% Higher-Rank Trait Bounds (HRTBs)

Rust's `Fn` traits are a little bit magic. For instance, we can write the
following code:

```rust
struct Closure<F> {
    data: (u8, u16),
    func: F,
}

impl<F> Closure<F>
    where F: Fn(&(u8, u16)) -> &u8,
{
    fn call(&self) -> &u8 {
        (self.func)(&self.data)
    }
}

fn do_it(data: &(u8, u16)) -> &u8 { &data.0 }

fn main() {
    let clo = Closure { data: (0, 1), func: do_it };
    println!("{}", clo.call());
}
```

If we try to naively desugar this code in the same way that we did in the
lifetimes section, we run into some trouble:

```rust,ignore
struct Closure<F> {
    data: (u8, u16),
    func: F,
}

impl<F> Closure<F>
    // where F: Fn(&'??? (u8, u16)) -> &'??? u8,
{
    fn call<'a>(&'a self) -> &'a u8 {
        (self.func)(&self.data)
    }
}

fn do_it<'b>(data: &'b (u8, u16)) -> &'b u8 { &'b data.0 }

fn main() {
    'x: {
        let clo = Closure { data: (0, 1), func: do_it };
        println!("{}", clo.call());
    }
}
```

How on earth are we supposed to express the lifetimes on `F`'s trait bound? We
need to provide some lifetime there, but the lifetime we care about can't be
named until we enter the body of `call`! Also, that isn't some fixed lifetime;
`call` works with *any* lifetime `&self` happens to have at that point.

This job requires The Magic of Higher-Rank Trait Bounds (HRTBs). The way we
desugar this is as follows:

```rust,ignore
where for<'a> F: Fn(&'a (u8, u16)) -> &'a u8,
```

(Where `Fn(a, b, c) -> d` is itself just sugar for the unstable *real* `Fn`
trait)

`for<'a>` can be read as "for all choices of `'a`", and basically produces an
*infinite list* of trait bounds that F must satisfy. Intense. There aren't many
places outside of the `Fn` traits where we encounter HRTBs, and even for
those we have a nice magic sugar for the common cases.