# Function for factorial in Python

How do I go about computing a factorial of an integer in Python?

The easiest way is to use `math.factorial` (available in Python 2.6 and above):

``````import math
math.factorial(1000)
``````

If you want/have to write it yourself, you can use an iterative approach:

``````def factorial(n):
fact = 1
for num in range(2, n + 1):
fact *= num
return fact
``````

or a recursive approach:

``````def factorial(n):
if n < 2:
return 1
else:
return n * factorial(n-1)
``````

Note that the factorial function is only defined for positive integers, so you should also check that `n >= 0` and that `isinstance(n, int)`. If it's not, raise a `ValueError` or a `TypeError` respectively. `math.factorial` will take care of this for you.

• I'm not understanding how you can use `factorial` within the `factorial` function. How can you use the same function within the function you're currently defining? I'm new to Python so I'm just trying to understand.
– J82
Nov 7, 2014 at 2:32
• @J82: The concept used here is called recursion ( en.wikipedia.org/wiki/Recursion_(computer_science) ) - a function calling itself is perfectly fine and often useful. Nov 7, 2014 at 10:06
• The recursive function will raise a `RecursionError` for any number larger than 998 (try `factorial(999)`) unless you increase Python's recursion limit Dec 15, 2019 at 19:15
• Raising CPython's recursion limit is dangerous -- you can kill the interpreter. Just don't use recursion in Python if it can be helped (it usually can, as this example illustrates). Oct 14, 2021 at 18:40
• factorial(999) ≈ 4.02 × 10^2564, so it's unlikely you would want to compute such a large number anyway. Jun 22 at 10:23

On Python 2.6 and up, try:

``````import math
math.factorial(n)
``````
• Starting with Python 3.9, passing a `float` to this function will raise a `DeprecationWarning`. If you want to do that, you need to convert `n` to an `int` explicitly: `math.factorial(int(n))`, which will discard anything after the decimal, so you might want to check that `n.is_integer()` Nov 22, 2019 at 11:47

## Existing solution

The shortest and probably the fastest solution is:

``````from math import factorial
print factorial(1000)
``````

You can also build your own solution. Generally you have two approaches. The one that suits me best is:

``````from itertools import imap
def factorial(x):
return reduce(long.__mul__, imap(long, xrange(1, x + 1)))

print factorial(1000)
``````

(it works also for bigger numbers, when the result becomes `long`)

The second way of achieving the same is:

``````def factorial(x):
result = 1
for i in xrange(2, x + 1):
result *= i
return result

print factorial(1000)
``````
• `operator.mul` could be used instead of `long.__mul__` and it would work in both Python 2 and Python 3. Nov 22, 2021 at 0:55
``````def factorial(n):
if n < 2:
return 1
return n * factorial(n - 1)
``````

### For performance reasons, please do not use recursion. It would be disastrous.

``````def fact(n, total=1):
while True:
if n == 1:
n, total = n - 1, total * n
``````

### Check running results

``````cProfile.run('fact(126000)')
``````

``````4 function calls in 5.164 seconds
``````

Using the stack is convenient (like recursive call), but it comes at a cost: storing detailed information can take up a lot of memory.

If the stack is high, it means that the computer stores a lot of information about function calls.

The method only takes up constant memory (like iteration).

### Or using a 'for' loop

``````def fact(n):
result = 1
for i in range(2, n + 1):
result *= i
return result
``````

### Check running results

``````cProfile.run('fact(126000)')
``````

``````4 function calls in 4.708 seconds
``````

### Or using the built-in function math

``````def fact(n):
return math.factorial(n)
``````

### Check running results

``````cProfile.run('fact(126000)')
``````

``````5 function calls in 0.272 seconds
``````
• I think this while loop looks a little bit cleaner <!-- language: python --> def fact(n): ret = 1 while n > 1: n, ret = n - 1, ret * n return ret May 18, 2018 at 15:13
• Looks great, shouting (large font) that recursion is disastrous, but can you back this up? Yes, you need a lot of stack, but only for a very short time. And yesterday's "a lot" is today's "just a little", especially in computing. We write high level code in order to not waste our time, and recursion helps with that. You don't need low level code a lot for performance reasons, today Nov 7, 2021 at 13:11
• It also depends on the context you're using the factorial in -- recursive functions have the benefit of being cache-able, this can be particularly helpful with factorials Feb 19 at 16:43

If you are using Python 2.5 or older, try

``````from operator import mul

def factorial(n):
return reduce(mul, range(1, n+1))
``````

For newer versions of Python, there is factorial in the math module as given in other answers here.

• This is a Python 2-only answer, `reduce` was removed from Python 3. Nov 22, 2019 at 11:37
• @Boris, in Python3 you just need to add `from functools import reduce` Nov 24, 2019 at 22:55
• It was removed for a reason, you shouldn't use it artima.com/weblogs/viewpost.jsp?thread=98196 Nov 24, 2019 at 23:43
``````def fact(n):
f = 1
for i in range(1, n + 1):
f *= i
return f
``````

Another way to do it is to use `np.prod` shown below:

``````def factorial(n):
if n == 0:
return 1
else:
return np.prod(np.arange(1,n+1))
``````

Non-recursive solution, no imports:

``````def factorial(x):
return eval(' * '.join(map(str, range(1, x + 1))))
``````
• It would be interesting to compare this to some of the other methods presented here. My guess is it's off-the-charts inefficient. Jul 10, 2021 at 3:16

You can also make it in one line recursively if you like it. It is just a matter of personal choice. Here we are using inline `if else` in Python, which is similar to the ternary operator in Java:

``````Expression1 ? Expression2 : Expression3
``````
• ### One line `function call` approach:

``````def factorial(n): return 1 if n == 0 else n * factorial(n-1)
``````
• ### One line `lambda` function approach:

(although it is not recommended to assign lambda functions directly to a name, as it is considered a bad practice and may bring inconsistency to your code. It's always good to know. See PEP8.)

``````factorial = lambda n: 1 if n == 0 else n * factorial(n-1)
``````