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Functional programming is one of the programing paradigms in python. As per my understanding, functional programming treats computation as the evaluation of mathematical functions and avoids state and mutable data. I am trying to understand, how exactly python incorporates functional programming.

For example consider the following factorial program (factorial.py) :

def factorial(n,total):
    if n == 0:
        return total 
        return factorial(n-1,total*n)

num = raw_input("Enter a natural number : ")
print factorial(int(num),1)

I feel that above code avoids mutable data, because we are not changing the value of any variable, but we are only recursively calling the factorial function with a new value. So the above code is avoiding mutable data.

My Question is this :

  • If the example given above for functional programming is correct, then what does avoiding state mean.
  • Secondly, does functional programming only mean that, I must use only functions whenever I have computations (as given in the above example)
  • If the given example is wrong, then kindly provide another simple example with an explanation.
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Avoiding mutable state: a program without any state is worthless. In any case, see Functional Programming - while Python does support first-class/higher-order-functions, and recursion etc, it is hardly a FP language. –  user2864740 Jul 25 '14 at 6:48
Technically speaking "n-1" and "total*n" are evaluated before the new recursive-call to factorial is made. –  Hitesh Dharmadasani Jul 25 '14 at 6:51
Avoiding state means you always get the same output from a function called with the same arguments. –  stark Jul 25 '14 at 15:15
@stark can you give an examle where the function is called with the same arguments but the output is different. –  Guru Swaroop Jul 25 '14 at 15:25
@GuruSwaroop input('Name:') or random.random(). –  BlackJack Jul 25 '14 at 16:01

2 Answers 2

Borrowing from http://ua.pycon.org/static/talks/kachayev/#/8 where he makes a comparision between the way one thinks of imperitive and functional programs. Example is borrowed


expr, res = "28+32+++32++39", 0
for t in expr.split("+"):
    if t != "":
        res += int(t)

print res


from operator import add
expr = "28+32+++32++39"
print reduce(add, map(int, filter(bool, expr.split("+"))))
share|improve this answer
I don't really see what point you are trying to make here unless perhaps it is that imperative is easier to understand and fp is less readable. While that is true here I doubt it is always the case. If you wanted readable then I would contend that print(sum(int(n) for n in expr.split("+") if n)) would be clearest but that's really neither functional nor imperative. That is where Python's strength lies: mixing paradigms rather than being a slave to one. –  Duncan Jul 25 '14 at 7:39

The example is correct for functional programming. And a good example of what not to do in Python because it is inefficient and doesn't scale. Python has no tail call optimisation, so recursive calls should not be used solely to avoid imperative loops. If you really start programming in this style in Python your programs will end with runtime errors eventually.

What you are describing is pure functional programming which is not something Python could be used for.

Python supports functional programming to some degree in the sense that functions are first class values. That means functions can be passed to other functions and returned as results from functions. And the standard library contains functions also found in most functional programming languages standard libraries, like map(), filter(), reduce(), and the stuff in the functools and itertools modules.

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