rodio/tests/seek.rs

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use std::io::{BufReader, Read, Seek};
use std::path::Path;
use std::time::Duration;
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use rodio::{Decoder, Source};
use rstest::rstest;
use rstest_reuse::{self, *};
#[template]
#[rstest]
// note: disabled, broken decoder see issue: #516
// #[cfg_attr(feature = "symphonia-vorbis"), case("ogg", true, "symphonia")],
#[cfg_attr(
all(feature = "minimp3", not(feature = "symphonia-mp3")),
case("mp3", false, "minimp3")
)]
#[cfg_attr(
all(feature = "wav", not(feature = "symphonia-wav")),
case("wav", true, "hound")
)]
#[cfg_attr(
all(feature = "flac", not(feature = "symphonia-flac")),
case("flac", false, "claxon")
)]
#[cfg_attr(feature = "symphonia-mp3", case("mp3", true, "symphonia"))]
#[cfg_attr(feature = "symponia-isomp4", case("m4a", true, "symphonia"))]
#[cfg_attr(feature = "symphonia-wav", case("wav", true, "symphonia"))]
#[cfg_attr(feature = "symphonia-flac", case("flac", true, "symphonia"))]
fn all_decoders(
#[case] format: &'static str,
#[case] supports_seek: bool,
#[case] decoder_name: &'static str,
) {
}
#[template]
#[rstest]
// note: disabled, broken decoder see issue: #516
// #[cfg_attr(feature = "symphonia-vorbis"), case("ogg", true, "symphonia")],
#[cfg_attr(
all(feature = "wav", not(feature = "symphonia-wav")),
case("wav", "hound")
)]
#[cfg_attr(feature = "symphonia-mp3", case("mp3", "symphonia"))]
#[cfg_attr(feature = "symponia-isomp4", case("m4a", "symphonia"))]
#[cfg_attr(feature = "symphonia-wav", case("wav", "symphonia"))]
#[cfg_attr(feature = "symphonia-flac", case("flac", "symphonia"))]
fn supported_decoders(#[case] format: &'static str, #[case] decoder_name: &'static str) {}
#[apply(all_decoders)]
#[trace]
fn seek_returns_err_if_unsupported(
#[case] format: &'static str,
#[case] supports_seek: bool,
#[case] decoder_name: &'static str,
) {
let mut decoder = get_music(format);
let res = decoder.try_seek(Duration::from_millis(2500));
assert_eq!(res.is_ok(), supports_seek, "decoder: {decoder_name}");
}
#[apply(supported_decoders)]
#[trace]
fn seek_beyond_end_saturates(#[case] format: &'static str, #[case] decoder_name: &'static str) {
let mut decoder = get_music(format);
println!("seeking beyond end for: {format}\t decoded by: {decoder_name}");
let res = decoder.try_seek(Duration::from_secs(999));
assert!(res.is_ok());
assert!(time_remaining(decoder) < Duration::from_secs(1));
}
#[apply(supported_decoders)]
#[trace]
fn seek_results_in_correct_remaining_playtime(
#[case] format: &'static str,
#[case] decoder_name: &'static str,
) {
println!("checking seek duration for: {format}\t decoded by: {decoder_name}");
let decoder = get_music(format);
let total_duration = time_remaining(decoder);
dbg!(total_duration);
const SEEK_BEFORE_END: Duration = Duration::from_secs(5);
let mut decoder = get_music(format);
decoder.try_seek(total_duration - SEEK_BEFORE_END).unwrap();
let after_seek = time_remaining(decoder);
let expected = SEEK_BEFORE_END;
if after_seek.as_millis().abs_diff(expected.as_millis()) > 250 {
panic!(
"Seek did not result in expected leftover playtime
leftover time: {after_seek:?}
expected time left in source: {SEEK_BEFORE_END:?}"
);
}
}
#[apply(supported_decoders)]
#[trace]
fn seek_possible_after_exausting_source(
#[case] format: &'static str,
#[case] _decoder_name: &'static str,
) {
let mut source = get_music(format);
while source.next().is_some() {}
assert!(source.next().is_none());
source.try_seek(Duration::from_secs(0)).unwrap();
assert!(source.next().is_some());
}
#[apply(supported_decoders)]
#[trace]
fn seek_does_not_break_channel_order(
#[case] format: &'static str,
#[case] _decoder_name: &'static str,
) {
let mut source = get_rl(format).convert_samples();
let channels = source.channels();
assert_eq!(channels, 2, "test needs a stereo beep file");
let beep_range = second_channel_beep_range(&mut source);
let beep_start = Duration::from_secs_f32(
beep_range.start as f32 / source.channels() as f32 / source.sample_rate() as f32,
);
let mut source = get_rl(format).convert_samples();
const WINDOW: usize = 100;
let samples: Vec<_> = source
.by_ref()
.skip(beep_range.start)
.take(WINDOW)
.collect();
assert!(is_silent(&samples, channels, 0), "{samples:?}");
assert!(!is_silent(&samples, channels, 1), "{samples:?}");
let mut channel_offset = 0;
for offset in [1, 4, 7, 40, 41, 120, 179]
.map(|offset| offset as f32 / (source.sample_rate() as f32))
.map(Duration::from_secs_f32)
{
source.next(); // WINDOW is even, make the amount of calls to next
// uneven to force issues with channels alternating
// between seek to surface
channel_offset = (channel_offset + 1) % 2;
source.try_seek(beep_start + offset).unwrap();
let samples: Vec<_> = source.by_ref().take(WINDOW).collect();
let channel0 = 0 + channel_offset;
assert!(
is_silent(&samples, source.channels(), channel0),
"channel0 should be silent,
channel0 starts at idx: {channel0}
seek: {beep_start:?} + {offset:?}
samples: {samples:?}"
);
let channel1 = (1 + channel_offset) % 2;
assert!(
!is_silent(&samples, source.channels(), channel1),
"channel1 should not be silent,
channel1; starts at idx: {channel1}
seek: {beep_start:?} + {offset:?}
samples: {samples:?}"
);
}
}
fn second_channel_beep_range<R: rodio::Source>(source: &mut R) -> std::ops::Range<usize>
where
R: Iterator<Item = f32>,
{
let channels = source.channels() as usize;
let samples: Vec<f32> = source.by_ref().collect();
const WINDOW: usize = 50;
let beep_starts = samples
.chunks_exact(WINDOW)
.enumerate()
.map(|(idx, chunk)| (idx * WINDOW, chunk))
.find(|(_, s)| {
s.iter()
.skip(1)
.step_by(channels)
.map(|s| s.abs())
.sum::<f32>()
> 0.1
})
.expect("track should not be silent")
.0;
let beep_starts = beep_starts.next_multiple_of(channels);
const BASICALLY_ZERO: f32 = 0.00001;
let beep_ends = samples
.chunks_exact(WINDOW)
.enumerate()
.map(|(idx, chunk)| (idx * WINDOW, chunk))
.skip(beep_starts / WINDOW)
.find(|(_, s)| {
s.iter()
.skip(1)
.step_by(channels)
.all(|s| s.abs() < BASICALLY_ZERO)
})
.expect("beep should end")
.0;
let beep_ends = beep_ends.next_multiple_of(channels);
beep_starts..beep_ends
}
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fn is_silent(samples: &[f32], channels: u16, channel: usize) -> bool {
assert_eq!(samples.len(), 100);
// dbg!(samples);
let channel = samples.iter().skip(channel).step_by(channels as usize);
let volume =
channel.map(|s| s.abs()).sum::<f32>() as f32 / samples.len() as f32 * channels as f32;
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const BASICALLY_ZERO: f32 = 0.0001;
volume < BASICALLY_ZERO
}
fn time_remaining(decoder: Decoder<impl Read + Seek>) -> Duration {
let rate = decoder.sample_rate() as f64;
let n_channels = decoder.channels() as f64;
let n_samples = decoder.into_iter().count() as f64;
Duration::from_secs_f64(n_samples / rate / n_channels)
}
fn get_music(format: &str) -> Decoder<impl Read + Seek> {
let asset = Path::new("assets/music").with_extension(format);
let file = std::fs::File::open(asset).unwrap();
let decoder = rodio::Decoder::new(BufReader::new(file)).unwrap();
decoder
}
fn get_rl(format: &str) -> Decoder<impl Read + Seek> {
let asset = Path::new("assets/RL").with_extension(format);
println!("opening: {}", asset.display());
let file = std::fs::File::open(asset).unwrap();
let decoder = rodio::Decoder::new(BufReader::new(file)).unwrap();
decoder
}