This crate contains functionality to move a slice within an array around.
It only uses safe functions, and acts efficiently by using the
split_at_mut and
rotate_left/rotate_right functions.
This crate also has a focus on being no_std, to allow this functionality
in all cases where it is required.
The main feature this crate provides is implementing moveslice functions
for any and all slices/arrays. In effect, it implements it on any type that
also implements the AsMut<[T]> trait. This includes slices and vectors.
```rust use moveslice::Moveslice;
let mut arr = [1,2,3,4,5,6,7,8,9];
// The following moves the slice 3..6 to index 1. // In effect, it moves [4,5,6] over to where [2] is. arr.moveslice(3..6, 1); assert_eq!(arr, [1,4,5,6,2,3,7,8,9]);
// The following moves the slice 3..6 to index 6. // In effect, it moves [6,2,3] over to where [7] is. arr.moveslice(3..6, 6); assert_eq!(arr, [1,4,5,7,8,9,6,2,3]);
// The following attempts to move the slice beyond boundaries. // The index given is 7, which exists in the array, but the // last element of the chunk will not fit (7 + 3 = 10 > 9). // Therefore, the following should fail. arr.moveslice(3..6, 7); // will panic
// Panicking on failure however can prove to be not ideal.
// If instead of panicking, you prefer a Result, use
// try_moveslice.
let res = arr.trymoveslice(3..6, 7);
assert!(res.iserr());
// Moveslice also comes with its own Error enum, to offer
// better debugging. Right now, there's only one error case.
// You could pass the destination as the same value as chunk.0. // However this would mean nothing is moved. // This doesn't panic, but it's a no-op. arr.moveslice(0..3, 0); ```
License: MPL-2.0