I'm curious if it's possible to take several conditional functions and create one function that checks them all (e.g. the way a generator takes a procedure for iterating through a series and creates an iterator).
The basic usage case would be when you have a large number of conditional parameters (e.g. "max_a", "min_a", "max_b", "min_b", etc.), many of which could be blank. They would all be passed to this "function creating" function, which would then return one function that checked them all. Below is an example of a naive way of doing what I'm asking:
def combining_function(max_a, min_a, max_b, min_b, ...): f_array =  if max_a is not None: f_array.append( lambda x: x.a < max_a ) if min_a is not None: f_array.append( lambda x: x.a > min_a ) ... return lambda x: all( [ f(x) for f in f_array ] )
What I'm wondering is what is the most efficient to achieve what's being done above? It seems like executing a function call for every function in f_array would create a decent amount of overhead, but perhaps I'm engaging in premature/unnecessary optimization. Regardless, I'd be interested to see if anyone else has come across usage cases like this and how they proceeded.
Also, if this isn't possible in Python, is it possible in other (perhaps more functional) languages?
EDIT: It looks like the consensus solution is to compose a string containing the full collection of conditions and then use exec or eval to generate a single function. @doublep suggests this is pretty hackish. Any thoughts on how bad this is? Is it plausible to check the arguments closely enough when composing the function that a solution like this could be considered safe? After all, whatever rigorous checking is required only needs to be performed once whereas the benefit from a faster combined conditional can be accrued over a large number of calls. Are people using stuff like this in deployment scenarios or is this mainly a technique to play around with?