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beep working

This commit is contained in:
Tom Gowan 2018-10-12 16:54:26 +11:00 committed by mitchmindtree
parent 8d5cb951d8
commit d430000d2c
5 changed files with 569 additions and 1 deletions
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2
Cargo.toml
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@ -17,7 +17,7 @@ hound = "3.4"
[target.'cfg(any(target_os = "windows" ))'.dependencies] [target.'cfg(any(target_os = "windows" ))'.dependencies]
asio-sys = { version = "0.1", path = "asio-sys" } asio-sys = { version = "0.1", path = "asio-sys" }
asio-utils = { version = "0.1", path = "srs/platform/windows/asio/asio_utils" } asio_utils = { version = "0.1", path = "src/platform/windows/asio/asio_utils" }
[target.'cfg(target_os = "windows")'.dependencies] [target.'cfg(target_os = "windows")'.dependencies]
winapi = { version = "0.3", features = ["audiosessiontypes", "audioclient", "coml2api", "combaseapi", "debug", "devpkey", "handleapi", "ksmedia", "mmdeviceapi", "objbase", "std", "synchapi", "winuser"] } winapi = { version = "0.3", features = ["audiosessiontypes", "audioclient", "coml2api", "combaseapi", "debug", "devpkey", "handleapi", "ksmedia", "mmdeviceapi", "objbase", "std", "synchapi", "winuser"] }

6
src/platform/windows/asio/asio_utils/Cargo.toml Normal file
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@ -0,0 +1,6 @@
[package]
name = "asio_utils"
version = "0.1.0"
authors = ["Tom Gowan <s3549186@student.rmit.edu.au>"]
[dependencies]

60
src/platform/windows/asio/asio_utils/src/lib.rs Normal file
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@ -0,0 +1,60 @@
use std::cell::RefCell;
use std::iter::Cloned;
use std::slice::{Iter, IterMut};
#[cfg(test)]
mod tests;
/// Interleave the buffer from asio to cpal
/// asio: LLLLRRRR
/// cpal: LRLRLRLR
/// More then stereo:
/// asio: 111122223333
/// cpal: 123123123123
/// cpal buffer must have a length of exactly sum( all asio channel lengths )
/// this check is ommited for performance
pub fn interleave<T>(channel_buffer: &[Vec<T>], cpal_buffer: &mut [T])
where
T: std::marker::Copy,
{
// TODO avoid this heap allocation
// But we don't know how many channels we need.
// Could use arrayvec if we make an upper limit
let channels: Vec<RefCell<Cloned<Iter<T>>>> = channel_buffer
.iter()
.map(|c| RefCell::new(c.iter().cloned()))
.collect();
for (c_buff, channel) in cpal_buffer.iter_mut().zip(channels.iter().cycle()) {
match channel.borrow_mut().next() {
Some(c) => *c_buff = c,
None => break,
}
}
}
/// Function for deinterleaving because
/// cpal writes to buffer interleaved
/// cpal: LRLRLRLR
/// asio: LLLLRRRR
/// More then stereo:
/// cpal: 123123123123
/// asio: 111122223333
pub fn deinterleave<T>(cpal_buffer: &[T], asio_channels: &mut [Vec<T>])
where
T: std::marker::Copy,
{
// TODO avoid this heap allocation
// Possibly use arrayvec and some max channels
let channels: Vec<RefCell<IterMut<T>>> = asio_channels
.iter_mut()
.map(|c| RefCell::new(c.iter_mut()))
.collect();
for (c_buff, a_channel) in cpal_buffer.iter().zip(channels.iter().cycle()) {
match a_channel.borrow_mut().next() {
Some(c) => *c = *c_buff,
None => break,
}
}
}

89
src/platform/windows/asio/asio_utils/src/tests.rs Normal file
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@ -0,0 +1,89 @@
use super::{deinterleave, deinterleave_index, interleave};
#[test]
fn interleave_two() {
let a = vec![vec![1, 1, 1, 1], vec![2, 2, 2, 2]];
let goal = vec![1, 2, 1, 2, 1, 2, 1, 2];
let mut result = vec![0; 8];
interleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn interleave_three() {
let a = vec![vec![1, 1, 1, 1], vec![2, 2, 2, 2], vec![3, 3, 3, 3]];
let goal = vec![1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3];
let mut result = vec![0; 12];
interleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn interleave_none() {
let a = vec![Vec::<i32>::new()];
let goal = Vec::<i32>::new();
let mut result = Vec::<i32>::new();
interleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn interleave_two_diff() {
let a = vec![vec![1, 2, 3, 4], vec![5, 6, 7, 8]];
let goal = vec![1, 5, 2, 6, 3, 7, 4, 8];
let mut result = vec![0; 8];
interleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn deinterleave_two() {
let goal = vec![vec![1, 1, 1, 1], vec![2, 2, 2, 2]];
let a = vec![1, 2, 1, 2, 1, 2, 1, 2];
let mut result = vec![vec![0; 4]; 2];
deinterleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn deinterleave_three() {
let goal = vec![vec![1, 1, 1, 1], vec![2, 2, 2, 2], vec![3, 3, 3, 3]];
let a = vec![1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3];
let mut result = vec![vec![0; 4]; 3];
deinterleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn deinterleave_none() {
let goal = vec![Vec::<i32>::new()];
let a = Vec::<i32>::new();
let mut result = vec![Vec::<i32>::new()];
deinterleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}
#[test]
fn deinterleave_two_diff() {
let goal = vec![vec![1, 2, 3, 4], vec![5, 6, 7, 8]];
let a = vec![1, 5, 2, 6, 3, 7, 4, 8];
let mut result = vec![vec![0; 4]; 2];
deinterleave(&a[..], &mut result[..]);
assert_eq!(goal, result);
}

413
src/platform/windows/asio/stream.rs Normal file
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@ -0,0 +1,413 @@
extern crate asio_sys as sys;
extern crate asio_utils as au;
use std;
use Format;
use CreationError;
use StreamData;
use std::marker::PhantomData;
use super::Device;
use std::cell::Cell;
use UnknownTypeOutputBuffer;
use UnknownTypeInputBuffer;
use std::sync::{Arc, Mutex};
use std::mem;
use std::sync::atomic::{AtomicUsize, Ordering};
use SampleFormat;
pub struct EventLoop {
asio_stream: Arc<Mutex<Option<sys::AsioStream>>>,
stream_count: Arc<AtomicUsize>,
callbacks: Arc<Mutex<Vec<&'static mut (FnMut(StreamId, StreamData) + Send)>>>,
}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct StreamId(usize);
pub struct InputBuffer<'a, T: 'a> {
buffer: &'a [T],
}
pub struct OutputBuffer<'a, T: 'a> {
buffer: &'a mut [T],
}
impl EventLoop {
pub fn new() -> EventLoop {
EventLoop {
asio_stream: Arc::new(Mutex::new(None)),
stream_count: Arc::new(AtomicUsize::new(0)),
callbacks: Arc::new(Mutex::new(Vec::new())),
}
}
pub fn build_input_stream(
&self,
device: &Device,
format: &Format,
) -> Result<StreamId, CreationError> {
let stream_type = sys::get_data_type(&device.driver_name).expect("Couldn't load data type");
match sys::prepare_input_stream(&device.driver_name) {
Ok(stream) => {
let num_channels = format.channels.clone();
let cpal_num_samples =
(stream.buffer_size as usize) * num_channels as usize;
{
*self.asio_stream.lock().unwrap() = Some(stream);
}
let count = self.stream_count.load(Ordering::SeqCst);
self.stream_count.store(count + 1, Ordering::SeqCst);
let asio_stream = self.asio_stream.clone();
let callbacks = self.callbacks.clone();
let bytes_per_channel = format.data_type.sample_size();
// Create buffers
let channel_len = cpal_num_samples
/ num_channels as usize;
#[derive(Default)]
struct I16Buffer{
cpal: Vec<i16>,
channel: Vec<Vec<i16>>,
}
#[derive(Default)]
struct U16Buffer{
cpal: Vec<u16>,
channel: Vec<Vec<u16>>,
}
#[derive(Default)]
struct F32Buffer{
cpal: Vec<f32>,
channel: Vec<Vec<f32>>,
}
struct Buffers {
i16_buff: I16Buffer,
u16_buff: U16Buffer,
f32_buff: F32Buffer,
}
let mut buffers = match format.data_type{
SampleFormat::I16 => {
Buffers{
i16_buff: I16Buffer{
cpal: vec![0 as i16; cpal_num_samples],
channel: (0..num_channels)
.map(|_| Vec::with_capacity(channel_len))
.collect()},
u16_buff: U16Buffer::default(),
f32_buff: F32Buffer::default(),
}
}
SampleFormat::U16 => {
Buffers{
i16_buff: I16Buffer::default(),
u16_buff: U16Buffer{
cpal: vec![0 as u16; cpal_num_samples],
channel: (0..num_channels)
.map(|_| Vec::with_capacity(channel_len))
.collect()},
f32_buff: F32Buffer::default(),
}
}
SampleFormat::F32 => {
Buffers{
i16_buff: I16Buffer::default(),
u16_buff: U16Buffer::default(),
f32_buff: F32Buffer{
cpal: vec![0 as f32; cpal_num_samples],
channel: (0..num_channels)
.map(|_| Vec::with_capacity(channel_len))
.collect()},
}
}
};
sys::set_callback(move |index| unsafe {
if let Some(ref asio_stream) = *asio_stream.lock().unwrap() {
// Number of samples needed total
let mut callbacks = callbacks.lock().unwrap();
// Assuming only one callback, probably needs to change
match callbacks.first_mut() {
Some(callback) => {
macro_rules! try_callback {
($SampleFormat:ident,
$SampleType:ty,
$SampleTypeIdent:ident,
$AsioType:ty,
$AsioTypeIdent:ident,
$Buffers:expr,
$BuffersType:ty,
$BuffersTypeIdent:ident
) => {
// Function for interleaving because
// cpal writes to buffer interleaved
/*
let $BuffersTypeIdent {
cpal: ref mut buffer,
channel: ref channels,
} = *buffers;
let length = channels[0].len();
for i in 0..length{
for channel in channels{
buffer.push(channel[i]);
}
}
}
*/
// For each channel write the cpal data to
// the asio buffer
// Also need to check for Endian
for (i, channel) in $Buffers.channel.iter_mut().enumerate(){
let buff_ptr = asio_stream
.buffer_infos[i]
.buffers[index as usize] as *mut $AsioType;
//.offset(asio_stream.buffer_size as isize * i as isize);
let asio_buffer: &'static [$AsioType] =
std::slice::from_raw_parts(
buff_ptr,
asio_stream.buffer_size as usize);
for asio_s in asio_buffer.iter(){
channel.push( (*asio_s as i64 *
::std::$SampleTypeIdent::MAX as i64 /
::std::$AsioTypeIdent::MAX as i64) as $SampleType);
}
}
// interleave all the channels
{
let $BuffersTypeIdent {
cpal: ref mut c_buffer,
channel: ref channels,
} = $Buffers;
au::interleave(&channels, c_buffer);
}
let buff = InputBuffer{
buffer: &mut $Buffers.cpal,
};
callback(
StreamId(count),
StreamData::Input{
buffer: UnknownTypeInputBuffer::$SampleFormat(
::InputBuffer{
buffer: Some(super::super::InputBuffer::Asio(buff))
})
}
);
}
};
// Generic over types
// TODO check for endianess
match stream_type {
sys::AsioSampleType::ASIOSTInt32LSB => {
try_callback!(I16, i16, i16, i32, i32,
buffers.i16_buff, I16Buffer, I16Buffer);
}
sys::AsioSampleType::ASIOSTInt16LSB => {
try_callback!(I16, i16, i16, i16, i16,
buffers.i16_buff, I16Buffer, I16Buffer);
}
sys::AsioSampleType::ASIOSTFloat32LSB => {
try_callback!(F32, f32, f32, f32, f32,
buffers.f32_buff, F32Buffer, F32Buffer);
}
sys::AsioSampleType::ASIOSTFloat64LSB => {
try_callback!(F32, f32, f32, f64, f64,
buffers.f32_buff, F32Buffer, F32Buffer);
}
_ => println!("unsupported format {:?}", stream_type),
}
}
None => return (),
}
}
});
Ok(StreamId(count))
}
Err(ref e) => {
println!("Error preparing stream: {}", e);
Err(CreationError::DeviceNotAvailable)
}
}
}
pub fn build_output_stream(
&self,
device: &Device,
format: &Format,
) -> Result<StreamId, CreationError> {
let stream_type = sys::get_data_type(&device.driver_name).expect("Couldn't load data type");
match sys::prepare_stream(&device.driver_name) {
Ok(stream) => {
{
*self.asio_stream.lock().unwrap() = Some(stream);
}
let count = self.stream_count.load(Ordering::SeqCst);
self.stream_count.store(count + 1, Ordering::SeqCst);
let asio_stream = self.asio_stream.clone();
let callbacks = self.callbacks.clone();
let bytes_per_channel = format.data_type.sample_size();
let num_channels = format.channels.clone();
// Get stream types
sys::set_callback(move |index| unsafe {
if let Some(ref asio_stream) = *asio_stream.lock().unwrap() {
// Number of samples needed total
let cpal_num_samples =
(asio_stream.buffer_size as usize) * num_channels as usize;
let mut callbacks = callbacks.lock().unwrap();
// Assuming only one callback, probably needs to change
match callbacks.first_mut() {
Some(callback) => {
macro_rules! try_callback {
($SampleFormat:ident,
$SampleType:ty,
$SampleTypeIdent:ident,
$AsioType:ty,
$AsioTypeIdent:ident) => {
// Buffer that is filled by cpal.
let mut cpal_buffer: Vec<$SampleType> = vec![0 as $SampleType; cpal_num_samples];
// Call in block because of mut borrow
{
let buff = OutputBuffer{
buffer: &mut cpal_buffer
};
callback(
StreamId(count),
StreamData::Output{
buffer: UnknownTypeOutputBuffer::$SampleFormat(
::OutputBuffer{
target: Some(super::super::OutputBuffer::Asio(buff))
})
}
);
}
// Function for deinterleaving because
// cpal writes to buffer interleaved
/*
fn deinterleave(data_slice: &mut [$SampleType],
num_channels: usize,
channels: &mut [Vec<$SampleType>]) {
for (i, &sample) in data_slice.iter().enumerate() {
let ch = i % num_channels;
channels[ch].push(sample);
}
}
*/
// Deinter all the channels
let channel_len = cpal_buffer.len()
/ num_channels as usize;
let mut deinter_channels: Vec<_> = (0..num_channels)
.map(|_| vec![0.0 as $SampleType; channel_len])
.collect();
au::deinterleave(&cpal_buffer[..], &mut deinter_channels[..]);
// For each channel write the cpal data to
// the asio buffer
// Also need to check for Endian
for (i, channel) in deinter_channels.into_iter().enumerate(){
let buff_ptr = (asio_stream
.buffer_infos[i]
.buffers[index as usize] as *mut $AsioType)
.offset(asio_stream.buffer_size as isize * i as isize);
let asio_buffer: &'static mut [$AsioType] =
std::slice::from_raw_parts_mut(
buff_ptr,
asio_stream.buffer_size as usize);
for (asio_s, cpal_s) in asio_buffer.iter_mut()
.zip(&channel){
*asio_s = (*cpal_s as i64 *
::std::$AsioTypeIdent::MAX as i64 /
::std::$SampleTypeIdent::MAX as i64) as $AsioType;
}
}
};
}
// Generic over types
// TODO check for endianess
match stream_type {
sys::AsioSampleType::ASIOSTInt32LSB => {
try_callback!(I16, i16, i16, i32, i32);
}
sys::AsioSampleType::ASIOSTInt16LSB => {
try_callback!(I16, i16, i16, i16, i16);
}
sys::AsioSampleType::ASIOSTFloat32LSB => {
try_callback!(F32, f32, f32, f32, f32);
}
sys::AsioSampleType::ASIOSTFloat64LSB => {
try_callback!(F32, f32, f32, f64, f64);
}
_ => println!("unsupported format {:?}", stream_type),
}
}
None => return (),
}
}
});
Ok(StreamId(count))
}
Err(ref e) => {
println!("Error preparing stream: {}", e);
Err(CreationError::DeviceNotAvailable)
}
}
}
pub fn play_stream(&self, stream: StreamId) {
sys::play();
}
pub fn pause_stream(&self, stream: StreamId) {
sys::stop();
}
pub fn destroy_stream(&self, stream_id: StreamId) {
let mut asio_stream_lock = self.asio_stream.lock().unwrap();
let old_stream = mem::replace(&mut *asio_stream_lock, None);
if let Some(old_stream) = old_stream {
sys::destroy_stream(old_stream);
}
}
pub fn run<F>(&self, mut callback: F) -> !
where
F: FnMut(StreamId, StreamData) + Send,
{
let callback: &mut (FnMut(StreamId, StreamData) + Send) = &mut callback;
self.callbacks
.lock()
.unwrap()
.push(unsafe { mem::transmute(callback) });
loop {
// Might need a sleep here to prevent the loop being
// removed in --release
}
}
}
impl<'a, T> InputBuffer<'a, T> {
pub fn buffer(&self) -> &[T] {
&self.buffer
}
pub fn finish(self) {
}
}
impl<'a, T> OutputBuffer<'a, T> {
pub fn buffer(&mut self) -> &mut [T] {
&mut self.buffer
}
pub fn len(&self) -> usize {
self.buffer.len()
}
pub fn finish(self) {}
}