23 releases
0.11.0 | Apr 4, 2024 |
---|---|
0.10.9 | Dec 13, 2022 |
0.10.8 | Aug 6, 2022 |
0.10.7 | May 1, 2022 |
0.7.1 | Feb 12, 2020 |
#1 in #read-stream
279 downloads per month
Used in 5 crates
(4 directly)
150KB
3K
SLoC
bitbuffer
Tools for reading and writing data types of arbitrary bit length and might not be byte-aligned in the source data
The main way of reading the binary data is to first create a BitReadBuffer
,wrap it into a BitReadStream
and then read from the stream.
Once you have a BitStream, there are 2 different approaches of reading data
- read primitives, Strings and byte arrays, using
read_bool
,read_int
,read_float
,read_bytes
andread_string
- read any type implementing the
BitRead
orBitReadSized
traits usingread
andread_sized
BitRead
is for types that can be read without requiring any size info (e.g. null-terminal strings, floats, whole integers, etc)BitReadSized
is for types that require external sizing information to be read (fixed length strings, arbitrary length integers
The BitRead
and BitReadSized
traits can be used with #[derive]
if all fields implement BitRead
or BitReadSized
.
For writing the data you wrap the output Vec
into a BitWriteStream
which can then be used in a manner similar to the BitReadStream
- write primitives, Strings and byte arrays, using
write_bool
,write_int
,write_float
,write_bytes
andwrite_string
- write any type implementing the
BitWrite
orBitWriteSized
traits usingwrite
andwrite_sized
BitWrite
is for types that can be written without requiring any size info (e.g. null-terminal strings, floats, whole integers, etc)BitWriteSized
is for types that require external sizing information to be written (fixed length strings, arbitrary length integers
Just like the read counterparts, BitWrite
and BitWriteSized
traits can be used with #[derive]
if all fields implement BitWrite
or BitWriteSized
.
Examples
use bitbuffer::{BitReadBuffer, LittleEndian, BitReadStream, BitRead, BitWrite, BitWriteStream};
#[derive(BitRead, BitWrite)]
struct ComplexType {
first: u8,
#[size = 15]
second: u16,
third: bool,
}
let bytes = vec![
0b1011_0101, 0b0110_1010, 0b1010_1100, 0b1001_1001,
0b1001_1001, 0b1001_1001, 0b1001_1001, 0b1110_0111
];
let buffer = BitReadBuffer::new(&bytes, LittleEndian);
let mut stream = BitReadStream::new(buffer);
let value: u8 = stream.read_int(7)?;
let complex: ComplexType = stream.read()?;
let mut write_bytes = vec![];
let mut write_stream = BitWriteStream::new(&mut write_bytes, LittleEndian);
write_stream.write_int(12, 7)?;
write_stream.write(&ComplexType {
first: 55,
second: 12,
third: true
})?;
License
Licensed under either of
- Apache License, Version 2.0, (LICENSE-APACHE or https://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or https://opensource.org/licenses/MIT)
at your option.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
Dependencies
~0.5–1.4MB
~28K SLoC