This question has a longish prelude before I can actually ask it :)

Let's say type A and B represent categories, then the function

f :: B -> A

is a morphism between the two categories. We can create a new category with A and B as objects and f as the arrow like this:

Now, let's introduce a new category C and function g:

g :: C -> B -> A

I would like to be able to add C and g to my category above, but am unsure how to do it. Intuitively, I want something that looks like this:

But I've never seen anything like that in a category diagram before. To make this kosher, I could introduce a dummy arrow g' and construct a 2-category like this:

But that seems like an obtuse picture. (We could, of course, use the picture I drew above as shorthand for the proper one.) Also, it's not exactly clear anymore what g and g' even are. g is no longer a function that takes as input a category C and returns a morphism :: B -> A. Instead,

g' :: (C -> C)

g :: (C -> C) -> (B -> A)

If we pass g the identity, then everything will work fine. But if we pass it some other function, then who knows what could happen?

So my question is: Is an n-arrow within an n-category really the way we should think about functions with arity n? Or is there some easier way to represent this function down into a standard category that I missed?

A^Bis one which is in a precise sense equivalent to the arrowB→A; in particular, there exists an evaluation mapapply:A^B×B→Awith the requisite universal properties. Thus,`g :: C -> B -> A`

corresponds tog:C→A^B. ('^' denotes superscript.) – Antal S-Z Sep 24 '12 at 19:34objectA^B is equivalent to thecollectionof arrows B -> A; an individual arrow corresponds to an "element" of the object. – C. A. McCann Sep 24 '12 at 20:36