Type safe wrappers for types with a defined byte order.
use endian_type::{types, BigEndian, LittleEndian, NetworkOrder};
// The endianness reflects the type-safety of the declaration:
let foo = 0xbeef_u32;
let foo_be = BigEndian::from(foo);
assert_eq!(foo_be.to_bytes(), foo.to_be_bytes());
assert_eq!(foo_be.as_byte_slice(), &foo.to_be_bytes());
// One can convert back to the native representation using the `From`/`Into` traits:
assert_eq!(foo, foo_be.into());
// To operate on the wrapped types as if they are regular numbers, one has to
// be explicit and switch between the byte representations:
// Note: Internally, these are just [transmutations](https://doc.rust-lang.org/core/mem/fn.transmute.html) and should not affect performance.
let foo = u128::MAX;
let foo_le = LittleEndian::from(foo);
assert_eq!(
LittleEndian::<u128>::from_bytes(u128::from_ne_bytes(foo_le.to_bytes()).wrapping_add(1).to_ne_bytes()),
LittleEndian::<u128>::from(0)
);
// We also have a couple of aliases to be used as helper.
//
// This will assert our `NetworkOrder` type is in accordance with the IETF RFC1700.
let foo = -0xdead_i32;
let foo_no = NetworkOrder::from(foo);
let foo_be = types::i32_be::from(foo);
assert_eq!(foo.to_be_bytes(), foo_no.to_bytes());
assert_eq!(foo.to_be_bytes(), foo_be.to_bytes());