Why does my Deref impl not work with tuple structs when it's defined at the same module where it's used and not inside a subordinate mod? play.rust-lang.org/…
@purefanatic Why would .0 use the deref implementation when the type you're calling it on has a perfectly accessible .0 already? The compiler isn't going to do complex analysis or backtrack to figure out your ambiguous use-case.
Hm. Why wouldn't it? That's what Deref is made for, no? The same stuff happens if MyBox is not a tuple struct but has a field that also exists in T fwiw.
I'm confused, you already found a solution by putting it in a module. Modules are a unit of visibility so any private items or fields in it won't be accessible outside of it.
If you do want to provide methods for your deref type, then you should avoid taking self so you are forced to use the MyBox::method(b) syntax, otherwise you can needlessly shadow method calls to the referenced type. Look at how Box::leak does its signature.
@kmdreko Ah, this makes more sense. I have not quite thought about the visibility. I guess this is the reason at least in my example and I need to find another place for my tests than alongside the module to test (this is where I discovered the issue originally).
I have another question... Is there any reliable solution to stack overflows in debug mode when creating Boxes of large types? In this thread: users.rust-lang.org/t/… someone suggested the "copyless" crate but it does not seem work anymore...
The only surefire way is never to create a value of the type on the stack: no variable, no temporary. In practice, this means calling the allocator, getting raw memory, and initializing that. If you were thinking of a large, Vec (and possibly decaying it to Box<[T]>) works pretty well. If have a large type which you can't modify, then you'll have to do it manually...
Yeah, but the crux is the last part, initializing. I have a type like struct X<T> { data: [MaybeUninit<T>; 128], free: u128}. Rust does not have any placement new syntax like C++. But I guess in my example I can probably find out how to initialize the free field correctly, just need to get a little more accustomed to unsafe land...
Here's Stargateur's example modified to use X<T> and with safety comments justifying why the unsafe parts are sound: play.rust-lang.org/…
I do note that it would be a lot easier if instead of free, you had used as a field, as then 0 would be the correct bit pattern from the get-go, which would mean that alloc_zeroed directly provides suitably initialized memory.
I also note that for more complex types it gets much trickier, as there is no easy way to get a &mut MaybeUninit<F> pointing to a field of a &mut MaybeUninit<T> at the moment, meaning you need to take the raw pointer to MaybeUninit<T>, cast it to bytes, apply a suitable offset, cast it to a raw pointer to MaybeUninit<F>, and finally initialize F.
So I really advise having all 0s as a valid state. Ideally, as the default state, as well, but even if not, it's easier if you can just alloc_zeroed and deference the pointer without having to juggle MaybeUninit and pointer offsets. This does mean not having non MaybeUninit wrapped enums and bools, notably.