#![feature(lint_reasons)] #![allow( unused, clippy::uninlined_format_args, clippy::unnecessary_mut_passed, clippy::unnecessary_to_owned, clippy::unnecessary_literal_unwrap )] #![warn(clippy::needless_borrow)] fn main() { let a = 5; let ref_a = &a; let _ = x(&a); // no warning let _ = x(&a); // warn let mut b = 5; mut_ref(&mut b); // no warning mut_ref(&mut b); // warn let s = &String::from("hi"); let s_ident = f(&s); // should not error, because `&String` implements Copy, but `String` does not let g_val = g(&Vec::new()); // should not error, because `&Vec` derefs to `&[T]` let vec = Vec::new(); let vec_val = g(&vec); // should not error, because `&Vec` derefs to `&[T]` h(&"foo"); // should not error, because the `&&str` is required, due to `&Trait` let garbl = match 42 { 44 => &a, 45 => { println!("foo"); &a }, 46 => &a, 47 => { println!("foo"); loop { println!("{}", a); if a == 25 { break ref_a; } } }, _ => panic!(), }; let _ = x(&a); let _ = x(&a); let _ = x(&mut b); let _ = x(ref_a); { let b = &mut b; x(b); } // Issue #8191 let mut x = 5; let mut x = &mut x; mut_ref(x); mut_ref(x); let y: &mut i32 = x; let y: &mut i32 = x; let y = match 0 { // Don't lint. Removing the borrow would move 'x' 0 => &mut x, _ => &mut *x, }; let y: &mut i32 = match 0 { // Lint here. The type given above triggers auto-borrow. 0 => x, _ => &mut *x, }; fn ref_mut_i32(_: &mut i32) {} ref_mut_i32(match 0 { // Lint here. The type given above triggers auto-borrow. 0 => x, _ => &mut *x, }); // use 'x' after to make sure it's still usable in the fixed code. *x = 5; let s = String::new(); // let _ = (&s).len(); // let _ = (&s).capacity(); // let _ = (&&s).capacity(); let x = (1, 2); let _ = x.0; let x = &x as *const (i32, i32); let _ = unsafe { (*x).0 }; // Issue #8367 trait Foo { fn foo(self); } impl Foo for &'_ () { fn foo(self) {} } (&()).foo(); // Don't lint. `()` doesn't implement `Foo` (&()).foo(); impl Foo for i32 { fn foo(self) {} } impl Foo for &'_ i32 { fn foo(self) {} } (&5).foo(); // Don't lint. `5` will call `::foo` (&5).foo(); trait FooRef { fn foo_ref(&self); } impl FooRef for () { fn foo_ref(&self) {} } impl FooRef for &'_ () { fn foo_ref(&self) {} } (&&()).foo_ref(); // Don't lint. `&()` will call `<() as FooRef>::foo_ref` struct S; impl From for u32 { fn from(s: S) -> Self { (&s).into() } } impl From<&S> for u32 { fn from(s: &S) -> Self { 0 } } let _ = std::process::Command::new("ls").args(["-a", "-l"]).status().unwrap(); let _ = std::path::Path::new(".").join("."); deref_target_is_x(X); multiple_constraints([[""]]); multiple_constraints_normalizes_to_same(X, X); let _ = Some("").unwrap_or(""); let _ = std::fs::write("x", "".to_string()); only_sized(&""); // Don't lint. `Sized` is only bound let _ = std::any::Any::type_id(&""); // Don't lint. `Any` is only bound let _ = Box::new(&""); // Don't lint. Type parameter appears in return type ref_as_ref_path(&""); // Don't lint. Argument type is not a type parameter refs_only(&()); // Don't lint. `&T` implements trait, but `T` doesn't multiple_constraints_normalizes_to_different(&[[""]], &[""]); // Don't lint. Projected type appears in arguments } #[allow(clippy::needless_borrowed_reference)] fn x(y: &i32) -> i32 { *y } fn mut_ref(y: &mut i32) { *y = 5; } fn f(y: &T) -> T { *y } fn g(y: &[u8]) -> u8 { y[0] } trait Trait {} impl<'a> Trait for &'a str {} fn h(_: &dyn Trait) {} fn check_expect_suppression() { let a = 5; #[expect(clippy::needless_borrow)] let _ = x(&&a); } mod issue9160 { pub struct S { f: F, } impl S where F: Fn() -> T, { fn calls_field(&self) -> T { (self.f)() } } impl S where F: FnMut() -> T, { fn calls_mut_field(&mut self) -> T { (self.f)() } } } #[derive(Clone, Copy)] struct X; impl std::ops::Deref for X { type Target = X; fn deref(&self) -> &Self::Target { self } } fn deref_target_is_x(_: T) where T: std::ops::Deref, { } fn multiple_constraints(_: T) where T: IntoIterator + IntoIterator, U: IntoIterator, V: AsRef, X: IntoIterator, Y: AsRef, { } fn multiple_constraints_normalizes_to_same(_: T, _: V) where T: std::ops::Deref, U: std::ops::Deref, { } fn only_sized(_: T) {} fn ref_as_ref_path(_: &'static T) where &'static T: AsRef, { } trait RefsOnly { type Referent; } impl RefsOnly for &T { type Referent = T; } fn refs_only(_: T) where T: RefsOnly, { } fn multiple_constraints_normalizes_to_different(_: T, _: U) where T: IntoIterator, U: IntoIterator, V: AsRef, { } // https://github.com/rust-lang/rust-clippy/pull/9136#pullrequestreview-1037379321 mod copyable_iterator { #[derive(Clone, Copy)] struct Iter; impl Iterator for Iter { type Item = (); fn next(&mut self) -> Option { None } } fn takes_iter(_: impl Iterator) {} fn dont_warn(mut x: Iter) { takes_iter(&mut x); } #[allow(unused_mut)] fn warn(mut x: &mut Iter) { takes_iter(x) } } #[clippy::msrv = "1.52.0"] mod under_msrv { fn foo() { let _ = std::process::Command::new("ls").args(&["-a", "-l"]).status().unwrap(); } } #[clippy::msrv = "1.53.0"] mod meets_msrv { fn foo() { let _ = std::process::Command::new("ls").args(["-a", "-l"]).status().unwrap(); } } fn issue9383() { // Should not lint because unions need explicit deref when accessing field use std::mem::ManuallyDrop; union Coral { crab: ManuallyDrop>, } union Ocean { coral: ManuallyDrop, } let mut ocean = Ocean { coral: ManuallyDrop::new(Coral { crab: ManuallyDrop::new(vec![1, 2, 3]), }), }; unsafe { ManuallyDrop::drop(&mut (&mut ocean.coral).crab); (*ocean.coral).crab = ManuallyDrop::new(vec![4, 5, 6]); ManuallyDrop::drop(&mut (*ocean.coral).crab); ManuallyDrop::drop(&mut ocean.coral); } } fn closure_test() { let env = "env".to_owned(); let arg = "arg".to_owned(); let f = |arg| { let loc = "loc".to_owned(); let _ = std::fs::write("x", &env); // Don't lint. In environment let _ = std::fs::write("x", arg); let _ = std::fs::write("x", loc); }; let _ = std::fs::write("x", &env); // Don't lint. Borrowed by `f` f(arg); } mod significant_drop { #[derive(Debug)] struct X; #[derive(Debug)] struct Y; impl Drop for Y { fn drop(&mut self) {} } fn foo(x: X, y: Y) { debug(x); debug(&y); // Don't lint. Has significant drop } fn debug(_: impl std::fmt::Debug) {} } mod used_exactly_once { fn foo(x: String) { use_x(x); } fn use_x(_: impl AsRef) {} } mod used_more_than_once { fn foo(x: String) { use_x(&x); use_x_again(&x); } fn use_x(_: impl AsRef) {} fn use_x_again(_: impl AsRef) {} } // https://github.com/rust-lang/rust-clippy/issues/9111#issuecomment-1277114280 mod issue_9111 { struct A; impl Extend for A { fn extend>(&mut self, _: T) { unimplemented!() } } impl<'a> Extend<&'a u8> for A { fn extend>(&mut self, _: T) { unimplemented!() } } fn main() { let mut a = A; a.extend(&[]); // vs a.extend([]); } } mod issue_9710 { fn main() { let string = String::new(); for _i in 0..10 { f(&string); } } fn f>(_: T) {} } mod issue_9739 { fn foo(_it: impl IntoIterator) {} fn main() { foo(if std::env::var_os("HI").is_some() { &[0] } else { &[] as &[u32] }); } } mod issue_9739_method_variant { struct S; impl S { fn foo(&self, _it: impl IntoIterator) {} } fn main() { S.foo(if std::env::var_os("HI").is_some() { &[0] } else { &[] as &[u32] }); } } mod issue_9782 { fn foo>(t: T) { println!("{}", std::mem::size_of::()); let _t: &[u8] = t.as_ref(); } fn main() { let a: [u8; 100] = [0u8; 100]; // 100 foo::<[u8; 100]>(a); foo(a); // 16 foo::<&[u8]>(&a); foo(a.as_slice()); // 8 foo::<&[u8; 100]>(&a); foo(a); } } mod issue_9782_type_relative_variant { struct S; impl S { fn foo>(t: T) { println!("{}", std::mem::size_of::()); let _t: &[u8] = t.as_ref(); } } fn main() { let a: [u8; 100] = [0u8; 100]; S::foo::<&[u8; 100]>(&a); } } mod issue_9782_method_variant { struct S; impl S { fn foo>(&self, t: T) { println!("{}", std::mem::size_of::()); let _t: &[u8] = t.as_ref(); } } fn main() { let a: [u8; 100] = [0u8; 100]; S.foo::<&[u8; 100]>(&a); } } mod issue_10535 { static SOME_STATIC: String = String::new(); static UNIT: () = compute(&SOME_STATIC); pub const fn compute(_: T) where T: Copy, { } } mod issue_10253 { struct S; trait X { fn f(&self); } impl X for &S { fn f(&self) {} } fn f() { (&S).f::<()>(); } }