When is it safe to move a member value out of a pinned future?

edit: This answer is incorrect. It remains here for posterity.

Let's begin by recalling why Pin was introduced in the first place: we want to statically ensure that self-referential futures cannot be moved, thus invalidating their internal references.

With that in mind, let's take a look at the definition of Map.

pub struct Map<Fut, F> {
    future: Fut,
    f: Option<F>,
}

Map has two fields, the first one stores a future, the second stores a closure which maps the result of that future to another value. We wish to support storing self-referential types directly in future without placing them behind a pointer. This means that if Fut is a self-referential type, Map cannot be moved once it is constructed. That is why we must use Pin<&mut Map> as the receiver for Future::poll. If a normal mutable reference to a Map containing a self-referential future was ever exposed to an implementor of Future, users could cause UB using only safe code by causing the Map to be moved using mem::replace.

However, we don't need to support storing self-referential types in f. If we assume that the self-referential part of a Map is wholly contained in future, we can freely modify f as long as we don't allow future to be moved.

While a self-referential closure would be very unusual, the assumption that f be safe to move (which is equivalent to F: Unpin) is not explicitly stated anywhere. However, we still move the value in f in Future::poll by calling take! I think this is indeed a bug, but I'm not 100% sure. I think the f() getter should require F: Unpin which would mean Map can only implement Future when the closure argument is safe to be moved from behind a Pin.

It's very possible that I'm overlooking some subtleties in the pin API here, and the implementation is indeed safe. I'm still wrapping my head around it as well.

It is all about structural pinning.

First, I will use the syntax P<T> to mean something like impl Deref<Target = T> — some (smart) pointer type P that Deref::derefs to a T. Pin only "applies" to / makes sense on such (smart) pointers.

Let's say we have:

struct Wrapper<Field> {
    field: Field,
}

The initial question is

Can we get a Pin<P<Field>> from a Pin<P<Wrapper<Field>>>, by "projecting" our Pin<P<_>> from the Wrapper to its field?

This requires the basic projection P<Wrapper<Field>> -> P<Field>, which is only possible for:

• shared references (P<T> = &T). This is not a very interesting case given that Pin<P<T>> always derefs to T.

• unique references (P<T> = &mut T).

I will use the syntax &[mut] T for this type of projection.

The question now becomes:

Can we go from Pin<&[mut] Wrapper<Field>> to Pin<&[mut] Field>?

The point that may be unclear from the documentation is that it is up to the creator of Wrapper to decide!

There are two possible choices for the library author for each struct field.

There is a structural Pin projection to that field

For instance, the pin_utils::unsafe_pinned! macro is used to define such a projection (Pin<&mut Wrapper<Field>> -> Pin<&mut Field>).

For the Pin projection to be sound:

• the whole struct must only implement Unpin when all the fields for which there is a structural Pin projection implement Unpin.

  • no implementation is allowed to use unsafe to move such fields out of a Pin<&mut Wrapper<Field>> (or Pin<&mut Self> when Self = Wrapper<Field>). For instance, Option::take() is forbidden.

• the whole struct may only implement Drop if Drop::drop does not move any of the fields for which there is a structural projection.

• the struct cannot be #[repr(packed)] (a corollary of the previous item).

In your given future::Map example, this is the case of the future field of the Map struct.

There is no structural Pin projection to that field

For instance, the pin_utils::unsafe_unpinned! macro is used to define such a projection (Pin<&mut Wrapper<Field>> -> &mut Field).

In this case, that field is not considered pinned by a Pin<&mut Wrapper<Field>>.

• whether Field is Unpin or not does not matter.

  • implementations are allowed to use unsafe to move such fields out of a Pin<&mut Wrapper<Field>>. For instance, Option::take() is allowed.

• Drop::drop is also allowed to move such fields,

In your given future::Map example, this is the case of the f field of the Map struct.

Example of both types of projection

impl<Fut, F> Map<Fut, F> {
    unsafe_pinned!(future: Fut); // pin projection -----+
    unsafe_unpinned!(f: Option<F>); // not pinned --+   |
//                                                  |   |
//                 ...                              |   |
//                                                  |   |
    fn poll (mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<T> {
        //                                          |   |
        match self.as_mut().future().poll(cx) { // <----+ required here
            Poll::Pending => Poll::Pending, //      |
            Poll::Ready(output) => { //             |
                let f = self.f().take() // <--------+ allows this