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nih-plug/src/buffer/blocks.rs

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Rust
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2022-03-11 04:15:55 +11:00
//! Per-block per-channel per-sample iterators.
use std::marker::PhantomData;
#[cfg(feature = "simd")]
use std::simd::{LaneCount, Simd, SupportedLaneCount};
use super::SamplesIter;
/// An iterator over all samples in the buffer, slicing over the sample-dimension with a maximum
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/// size of `max_block_size`. See [`Buffer::iter_blocks()`][super::Buffer::iter_blocks()]. Yields
/// both the block and the offset from the start of the buffer.
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pub struct BlocksIter<'slice, 'sample: 'slice> {
/// The raw output buffers.
pub(super) buffers: *mut [&'sample mut [f32]],
pub(super) max_block_size: usize,
pub(super) current_block_start: usize,
pub(super) _marker: PhantomData<&'slice mut [&'sample mut [f32]]>,
}
/// A block yielded by [`BlocksIter`]. Can be iterated over once or multiple times, and also
/// supports direct access to the block's samples if needed.
pub struct Block<'slice, 'sample: 'slice> {
/// The raw output buffers.
pub(self) buffers: *mut [&'sample mut [f32]],
pub(self) current_block_start: usize,
/// The index of the last sample in the block plus one.
pub(self) current_block_end: usize,
pub(self) _marker: PhantomData<&'slice mut [&'sample mut [f32]]>,
}
/// An iterator over all channels in a block yielded by [`Block`], returning an entire channel slice
/// at a time.
pub struct BlockChannelsIter<'slice, 'sample: 'slice> {
/// The raw output buffers.
pub(self) buffers: *mut [&'sample mut [f32]],
pub(self) current_block_start: usize,
pub(self) current_block_end: usize,
pub(self) current_channel: usize,
pub(self) _marker: PhantomData<&'slice mut [&'sample mut [f32]]>,
}
impl<'slice, 'sample> Iterator for BlocksIter<'slice, 'sample> {
type Item = (usize, Block<'slice, 'sample>);
#[inline]
fn next(&mut self) -> Option<Self::Item> {
let buffer_len = unsafe { (*self.buffers)[0].len() };
if self.current_block_start < buffer_len {
let current_block_start = self.current_block_start;
let current_block_end =
(self.current_block_start + self.max_block_size).min(buffer_len);
let block = Block {
buffers: self.buffers,
current_block_start,
current_block_end,
_marker: self._marker,
};
self.current_block_start += self.max_block_size;
Some((current_block_start, block))
} else {
None
}
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let remaining = ((unsafe { (*self.buffers)[0].len() } - self.current_block_start) as f32
/ self.max_block_size as f32)
.ceil() as usize;
(remaining, Some(remaining))
}
}
impl<'slice, 'sample> IntoIterator for Block<'slice, 'sample> {
type Item = &'sample mut [f32];
type IntoIter = BlockChannelsIter<'slice, 'sample>;
#[inline]
fn into_iter(self) -> Self::IntoIter {
BlockChannelsIter {
buffers: self.buffers,
current_block_start: self.current_block_start,
current_block_end: self.current_block_end,
current_channel: 0,
_marker: self._marker,
}
}
}
impl<'slice, 'sample> Iterator for BlockChannelsIter<'slice, 'sample> {
type Item = &'sample mut [f32];
#[inline]
fn next(&mut self) -> Option<Self::Item> {
if self.current_channel < unsafe { (*self.buffers).len() } {
// SAFETY: These bounds have already been checked
// SAFETY: It is also not possible to have multiple mutable references to the same
// sample at the same time
let slice = unsafe {
(*self.buffers)
.get_unchecked_mut(self.current_channel)
.get_unchecked_mut(self.current_block_start..self.current_block_end)
};
self.current_channel += 1;
Some(slice)
} else {
None
}
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let remaining = unsafe { (*self.buffers).len() } - self.current_channel;
(remaining, Some(remaining))
}
}
impl ExactSizeIterator for BlocksIter<'_, '_> {}
impl ExactSizeIterator for BlockChannelsIter<'_, '_> {}
impl<'slice, 'sample> Block<'slice, 'sample> {
/// Get the number of samples (not channels) in the block.
#[allow(clippy::len_without_is_empty)]
#[inline]
pub fn len(&self) -> usize {
self.current_block_end - self.current_block_start
}
/// Returns the numer of channels in this buffer.
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#[inline]
pub fn channels(&self) -> usize {
unsafe { (*self.buffers).len() }
}
/// A resetting iterator. This lets you iterate over the same block multiple times. Otherwise
/// you don't need to use this function as [`Block`] already implements [`Iterator`]. You can
/// also use the direct accessor functions on this block instead.
#[inline]
pub fn iter_mut(&mut self) -> BlockChannelsIter<'slice, 'sample> {
BlockChannelsIter {
buffers: self.buffers,
current_block_start: self.current_block_start,
current_block_end: self.current_block_end,
current_channel: 0,
_marker: self._marker,
}
}
/// Iterate over this block on a per-sample per-channel basis. This is identical to
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/// [`Buffer::iter_samples()`][super::Buffer::iter_samples()] but for a smaller block instead of
/// the entire buffer
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#[inline]
pub fn iter_samples(&mut self) -> SamplesIter<'slice, 'sample> {
SamplesIter {
buffers: self.buffers,
current_sample: self.current_block_start,
samples_end: self.current_block_end,
_marker: self._marker,
}
}
/// Access a channel by index. Useful when you would otherwise iterate over this [`Block`]
/// multiple times.
#[inline]
pub fn get(&self, channel_index: usize) -> Option<&[f32]> {
// SAFETY: The block bound has already been checked
unsafe {
Some(
(*self.buffers)
.get(channel_index)?
.get_unchecked(self.current_block_start..self.current_block_end),
)
}
}
/// The same as [`get()`][Self::get], but without any bounds checking.
///
/// # Safety
///
/// `channel_index` must be in the range `0..Self::len()`.
#[inline]
pub unsafe fn get_unchecked(&self, channel_index: usize) -> &[f32] {
(*self.buffers)
.get_unchecked(channel_index)
.get_unchecked(self.current_block_start..self.current_block_end)
}
/// Access a mutable channel by index. Useful when you would otherwise iterate over this
/// [`Block`] multiple times.
#[inline]
pub fn get_mut(&mut self, channel_index: usize) -> Option<&mut [f32]> {
// SAFETY: The block bound has already been checked
unsafe {
Some(
(*self.buffers)
.get_mut(channel_index)?
.get_unchecked_mut(self.current_block_start..self.current_block_end),
)
}
}
/// The same as [`get_mut()`][Self::get_mut], but without any bounds checking.
///
/// # Safety
///
/// `channel_index` must be in the range `0..Self::len()`.
#[inline]
pub unsafe fn get_unchecked_mut(&mut self, channel_index: usize) -> &mut [f32] {
(*self.buffers)
.get_unchecked_mut(channel_index)
.get_unchecked_mut(self.current_block_start..self.current_block_end)
}
/// Get a SIMD vector containing the channel data for a specific sample in this block. If `LANES
/// > channels.len()` then this will be padded with zeroes. If `LANES < channels.len()` then
/// this won't contain all values.
///
/// Returns a `None` value if `sample_index` is out of bounds.
#[cfg(feature = "simd")]
#[inline]
pub fn to_channel_simd<const LANES: usize>(
&self,
sample_index: usize,
) -> Option<Simd<f32, LANES>>
where
LaneCount<LANES>: SupportedLaneCount,
{
if sample_index > self.len() {
return None;
}
let used_lanes = self.len().max(LANES);
let mut values = [0.0; LANES];
for (channel_idx, value) in values.iter_mut().enumerate().take(used_lanes) {
*value = unsafe {
*(*self.buffers)
.get_unchecked(channel_idx)
.get_unchecked(self.current_block_start + sample_index)
};
}
Some(Simd::from_array(values))
}
/// Get a SIMD vector containing the channel data for a specific sample in this block. Will
/// always read exactly `LANES` channels, and does not perform bounds checks on `sample_index`.
///
/// # Safety
///
/// Undefined behavior if `LANES > block.len()` or if `sample_index > block.len()`.
#[cfg(feature = "simd")]
#[inline]
pub unsafe fn to_channel_simd_unchecked<const LANES: usize>(
&self,
sample_index: usize,
) -> Simd<f32, LANES>
where
LaneCount<LANES>: SupportedLaneCount,
{
let mut values = [0.0; LANES];
for (channel_idx, value) in values.iter_mut().enumerate() {
*value = *(*self.buffers)
.get_unchecked(channel_idx)
.get_unchecked(self.current_block_start + sample_index);
}
Simd::from_array(values)
}
/// Write data from a SIMD vector to this sample's channel data for a specific sample in this
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/// block. This takes the padding added by [`to_channel_simd()`][Self::to_channel_simd()] into
/// account.
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///
/// Returns `false` if `sample_index` is out of bounds.
#[cfg(feature = "simd")]
#[allow(clippy::wrong_self_convention)]
#[inline]
pub fn from_channel_simd<const LANES: usize>(
&mut self,
sample_index: usize,
vector: Simd<f32, LANES>,
) -> bool
where
LaneCount<LANES>: SupportedLaneCount,
{
if sample_index > self.len() {
return false;
}
let used_lanes = self.len().max(LANES);
let values = vector.to_array();
for (channel_idx, value) in values.into_iter().enumerate().take(used_lanes) {
*unsafe {
(*self.buffers)
.get_unchecked_mut(channel_idx)
.get_unchecked_mut(self.current_block_start + sample_index)
} = value;
}
true
}
/// Write data from a SIMD vector to this sample's channel data for a specific sample in this
/// block.. This assumes `LANES` matches exactly with the number of channels in the buffer, and
/// does not perform bounds checks on `sample_index`.
///
/// # Safety
///
/// Undefined behavior if `LANES > block.len()` or if `sample_index > block.len()`.
#[cfg(feature = "simd")]
#[allow(clippy::wrong_self_convention)]
#[inline]
pub unsafe fn from_channel_simd_unchecked<const LANES: usize>(
&mut self,
sample_index: usize,
vector: Simd<f32, LANES>,
) where
LaneCount<LANES>: SupportedLaneCount,
{
let values = vector.to_array();
for (channel_idx, value) in values.into_iter().enumerate() {
*(*self.buffers)
.get_unchecked_mut(channel_idx)
.get_unchecked_mut(self.current_block_start + sample_index) = value;
}
}
}