+//@ `&mut` is the operator to create a mutable reference. We have to mark `v` as mutable in order
+//@ to create such a reference: Even though we completely own `v`, Rust tries to protect us from
+//@ accidentally mutating things.
+//@ Hence owned variables that you intend to mutate have to be annotated with `mut`.
+//@ Because the reference passed to `vec_inc` only lasts as long as the function call, we can still
+//@ call `vec_inc` on the same vector twice: The durations of the two references do not overlap, so
+//@ we never have more than one mutable reference - we only ever borrow `v` once at a time.
+//@ However, we can *not* create a shared reference that spans a call to `vec_inc`. Just try
+//@ enabling the commented-out lines, and watch Rust complain. This is because `vec_inc` could mutate
+//@ the vector structurally (i.e., it could add or remove elements), and hence the reference `first`
+//@ could become invalid. In other words, Rust keeps us safe from bugs like the one in the C++
+//@ snippet above.
+//@
+//@ Above, I said that having a mutable reference excludes aliasing. But if you look at the code
+//@ above carefully, you may say: "Wait! Don't the `v` in `mutable_ref_demo` and the `v` in
+//@ `vec_inc` alias?" And you are right, they do. However, the `v` in `mutable_ref_demo` is not
+//@ actually usable, it is not *active*: As long as `v` is borrowed, Rust will not allow you to do
+//@ anything with it.
+
+// ## Summary
+// The ownership and borrowing system of Rust enforces the following three rules: