Update coreaudio backend to new futures-rs oriented design.
This depends on the changes introduced in #121. Update to coreaudio 0.6.
This commit is contained in:
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6060582aa0
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@ -34,7 +34,7 @@ version = "0"
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path = "alsa-sys"
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path = "alsa-sys"
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[target.x86_64-apple-darwin.dependencies]
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[target.x86_64-apple-darwin.dependencies]
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coreaudio-rs = "~0.5.0"
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coreaudio-rs = "0.6"
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[dev-dependencies]
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[dev-dependencies]
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vorbis = "0"
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vorbis = "0"
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@ -1,20 +1,21 @@
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extern crate coreaudio;
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extern crate coreaudio;
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extern crate libc;
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extern crate libc;
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use std::sync::mpsc::{channel, Sender, Receiver};
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use std::sync::{Arc, Mutex};
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use std::sync::atomic::{AtomicUsize, Ordering};
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use std::cell::RefCell;
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use std::mem;
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use std::cmp;
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use std::marker::PhantomData;
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use CreationError;
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use CreationError;
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use Format;
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use Format;
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use FormatsEnumerationError;
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use FormatsEnumerationError;
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use Sample;
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use SampleFormat;
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use SampleFormat;
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use SamplesRate;
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use SamplesRate;
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use ChannelPosition;
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use ChannelPosition;
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use UnknownTypeBuffer;
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use futures::{Poll, Task, TaskHandle};
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use futures::stream::Stream;
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use std::sync::{Arc, Mutex};
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use self::coreaudio::audio_unit::AudioUnit;
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use self::coreaudio::audio_unit::render_callback::{self, data};
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mod enumerate;
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mod enumerate;
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@ -22,9 +23,6 @@ pub use self::enumerate::{EndpointsIterator,
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SupportedFormatsIterator,
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SupportedFormatsIterator,
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get_default_endpoint};
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get_default_endpoint};
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use self::coreaudio::audio_unit::{AudioUnit, IOType};
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use self::coreaudio::audio_unit::render_callback::{self, data};
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#[derive(Clone, PartialEq, Eq)]
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#[derive(Clone, PartialEq, Eq)]
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pub struct Endpoint;
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pub struct Endpoint;
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@ -44,36 +42,41 @@ impl Endpoint {
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}
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}
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}
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}
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pub struct Buffer<'a, T: 'a> {
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pub struct EventLoop;
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samples_sender: Sender<(Vec<f32>, NumChannels)>,
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impl EventLoop {
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samples: Vec<T>,
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#[inline]
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num_channels: NumChannels,
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pub fn new() -> EventLoop { EventLoop }
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marker: PhantomData<&'a T>,
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#[inline]
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pending_samples: Arc<AtomicUsize>
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pub fn run(&self) { loop {} }
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}
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}
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impl<'a, T> Buffer<'a, T> {
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pub struct Buffer<T> {
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args: render_callback::Args<data::NonInterleaved<T>>,
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buffer: Vec<T>,
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}
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impl<T> Buffer<T> where T: Sample {
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#[inline]
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#[inline]
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pub fn get_buffer<'b>(&'b mut self) -> &'b mut [T] {
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pub fn get_buffer(&mut self) -> &mut [T] {
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&mut self.samples[..]
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&mut self.buffer[..]
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}
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}
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#[inline]
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#[inline]
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pub fn len(&self) -> usize {
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pub fn len(&self) -> usize {
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self.samples.len()
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self.buffer.len()
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}
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}
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#[inline]
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#[inline]
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pub fn finish(self) {
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pub fn finish(self) {
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let Buffer { samples_sender, samples, num_channels, pending_samples, .. } = self;
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// TODO: At the moment this assumes the Vec<T> is a Vec<f32>.
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// TODO: At the moment this assumes the Vec<T> is a Vec<f32>.
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// Need to add T: Sample and use Sample::to_vec_f32.
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// Need to add T: Sample and use Sample::to_vec_f32.
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let num_samples = samples.len();
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let Buffer { mut args, buffer } = self;
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let samples = unsafe { mem::transmute(samples) };
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pending_samples.fetch_add(num_samples, Ordering::SeqCst);
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let num_channels = args.data.channels().count();
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match samples_sender.send((samples, num_channels)) {
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for (i, frame) in buffer.chunks(num_channels).enumerate() {
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Err(_) => panic!("Failed to send samples to audio unit callback."),
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for (channel, sample) in args.data.channels_mut().zip(frame.iter()) {
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Ok(()) => (),
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channel[i] = *sample;
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}
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}
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}
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}
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}
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}
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}
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@ -81,91 +84,116 @@ impl<'a, T> Buffer<'a, T> {
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type NumChannels = usize;
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type NumChannels = usize;
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type NumFrames = usize;
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type NumFrames = usize;
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pub struct Voice;
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#[allow(dead_code)] // the audio_unit will be dropped if we don't hold it.
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#[allow(dead_code)] // the audio_unit will be dropped if we don't hold it.
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pub struct Voice {
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pub struct SamplesStream {
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audio_unit: AudioUnit,
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audio_unit: AudioUnit,
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ready_receiver: Receiver<(NumChannels, NumFrames)>,
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inner: Arc<Mutex<SamplesStreamInner>>,
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samples_sender: Sender<(Vec<f32>, NumChannels)>,
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underflow: Arc<Mutex<RefCell<bool>>>,
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last_ready: Arc<Mutex<RefCell<Option<(NumChannels, NumFrames)>>>>,
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pending_samples: Arc<AtomicUsize>
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}
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}
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unsafe impl Sync for Voice {}
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unsafe impl Send for Voice {}
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struct SamplesStreamInner {
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scheduled_task: Option<TaskHandle>,
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current_callback: Option<render_callback::Args<data::NonInterleaved<f32>>>,
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}
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impl Stream for SamplesStream {
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type Item = UnknownTypeBuffer;
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type Error = ();
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fn poll(&mut self, _: &mut Task) -> Poll<Option<Self::Item>, Self::Error> {
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let mut inner = self.inner.lock().unwrap();
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// There are two possibilites: either we're answering a callback of coreaudio and we return
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// a buffer, or we're not answering a callback and we return that we're not ready.
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let current_callback = match inner.current_callback.take() {
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Some(c) => c,
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None => return Poll::NotReady
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};
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let buffer_len = current_callback.num_frames * current_callback.data.channels().count();
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let buffer = Buffer {
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args: current_callback,
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buffer: vec![0.0; buffer_len],
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};
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Poll::Ok(Some(UnknownTypeBuffer::F32(::Buffer { target: Some(buffer) })))
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}
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fn schedule(&mut self, task: &mut Task) {
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self.inner.lock().unwrap().scheduled_task = Some(task.handle().clone());
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}
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}
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impl Voice {
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impl Voice {
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pub fn new(_: &Endpoint, _: &Format) -> Result<Voice, CreationError> {
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pub fn new(_: &Endpoint, _: &Format, _: &EventLoop)
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// A channel for signalling that the audio unit is ready for data.
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-> Result<(Voice, SamplesStream), CreationError>
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let (ready_sender, ready_receiver) = channel();
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{
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// A channel for sending the audio callback a pointer to the sample data.
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let inner = Arc::new(Mutex::new(SamplesStreamInner {
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let (samples_sender, samples_receiver) = channel();
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scheduled_task: None,
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current_callback: None,
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}));
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let underflow = Arc::new(Mutex::new(RefCell::new(false)));
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fn convert_error(err: coreaudio::Error) -> CreationError {
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let uf_clone = underflow.clone();
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match err {
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coreaudio::Error::RenderCallbackBufferFormatDoesNotMatchAudioUnitStreamFormat |
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let pending_samples: Arc<AtomicUsize> = Arc::new(AtomicUsize::new(0));
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coreaudio::Error::NoKnownSubtype |
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coreaudio::Error::AudioUnit(coreaudio::error::AudioUnitError::FormatNotSupported) |
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let pending_samples_c = pending_samples.clone();
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coreaudio::Error::AudioCodec(_) |
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coreaudio::Error::AudioFormat(_) => CreationError::FormatNotSupported,
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let audio_unit_result = AudioUnit::new(IOType::HalOutput);
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_ => CreationError::DeviceNotAvailable,
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if let Ok(mut audio_unit) = audio_unit_result {
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// TODO: iOS uses integer and fixed-point data
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if let Ok(()) = audio_unit.set_render_callback(move |args: render_callback::Args<data::NonInterleaved<f32>>| {
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let render_callback::Args { num_frames, mut data, .. } = args;
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let num_channels = data.channels().count();
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if let Err(_) = ready_sender.send((num_channels, num_frames)) {
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return Err(());
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}
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loop {
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if let Ok((samples, num_channels)) = samples_receiver.try_recv() {
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let samples: Vec<f32> = samples;
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if let Ok(uf) = uf_clone.lock() {
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*(uf.borrow_mut()) = num_frames > samples.len() / num_channels;
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} else { return Err(()) }
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pending_samples_c.fetch_sub(samples.len(), Ordering::SeqCst);
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for (i, frame) in samples.chunks(num_channels).enumerate() {
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for (channel, sample) in data.channels_mut().zip(frame.iter()) {
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channel[i] = *sample;
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}
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}
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break;
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};
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}
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Ok(())
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}) {
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if let Ok(()) = audio_unit.start() {
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return Ok(Voice {
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audio_unit: audio_unit,
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ready_receiver: ready_receiver,
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samples_sender: samples_sender,
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underflow: underflow,
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last_ready: Arc::new(Mutex::new(RefCell::new(None))),
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pending_samples: pending_samples
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})
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}
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}
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}
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}
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}
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Err(CreationError::DeviceNotAvailable)
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let au_type = coreaudio::audio_unit::IOType::DefaultOutput;
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}
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let mut audio_unit = try!(AudioUnit::new(au_type).map_err(convert_error));
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pub fn append_data<'a, T>(&'a mut self, max_elements: usize) -> Buffer<'a, T> where T: Clone {
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// TODO: iOS uses integer and fixed-point data
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// Block until the audio callback is ready for more data.
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let (channels, frames) = self.block_until_ready();
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{
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let buffer_size = cmp::min(channels * frames, max_elements);
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let inner = inner.clone();
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Buffer {
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let result = audio_unit.set_render_callback(move |args| {
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samples_sender: self.samples_sender.clone(),
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// This callback is entered whenever the coreaudio engine needs to be fed data.
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samples: vec![unsafe { mem::uninitialized() }; buffer_size],
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num_channels: channels as usize,
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// Store the callback argument in the `SamplesStreamInner` and return the task
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marker: PhantomData,
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// that we're supposed to notify.
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pending_samples: self.pending_samples.clone()
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let scheduled = {
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let mut inner = inner.lock().unwrap();
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assert!(inner.current_callback.is_none());
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inner.current_callback = Some(args);
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inner.scheduled_task.take()
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};
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// It is important that `inner` is unlocked here.
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if let Some(scheduled) = scheduled {
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// Calling `notify()` should immediately call `poll()` on the `SamplesStream`,
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// which will use the data we stored in `current_callback`.
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scheduled.notify();
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}
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// TODO: what should happen if the callback wasn't processed? in other word, what
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// if the user didn't register any handler or did a stupid thing in the
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// handler (like mem::forgetting the buffer)?
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Ok(())
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});
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try!(result.map_err(convert_error));
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}
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}
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try!(audio_unit.start().map_err(convert_error));
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let samples_stream = SamplesStream {
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audio_unit: audio_unit,
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inner: inner,
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};
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Ok((Voice, samples_stream))
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}
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}
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#[inline]
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#[inline]
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@ -177,72 +205,4 @@ impl Voice {
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pub fn pause(&mut self) {
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pub fn pause(&mut self) {
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unimplemented!()
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unimplemented!()
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}
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}
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#[inline]
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pub fn get_period(&self) -> usize {
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if let Some(ready) = self.update_last_ready() {
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(ready.0 * ready.1) as usize
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} else {
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0
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}
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}
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#[inline]
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pub fn get_pending_samples(&self) -> usize {
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self.pending_samples.load(Ordering::Relaxed)
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}
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/// Attempts to store the most recent ready message into the internal
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/// ref cell, then return the last ready message. If the last ready hasn't
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/// been reset with `clear_last_ready`, then it will not be set and the
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/// current value will be returned. Else, the ready_receiver will be
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/// try_recv'd and if it is ready, the last ready will be set and returned.
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/// Finally, if the ready_receiver had no data at try_recv, None will be
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/// returned.
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#[inline]
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fn update_last_ready(&self) -> Option<(NumChannels, NumFrames)> {
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let refcell = self.last_ready.lock().unwrap();
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let data = refcell.borrow();
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if let Some(s) = *data {
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//
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return Some(s);
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} else {
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drop(data);
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let mut data = refcell.borrow_mut();
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if let Ok(ready) = self.ready_receiver.try_recv() {
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// the audiounit is ready so we can set last_ready
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*data = Some(ready);
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return *data;
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}
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}
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None
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}
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/// Block until ready to send data. This checks last_ready first. In any
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/// case, last_ready will be set to None when this function returns.
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fn block_until_ready(&self) -> (NumChannels, NumFrames) {
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let refcell = self.last_ready.lock().unwrap();
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let data = refcell.borrow();
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if let Some(s) = *data {
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drop(data);
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let mut data = refcell.borrow_mut();
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*data = None;
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return s;
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} else {
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match self.ready_receiver.recv() {
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Ok(ready) => {
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return ready;
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},
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Err(e) => panic!("Couldn't receive a ready message: \
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{:?}", e)
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}
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}
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}
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#[inline]
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pub fn underflowed(&self) -> bool {
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let uf = self.underflow.lock().unwrap();
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let v = uf.borrow();
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*v
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}
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}
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}
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