#![warn(clippy::map_clone)] #![allow( clippy::clone_on_copy, clippy::iter_cloned_collect, clippy::many_single_char_names, clippy::redundant_clone, clippy::redundant_closure, clippy::useless_asref, clippy::useless_vec )] fn main() { let _: Vec = vec![5_i8; 6].iter().map(|x| *x).collect(); let _: Vec = vec![String::new()].iter().map(|x| x.clone()).collect(); let _: Vec = vec![42, 43].iter().map(|&x| x).collect(); let _: Option = Some(Box::new(16)).map(|b| *b); let _: Option = Some(&16).map(|b| *b); let _: Option = Some(&1).map(|x| x.clone()); // Don't lint these let v = vec![5_i8; 6]; let a = 0; let b = &a; let _ = v.iter().map(|_x| *b); let _ = v.iter().map(|_x| a.clone()); let _ = v.iter().map(|&_x| a); // Issue #498 let _ = std::env::args().map(|v| v.clone()); // Issue #4824 item types that aren't references { use std::rc::Rc; let o: Option> = Some(Rc::new(0_u32)); let _: Option = o.map(|x| *x); let v: Vec> = vec![Rc::new(0_u32)]; let _: Vec = v.into_iter().map(|x| *x).collect(); } // Issue #5524 mutable references { let mut c = 42; let v = vec![&mut c]; let _: Vec = v.into_iter().map(|x| *x).collect(); let mut d = 21; let v = vec![&mut d]; let _: Vec = v.into_iter().map(|&mut x| x).collect(); } // Issue #6299 { let mut aa = 5; let mut bb = 3; let items = vec![&mut aa, &mut bb]; let _: Vec<_> = items.into_iter().map(|x| x.clone()).collect(); } // Issue #6239 deref coercion and clone deref { use std::cell::RefCell; let _ = Some(RefCell::new(String::new()).borrow()).map(|s| s.clone()); } let x = Some(String::new()); let x = x.as_ref(); // We do this to prevent triggering the `useless_asref` lint. let y = x.map(|x| String::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` let y = x.map(Clone::clone); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `cloned` method let y = x.map(String::clone); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `cloned` method let x: Option = Some(0); let x = x.as_ref(); // We do this to prevent triggering the `useless_asref` lint. let y = x.map(|x| u32::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `copied` method let y = x.map(|x| Clone::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `copied` method // Should not suggest `copied` or `cloned` here since `T` is not a reference. let x: Option = Some(0); let y = x.map(|x| u32::clone(&x)); let y = x.map(|x| Clone::clone(&x)); // Testing with `Result` now. let x: Result = Ok(String::new()); let x = x.as_ref(); // We do this to prevent triggering the `useless_asref` lint. let y = x.map(|x| String::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `cloned` method let y = x.map(|x| Clone::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `cloned` method let x: Result = Ok(0); let x = x.as_ref(); // We do this to prevent triggering the `useless_asref` lint. let y = x.map(|x| u32::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `copied` method let y = x.map(|x| Clone::clone(x)); //~^ ERROR: you are explicitly cloning with `.map()` //~| HELP: consider calling the dedicated `copied` method // Should not suggest `copied` or `cloned` here since `T` is not a reference. let x: Result = Ok(0); let y = x.map(|x| u32::clone(&x)); let y = x.map(|x| Clone::clone(&x)); // We ensure that no warning is emitted here because `useless_asref` is taking over. let x = Some(String::new()); let y = x.as_ref().map(|x| String::clone(x)); let x: Result = Ok(String::new()); let y = x.as_ref().map(|x| String::clone(x)); }