/// implicit closure bindings. It is needed when the closure
/// is borrowing or mutating a mutable referent, e.g.:
///
- /// let x: &mut isize = ...;
- /// let y = || *x += 5;
+ /// ```
+ /// let x: &mut isize = ...;
+ /// let y = || *x += 5;
+ /// ```
///
/// If we were to try to translate this closure into a more explicit
/// form, we'd encounter an error with the code as written:
///
- /// struct Env { x: & &mut isize }
- /// let x: &mut isize = ...;
- /// let y = (&mut Env { &x }, fn_ptr); // Closure is pair of env and fn
- /// fn fn_ptr(env: &mut Env) { **env.x += 5; }
+ /// ```
+ /// struct Env { x: & &mut isize }
+ /// let x: &mut isize = ...;
+ /// let y = (&mut Env { &x }, fn_ptr); // Closure is pair of env and fn
+ /// fn fn_ptr(env: &mut Env) { **env.x += 5; }
+ /// ```
///
/// This is then illegal because you cannot mutate a `&mut` found
/// in an aliasable location. To solve, you'd have to translate with
/// an `&mut` borrow:
///
- /// struct Env { x: & &mut isize }
- /// let x: &mut isize = ...;
- /// let y = (&mut Env { &mut x }, fn_ptr); // changed from &x to &mut x
- /// fn fn_ptr(env: &mut Env) { **env.x += 5; }
+ /// ```
+ /// struct Env { x: & &mut isize }
+ /// let x: &mut isize = ...;
+ /// let y = (&mut Env { &mut x }, fn_ptr); // changed from &x to &mut x
+ /// fn fn_ptr(env: &mut Env) { **env.x += 5; }
+ /// ```
///
/// Now the assignment to `**env.x` is legal, but creating a
/// mutable pointer to `x` is not because `x` is not mutable. We