# Python, count the trailing zeros within a factorial

I am trying to calculate the number of trailing zeros in a factorial.

``````def count(x):
zeros = 0
for i in range (2,x+1):
print(i)
if x > 0:
if i % 5 == 0:
print("count")
zeros +=1
else:
("False")
print(zeros)

count(30)
``````

I think the number of trailing zeros is incorrect.

When using `count(30)`, there are 7 trailing `0`'s in 30. However it is returning 6.

``````def count (x):
i = 5
zeros = 0
while x >= i:
zeros += x // i
i *= 5
return zeros

print(count(30))
``````
• This works thanks, could you explain your code a little if its not a problem? – Oscar Dolloway Nov 16 '16 at 23:32
• this link helps mytechinterviews.com/how-many-trailing-zeros-in-100-factorial basically do while loop as long as x >= i, the `zeros += x // i` is this `Number of 5’s = 100/5 + 100/25 + 100/125 + … = 24 (Integer values only)` and just multiply by 5 to get the next multiple of 5 :) – John Smith Nov 16 '16 at 23:43
• all has become clear! thank you my friend. it took me a while my brain hurts but I finally understand – Oscar Dolloway Nov 17 '16 at 1:28
• would you say the o notation of this code is o log(n)? – Oscar Dolloway Nov 17 '16 at 14:52

Wikipedia has a short article on this specific topic, which says that this can be computed with a straight-forward summation that counts factors of 5.

``````def trailing_zeros_of_factorial(n):
assert n >= 0, n
zeros = 0
q = n

while q:
q //= 5
zeros += q

return zeros

# 32! = 263130836933693530167218012160000000
print(trailing_zeros_of_factorial(32)) # => 7
``````

We would first count the number of multiples of 5 between 1 and n (which is X ), then the number of multiples of 25 ( ~s ), then 125, and so on. To count how many multiples of mare in n, we can just divide n by m

``````def countFactZeros(num):
count = 0
i = 5
if num < 0:
return False
while num//i > 0:
count = count + num//i
i = i * 5
return count

countFactZeros(10) # output should be 2
countFactZeros(100) # output should be 24
``````

``````import math

def count_zeroes(x):
zeroes = 0
if x <= 0:
return zeroes
for i in range(5, x+1, 5):
for base in range(int(math.log(i, 5)), 0, -1):
if i % pow(5, base) == 0:
zeroes += base
break
return zeroes
``````
• two for loops is inefficient. – Oscar Dolloway Nov 16 '16 at 23:49