Expand description
§bitpack-vec
A dense bitpacked vector type for unnsigned integers.
use bitpack_vec::BitpackVec;
let mut bv = BitpackVec::new(5); // 5-bit integers
for i in 0..12 {
bv.push(i);
}
assert_eq!(bv.at(6), 6);
assert_eq!(bv.at(9), 9);
use deepsize::DeepSizeOf;
assert_eq!(bv.as_raw().len(), 1); // underlying vector length is just 1 (60 bits)
// total in-memory size (not strictly specified by Rust):
assert_eq!(
bv.deep_size_of(),
std::mem::size_of::<Vec<u64>>() // size of the vector structure
+ std::mem::size_of::<usize>() // the length counter (separate from the Vec's)
+ std::mem::size_of::<u8>() // the bitwidth of the structure
+ 15 // padding
);
O(1)
random access to single elementsO(1)
popO(1)
set- Amortized
O(1)
push (same as RustVec
) - Any bitlength from 1 to 63
- Serde serializable
This package does an “as you’d expect” bitpacking of integers, with no fancy SIMD or additional compression. Values are stored in a Vec<u64>
, so no more than 63 bits should be wasted. Values can overlap u64
values.
Compared to other bitpacking packages for Rust:
bitpacking
uses SIMD compression to pack values into blocks, but entire blocks must be decompressed in order to access values. If you don’t care about random access,bitpacking
is probably what you want.vorbis_bitpack
allows for streaming compression and decompression of packed integers, using the Vorbis format. No random access, but has streaming readers / writers.parquet
implements a number of Apache-backed formats (feather, arrow, parquet), many of which support bitpacking and other types of compression.
§License
This code is available under the terms of the GPL-3.0 (or later) license.
Structs§
- Iterator over a
BitpackVec
- A densely-packed vector of integers with fixed bit-length