ed

Crates.ioed
lib.rsed
version0.3.0
sourcesrc
created_at2020-07-22 17:33:00.851426
updated_at2022-02-16 22:50:57.695049
descriptionEncode and Decode traits
homepage
repository
max_upload_size
id268112
size35,054
Matt Bell (mappum)

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README

ed (encode/decode)

A minimalist crate for deterministic binary encodings in Rust.

CI codecov Crate API

Overview

This crate provides Encode and Decode traits which can be implemented for any type that can be converted to or from bytes, and implements these traits for many built-in Rust types. It also provides derive macros so that Encode and Decode can be easily derived for structs.

ed is far simpler than serde because it does not attempt to create an abstraction which allows arbitrary kinds of encoding (JSON, MessagePack, etc.), and instead forces focuses on binary encodings. It is also significantly faster than bincode, the leading binary serde serializer.

One aim of ed is to force top-level type authors to design their own encoding, rather than attempting to provide a one-size-fits-all encoding scheme. This lets users of ed be sure their encodings are as effiient as possible, and makes it easier to understand the encoding for compatability in other languages or libraries (contrasted with something like bincode, where it is not obvious how a type is being encoded without understanding the internals of bincode).

Another property of this crate is a focus on determinism (important for cryptographically hashed types) - built-in encodings are always big-endian and there are no provided encodings for floating point numbers or usize.

Usage

use ed::{Encode, Decode};

// traits are implemented for built-in types
let bytes = 123u32.encode()?; // `bytes` is a Vec<u8>
let n = u32::decode(bytes.as_slice())?; // `n` is a u32

// derive macros are available
#[derive(Encode, Decode)]
struct Foo {
  bar: (u32, u32),
  baz: Vec<u8>
}

// encoding and decoding can be done in-place to reduce allocations
let mut bytes = vec![0xba; 40];
let mut foo = Foo {
  bar: (0, 0),
  baz: Vec::with_capacity(32)
};

// in-place decode, re-using pre-allocated `foo.baz` vec
foo.decode_into(bytes.as_slice())?;
assert_eq!(foo, Foo {
  bar: (0xbabababa, 0xbabababa),
  baz: vec![0xba; 32]
});

// in-place encode, into pre-allocated `bytes` vec
bytes.clear();
foo.encode_into(&mut bytes)?;
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cargo fmt