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My professor posted the function below. I do not fully understand how it's working. Could someone explain it?

def rev(a):
    if a == []:
        return []
    else:
        return rev(a[1:]) + [a[0]]
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2 Answers 2

up vote 2 down vote accepted

What this does is recursively reverses a list. The easiest way to see how it works is to follow through the execution.

The function takes the string and solves it by returning the reversed version of all but the first item (a[1:]) with the first item appended to the end.

Note that this is a bad way to do this in a real situation (I am presuming your professor is just showing the idea of recursion), as Python isn't optimized for recursion. Instead, use the reversed() builtin.

Also, it isn't particularly Pythonic code. If one had to have a recursive solution, instead of using the efficient, effective, well-tested, easy-to-use built-in, consider:

def rev(seq):
    return rev(seq[1:]) + [seq[0]] if seq else []
  • We use the ternary operator to condense the if/else.
  • Replacing a with seq makes the function clearer - Python doesn't have strict typing, so using names that give a clue to what the function takes (in this case, a sequence), makes it clearer.
  • We also replace the a == [] by simply checking seq. As lists evaluate to False when empty, there is no need to compare to an empty list.
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Plus you're slicing the list each time, which involves a copy. But I'm guessing this is just an illustrative Python implementation of the standard functional-programming (Scala/Erlang) idiom. –  Daniel Roseman Jan 31 '13 at 21:28
    
Sorry, I should've clarified. I know "what" it does, just not "how" it does it. –  Adam_G Jan 31 '13 at 21:33
    
@Adam_G Follow my link at the beginning and step through the execution, it should make it supremely clear. Rather than clumsily trying to explain the steps here, that site visualizes the execution. –  Lattyware Jan 31 '13 at 21:34
    
Thanks @Lattyware! I'd give you +100 just for that link -- it is very cool. This makes a lot more sense now; I guess I'm just not great about 'thinking recursively'. –  Adam_G Jan 31 '13 at 21:42
    
@Adam_G It's a really great tool for when you struggle to get your head around how code/data is flowing. Recursive stuff can be hard to get, but once you get it, it becomes a surprisingly easy way to implement a lot of stuff, as you only have to think about two things: how do I get a bit closer to the result I want? and how do I know when to stop?. Obviously, as I mentioned in my post, there are optimization concerns with recursive methods, however. –  Lattyware Jan 31 '13 at 21:49

a is a list. If a is the empty list, you return the empty list. If not, you apply (recursively) your 'reverse' function to the list but the first element, and you append the first element. This way, at each recursive call for reverse, you build your reversed list beginning with its rightmost element.

This is an example:

l=[1,4,6,7]

rev(l) returns rev([4,6,7])+[1]
rev([4,6,7]) returns rev([6,7])+[4]
...

and in the end you have rev([]) returning the empty list and terminating the recursive calls.

BTW, to reverse a list l, just use

l[::-1]
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Thanks. That makes sense! –  Adam_G Jan 31 '13 at 21:41
    
While slicing with a step of -1 is a good trick, it's generally a bad idea as it relies on the object implementing that. It's generally a better idea to use the reversed() built-in, which can let implementations special-case reversing for optimization and is much more readable. –  Lattyware Jan 31 '13 at 21:51

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