There are several wrapper types in the Rust standard library:

As I understand it, these are wrappers which provide further possibilities than a simple reference. While I understand some basics, I cannot see the whole picture.

What do they do exactly? Do cells and reference-counted families provide orthogonal or similar features?

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    Please describe what you don't understand. The documentation you've linked to has had hundreds (or thousands) of people read it, and likely tens to hundreds of people contribute to it. What can we possibly say that would be any different from what is already said, especially if you don't tell us what you don't understand? – Shepmaster Aug 14 '17 at 12:32
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    @Shepmaster The explanations in the documentation speak about interior mutability. This concept is unclear for me. Maybe my question has been unclear too. – Boiethios Aug 14 '17 at 12:37
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    A quick internet search found a chapter in the book about interior mutability, a blog post, and a SO question. Perhaps now that you know what you are unclear about, you can perform some research and update your question. – Shepmaster Aug 14 '17 at 12:48

There are two essential concepts in Rust:

  • Ownership,
  • Mutability.

The various pointer types (Box, Rc, Arc) are concerned with Ownership: they allow controlling whether there is a single or multiple owners for a single object.

On the other hand, the various cells (Cell, RefCell, Mutex, RwLock, AtomicXXX) are concerned with Mutability.

The founding rule of Rust's safety is Aliasing XOR Mutability. That is, an object can only be safely mutated if there is no outstanding reference to its interior.

This rule is generally enforced at compile time by the borrow checker:

  • if you have a &T, you cannot also have a &mut T to the same object in scope,
  • if you have a &mut T, you cannot also have any reference to the same object in scope.

However, sometimes, this is not flexible enough. Sometimes you DO need (or want) the ability to have multiple references to the same object and yet mutate it. Enter the cells.

The idea of Cell and RefCell is to permit mutability in the presence of aliasing in a controlled manner:

  • Cell prevents the formation of reference to its interior, avoiding dangling references,
  • RefCell shifts the enforcement of Aliasing XOR Mutability from compile time to runtime.

This functionality is sometimes described as providing interior mutability, that is where an object which otherwise looks immutable from the outside (&T) can actually be mutated.

When this mutability extends across multiple threads, you will instead use Mutex, RwLock or AtomicXXX; they provide the same functionality:

  • AtomicXXX are just Cell: no reference to the interior, just moving in/out,
  • RwLock is just RefCell: can obtain references to the interior through guards,
  • Mutex is a simplified version of RwLock which does not distinguish between a read-only guard and write guard; so conceptually similar to a RefCell with only a borrow_mut method.

If you come from a C++ background:

  • Box is unique_ptr,
  • Arc is shared_ptr,
  • Rc is a non thread-safe version of shared_ptr.

And the cells provide a similar functionality as mutable, except with additional guarantees to avoid aliasing issues; think of Cell as std::atomic and RefCell as a non thread-safe version of std::shared_mutex (which throws instead of blocking if the lock is taken).

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    Thank you so much, you answer exactly to all my perplexity about "complicated" types in Rust. The comparison with C++ is perfect, also. – Boiethios Aug 14 '17 at 13:09
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    @Boiethios: Yes, that's exactly that. Each reference/pointer is "an alias" to the real data (a different name for the same "person" is what an alias is, after all), and by extension in software we talk about aliasing when there are multiple aliases at a given time. – Matthieu M. Aug 14 '17 at 13:23
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    The first edition of the book had a chapter on this. It's one of the ones that was lost in the rewrite, which I think is unfortunate -- maybe it should be made into an appendix or something – trentcl Aug 14 '17 at 15:47
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    If Aliasing XOR Mutability is the rule for safety, that implies that (not Aliasing) AND (not Mutability) is unsafe? But surely, if there is no aliasing AND no mutability then that is totally safe? I think you want something else than XOR there. – Lii Aug 14 '17 at 16:43
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    Maybe the slogan should use NAND instead of XOR :P – Rufflewind Aug 14 '17 at 20:25

Thanks to Matthieu's good answer, here is a diagram to help people to find the wrapper they need:

| Ownership |
+--+--------+                              +================+
   |                         +-Static----->| T              |(1)
   |                         |             +================+
   |                         |
   |                         |             +================+
   |          +-----------+  | Local    Val| Cell<T>        |(1)
   +-Unique-->| Borrowing +--+-Dynamic---->|----------------|
   |          +-----------+  |          Ref| RefCell<T>     |(1)
   |                         |             +================+
   |                         |
   |                         |             +================+
   |                         | Threaded    | AtomicT        |(2)
   |                         +-Dynamic---->|----------------|
   |                                       | Mutex<T>       |(1)
   |                                       | RwLock<T>      |(1)
   |                                       +================+
   |                                       +================+
   |                         +-No--------->| Rc<T>          |
   |                         |             +================+
   | Locally  +-----------+  |
   +-Shared-->| Mutable?  +--+             +================+
   |          +-----------+  |          Val| Rc<Cell<T>>    |
   |                         +-Yes-------->|----------------|
   |                                    Ref| Rc<RefCell<T>> |
   |                                       +================+
   |                                       +================+
   |                         +-No--------->| Arc<T>         |
   |                         |             +================+
   | Shared   +-----------+  |
   +-Between->| Mutable?  +--+             +================+
     Threads  +-----------+  |             | Arc<AtomicT>   |(2)
                                           | Arc<Mutex<T>>  |
                                           | Arc<RwLock<T>> |
  1. In those cases, T can be replaced with Box<T>
  2. Use AtomicT when T is a bool or a number

To know if you should use Mutex or RwLock, see this related question.

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