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I hope I can explain this well, if I don't I'll try again.

I want to generate an array of 5 random numbers that all add up to 10 but whose allocation are chosen on an interval of [0,2n/m].

I'm using numpy.

The code I have so far looks like this:

import numpy as np

n=10
m=5
#interval that numbers are generated on
randNumbers= np.random.uniform(0,np.divide(np.multiply(2.0,n),fronts),fronts)
#Here I normalize the random numbers
normNumbers = np.divide(randNumbers,np.sum(randNumbers))
#Next I multiply the normalized numbers by n
newList = np.multiply(normNumbers,n)
#Round the numbers two whole numbers
finalList = np.around(newList)

This works for the most part, however the rounding is off, it will add up to 9 or 11 as opposed to 10. Is there a way to do what I'm trying to do without worrying about rounding errors, or maybe a way to work around them? If you would like for me to be more clear I can, because I have trouble explaining what I'm trying to do with this when talking :).

2 Answers 2

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This generates all the possible combinations that sum to 10 and selects a random one

from itertools import product
from random import choice
n=10
m=5
finalList = choice([x for x in product(*[range(2*n/m+1)]*m) if sum(x) == 10])

There may be a more efficient way, but this will select fairly between the outcomes

Lets see how this works when n=10 and m=5

2*n/m+1 = 5, so the expression becomes

finalList = choice([x for x in product(*[range(5)]*5) if sum(x) == 10])

`*[range(5)]*5 is using argument unpacking. This is equivalent to

finalList = choice([x for x in product(range(5),range(5),range(5),range(5),range(5)) if sum(x) == 10])

product() gives the cartesian product of the parameters, which in this case has 5**5 elements, but we then filter out the ones that don't add to 10, which leaves a list of 381 values

choice() is used to select a random value from the resultant list

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  • It worked, but could you kind of explain what all is going on in your last line? Just so I'd know what I'm using? I'm really quite new to python.
    – elais
    Aug 21, 2010 at 4:07
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Just generate four of the numbers using the technique above, then subtract the sum of the four from 10 to pick the last number.

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  • I think this is right. You can't pick all five numbers "randomly" and expect them to sum to a certain value.
    – erickson
    Aug 19, 2010 at 4:17
  • This won't give a "fair" distribution though Aug 19, 2010 at 4:25
  • Thanks for your help, but I decided to go with the second answer.
    – elais
    Aug 19, 2010 at 4:44

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