//@no-rustfix #![deny(clippy::iter_out_of_bounds)] #![allow(clippy::useless_vec)] fn opaque_empty_iter() -> impl Iterator { std::iter::empty() } fn main() { for _ in [1, 2, 3].iter().skip(4) { //~^ ERROR: this `.skip()` call skips more items than the iterator will produce unreachable!(); } for (i, _) in [1, 2, 3].iter().take(4).enumerate() { //~^ ERROR: this `.take()` call takes more items than the iterator will produce assert!(i <= 2); } #[allow(clippy::needless_borrow)] for _ in (&&&&&&[1, 2, 3]).iter().take(4) {} //~^ ERROR: this `.take()` call takes more items than the iterator will produce for _ in [1, 2, 3].iter().skip(4) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce for _ in [1; 3].iter().skip(4) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce // Should not lint for _ in opaque_empty_iter().skip(1) {} for _ in vec![1, 2, 3].iter().skip(4) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce for _ in vec![1; 3].iter().skip(4) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce let x = [1, 2, 3]; for _ in x.iter().skip(4) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce let n = 4; for _ in x.iter().skip(n) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce let empty = std::iter::empty::; for _ in empty().skip(1) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce for _ in empty().take(1) {} //~^ ERROR: this `.take()` call takes more items than the iterator will produce for _ in std::iter::once(1).skip(2) {} //~^ ERROR: this `.skip()` call skips more items than the iterator will produce for _ in std::iter::once(1).take(2) {} //~^ ERROR: this `.take()` call takes more items than the iterator will produce for x in [].iter().take(1) { //~^ ERROR: this `.take()` call takes more items than the iterator will produce let _: &i32 = x; } // ok, not out of bounds for _ in [1].iter().take(1) {} for _ in [1, 2, 3].iter().take(2) {} for _ in [1, 2, 3].iter().skip(2) {} }