mirror of
https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs.git
synced 2024-12-24 11:00:29 +00:00
379 lines
12 KiB
Rust
379 lines
12 KiB
Rust
// Copyright (C) 2020 Mathieu Duponchelle <mathieu@centricular.com>
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Library General Public
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// License as published by the Free Software Foundation; either
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// version 2 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Library General Public License for more details.
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//
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// You should have received a copy of the GNU Library General Public
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// License along with this library; if not, write to the
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// Free Software Foundation, Inc., 51 Franklin Street, Suite 500,
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// Boston, MA 02110-1335, USA.
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#[macro_use]
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extern crate pretty_assertions;
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use gst::EventView;
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fn init() {
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use std::sync::Once;
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static INIT: Once = Once::new();
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INIT.call_once(|| {
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gst::init().unwrap();
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gstrsclosedcaption::plugin_register_static().unwrap();
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});
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}
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fn new_timed_buffer<T: AsRef<[u8]> + Send + 'static>(
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slice: T,
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timestamp: gst::ClockTime,
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duration: gst::ClockTime,
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) -> gst::buffer::Buffer {
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let mut buf = gst::Buffer::from_slice(slice);
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let buf_ref = buf.get_mut().unwrap();
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buf_ref.set_pts(timestamp);
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buf_ref.set_duration(duration);
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buf
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}
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#[test]
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fn test_non_timed_buffer() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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let inbuf = gst::Buffer::from_slice(&"Hello");
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assert_eq!(h.push(inbuf), Err(gst::FlowError::Error));
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}
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/* Check translation of a simple string */
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#[test]
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fn test_one_timed_buffer_and_eos() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", gst::SECOND, gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let expected: [(gst::ClockTime, gst::ClockTime, [u8; 2usize]); 11] = [
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(700_000_000.into(), 33_333_333.into(), [0x94, 0x20]), /* resume_caption_loading */
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(733_333_333.into(), 33_333_334.into(), [0x94, 0x20]), /* control doubled */
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(766_666_667.into(), 33_333_333.into(), [0x94, 0xae]), /* erase_non_displayed_memory */
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(800_000_000.into(), 33_333_333.into(), [0x94, 0xae]), /* control doubled */
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(833_333_333.into(), 33_333_334.into(), [0x94, 0x40]), /* preamble */
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(866_666_667.into(), 33_333_333.into(), [0x94, 0x40]), /* control doubled */
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(900_000_000.into(), 33_333_333.into(), [0xc8, 0xe5]), /* H e */
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(933_333_333.into(), 33_333_334.into(), [0xec, 0xec]), /* l l */
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(966_666_667.into(), 33_333_333.into(), [0xef, 0x80]), /* o, nil */
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(gst::SECOND, 33_333_333.into(), [0x94, 0x2f]), /* end_of_caption */
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(1_033_333_333.into(), 33_333_334.into(), [0x94, 0x2f]), /* control doubled */
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];
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for (i, e) in expected.iter().enumerate() {
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let outbuf = h.try_pull().unwrap();
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assert_eq!(
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e.0,
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outbuf.get_pts(),
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"Unexpected PTS for {}th buffer",
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i + 1
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);
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assert_eq!(
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e.1,
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outbuf.get_duration(),
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"Unexpected duration for {}th buffer",
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i + 1
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);
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let data = outbuf.map_readable().unwrap();
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assert_eq!(e.2, &*data);
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}
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assert_eq!(h.buffers_in_queue(), 0);
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h.push_event(gst::event::Eos::new());
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/* Check that we do receive an erase_display */
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assert_eq!(h.buffers_in_queue(), 2);
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while h.buffers_in_queue() > 0 {
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let outbuf = h.try_pull().unwrap();
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let data = outbuf.map_readable().unwrap();
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assert_eq!(&*data, &[0x94, 0x2c]);
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}
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assert_eq!(h.events_in_queue() >= 1, true);
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/* Gap event, we ignore those here and test them separately */
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while h.events_in_queue() > 1 {
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let _event = h.pull_event().unwrap();
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}
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let event = h.pull_event().unwrap();
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assert_eq!(event.get_type(), gst::EventType::Eos);
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}
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/* Here we test that the erase_display_memory control code
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* gets inserted at the correct moment, when there's enough
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* of an interval between two buffers
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*/
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#[test]
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fn test_erase_display_memory_non_spliced() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", 1_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let inbuf = new_timed_buffer(&"World", 3_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let mut erase_display_buffers = 0;
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while h.buffers_in_queue() > 0 {
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let outbuf = h.pull().unwrap();
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if outbuf.get_pts() == 2_000_000_000.into() || outbuf.get_pts() == 2_033_333_333.into() {
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let data = outbuf.map_readable().unwrap();
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assert_eq!(&*data, &[0x94, 0x2c]);
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erase_display_buffers += 1;
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}
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}
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assert_eq!(erase_display_buffers, 2);
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}
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/* Here we test that the erase_display_memory control code
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* gets spliced in with the byte pairs of the following buffer
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* when there's not enough of an interval between them.
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*/
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#[test]
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fn test_erase_display_memory_spliced() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", 1_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let inbuf = new_timed_buffer(&"World", 2_200_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let mut erase_display_buffers = 0;
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let mut prev_pts: gst::ClockTime = 0.into();
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while h.buffers_in_queue() > 0 {
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let outbuf = h.pull().unwrap();
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/* Check that our timestamps are strictly ascending */
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assert!(outbuf.get_pts() > prev_pts);
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if outbuf.get_pts() == 2_000_000_000.into() || outbuf.get_pts() == 2_033_333_333.into() {
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let data = outbuf.map_readable().unwrap();
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assert_eq!(&*data, &[0x94, 0x2c]);
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erase_display_buffers += 1;
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}
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prev_pts = outbuf.get_pts();
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}
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assert_eq!(erase_display_buffers, 2);
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}
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/* Here we test that the erase_display_memory control code
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* gets output "in time" when we receive gaps
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*/
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#[test]
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fn test_erase_display_memory_gaps() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", 1_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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/* Let's first push a gap that doesn't leave room for our two control codes */
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let gap_event = gst::event::Gap::new(2 * gst::SECOND, 2_533_333_333.into());
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assert_eq!(h.push_event(gap_event), true);
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let mut erase_display_buffers = 0;
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while h.buffers_in_queue() > 0 {
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let outbuf = h.pull().unwrap();
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let data = outbuf.map_readable().unwrap();
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if *data == [0x94, 0x2c] {
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erase_display_buffers += 1;
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}
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}
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assert_eq!(erase_display_buffers, 0);
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let gap_event = gst::event::Gap::new(4_533_333_333.into(), 1.into());
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assert_eq!(h.push_event(gap_event), true);
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while h.buffers_in_queue() > 0 {
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let outbuf = h.pull().unwrap();
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let data = outbuf.map_readable().unwrap();
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if *data == [0x94, 0x2c] {
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erase_display_buffers += 1;
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}
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}
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assert_eq!(erase_display_buffers, 2);
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}
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/* Here we verify that the element outputs a continuous stream
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* with gap events
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*/
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#[test]
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fn test_output_gaps() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=pop-on");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", 1_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let inbuf = new_timed_buffer(&"World", 3_000_000_000.into(), gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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assert_eq!(h.events_in_queue(), 3);
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/* One gap from the start of the segment to the first
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* buffer, another from the end_of_caption control code for
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* the first buffer to its erase_display control code,
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* then one gap from erase_display to the beginning
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* of the second buffer
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*/
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let expected: [(gst::ClockTime, gst::ClockTime); 3] = [
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(0.into(), 700_000_000.into()),
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(1_066_666_667.into(), 933_333_333.into()),
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(2_066_666_667.into(), 633_333_333.into()),
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];
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for e in &expected {
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let event = h.pull_event().unwrap();
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assert_eq!(event.get_type(), gst::EventType::Gap);
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if let EventView::Gap(ev) = event.view() {
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let (timestamp, duration) = ev.get();
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assert_eq!(e.0, timestamp);
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assert_eq!(e.1, duration);
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}
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}
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}
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#[test]
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fn test_one_timed_buffer_and_eos_roll_up2() {
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init();
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let mut h = gst_check::Harness::new_parse("tttocea608 mode=roll-up2");
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h.set_src_caps_str("text/x-raw");
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while h.events_in_queue() != 0 {
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let _event = h.pull_event().unwrap();
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}
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let inbuf = new_timed_buffer(&"Hello", gst::SECOND, gst::SECOND);
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let inbuf = new_timed_buffer(&"World", gst::SECOND, 1.into());
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assert_eq!(h.push(inbuf), Ok(gst::FlowSuccess::Ok));
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let expected: [(gst::ClockTime, gst::ClockTime, [u8; 2usize]); 12] = [
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(1_000_000_000.into(), 33_333_333.into(), [0x94, 0x2c]), /* erase_display_memory */
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(1_033_333_333.into(), 33_333_334.into(), [0x94, 0x2c]), /* control doubled */
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(1_066_666_667.into(), 33_333_333.into(), [0x94, 0x25]), /* roll_up_2 */
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(1_100_000_000.into(), 33_333_333.into(), [0x94, 0x25]), /* control doubled */
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(1_133_333_333.into(), 33_333_334.into(), [0x94, 0xe0]), /* preamble */
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(1_166_666_667.into(), 33_333_333.into(), [0x94, 0xe0]), /* control doubled */
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(1_200_000_000.into(), 33_333_333.into(), [0xc8, 0xe5]), /* H e */
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(1_233_333_333.into(), 33_333_334.into(), [0xec, 0xec]), /* l l */
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(1_266_666_667.into(), 33_333_333.into(), [0xef, 0x80]), /* o, nil */
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(2_000_000_000.into(), 0.into(), [0x20, 0x57]), /* SPACE, W */
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(2_000_000_000.into(), 0.into(), [0xef, 0xf2]), /* o, r */
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(2_000_000_000.into(), 0.into(), [0xec, 0x64]), /* l, d */
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];
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for (i, e) in expected.iter().enumerate() {
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let outbuf = h.try_pull().unwrap();
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assert_eq!(
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e.0,
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outbuf.get_pts(),
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"Unexpected PTS for {}th buffer",
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i + 1
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);
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assert_eq!(
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e.1,
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outbuf.get_duration(),
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"Unexpected duration for {}th buffer",
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i + 1
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);
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let data = outbuf.map_readable().unwrap();
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assert_eq!(e.2, &*data);
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}
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assert_eq!(h.buffers_in_queue(), 0);
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h.push_event(gst::event::Eos::new());
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let expected_gaps: [(gst::ClockTime, gst::ClockTime); 2] = [
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(0.into(), 1_000_000_000.into()),
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(1_300_000_000.into(), 700_000_000.into()),
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];
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for e in &expected_gaps {
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let event = h.pull_event().unwrap();
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assert_eq!(event.get_type(), gst::EventType::Gap);
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if let EventView::Gap(ev) = event.view() {
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let (timestamp, duration) = ev.get();
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assert_eq!(e.0, timestamp);
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assert_eq!(e.1, duration);
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}
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}
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assert_eq!(h.events_in_queue(), 1);
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let event = h.pull_event().unwrap();
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assert_eq!(event.get_type(), gst::EventType::Eos);
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}
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