I'm a newbie and I'm trying to code the following factorial series in python to calculate the first matching number in a series within a finite range. kd×d×(d−1)×⋯×(d−k+1)d×d×⋯d=k(d−1)!dk(d−k)! so the expected value for the number needed for a match is ∑k=1d(k+1)k(d−1)!dk(d−k)!.

Due to the size of the numbers it errors: OverflowError: long int too large to convert to float So I'm using logs but still getting an error. Wondering if anyone has an good idea on this.

```
m = 365
q = 1
a=[]
for x in range(q,m):
#y = y + x*(1/365)
#####y = y + (factorial(x)/(factorial(m-x)*(exponent(m,x))))
a.append((log((factorial(m))/exponent(m,x)))*log((q+x)/m))
#y = [(m-x)*factorial(m-x)/m]
#print ("x: ",x," y: ",y)
#return "a:",a," product-sum:",[a*a for a in a]
return sum(a)
```

Sorry I see the equation above isn't clear. Here's what I'm trying to get at: http://en.wikipedia.org/wiki/Birthday_problem#Average_number_of_people