I’m slowly starting Rust for Rustaceans, and it’s already poking holes in my understanding of Rust. Here’s a couple initial questions I have:
A shared reference, &T is , as the name implies, a pointer that may be shared. Any number of references may exist to the same value, and each shared reference is Copy, so you can trivially make more of them
I don’t understand why a shared reference has to implement copy. In fact, isn’t this not true just by the fact that references work for Strings and Strings size can’t be known at compile time?
- I’m having trouble with the idea of assigning a new value to a mutable reference.
let mut x = Box::new(42); *x = 84;
Why in this example, is the assignment dereferenced. Why not just do x=84? is it dereferenced specifically because is Boxed on the heap?
A reference &T holds a pointer, ie. the memory adress to the actual content of T
So, in the example x doesn’t hold the value 42, it holds the memory adress to the memory there the integer value 42 is stored. So, to access the value, you need to dereference the reference. Which is why you need to use *x when you assign the value.
And the Copy question.It is not that s reference has to implement Copy. A reference IS Copy, by the simple fact that it is a primitive value on the stack.
A reference IS Copy, by the simple fact that it is a primitive value on the stack.
This seems a bit misleading, noting that unique/mutable references aren’t
Copy. Shared references areCopybecause it’s sound to have that, and it’s a huge QOL improvement over the alternative.
In fact, isn’t this not true just by the fact that references work for Strings and Strings size can’t be known at compile time?
I don’t understand this. Shared references to
StringareCopy, too. This doesn’t have to do anything with sizes. Rather, it’s implemented in the compiler, because it’s sound to have it and a huge QoL improvement over the alternative… just the same reason why e.g.usizeisCopy, really.is it dereferenced specifically because is Boxed on the heap?
No, it’s not really related to the heap.
BoximplementsDerefMut, which is in-depth explained here.The key thing to understand is that in Rust, references are considered unique types. This means that
&Tis a separate type fromT.So, for #1, it is not saying that
TimplementsCopy, it is saying that regardless of whatTis,&TimplementsCopy. This is because, by definition, it is always valid to copy a shared reference, even ifTitself is notCopy.Part of the reason this is confusing is that traits often include references in their function signatures; and in particular,
Clone::clonehas the signaturefn clone(&self) -> Self. So whenTimplementsclone, it has a method that takes&Tand returnsT. But even though the signature takes&T, the type that implementsCloneisTitself. (&Talways implementsCloneas well, just as it always implementsCopy, but as withCopy, this is independent from whetherTitself implementsClone. See for example the error message you get when explicitly cloning a shared reference: https://play.rust-lang.org/?version=stable&mode=debug&edition=2021&gist=a1b80cc83570321868c4ad55ee3353dc)Since
Copyis a marker trait, it doesn’t have any associated methods making it explicit thatCopyaffects how&Tcan be used. However,Copyrequires the type to implementClone(even though you can implementClonein terms ofCopy) and implies thatTcan always be automatically created from&Twithout an explicit call toT::clone, so you can think of the “signature” forCopyas matching that ofClone, even though there’s no actualcopymethod.For #2, I recommend thinking in terms of explicit types. Adding annotations, you get:
let mut x: Box = Box::new(42); *x = 84_i32;The type of
xisBox. You cannot assign ani32to aBox; they’re different types! But the type ofisi32, and thus you can assign84to it.The trait used to make
Boxbehave this way isDerefMut, which explicitly makesassignable: https://doc.rust-lang.org/std/ops/trait.DerefMut.htmldeleted by creator
