1dd515f273
Add slice methods for indexing via an array of indices. Disclaimer: It's been a while since I contributed to the main Rust repo, apologies in advance if this is large enough already that it should've been an RFC. --- # Update: - Based on feedback, removed the `&[T]` variant of this API, and removed the requirements for the indices to be sorted. # Description This adds the following slice methods to `core`: ```rust impl<T> [T] { pub unsafe fn get_many_unchecked_mut<const N: usize>(&mut self, indices: [usize; N]) -> [&mut T; N]; pub fn get_many_mut<const N: usize>(&mut self, indices: [usize; N]) -> Option<[&mut T; N]>; } ``` This allows creating multiple mutable references to disjunct positions in a slice, which previously required writing some awkward code with `split_at_mut()` or `iter_mut()`. For the bound-checked variant, the indices are checked against each other and against the bounds of the slice, which requires `N * (N + 1) / 2` comparison operations. This has a proof-of-concept standalone implementation here: https://crates.io/crates/index_many Care has been taken that the implementation passes miri borrow checks, and generates straight-forward assembly (though this was only checked on x86_64). # Example ```rust let v = &mut [1, 2, 3, 4]; let [a, b] = v.get_many_mut([0, 2]).unwrap(); std::mem::swap(a, b); *v += 100; assert_eq!(v, &[3, 2, 101, 4]); ``` # Codegen Examples <details> <summary>Click to expand!</summary> Disclaimer: Taken from local tests with the standalone implementation. ## Unchecked Indexing: ```rust pub unsafe fn example_unchecked(slice: &mut [usize], indices: [usize; 3]) -> [&mut usize; 3] { slice.get_many_unchecked_mut(indices) } ``` ```nasm example_unchecked: mov rcx, qword, ptr, [r9] mov r8, qword, ptr, [r9, +, 8] mov r9, qword, ptr, [r9, +, 16] lea rcx, [rdx, +, 8*rcx] lea r8, [rdx, +, 8*r8] lea rdx, [rdx, +, 8*r9] mov qword, ptr, [rax], rcx mov qword, ptr, [rax, +, 8], r8 mov qword, ptr, [rax, +, 16], rdx ret ``` ## Checked Indexing (Option): ```rust pub unsafe fn example_option(slice: &mut [usize], indices: [usize; 3]) -> Option<[&mut usize; 3]> { slice.get_many_mut(indices) } ``` ```nasm mov r10, qword, ptr, [r9, +, 8] mov rcx, qword, ptr, [r9, +, 16] cmp rcx, r10 je .LBB0_7 mov r9, qword, ptr, [r9] cmp rcx, r9 je .LBB0_7 cmp rcx, r8 jae .LBB0_7 cmp r10, r9 je .LBB0_7 cmp r9, r8 jae .LBB0_7 cmp r10, r8 jae .LBB0_7 lea r8, [rdx, +, 8*r9] lea r9, [rdx, +, 8*r10] lea rcx, [rdx, +, 8*rcx] mov qword, ptr, [rax], r8 mov qword, ptr, [rax, +, 8], r9 mov qword, ptr, [rax, +, 16], rcx ret .LBB0_7: mov qword, ptr, [rax], 0 ret ``` ## Checked Indexing (Panic): ```rust pub fn example_panic(slice: &mut [usize], indices: [usize; 3]) -> [&mut usize; 3] { let len = slice.len(); match slice.get_many_mut(indices) { Some(s) => s, None => { let tmp = indices; index_many::sorted_bound_check_failed(&tmp, len) } } } ``` ```nasm example_panic: sub rsp, 56 mov rax, qword, ptr, [r9] mov r10, qword, ptr, [r9, +, 8] mov r9, qword, ptr, [r9, +, 16] cmp r9, r10 je .LBB0_6 cmp r9, rax je .LBB0_6 cmp r9, r8 jae .LBB0_6 cmp r10, rax je .LBB0_6 cmp rax, r8 jae .LBB0_6 cmp r10, r8 jae .LBB0_6 lea rax, [rdx, +, 8*rax] lea r8, [rdx, +, 8*r10] lea rdx, [rdx, +, 8*r9] mov qword, ptr, [rcx], rax mov qword, ptr, [rcx, +, 8], r8 mov qword, ptr, [rcx, +, 16], rdx mov rax, rcx add rsp, 56 ret .LBB0_6: mov qword, ptr, [rsp, +, 32], rax mov qword, ptr, [rsp, +, 40], r10 mov qword, ptr, [rsp, +, 48], r9 lea rcx, [rsp, +, 32] mov edx, 3 call index_many::bound_check_failed ud2 ``` </details> # Extensions There are multiple optional extensions to this. ## Indexing With Ranges This could easily be expanded to allow indexing with `[I; N]` where `I: SliceIndex<Self>`. I wanted to keep the initial implementation simple, so I didn't include it yet. ## Panicking Variant We could also add this method: ```rust impl<T> [T] { fn index_many_mut<const N: usize>(&mut self, indices: [usize; N]) -> [&mut T; N]; } ``` This would work similar to the regular index operator and panic with out-of-bound indices. The advantage would be that we could more easily ensure good codegen with a useful panic message, which is non-trivial with the `Option` variant. This is implemented in the standalone implementation, and used as basis for the codegen examples here and there. |
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