rust/tests/ui/nonminimal_bool_methods.rs
2024-10-28 18:13:16 +09:00

205 lines
6.5 KiB
Rust

#![allow(unused, clippy::diverging_sub_expression, clippy::needless_if)]
#![warn(clippy::nonminimal_bool)]
fn methods_with_negation() {
let a: Option<i32> = unimplemented!();
let b: Result<i32, i32> = unimplemented!();
let _ = a.is_some();
let _ = !a.is_some();
let _ = a.is_none();
let _ = !a.is_none();
let _ = b.is_err();
let _ = !b.is_err();
let _ = b.is_ok();
let _ = !b.is_ok();
let c = false;
let _ = !(a.is_some() && !c);
let _ = !(a.is_some() || !c);
let _ = !(!c ^ c) || !a.is_some();
let _ = (!c ^ c) || !a.is_some();
let _ = !c ^ c || !a.is_some();
}
// Simplified versions of https://github.com/rust-lang/rust-clippy/issues/2638
// clippy::nonminimal_bool should only check the built-in Result and Some type, not
// any other types like the following.
enum CustomResultOk<E> {
Ok,
Err(E),
}
enum CustomResultErr<E> {
Ok,
Err(E),
}
enum CustomSomeSome<T> {
Some(T),
None,
}
enum CustomSomeNone<T> {
Some(T),
None,
}
impl<E> CustomResultOk<E> {
pub fn is_ok(&self) -> bool {
true
}
}
impl<E> CustomResultErr<E> {
pub fn is_err(&self) -> bool {
true
}
}
impl<T> CustomSomeSome<T> {
pub fn is_some(&self) -> bool {
true
}
}
impl<T> CustomSomeNone<T> {
pub fn is_none(&self) -> bool {
true
}
}
fn dont_warn_for_custom_methods_with_negation() {
let res = CustomResultOk::Err("Error");
// Should not warn and suggest 'is_err()' because the type does not
// implement is_err().
if !res.is_ok() {}
let res = CustomResultErr::Err("Error");
// Should not warn and suggest 'is_ok()' because the type does not
// implement is_ok().
if !res.is_err() {}
let res = CustomSomeSome::Some("thing");
// Should not warn and suggest 'is_none()' because the type does not
// implement is_none().
if !res.is_some() {}
let res = CustomSomeNone::Some("thing");
// Should not warn and suggest 'is_some()' because the type does not
// implement is_some().
if !res.is_none() {}
}
// Only Built-in Result and Some types should suggest the negated alternative
fn warn_for_built_in_methods_with_negation() {
let res: Result<usize, usize> = Ok(1);
if !res.is_ok() {}
if !res.is_err() {}
let res = Some(1);
if !res.is_some() {}
if !res.is_none() {}
}
#[allow(clippy::neg_cmp_op_on_partial_ord)]
fn dont_warn_for_negated_partial_ord_comparison() {
let a: f64 = unimplemented!();
let b: f64 = unimplemented!();
let _ = !(a < b);
let _ = !(a <= b);
let _ = !(a > b);
let _ = !(a >= b);
}
fn issue_12625() {
let a = 0;
let b = 0;
if !(a as u64 >= b) {} //~ ERROR: this boolean expression can be simplified
if !((a as u64) >= b) {} //~ ERROR: this boolean expression can be simplified
if !(a as u64 <= b) {} //~ ERROR: this boolean expression can be simplified
}
fn issue_12761() {
let a = 0;
let b = 0;
let c = 0;
if !(a >= b) as i32 == c {} //~ ERROR: this boolean expression can be simplified
if !(a >= b) | !(a <= c) {} //~ ERROR: this boolean expression can be simplified
let opt: Option<usize> = Some(1);
let res: Result<usize, usize> = Ok(1);
if !res.is_ok() as i32 == c {} //~ ERROR: this boolean expression can be simplified
if !res.is_ok() | !opt.is_none() {} //~ ERROR: this boolean expression can be simplified
fn a(a: bool) -> bool {
(!(4 > 3)).b() //~ ERROR: this boolean expression can be simplified
}
trait B {
fn b(&self) -> bool {
true
}
}
impl B for bool {}
}
fn issue_13436() {
fn not_zero(x: i32) -> bool {
x != 0
}
let opt = Some(500);
_ = opt.is_some_and(|x| x < 1000);
_ = opt.is_some_and(|x| x <= 1000);
_ = opt.is_some_and(|x| x > 1000);
_ = opt.is_some_and(|x| x >= 1000);
_ = opt.is_some_and(|x| x == 1000);
_ = opt.is_some_and(|x| x != 1000);
_ = opt.is_some_and(not_zero);
_ = !opt.is_some_and(|x| x < 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x <= 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x > 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x >= 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x == 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x != 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(not_zero);
_ = opt.is_none_or(|x| x < 1000);
_ = opt.is_none_or(|x| x <= 1000);
_ = opt.is_none_or(|x| x > 1000);
_ = opt.is_none_or(|x| x >= 1000);
_ = opt.is_none_or(|x| x == 1000);
_ = opt.is_none_or(|x| x != 1000);
_ = opt.is_none_or(not_zero);
_ = !opt.is_none_or(|x| x < 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x <= 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x > 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x >= 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x == 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x != 1000); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(not_zero);
let opt = Some(true);
_ = opt.is_some_and(|x| x);
_ = opt.is_some_and(|x| !x);
_ = !opt.is_some_and(|x| x);
_ = !opt.is_some_and(|x| !x); //~ ERROR: this boolean expression can be simplified
_ = opt.is_none_or(|x| x);
_ = opt.is_none_or(|x| !x);
_ = !opt.is_none_or(|x| x);
_ = !opt.is_none_or(|x| !x); //~ ERROR: this boolean expression can be simplified
let opt: Option<Result<i32, i32>> = Some(Ok(123));
_ = opt.is_some_and(|x| x.is_ok());
_ = opt.is_some_and(|x| x.is_err());
_ = opt.is_none_or(|x| x.is_ok());
_ = opt.is_none_or(|x| x.is_err());
_ = !opt.is_some_and(|x| x.is_ok()); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_some_and(|x| x.is_err()); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x.is_ok()); //~ ERROR: this boolean expression can be simplified
_ = !opt.is_none_or(|x| x.is_err()); //~ ERROR: this boolean expression can be simplified
#[clippy::msrv = "1.81"]
fn before_stabilization() {
let opt = Some(500);
_ = !opt.is_some_and(|x| x < 1000);
}
}
fn main() {}