Lib.rs

Data structures
#ring-buffer #circular-buffer #buffer #ring #dsp #circular

bit_mask_ring_buf

A ring buffer implementation with cheap indexing

by Billy Messenger

28 releases

0.5.3 Mar 24, 2023
0.5.2 Aug 25, 2020
0.4.6 Aug 24, 2020
0.3.1 Aug 21, 2020
0.1.6 Aug 6, 2020

#1279 in Data structures

MIT license

180KB
2.5K SLoC

Bit-Masking Ring Buffer

Test Documentation Crates.io License

A ring buffer implementation with cheap indexing written in Rust.

Note, this crate is only beneficial if your algorithm indexes elements one at a time and has buffer sizes that are always a power of two. If your algorithm instead reads chunks of data as slices or requires buffer sizes that are not a power of two, then check out my crate slice_ring_buf.

This crate has no consumer/producer logic, and is meant to be used as a raw data structure or a base for other data structures.

Installation

Add bit_mask_ring_buf as a dependency in your Cargo.toml:

bit_mask_ring_buf = 0.5

Example

use bit_mask_ring_buf::{BMRingBuf, BMRingBufRef};

// Create a ring buffer with type u32. The data will be
// initialized with the default value (0 in this case).
// The actual length will be set to the next highest
// power of 2 if the given length is not already
// a power of 2.
let mut rb = BMRingBuf::<u32>::from_len(3);
assert_eq!(rb.len(), 4);

// Read/write to buffer by indexing with an `isize`.
rb[0] = 0;
rb[1] = 1;
rb[2] = 2;
rb[3] = 3;

// Cheaply wrap when reading/writing outside of bounds.
assert_eq!(rb[-1], 3);
assert_eq!(rb[10], 2);

// Memcpy into slices at arbitrary `isize` indexes
// and length.
let mut read_buffer = [0u32; 7];
rb.read_into(&mut read_buffer, 2);
assert_eq!(read_buffer, [2, 3, 0, 1, 2, 3, 0]);

// Memcpy data from a slice into the ring buffer at
// arbitrary `isize` indexes. Earlier data will not be
// copied if it will be overwritten by newer data,
// avoiding unecessary memcpy's. The correct placement
// of the newer data will still be preserved.
rb.write_latest(&[0, 2, 3, 4, 1], 0);
assert_eq!(rb[0], 1);
assert_eq!(rb[1], 2);
assert_eq!(rb[2], 3);
assert_eq!(rb[3], 4);

// Read/write by retrieving slices directly.
let (s1, s2) = rb.as_slices_len(1, 4);
assert_eq!(s1, &[2, 3, 4]);
assert_eq!(s2, &[1]);

// Aligned/stack data may also be used.
let mut stack_data = [0u32, 1, 2, 3];
let mut rb_ref = BMRingBufRef::new(&mut stack_data);
rb_ref[-4] = 5;
assert_eq!(rb_ref[0], 5);
assert_eq!(rb_ref[1], 1);
assert_eq!(rb_ref[2], 2);
assert_eq!(rb_ref[3], 3);

// Get linear interpolation on floating point buffers.
let mut rb = BMRingBuf::<f64>::from_len(4);
rb[0] = 0.0;
rb[1] = 2.0;
rb[2] = 4.0;
rb[3] = 6.0;
assert!((rb.lin_interp_f64(1.0) - 2.0).abs() <= f64::EPSILON);
assert!((rb.lin_interp_f64(1.25) - 2.5).abs() <= f64::EPSILON);
assert!((rb.lin_interp_f64(3.75) - 1.5).abs() <= f64::EPSILON);

No runtime deps