src/test/ui/drop/dropck-eyepatch-reorder.rs - third_party/rust - Git at Google

 // run-pass
 #![feature(dropck_eyepatch)]

 // The point of this test is to test uses of `#[may_dangle]` attribute
 // where the formal declaration order (in the impl generics) does not
 // match the actual usage order (in the type instantiation).
 //
 // See also dropck-eyepatch.rs for more information about the general
 // structure of the test.

 trait Foo { fn foo(&self, _: &str); }

 struct Dt<A: Foo>(&'static str, A);
 struct Dr<'a, B:'a+Foo>(&'static str, &'a B);
 struct Pt<A: Foo, B: Foo>(&'static str, A, B);
 struct Pr<'a, 'b, B:'a+'b+Foo>(&'static str, &'a B, &'b B);
 struct St<A: Foo>(&'static str, A);
 struct Sr<'a, B:'a+Foo>(&'static str, &'a B);

 impl<A: Foo> Drop for Dt<A> {
     fn drop(&mut self) { println!("drop {}", self.0); self.1.foo(self.0); }
 }
 impl<'a, B: Foo> Drop for Dr<'a, B> {
     fn drop(&mut self) { println!("drop {}", self.0); self.1.foo(self.0); }
 }
 unsafe impl<B: Foo, #[may_dangle] A: Foo> Drop for Pt<A, B> {
     // (unsafe to access self.1  due to #[may_dangle] on A)
     fn drop(&mut self) { println!("drop {}", self.0); self.2.foo(self.0); }
 }
 unsafe impl<'b, #[may_dangle] 'a, B: Foo> Drop for Pr<'a, 'b, B> {
     // (unsafe to access self.1 due to #[may_dangle] on 'a)
     fn drop(&mut self) { println!("drop {}", self.0); self.2.foo(self.0); }
 }

 fn main() {
     use std::cell::RefCell;

     impl Foo for RefCell<String> {
         fn foo(&self, s: &str) {
             let s2 = format!("{}|{}", *self.borrow(), s);
             *self.borrow_mut() = s2;
         }
     }

     impl<'a, T:Foo> Foo for &'a T {
         fn foo(&self, s: &str) {
             (*self).foo(s);
         }
     }

     struct CheckOnDrop(RefCell<String>, &'static str);
     impl Drop for CheckOnDrop {
         fn drop(&mut self) { assert_eq!(*self.0.borrow(), self.1); }
     }

     let c_long;
     let (c, dt, dr, pt, pr, st, sr)
         : (CheckOnDrop, Dt<_>, Dr<_>, Pt<_, _>, Pr<_>, St<_>, Sr<_>);
     c_long = CheckOnDrop(RefCell::new("c_long".to_string()),
                          "c_long|pr|pt|dr|dt");
     c = CheckOnDrop(RefCell::new("c".to_string()),
                     "c");

     // No error: sufficiently long-lived state can be referenced in dtors
     dt = Dt("dt", &c_long.0);
     dr = Dr("dr", &c_long.0);

     // No error: Drop impl asserts .1 (A and &'a _) are not accessed
     pt = Pt("pt", &c.0, &c_long.0);
     pr = Pr("pr", &c.0, &c_long.0);

     // No error: St and Sr have no destructor.
     st = St("st", &c.0);
     sr = Sr("sr", &c.0);

     println!("{:?}", (dt.0, dr.0, pt.0, pr.0, st.0, sr.0));
     assert_eq!(*c_long.0.borrow(), "c_long");
     assert_eq!(*c.0.borrow(), "c");
 }
	// run-pass
	#![feature(dropck_eyepatch)]

	// The point of this test is to test uses of `#[may_dangle]` attribute
	// where the formal declaration order (in the impl generics) does not
	// match the actual usage order (in the type instantiation).
	//
	// See also dropck-eyepatch.rs for more information about the general
	// structure of the test.

	trait Foo { fn foo(&self, _: &str); }

	struct Dt<A: Foo>(&'static str, A);
	struct Dr<'a, B:'a+Foo>(&'static str, &'a B);
	struct Pt<A: Foo, B: Foo>(&'static str, A, B);
	struct Pr<'a, 'b, B:'a+'b+Foo>(&'static str, &'a B, &'b B);
	struct St<A: Foo>(&'static str, A);
	struct Sr<'a, B:'a+Foo>(&'static str, &'a B);

	impl<A: Foo> Drop for Dt<A> {
	fn drop(&mut self) { println!("drop {}", self.0); self.1.foo(self.0); }
	}
	impl<'a, B: Foo> Drop for Dr<'a, B> {
	fn drop(&mut self) { println!("drop {}", self.0); self.1.foo(self.0); }
	}
	unsafe impl<B: Foo, #[may_dangle] A: Foo> Drop for Pt<A, B> {
	// (unsafe to access self.1 due to #[may_dangle] on A)
	fn drop(&mut self) { println!("drop {}", self.0); self.2.foo(self.0); }
	}
	unsafe impl<'b, #[may_dangle] 'a, B: Foo> Drop for Pr<'a, 'b, B> {
	// (unsafe to access self.1 due to #[may_dangle] on 'a)
	fn drop(&mut self) { println!("drop {}", self.0); self.2.foo(self.0); }
	}

	fn main() {
	use std::cell::RefCell;

	impl Foo for RefCell<String> {
	fn foo(&self, s: &str) {
	let s2 = format!("{}\|{}", *self.borrow(), s);
	*self.borrow_mut() = s2;
	}
	}

	impl<'a, T:Foo> Foo for &'a T {
	fn foo(&self, s: &str) {
	(*self).foo(s);
	}
	}

	struct CheckOnDrop(RefCell<String>, &'static str);
	impl Drop for CheckOnDrop {
	fn drop(&mut self) { assert_eq!(*self.0.borrow(), self.1); }
	}

	let c_long;
	let (c, dt, dr, pt, pr, st, sr)
	: (CheckOnDrop, Dt<_>, Dr<_>, Pt<_, _>, Pr<_>, St<_>, Sr<_>);
	c_long = CheckOnDrop(RefCell::new("c_long".to_string()),
	"c_long\|pr\|pt\|dr\|dt");
	c = CheckOnDrop(RefCell::new("c".to_string()),
	"c");

	// No error: sufficiently long-lived state can be referenced in dtors
	dt = Dt("dt", &c_long.0);
	dr = Dr("dr", &c_long.0);

	// No error: Drop impl asserts .1 (A and &'a _) are not accessed
	pt = Pt("pt", &c.0, &c_long.0);
	pr = Pr("pr", &c.0, &c_long.0);

	// No error: St and Sr have no destructor.
	st = St("st", &c.0);
	sr = Sr("sr", &c.0);

	println!("{:?}", (dt.0, dr.0, pt.0, pr.0, st.0, sr.0));
	assert_eq!(*c_long.0.borrow(), "c_long");
	assert_eq!(*c.0.borrow(), "c");
	}