Cell is just an in-line-storage/wrapper type that controls mutability/access semantics to the inner type T and provides interior mutability functionality. From the rust documentation Deref is NOT implemented for the Cell<T> type. Why is this ? An instance of Cell<T> is always in a valid state(the memory is always valid and initialized). This means that when implementing Deref on Cell<T> it cannot possibly panic which is one of the requirements for implementing Deref.

Providing a Deref impl for Cell<T> would have been convenient.

1 Answer 1


But it would be unsound!

The premise of Cell is that it never gives out references to its contents (indeed, that's what its brother, RefCell does), so all read and write operations on it are atomic1.

As part of its implementation, Cell has a set method with the following signature:

fn set(&self, val: T)

...which changes the value of &Cell<T>, i.e. the value of the cell behind a shared reference2. That's how interior mutability works.

Now imagine you could create a reference to the contents of the Cell:

let cell = Cell::new(1);

let one: &i32 = &*cell;

...and someone else called the set method:


Now we have mutated the data pointed to by a shared reference (&T), which is UB3!

println!("one = {}", *one); // one = 2 !!!

Playground link

1: not in the "threadsafe" sense
2: it can do this soundly by using an UnsafeCell: a compiler builtin that says "trust me compiler, I can enforce borrowing rules, so you don't have to"
3: outside of an UnsafeCell (&T doesn't know about the Cell)


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