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This question already has an answer here:

I compared the runtimes of a loop and a recursion, finding out, that the loop is way faster, while not having the problem of running into a RecursionError. Why is it, that loops are so much faster?

def factorial(n):
   if n == 0:
      return n
   else:
      return n + factorial(n-1)

%%timeit -n1000 -r10000
factorial(1000)

163 µs ± 13.2 µs per loop (mean ± std. dev. of 10000 runs, 1000 loops each)

def factorial2(n):
   r = 0
   for i in range(n+1):
      r += i
   return r

%%timeit -n1000 -r10000
factorial2(1000)

The slowest run took 9.46 times longer than the fastest. This could mean that an intermediate result is being cached. 58.7 µs ± 25.2 µs per loop (mean ± std. dev. of 10000 runs, 1000 loops each)

Thanks and happy coding!

marked as duplicate by Patrick Artner python Feb 23 at 12:54

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    With recursion in general the runtime has to do extra work pushing variables to the stack frame and then make a function call which adds to the execution time. With recursion even though you are calling the same function over and over, each call creates a new scope of all the local variables. With iteration non of that extra works needs to be done. – jnvilo Feb 23 at 12:44
  • 1
    Your factorial is actually calculating the sum between 0 -> n btw – molamk Feb 23 at 12:47
  • Function calls are quite expensive in Python. One myth is that for-loops are slow in Python, but this is mostly the case if the loop contains function calls or even method calls. See wiki.python.org/moin/PythonSpeed/PerformanceTips and python.org/doc/essays/list2str . So r += i is quite a lot faster than calling n + factorial(n-1). Btw, shouldn't a factorial use multiplication? – Jan Christoph Terasa Feb 23 at 12:48
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In general, unless a programming language is specifically made to support fast recursion, recursion is always going to be slower. When the program makes a function call, a new stack frame is created, where all local variables are stored and other things. During the iteration, everything happens inside a single stack frame.

There is something called 'tail recursion', where a function is written in such a way that the result of the calculation is always available in the last frame - so in theory, only 1 stack frame would suffice. In some languages the compiler recognizes this situation and transforms the recursion into iteration 'behind the scenes' - such type of recursion would indeed be equally as fast as iteration. Unfortunately, Python3 doesn't support tail recursion.

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