// run-rustfix #![warn(clippy::all)] #![allow( clippy::disallowed_names, clippy::no_effect, clippy::redundant_clone, redundant_semicolons, dead_code, unused_assignments, unused_variables )] struct Foo(u32); #[derive(Clone)] struct Bar { a: u32, b: u32, } fn field() { let mut bar = Bar { a: 1, b: 2 }; std::mem::swap(&mut bar.a, &mut bar.b); let mut baz = vec![bar.clone(), bar.clone()]; let temp = baz[0].a; baz[0].a = baz[1].a; baz[1].a = temp; } fn array() { let mut foo = [1, 2]; foo.swap(0, 1); foo.swap(0, 1); } fn slice() { let foo = &mut [1, 2]; foo.swap(0, 1); foo.swap(0, 1); } fn unswappable_slice() { let foo = &mut [vec![1, 2], vec![3, 4]]; let temp = foo[0][1]; foo[0][1] = foo[1][0]; foo[1][0] = temp; // swap(foo[0][1], foo[1][0]) would fail // this could use split_at_mut and mem::swap, but that is not much simpler. } fn vec() { let mut foo = vec![1, 2]; foo.swap(0, 1); foo.swap(0, 1); } fn xor_swap_locals() { // This is an xor-based swap of local variables. let mut a = 0; let mut b = 1; std::mem::swap(&mut a, &mut b); } fn xor_field_swap() { // This is an xor-based swap of fields in a struct. let mut bar = Bar { a: 0, b: 1 }; std::mem::swap(&mut bar.a, &mut bar.b); } fn xor_slice_swap() { // This is an xor-based swap of a slice let foo = &mut [1, 2]; foo.swap(0, 1); } fn xor_no_swap() { // This is a sequence of xor-assignment statements that doesn't result in a swap. let mut a = 0; let mut b = 1; let mut c = 2; a ^= b; b ^= c; a ^= c; c ^= a; } fn xor_unswappable_slice() { let foo = &mut [vec![1, 2], vec![3, 4]]; foo[0][1] ^= foo[1][0]; foo[1][0] ^= foo[0][0]; foo[0][1] ^= foo[1][0]; // swap(foo[0][1], foo[1][0]) would fail // this could use split_at_mut and mem::swap, but that is not much simpler. } fn distinct_slice() { let foo = &mut [vec![1, 2], vec![3, 4]]; let bar = &mut [vec![1, 2], vec![3, 4]]; std::mem::swap(&mut foo[0][1], &mut bar[1][0]); } #[rustfmt::skip] fn main() { let mut a = 42; let mut b = 1337; std::mem::swap(&mut a, &mut b); ; std::mem::swap(&mut a, &mut b); let mut c = Foo(42); std::mem::swap(&mut c.0, &mut a); ; std::mem::swap(&mut c.0, &mut a); std::mem::swap(&mut a, &mut b); let mut c = 1; let mut d = 2; std::mem::swap(&mut d, &mut c); let mut b = 1; std::mem::swap(&mut a, &mut b); let b = 1; let a = 2; let t = b; let b = a; let a = t; let mut b = 1; let mut a = 2; std::mem::swap(&mut b, &mut a); } fn issue_8154() { struct S1 { x: i32, y: i32, } struct S2(S1); struct S3<'a, 'b>(&'a mut &'b mut S1); impl std::ops::Deref for S2 { type Target = S1; fn deref(&self) -> &Self::Target { &self.0 } } impl std::ops::DerefMut for S2 { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } // Don't lint. `s.0` is mutably borrowed by `s.x` and `s.y` via the deref impl. let mut s = S2(S1 { x: 0, y: 0 }); let t = s.x; s.x = s.y; s.y = t; // Accessing through a mutable reference is fine let mut s = S1 { x: 0, y: 0 }; let mut s = &mut s; let s = S3(&mut s); std::mem::swap(&mut s.0.x, &mut s.0.y); } const fn issue_9864(mut u: u32) -> u32 { let mut v = 10; let temp = u; u = v; v = temp; u + v }