Python Binomial Coefficient
Note that starting Python 3.8, the standard library provides the math.comb function to compute the binomial coefficient:
math.comb(n, k)
which is the number of ways to choose k items from n items without repetition n! / (k! (n - k)!):
import math
math.comb(10, 5) # 252
math.comb(10, 10) # 1
This question is old but as it comes up high on search results I will point out that scipy has two functions for computing the binomial coefficients:
scipy.special.binom()scipy.special.comb()import scipy.special # the two give the same results scipy.special.binom(10, 5) # 252.0 scipy.special.comb(10, 5) # 252.0 scipy.special.binom(300, 150) # 9.375970277281882e+88 scipy.special.comb(300, 150) # 9.375970277281882e+88 # ...but with `exact == True` scipy.special.comb(10, 5, exact=True) # 252 scipy.special.comb(300, 150, exact=True) # 393759702772827452793193754439064084879232655700081358920472352712975170021839591675861424
Note that scipy.special.comb(exact=True) uses Python integers, and therefore it can handle arbitrarily large results!
Speed-wise, the three versions give somewhat different results:
num = 300
%timeit [[scipy.special.binom(n, k) for k in range(n + 1)] for n in range(num)]
# 52.9 ms ± 107 µs per loop (mean ± std. dev. of 7 runs, 10 loops each)
%timeit [[scipy.special.comb(n, k) for k in range(n + 1)] for n in range(num)]
# 183 ms ± 814 µs per loop (mean ± std. dev. of 7 runs, 10 loops each)each)
%timeit [[scipy.special.comb(n, k, exact=True) for k in range(n + 1)] for n in range(num)]
# 180 ms ± 649 µs per loop (mean ± std. dev. of 7 runs, 10 loops each)
(and for n = 300, the binomial coefficients are too large to be represented correctly using float64 numbers, as shown above).
Here's a version that actually uses the correct formula . :)
#! /usr/bin/env python
''' Calculate binomial coefficient xCy = x! / (y! (x-y)!)
'''
from math import factorial as fac
def binomial(x, y):
try:
return fac(x) // fac(y) // fac(x - y)
except ValueError:
return 0
#Print Pascal's triangle to test binomial()
def pascal(m):
for x in range(m + 1):
print([binomial(x, y) for y in range(x + 1)])
def main():
#input = raw_input
x = int(input("Enter a value for x: "))
y = int(input("Enter a value for y: "))
print(binomial(x, y))
if __name__ == '__main__':
#pascal(8)
main()
...
Here's an alternate version of binomial() I wrote several years ago that doesn't use math.factorial(), which didn't exist in old versions of Python. However, it returns 1 if r is not in range(0, n+1).
def binomial(n, r):
''' Binomial coefficient, nCr, aka the "choose" function
n! / (r! * (n - r)!)
'''
p = 1
for i in range(1, min(r, n - r) + 1):
p *= n
p //= i
n -= 1
return p