arm/usr/lib/rustlib/src/rust/library/alloc/src/rc/tests.rs - manifest_repos/toolchain - Git at Google

 use super::*;

 use std::boxed::Box;
 use std::cell::RefCell;
 use std::clone::Clone;
 use std::convert::{From, TryInto};
 use std::mem::drop;
 use std::option::Option::{self, None, Some};
 use std::result::Result::{Err, Ok};

 #[test]
 fn test_clone() {
     let x = Rc::new(RefCell::new(5));
     let y = x.clone();
     *x.borrow_mut() = 20;
     assert_eq!(*y.borrow(), 20);
 }

 #[test]
 fn test_simple() {
     let x = Rc::new(5);
     assert_eq!(*x, 5);
 }

 #[test]
 fn test_simple_clone() {
     let x = Rc::new(5);
     let y = x.clone();
     assert_eq!(*x, 5);
     assert_eq!(*y, 5);
 }

 #[test]
 fn test_destructor() {
     let x: Rc<Box<_>> = Rc::new(Box::new(5));
     assert_eq!(**x, 5);
 }

 #[test]
 fn test_live() {
     let x = Rc::new(5);
     let y = Rc::downgrade(&x);
     assert!(y.upgrade().is_some());
 }

 #[test]
 fn test_dead() {
     let x = Rc::new(5);
     let y = Rc::downgrade(&x);
     drop(x);
     assert!(y.upgrade().is_none());
 }

 #[test]
 fn weak_self_cyclic() {
     struct Cycle {
         x: RefCell<Option<Weak<Cycle>>>,
     }

     let a = Rc::new(Cycle { x: RefCell::new(None) });
     let b = Rc::downgrade(&a.clone());
     *a.x.borrow_mut() = Some(b);

     // hopefully we don't double-free (or leak)...
 }

 #[test]
 fn is_unique() {
     let x = Rc::new(3);
     assert!(Rc::is_unique(&x));
     let y = x.clone();
     assert!(!Rc::is_unique(&x));
     drop(y);
     assert!(Rc::is_unique(&x));
     let w = Rc::downgrade(&x);
     assert!(!Rc::is_unique(&x));
     drop(w);
     assert!(Rc::is_unique(&x));
 }

 #[test]
 fn test_strong_count() {
     let a = Rc::new(0);
     assert!(Rc::strong_count(&a) == 1);
     let w = Rc::downgrade(&a);
     assert!(Rc::strong_count(&a) == 1);
     let b = w.upgrade().expect("upgrade of live rc failed");
     assert!(Rc::strong_count(&b) == 2);
     assert!(Rc::strong_count(&a) == 2);
     drop(w);
     drop(a);
     assert!(Rc::strong_count(&b) == 1);
     let c = b.clone();
     assert!(Rc::strong_count(&b) == 2);
     assert!(Rc::strong_count(&c) == 2);
 }

 #[test]
 fn test_weak_count() {
     let a = Rc::new(0);
     assert!(Rc::strong_count(&a) == 1);
     assert!(Rc::weak_count(&a) == 0);
     let w = Rc::downgrade(&a);
     assert!(Rc::strong_count(&a) == 1);
     assert!(Rc::weak_count(&a) == 1);
     drop(w);
     assert!(Rc::strong_count(&a) == 1);
     assert!(Rc::weak_count(&a) == 0);
     let c = a.clone();
     assert!(Rc::strong_count(&a) == 2);
     assert!(Rc::weak_count(&a) == 0);
     drop(c);
 }

 #[test]
 fn weak_counts() {
     assert_eq!(Weak::weak_count(&Weak::<u64>::new()), 0);
     assert_eq!(Weak::strong_count(&Weak::<u64>::new()), 0);

     let a = Rc::new(0);
     let w = Rc::downgrade(&a);
     assert_eq!(Weak::strong_count(&w), 1);
     assert_eq!(Weak::weak_count(&w), 1);
     let w2 = w.clone();
     assert_eq!(Weak::strong_count(&w), 1);
     assert_eq!(Weak::weak_count(&w), 2);
     assert_eq!(Weak::strong_count(&w2), 1);
     assert_eq!(Weak::weak_count(&w2), 2);
     drop(w);
     assert_eq!(Weak::strong_count(&w2), 1);
     assert_eq!(Weak::weak_count(&w2), 1);
     let a2 = a.clone();
     assert_eq!(Weak::strong_count(&w2), 2);
     assert_eq!(Weak::weak_count(&w2), 1);
     drop(a2);
     drop(a);
     assert_eq!(Weak::strong_count(&w2), 0);
     assert_eq!(Weak::weak_count(&w2), 0);
     drop(w2);
 }

 #[test]
 fn try_unwrap() {
     let x = Rc::new(3);
     assert_eq!(Rc::try_unwrap(x), Ok(3));
     let x = Rc::new(4);
     let _y = x.clone();
     assert_eq!(Rc::try_unwrap(x), Err(Rc::new(4)));
     let x = Rc::new(5);
     let _w = Rc::downgrade(&x);
     assert_eq!(Rc::try_unwrap(x), Ok(5));
 }

 #[test]
 fn into_from_raw() {
     let x = Rc::new(Box::new("hello"));
     let y = x.clone();

     let x_ptr = Rc::into_raw(x);
     drop(y);
     unsafe {
         assert_eq!(**x_ptr, "hello");

         let x = Rc::from_raw(x_ptr);
         assert_eq!(**x, "hello");

         assert_eq!(Rc::try_unwrap(x).map(|x| *x), Ok("hello"));
     }
 }

 #[test]
 fn test_into_from_raw_unsized() {
     use std::fmt::Display;
     use std::string::ToString;

     let rc: Rc<str> = Rc::from("foo");

     let ptr = Rc::into_raw(rc.clone());
     let rc2 = unsafe { Rc::from_raw(ptr) };

     assert_eq!(unsafe { &*ptr }, "foo");
     assert_eq!(rc, rc2);

     let rc: Rc<dyn Display> = Rc::new(123);

     let ptr = Rc::into_raw(rc.clone());
     let rc2 = unsafe { Rc::from_raw(ptr) };

     assert_eq!(unsafe { &*ptr }.to_string(), "123");
     assert_eq!(rc2.to_string(), "123");
 }

 #[test]
 fn into_from_weak_raw() {
     let x = Rc::new(Box::new("hello"));
     let y = Rc::downgrade(&x);

     let y_ptr = Weak::into_raw(y);
     unsafe {
         assert_eq!(**y_ptr, "hello");

         let y = Weak::from_raw(y_ptr);
         let y_up = Weak::upgrade(&y).unwrap();
         assert_eq!(**y_up, "hello");
         drop(y_up);

         assert_eq!(Rc::try_unwrap(x).map(|x| *x), Ok("hello"));
     }
 }

 #[test]
 fn test_into_from_weak_raw_unsized() {
     use std::fmt::Display;
     use std::string::ToString;

     let arc: Rc<str> = Rc::from("foo");
     let weak: Weak<str> = Rc::downgrade(&arc);

     let ptr = Weak::into_raw(weak.clone());
     let weak2 = unsafe { Weak::from_raw(ptr) };

     assert_eq!(unsafe { &*ptr }, "foo");
     assert!(weak.ptr_eq(&weak2));

     let arc: Rc<dyn Display> = Rc::new(123);
     let weak: Weak<dyn Display> = Rc::downgrade(&arc);

     let ptr = Weak::into_raw(weak.clone());
     let weak2 = unsafe { Weak::from_raw(ptr) };

     assert_eq!(unsafe { &*ptr }.to_string(), "123");
     assert!(weak.ptr_eq(&weak2));
 }

 #[test]
 fn get_mut() {
     let mut x = Rc::new(3);
     *Rc::get_mut(&mut x).unwrap() = 4;
     assert_eq!(*x, 4);
     let y = x.clone();
     assert!(Rc::get_mut(&mut x).is_none());
     drop(y);
     assert!(Rc::get_mut(&mut x).is_some());
     let _w = Rc::downgrade(&x);
     assert!(Rc::get_mut(&mut x).is_none());
 }

 #[test]
 fn test_cowrc_clone_make_unique() {
     let mut cow0 = Rc::new(75);
     let mut cow1 = cow0.clone();
     let mut cow2 = cow1.clone();

     assert!(75 == *Rc::make_mut(&mut cow0));
     assert!(75 == *Rc::make_mut(&mut cow1));
     assert!(75 == *Rc::make_mut(&mut cow2));

     *Rc::make_mut(&mut cow0) += 1;
     *Rc::make_mut(&mut cow1) += 2;
     *Rc::make_mut(&mut cow2) += 3;

     assert!(76 == *cow0);
     assert!(77 == *cow1);
     assert!(78 == *cow2);

     // none should point to the same backing memory
     assert!(*cow0 != *cow1);
     assert!(*cow0 != *cow2);
     assert!(*cow1 != *cow2);
 }

 #[test]
 fn test_cowrc_clone_unique2() {
     let mut cow0 = Rc::new(75);
     let cow1 = cow0.clone();
     let cow2 = cow1.clone();

     assert!(75 == *cow0);
     assert!(75 == *cow1);
     assert!(75 == *cow2);

     *Rc::make_mut(&mut cow0) += 1;

     assert!(76 == *cow0);
     assert!(75 == *cow1);
     assert!(75 == *cow2);

     // cow1 and cow2 should share the same contents
     // cow0 should have a unique reference
     assert!(*cow0 != *cow1);
     assert!(*cow0 != *cow2);
     assert!(*cow1 == *cow2);
 }

 #[test]
 fn test_cowrc_clone_weak() {
     let mut cow0 = Rc::new(75);
     let cow1_weak = Rc::downgrade(&cow0);

     assert!(75 == *cow0);
     assert!(75 == *cow1_weak.upgrade().unwrap());

     *Rc::make_mut(&mut cow0) += 1;

     assert!(76 == *cow0);
     assert!(cow1_weak.upgrade().is_none());
 }

 #[test]
 fn test_show() {
     let foo = Rc::new(75);
     assert_eq!(format!("{foo:?}"), "75");
 }

 #[test]
 fn test_unsized() {
     let foo: Rc<[i32]> = Rc::new([1, 2, 3]);
     assert_eq!(foo, foo.clone());
 }

 #[test]
 fn test_maybe_thin_unsized() {
     // If/when custom thin DSTs exist, this test should be updated to use one
     use std::ffi::{CStr, CString};

     let x: Rc<CStr> = Rc::from(CString::new("swordfish").unwrap().into_boxed_c_str());
     assert_eq!(format!("{x:?}"), "\"swordfish\"");
     let y: Weak<CStr> = Rc::downgrade(&x);
     drop(x);

     // At this point, the weak points to a dropped DST
     assert!(y.upgrade().is_none());
     // But we still need to be able to get the alloc layout to drop.
     // CStr has no drop glue, but custom DSTs might, and need to work.
     drop(y);
 }

 #[test]
 fn test_from_owned() {
     let foo = 123;
     let foo_rc = Rc::from(foo);
     assert!(123 == *foo_rc);
 }

 #[test]
 fn test_new_weak() {
     let foo: Weak<usize> = Weak::new();
     assert!(foo.upgrade().is_none());
 }

 #[test]
 fn test_ptr_eq() {
     let five = Rc::new(5);
     let same_five = five.clone();
     let other_five = Rc::new(5);

     assert!(Rc::ptr_eq(&five, &same_five));
     assert!(!Rc::ptr_eq(&five, &other_five));
 }

 #[test]
 fn test_from_str() {
     let r: Rc<str> = Rc::from("foo");

     assert_eq!(&r[..], "foo");
 }

 #[test]
 fn test_copy_from_slice() {
     let s: &[u32] = &[1, 2, 3];
     let r: Rc<[u32]> = Rc::from(s);

     assert_eq!(&r[..], [1, 2, 3]);
 }

 #[test]
 fn test_clone_from_slice() {
     #[derive(Clone, Debug, Eq, PartialEq)]
     struct X(u32);

     let s: &[X] = &[X(1), X(2), X(3)];
     let r: Rc<[X]> = Rc::from(s);

     assert_eq!(&r[..], s);
 }

 #[test]
 #[should_panic]
 fn test_clone_from_slice_panic() {
     use std::string::{String, ToString};

     struct Fail(u32, String);

     impl Clone for Fail {
         fn clone(&self) -> Fail {
             if self.0 == 2 {
                 panic!();
             }
             Fail(self.0, self.1.clone())
         }
     }

     let s: &[Fail] =
         &[Fail(0, "foo".to_string()), Fail(1, "bar".to_string()), Fail(2, "baz".to_string())];

     // Should panic, but not cause memory corruption
     let _r: Rc<[Fail]> = Rc::from(s);
 }

 #[test]
 fn test_from_box() {
     let b: Box<u32> = Box::new(123);
     let r: Rc<u32> = Rc::from(b);

     assert_eq!(*r, 123);
 }

 #[test]
 fn test_from_box_str() {
     use std::string::String;

     let s = String::from("foo").into_boxed_str();
     let r: Rc<str> = Rc::from(s);

     assert_eq!(&r[..], "foo");
 }

 #[test]
 fn test_from_box_slice() {
     let s = vec![1, 2, 3].into_boxed_slice();
     let r: Rc<[u32]> = Rc::from(s);

     assert_eq!(&r[..], [1, 2, 3]);
 }

 #[test]
 fn test_from_box_trait() {
     use std::fmt::Display;
     use std::string::ToString;

     let b: Box<dyn Display> = Box::new(123);
     let r: Rc<dyn Display> = Rc::from(b);

     assert_eq!(r.to_string(), "123");
 }

 #[test]
 fn test_from_box_trait_zero_sized() {
     use std::fmt::Debug;

     let b: Box<dyn Debug> = Box::new(());
     let r: Rc<dyn Debug> = Rc::from(b);

     assert_eq!(format!("{r:?}"), "()");
 }

 #[test]
 fn test_from_vec() {
     let v = vec![1, 2, 3];
     let r: Rc<[u32]> = Rc::from(v);

     assert_eq!(&r[..], [1, 2, 3]);
 }

 #[test]
 fn test_downcast() {
     use std::any::Any;

     let r1: Rc<dyn Any> = Rc::new(i32::MAX);
     let r2: Rc<dyn Any> = Rc::new("abc");

     assert!(r1.clone().downcast::<u32>().is_err());

     let r1i32 = r1.downcast::<i32>();
     assert!(r1i32.is_ok());
     assert_eq!(r1i32.unwrap(), Rc::new(i32::MAX));

     assert!(r2.clone().downcast::<i32>().is_err());

     let r2str = r2.downcast::<&'static str>();
     assert!(r2str.is_ok());
     assert_eq!(r2str.unwrap(), Rc::new("abc"));
 }

 #[test]
 fn test_array_from_slice() {
     let v = vec![1, 2, 3];
     let r: Rc<[u32]> = Rc::from(v);

     let a: Result<Rc<[u32; 3]>, _> = r.clone().try_into();
     assert!(a.is_ok());

     let a: Result<Rc<[u32; 2]>, _> = r.clone().try_into();
     assert!(a.is_err());
 }

 #[test]
 fn test_rc_cyclic_with_zero_refs() {
     struct ZeroRefs {
         inner: Weak<ZeroRefs>,
     }

     let zero_refs = Rc::new_cyclic(|inner| {
         assert_eq!(inner.strong_count(), 0);
         assert!(inner.upgrade().is_none());
         ZeroRefs { inner: Weak::new() }
     });

     assert_eq!(Rc::strong_count(&zero_refs), 1);
     assert_eq!(Rc::weak_count(&zero_refs), 0);
     assert_eq!(zero_refs.inner.strong_count(), 0);
     assert_eq!(zero_refs.inner.weak_count(), 0);
 }

 #[test]
 fn test_rc_cyclic_with_one_ref() {
     struct OneRef {
         inner: Weak<OneRef>,
     }

     let one_ref = Rc::new_cyclic(|inner| {
         assert_eq!(inner.strong_count(), 0);
         assert!(inner.upgrade().is_none());
         OneRef { inner: inner.clone() }
     });

     assert_eq!(Rc::strong_count(&one_ref), 1);
     assert_eq!(Rc::weak_count(&one_ref), 1);

     let one_ref2 = Weak::upgrade(&one_ref.inner).unwrap();
     assert!(Rc::ptr_eq(&one_ref, &one_ref2));

     assert_eq!(one_ref.inner.strong_count(), 2);
     assert_eq!(one_ref.inner.weak_count(), 1);
 }

 #[test]
 fn test_rc_cyclic_with_two_ref() {
     struct TwoRefs {
         inner: Weak<TwoRefs>,
         inner1: Weak<TwoRefs>,
     }

     let two_refs = Rc::new_cyclic(|inner| {
         assert_eq!(inner.strong_count(), 0);
         assert!(inner.upgrade().is_none());
         TwoRefs { inner: inner.clone(), inner1: inner.clone() }
     });

     assert_eq!(Rc::strong_count(&two_refs), 1);
     assert_eq!(Rc::weak_count(&two_refs), 2);

     let two_ref3 = Weak::upgrade(&two_refs.inner).unwrap();
     assert!(Rc::ptr_eq(&two_refs, &two_ref3));

     let two_ref2 = Weak::upgrade(&two_refs.inner1).unwrap();
     assert!(Rc::ptr_eq(&two_refs, &two_ref2));

     assert_eq!(Rc::strong_count(&two_refs), 3);
     assert_eq!(Rc::weak_count(&two_refs), 2);
 }
	use super::*;

	use std::boxed::Box;
	use std::cell::RefCell;
	use std::clone::Clone;
	use std::convert::{From, TryInto};
	use std::mem::drop;
	use std::option::Option::{self, None, Some};
	use std::result::Result::{Err, Ok};

	#[test]
	fn test_clone() {
	let x = Rc::new(RefCell::new(5));
	let y = x.clone();
	*x.borrow_mut() = 20;
	assert_eq!(*y.borrow(), 20);
	}

	#[test]
	fn test_simple() {
	let x = Rc::new(5);
	assert_eq!(*x, 5);
	}

	#[test]
	fn test_simple_clone() {
	let x = Rc::new(5);
	let y = x.clone();
	assert_eq!(*x, 5);
	assert_eq!(*y, 5);
	}

	#[test]
	fn test_destructor() {
	let x: Rc<Box<_>> = Rc::new(Box::new(5));
	assert_eq!(**x, 5);
	}

	#[test]
	fn test_live() {
	let x = Rc::new(5);
	let y = Rc::downgrade(&x);
	assert!(y.upgrade().is_some());
	}

	#[test]
	fn test_dead() {
	let x = Rc::new(5);
	let y = Rc::downgrade(&x);
	drop(x);
	assert!(y.upgrade().is_none());
	}

	#[test]
	fn weak_self_cyclic() {
	struct Cycle {
	x: RefCell<Option<Weak<Cycle>>>,
	}

	let a = Rc::new(Cycle { x: RefCell::new(None) });
	let b = Rc::downgrade(&a.clone());
	*a.x.borrow_mut() = Some(b);

	// hopefully we don't double-free (or leak)...
	}

	#[test]
	fn is_unique() {
	let x = Rc::new(3);
	assert!(Rc::is_unique(&x));
	let y = x.clone();
	assert!(!Rc::is_unique(&x));
	drop(y);
	assert!(Rc::is_unique(&x));
	let w = Rc::downgrade(&x);
	assert!(!Rc::is_unique(&x));
	drop(w);
	assert!(Rc::is_unique(&x));
	}

	#[test]
	fn test_strong_count() {
	let a = Rc::new(0);
	assert!(Rc::strong_count(&a) == 1);
	let w = Rc::downgrade(&a);
	assert!(Rc::strong_count(&a) == 1);
	let b = w.upgrade().expect("upgrade of live rc failed");
	assert!(Rc::strong_count(&b) == 2);
	assert!(Rc::strong_count(&a) == 2);
	drop(w);
	drop(a);
	assert!(Rc::strong_count(&b) == 1);
	let c = b.clone();
	assert!(Rc::strong_count(&b) == 2);
	assert!(Rc::strong_count(&c) == 2);
	}

	#[test]
	fn test_weak_count() {
	let a = Rc::new(0);
	assert!(Rc::strong_count(&a) == 1);
	assert!(Rc::weak_count(&a) == 0);
	let w = Rc::downgrade(&a);
	assert!(Rc::strong_count(&a) == 1);
	assert!(Rc::weak_count(&a) == 1);
	drop(w);
	assert!(Rc::strong_count(&a) == 1);
	assert!(Rc::weak_count(&a) == 0);
	let c = a.clone();
	assert!(Rc::strong_count(&a) == 2);
	assert!(Rc::weak_count(&a) == 0);
	drop(c);
	}

	#[test]
	fn weak_counts() {
	assert_eq!(Weak::weak_count(&Weak::<u64>::new()), 0);
	assert_eq!(Weak::strong_count(&Weak::<u64>::new()), 0);

	let a = Rc::new(0);
	let w = Rc::downgrade(&a);
	assert_eq!(Weak::strong_count(&w), 1);
	assert_eq!(Weak::weak_count(&w), 1);
	let w2 = w.clone();
	assert_eq!(Weak::strong_count(&w), 1);
	assert_eq!(Weak::weak_count(&w), 2);
	assert_eq!(Weak::strong_count(&w2), 1);
	assert_eq!(Weak::weak_count(&w2), 2);
	drop(w);
	assert_eq!(Weak::strong_count(&w2), 1);
	assert_eq!(Weak::weak_count(&w2), 1);
	let a2 = a.clone();
	assert_eq!(Weak::strong_count(&w2), 2);
	assert_eq!(Weak::weak_count(&w2), 1);
	drop(a2);
	drop(a);
	assert_eq!(Weak::strong_count(&w2), 0);
	assert_eq!(Weak::weak_count(&w2), 0);
	drop(w2);
	}

	#[test]
	fn try_unwrap() {
	let x = Rc::new(3);
	assert_eq!(Rc::try_unwrap(x), Ok(3));
	let x = Rc::new(4);
	let _y = x.clone();
	assert_eq!(Rc::try_unwrap(x), Err(Rc::new(4)));
	let x = Rc::new(5);
	let _w = Rc::downgrade(&x);
	assert_eq!(Rc::try_unwrap(x), Ok(5));
	}

	#[test]
	fn into_from_raw() {
	let x = Rc::new(Box::new("hello"));
	let y = x.clone();

	let x_ptr = Rc::into_raw(x);
	drop(y);
	unsafe {
	assert_eq!(**x_ptr, "hello");

	let x = Rc::from_raw(x_ptr);
	assert_eq!(**x, "hello");

	assert_eq!(Rc::try_unwrap(x).map(\|x\| *x), Ok("hello"));
	}
	}

	#[test]
	fn test_into_from_raw_unsized() {
	use std::fmt::Display;
	use std::string::ToString;

	let rc: Rc<str> = Rc::from("foo");

	let ptr = Rc::into_raw(rc.clone());
	let rc2 = unsafe { Rc::from_raw(ptr) };

	assert_eq!(unsafe { &*ptr }, "foo");
	assert_eq!(rc, rc2);

	let rc: Rc<dyn Display> = Rc::new(123);

	let ptr = Rc::into_raw(rc.clone());
	let rc2 = unsafe { Rc::from_raw(ptr) };

	assert_eq!(unsafe { &*ptr }.to_string(), "123");
	assert_eq!(rc2.to_string(), "123");
	}

	#[test]
	fn into_from_weak_raw() {
	let x = Rc::new(Box::new("hello"));
	let y = Rc::downgrade(&x);

	let y_ptr = Weak::into_raw(y);
	unsafe {
	assert_eq!(**y_ptr, "hello");

	let y = Weak::from_raw(y_ptr);
	let y_up = Weak::upgrade(&y).unwrap();
	assert_eq!(**y_up, "hello");
	drop(y_up);

	assert_eq!(Rc::try_unwrap(x).map(\|x\| *x), Ok("hello"));
	}
	}

	#[test]
	fn test_into_from_weak_raw_unsized() {
	use std::fmt::Display;
	use std::string::ToString;

	let arc: Rc<str> = Rc::from("foo");
	let weak: Weak<str> = Rc::downgrade(&arc);

	let ptr = Weak::into_raw(weak.clone());
	let weak2 = unsafe { Weak::from_raw(ptr) };

	assert_eq!(unsafe { &*ptr }, "foo");
	assert!(weak.ptr_eq(&weak2));

	let arc: Rc<dyn Display> = Rc::new(123);
	let weak: Weak<dyn Display> = Rc::downgrade(&arc);

	let ptr = Weak::into_raw(weak.clone());
	let weak2 = unsafe { Weak::from_raw(ptr) };

	assert_eq!(unsafe { &*ptr }.to_string(), "123");
	assert!(weak.ptr_eq(&weak2));
	}

	#[test]
	fn get_mut() {
	let mut x = Rc::new(3);
	*Rc::get_mut(&mut x).unwrap() = 4;
	assert_eq!(*x, 4);
	let y = x.clone();
	assert!(Rc::get_mut(&mut x).is_none());
	drop(y);
	assert!(Rc::get_mut(&mut x).is_some());
	let _w = Rc::downgrade(&x);
	assert!(Rc::get_mut(&mut x).is_none());
	}

	#[test]
	fn test_cowrc_clone_make_unique() {
	let mut cow0 = Rc::new(75);
	let mut cow1 = cow0.clone();
	let mut cow2 = cow1.clone();

	assert!(75 == *Rc::make_mut(&mut cow0));
	assert!(75 == *Rc::make_mut(&mut cow1));
	assert!(75 == *Rc::make_mut(&mut cow2));

	*Rc::make_mut(&mut cow0) += 1;
	*Rc::make_mut(&mut cow1) += 2;
	*Rc::make_mut(&mut cow2) += 3;

	assert!(76 == *cow0);
	assert!(77 == *cow1);
	assert!(78 == *cow2);

	// none should point to the same backing memory
	assert!(cow0 != cow1);
	assert!(cow0 != cow2);
	assert!(cow1 != cow2);
	}

	#[test]
	fn test_cowrc_clone_unique2() {
	let mut cow0 = Rc::new(75);
	let cow1 = cow0.clone();
	let cow2 = cow1.clone();

	assert!(75 == *cow0);
	assert!(75 == *cow1);
	assert!(75 == *cow2);

	*Rc::make_mut(&mut cow0) += 1;

	assert!(76 == *cow0);
	assert!(75 == *cow1);
	assert!(75 == *cow2);

	// cow1 and cow2 should share the same contents
	// cow0 should have a unique reference
	assert!(cow0 != cow1);
	assert!(cow0 != cow2);
	assert!(cow1 == cow2);
	}

	#[test]
	fn test_cowrc_clone_weak() {
	let mut cow0 = Rc::new(75);
	let cow1_weak = Rc::downgrade(&cow0);

	assert!(75 == *cow0);
	assert!(75 == *cow1_weak.upgrade().unwrap());

	*Rc::make_mut(&mut cow0) += 1;

	assert!(76 == *cow0);
	assert!(cow1_weak.upgrade().is_none());
	}

	#[test]
	fn test_show() {
	let foo = Rc::new(75);
	assert_eq!(format!("{foo:?}"), "75");
	}

	#[test]
	fn test_unsized() {
	let foo: Rc<[i32]> = Rc::new([1, 2, 3]);
	assert_eq!(foo, foo.clone());
	}

	#[test]
	fn test_maybe_thin_unsized() {
	// If/when custom thin DSTs exist, this test should be updated to use one
	use std::ffi::{CStr, CString};

	let x: Rc<CStr> = Rc::from(CString::new("swordfish").unwrap().into_boxed_c_str());
	assert_eq!(format!("{x:?}"), "\"swordfish\"");
	let y: Weak<CStr> = Rc::downgrade(&x);
	drop(x);

	// At this point, the weak points to a dropped DST
	assert!(y.upgrade().is_none());
	// But we still need to be able to get the alloc layout to drop.
	// CStr has no drop glue, but custom DSTs might, and need to work.
	drop(y);
	}

	#[test]
	fn test_from_owned() {
	let foo = 123;
	let foo_rc = Rc::from(foo);
	assert!(123 == *foo_rc);
	}

	#[test]
	fn test_new_weak() {
	let foo: Weak<usize> = Weak::new();
	assert!(foo.upgrade().is_none());
	}

	#[test]
	fn test_ptr_eq() {
	let five = Rc::new(5);
	let same_five = five.clone();
	let other_five = Rc::new(5);

	assert!(Rc::ptr_eq(&five, &same_five));
	assert!(!Rc::ptr_eq(&five, &other_five));
	}

	#[test]
	fn test_from_str() {
	let r: Rc<str> = Rc::from("foo");

	assert_eq!(&r[..], "foo");
	}

	#[test]
	fn test_copy_from_slice() {
	let s: &[u32] = &[1, 2, 3];
	let r: Rc<[u32]> = Rc::from(s);

	assert_eq!(&r[..], [1, 2, 3]);
	}

	#[test]
	fn test_clone_from_slice() {
	#[derive(Clone, Debug, Eq, PartialEq)]
	struct X(u32);

	let s: &[X] = &[X(1), X(2), X(3)];
	let r: Rc<[X]> = Rc::from(s);

	assert_eq!(&r[..], s);
	}

	#[test]
	#[should_panic]
	fn test_clone_from_slice_panic() {
	use std::string::{String, ToString};

	struct Fail(u32, String);

	impl Clone for Fail {
	fn clone(&self) -> Fail {
	if self.0 == 2 {
	panic!();
	}
	Fail(self.0, self.1.clone())
	}
	}

	let s: &[Fail] =
	&[Fail(0, "foo".to_string()), Fail(1, "bar".to_string()), Fail(2, "baz".to_string())];

	// Should panic, but not cause memory corruption
	let _r: Rc<[Fail]> = Rc::from(s);
	}

	#[test]
	fn test_from_box() {
	let b: Box<u32> = Box::new(123);
	let r: Rc<u32> = Rc::from(b);

	assert_eq!(*r, 123);
	}

	#[test]
	fn test_from_box_str() {
	use std::string::String;

	let s = String::from("foo").into_boxed_str();
	let r: Rc<str> = Rc::from(s);

	assert_eq!(&r[..], "foo");
	}

	#[test]
	fn test_from_box_slice() {
	let s = vec![1, 2, 3].into_boxed_slice();
	let r: Rc<[u32]> = Rc::from(s);

	assert_eq!(&r[..], [1, 2, 3]);
	}

	#[test]
	fn test_from_box_trait() {
	use std::fmt::Display;
	use std::string::ToString;

	let b: Box<dyn Display> = Box::new(123);
	let r: Rc<dyn Display> = Rc::from(b);

	assert_eq!(r.to_string(), "123");
	}

	#[test]
	fn test_from_box_trait_zero_sized() {
	use std::fmt::Debug;

	let b: Box<dyn Debug> = Box::new(());
	let r: Rc<dyn Debug> = Rc::from(b);

	assert_eq!(format!("{r:?}"), "()");
	}

	#[test]
	fn test_from_vec() {
	let v = vec![1, 2, 3];
	let r: Rc<[u32]> = Rc::from(v);

	assert_eq!(&r[..], [1, 2, 3]);
	}

	#[test]
	fn test_downcast() {
	use std::any::Any;

	let r1: Rc<dyn Any> = Rc::new(i32::MAX);
	let r2: Rc<dyn Any> = Rc::new("abc");

	assert!(r1.clone().downcast::<u32>().is_err());

	let r1i32 = r1.downcast::<i32>();
	assert!(r1i32.is_ok());
	assert_eq!(r1i32.unwrap(), Rc::new(i32::MAX));

	assert!(r2.clone().downcast::<i32>().is_err());

	let r2str = r2.downcast::<&'static str>();
	assert!(r2str.is_ok());
	assert_eq!(r2str.unwrap(), Rc::new("abc"));
	}

	#[test]
	fn test_array_from_slice() {
	let v = vec![1, 2, 3];
	let r: Rc<[u32]> = Rc::from(v);

	let a: Result<Rc<[u32; 3]>, _> = r.clone().try_into();
	assert!(a.is_ok());

	let a: Result<Rc<[u32; 2]>, _> = r.clone().try_into();
	assert!(a.is_err());
	}

	#[test]
	fn test_rc_cyclic_with_zero_refs() {
	struct ZeroRefs {
	inner: Weak<ZeroRefs>,
	}

	let zero_refs = Rc::new_cyclic(\|inner\| {
	assert_eq!(inner.strong_count(), 0);
	assert!(inner.upgrade().is_none());
	ZeroRefs { inner: Weak::new() }
	});

	assert_eq!(Rc::strong_count(&zero_refs), 1);
	assert_eq!(Rc::weak_count(&zero_refs), 0);
	assert_eq!(zero_refs.inner.strong_count(), 0);
	assert_eq!(zero_refs.inner.weak_count(), 0);
	}

	#[test]
	fn test_rc_cyclic_with_one_ref() {
	struct OneRef {
	inner: Weak<OneRef>,
	}

	let one_ref = Rc::new_cyclic(\|inner\| {
	assert_eq!(inner.strong_count(), 0);
	assert!(inner.upgrade().is_none());
	OneRef { inner: inner.clone() }
	});

	assert_eq!(Rc::strong_count(&one_ref), 1);
	assert_eq!(Rc::weak_count(&one_ref), 1);

	let one_ref2 = Weak::upgrade(&one_ref.inner).unwrap();
	assert!(Rc::ptr_eq(&one_ref, &one_ref2));

	assert_eq!(one_ref.inner.strong_count(), 2);
	assert_eq!(one_ref.inner.weak_count(), 1);
	}

	#[test]
	fn test_rc_cyclic_with_two_ref() {
	struct TwoRefs {
	inner: Weak<TwoRefs>,
	inner1: Weak<TwoRefs>,
	}

	let two_refs = Rc::new_cyclic(\|inner\| {
	assert_eq!(inner.strong_count(), 0);
	assert!(inner.upgrade().is_none());
	TwoRefs { inner: inner.clone(), inner1: inner.clone() }
	});

	assert_eq!(Rc::strong_count(&two_refs), 1);
	assert_eq!(Rc::weak_count(&two_refs), 2);

	let two_ref3 = Weak::upgrade(&two_refs.inner).unwrap();
	assert!(Rc::ptr_eq(&two_refs, &two_ref3));

	let two_ref2 = Weak::upgrade(&two_refs.inner1).unwrap();
	assert!(Rc::ptr_eq(&two_refs, &two_ref2));

	assert_eq!(Rc::strong_count(&two_refs), 3);
	assert_eq!(Rc::weak_count(&two_refs), 2);
	}