mirror of
https://github.com/asterinas/asterinas.git
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Expose head/tail of RingBuffer
This commit is contained in:
Ruihan Li
committed by
Jianfeng Jiang
Jianfeng Jiang
parent
a3c5ab8cb4
commit
bcf1e69878
@ -2,11 +2,11 @@
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use core::{
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use core::{
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marker::PhantomData,
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marker::PhantomData,
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num::Wrapping,
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ops::Deref,
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ops::Deref,
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sync::atomic::{AtomicUsize, Ordering},
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sync::atomic::{AtomicUsize, Ordering},
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};
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};
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use align_ext::AlignExt;
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use inherit_methods_macro::inherit_methods;
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use inherit_methods_macro::inherit_methods;
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use ostd::mm::{FrameAllocOptions, Segment, UntypedMem, VmIo};
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use ostd::mm::{FrameAllocOptions, Segment, UntypedMem, VmIo};
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@ -50,7 +50,6 @@ pub struct RingBuffer<T> {
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capacity: usize,
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capacity: usize,
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tail: AtomicUsize,
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tail: AtomicUsize,
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head: AtomicUsize,
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head: AtomicUsize,
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len: AtomicUsize,
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phantom: PhantomData<T>,
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phantom: PhantomData<T>,
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}
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}
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@ -77,17 +76,21 @@ impl<T> RingBuffer<T> {
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capacity.is_power_of_two(),
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capacity.is_power_of_two(),
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"capacity must be a power of two"
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"capacity must be a power of two"
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);
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);
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let nframes = capacity.saturating_mul(Self::T_SIZE).align_up(PAGE_SIZE) / PAGE_SIZE;
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let nframes = capacity
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.checked_mul(Self::T_SIZE)
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.unwrap()
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.div_ceil(PAGE_SIZE);
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let segment = FrameAllocOptions::new()
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let segment = FrameAllocOptions::new()
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.zeroed(false)
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.zeroed(false)
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.alloc_segment(nframes)
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.alloc_segment(nframes)
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.unwrap();
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.unwrap();
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Self {
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Self {
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segment,
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segment,
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capacity,
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capacity,
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tail: AtomicUsize::new(0),
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tail: AtomicUsize::new(0),
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head: AtomicUsize::new(0),
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head: AtomicUsize::new(0),
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len: AtomicUsize::new(0),
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phantom: PhantomData,
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phantom: PhantomData,
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}
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}
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}
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}
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@ -110,11 +113,6 @@ impl<T> RingBuffer<T> {
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self.capacity
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self.capacity
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}
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}
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/// Gets the number of items in the `RingBuffer`.
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pub fn len(&self) -> usize {
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self.len.load(Ordering::Acquire)
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}
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/// Checks if the `RingBuffer` is empty.
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/// Checks if the `RingBuffer` is empty.
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pub fn is_empty(&self) -> bool {
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pub fn is_empty(&self) -> bool {
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self.len() == 0
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self.len() == 0
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@ -122,13 +120,44 @@ impl<T> RingBuffer<T> {
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/// Checks if the `RingBuffer` is full.
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/// Checks if the `RingBuffer` is full.
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pub fn is_full(&self) -> bool {
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pub fn is_full(&self) -> bool {
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self.len() == self.capacity
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self.free_len() == 0
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}
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/// Gets the number of items in the `RingBuffer`.
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pub fn len(&self) -> usize {
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// Implementation notes: This subtraction only makes sense if either the head or the tail
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// is considered frozen; if both are volatile, the number of the items may become negative
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// due to race conditions. This is always true with a `RingBuffer` or a pair of
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// `RbProducer` and `RbConsumer`.
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(self.tail() - self.head()).0
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}
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}
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/// Gets the number of free items in the `RingBuffer`.
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/// Gets the number of free items in the `RingBuffer`.
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fn free_len(&self) -> usize {
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pub fn free_len(&self) -> usize {
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self.capacity - self.len()
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self.capacity - self.len()
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}
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}
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/// Gets the head number of the `RingBuffer`.
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///
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/// This is the number of items read from the ring buffer. The number wraps when crossing
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/// [`usize`] boundaries.
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pub fn head(&self) -> Wrapping<usize> {
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Wrapping(self.head.load(Ordering::Acquire))
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}
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/// Gets the tail number of the `RingBuffer`.
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///
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/// This is the number of items written into the ring buffer. The number wraps when crossing
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/// [`usize`] boundaries.
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pub fn tail(&self) -> Wrapping<usize> {
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Wrapping(self.tail.load(Ordering::Acquire))
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}
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/// Clears the `RingBuffer`.
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pub fn clear(&mut self) {
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self.tail.store(0, Ordering::Release);
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self.head.store(0, Ordering::Release);
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}
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}
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}
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impl<T: Pod> RingBuffer<T> {
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impl<T: Pod> RingBuffer<T> {
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@ -180,33 +209,14 @@ impl<T: Pod> RingBuffer<T> {
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consumer.pop_slice(items)
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consumer.pop_slice(items)
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}
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}
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/// Clears the `RingBuffer`.
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pub(self) fn advance_tail(&self, mut tail: Wrapping<usize>, len: usize) {
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pub fn clear(&mut self) {
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tail += len;
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self.tail.store(0, Ordering::Relaxed);
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self.tail.store(tail.0, Ordering::Release);
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self.head.store(0, Ordering::Relaxed);
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self.len.store(0, Ordering::Release);
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}
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}
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fn tail(&self) -> usize {
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pub(self) fn advance_head(&self, mut head: Wrapping<usize>, len: usize) {
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self.tail.load(Ordering::Acquire)
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head += len;
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}
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self.head.store(head.0, Ordering::Release);
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fn head(&self) -> usize {
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self.head.load(Ordering::Acquire)
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}
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fn advance_tail(&self, curr_pos: usize, len: usize) {
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let next_pos = (curr_pos + len) & (self.capacity - 1);
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self.tail.store(next_pos, Ordering::Release);
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self.len.fetch_add(len, Ordering::Release);
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}
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fn advance_head(&self, curr_pos: usize, len: usize) {
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let next_pos = (curr_pos + len) & (self.capacity - 1);
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self.head.store(next_pos, Ordering::Release);
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self.len.fetch_sub(len, Ordering::Release);
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}
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}
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}
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}
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@ -249,11 +259,11 @@ impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Producer<T, R> {
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}
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}
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let tail = rb.tail();
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let tail = rb.tail();
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debug_assert!(tail < rb.capacity);
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let offset = tail.0 & (rb.capacity - 1);
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let byte_offset = offset * Self::T_SIZE;
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let segment_offset = tail * Self::T_SIZE;
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let mut writer = rb.segment.writer();
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let mut writer = rb.segment.writer();
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writer.skip(segment_offset);
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writer.skip(byte_offset);
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writer.write_val(&item).unwrap();
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writer.write_val(&item).unwrap();
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rb.advance_tail(tail, 1);
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rb.advance_tail(tail, 1);
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@ -265,27 +275,26 @@ impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Producer<T, R> {
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/// Returns `Some` on success, all items are pushed to the ring buffer.
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/// Returns `Some` on success, all items are pushed to the ring buffer.
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/// Returns `None` if the ring buffer is full or cannot fit all items.
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/// Returns `None` if the ring buffer is full or cannot fit all items.
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pub fn push_slice(&mut self, items: &[T]) -> Option<()> {
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pub fn push_slice(&mut self, items: &[T]) -> Option<()> {
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let nitems = items.len();
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let rb = &self.rb;
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let rb = &self.rb;
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let free_len = rb.free_len();
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let nitems = items.len();
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if free_len < nitems {
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if rb.free_len() < nitems {
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return None;
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return None;
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}
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}
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let tail = rb.tail();
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let tail = rb.tail();
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debug_assert!(tail < rb.capacity);
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let offset = tail.0 & (rb.capacity - 1);
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let segment_offset = tail * Self::T_SIZE;
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let byte_offset = offset * Self::T_SIZE;
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if tail + nitems > rb.capacity {
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if offset + nitems > rb.capacity {
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// Write into two separate parts
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// Write into two separate parts
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rb.segment
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rb.segment
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.write_slice(segment_offset, &items[..rb.capacity - tail])
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.write_slice(byte_offset, &items[..rb.capacity - offset])
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.unwrap();
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.unwrap();
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rb.segment
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rb.segment
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.write_slice(0, &items[rb.capacity - tail..])
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.write_slice(0, &items[rb.capacity - offset..])
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.unwrap();
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.unwrap();
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} else {
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} else {
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rb.segment.write_slice(segment_offset, items).unwrap();
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rb.segment.write_slice(byte_offset, items).unwrap();
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}
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}
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rb.advance_tail(tail, nitems);
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rb.advance_tail(tail, nitems);
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@ -300,25 +309,26 @@ impl<R: Deref<Target = RingBuffer<u8>>> Producer<u8, R> {
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pub fn write_fallible(&mut self, reader: &mut dyn MultiRead) -> Result<usize> {
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pub fn write_fallible(&mut self, reader: &mut dyn MultiRead) -> Result<usize> {
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let rb = &self.rb;
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let rb = &self.rb;
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let free_len = rb.free_len();
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let free_len = rb.free_len();
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if free_len == 0 {
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return Ok(0);
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}
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let write_len = reader.sum_lens().min(free_len);
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let tail = rb.tail();
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let tail = rb.tail();
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let write_len = if tail + write_len > rb.capacity {
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let offset = tail.0 & (rb.capacity - 1);
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let write_len = if offset + free_len > rb.capacity {
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// Write into two separate parts
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// Write into two separate parts
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let mut writer = rb.segment.writer();
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let mut write_len = 0;
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writer.skip(tail).limit(rb.capacity - tail);
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let mut len = reader.read(&mut writer)?;
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let mut writer = rb.segment.writer();
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let mut writer = rb.segment.writer();
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writer.limit(write_len - (rb.capacity - tail));
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writer.skip(offset).limit(rb.capacity - offset);
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len += reader.read(&mut writer)?;
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write_len += reader.read(&mut writer)?;
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len
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let mut writer = rb.segment.writer();
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writer.limit(free_len - (rb.capacity - offset));
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write_len += reader.read(&mut writer)?;
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write_len
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} else {
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} else {
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let mut writer = rb.segment.writer();
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let mut writer = rb.segment.writer();
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writer.skip(tail).limit(write_len);
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writer.skip(offset).limit(free_len);
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reader.read(&mut writer)?
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reader.read(&mut writer)?
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};
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};
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@ -334,6 +344,8 @@ impl<T, R: Deref<Target = RingBuffer<T>>> Producer<T, R> {
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pub fn is_full(&self) -> bool;
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pub fn is_full(&self) -> bool;
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pub fn len(&self) -> usize;
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pub fn len(&self) -> usize;
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pub fn free_len(&self) -> usize;
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pub fn free_len(&self) -> usize;
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pub fn head(&self) -> Wrapping<usize>;
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pub fn tail(&self) -> Wrapping<usize>;
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}
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}
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impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Consumer<T, R> {
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impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Consumer<T, R> {
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@ -350,11 +362,11 @@ impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Consumer<T, R> {
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}
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}
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let head = rb.head();
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let head = rb.head();
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debug_assert!(head < rb.capacity);
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let offset = head.0 & (rb.capacity - 1);
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let byte_offset = offset * Self::T_SIZE;
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let segment_offset = head * Self::T_SIZE;
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let mut reader = rb.segment.reader();
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let mut reader = rb.segment.reader();
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reader.skip(segment_offset);
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reader.skip(byte_offset);
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let item = reader.read_val::<T>().unwrap();
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let item = reader.read_val::<T>().unwrap();
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rb.advance_head(head, 1);
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rb.advance_head(head, 1);
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@ -366,26 +378,26 @@ impl<T: Pod, R: Deref<Target = RingBuffer<T>>> Consumer<T, R> {
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/// Returns `Some` on success, all items are popped from the ring buffer.
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/// Returns `Some` on success, all items are popped from the ring buffer.
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/// Returns `None` if the ring buffer is empty or cannot fill all items.
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/// Returns `None` if the ring buffer is empty or cannot fill all items.
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pub fn pop_slice(&mut self, items: &mut [T]) -> Option<()> {
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pub fn pop_slice(&mut self, items: &mut [T]) -> Option<()> {
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let nitems = items.len();
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let rb = &self.rb;
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let rb = &self.rb;
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if nitems > rb.len() {
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let nitems = items.len();
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if rb.len() < nitems {
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return None;
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return None;
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}
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}
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let head = rb.head();
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let head = rb.head();
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debug_assert!(head < rb.capacity);
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let offset = head.0 & (rb.capacity - 1);
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let byte_offset = offset * Self::T_SIZE;
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let segment_offset = head * Self::T_SIZE;
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if offset + nitems > rb.capacity {
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if head + nitems > rb.capacity {
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// Read from two separate parts
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// Read from two separate parts
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rb.segment
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rb.segment
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.read_slice(segment_offset, &mut items[..rb.capacity - head])
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.read_slice(byte_offset, &mut items[..rb.capacity - offset])
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.unwrap();
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.unwrap();
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rb.segment
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rb.segment
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.read_slice(0, &mut items[rb.capacity - head..])
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.read_slice(0, &mut items[rb.capacity - offset..])
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.unwrap();
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.unwrap();
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} else {
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} else {
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rb.segment.read_slice(segment_offset, items).unwrap();
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rb.segment.read_slice(byte_offset, items).unwrap();
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}
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}
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rb.advance_head(head, nitems);
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rb.advance_head(head, nitems);
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@ -400,25 +412,26 @@ impl<R: Deref<Target = RingBuffer<u8>>> Consumer<u8, R> {
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pub fn read_fallible(&mut self, writer: &mut dyn MultiWrite) -> Result<usize> {
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pub fn read_fallible(&mut self, writer: &mut dyn MultiWrite) -> Result<usize> {
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let rb = &self.rb;
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let rb = &self.rb;
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let len = rb.len();
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let len = rb.len();
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if len == 0 {
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return Ok(0);
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}
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let read_len = writer.sum_lens().min(len);
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let head = rb.head();
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let head = rb.head();
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let read_len = if head + read_len > rb.capacity {
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let offset = head.0 & (rb.capacity - 1);
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let read_len = if offset + len > rb.capacity {
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// Read from two separate parts
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// Read from two separate parts
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let mut reader = rb.segment.reader();
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let mut read_len = 0;
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reader.skip(head).limit(rb.capacity - head);
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let mut len = writer.write(&mut reader)?;
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let mut reader = rb.segment.reader();
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let mut reader = rb.segment.reader();
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reader.limit(read_len - (rb.capacity - head));
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reader.skip(offset).limit(rb.capacity - offset);
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len += writer.write(&mut reader)?;
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read_len += writer.write(&mut reader)?;
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len
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let mut reader = rb.segment.reader();
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reader.limit(len - (rb.capacity - offset));
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read_len += writer.write(&mut reader)?;
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read_len
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} else {
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} else {
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let mut reader = rb.segment.reader();
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let mut reader = rb.segment.reader();
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reader.skip(head).limit(read_len);
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reader.skip(offset).limit(len);
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writer.write(&mut reader)?
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writer.write(&mut reader)?
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};
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};
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@ -434,6 +447,8 @@ impl<T, R: Deref<Target = RingBuffer<T>>> Consumer<T, R> {
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pub fn is_full(&self) -> bool;
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pub fn is_full(&self) -> bool;
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pub fn len(&self) -> usize;
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pub fn len(&self) -> usize;
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pub fn free_len(&self) -> usize;
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pub fn free_len(&self) -> usize;
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pub fn head(&self) -> Wrapping<usize>;
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pub fn tail(&self) -> Wrapping<usize>;
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}
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}
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#[cfg(ktest)]
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#[cfg(ktest)]
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Reference in New Issue
Block a user