40ae34194c
detects redundant imports that can be eliminated. for #117772 : In order to facilitate review and modification, split the checking code and removing redundant imports code into two PR.
212 lines
5.8 KiB
Rust
212 lines
5.8 KiB
Rust
use std::any::Any;
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use std::cell::RefCell;
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use std::iter::TrustedLen;
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use std::mem;
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use std::sync::{Arc, Weak};
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#[test]
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fn uninhabited() {
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enum Void {}
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let mut a = Weak::<Void>::new();
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a = a.clone();
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assert!(a.upgrade().is_none());
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let mut a: Weak<dyn Any> = a; // Unsizing
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a = a.clone();
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assert!(a.upgrade().is_none());
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}
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#[test]
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fn slice() {
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let a: Arc<[u32; 3]> = Arc::new([3, 2, 1]);
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let a: Arc<[u32]> = a; // Unsizing
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let b: Arc<[u32]> = Arc::from(&[3, 2, 1][..]); // Conversion
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assert_eq!(a, b);
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// Exercise is_dangling() with a DST
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let mut a = Arc::downgrade(&a);
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a = a.clone();
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assert!(a.upgrade().is_some());
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}
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#[test]
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fn trait_object() {
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let a: Arc<u32> = Arc::new(4);
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let a: Arc<dyn Any> = a; // Unsizing
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// Exercise is_dangling() with a DST
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let mut a = Arc::downgrade(&a);
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a = a.clone();
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assert!(a.upgrade().is_some());
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let mut b = Weak::<u32>::new();
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b = b.clone();
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assert!(b.upgrade().is_none());
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let mut b: Weak<dyn Any> = b; // Unsizing
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b = b.clone();
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assert!(b.upgrade().is_none());
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}
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#[test]
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fn float_nan_ne() {
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let x = Arc::new(f32::NAN);
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assert!(x != x);
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assert!(!(x == x));
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}
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#[test]
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fn partial_eq() {
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struct TestPEq(RefCell<usize>);
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impl PartialEq for TestPEq {
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fn eq(&self, other: &TestPEq) -> bool {
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*self.0.borrow_mut() += 1;
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*other.0.borrow_mut() += 1;
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true
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}
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}
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let x = Arc::new(TestPEq(RefCell::new(0)));
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assert!(x == x);
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assert!(!(x != x));
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assert_eq!(*x.0.borrow(), 4);
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}
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#[test]
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fn eq() {
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#[derive(Eq)]
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struct TestEq(RefCell<usize>);
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impl PartialEq for TestEq {
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fn eq(&self, other: &TestEq) -> bool {
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*self.0.borrow_mut() += 1;
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*other.0.borrow_mut() += 1;
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true
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}
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}
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let x = Arc::new(TestEq(RefCell::new(0)));
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assert!(x == x);
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assert!(!(x != x));
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assert_eq!(*x.0.borrow(), 0);
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}
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// The test code below is identical to that in `rc.rs`.
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// For better maintainability we therefore define this type alias.
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type Rc<T> = Arc<T>;
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const SHARED_ITER_MAX: u16 = 100;
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fn assert_trusted_len<I: TrustedLen>(_: &I) {}
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#[test]
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fn shared_from_iter_normal() {
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// Exercise the base implementation for non-`TrustedLen` iterators.
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{
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// `Filter` is never `TrustedLen` since we don't
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// know statically how many elements will be kept:
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let iter = (0..SHARED_ITER_MAX).filter(|x| x % 2 == 0).map(Box::new);
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// Collecting into a `Vec<T>` or `Rc<[T]>` should make no difference:
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let vec = iter.clone().collect::<Vec<_>>();
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let rc = iter.collect::<Rc<[_]>>();
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assert_eq!(&*vec, &*rc);
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// Clone a bit and let these get dropped.
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{
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let _rc_2 = rc.clone();
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let _rc_3 = rc.clone();
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let _rc_4 = Rc::downgrade(&_rc_3);
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}
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} // Drop what hasn't been here.
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}
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#[test]
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fn shared_from_iter_trustedlen_normal() {
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// Exercise the `TrustedLen` implementation under normal circumstances
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// where `size_hint()` matches `(_, Some(exact_len))`.
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{
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let iter = (0..SHARED_ITER_MAX).map(Box::new);
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assert_trusted_len(&iter);
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// Collecting into a `Vec<T>` or `Rc<[T]>` should make no difference:
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let vec = iter.clone().collect::<Vec<_>>();
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let rc = iter.collect::<Rc<[_]>>();
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assert_eq!(&*vec, &*rc);
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assert_eq!(mem::size_of::<Box<u16>>() * SHARED_ITER_MAX as usize, mem::size_of_val(&*rc));
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// Clone a bit and let these get dropped.
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{
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let _rc_2 = rc.clone();
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let _rc_3 = rc.clone();
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let _rc_4 = Rc::downgrade(&_rc_3);
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}
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} // Drop what hasn't been here.
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// Try a ZST to make sure it is handled well.
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{
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let iter = (0..SHARED_ITER_MAX).map(drop);
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let vec = iter.clone().collect::<Vec<_>>();
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let rc = iter.collect::<Rc<[_]>>();
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assert_eq!(&*vec, &*rc);
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assert_eq!(0, mem::size_of_val(&*rc));
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{
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let _rc_2 = rc.clone();
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let _rc_3 = rc.clone();
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let _rc_4 = Rc::downgrade(&_rc_3);
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}
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}
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}
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#[test]
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#[should_panic = "I've almost got 99 problems."]
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fn shared_from_iter_trustedlen_panic() {
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// Exercise the `TrustedLen` implementation when `size_hint()` matches
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// `(_, Some(exact_len))` but where `.next()` drops before the last iteration.
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let iter = (0..SHARED_ITER_MAX).map(|val| match val {
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98 => panic!("I've almost got 99 problems."),
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_ => Box::new(val),
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});
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assert_trusted_len(&iter);
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let _ = iter.collect::<Rc<[_]>>();
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panic!("I am unreachable.");
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}
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#[test]
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fn shared_from_iter_trustedlen_no_fuse() {
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// Exercise the `TrustedLen` implementation when `size_hint()` matches
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// `(_, Some(exact_len))` but where the iterator does not behave in a fused manner.
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struct Iter(std::vec::IntoIter<Option<Box<u8>>>);
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unsafe impl TrustedLen for Iter {}
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impl Iterator for Iter {
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fn size_hint(&self) -> (usize, Option<usize>) {
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(2, Some(2))
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}
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type Item = Box<u8>;
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fn next(&mut self) -> Option<Self::Item> {
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self.0.next().flatten()
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}
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}
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let vec = vec![Some(Box::new(42)), Some(Box::new(24)), None, Some(Box::new(12))];
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let iter = Iter(vec.into_iter());
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assert_trusted_len(&iter);
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assert_eq!(&[Box::new(42), Box::new(24)], &*iter.collect::<Rc<[_]>>());
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}
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#[test]
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fn weak_may_dangle() {
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fn hmm<'a>(val: &'a mut Weak<&'a str>) -> Weak<&'a str> {
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val.clone()
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}
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// Without #[may_dangle] we get:
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let mut val = Weak::new();
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hmm(&mut val);
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// ~~~~~~~~ borrowed value does not live long enough
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//
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// `val` dropped here while still borrowed
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// borrow might be used here, when `val` is dropped and runs the `Drop` code for type `std::sync::Weak`
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}
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