gst::Caps`][crate::gst::Caps] to set on the harness sinkpad #[doc(alias = "gst_harness_set_sink_caps_str")] pub fn set_sink_caps_str(&mut self, str: &str) { unsafe { ffi::gst_harness_set_sink_caps_str(self.0.as_ptr(), str.to_glib_none().0); } } /// Sets the [`Harness`][crate::Harness] srcpad caps. This must be done before any buffers /// can legally be pushed from the harness to the element. /// /// MT safe. /// ## `caps` /// a [`gst::Caps`][crate::gst::Caps] to set on the harness srcpad #[doc(alias = "gst_harness_set_src_caps")] pub fn set_src_caps(&mut self, caps: gst::Caps) { unsafe { ffi::gst_harness_set_src_caps(self.0.as_ptr(), caps.into_ptr()); } } /// Sets the [`Harness`][crate::Harness] srcpad caps using a string. This must be done before /// any buffers can legally be pushed from the harness to the element. /// /// MT safe. /// ## `str` /// a `gchar` describing a [`gst::Caps`][crate::gst::Caps] to set on the harness srcpad #[doc(alias = "gst_harness_set_src_caps_str")] pub fn set_src_caps_str(&mut self, str: &str) { unsafe { ffi::gst_harness_set_src_caps_str(self.0.as_ptr(), str.to_glib_none().0); } } /// Advance the [`TestClock`][crate::TestClock] to a specific time. /// /// MT safe. /// ## `time` /// a `GstClockTime` to advance the clock to /// /// # Returns /// /// a `gboolean` [`true`] if the time could be set. [`false`] if not. #[doc(alias = "gst_harness_set_time")] pub fn set_time(&mut self, time: gst::ClockTime) -> Result<(), glib::BoolError> { unsafe { glib::result_from_gboolean!( ffi::gst_harness_set_time(self.0.as_ptr(), time.into_glib()), "Failed to set time", ) } } /// Sets the min latency reported by [`Harness`][crate::Harness] when receiving a latency-query /// ## `latency` /// a `GstClockTime` specifying the latency #[doc(alias = "gst_harness_set_upstream_latency")] pub fn set_upstream_latency(&mut self, latency: gst::ClockTime) { unsafe { ffi::gst_harness_set_upstream_latency(self.0.as_ptr(), latency.into_glib()); } } /// Convenience that calls gst_harness_push_to_sink `pushes` number of times. /// Will abort the pushing if any one push fails. /// /// MT safe. /// ## `pushes` /// a `gint` with the number of calls to gst_harness_push_to_sink /// /// # Returns /// /// a [`gst::FlowReturn`][crate::gst::FlowReturn] with the result of the push #[doc(alias = "gst_harness_sink_push_many")] pub fn sink_push_many(&mut self, pushes: u32) -> Result<gst::FlowSuccess, gst::FlowError> { unsafe { try_from_glib(ffi::gst_harness_sink_push_many( self.0.as_ptr(), pushes as i32, )) } } /// Transfer data from the src-[`Harness`][crate::Harness] to the main-[`Harness`][crate::Harness]. Similar to /// gst_harness_push_from_src, this variant allows you to specify how many cranks /// and how many pushes to perform. This can be useful for both moving a lot /// of data at the same time, as well as cases when one crank does not equal one /// buffer to push and v.v. /// /// MT safe. /// ## `cranks` /// a `gint` with the number of calls to gst_harness_crank_single_clock_wait /// ## `pushes` /// a `gint` with the number of calls to gst_harness_push /// /// # Returns /// /// a [`gst::FlowReturn`][crate::gst::FlowReturn] with the result of the push #[doc(alias = "gst_harness_src_crank_and_push_many")] pub fn src_crank_and_push_many( &mut self, cranks: u32, pushes: u32, ) -> Result<gst::FlowSuccess, gst::FlowError> { unsafe { try_from_glib(ffi::gst_harness_src_crank_and_push_many( self.0.as_ptr(), cranks as i32, pushes as i32, )) } } /// Similar to what gst_harness_src_push does with `GstBuffers`, this transfers /// a [`gst::Event`][crate::gst::Event] from the src-[`Harness`][crate::Harness] to the main-[`Harness`][crate::Harness]. Note that /// some `GstEvents` are being transferred automagically. Look at sink_forward_pad /// for details. /// /// MT safe. /// /// # Returns /// /// a `gboolean` with the result of the push #[doc(alias = "gst_harness_src_push_event")] pub fn src_push_event(&mut self) -> bool { unsafe { from_glib(ffi::gst_harness_src_push_event(self.0.as_ptr())) } } //pub fn stress_custom_start<'a, P: Into<Option<&'a /*Ignored*/glib::Func>>, Q: Into<Option</*Unimplemented*/Fundamental: Pointer>>>(&mut self, init: P, callback: /*Unknown conversion*//*Unimplemented*/Func, data: Q, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_custom_start() } //} //pub fn stress_property_start_full(&mut self, name: &str, value: /*Ignored*/&glib::Value, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_property_start_full() } //} //pub fn stress_push_buffer_start_full(&mut self, caps: &mut gst::Caps, segment: /*Ignored*/&gst::Segment, buf: &mut gst::Buffer, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_buffer_start_full() } //} //pub fn stress_push_buffer_with_cb_start_full<P: Into<Option</*Unimplemented*/Fundamental: Pointer>>>(&mut self, caps: &mut gst::Caps, segment: /*Ignored*/&gst::Segment, func: /*Unknown conversion*//*Unimplemented*/HarnessPrepareBufferFunc, data: P, notify: /*Unknown conversion*//*Unimplemented*/DestroyNotify, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_buffer_with_cb_start_full() } //} //pub fn stress_push_event_start_full(&mut self, event: &mut gst::Event, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_event_start_full() } //} //pub fn stress_push_event_with_cb_start_full<P: Into<Option</*Unimplemented*/Fundamental: Pointer>>>(&mut self, func: /*Unknown conversion*//*Unimplemented*/HarnessPrepareEventFunc, data: P, notify: /*Unknown conversion*//*Unimplemented*/DestroyNotify, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_event_with_cb_start_full() } //} //pub fn stress_push_upstream_event_start_full(&mut self, event: &mut gst::Event, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_upstream_event_start_full() } //} //pub fn stress_push_upstream_event_with_cb_start_full<P: Into<Option</*Unimplemented*/Fundamental: Pointer>>>(&mut self, func: /*Unknown conversion*//*Unimplemented*/HarnessPrepareEventFunc, data: P, notify: /*Unknown conversion*//*Unimplemented*/DestroyNotify, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_push_upstream_event_with_cb_start_full() } //} //pub fn stress_requestpad_start_full(&mut self, templ: /*Ignored*/&gst::PadTemplate, name: &str, caps: &mut gst::Caps, release: bool, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_requestpad_start_full() } //} //pub fn stress_statechange_start_full(&mut self, sleep: libc::c_ulong) -> /*Ignored*/Option<HarnessThread> { // unsafe { TODO: call ffi::gst_harness_stress_statechange_start_full() } //} /// Pulls all pending data from the harness and returns it as a single buffer. /// /// # Returns /// /// the data as a buffer. Unref with `gst_buffer_unref()` /// when no longer needed. #[cfg(any(feature = "v1_14", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_14")))] #[doc(alias = "gst_harness_take_all_data_as_buffer")] pub fn take_all_data_as_buffer(&mut self) -> Result<gst::Buffer, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_take_all_data_as_buffer(self.0.as_ptr())) .ok_or_else(|| glib::bool_error!("Failed to take all data as buffer")) } } /// Pulls all pending data from the harness and returns it as a single [`glib::Bytes`][crate::glib::Bytes]. /// /// # Returns /// /// a pointer to the data, newly allocated. Free /// with `g_free()` when no longer needed. #[cfg(any(feature = "v1_14", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_14")))] #[doc(alias = "gst_harness_take_all_data_as_bytes")] pub fn take_all_data_as_bytes(&mut self) -> Result<glib::Bytes, glib::BoolError> { unsafe { Option::<_>::from_glib_full(ffi::gst_harness_take_all_data_as_bytes(self.0.as_ptr())) .ok_or_else(|| glib::bool_error!("Failed to take all data as bytes")) } } /// Pulls a [`gst::Buffer`][crate::gst::Buffer] from the `GAsyncQueue` on the [`Harness`][crate::Harness] sinkpad. Unlike /// gst_harness_pull this will not wait for any buffers if not any are present, /// and return [`None`] straight away. /// /// MT safe. /// /// # Returns /// /// a [`gst::Buffer`][crate::gst::Buffer] or [`None`] if no buffers are present in the `GAsyncQueue` #[doc(alias = "gst_harness_try_pull")] pub fn try_pull(&mut self) -> Option<gst::Buffer> { unsafe { from_glib_full(ffi::gst_harness_try_pull(self.0.as_ptr())) } } /// Pulls an [`gst::Event`][crate::gst::Event] from the `GAsyncQueue` on the [`Harness`][crate::Harness] sinkpad. /// See gst_harness_try_pull for details. /// /// MT safe. /// /// # Returns /// /// a [`gst::Event`][crate::gst::Event] or [`None`] if no buffers are present in the `GAsyncQueue` #[doc(alias = "gst_harness_try_pull_event")] pub fn try_pull_event(&mut self) -> Option<gst::Event> { unsafe { from_glib_full(ffi::gst_harness_try_pull_event(self.0.as_ptr())) } } /// Pulls an [`gst::Event`][crate::gst::Event] from the `GAsyncQueue` on the [`Harness`][crate::Harness] srcpad. /// See gst_harness_try_pull for details. /// /// MT safe. /// /// # Returns /// /// a [`gst::Event`][crate::gst::Event] or [`None`] if no buffers are present in the `GAsyncQueue` #[doc(alias = "gst_harness_try_pull_upstream_event")] pub fn try_pull_upstream_event(&mut self) -> Option<gst::Event> { unsafe { from_glib_full(ffi::gst_harness_try_pull_upstream_event(self.0.as_ptr())) } } /// The number of `GstEvents` currently in the [`Harness`][crate::Harness] srcpad `GAsyncQueue` /// /// MT safe. /// /// # Returns /// /// a `guint` number of events in the queue #[doc(alias = "gst_harness_upstream_events_in_queue")] pub fn upstream_events_in_queue(&self) -> u32 { unsafe { ffi::gst_harness_upstream_events_in_queue(self.0.as_ptr()) } } /// The total number of `GstEvents` that has arrived on the [`Harness`][crate::Harness] srcpad /// This number includes events handled by the harness as well as events /// that have already been pulled out. /// /// MT safe. /// /// # Returns /// /// a `guint` number of events received #[doc(alias = "gst_harness_upstream_events_received")] pub fn upstream_events_received(&self) -> u32 { unsafe { ffi::gst_harness_upstream_events_received(self.0.as_ptr()) } } /// Sets the system [`gst::Clock`][crate::gst::Clock] on the [`Harness`][crate::Harness] [`gst::Element`][crate::gst::Element] /// /// MT safe. #[doc(alias = "gst_harness_use_systemclock")] pub fn use_systemclock(&mut self) { unsafe { ffi::gst_harness_use_systemclock(self.0.as_ptr()); } } /// Sets the [`TestClock`][crate::TestClock] on the [`Harness`][crate::Harness] [`gst::Element`][crate::gst::Element] /// /// MT safe. #[doc(alias = "gst_harness_use_testclock")] pub fn use_testclock(&mut self) { unsafe { ffi::gst_harness_use_testclock(self.0.as_ptr()); } } /// Waits for `timeout` seconds until `waits` number of `GstClockID` waits is /// registered with the [`TestClock`][crate::TestClock]. Useful for writing deterministic tests, /// where you want to make sure that an expected number of waits have been /// reached. /// /// MT safe. /// ## `waits` /// a `guint` describing the numbers of `GstClockID` registered with /// the [`TestClock`][crate::TestClock] /// ## `timeout` /// a `guint` describing how many seconds to wait for `waits` to be true /// /// # Returns /// /// a `gboolean` [`true`] if the waits have been registered, [`false`] if not. /// (Could be that it timed out waiting or that more waits than waits was found) #[doc(alias = "gst_harness_wait_for_clock_id_waits")] pub fn wait_for_clock_id_waits( &mut self, waits: u32, timeout: u32, ) -> Result<(), glib::BoolError> { unsafe { glib::result_from_gboolean!( ffi::gst_harness_wait_for_clock_id_waits(self.0.as_ptr(), waits, timeout), "Failed to wait for clock id waits", ) } } unsafe fn from_glib_full(ptr: *mut ffi::GstHarness) -> Harness { assert!(!ptr.is_null()); Harness(ptr::NonNull::new_unchecked(ptr)) } /// Creates a new harness. Works like [`with_padnames()`][Self::with_padnames()], except it /// assumes the [`gst::Element`][crate::gst::Element] sinkpad is named "sink" and srcpad is named "src" /// /// MT safe. /// ## `element_name` /// a `gchar` describing the [`gst::Element`][crate::gst::Element] name /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new")] pub fn new(element_name: &str) -> Harness { assert_initialized_main_thread!(); unsafe { Self::from_glib_full(ffi::gst_harness_new(element_name.to_glib_none().0)) } } /// Creates a new empty harness. Use [`add_element_full()`][Self::add_element_full()] to add /// an [`gst::Element`][crate::gst::Element] to it. /// /// MT safe. /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new_empty")] pub fn new_empty() -> Harness { assert_initialized_main_thread!(); unsafe { Self::from_glib_full(ffi::gst_harness_new_empty()) } } /// Creates a new harness. /// /// MT safe. /// ## `element` /// a [`gst::Element`][crate::gst::Element] to attach the harness to (transfer none) /// ## `hsrc` /// a [`gst::StaticPadTemplate`][crate::gst::StaticPadTemplate] describing the harness srcpad. /// [`None`] will not create a harness srcpad. /// ## `element_sinkpad_name` /// a `gchar` with the name of the element /// sinkpad that is then linked to the harness srcpad. Can be a static or request /// or a sometimes pad that has been added. [`None`] will not get/request a sinkpad /// from the element. (Like if the element is a src.) /// ## `hsink` /// a [`gst::StaticPadTemplate`][crate::gst::StaticPadTemplate] describing the harness sinkpad. /// [`None`] will not create a harness sinkpad. /// ## `element_srcpad_name` /// a `gchar` with the name of the element /// srcpad that is then linked to the harness sinkpad, similar to the /// `element_sinkpad_name`. /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new_full")] pub fn new_full<P: IsA<gst::Element>>( element: &P, hsrc: Option<&gst::StaticPadTemplate>, element_sinkpad_name: Option<&str>, hsink: Option<&gst::StaticPadTemplate>, element_srcpad_name: Option<&str>, ) -> Harness { assert_initialized_main_thread!(); let element_sinkpad_name = element_sinkpad_name.to_glib_none(); let element_srcpad_name = element_srcpad_name.to_glib_none(); unsafe { Self::from_glib_full(ffi::gst_harness_new_full( element.as_ref().to_glib_none().0, hsrc.to_glib_none().0 as *mut _, element_sinkpad_name.0, hsink.to_glib_none().0 as *mut _, element_srcpad_name.0, )) } } /// Creates a new harness, parsing the `launchline` and putting that in a [`gst::Bin`][crate::gst::Bin], /// and then attches the harness to the bin. /// /// MT safe. /// ## `launchline` /// a `gchar` describing a gst-launch type line /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new_parse")] pub fn new_parse(launchline: &str) -> Harness { assert_initialized_main_thread!(); unsafe { Self::from_glib_full(ffi::gst_harness_new_parse(launchline.to_glib_none().0)) } } /// Creates a new harness. Works in the same way as [`new_full()`][Self::new_full()], only /// that generic padtemplates are used for the harness src and sinkpads, which /// will be sufficient in most usecases. /// /// MT safe. /// ## `element` /// a [`gst::Element`][crate::gst::Element] to attach the harness to (transfer none) /// ## `element_sinkpad_name` /// a `gchar` with the name of the element /// sinkpad that is then linked to the harness srcpad. [`None`] does not attach a /// sinkpad /// ## `element_srcpad_name` /// a `gchar` with the name of the element /// srcpad that is then linked to the harness sinkpad. [`None`] does not attach a /// srcpad /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new_with_element")] pub fn with_element<P: IsA<gst::Element>>( element: &P, element_sinkpad_name: Option<&str>, element_srcpad_name: Option<&str>, ) -> Harness { assert_initialized_main_thread!(); let element_sinkpad_name = element_sinkpad_name.to_glib_none(); let element_srcpad_name = element_srcpad_name.to_glib_none(); unsafe { Self::from_glib_full(ffi::gst_harness_new_with_element( element.as_ref().to_glib_none().0, element_sinkpad_name.0, element_srcpad_name.0, )) } } /// Creates a new harness. Works like [`with_element()`][Self::with_element()], /// except you specify the factoryname of the [`gst::Element`][crate::gst::Element] /// /// MT safe. /// ## `element_name` /// a `gchar` describing the [`gst::Element`][crate::gst::Element] name /// ## `element_sinkpad_name` /// a `gchar` with the name of the element /// sinkpad that is then linked to the harness srcpad. [`None`] does not attach a /// sinkpad /// ## `element_srcpad_name` /// a `gchar` with the name of the element /// srcpad that is then linked to the harness sinkpad. [`None`] does not attach a /// srcpad /// /// # Returns /// /// a [`Harness`][crate::Harness], or [`None`] if the harness could /// not be created #[doc(alias = "gst_harness_new_with_padnames")] pub fn with_padnames( element_name: &str, element_sinkpad_name: Option<&str>, element_srcpad_name: Option<&str>, ) -> Harness { assert_initialized_main_thread!(); let element_sinkpad_name = element_sinkpad_name.to_glib_none(); let element_srcpad_name = element_srcpad_name.to_glib_none(); unsafe { Self::from_glib_full(ffi::gst_harness_new_with_padnames( element_name.to_glib_none().0, element_sinkpad_name.0, element_srcpad_name.0, )) } } #[doc(alias = "gst_harness_new_with_templates")] pub fn with_templates( element_name: &str, hsrc: Option<&gst::StaticPadTemplate>, hsink: Option<&gst::StaticPadTemplate>, ) -> Harness { assert_initialized_main_thread!(); unsafe { Self::from_glib_full(ffi::gst_harness_new_with_templates( element_name.to_glib_none().0, hsrc.to_glib_none().0 as *mut _, hsink.to_glib_none().0 as *mut _, )) } } //pub fn stress_thread_stop(t: /*Ignored*/&mut HarnessThread) -> u32 { // unsafe { TODO: call ffi::gst_harness_stress_thread_stop() } //} #[doc(alias = "get_element")] pub fn element(&self) -> Option<gst::Element> { unsafe { // Work around https://gitlab.freedesktop.org/gstreamer/gstreamer/merge_requests/31 let ptr = (*self.0.as_ptr()).element; if ptr.is_null() { return None; } // Clear floating flag if it is set if glib::gobject_ffi::g_object_is_floating(ptr as *mut _) != glib::ffi::GFALSE { glib::gobject_ffi::g_object_ref_sink(ptr as *mut _); } from_glib_none(ptr) } } #[doc(alias = "get_sinkpad")] pub fn sinkpad(&self) -> Option<gst::Pad> { unsafe { // Work around https://gitlab.freedesktop.org/gstreamer/gstreamer/merge_requests/31 let ptr = (*self.0.as_ptr()).sinkpad; if ptr.is_null() { return None; } // Clear floating flag if it is set if glib::gobject_ffi::g_object_is_floating(ptr as *mut _) != glib::ffi::GFALSE { glib::gobject_ffi::g_object_ref_sink(ptr as *mut _); } from_glib_none(ptr) } } #[doc(alias = "get_srcpad")] pub fn srcpad(&self) -> Option<gst::Pad> { unsafe { // Work around https://gitlab.freedesktop.org/gstreamer/gstreamer/merge_requests/31 let ptr = (*self.0.as_ptr()).srcpad; if ptr.is_null() { return None; } // Clear floating flag if it is set if glib::gobject_ffi::g_object_is_floating(ptr as *mut _) != glib::ffi::GFALSE { glib::gobject_ffi::g_object_ref_sink(ptr as *mut _); } from_glib_none(ptr) } } #[doc(alias = "get_sink_harness")] pub fn sink_harness(&self) -> Option<Ref> { unsafe { let sink_harness = (*self.0.as_ptr()).sink_harness; if sink_harness.is_null() { None } else { Some(Ref( mem::ManuallyDrop::new(Harness(ptr::NonNull::new_unchecked(sink_harness))), PhantomData, )) } } } #[doc(alias = "get_src_harness")] pub fn src_harness(&self) -> Option<Ref> { unsafe { let src_harness = (*self.0.as_ptr()).src_harness; if src_harness.is_null() { None } else { Some(Ref( mem::ManuallyDrop::new(Harness(ptr::NonNull::new_unchecked(src_harness))), PhantomData, )) } } } #[doc(alias = "get_mut_sink_harness")] pub fn sink_harness_mut(&mut self) -> Option<RefMut> { unsafe { let sink_harness = (*self.0.as_ptr()).sink_harness; if sink_harness.is_null() { None } else { Some(RefMut( mem::ManuallyDrop::new(Harness(ptr::NonNull::new_unchecked(sink_harness))), PhantomData, )) } } } #[doc(alias = "get_mut_src_harness")] pub fn src_harness_mut(&mut self) -> Option<RefMut> { unsafe { let src_harness = (*self.0.as_ptr()).src_harness; if src_harness.is_null() { None } else { Some(RefMut( mem::ManuallyDrop::new(Harness(ptr::NonNull::new_unchecked(src_harness))), PhantomData, )) } } } } #[derive(Debug)] pub struct Ref<'a>(mem::ManuallyDrop<Harness>, PhantomData<&'a Harness>); impl<'a> ops::Deref for Ref<'a> { type Target = Harness; fn deref(&self) -> &Harness { &*self.0 } } #[derive(Debug)] pub struct RefMut<'a>(mem::ManuallyDrop<Harness>, PhantomData<&'a mut Harness>); impl<'a> ops::Deref for RefMut<'a> { type Target = Harness; fn deref(&self) -> &Harness { &*self.0 } } impl<'a> ops::DerefMut for RefMut<'a> { fn deref_mut(&mut self) -> &mut Harness { &mut *self.0 } } #[cfg(test)] mod tests { use super::*; #[test] fn test_identity_push_pull() { gst::init().unwrap(); let mut h = Harness::new("identity"); h.set_src_caps_str("application/test"); let buf = gst::Buffer::new(); let buf = h.push_and_pull(buf); assert!(buf.is_ok()); } }