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https://gitlab.freedesktop.org/gstreamer/gstreamer-rs.git
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fix typos in comments
Part-of: <https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/-/merge_requests/1246>
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22 changed files with 31 additions and 31 deletions
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@ -91,7 +91,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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element_error!(
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appsink,
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gst::ResourceError::Failed,
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("Failed to interprete buffer as S16 PCM")
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("Failed to interpret buffer as S16 PCM")
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);
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gst::FlowError::Error
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@ -53,7 +53,7 @@ mod cairo_compositor {
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// Implementation of glib::Object virtual methods.
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impl ObjectImpl for CairoCompositor {
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// Specfication of the compositor properties.
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// Specification of the compositor properties.
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// In this case a single property for configuring the background color of the
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// composition.
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fn properties() -> &'static [glib::ParamSpec] {
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@ -453,7 +453,7 @@ mod cairo_compositor {
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// Implementation of glib::Object virtual methods.
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impl ObjectImpl for CairoCompositorPad {
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// Specfication of the compositor pad properties.
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// Specification of the compositor pad properties.
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// In this case there are various properties for defining the position and otherwise
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// the appearance of the stream corresponding to this pad.
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fn properties() -> &'static [glib::ParamSpec] {
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@ -1,7 +1,7 @@
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// This example demonstrates the use of the d3d11videosink's "present"
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// signal and the use of Direct2D/DirectWrite APIs in Rust.
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//
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// Application can perform various hardware-acceleated 2D graphics operation
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// Application can perform various hardware-accelerated 2D graphics operation
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// (e.g., like cairo can support) and text rendering via the Windows APIs.
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// In this example, 2D graphics operation and text rendering will happen
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// directly to the on the DXGI swapchain's backbuffer via Windows API in
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@ -129,7 +129,7 @@ fn main() -> Result<()> {
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// APIs are marked as unsafe, except for cast.
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//
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// In theory, all the Direct3D/Direct2D APIs could fail for
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// some reasons (it's hardware!), but in pratice, it's very unexpected
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// some reasons (it's hardware!), but in practice, it's very unexpected
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// situation and any of failure below would mean we are doing
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// something in wrong way or driver bug or so.
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unsafe {
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@ -1,5 +1,5 @@
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// This example demonstrates another type of combination of gtk and gstreamer,
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// in comparision to the gtksink example.
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// in comparison to the gtksink example.
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// This example uses regions that are managed by the window system, and uses
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// the window system's api to insert a videostream into these regions.
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// So essentially, the window system of the system overlays our gui with
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@ -107,7 +107,7 @@ fn create_ui(app: >k::Application) {
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src.link(&sink).unwrap();
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// First, we create our gtk window - which will contain a region where
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// our overlayed video will be displayed in.
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// our overlaid video will be displayed in.
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let window = gtk::Window::new(gtk::WindowType::Toplevel);
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window.set_default_size(320, 240);
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@ -130,7 +130,7 @@ fn create_ui(app: >k::Application) {
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.unwrap()
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.downgrade();
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// Connect to this widget's realize signal, which will be emitted
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// after its display has been initialized. This is neccessary, because
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// after its display has been initialized. This is necessary, because
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// the window system doesn't know about our region until it was initialized.
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video_window.connect_realize(move |video_window| {
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// Here we temporarily retrieve a strong reference on the video-overlay from the
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@ -1,5 +1,5 @@
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// This example demonstrates how to use GStreamer's iteration APIs.
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// This is used at multiple occassions - for example to iterate an
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// This is used at multiple occasions - for example to iterate an
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// element's pads.
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use gst::prelude::*;
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@ -17,7 +17,7 @@ fn example_main() {
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gst::init().unwrap();
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// Let GStreamer create a pipeline from the parsed launch syntax on the cli.
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// In comparision to the launch_glib_main example, this is using the advanced launch syntax
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// In comparison to the launch_glib_main example, this is using the advanced launch syntax
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// parsing API of GStreamer. The function returns a Result, handing us the pipeline if
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// parsing and creating succeeded, and hands us detailed error information if something
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// went wrong. The error is passed as gst::ParseError. In this example, we separately
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@ -250,7 +250,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// will then change its caps and we use the notification about this change to
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// resize our canvas's size.
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// Another possibility for when this might happen is, when our video is a network
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// stream that dynamically changes resolution when enough bandwith is available.
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// stream that dynamically changes resolution when enough bandwidth is available.
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overlay.connect_closure(
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"caps-changed",
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false,
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@ -150,7 +150,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// The image we draw (the text) will be static, but we will change the
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// transformation on the drawing context, which rotates and shifts everything
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// that we draw afterwards. Like this, we have no complicated calulations
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// that we draw afterwards. Like this, we have no complicated calculations
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// in the actual drawing below.
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// Calling multiple transformation methods after each other will apply the
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// new transformation on top. If you repeat the cr.rotate(angle) line below
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@ -179,7 +179,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// to end up as a 200x100 rectangle would now be 100x200.
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pangocairo::functions::update_layout(&cr, layout);
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let (width, _height) = layout.size();
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// Using width and height of the text, we can properly possition it within
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// Using width and height of the text, we can properly position it within
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// our canvas.
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cr.move_to(
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-(f64::from(width) / f64::from(pango::SCALE)) / 2.0,
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@ -241,7 +241,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// will then change its caps and we use the notification about this change to
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// resize our canvas's size.
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// Another possibility for when this might happen is, when our video is a network
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// stream that dynamically changes resolution when enough bandwith is available.
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// stream that dynamically changes resolution when enough bandwidth is available.
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overlay.connect_closure(
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"caps-changed",
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false,
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@ -134,7 +134,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// The image we draw (the text) will be static, but we will change the
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// transformation on the drawing context, which rotates and shifts everything
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// that we draw afterwards. Like this, we have no complicated calulations
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// that we draw afterwards. Like this, we have no complicated calculations
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// in the actual drawing below.
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// Calling multiple transformation methods after each other will apply the
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// new transformation on top. If you repeat the cr.rotate(angle) line below
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@ -163,7 +163,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// to end up as a 200x100 rectangle would now be 100x200.
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pangocairo::functions::update_layout(&cr, layout);
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let (width, _height) = layout.size();
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// Using width and height of the text, we can properly possition it within
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// Using width and height of the text, we can properly position it within
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// our canvas.
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cr.move_to(
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-(f64::from(width) / f64::from(pango::SCALE)) / 2.0,
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@ -187,7 +187,7 @@ fn create_pipeline() -> Result<gst::Pipeline, Error> {
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// will then change its caps and we use the notification about this change to
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// resize our canvas's size.
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// Another possibility for when this might happen is, when our video is a network
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// stream that dynamically changes resolution when enough bandwith is available.
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// stream that dynamically changes resolution when enough bandwidth is available.
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overlay.connect("caps-changed", false, move |args| {
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let _overlay = args[0].get::<gst::Element>().unwrap();
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let caps = args[1].get::<gst::Caps>().unwrap();
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@ -59,7 +59,7 @@ fn example_main() {
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let playbin = values[0]
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.get::<glib::Object>()
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.expect("playbin \"audio-tags-changed\" signal values[1]");
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// This gets the index of the stream that changed. This is neccessary, since
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// This gets the index of the stream that changed. This is necessary, since
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// there could e.g. be multiple audio streams (english, spanish, ...).
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let idx = values[1]
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.get::<i32>()
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@ -50,7 +50,7 @@ fn main_loop() -> Result<(), Error> {
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&"user",
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)]);
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let basic = gst_rtsp_server::RTSPAuth::make_basic("user", "password");
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// For propery authentication, we want to use encryption. And there's no
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// For proper authentication, we want to use encryption. And there's no
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// encryption without a certificate!
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let cert = gio::TlsCertificate::from_pem(
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"-----BEGIN CERTIFICATE-----\
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@ -60,7 +60,7 @@ mod fir_filter {
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// Implementation of gst::Element virtual methods
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impl ElementImpl for FirFilter {
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// The element specific metadata. This information is what is visible from
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// gst-inspect-1.0 and can also be programatically retrieved from the gst::Registry
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// gst-inspect-1.0 and can also be programmatically retrieved from the gst::Registry
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// after initial registration without having to load the plugin in memory.
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fn metadata() -> Option<&'static gst::subclass::ElementMetadata> {
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static ELEMENT_METADATA: Lazy<gst::subclass::ElementMetadata> = Lazy::new(|| {
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@ -191,7 +191,7 @@ status = "generate"
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name = "is_missing_plugin_message"
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ignore = true
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# Initialization is handled implicitely
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# Initialization is handled implicitly
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[[object.function]]
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name = "pb_utils_init"
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ignore = true
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@ -400,7 +400,7 @@ impl Ord for VideoFormatInfo {
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.then_with(|| self.h_sub().cmp(other.h_sub()).reverse())
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.then_with(|| self.n_planes().cmp(&other.n_planes()))
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.then_with(|| {
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// Format using native endianess is considered as bigger
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// Format using native endianness is considered as bigger
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match (
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self.flags().contains(crate::VideoFormatFlags::LE),
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other.flags().contains(crate::VideoFormatFlags::LE),
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@ -9,7 +9,7 @@ use serde_bytes::{ByteBuf, Bytes};
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use crate::{Buffer, BufferFlags, BufferRef, ClockTime};
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// TODO: try `Either<ByteBuf, Bytes>` to merge the base reprensentations for ser and de
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// TODO: try `Either<ByteBuf, Bytes>` to merge the base representations for ser and de
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// while avoiding unneeded copy
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impl Serialize for BufferRef {
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@ -302,7 +302,7 @@ impl DateTime {
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.and_then(|d| d.to_utc())
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.map(|d| d.into())
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} else {
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// It would be cheaper to build a `glib::DateTime` direcly, unfortunetaly
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// It would be cheaper to build a `glib::DateTime` directly, unfortunetaly
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// this would require using `glib::TimeZone::new_offset` which is feature-gated
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// to `glib/v2_58`. So we need to build a new `gst::DateTime` with `0f64`
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// and then discard seconds again
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@ -88,13 +88,13 @@ pub trait CompatibleFormattedValue<V: FormattedValue> {
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/// Returns `Ok(self)` with its type restored if it is compatible with the format of `V`.
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///
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/// When possible, prefer using [`Self::try_into_checked`] which
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/// reduces the risk of missuse.
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/// reduces the risk of misuse.
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///
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/// When used with compatible [`SpecificFormattedValue`]s, checks
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/// are enforced by the type system, no runtime checks are performed.
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///
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/// When used with [`SpecificFormattedValue`] as a parameter and
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/// a [`GenericFormattedValue`] as `Self`, a runtime check is perfomed
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/// a [`GenericFormattedValue`] as `Self`, a runtime check is performed
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/// against the default format of the parameter. If the check fails,
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/// `Err(FormattedValueError)` is returned.
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///
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@ -110,7 +110,7 @@
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//! assert_eq!(*(8.mebibytes()), 8 * 1024 * 1024);
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//! assert_eq!(*(4.gibibytes()), 4 * 1024 * 1024 * 1024);
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//!
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//! // ... and the macthing constants:
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//! // ... and the matching constants:
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//! assert_eq!(512 * Bytes::KiB, 512.kibibytes());
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//!
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//! // `Percent` can be built from a percent integer value:
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@ -9,7 +9,7 @@ use crate::utils::Displayable;
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/// A signed wrapper.
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///
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/// This wrapper allows representing a signed value from a type
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/// which is originaly unsigned. In C APIs, this is represented
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/// which is originally unsigned. In C APIs, this is represented
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/// by a tuple with a signed integer positive or negative and
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/// the absolute value.
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#[derive(Clone, Copy, Debug, Eq, PartialEq, Hash)]
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@ -38,7 +38,7 @@ macro_rules! ser_opt_tag (
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);
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);
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// Note: unlike `Value`s, `Tag`s with optional `Type` `String` & `Date` values are guarenteed
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// Note: unlike `Value`s, `Tag`s with optional `Type` `String` & `Date` values are guaranteed
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// to be Non-null and non-empty in the C API. See:
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// https://gitlab.freedesktop.org/gstreamer/gstreamer/blob/d90d771a9a512381315f7694c3a50b152035f3cb/gst/gststructure.c#L810-853
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@ -198,7 +198,7 @@ fn main() {
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let mut samples = buffer.map_writable().unwrap();
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let samples = samples.as_mut_slice_of::<i16>().unwrap();
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// Generate some psychodelic waveforms
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// Generate some psychedelic waveforms
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data.c += data.d;
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data.d -= data.c / 1000.0;
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let freq = 1100.0 + 1000.0 * data.d;
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@ -107,7 +107,7 @@ fn tutorial_main() -> Result<(), Error> {
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let mut samples = buffer.map_writable().unwrap();
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let samples = samples.as_mut_slice_of::<i16>().unwrap();
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// Generate some psychodelic waveforms
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// Generate some psychedelic waveforms
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data.c += data.d;
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data.d -= data.c / 1000.0;
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let freq = 1100.0 + 1000.0 * data.d;
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