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nih-plug/src/buffer.rs

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Rust
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use std::marker::PhantomData;
/// The audio buffers used during processing. This contains the output audio output buffers with the
/// inputs already copied to the outputs. You can either use the iterator adapters to conveniently
/// and efficiently iterate over the samples, or you can do your own thing using the raw audio
/// buffers.
#[derive(Default)]
pub struct Buffer<'a> {
/// Contains slices for the plugin's outputs. You can't directly create a nested slice form
/// apointer to pointers, so this needs to be preallocated in the setup call and kept around
/// between process calls. And because storing a reference to this means a) that you need a lot
/// of lifetime annotations everywhere and b) that at some point you need unsound lifetime casts
/// because this `Buffers` either cannot have the same lifetime as the separately stored output
/// buffers, and it also cannot be stored in a field next to it because that would mean
/// containing mutable references to data stored in a mutex.
output_slices: Vec<&'a mut [f32]>,
}
impl<'a> Buffer<'a> {
/// Returns true if this buffer does not contain any samples.
pub fn is_empty(&self) -> bool {
self.output_slices.is_empty() || self.output_slices[0].is_empty()
}
/// Obtain the raw audio buffers.
pub fn as_raw(&mut self) -> &mut [&'a mut [f32]] {
&mut self.output_slices
}
/// Iterate over the samples, returning a channel iterator for each sample.
pub fn iter_mut(&mut self) -> Samples<'a, 'a> {
Samples {
buffers: self.output_slices.as_mut_slice(),
current_sample: 0,
_marker: PhantomData,
}
}
/// Access the raw output slice vector. This neds to be resized to match the number of output
/// channels during the plugin's initialization. Then during audio processing, these slices
/// should be updated to point to the plugin's audio buffers.
///
/// # Safety
///
/// The stored slices must point to live data when this object is passed to the plugins' process
/// function. The rest of this object also assumes all channel lengths are equal. Panics will
/// likely occur if this is not the case.
pub unsafe fn as_raw_vec(&mut self) -> &mut Vec<&'a mut [f32]> {
&mut self.output_slices
}
}
/// An iterator over all samples in the buffer, yielding iterators over each channel for every
/// sample. This iteration order offers good cache locality for per-sample access.
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pub struct Samples<'buffer: 'sample, 'sample> {
/// The raw output buffers.
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pub(self) buffers: *mut [&'sample mut [f32]],
pub(self) current_sample: usize,
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pub(self) _marker: PhantomData<&'buffer mut [&'sample mut [f32]]>,
}
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impl<'buffer, 'sample> Iterator for Samples<'buffer, 'sample> {
type Item = Channels<'buffer, 'sample>;
fn next(&mut self) -> Option<Self::Item> {
if self.current_sample < unsafe { (*self.buffers)[0].len() } {
let channels = Channels {
buffers: self.buffers,
current_sample: self.current_sample,
_marker: self._marker,
};
self.current_sample += 1;
Some(channels)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
let remaining = unsafe { (*self.buffers)[0].len() } - self.current_sample;
(remaining, Some(remaining))
}
}
impl ExactSizeIterator for Samples<'_, '_> {}
/// Can construct iterators over actual iterator over the channel data for a sample, yielded by
/// [Samples].
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pub struct Channels<'buffer: 'sample, 'sample> {
/// The raw output buffers.
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pub(self) buffers: *mut [&'sample mut [f32]],
pub(self) current_sample: usize,
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pub(self) _marker: PhantomData<&'buffer mut [&'sample mut [f32]]>,
}
/// The actual iterator over the channel data for a sample, yielded by [Channels].
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pub struct ChannelsIter<'buffer: 'sample, 'sample> {
/// The raw output buffers.
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pub(self) buffers: *mut [&'sample mut [f32]],
pub(self) current_sample: usize,
pub(self) current_channel: usize,
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pub(self) _marker: PhantomData<&'buffer mut [&'sample mut [f32]]>,
}
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impl<'buffer, 'sample> IntoIterator for Channels<'buffer, 'sample> {
type Item = &'sample mut f32;
type IntoIter = ChannelsIter<'buffer, 'sample>;
fn into_iter(self) -> Self::IntoIter {
ChannelsIter {
buffers: self.buffers,
current_sample: self.current_sample,
current_channel: 0,
_marker: self._marker,
}
}
}
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impl<'buffer, 'sample> Iterator for ChannelsIter<'buffer, 'sample> {
type Item = &'sample mut f32;
fn next(&mut self) -> Option<Self::Item> {
if self.current_channel < unsafe { (*self.buffers).len() } {
// SAFETY: These bounds have already been checked
let sample = unsafe {
(*self.buffers)
.get_unchecked_mut(self.current_channel)
.get_unchecked_mut(self.current_sample)
};
// SAFETY: It is not possible to have multiple mutable references to the same sample at
// the same time
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let sample: &'sample mut f32 = unsafe { &mut *(sample as *mut f32) };
self.current_channel += 1;
Some(sample)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
let remaining = unsafe { (*self.buffers).len() } - self.current_channel;
(remaining, Some(remaining))
}
}
impl ExactSizeIterator for ChannelsIter<'_, '_> {}
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impl<'buffer, 'sample> Channels<'buffer, 'sample> {
/// Get the number of channels.
pub fn len(&self) -> usize {
unsafe { (*self.buffers).len() }
}
/// A resetting iterator. This lets you iterate over the same channels multiple times. Otherwise
/// you don't need to use this function as [Channels] already implements [Iterator].
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pub fn iter_mut(&mut self) -> ChannelsIter<'buffer, 'sample> {
// SAFETY: No two [ChannelIters] can exist at a time
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let buffers: *mut [&'sample mut [f32]] = unsafe { std::mem::transmute(self.buffers) };
ChannelsIter {
buffers,
current_sample: self.current_sample,
current_channel: 0,
_marker: PhantomData,
}
}
/// Access a sample by index. Useful when you would otehrwise iterate over this 'Channels'
/// iterator multiple times.
#[inline]
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pub fn get_mut(&mut self, channel_index: usize) -> Option<&mut f32> {
// SAFETY: The channel bound has already been checked
unsafe {
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Some(
(*self.buffers)
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.get_mut(channel_index)?
.get_unchecked_mut(self.current_sample),
)
}
}
/// The same as [Self::get_mut], but without any bounds checking.
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///
/// # Safety
///
/// `channel_index` must be in the range `0..Self::len()`.
#[inline]
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pub unsafe fn get_unchecked_mut(&mut self, channel_index: usize) -> &mut f32 {
(*self.buffers)
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.get_unchecked_mut(channel_index)
.get_unchecked_mut(self.current_sample)
}
}