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Diffstat (limited to 'src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs')
-rw-r--r-- | src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs | 96 |
1 files changed, 96 insertions, 0 deletions
diff --git a/src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs b/src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs new file mode 100644 index 000000000..5a6283e9f --- /dev/null +++ b/src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs @@ -0,0 +1,96 @@ +// Test that slice subslice patterns are correctly handled in const evaluation. + +// run-pass + +#[derive(PartialEq, Debug, Clone)] +struct N(u8); + +#[derive(PartialEq, Debug, Clone)] +struct Z; + +macro_rules! n { + ($($e:expr),* $(,)?) => { + [$(N($e)),*] + } +} + +// This macro has an unused variable so that it can be repeated base on the +// number of times a repeated variable (`$e` in `z`) occurs. +macro_rules! zed { + ($e:expr) => { Z } +} + +macro_rules! z { + ($($e:expr),* $(,)?) => { + [$(zed!($e)),*] + } +} + +// Compare constant evaluation and runtime evaluation of a given expression. +macro_rules! compare_evaluation_inner { + ($e:expr, $t:ty $(,)?) => {{ + const CONST_EVAL: $t = $e; + const fn const_eval() -> $t { $e } + static CONST_EVAL2: $t = const_eval(); + let runtime_eval = $e; + assert_eq!(CONST_EVAL, runtime_eval); + assert_eq!(CONST_EVAL2, runtime_eval); + }} +} + +// Compare the result of matching `$e` against `$p` using both `if let` and +// `match`. +macro_rules! compare_evaluation { + ($p:pat, $e:expr, $matches:expr, $t:ty $(,)?) => {{ + compare_evaluation_inner!(if let $p = $e as &[_] { $matches } else { None }, $t); + compare_evaluation_inner!(match $e as &[_] { $p => $matches, _ => None }, $t); + }} +} + +// Repeat `$test`, substituting the given macro variables with the given +// identifiers. +// +// For example: +// +// repeat! { +// ($name); X; Y: +// struct $name; +// } +// +// Expands to: +// +// struct X; struct Y; +// +// This is used to repeat the tests using both the `N` and `Z` +// types. +macro_rules! repeat { + (($($dollar:tt $placeholder:ident)*); $($($values:ident),+);*: $($test:tt)*) => { + macro_rules! single { + ($($dollar $placeholder:ident),*) => { $($test)* } + } + $(single!($($values),+);)* + } +} + +fn main() { + repeat! { + ($arr $Ty); n, N; z, Z: + compare_evaluation!([_, x @ .., _], &$arr!(1, 2, 3, 4), Some(x), Option<&'static [$Ty]>); + compare_evaluation!([x, .., _], &$arr!(1, 2, 3, 4), Some(x), Option<&'static $Ty>); + compare_evaluation!([_, .., x], &$arr!(1, 2, 3, 4), Some(x), Option<&'static $Ty>); + + compare_evaluation!([_, x @ .., _], &$arr!(1, 2), Some(x), Option<&'static [$Ty]>); + compare_evaluation!([x, .., _], &$arr!(1, 2), Some(x), Option<&'static $Ty>); + compare_evaluation!([_, .., x], &$arr!(1, 2), Some(x), Option<&'static $Ty>); + + compare_evaluation!([_, x @ .., _], &$arr!(1), Some(x), Option<&'static [$Ty]>); + compare_evaluation!([x, .., _], &$arr!(1), Some(x), Option<&'static $Ty>); + compare_evaluation!([_, .., x], &$arr!(1), Some(x), Option<&'static $Ty>); + } + + compare_evaluation!([N(x), .., _], &n!(1, 2, 3, 4), Some(x), Option<&'static u8>); + compare_evaluation!([_, .., N(x)], &n!(1, 2, 3, 4), Some(x), Option<&'static u8>); + + compare_evaluation!([N(x), .., _], &n!(1, 2), Some(x), Option<&'static u8>); + compare_evaluation!([_, .., N(x)], &n!(1, 2), Some(x), Option<&'static u8>); +} |