Expand description
This crate implements a structure that can be used as a generic array type.
Core Rust array types [T; N]
can’t be used generically with
respect to N
, so for example this:
struct Foo<T, N> {
data: [T; N]
}
won’t work.
generic-array exports a GenericArray<T,N>
type, which lets
the above be implemented as:
use generic_array::{ArrayLength, GenericArray};
struct Foo<T, N: ArrayLength<T>> {
data: GenericArray<T,N>
}
The ArrayLength<T>
trait is implemented by default for
unsigned integer types from
typenum:
use generic_array::typenum::U5;
struct Foo<N: ArrayLength<i32>> {
data: GenericArray<i32, N>
}
let foo = Foo::<U5>{data: GenericArray::default()};
For example, GenericArray<T, U5>
would work almost like [T; 5]
:
use generic_array::typenum::U5;
struct Foo<T, N: ArrayLength<T>> {
data: GenericArray<T, N>
}
let foo = Foo::<i32, U5>{data: GenericArray::default()};
For ease of use, an arr!
macro is provided - example below:
let array = arr![u32; 1, 2, 3];
assert_eq!(array[2], 3);
Modules§
- Implementation for
arr!
macro. - Functional programming with generic sequences
GenericArray
iterator implementation.- Useful traits for manipulating sequences of data stored in
GenericArray
s - This crate provides type-level numbers evaluated at compile time. It depends only on libcore.
Macros§
- Macro allowing for easy generation of Generic Arrays. Example:
let test = arr![u32; 1, 2, 3];
Structs§
- Struct representing a generic array -
GenericArray<T, N>
works like [T; N] - An iterator that moves out of a
GenericArray
Traits§
- Trait making
GenericArray
work, marking types to be used as length of an array