tests/ui/nullable-pointer-iotareduction.rs - toolchain/rustc - Git at Google

 //@ run-pass

 // Iota-reduction is a rule in the Calculus of (Co-)Inductive Constructions,
 // which "says that a destructor applied to an object built from a constructor
 // behaves as expected".  -- https://coq.inria.fr/doc/language/core/conversion.html#iota-reduction
 //
 // It's a little more complicated here, because of pointers and regions and
 // trying to get assert failure messages that at least identify which case
 // failed.

 enum E<T> { Thing(isize, T), #[allow(dead_code)] Nothing((), ((), ()), [i8; 0]) }
 impl<T> E<T> {
     fn is_none(&self) -> bool {
         match *self {
             E::Thing(..) => false,
             E::Nothing(..) => true
         }
     }
     fn get_ref(&self) -> (isize, &T) {
         match *self {
             E::Nothing(..) => panic!("E::get_ref(Nothing::<{}>)",  stringify!(T)),
             E::Thing(x, ref y) => (x, y)
         }
     }
 }

 macro_rules! check_option {
     ($e:expr, $T:ty) => {{
         check_option!($e, $T, |ptr| assert_eq!(*ptr, $e));
     }};
     ($e:expr, $T:ty, |$v:ident| $chk:expr) => {{
         assert!(None::<$T>.is_none());
         let e = $e;
         let s_ = Some::<$T>(e);
         let $v = s_.as_ref().unwrap();
         $chk
     }}
 }

 macro_rules! check_fancy {
     ($e:expr, $T:ty) => {{
         check_fancy!($e, $T, |ptr| assert_eq!(*ptr, $e));
     }};
     ($e:expr, $T:ty, |$v:ident| $chk:expr) => {{
         assert!(E::Nothing::<$T>((), ((), ()), [23; 0]).is_none());
         let e = $e;
         let t_ = E::Thing::<$T>(23, e);
         match t_.get_ref() {
             (23, $v) => { $chk }
             _ => panic!("Thing::<{}>(23, {}).get_ref() != (23, _)",
                        stringify!($T), stringify!($e))
         }
     }}
 }

 macro_rules! check_type {
     ($($a:tt)*) => {{
         check_option!($($a)*);
         check_fancy!($($a)*);
     }}
 }

 pub fn main() {
     check_type!(&17, &isize);
     check_type!(Box::new(18), Box<isize>);
     check_type!("foo".to_string(), String);
     check_type!(vec![20, 22], Vec<isize>);
     check_type!(main, fn(), |pthing| {
         assert_eq!(main as fn(), *pthing as fn())
     });
 }
	//@ run-pass

	// Iota-reduction is a rule in the Calculus of (Co-)Inductive Constructions,
	// which "says that a destructor applied to an object built from a constructor
	// behaves as expected". -- https://coq.inria.fr/doc/language/core/conversion.html#iota-reduction
	//
	// It's a little more complicated here, because of pointers and regions and
	// trying to get assert failure messages that at least identify which case
	// failed.

	enum E<T> { Thing(isize, T), #[allow(dead_code)] Nothing((), ((), ()), [i8; 0]) }
	impl<T> E<T> {
	fn is_none(&self) -> bool {
	match *self {
	E::Thing(..) => false,
	E::Nothing(..) => true
	}
	}
	fn get_ref(&self) -> (isize, &T) {
	match *self {
	E::Nothing(..) => panic!("E::get_ref(Nothing::<{}>)", stringify!(T)),
	E::Thing(x, ref y) => (x, y)
	}
	}
	}

	macro_rules! check_option {
	($e:expr, $T:ty) => {{
	check_option!($e, $T, \|ptr\| assert_eq!(*ptr, $e));
	}};
	($e:expr, $T:ty, \|$v:ident\| $chk:expr) => {{
	assert!(None::<$T>.is_none());
	let e = $e;
	let s_ = Some::<$T>(e);
	let $v = s_.as_ref().unwrap();
	$chk
	}}
	}

	macro_rules! check_fancy {
	($e:expr, $T:ty) => {{
	check_fancy!($e, $T, \|ptr\| assert_eq!(*ptr, $e));
	}};
	($e:expr, $T:ty, \|$v:ident\| $chk:expr) => {{
	assert!(E::Nothing::<$T>((), ((), ()), [23; 0]).is_none());
	let e = $e;
	let t_ = E::Thing::<$T>(23, e);
	match t_.get_ref() {
	(23, $v) => { $chk }
	_ => panic!("Thing::<{}>(23, {}).get_ref() != (23, _)",
	stringify!($T), stringify!($e))
	}
	}}
	}

	macro_rules! check_type {
	($($a:tt)*) => {{
	check_option!($($a)*);
	check_fancy!($($a)*);
	}}
	}

	pub fn main() {
	check_type!(&17, &isize);
	check_type!(Box::new(18), Box<isize>);
	check_type!("foo".to_string(), String);
	check_type!(vec![20, 22], Vec<isize>);
	check_type!(main, fn(), \|pthing\| {
	assert_eq!(main as fn(), *pthing as fn())
	});
	}