rust-clippy/tests/ui/significant_drop_tightening.rs

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#![warn(clippy::significant_drop_tightening)]
use std::sync::Mutex;
pub fn complex_return_triggers_the_lint() -> i32 {
fn foo() -> i32 {
1
}
let mutex = Mutex::new(1);
let lock = mutex.lock().unwrap();
let _ = *lock;
let _ = *lock;
foo()
}
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pub fn issue_10413() {
let mutex = Mutex::new(Some(1));
let opt = Some(1);
if opt.is_some() {
let lock = mutex.lock().unwrap();
let _ = *lock;
if opt.is_some() {
let _ = *lock;
}
}
}
pub fn issue_11128() {
use std::mem::drop as unlock;
struct Foo {
droppable: Option<Vec<i32>>,
mutex: Mutex<Vec<i32>>,
}
impl Drop for Foo {
fn drop(&mut self) {
if let Some(droppable) = self.droppable.take() {
let lock = self.mutex.lock().unwrap();
let idx_opt = lock.iter().copied().find(|el| Some(el) == droppable.first());
if let Some(idx) = idx_opt {
let local_droppable = vec![lock.first().copied().unwrap_or_default()];
unlock(lock);
drop(local_droppable);
}
}
}
}
}
pub fn issue_11160() -> bool {
let mutex = Mutex::new(1i32);
let lock = mutex.lock().unwrap();
let _ = lock.abs();
true
}
pub fn issue_11189() {
struct Number {
pub value: u32,
}
fn do_something() -> Result<(), ()> {
let number = Mutex::new(Number { value: 1 });
let number2 = Mutex::new(Number { value: 2 });
let number3 = Mutex::new(Number { value: 3 });
let mut lock = number.lock().unwrap();
let mut lock2 = number2.lock().unwrap();
let mut lock3 = number3.lock().unwrap();
lock.value += 1;
lock2.value += 1;
lock3.value += 1;
drop((lock, lock2, lock3));
Ok(())
}
}
pub fn path_return_can_be_ignored() -> i32 {
let mutex = Mutex::new(1);
let lock = mutex.lock().unwrap();
let rslt = *lock;
let _ = *lock;
rslt
}
pub fn post_bindings_can_be_ignored() {
let mutex = Mutex::new(1);
let lock = mutex.lock().unwrap();
let rslt = *lock;
let another = rslt;
let _ = another;
}
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pub fn unnecessary_contention_with_multiple_owned_results() {
{
let mutex = Mutex::new(1i32);
let lock = mutex.lock().unwrap();
let _ = lock.abs();
let _ = lock.is_positive();
}
{
let mutex = Mutex::new(1i32);
let lock = mutex.lock().unwrap();
let rslt0 = lock.abs();
let rslt1 = lock.is_positive();
do_heavy_computation_that_takes_time((rslt0, rslt1));
}
}
pub fn unnecessary_contention_with_single_owned_results() {
{
let mutex = Mutex::new(1i32);
let lock = mutex.lock().unwrap();
let _ = lock.abs();
}
{
let mutex = Mutex::new(vec![1i32]);
let mut lock = mutex.lock().unwrap();
lock.clear();
}
{
let mutex = Mutex::new(1i32);
let lock = mutex.lock().unwrap();
let rslt0 = lock.abs();
do_heavy_computation_that_takes_time(rslt0);
}
{
let mutex = Mutex::new(vec![1i32]);
let mut lock = mutex.lock().unwrap();
lock.clear();
do_heavy_computation_that_takes_time(());
}
}
// Marker used for illustration purposes.
pub fn do_heavy_computation_that_takes_time<T>(_: T) {}
fn main() {}