#![warn(clippy::manual_flatten)] #![allow(clippy::useless_vec)] fn main() { // Test for loop over implicitly adjusted `Iterator` with `if let` expression let x = vec![Some(1), Some(2), Some(3)]; for n in x { if let Some(y) = n { println!("{}", y); } } // Test for loop over implicitly implicitly adjusted `Iterator` with `if let` statement let y: Vec> = vec![]; for n in y.clone() { if let Ok(n) = n { println!("{}", n); }; } // Test for loop over by reference for n in &y { if let Ok(n) = n { println!("{}", n); } } // Test for loop over an implicit reference // Note: if `clippy::manual_flatten` is made autofixable, this case will // lead to a follow-up lint `clippy::into_iter_on_ref` let z = &y; for n in z { if let Ok(n) = n { println!("{}", n); } } // Test for loop over `Iterator` with `if let` expression let z = vec![Some(1), Some(2), Some(3)]; let z = z.iter(); for n in z { if let Some(m) = n { println!("{}", m); } } // Using the `None` variant should not trigger the lint // Note: for an autofixable suggestion, the binding in the for loop has to take the // name of the binding in the `if let` let z = vec![Some(1), Some(2), Some(3)]; for n in z { if n.is_none() { println!("Nada."); } } // Using the `Err` variant should not trigger the lint for n in y.clone() { if let Err(e) = n { println!("Oops: {}!", e); } } // Having an else clause should not trigger the lint for n in y.clone() { if let Ok(n) = n { println!("{}", n); } else { println!("Oops!"); } } let vec_of_ref = vec![&Some(1)]; for n in &vec_of_ref { if let Some(n) = n { println!("{:?}", n); } } let vec_of_ref = &vec_of_ref; for n in vec_of_ref { if let Some(n) = n { println!("{:?}", n); } } let slice_of_ref = &[&Some(1)]; for n in slice_of_ref { if let Some(n) = n { println!("{:?}", n); } } struct Test { a: usize, } let mut vec_of_struct = [Some(Test { a: 1 }), None]; // Usage of `if let` expression should not trigger lint for n in vec_of_struct.iter_mut() { if let Some(z) = n { *n = None; } } // Using manual flatten should not trigger the lint for n in vec![Some(1), Some(2), Some(3)].iter().flatten() { println!("{}", n); } }