This question is taken from an exam. I don't know how to do that. :-(
Question: Give an example of a haskell or ml function whose type is
( a -> b ) -> ( c -> a ) -> c -> b
How to do that?
The other answers so far don't actually show the logical procedure for doing this in general. I won't show it in 100% detail either, but I'll give an example of it.
The "deep" trick to this is that finding a function of a given type is equivalent proving a a logical theorem. Using a form of Lemmon's System L (a friendlier form of natural deduction used in some beginning logic courses), your example would go like this:
The idea here is that there is a tight correspondence between functional programming languages and logic, such that:
So the "auxiliary assumption" logical proof rule (steps 1-3) corresponds to introducing a fresh free variable. The implication elimination rule (steps 4-5, a.k.a. "modus ponens") corresponds to function application. The implication introduction rule (steps 6-8, a.k.a. "hypothetical reasoning") corresponds to lambda abstraction. The concept of discharging auxiliary assumptions corresponds to binding free variables. The concept of a proof with no premises corresponds to the concept of an expression with no free variables.
What meaningful function could have the type
Let's see, what could
It has three things to work with,
It shall produce a value of type
The only argument that has anything to do with
What can be the argument of
But what could
must be function composition (or undefined).
That function is the function composition operator, and by typing the function's type into Hoogle you could find that out: http://www.haskell.org/hoogle/?hoogle=%28+a+-%3E+b+%29+-%3E+%28+c+-%3E+a+%29+-%3E+c+-%3E+b++
You can then click to show the source: