-// What this does is to define an entire family of types: We can now write
-// `SomethingOrNothing<i32>` to get back our `NumberOrNothing`, but we
-// can also write `SomethingOrNothing<bool>` or even `SomethingOrNothing<SomethingOrNothing<i32>>`.
-// In fact, such a type is so useful that it is already present in the standard
-// library: It's called an *option type*, written `Option<T>`.
-// Go check out its [documentation](http://doc.rust-lang.org/stable/std/option/index.html)!
-// (And don't worry, there's indeed lots of material mentioned there that we did not cover yet.)
-
-// **Exercise**: Write functions converting between `SomethingOrNothing<T>` and `Option<T>`. You will have to use
-// the names of the constructor of `Option`, which you can find in the documentation I linked above.
-//
-// Here's a skeleton for your solution, you only have to fill in the function bodies.
-// (`panic!` is, again, a macro - this one terminates execution when it is reached).
-//
-// Notice the syntax for giving generic implementations to generic types: Think of the first `<T>`
-// as *declaring* a type variable ("I am doing something for all types `T`"), and the second `<T>` as
-// *using* that variable ("The thing I do, is implement `SomethingOrNothing<T>`").
+//@ What this does is define an entire family of types: We can now write
+//@ `SomethingOrNothing<i32>` to get back our `NumberOrNothing`.
+type NumberOrNothing = SomethingOrNothing<i32>;
+
+//@ However, we can also write `SomethingOrNothing<bool>` or even
+//@ `SomethingOrNothing<SomethingOrNothing<i32>>`. In fact, a type like `SomethingOrNothing` is so
+//@ useful that it is already present in the standard library: It's called an *option type*,
+//@ written `Option<T>`. Go check out its
+//@ [documentation](https://doc.rust-lang.org/stable/std/option/index.html)! (And don't worry,
+//@ there's indeed lots of material mentioned there that we have not covered yet.)
+
+// ## Generic `impl`, Static functions
+//@ The types are so similar, that we can provide a generic function to construct a
+//@ `SomethingOrNothing<T>` from an `Option<T>`, and vice versa.
+//@
+//@ Notice the syntax for giving generic implementations to generic types: Think of the first `<T>`
+//@ as *declaring* a type variable ("I am doing something for all types `T`"), and the second `<T>`
+//@ as *using* that variable ("The thing I do, is implement `SomethingOrNothing<T>`").
+//@
+// Inside an `impl`, `Self` refers to the type we are implementing things for. Here, it is
+// an alias for `SomethingOrNothing<T>`.
+//@ Remember that `self` is the `this` of Rust, and implicitly has type `Self`.