You could do something like this for any function you define
;; The "real" f
([x y z] (whatever-f-does x y z))
;; Overloads to "automagically" construct partial applications
([x] (partial f x))
([x y] (partial f x y)))
Of course, this can be abstracted with a macro, but that is the pattern.
I don't know whether this is a good idea. It's probably not what most Lispers would expect from most functions, but I recon it could be quite useful in some contexts.
There are also some limitations to this approach. Here are a few I thought of:
- It's only useful for functions you write, or happen to be written by others who also use that pattern.
- It introduces ambiguity when multiple arity is involved (i.e., if f is a function of either 2 or 3 arguments, is (f x y) a complete application of f or a partial application?)
- It can't really handle variable arity either (you run into the same problems with ambiguity).
Perhaps a better approach would be to introduce a different function to do the partial application. For example:
(defn partial-f [& args] (apply partial f args))
Of course, you would want to choose a better name than "partial-f". For instance for map, you might use mapper. And for map-indexed, perhaps indexed-mapper would make sense.