I've always enjoyed the following intuitive explanation of a monad's power relative to a functor: a monad can change shape; a functor cannot.

You're missing a bit of subtlety here, by the way. For the sake of terminology, I'll divide a `Functor`

in the Haskell sense into three parts: The parametric component determined by the type parameter and operated on by `fmap`

, the unchanging parts such as the tuple constructor in `State`

, and the "shape" as anything else, such as choices between constructors (e.g., `Nothing`

vs. `Just`

) or parts involving other type parameters (e.g., the environment in `Reader`

).

A `Functor`

alone is limited to mapping functions over the parametric portion, of course.

A `Monad`

can create new "shapes" *based on the values of the parametric portion*, which allows much more than just changing shapes. Duplicating every element in a list or dropping the first five elements would change the shape, but filtering a list requires inspecting the elements.

This is essentially how `Applicative`

fits between them--it allows you to combine the shapes and parametric values of two `Functors`

independently, without letting the latter influence the former.

Am I correct? If so, is there a way to express this subtlety to a newcomer to Haskell. I'd like to make my beloved "monads can change shape" phrase, just a touch more honest; if need be.

Perhaps the subtlety you're looking for here is that you're not really "changing" anything. Nothing in a `Monad`

lets you explicitly mess with the shape. What it lets you do is create new shapes based on each parametric value, and have those new shapes recombined into a new composite shape.

Thus, you'll always be limited by the available ways to create shapes. With a completely generic `Monad`

all you have is `return`

, which by definition creates whatever shape is necessary such that `(>>= return)`

is the identity function. The definition of a `Monad`

tells you what you can do, given certain kinds of functions; it doesn't provide those functions for you.