Crate bytepack [] [src]

bytepack is a simple crate which extends the std::io API to be able to read and write any data type in their memory representation. It can be seen as a generalization of the std::io::Read and std::io::Write trait , but operating on a generic parameter T instead of u8. This crate focus on performances by beeing no copy (except in one clearly marked case) and offering methods to read and write arrays.

bytepack offers three trait famillies allowing different endianness control. Unpacker and Packer read and write data in the endianness of the operating system. LEUnpacker and LEPacker always read and write data in little endian while BEUnpacker and BEPacker do the same in big endian. They all conform to the same API which is copied from the one of std::io. This means switching from one endianness to another can be done by simply bringing a different trait in scope.

Because bytepack is not a serialization library, it cannot read and write complex types like Vec, Rc, etc. directly from a Reader or to Writer. Indeed those types do not contain the underlying data directly packed inside but rather hold a reference or a pointer to it. To identify types which holds their data "packed" together, the Packed trait is used. Additionnaly it provides a in-place endianness switching method. One can implement this trait for the data types deemed safe to read and write. A custom derive for structures made only of types implementing Packed also exists.

Example

use std::fs::File;
use std::iter::repeat;

use bytepack::{LEPacker, LEUnpacker};

fn write_samples(file: &str, samples: &Vec<f32>) {
    let mut file = File::create(file).unwrap();
    file.pack(samples.len() as u32).unwrap();
    file.pack_all(&samples[..]).unwrap();
}

fn read_samples(file: &str) -> Vec<f32> {
    let mut file = File::open(file).unwrap();
    let num_samples : u32 = file.unpack().unwrap();
    let mut samples : Vec<f32> = repeat(0f32).take(num_samples as usize).collect();
    file.unpack_exact(&mut samples[..]).unwrap();
    return samples;
}

Traits

BEPacker

Provides the same API and functionnality as Packer but ensure that the data is in big endian format. See Packer for more documentation.

BEUnpacker

Provides the same API and functionnality as Unpacker but ensure that the data is in big endian format. See Unpacker for more documentation.

LEPacker

Provides the same API and functionnality as Packer but ensure that the data is in little endian format. See Packer for more documentation.

LEUnpacker

Provides the same API and functionnality as Unpacker but ensure that the data is in little endian format. See Unpacker for more documentation.

Packed

This trait both identifies a type which holds his data packed together in memory and a type which offers a switch_endianness method. This trait is voluntarily not implemented for isize and usize because their size can vary from one system to another.

Packer

Packer provides the std::io::Write API but for any type T implementing Packed. It does not perform any endianness conversion and thus always writes data using the system endianness.

Unpacker

Unpacker provides the std::io::Read API but for any type T implementing Packed. It does not perform any endianness conversion and thus always reads data using the system endianness.