//@ edition:2021 #![feature(rustc_attrs)] #![feature(stmt_expr_attributes)] // Should capture the discriminant since a variant of a multivariant enum is // mentioned in the match arm; the discriminant is captured by the closure regardless // of if it creates a binding fn test_1_should_capture() { let variant = Some(2229); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match variant { //~^ NOTE: Capturing variant[] -> ImmBorrow //~| NOTE: Min Capture variant[] -> ImmBorrow Some(_) => {} _ => {} } }; c(); } // Should not capture the discriminant since only a wildcard is mentioned in the // match arm fn test_2_should_not_capture() { let variant = Some(2229); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match variant { _ => {} } }; c(); } // Testing single variant patterns enum SingleVariant { Points(u32) } // Should not capture the discriminant since the single variant mentioned // in the match arm does not trigger a binding fn test_3_should_not_capture_single_variant() { let variant = SingleVariant::Points(1); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match variant { SingleVariant::Points(_) => {} } }; c(); } // Should not capture the discriminant since the single variant mentioned // in the match arm does not trigger a binding fn test_6_should_capture_single_variant() { let variant = SingleVariant::Points(1); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match variant { //~^ NOTE: Capturing variant[] -> ImmBorrow //~| NOTE: Capturing variant[(0, 0)] -> ImmBorrow //~| NOTE: Min Capture variant[] -> ImmBorrow SingleVariant::Points(a) => { println!("{:?}", a); } } }; c(); } // Should not capture the discriminant since only wildcards are mentioned in the // match arm fn test_4_should_not_capture_array() { let array: [i32; 3] = [0; 3]; let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match array { [_,_,_] => {} } }; c(); // We also do not need to capture an array // behind a reference (#112607) let array: &[i32; 3] = &[0; 3]; let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match array { [_, _, _] => {} } }; c(); // We should still not insert a read if the array is inside an // irrefutable pattern struct Foo(T); let f = &Foo(&[10; 3]); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match f { Foo([_, _, _]) => () } }; c(); } // Testing MultiVariant patterns enum MVariant { A, B, C, } // Should capture the discriminant since a variant of the multi variant enum is // mentioned in the match arm; the discriminant is captured by the closure // regardless of if it creates a binding fn test_5_should_capture_multi_variant() { let variant = MVariant::A; let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match variant { //~^ NOTE: Capturing variant[] -> ImmBorrow //~| NOTE: Min Capture variant[] -> ImmBorrow MVariant::A => {} _ => {} } }; c(); } // Even though all patterns are wild, we need to read the discriminant // in order to test the slice length fn test_7_should_capture_slice_len() { let slice: &[i32] = &[1, 2, 3]; let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match slice { //~^ NOTE: Capturing slice[] -> ImmBorrow //~| NOTE: Min Capture slice[] -> ImmBorrow [_,_,_] => {}, _ => {} } }; c(); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match slice { //~^ NOTE: Capturing slice[] -> ImmBorrow //~| NOTE: Min Capture slice[] -> ImmBorrow [] => {}, _ => {} } }; c(); let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: //~| Min Capture analysis includes: match slice { //~^ NOTE: Capturing slice[] -> ImmBorrow //~| NOTE: Min Capture slice[] -> ImmBorrow [_, .. ,_] => {}, _ => {} } }; c(); } // Wild pattern that doesn't bind, so no capture fn test_8_capture_slice_wild() { let slice: &[i32] = &[1, 2, 3]; let c = #[rustc_capture_analysis] || { //~^ First Pass analysis includes: match slice { [..] => {}, _ => {} } }; c(); } fn main() { test_1_should_capture(); test_2_should_not_capture(); test_3_should_not_capture_single_variant(); test_6_should_capture_single_variant(); test_4_should_not_capture_array(); test_5_should_capture_multi_variant(); test_7_should_capture_slice_len(); test_8_capture_slice_wild(); }