#![feature(custom_inner_attributes)] #![rustfmt::skip] #![allow(clippy::trivially_copy_pass_by_ref, clippy::cognitive_complexity, clippy::redundant_closure_call)] struct S; impl S { fn bool_self_ref(&self) -> bool { false } fn bool_self_mut(&mut self) -> bool { false } fn bool_self_ref_arg_ref(&self, _: &u32) -> bool { false } fn bool_self_ref_arg_mut(&self, _: &mut u32) -> bool { false } fn bool_self_mut_arg_ref(&mut self, _: &u32) -> bool { false } fn bool_self_mut_arg_mut(&mut self, _: &mut u32) -> bool { false } fn u32_self_ref(&self) -> u32 { 0 } fn u32_self_mut(&mut self) -> u32 { 0 } fn u32_self_ref_arg_ref(&self, _: &u32) -> u32 { 0 } fn u32_self_ref_arg_mut(&self, _: &mut u32) -> u32 { 0 } fn u32_self_mut_arg_ref(&mut self, _: &u32) -> u32 { 0 } fn u32_self_mut_arg_mut(&mut self, _: &mut u32) -> u32 { 0 } } fn bool_ref(_: &u32) -> bool { false } fn bool_mut(_: &mut u32) -> bool { false } fn u32_ref(_: &u32) -> u32 { 0 } fn u32_mut(_: &mut u32) -> u32 { 0 } fn func_non_mutable() { debug_assert!(bool_ref(&3)); debug_assert!(!bool_ref(&3)); debug_assert_eq!(0, u32_ref(&3)); debug_assert_eq!(u32_ref(&3), 0); debug_assert_ne!(1, u32_ref(&3)); debug_assert_ne!(u32_ref(&3), 1); } fn func_mutable() { debug_assert!(bool_mut(&mut 3)); debug_assert!(!bool_mut(&mut 3)); debug_assert_eq!(0, u32_mut(&mut 3)); debug_assert_eq!(u32_mut(&mut 3), 0); debug_assert_ne!(1, u32_mut(&mut 3)); debug_assert_ne!(u32_mut(&mut 3), 1); } fn method_non_mutable() { debug_assert!(S.bool_self_ref()); debug_assert!(S.bool_self_ref_arg_ref(&3)); debug_assert_eq!(S.u32_self_ref(), 0); debug_assert_eq!(S.u32_self_ref_arg_ref(&3), 0); debug_assert_ne!(S.u32_self_ref(), 1); debug_assert_ne!(S.u32_self_ref_arg_ref(&3), 1); } fn method_mutable() { debug_assert!(S.bool_self_mut()); debug_assert!(!S.bool_self_mut()); debug_assert!(S.bool_self_ref_arg_mut(&mut 3)); debug_assert!(S.bool_self_mut_arg_ref(&3)); debug_assert!(S.bool_self_mut_arg_mut(&mut 3)); debug_assert_eq!(S.u32_self_mut(), 0); debug_assert_eq!(S.u32_self_mut_arg_ref(&3), 0); debug_assert_eq!(S.u32_self_ref_arg_mut(&mut 3), 0); debug_assert_eq!(S.u32_self_mut_arg_mut(&mut 3), 0); debug_assert_ne!(S.u32_self_mut(), 1); debug_assert_ne!(S.u32_self_mut_arg_ref(&3), 1); debug_assert_ne!(S.u32_self_ref_arg_mut(&mut 3), 1); debug_assert_ne!(S.u32_self_mut_arg_mut(&mut 3), 1); } fn misc() { // with variable let mut v: Vec = vec![1, 2, 3, 4]; debug_assert_eq!(v.get(0), Some(&1)); debug_assert_ne!(v[0], 2); debug_assert_eq!(v.pop(), Some(1)); debug_assert_ne!(Some(3), v.pop()); let a = &mut 3; debug_assert!(bool_mut(a)); // nested debug_assert!(!(bool_ref(&u32_mut(&mut 3)))); // chained debug_assert_eq!(v.pop().unwrap(), 3); // format args debug_assert!(bool_ref(&3), "w/o format"); debug_assert!(bool_mut(&mut 3), "w/o format"); debug_assert!(bool_ref(&3), "{} format", "w/"); debug_assert!(bool_mut(&mut 3), "{} format", "w/"); // sub block let mut x = 42_u32; debug_assert!({ bool_mut(&mut x); x > 10 }); // closures debug_assert!((|| { let mut x = 42; bool_mut(&mut x); x > 10 })()); } fn main() { func_non_mutable(); func_mutable(); method_non_mutable(); method_mutable(); misc(); }