rust/tests/ui/useless_conversion.rs
Samuel Tardieu af39a8a4a8 Identify more cases of useless into_iter() calls
If the type of the result of a call to `IntoIterator::into_iter()`
and the type of the receiver are the same, then the receiver
implements `Iterator` and `into_iter()` is the identity function.

The call to `into_iter()` may be removed in all but two cases:

- If the receiver implements `Copy`, `into_iter()` will produce
  a copy of the receiver and cannot be removed. For example,
  `x.into_iter().next()` will not advance `x` while `x.next()` will.
- If the receiver is an immutable local variable and the call to
  `into_iter()` appears in a larger expression, removing the call to
  `into_iter()` might cause mutability issues. For example, if `x`
  is an immutable local variable, `x.into_iter().next()` will
  compile while `x.next()` will not as `next()` receives
  `&mut self`.
2022-12-17 16:20:43 +01:00

160 lines
4.2 KiB
Rust

// run-rustfix
#![deny(clippy::useless_conversion)]
#![allow(clippy::unnecessary_wraps)]
fn test_generic<T: Copy>(val: T) -> T {
let _ = T::from(val);
val.into()
}
fn test_generic2<T: Copy + Into<i32> + Into<U>, U: From<T>>(val: T) {
// ok
let _: i32 = val.into();
let _: U = val.into();
let _ = U::from(val);
}
fn test_questionmark() -> Result<(), ()> {
{
let _: i32 = 0i32.into();
Ok(Ok(()))
}??;
Ok(())
}
fn test_issue_3913() -> Result<(), std::io::Error> {
use std::fs;
use std::path::Path;
let path = Path::new(".");
for _ in fs::read_dir(path)? {}
Ok(())
}
fn dont_lint_into_iter_on_immutable_local_implementing_iterator_in_expr() {
let text = "foo\r\nbar\n\nbaz\n";
let lines = text.lines();
if Some("ok") == lines.into_iter().next() {}
}
fn lint_into_iter_on_mutable_local_implementing_iterator_in_expr() {
let text = "foo\r\nbar\n\nbaz\n";
let mut lines = text.lines();
if Some("ok") == lines.into_iter().next() {}
}
fn lint_into_iter_on_expr_implementing_iterator() {
let text = "foo\r\nbar\n\nbaz\n";
let mut lines = text.lines().into_iter();
if Some("ok") == lines.next() {}
}
fn lint_into_iter_on_expr_implementing_iterator_2() {
let text = "foo\r\nbar\n\nbaz\n";
if Some("ok") == text.lines().into_iter().next() {}
}
#[allow(const_item_mutation)]
fn lint_into_iter_on_const_implementing_iterator() {
const NUMBERS: std::ops::Range<i32> = 0..10;
let _ = NUMBERS.into_iter().next();
}
fn lint_into_iter_on_const_implementing_iterator_2() {
const NUMBERS: std::ops::Range<i32> = 0..10;
let mut n = NUMBERS.into_iter();
n.next();
}
#[derive(Clone, Copy)]
struct CopiableCounter {
counter: u32,
}
impl Iterator for CopiableCounter {
type Item = u32;
fn next(&mut self) -> Option<Self::Item> {
self.counter = self.counter.wrapping_add(1);
Some(self.counter)
}
}
fn dont_lint_into_iter_on_copy_iter() {
let mut c = CopiableCounter { counter: 0 };
assert_eq!(c.into_iter().next(), Some(1));
assert_eq!(c.into_iter().next(), Some(1));
assert_eq!(c.next(), Some(1));
assert_eq!(c.next(), Some(2));
}
fn dont_lint_into_iter_on_static_copy_iter() {
static mut C: CopiableCounter = CopiableCounter { counter: 0 };
unsafe {
assert_eq!(C.into_iter().next(), Some(1));
assert_eq!(C.into_iter().next(), Some(1));
assert_eq!(C.next(), Some(1));
assert_eq!(C.next(), Some(2));
}
}
fn main() {
test_generic(10i32);
test_generic2::<i32, i32>(10i32);
test_questionmark().unwrap();
test_issue_3913().unwrap();
dont_lint_into_iter_on_immutable_local_implementing_iterator_in_expr();
lint_into_iter_on_mutable_local_implementing_iterator_in_expr();
lint_into_iter_on_expr_implementing_iterator();
lint_into_iter_on_expr_implementing_iterator_2();
lint_into_iter_on_const_implementing_iterator();
lint_into_iter_on_const_implementing_iterator_2();
dont_lint_into_iter_on_copy_iter();
dont_lint_into_iter_on_static_copy_iter();
let _: String = "foo".into();
let _: String = From::from("foo");
let _ = String::from("foo");
#[allow(clippy::useless_conversion)]
{
let _: String = "foo".into();
let _ = String::from("foo");
let _ = "".lines().into_iter();
}
let _: String = "foo".to_string().into();
let _: String = From::from("foo".to_string());
let _ = String::from("foo".to_string());
let _ = String::from(format!("A: {:04}", 123));
let _ = "".lines().into_iter();
let _ = vec![1, 2, 3].into_iter().into_iter();
let _: String = format!("Hello {}", "world").into();
// keep parentheses around `a + b` for suggestion (see #4750)
let a: i32 = 1;
let b: i32 = 1;
let _ = i32::from(a + b) * 3;
// see #7205
let s: Foo<'a'> = Foo;
let _: Foo<'b'> = s.into();
let s2: Foo<'a'> = Foo;
let _: Foo<'a'> = s2.into();
let s3: Foo<'a'> = Foo;
let _ = Foo::<'a'>::from(s3);
let s4: Foo<'a'> = Foo;
let _ = vec![s4, s4, s4].into_iter().into_iter();
}
#[derive(Copy, Clone)]
struct Foo<const C: char>;
impl From<Foo<'a'>> for Foo<'b'> {
fn from(_s: Foo<'a'>) -> Self {
Foo
}
}