#![allow(unused, clippy::map_identity)] #![warn(clippy::unused_enumerate_index)] use std::iter::Enumerate; fn get_enumerate() -> Enumerate> { vec![1].into_iter().enumerate() } fn main() { let v = [1, 2, 3]; for (_, x) in v.iter().enumerate() { println!("{x}"); } struct Dummy1; impl Dummy1 { fn enumerate(self) -> Vec { vec![] } } let dummy = Dummy1; for x in dummy.enumerate() { println!("{x}"); } struct Dummy2; impl Dummy2 { fn enumerate(self) -> Enumerate> { vec![1, 2].into_iter().enumerate() } } let dummy = Dummy2; for (_, x) in dummy.enumerate() { println!("{x}"); } let mut with_used_iterator = [1, 2, 3].into_iter().enumerate(); with_used_iterator.next(); for (_, x) in with_used_iterator { println!("{x}"); } struct Dummy3(std::vec::IntoIter); impl Iterator for Dummy3 { type Item = usize; fn next(&mut self) -> Option { self.0.next() } fn size_hint(&self) -> (usize, Option) { self.0.size_hint() } } let dummy = Dummy3(vec![1, 2, 3].into_iter()); for (_, x) in dummy.enumerate() { println!("{x}"); } let _ = vec![1, 2, 3].into_iter().enumerate().map(|(_, x)| println!("{x}")); let p = vec![1, 2, 3].into_iter().enumerate(); p.map(|(_, x)| println!("{x}")); // This shouldn't trigger the lint. `get_enumerate` may come from an external library on which we // have no control. let p = get_enumerate(); p.map(|(_, x)| println!("{x}")); // This shouldn't trigger the lint. The `enumerate` call is in a different context. macro_rules! mac { () => { [1].iter().enumerate() }; } _ = mac!().map(|(_, v)| v); macro_rules! mac2 { () => { [1].iter() }; } _ = mac2!().enumerate().map(|(_, _v)| {}); // This shouldn't trigger the lint because of the `allow`. #[allow(clippy::unused_enumerate_index)] let v = [1].iter().enumerate(); v.map(|(_, _x)| {}); // This should keep the explicit type of `x`. let v = [1, 2, 3].iter().copied().enumerate(); let x = v.map(|(_, x): (usize, i32)| x).sum::(); assert_eq!(x, 6); // This should keep the explicit type of `x`. let v = [1, 2, 3].iter().copied().enumerate(); let x = v.map(|(_, x): (_, i32)| x).sum::(); assert_eq!(x, 6); let v = [1, 2, 3].iter().copied().enumerate(); let x = v.map(|(_, x)| x).sum::(); assert_eq!(x, 6); }