self.callbacks.push(cell); /*@*/
}
- pub fn call(&self, val: i32) {
+ pub fn call(&mut self, val: i32) {
for callback in self.callbacks.iter() {
// We have to *explicitly* borrow the contents of a `RefCell`.
//@ At run-time, the cell will keep track of the number of outstanding shared and mutable borrows,
let c = Rc::new(RefCell::new(Callbacks::new()));
c.borrow_mut().register(|val| println!("Callback called: {}", val) );
- // If we change the two "borrow" below to "borrow_mut", you can get a panic even with a "call" that requires a
- // mutable borrow. However, that panic is then triggered by our own, external `RefCell` (so it's kind of our fault),
- // rather than being triggered by the `RefCell` in the `Callbacks`.
{
let c2 = c.clone();
- c.borrow_mut().register(move |val| c2.borrow().call(val+val) );
+ c.borrow_mut().register(move |val| {
+ let mut guard = c2.borrow_mut();
+ println!("Callback called with {}, ready to go for nested call.", val);
+ guard.call(val+val)
+ } );
}
- c.borrow().call(42);
+ // We do a clone, and call `call` on that one. This makes sure that it's not our `RefCell` that complains about two mutable borrows,
+ // but rather the `RefCell` inside the `CallbacksMut`.
+ let mut c2: Callbacks = c.borrow().clone();
+ c2.call(42);
}
}
\ No newline at end of file