// This test comprehensively checks the passing static and dynamic semantics // of subslice patterns `..`, `x @ ..`, `ref x @ ..`, and `ref mut @ ..` // in slice patterns `[$($pat), $(,)?]` . // run-pass #![allow(unreachable_patterns)] use std::convert::identity; #[derive(PartialEq, Debug, Clone)] struct N(u8); macro_rules! n { ($($e:expr),* $(,)?) => { [$(N($e)),*] } } macro_rules! c { ($inp:expr, $typ:ty, $out:expr $(,)?) => { assert_eq!($out, identity::<$typ>($inp)); } } macro_rules! m { ($e:expr, $p:pat => $b:expr) => { match $e { $p => $b, _ => panic!(), } } } fn main() { slices(); arrays(); } fn slices() { // Matching slices using `ref` patterns: let mut v = vec![N(0), N(1), N(2), N(3), N(4)]; let mut vc = (0..=4).collect::>(); let [..] = v[..]; // Always matches. m!(v[..], [N(0), ref sub @ .., N(4)] => c!(sub, &[N], n![1, 2, 3])); m!(v[..], [N(0), ref sub @ ..] => c!(sub, &[N], n![1, 2, 3, 4])); m!(v[..], [ref sub @ .., N(4)] => c!(sub, &[N], n![0, 1, 2, 3])); m!(v[..], [ref sub @ .., _, _, _, _, _] => c!(sub, &[N], &n![] as &[N])); m!(v[..], [_, _, _, _, _, ref sub @ ..] => c!(sub, &[N], &n![] as &[N])); m!(vc[..], [x, .., y] => c!((x, y), (u8, u8), (0, 4))); // Matching slices using `ref mut` patterns: let [..] = v[..]; // Always matches. m!(v[..], [N(0), ref mut sub @ .., N(4)] => c!(sub, &mut [N], n![1, 2, 3])); m!(v[..], [N(0), ref mut sub @ ..] => c!(sub, &mut [N], n![1, 2, 3, 4])); m!(v[..], [ref mut sub @ .., N(4)] => c!(sub, &mut [N], n![0, 1, 2, 3])); m!(v[..], [ref mut sub @ .., _, _, _, _, _] => c!(sub, &mut [N], &mut n![] as &mut [N])); m!(v[..], [_, _, _, _, _, ref mut sub @ ..] => c!(sub, &mut [N], &mut n![] as &mut [N])); m!(vc[..], [x, .., y] => c!((x, y), (u8, u8), (0, 4))); // Matching slices using default binding modes (&): let [..] = &v[..]; // Always matches. m!(&v[..], [N(0), sub @ .., N(4)] => c!(sub, &[N], n![1, 2, 3])); m!(&v[..], [N(0), sub @ ..] => c!(sub, &[N], n![1, 2, 3, 4])); m!(&v[..], [sub @ .., N(4)] => c!(sub, &[N], n![0, 1, 2, 3])); m!(&v[..], [sub @ .., _, _, _, _, _] => c!(sub, &[N], &n![] as &[N])); m!(&v[..], [_, _, _, _, _, sub @ ..] => c!(sub, &[N], &n![] as &[N])); m!(&vc[..], [x, .., y] => c!((x, y), (&u8, &u8), (&0, &4))); // Matching slices using default binding modes (&mut): let [..] = &mut v[..]; // Always matches. m!(&mut v[..], [N(0), sub @ .., N(4)] => c!(sub, &mut [N], n![1, 2, 3])); m!(&mut v[..], [N(0), sub @ ..] => c!(sub, &mut [N], n![1, 2, 3, 4])); m!(&mut v[..], [sub @ .., N(4)] => c!(sub, &mut [N], n![0, 1, 2, 3])); m!(&mut v[..], [sub @ .., _, _, _, _, _] => c!(sub, &mut [N], &mut n![] as &mut [N])); m!(&mut v[..], [_, _, _, _, _, sub @ ..] => c!(sub, &mut [N], &mut n![] as &mut [N])); m!(&mut vc[..], [x, .., y] => c!((x, y), (&mut u8, &mut u8), (&mut 0, &mut 4))); } fn arrays() { let mut v = n![0, 1, 2, 3, 4]; let vc = [0, 1, 2, 3, 4]; // Matching arrays by value: m!(v.clone(), [N(0), sub @ .., N(4)] => c!(sub, [N; 3], n![1, 2, 3])); m!(v.clone(), [N(0), sub @ ..] => c!(sub, [N; 4], n![1, 2, 3, 4])); m!(v.clone(), [sub @ .., N(4)] => c!(sub, [N; 4], n![0, 1, 2, 3])); m!(v.clone(), [sub @ .., _, _, _, _, _] => c!(sub, [N; 0], n![] as [N; 0])); m!(v.clone(), [_, _, _, _, _, sub @ ..] => c!(sub, [N; 0], n![] as [N; 0])); m!(v.clone(), [x, .., y] => c!((x, y), (N, N), (N(0), N(4)))); m!(v.clone(), [..] => ()); // Matching arrays by ref patterns: m!(v, [N(0), ref sub @ .., N(4)] => c!(sub, &[N; 3], &n![1, 2, 3])); m!(v, [N(0), ref sub @ ..] => c!(sub, &[N; 4], &n![1, 2, 3, 4])); m!(v, [ref sub @ .., N(4)] => c!(sub, &[N; 4], &n![0, 1, 2, 3])); m!(v, [ref sub @ .., _, _, _, _, _] => c!(sub, &[N; 0], &n![] as &[N; 0])); m!(v, [_, _, _, _, _, ref sub @ ..] => c!(sub, &[N; 0], &n![] as &[N; 0])); m!(vc, [x, .., y] => c!((x, y), (u8, u8), (0, 4))); // Matching arrays by ref mut patterns: m!(v, [N(0), ref mut sub @ .., N(4)] => c!(sub, &mut [N; 3], &mut n![1, 2, 3])); m!(v, [N(0), ref mut sub @ ..] => c!(sub, &mut [N; 4], &mut n![1, 2, 3, 4])); m!(v, [ref mut sub @ .., N(4)] => c!(sub, &mut [N; 4], &mut n![0, 1, 2, 3])); m!(v, [ref mut sub @ .., _, _, _, _, _] => c!(sub, &mut [N; 0], &mut n![] as &mut [N; 0])); m!(v, [_, _, _, _, _, ref mut sub @ ..] => c!(sub, &mut [N; 0], &mut n![] as &mut [N; 0])); // Matching arrays by default binding modes (&): m!(&v, [N(0), sub @ .., N(4)] => c!(sub, &[N; 3], &n![1, 2, 3])); m!(&v, [N(0), sub @ ..] => c!(sub, &[N; 4], &n![1, 2, 3, 4])); m!(&v, [sub @ .., N(4)] => c!(sub, &[N; 4], &n![0, 1, 2, 3])); m!(&v, [sub @ .., _, _, _, _, _] => c!(sub, &[N; 0], &n![] as &[N; 0])); m!(&v, [_, _, _, _, _, sub @ ..] => c!(sub, &[N; 0], &n![] as &[N; 0])); m!(&v, [..] => ()); m!(&v, [x, .., y] => c!((x, y), (&N, &N), (&N(0), &N(4)))); // Matching arrays by default binding modes (&mut): m!(&mut v, [N(0), sub @ .., N(4)] => c!(sub, &mut [N; 3], &mut n![1, 2, 3])); m!(&mut v, [N(0), sub @ ..] => c!(sub, &mut [N; 4], &mut n![1, 2, 3, 4])); m!(&mut v, [sub @ .., N(4)] => c!(sub, &mut [N; 4], &mut n![0, 1, 2, 3])); m!(&mut v, [sub @ .., _, _, _, _, _] => c!(sub, &mut [N; 0], &mut n![] as &[N; 0])); m!(&mut v, [_, _, _, _, _, sub @ ..] => c!(sub, &mut [N; 0], &mut n![] as &[N; 0])); m!(&mut v, [..] => ()); m!(&mut v, [x, .., y] => c!((x, y), (&mut N, &mut N), (&mut N(0), &mut N(4)))); }