aarch64/usr/lib/rustlib/src/rust/library/core/tests/option.rs - manifest_repos/toolchain - Git at Google

 use core::cell::Cell;
 use core::clone::Clone;
 use core::mem;
 use core::ops::DerefMut;
 use core::option::*;

 #[test]
 fn test_get_ptr() {
     unsafe {
         let x: Box<_> = Box::new(0);
         let addr_x: *const isize = mem::transmute(&*x);
         let opt = Some(x);
         let y = opt.unwrap();
         let addr_y: *const isize = mem::transmute(&*y);
         assert_eq!(addr_x, addr_y);
     }
 }

 #[test]
 fn test_get_str() {
     let x = "test".to_string();
     let addr_x = x.as_ptr();
     let opt = Some(x);
     let y = opt.unwrap();
     let addr_y = y.as_ptr();
     assert_eq!(addr_x, addr_y);
 }

 #[test]
 fn test_get_resource() {
     use core::cell::RefCell;
     use std::rc::Rc;

     struct R {
         i: Rc<RefCell<isize>>,
     }

     impl Drop for R {
         fn drop(&mut self) {
             let ii = &*self.i;
             let i = *ii.borrow();
             *ii.borrow_mut() = i + 1;
         }
     }

     fn r(i: Rc<RefCell<isize>>) -> R {
         R { i }
     }

     let i = Rc::new(RefCell::new(0));
     {
         let x = r(i.clone());
         let opt = Some(x);
         let _y = opt.unwrap();
     }
     assert_eq!(*i.borrow(), 1);
 }

 #[test]
 #[allow(for_loops_over_fallibles)]
 fn test_option_dance() {
     let x = Some(());
     let mut y = Some(5);
     let mut y2 = 0;
     for _x in x {
         y2 = y.take().unwrap();
     }
     assert_eq!(y2, 5);
     assert!(y.is_none());
 }

 #[test]
 #[should_panic]
 fn test_option_too_much_dance() {
     struct A;
     let mut y = Some(A);
     let _y2 = y.take().unwrap();
     let _y3 = y.take().unwrap();
 }

 #[test]
 fn test_and() {
     let x: Option<isize> = Some(1);
     assert_eq!(x.and(Some(2)), Some(2));
     assert_eq!(x.and(None::<isize>), None);

     let x: Option<isize> = None;
     assert_eq!(x.and(Some(2)), None);
     assert_eq!(x.and(None::<isize>), None);

     const FOO: Option<isize> = Some(1);
     const A: Option<isize> = FOO.and(Some(2));
     const B: Option<isize> = FOO.and(None);
     assert_eq!(A, Some(2));
     assert_eq!(B, None);

     const BAR: Option<isize> = None;
     const C: Option<isize> = BAR.and(Some(2));
     const D: Option<isize> = BAR.and(None);
     assert_eq!(C, None);
     assert_eq!(D, None);
 }

 #[test]
 fn test_and_then() {
     const fn plus_one(x: isize) -> Option<isize> {
         Some(x + 1)
     }

     const fn none(_: isize) -> Option<isize> {
         None
     }

     let x: Option<isize> = Some(1);
     assert_eq!(x.and_then(plus_one), Some(2));
     assert_eq!(x.and_then(none), None);

     let x: Option<isize> = None;
     assert_eq!(x.and_then(plus_one), None);
     assert_eq!(x.and_then(none), None);

     const FOO: Option<isize> = Some(1);
     const A: Option<isize> = FOO.and_then(plus_one);
     const B: Option<isize> = FOO.and_then(none);
     assert_eq!(A, Some(2));
     assert_eq!(B, None);

     const BAR: Option<isize> = None;
     const C: Option<isize> = BAR.and_then(plus_one);
     const D: Option<isize> = BAR.and_then(none);
     assert_eq!(C, None);
     assert_eq!(D, None);
 }

 #[test]
 fn test_or() {
     let x: Option<isize> = Some(1);
     assert_eq!(x.or(Some(2)), Some(1));
     assert_eq!(x.or(None), Some(1));

     let x: Option<isize> = None;
     assert_eq!(x.or(Some(2)), Some(2));
     assert_eq!(x.or(None), None);

     const FOO: Option<isize> = Some(1);
     const A: Option<isize> = FOO.or(Some(2));
     const B: Option<isize> = FOO.or(None);
     assert_eq!(A, Some(1));
     assert_eq!(B, Some(1));

     const BAR: Option<isize> = None;
     const C: Option<isize> = BAR.or(Some(2));
     const D: Option<isize> = BAR.or(None);
     assert_eq!(C, Some(2));
     assert_eq!(D, None);
 }

 #[test]
 fn test_or_else() {
     const fn two() -> Option<isize> {
         Some(2)
     }

     const fn none() -> Option<isize> {
         None
     }

     let x: Option<isize> = Some(1);
     assert_eq!(x.or_else(two), Some(1));
     assert_eq!(x.or_else(none), Some(1));

     let x: Option<isize> = None;
     assert_eq!(x.or_else(two), Some(2));
     assert_eq!(x.or_else(none), None);

     const FOO: Option<isize> = Some(1);
     const A: Option<isize> = FOO.or_else(two);
     const B: Option<isize> = FOO.or_else(none);
     assert_eq!(A, Some(1));
     assert_eq!(B, Some(1));

     const BAR: Option<isize> = None;
     const C: Option<isize> = BAR.or_else(two);
     const D: Option<isize> = BAR.or_else(none);
     assert_eq!(C, Some(2));
     assert_eq!(D, None);
 }

 #[test]
 fn test_unwrap() {
     assert_eq!(Some(1).unwrap(), 1);
     let s = Some("hello".to_string()).unwrap();
     assert_eq!(s, "hello");
 }

 #[test]
 #[should_panic]
 fn test_unwrap_panic1() {
     let x: Option<isize> = None;
     x.unwrap();
 }

 #[test]
 #[should_panic]
 fn test_unwrap_panic2() {
     let x: Option<String> = None;
     x.unwrap();
 }

 #[test]
 fn test_unwrap_or() {
     let x: Option<isize> = Some(1);
     assert_eq!(x.unwrap_or(2), 1);

     let x: Option<isize> = None;
     assert_eq!(x.unwrap_or(2), 2);

     const A: isize = Some(1).unwrap_or(2);
     const B: isize = None.unwrap_or(2);
     assert_eq!(A, 1);
     assert_eq!(B, 2);
 }

 #[test]
 fn test_unwrap_or_else() {
     const fn two() -> isize {
         2
     }

     let x: Option<isize> = Some(1);
     assert_eq!(x.unwrap_or_else(two), 1);

     let x: Option<isize> = None;
     assert_eq!(x.unwrap_or_else(two), 2);

     const A: isize = Some(1).unwrap_or_else(two);
     const B: isize = None.unwrap_or_else(two);
     assert_eq!(A, 1);
     assert_eq!(B, 2);
 }

 #[test]
 fn test_unwrap_unchecked() {
     assert_eq!(unsafe { Some(1).unwrap_unchecked() }, 1);
     let s = unsafe { Some("hello".to_string()).unwrap_unchecked() };
     assert_eq!(s, "hello");
 }

 #[test]
 fn test_iter() {
     let val = 5;

     let x = Some(val);
     let mut it = x.iter();

     assert_eq!(it.size_hint(), (1, Some(1)));
     assert_eq!(it.next(), Some(&val));
     assert_eq!(it.size_hint(), (0, Some(0)));
     assert!(it.next().is_none());

     let mut it = (&x).into_iter();
     assert_eq!(it.next(), Some(&val));
 }

 #[test]
 fn test_mut_iter() {
     let mut val = 5;
     let new_val = 11;

     let mut x = Some(val);
     {
         let mut it = x.iter_mut();

         assert_eq!(it.size_hint(), (1, Some(1)));

         match it.next() {
             Some(interior) => {
                 assert_eq!(*interior, val);
                 *interior = new_val;
             }
             None => assert!(false),
         }

         assert_eq!(it.size_hint(), (0, Some(0)));
         assert!(it.next().is_none());
     }
     assert_eq!(x, Some(new_val));

     let mut y = Some(val);
     let mut it = (&mut y).into_iter();
     assert_eq!(it.next(), Some(&mut val));
 }

 #[test]
 fn test_ord() {
     let small = Some(1.0f64);
     let big = Some(5.0f64);
     let nan = Some(0.0f64 / 0.0);
     assert!(!(nan < big));
     assert!(!(nan > big));
     assert!(small < big);
     assert!(None < big);
     assert!(big > None);
 }

 #[test]
 fn test_collect() {
     let v: Option<Vec<isize>> = (0..0).map(|_| Some(0)).collect();
     assert!(v == Some(vec![]));

     let v: Option<Vec<isize>> = (0..3).map(|x| Some(x)).collect();
     assert!(v == Some(vec![0, 1, 2]));

     let v: Option<Vec<isize>> = (0..3).map(|x| if x > 1 { None } else { Some(x) }).collect();
     assert!(v == None);

     // test that it does not take more elements than it needs
     let mut functions: [Box<dyn Fn() -> Option<()>>; 3] =
         [Box::new(|| Some(())), Box::new(|| None), Box::new(|| panic!())];

     let v: Option<Vec<()>> = functions.iter_mut().map(|f| (*f)()).collect();

     assert!(v == None);
 }

 #[test]
 fn test_copied() {
     let val = 1;
     let val_ref = &val;
     let opt_none: Option<&'static u32> = None;
     let opt_ref = Some(&val);
     let opt_ref_ref = Some(&val_ref);

     // None works
     assert_eq!(opt_none.clone(), None);
     assert_eq!(opt_none.copied(), None);

     // Immutable ref works
     assert_eq!(opt_ref.clone(), Some(&val));
     assert_eq!(opt_ref.copied(), Some(1));

     // Double Immutable ref works
     assert_eq!(opt_ref_ref.clone(), Some(&val_ref));
     assert_eq!(opt_ref_ref.clone().copied(), Some(&val));
     assert_eq!(opt_ref_ref.copied().copied(), Some(1));
 }

 #[test]
 fn test_cloned() {
     let val = 1;
     let val_ref = &val;
     let opt_none: Option<&'static u32> = None;
     let opt_ref = Some(&val);
     let opt_ref_ref = Some(&val_ref);

     // None works
     assert_eq!(opt_none.clone(), None);
     assert_eq!(opt_none.cloned(), None);

     // Immutable ref works
     assert_eq!(opt_ref.clone(), Some(&val));
     assert_eq!(opt_ref.cloned(), Some(1));

     // Double Immutable ref works
     assert_eq!(opt_ref_ref.clone(), Some(&val_ref));
     assert_eq!(opt_ref_ref.clone().cloned(), Some(&val));
     assert_eq!(opt_ref_ref.cloned().cloned(), Some(1));
 }

 #[test]
 fn test_try() {
     fn try_option_some() -> Option<u8> {
         let val = Some(1)?;
         Some(val)
     }
     assert_eq!(try_option_some(), Some(1));

     fn try_option_none() -> Option<u8> {
         let val = None?;
         Some(val)
     }
     assert_eq!(try_option_none(), None);
 }

 #[test]
 fn test_option_as_deref() {
     // Some: &Option<T: Deref>::Some(T) -> Option<&T::Deref::Target>::Some(&*T)
     let ref_option = &Some(&42);
     assert_eq!(ref_option.as_deref(), Some(&42));

     let ref_option = &Some(String::from("a result"));
     assert_eq!(ref_option.as_deref(), Some("a result"));

     let ref_option = &Some(vec![1, 2, 3, 4, 5]);
     assert_eq!(ref_option.as_deref(), Some([1, 2, 3, 4, 5].as_slice()));

     // None: &Option<T: Deref>>::None -> None
     let ref_option: &Option<&i32> = &None;
     assert_eq!(ref_option.as_deref(), None);
 }

 #[test]
 fn test_option_as_deref_mut() {
     // Some: &mut Option<T: Deref>::Some(T) -> Option<&mut T::Deref::Target>::Some(&mut *T)
     let mut val = 42;
     let ref_option = &mut Some(&mut val);
     assert_eq!(ref_option.as_deref_mut(), Some(&mut 42));

     let ref_option = &mut Some(String::from("a result"));
     assert_eq!(ref_option.as_deref_mut(), Some(String::from("a result").deref_mut()));

     let ref_option = &mut Some(vec![1, 2, 3, 4, 5]);
     assert_eq!(ref_option.as_deref_mut(), Some([1, 2, 3, 4, 5].as_mut_slice()));

     // None: &mut Option<T: Deref>>::None -> None
     let ref_option: &mut Option<&mut i32> = &mut None;
     assert_eq!(ref_option.as_deref_mut(), None);
 }

 #[test]
 fn test_replace() {
     let mut x = Some(2);
     let old = x.replace(5);

     assert_eq!(x, Some(5));
     assert_eq!(old, Some(2));

     let mut x = None;
     let old = x.replace(3);

     assert_eq!(x, Some(3));
     assert_eq!(old, None);
 }

 #[test]
 fn option_const() {
     // test that the methods of `Option` are usable in a const context

     const OPTION: Option<usize> = Some(32);
     assert_eq!(OPTION, Some(32));

     const OPTION_FROM: Option<usize> = Option::from(32);
     assert_eq!(OPTION_FROM, Some(32));

     const REF: Option<&usize> = OPTION.as_ref();
     assert_eq!(REF, Some(&32));

     const REF_FROM: Option<&usize> = Option::from(&OPTION);
     assert_eq!(REF_FROM, Some(&32));

     const IS_SOME: bool = OPTION.is_some();
     assert!(IS_SOME);

     const IS_NONE: bool = OPTION.is_none();
     assert!(!IS_NONE);

     const COPIED: Option<usize> = OPTION.as_ref().copied();
     assert_eq!(COPIED, OPTION);
 }

 #[test]
 const fn option_const_mut() {
     // test that the methods of `Option` that take mutable references are usable in a const context

     let mut option: Option<usize> = Some(32);

     let _take = option.take();
     let _replace = option.replace(42);

     {
         let as_mut = option.as_mut();
         match as_mut {
             Some(v) => *v = 32,
             None => unreachable!(),
         }
     }

     {
         let as_mut: Option<&mut usize> = Option::from(&mut option);
         match as_mut {
             Some(v) => *v = 42,
             None => unreachable!(),
         }
     }
 }

 #[test]
 fn test_unwrap_drop() {
     struct Dtor<'a> {
         x: &'a Cell<isize>,
     }

     impl<'a> std::ops::Drop for Dtor<'a> {
         fn drop(&mut self) {
             self.x.set(self.x.get() - 1);
         }
     }

     fn unwrap<T>(o: Option<T>) -> T {
         match o {
             Some(v) => v,
             None => panic!(),
         }
     }

     let x = &Cell::new(1);

     {
         let b = Some(Dtor { x });
         let _c = unwrap(b);
     }

     assert_eq!(x.get(), 0);
 }

 #[test]
 fn option_ext() {
     let thing = "{{ f }}";
     let f = thing.find("{{");

     if f.is_none() {
         println!("None!");
     }
 }

 #[test]
 fn zip_options() {
     let x = Some(10);
     let y = Some("foo");
     let z: Option<usize> = None;

     assert_eq!(x.zip(y), Some((10, "foo")));
     assert_eq!(x.zip(z), None);
     assert_eq!(z.zip(x), None);
 }

 #[test]
 fn unzip_options() {
     let x = Some((10, "foo"));
     let y = None::<(bool, i32)>;

     assert_eq!(x.unzip(), (Some(10), Some("foo")));
     assert_eq!(y.unzip(), (None, None));
 }

 #[test]
 fn zip_unzip_roundtrip() {
     let x = Some(10);
     let y = Some("foo");

     let z = x.zip(y);
     assert_eq!(z, Some((10, "foo")));

     let a = z.unzip();
     assert_eq!(a, (x, y));
 }
	use core::cell::Cell;
	use core::clone::Clone;
	use core::mem;
	use core::ops::DerefMut;
	use core::option::*;

	#[test]
	fn test_get_ptr() {
	unsafe {
	let x: Box<_> = Box::new(0);
	let addr_x: const isize = mem::transmute(&x);
	let opt = Some(x);
	let y = opt.unwrap();
	let addr_y: const isize = mem::transmute(&y);
	assert_eq!(addr_x, addr_y);
	}
	}

	#[test]
	fn test_get_str() {
	let x = "test".to_string();
	let addr_x = x.as_ptr();
	let opt = Some(x);
	let y = opt.unwrap();
	let addr_y = y.as_ptr();
	assert_eq!(addr_x, addr_y);
	}

	#[test]
	fn test_get_resource() {
	use core::cell::RefCell;
	use std::rc::Rc;

	struct R {
	i: Rc<RefCell<isize>>,
	}

	impl Drop for R {
	fn drop(&mut self) {
	let ii = &*self.i;
	let i = *ii.borrow();
	*ii.borrow_mut() = i + 1;
	}
	}

	fn r(i: Rc<RefCell<isize>>) -> R {
	R { i }
	}

	let i = Rc::new(RefCell::new(0));
	{
	let x = r(i.clone());
	let opt = Some(x);
	let _y = opt.unwrap();
	}
	assert_eq!(*i.borrow(), 1);
	}

	#[test]
	#[allow(for_loops_over_fallibles)]
	fn test_option_dance() {
	let x = Some(());
	let mut y = Some(5);
	let mut y2 = 0;
	for _x in x {
	y2 = y.take().unwrap();
	}
	assert_eq!(y2, 5);
	assert!(y.is_none());
	}

	#[test]
	#[should_panic]
	fn test_option_too_much_dance() {
	struct A;
	let mut y = Some(A);
	let _y2 = y.take().unwrap();
	let _y3 = y.take().unwrap();
	}

	#[test]
	fn test_and() {
	let x: Option<isize> = Some(1);
	assert_eq!(x.and(Some(2)), Some(2));
	assert_eq!(x.and(None::<isize>), None);

	let x: Option<isize> = None;
	assert_eq!(x.and(Some(2)), None);
	assert_eq!(x.and(None::<isize>), None);

	const FOO: Option<isize> = Some(1);
	const A: Option<isize> = FOO.and(Some(2));
	const B: Option<isize> = FOO.and(None);
	assert_eq!(A, Some(2));
	assert_eq!(B, None);

	const BAR: Option<isize> = None;
	const C: Option<isize> = BAR.and(Some(2));
	const D: Option<isize> = BAR.and(None);
	assert_eq!(C, None);
	assert_eq!(D, None);
	}

	#[test]
	fn test_and_then() {
	const fn plus_one(x: isize) -> Option<isize> {
	Some(x + 1)
	}

	const fn none(_: isize) -> Option<isize> {
	None
	}

	let x: Option<isize> = Some(1);
	assert_eq!(x.and_then(plus_one), Some(2));
	assert_eq!(x.and_then(none), None);

	let x: Option<isize> = None;
	assert_eq!(x.and_then(plus_one), None);
	assert_eq!(x.and_then(none), None);

	const FOO: Option<isize> = Some(1);
	const A: Option<isize> = FOO.and_then(plus_one);
	const B: Option<isize> = FOO.and_then(none);
	assert_eq!(A, Some(2));
	assert_eq!(B, None);

	const BAR: Option<isize> = None;
	const C: Option<isize> = BAR.and_then(plus_one);
	const D: Option<isize> = BAR.and_then(none);
	assert_eq!(C, None);
	assert_eq!(D, None);
	}

	#[test]
	fn test_or() {
	let x: Option<isize> = Some(1);
	assert_eq!(x.or(Some(2)), Some(1));
	assert_eq!(x.or(None), Some(1));

	let x: Option<isize> = None;
	assert_eq!(x.or(Some(2)), Some(2));
	assert_eq!(x.or(None), None);

	const FOO: Option<isize> = Some(1);
	const A: Option<isize> = FOO.or(Some(2));
	const B: Option<isize> = FOO.or(None);
	assert_eq!(A, Some(1));
	assert_eq!(B, Some(1));

	const BAR: Option<isize> = None;
	const C: Option<isize> = BAR.or(Some(2));
	const D: Option<isize> = BAR.or(None);
	assert_eq!(C, Some(2));
	assert_eq!(D, None);
	}

	#[test]
	fn test_or_else() {
	const fn two() -> Option<isize> {
	Some(2)
	}

	const fn none() -> Option<isize> {
	None
	}

	let x: Option<isize> = Some(1);
	assert_eq!(x.or_else(two), Some(1));
	assert_eq!(x.or_else(none), Some(1));

	let x: Option<isize> = None;
	assert_eq!(x.or_else(two), Some(2));
	assert_eq!(x.or_else(none), None);

	const FOO: Option<isize> = Some(1);
	const A: Option<isize> = FOO.or_else(two);
	const B: Option<isize> = FOO.or_else(none);
	assert_eq!(A, Some(1));
	assert_eq!(B, Some(1));

	const BAR: Option<isize> = None;
	const C: Option<isize> = BAR.or_else(two);
	const D: Option<isize> = BAR.or_else(none);
	assert_eq!(C, Some(2));
	assert_eq!(D, None);
	}

	#[test]
	fn test_unwrap() {
	assert_eq!(Some(1).unwrap(), 1);
	let s = Some("hello".to_string()).unwrap();
	assert_eq!(s, "hello");
	}

	#[test]
	#[should_panic]
	fn test_unwrap_panic1() {
	let x: Option<isize> = None;
	x.unwrap();
	}

	#[test]
	#[should_panic]
	fn test_unwrap_panic2() {
	let x: Option<String> = None;
	x.unwrap();
	}

	#[test]
	fn test_unwrap_or() {
	let x: Option<isize> = Some(1);
	assert_eq!(x.unwrap_or(2), 1);

	let x: Option<isize> = None;
	assert_eq!(x.unwrap_or(2), 2);

	const A: isize = Some(1).unwrap_or(2);
	const B: isize = None.unwrap_or(2);
	assert_eq!(A, 1);
	assert_eq!(B, 2);
	}

	#[test]
	fn test_unwrap_or_else() {
	const fn two() -> isize {
	2
	}

	let x: Option<isize> = Some(1);
	assert_eq!(x.unwrap_or_else(two), 1);

	let x: Option<isize> = None;
	assert_eq!(x.unwrap_or_else(two), 2);

	const A: isize = Some(1).unwrap_or_else(two);
	const B: isize = None.unwrap_or_else(two);
	assert_eq!(A, 1);
	assert_eq!(B, 2);
	}

	#[test]
	fn test_unwrap_unchecked() {
	assert_eq!(unsafe { Some(1).unwrap_unchecked() }, 1);
	let s = unsafe { Some("hello".to_string()).unwrap_unchecked() };
	assert_eq!(s, "hello");
	}

	#[test]
	fn test_iter() {
	let val = 5;

	let x = Some(val);
	let mut it = x.iter();

	assert_eq!(it.size_hint(), (1, Some(1)));
	assert_eq!(it.next(), Some(&val));
	assert_eq!(it.size_hint(), (0, Some(0)));
	assert!(it.next().is_none());

	let mut it = (&x).into_iter();
	assert_eq!(it.next(), Some(&val));
	}

	#[test]
	fn test_mut_iter() {
	let mut val = 5;
	let new_val = 11;

	let mut x = Some(val);
	{
	let mut it = x.iter_mut();

	assert_eq!(it.size_hint(), (1, Some(1)));

	match it.next() {
	Some(interior) => {
	assert_eq!(*interior, val);
	*interior = new_val;
	}
	None => assert!(false),
	}

	assert_eq!(it.size_hint(), (0, Some(0)));
	assert!(it.next().is_none());
	}
	assert_eq!(x, Some(new_val));

	let mut y = Some(val);
	let mut it = (&mut y).into_iter();
	assert_eq!(it.next(), Some(&mut val));
	}

	#[test]
	fn test_ord() {
	let small = Some(1.0f64);
	let big = Some(5.0f64);
	let nan = Some(0.0f64 / 0.0);
	assert!(!(nan < big));
	assert!(!(nan > big));
	assert!(small < big);
	assert!(None < big);
	assert!(big > None);
	}

	#[test]
	fn test_collect() {
	let v: Option<Vec<isize>> = (0..0).map(\|_\| Some(0)).collect();
	assert!(v == Some(vec![]));

	let v: Option<Vec<isize>> = (0..3).map(\|x\| Some(x)).collect();
	assert!(v == Some(vec![0, 1, 2]));

	let v: Option<Vec<isize>> = (0..3).map(\|x\| if x > 1 { None } else { Some(x) }).collect();
	assert!(v == None);

	// test that it does not take more elements than it needs
	let mut functions: [Box<dyn Fn() -> Option<()>>; 3] =
	[Box::new(\|\| Some(())), Box::new(\|\| None), Box::new(\|\| panic!())];

	let v: Option<Vec<()>> = functions.iter_mut().map(\|f\| (*f)()).collect();

	assert!(v == None);
	}

	#[test]
	fn test_copied() {
	let val = 1;
	let val_ref = &val;
	let opt_none: Option<&'static u32> = None;
	let opt_ref = Some(&val);
	let opt_ref_ref = Some(&val_ref);

	// None works
	assert_eq!(opt_none.clone(), None);
	assert_eq!(opt_none.copied(), None);

	// Immutable ref works
	assert_eq!(opt_ref.clone(), Some(&val));
	assert_eq!(opt_ref.copied(), Some(1));

	// Double Immutable ref works
	assert_eq!(opt_ref_ref.clone(), Some(&val_ref));
	assert_eq!(opt_ref_ref.clone().copied(), Some(&val));
	assert_eq!(opt_ref_ref.copied().copied(), Some(1));
	}

	#[test]
	fn test_cloned() {
	let val = 1;
	let val_ref = &val;
	let opt_none: Option<&'static u32> = None;
	let opt_ref = Some(&val);
	let opt_ref_ref = Some(&val_ref);

	// None works
	assert_eq!(opt_none.clone(), None);
	assert_eq!(opt_none.cloned(), None);

	// Immutable ref works
	assert_eq!(opt_ref.clone(), Some(&val));
	assert_eq!(opt_ref.cloned(), Some(1));

	// Double Immutable ref works
	assert_eq!(opt_ref_ref.clone(), Some(&val_ref));
	assert_eq!(opt_ref_ref.clone().cloned(), Some(&val));
	assert_eq!(opt_ref_ref.cloned().cloned(), Some(1));
	}

	#[test]
	fn test_try() {
	fn try_option_some() -> Option<u8> {
	let val = Some(1)?;
	Some(val)
	}
	assert_eq!(try_option_some(), Some(1));

	fn try_option_none() -> Option<u8> {
	let val = None?;
	Some(val)
	}
	assert_eq!(try_option_none(), None);
	}

	#[test]
	fn test_option_as_deref() {
	// Some: &Option<T: Deref>::Some(T) -> Option<&T::Deref::Target>::Some(&*T)
	let ref_option = &Some(&42);
	assert_eq!(ref_option.as_deref(), Some(&42));

	let ref_option = &Some(String::from("a result"));
	assert_eq!(ref_option.as_deref(), Some("a result"));

	let ref_option = &Some(vec![1, 2, 3, 4, 5]);
	assert_eq!(ref_option.as_deref(), Some([1, 2, 3, 4, 5].as_slice()));

	// None: &Option<T: Deref>>::None -> None
	let ref_option: &Option<&i32> = &None;
	assert_eq!(ref_option.as_deref(), None);
	}

	#[test]
	fn test_option_as_deref_mut() {
	// Some: &mut Option<T: Deref>::Some(T) -> Option<&mut T::Deref::Target>::Some(&mut *T)
	let mut val = 42;
	let ref_option = &mut Some(&mut val);
	assert_eq!(ref_option.as_deref_mut(), Some(&mut 42));

	let ref_option = &mut Some(String::from("a result"));
	assert_eq!(ref_option.as_deref_mut(), Some(String::from("a result").deref_mut()));

	let ref_option = &mut Some(vec![1, 2, 3, 4, 5]);
	assert_eq!(ref_option.as_deref_mut(), Some([1, 2, 3, 4, 5].as_mut_slice()));

	// None: &mut Option<T: Deref>>::None -> None
	let ref_option: &mut Option<&mut i32> = &mut None;
	assert_eq!(ref_option.as_deref_mut(), None);
	}

	#[test]
	fn test_replace() {
	let mut x = Some(2);
	let old = x.replace(5);

	assert_eq!(x, Some(5));
	assert_eq!(old, Some(2));

	let mut x = None;
	let old = x.replace(3);

	assert_eq!(x, Some(3));
	assert_eq!(old, None);
	}

	#[test]
	fn option_const() {
	// test that the methods of `Option` are usable in a const context

	const OPTION: Option<usize> = Some(32);
	assert_eq!(OPTION, Some(32));

	const OPTION_FROM: Option<usize> = Option::from(32);
	assert_eq!(OPTION_FROM, Some(32));

	const REF: Option<&usize> = OPTION.as_ref();
	assert_eq!(REF, Some(&32));

	const REF_FROM: Option<&usize> = Option::from(&OPTION);
	assert_eq!(REF_FROM, Some(&32));

	const IS_SOME: bool = OPTION.is_some();
	assert!(IS_SOME);

	const IS_NONE: bool = OPTION.is_none();
	assert!(!IS_NONE);

	const COPIED: Option<usize> = OPTION.as_ref().copied();
	assert_eq!(COPIED, OPTION);
	}

	#[test]
	const fn option_const_mut() {
	// test that the methods of `Option` that take mutable references are usable in a const context

	let mut option: Option<usize> = Some(32);

	let _take = option.take();
	let _replace = option.replace(42);

	{
	let as_mut = option.as_mut();
	match as_mut {
	Some(v) => *v = 32,
	None => unreachable!(),
	}
	}

	{
	let as_mut: Option<&mut usize> = Option::from(&mut option);
	match as_mut {
	Some(v) => *v = 42,
	None => unreachable!(),
	}
	}
	}

	#[test]
	fn test_unwrap_drop() {
	struct Dtor<'a> {
	x: &'a Cell<isize>,
	}

	impl<'a> std::ops::Drop for Dtor<'a> {
	fn drop(&mut self) {
	self.x.set(self.x.get() - 1);
	}
	}

	fn unwrap<T>(o: Option<T>) -> T {
	match o {
	Some(v) => v,
	None => panic!(),
	}
	}

	let x = &Cell::new(1);

	{
	let b = Some(Dtor { x });
	let _c = unwrap(b);
	}

	assert_eq!(x.get(), 0);
	}

	#[test]
	fn option_ext() {
	let thing = "{{ f }}";
	let f = thing.find("{{");

	if f.is_none() {
	println!("None!");
	}
	}

	#[test]
	fn zip_options() {
	let x = Some(10);
	let y = Some("foo");
	let z: Option<usize> = None;

	assert_eq!(x.zip(y), Some((10, "foo")));
	assert_eq!(x.zip(z), None);
	assert_eq!(z.zip(x), None);
	}

	#[test]
	fn unzip_options() {
	let x = Some((10, "foo"));
	let y = None::<(bool, i32)>;

	assert_eq!(x.unzip(), (Some(10), Some("foo")));
	assert_eq!(y.unzip(), (None, None));
	}

	#[test]
	fn zip_unzip_roundtrip() {
	let x = Some(10);
	let y = Some("foo");

	let z = x.zip(y);
	assert_eq!(z, Some((10, "foo")));

	let a = z.unzip();
	assert_eq!(a, (x, y));
	}