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I'm trying to write a python function in a functional way. The problem is I don't know, how to transform an if conditional into a functional style. I have two variables: A and C, which I want to check for the following conditions:

def function():
    if(A==0): return 0
    elif(C!=0): return 0
    elif(A > 4): return 0
    else: someOtherFunction()

I looked at the lambda shortcircuiting, but I couldn't get it to work.

I thank you in advance for your help!

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Returning 0 to indicate failure is a really bad practice. I suggest you either throw an exception (preferable), or in a worst-case, return None. –  Lattyware Nov 3 '12 at 12:24
I'm probably the only one, but this question makes absolutely no sense to me. –  SilentGhost Nov 3 '12 at 12:24
The issue I have is that Python is not a pure functional language, so it shouldn't be used like one. Python has functional aspects, which is great for some tasks, but for tasks like this, the imperative style is far clearer and easier, so use it. –  Lattyware Nov 3 '12 at 12:25
It's possible to do it in one line: "return 0 if A == 0 else (0 if C != 0 else (0 if A > 4 else someOtherFunction()))" with lack of readability. –  adray Nov 3 '12 at 12:37

4 Answers 4

up vote 8 down vote accepted

From the link you posted:

FP either discourages or outright disallows statements, and instead works with the evaluation of expressions

So instead of if-statements, you could use a conditional expression:

def function():
    return (0 if ((A == 0) or (C != 0) or (A > 4)) else

or, (especially useful if there were many different values):

def function():
    return (0 if A == 0 else
            0 if C != 0 else
            0 if A > 4 else

By the way, the linked article proposes

(<cond1> and func1()) or (<cond2> and func2()) or (func3())

as a short-curcuiting equivalent to

if <cond1>:   func1()
elif <cond2>: func2()
else:         func3()

The problem is they are not equivalent! The boolean expression fails to return the right value when <cond1> is Truish but func1() is Falsish (e.g. False or 0 or None). (Or similarly when <cond2> is Truish but func2 is Falsish.)

(<cond1> and func1())

is written with the intention of evaluating to func1() when <cond1> is Truish, but when func1() is Falsish, (<cond1> and func1()) evaluates to False, so the entire expression is passed over and Python goes on to evaluate (<cond2> and func2()) instead of short-circuiting.

So here is a bit of interesting history. In 2005, Raymond Hettinger found a similar hard-to-find bug in type(z)==types.ComplexType and z.real or z when z = (0+4j) because z.real is Falsish. Motivated by a desire to save us from similar bugs, the idea of using a less error-prone syntax (conditional expressions) was born.

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The third code is what I was looking for, but it seems there is something syntactically wrong with that code... –  RunoTheDog Nov 3 '12 at 12:51
I'm curious how to write that without the ternary, using only booleans (failed myself on that). –  georg Nov 3 '12 at 13:05
@thg435: You could perhaps use (boolean and return_value) expressions. For example: (False and 'retvalA') or (True and 'retvalB') or 'retvalC' evaluates to 'retvalB'. You have to be careful that your return values are Truish, however. It was to surmount the problem of returning Falsish values that ternary expressions were created. –  unutbu Nov 3 '12 at 13:12
@unutbu: yes, but how this would look in this specific case (retval=0)? –  georg Nov 3 '12 at 13:13
@thg435: A bit of interesting history: Raymond Hettinger found type(z)==types.ComplexType and z.real or z contained a hard-to-find bug when z = (0+4j) because z.real is Falsish. Motivated by a desire to save us from similar bugs, PEP308 was born. –  unutbu Nov 3 '12 at 13:49

There's nothing non-"functional style" in your current code! who said conditionals are not functional anyway? Practically all functional languages have a conditional operator of some sort, for instance the cond special form in Lisp.

I'd take issue with the code if it were using the assignment operator, or mutating state in some way (say, appending to a list) but as it is, the function in the question is already in a "functional style" - there are no state changes.

Perhaps you meant something like this?

return A != 0 and C == 0 and A <= 4 and someOtherFunction()

The above will return False if either A == 0 or C != 0 or A > 4, in all other cases it will return the value of calling someOtherFunction(). And by the way, False can be assumed to evaluate to 0 (for example, 42 + False == 42), so the semantics in the code in the question will be preserved from the caller's point of view.

Notice that you're taking the information in the link out of context. There's absolutely no need to use a lambda for this, the article is only explaining how to get around an inherent limitation of lambdas in Python, which is that you can't return statements inside (like if-elif-else) - only expressions are allowed, but you can fake them with boolean operators. In the context of a normal function by all means, use conditionals.

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I agree, but according to the link I provided in my first post, if-conditionals can be converted into lambda expressions. In my assignment it says I should make my code as functional-like as possible, that`s why I˙m asking. –  RunoTheDog Nov 3 '12 at 12:29
Even if they can be converted, by all means don't. You're taking things to the extreme, such a contrived code will get you nowhere. I'm certain that's not what your teacher has in mind. –  Óscar López Nov 3 '12 at 12:31

Although Peter Norvig is a really great guy, his website is pretty hard to search.

I remember reading about Can I do the equivalent of (test ? result : alternative) in Python? on his site a while back during some research before a functional Python talk.

I'm not going to sway you one way or the other in light of my findings, but you should still go and read the section about ternary conditional operators in a functional style.

def if_(test, result, alternative=None):
    "If test is true, 'do' result, else alternative. 'Do' means call if callable."
    if test:
        if callable(result): result = result()
        return result
        if callable(alternative): alternative = alternative()
        return alternative
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Just use it as you have it.

Python does not have the syntax and library built-ins to make it easy to program all functions to directly return a single expression. That's not the most important part of functional style anyway, the most important part is making sure that your functions maintain referential integrity. Basically this means that whenever you supply them with the same input values they return the same output.

So when trying to program functionally in Python, I do not refrain from using statements entirely. I use a block of local variable assignments as an equivalent of let ... in ... from Haskell. I use an if/elif/else chain as an equivalent of a case expression from Haskell. And often there are built-in types which do not provide an adequate interface to create new "modified" versions of them rather than updating them in-place, so you instead have to implement such operations with an explicit copy operation and then using mutations on the new copy.

Python allows you to implement functional-style designs directly. You can easily structure your program as a whole bunch of functions which explicitly pass state around and don't have side effects, so you can design your high level algorithms in a very similar way that you would in a functional programming language. Nearly every programming language supports functional programming in this sense, if you're prepared to stomach the boilerplate necessary to fake first class functions. Since Python has first class functions, you don't even have to put up with boilerplate.

But that's as far as Python goes in supporting functional programming. It does't really support implementing functions as single referentially-transparent expressions. But that doesn't really matter. In a language that doesn't enforce or track purity, you get pretty much all the benefits of functional programming that you can by simply designing your program as a bunch of referentially transparent functions, and then how you implement those functions doesn't actually matter as long as the interface is kept referentially transparent.

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