Monoid homomorphism and isomorphism

I am reading the book 'Programming in Scala' (The red book).

In the chapter about Monoids, I understand what a Monoid homomorphism is, for example: The String Monoid M with concatenation and length function f preserves the monoid structure, and hence are homomorphic.

M.op(f(x), f(y)) == M.op(f(x) + f(y))
// "Lorem".length + "ipsum".length == ("Lorem" + "ipsum").length

Quoting the book (From memory, so correct me if I am wrong:

When this happens in both directions, it is named Monoid isomorphisim, that means that for monoids M, N, and functions f, g, f andThen g and g andThen f are the identity function. For example the String Monoid and List[Char] Monoid with concatenation are isomorphic.

But I can't see an actual example for seeing this, I can only think of f as the length function, but what happens with g?

Note: I have seen this question: What are isomorphism and homomorphisms.

• Have you seen this one? stackoverflow.com/questions/55993254/… – slouc Sep 11 at 11:33
• Aha!, not the selected answer, but this one stackoverflow.com/a/55993551/1612432, in Monoid isomorphism was the answer for me. So, in this case, f and g will be toVector and toList, right? – ElBaulP Sep 11 at 11:43
• Oh, that one was mine, thanks! :) Yes, that's right. – slouc Sep 11 at 12:30
• @slouc I upvoted you there ;-) – ElBaulP Sep 11 at 12:34
• Thanks :) It's nice to see that your answer helps people. Cheers! – slouc Sep 11 at 12:36

To see the isomorphism between String and List[Char] we have toList: String -> List[Char] and mkString: List[Char] -> String.

length is a homomorphism from the String monoid to the monoid of natural numbers with addition.

A couple of examples of endo-homomorphism of the String monoid are toUpperCase and toLowerCase.

For lists, we have a lot of homomorphisms, many of which are just versions of fold.

Here is siyopao's answer expressed as ScalaCheck program

object IsomorphismSpecification extends Properties("f and g") {
val f: String => List[Char] = _.toList
val g: List[Char] => String = _.mkString

property("isomorphism") = forAll { (a: String, b: List[Char]) =>
(f andThen g)(a) == a && (g andThen f)(b) == b
}
}

which outputs

+ f and g.isomorphism: OK, passed 100 tests.
• This makes it eve clearer, thank you. – ElBaulP Sep 11 at 13:38