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I was looking for a Python library function which computes multinomial coefficients.

I could not find any such function in any of the standard libraries. For binomial coefficients (of which multinomial coefficients are a generalization) there is scipy.special.binom and also scipy.misc.comb. Also, numpy.random.multinomial draws samples from a multinomial distribution, and sympy.ntheory.multinomial.multinomial_coefficients returns a dictionary related to multinomial coefficients.

However, I could not find a multinomial coefficients function proper, which given a,b,...,z returns (a+b+...+z)!/(a! b! ... z!). Did I miss it? Is there a good reason there is none available?

I would be happy to contribute an efficient implementation to SciPy say. (I would have to figure out how to contribute, as I have never done this).

For background, they do come up when expanding (a+b+...+z)^n. Also, they count the ways of depositing a+b+...+z distinct objects into distinct bins such that the first bin contains a objects, etc. I need them occasionally for a Project Euler problem.

BTW, other languages do offer this function: Mathematica, MATLAB, Maple.

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    As this is my first question I would be curious to learn why the question is down-voted. My searching did not yield an answer to my question. Also, I have provided some background. Thanks in advance for any clarifications. – Reiner Martin Sep 22 '17 at 23:01
  • Questions asking us to recommend or find a book, tool, software library, tutorial or other off-site resource are off-topic for Stack Overflow as they tend to attract opinionated answers and spam. More information: What topics can I ask about here? – eyllanesc Sep 22 '17 at 23:05
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    Please help me understand, how would such a specific technical question attract opinionated answers? Either the function is available, but maybe well hidden or under an unusual name, or there is a good reason why the library designers have chosen to not implement it, or it is simply a gap (which I would be glad to fill). Note that I am not asking for a recommendation. – Reiner Martin Sep 22 '17 at 23:12
  • The question such as this is off-topic in SO. We are programmers and we are human, we choose the libraries for a particular reason, because we feel comfortable, that is, there may be n libraries and any of us will like some for some reason is objective or not. So for that reason SO considers it to be off topic. I recommend you change your question and assume that it does not exist, maybe it exists, and shows what you have tried, and surely if there is already the solution someone in the community will respond with the name of the function or else propose some alternative. – eyllanesc Sep 22 '17 at 23:18
  • Ah, I think I get it now. I think you have misunderstood my question (probably because it is badly worded). The 4 examples I give are all NOT the function I am looking for, they are only loosely related to it. I listed them to show that I have done some work. I will make the question clearer. – Reiner Martin Sep 22 '17 at 23:24
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To partially answer my own question, here is my simple and fairly efficient implementation of the multinomial function:

def multinomial(lst):
    res, i = 1, 1
    for a in lst:
        for j in range(1,a+1):
            res *= i
            res //= j
            i += 1
    return res

It seems from the comments so far that no efficient implementation of the function exists in any of the standard libraries. As this is a inconvenience, I will try to contribute my code to SymPy (not SciPy, as their implementation of scipy.special.binom returns a float, not an integer, which I dislike for an integer-valued function).

  • In my experience it is faster to use sum() and math.factorial() to calculate the formula. – jarno Apr 1 at 11:07
  • It depends of course what you are trying to do. You won't solve any (3-digit) Project Euler problems with that approach – Reiner Martin Apr 1 at 13:16
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No, there is not a built-in multinomial library or function in Python.

Anyway this time math could help you. In fact a simple method for calculating the multinomial

keeping an eye on the performance is to rewrite it by using the characterization of the multinomial coefficient as a product of binomial coefficients:

where of course

Thanks to scipy.special.binom and the magic of recursion you can solve the problem like this:

from scipy.special import binom

def multinomial(params):
    if len(params) == 1:
        return 1
    return binom(sum(params), params[-1]) * multinomial(params[:-1])

where params = [n1, n2, ..., nk].

Note: Splitting the multinomial as a product of binomial is also good to prevent overflow in general.

  • Thanks, this is essentially how I have done it (unwrapping the recursion into loops for performance). However, this was not my question; rather: would it be a good idea to include it into SciPy say (if it is not already, which it seems not to be), as it is present in a few other languages? Believe me, I don't need a lecture in math. – Reiner Martin Sep 23 '17 at 0:07
  • That's really a question to ask the scipy maintainers. – chepner Sep 23 '17 at 0:16
  • OK, good point, will do. This was probably the wrong audience. Thanks. – Reiner Martin Sep 23 '17 at 0:18
  • That said, I wasn't sure whether there is another library besides SciPy where it is included. – Reiner Martin Sep 23 '17 at 0:20
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    Here an update, over a year later. For my problem-solving programming (say for Project Euler) I have in the meantime completely switched to Julia, which is in my opinion much better suited for stuff like this. As an aside, the multinomial function is contained in Julia's Combinatorics library, as you would expect. – Reiner Martin Dec 5 '18 at 17:21
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You wrote "sympy.ntheory.multinomial.multinomial_coefficients returns a dictionary related to multinomial coefficients", but it is not clear from that comment if you know how to extract the specific coefficients from that dictionary. Using the notation from the wikipedia link, the SymPy function gives you all the multinomial coefficients for the given m and n. If you only want a specific coefficient, just pull it out of the dictionary:

In [39]: from sympy import ntheory

In [40]: def sympy_multinomial(params):
    ...:     m = len(params)
    ...:     n = sum(params)
    ...:     return ntheory.multinomial_coefficients(m, n)[tuple(params)]
    ...: 

In [41]: sympy_multinomial([1, 2, 3])
Out[41]: 60

In [42]: sympy_multinomial([10, 20, 30])
Out[42]: 3553261127084984957001360

Busy Beaver gave an answer written in terms of scipy.special.binom. A potential problem with that implementation is that binom(n, k) returns a floating point value. If the coefficient is large enough, it will not be exact, so it would probably not help you with a Project Euler problem. Instead of binom, you can use scipy.special.comb, with the argument exact=True. This is Busy Beaver's function, modified to use comb:

In [46]: from scipy.special import comb

In [47]: def scipy_multinomial(params):
    ...:     if len(params) == 1:
    ...:         return 1
    ...:     coeff = (comb(sum(params), params[-1], exact=True) *
    ...:              scipy_multinomial(params[:-1]))
    ...:     return coeff
    ...: 

In [48]: scipy_multinomial([1, 2, 3])
Out[48]: 60

In [49]: scipy_multinomial([10, 20, 30])
Out[49]: 3553261127084984957001360
  • Thanks, I had indeed not looked into how to get specific coefficients from that dictionary. It struck me as incredible wasteful to generate a full dictionary when I only want to compute a single value, and so I did a quick timing for some larger inputs. sympy_multinomial([123,134,145]) for example takes over 1000 times as long as my own simple function. – Reiner Martin Sep 23 '17 at 10:47
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I believe you can define a function to return multinomial coefficients in a single line using vectorised code (instead of for-loops) as follows:

from scipy.special import factorial

def multinomial_coeff(c): return factorial(c.sum()) / factorial(c).prod()

(Where c is an np.ndarray containing the number of counts for each different object). Usage example:

>>> coeffs = np.array([2, 3, 4])
>>> multinomial_coeff(coeffs)
1260.0

In some cases this might be slower because you will be computing certain factorial expressions multiple times, in other cases this might be faster because I believe that numpy naturally parallelises vectorised code. Also this reduces the required number of lines in your program and is arguably more readable. If someone has the time to run speed tests on these different options then I'd be interested to see the results.

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    In fact the logarithm of the multinomial coefficient is faster to compute (based on the Stirling approximation) and allows computation of much larger coefficients: from scipy.special import gammaln def log_multinomial_coeff(c): return gammaln(c.sum()+1) - gammaln(c+1).sum() – Jake Levi Dec 19 '18 at 13:41
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Starting Python 3.8,

we can implement it without external libraries:

import math

def multinomial(*params):
  n = sum(params)
  return math.prod(math.comb(sum(params[:i]), x) for i, x in enumerate(params, 1))

multinomial(10, 20, 30) # 3553261127084984957001360
  • If performance is an issue, this is unfortunately somewhat inefficient, since a lot of terms cancel out which this method takes no advantage of. – Reiner Martin Jun 2 at 17:42

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