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185 lines
7.3 KiB
185 lines
7.3 KiB
% Subtyping and Variance
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Although Rust doesn't have any notion of inheritance, it *does* include subtyping.
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In Rust, subtyping derives entirely from *lifetimes*. Since lifetimes are scopes,
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we can partially order them based on the *contains* (outlives) relationship. We
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can even express this as a generic bound.
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Subtyping on lifetimes in terms of that relationship: if `'a: 'b`
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("a contains b" or "a outlives b"), then `'a` is a subtype of `'b`. This is a
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large source of confusion, because it seems intuitively backwards to many:
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the bigger scope is a *sub type* of the smaller scope.
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This does in fact make sense, though. The intuitive reason for this is that if
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you expect an `&'a u8`, then it's totally fine for me to hand you an `&'static u8`,
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in the same way that if you expect an Animal in Java, it's totally fine for me to
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hand you a Cat. Cats are just Animals *and more*, just as `'static` is just `'a`
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*and more*.
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(Note, the subtyping relationship and typed-ness of lifetimes is a fairly arbitrary
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construct that some disagree with. However it simplifies our analysis to treat
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lifetimes and types uniformly.)
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Higher-ranked lifetimes are also subtypes of every concrete lifetime. This is because
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taking an arbitrary lifetime is strictly more general than taking a specific one.
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# Variance
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Variance is where things get a bit complicated.
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Variance is a property that *type constructors* have. A type constructor in Rust
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is a generic type with unbound arguments. For instance `Vec` is a type constructor
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that takes a `T` and returns a `Vec<T>`. `&` and `&mut` are type constructors that
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take a two types: a lifetime, and a type to point to.
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A type constructor's *variance* is how the subtyping of its inputs affects the
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subtyping of its outputs. There are two kinds of variance in Rust:
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* F is *variant* if `T` being a subtype of `U` implies `F<T>` is a subtype of `F<U>`
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* F is *invariant* otherwise (no subtyping relation can be derived)
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(For those of you who are familiar with variance from other languages, what we refer
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to as "just" variance is in fact *covariance*. Rust does not have contravariance.
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Historically Rust did have some contravariance but it was scrapped due to poor
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interactions with other features.)
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Some important variances:
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* `&` is variant (as is `*const` by metaphor)
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* `&mut` is invariant
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* `Fn(T) -> U` is invariant with respect to `T`, but variant with respect to `U`
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* `Box`, `Vec`, and all other collections are variant
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* `UnsafeCell`, `Cell`, `RefCell`, `Mutex` and all "interior mutability"
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types are invariant (as is `*mut` by metaphor)
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To understand why these variances are correct and desirable, we will consider several
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examples. We have already covered why `&` should be variant when introducing subtyping:
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it's desirable to be able to pass longer-lived things where shorter-lived things are
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needed.
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To see why `&mut` should be invariant, consider the following code:
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```rust,ignore
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fn overwrite<T: Copy>(input: &mut T, new: &mut T) {
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*input = *new;
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}
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fn main() {
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let mut forever_str: &'static str = "hello";
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{
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let string = String::from("world");
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overwrite(&mut forever_str, &mut &*string);
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}
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// Oops, printing free'd memory
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println!("{}", forever_str);
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}
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```
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The signature of `overwrite` is clearly valid: it takes mutable references to
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two values of the same type, and overwrites one with the other. If `&mut` was
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variant, then `&mut &'a str` would be a subtype of `&mut &'static str`, since
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`&'a str` is a subtype of `&'static str`. Therefore the lifetime of
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`forever_str` would successfully be "shrunk" down to the shorter lifetime of
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`string`, and `overwrite` would be called successfully. `string` would
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subsequently be dropped, and `forever_str` would point to freed memory when we
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print it! Therefore `&mut` should be invariant.
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This is the general theme of variance vs
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invariance: if variance would allow you to *store* a short-lived value in a
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longer-lived slot, then you must be invariant.
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`Box` and `Vec` are interesting cases because they're variant, but you can
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definitely store values in them! This is where Rust gets really clever: it's
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fine for them to be variant because you can only store values
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in them *via a mutable reference*! The mutable reference makes the whole type
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invariant, and therefore prevents you from smuggling a short-lived type into
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them.
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Being variant *does* allows them to be weakened when shared immutably.
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So you can pass a `&Box<&'static str>` where a `&Box<&'a str>` is expected.
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However what should happen when passing *by-value* is less obvious. It turns out
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that, yes, you can use subtyping when passing by-value. That is, this works:
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```rust
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fn get_box<'a>(&'a u8) -> Box<&'a str> {
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// string literals are `&'static str`s
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Box::new("hello")
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}
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```
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Weakening when you pass by-value is fine because there's no one else who
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"remembers" the old lifetime in the Box. The reason a variant `&mut` was
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trouble was because there's always someone else who remembers the original
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subtype: the actual owner.
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The invariance of the cell types can be seen as follows: `&` is like an `&mut` for a
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cell, because you can still store values in them through an `&`. Therefore cells
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must be invariant to avoid lifetime smuggling.
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`Fn` is the most subtle case because it has mixed variance. To see why
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`Fn(T) -> U` should be invariant over T, consider the following function
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signature:
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```rust
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// 'a is derived from some parent scope
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fn foo(&'a str) -> usize;
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```
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This signature claims that it can handle any `&str` that lives *at least* as long
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as `'a`. Now if this signature was variant with respect to `&str`, that would mean
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```rust
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fn foo(&'static str) -> usize;
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```
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could be provided in its place, as it would be a subtype. However this function
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has a *stronger* requirement: it says that it can *only* handle `&'static str`s,
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and nothing else. Therefore functions are not variant over their arguments.
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To see why `Fn(T) -> U` should be *variant* over U, consider the following
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function signature:
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```rust
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// 'a is derived from some parent scope
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fn foo(usize) -> &'a str;
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```
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This signature claims that it will return something that outlives `'a`. It is
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therefore completely reasonable to provide
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```rust
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fn foo(usize) -> &'static str;
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```
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in its place. Therefore functions *are* variant over their return type.
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`*const` has the exact same semantics as `&`, so variance follows. `*mut` on the
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other hand can dereference to an &mut whether shared or not, so it is marked
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as invariant just like cells.
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This is all well and good for the types the standard library provides, but
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how is variance determined for type that *you* define? A struct, informally
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speaking, inherits the variance of its fields. If a struct `Foo`
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has a generic argument `A` that is used in a field `a`, then Foo's variance
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over `A` is exactly `a`'s variance. However this is complicated if `A` is used
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in multiple fields.
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* If all uses of A are variant, then Foo is variant over A
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* Otherwise, Foo is invariant over A
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```rust
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struct Foo<'a, 'b, A, B, C, D, E, F, G, H> {
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a: &'a A, // variant over 'a and A
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b: &'b mut B, // invariant over 'b and B
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c: *const C, // variant over C
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d: *mut D, // invariant over D
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e: Vec<E>, // variant over E
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f: Cell<F>, // invariant over F
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g: G // variant over G
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h1: H // would also be variant over H except...
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h2: Cell<H> // invariant over H, because invariance wins
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}
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``` |