How do I divide a large positive integer ** n** into

**parts**

*m**uniformly randomly*. Post-condition: Adding up all the

**m**parts should give

**n**.

Below is my attempt(in java like pseudocode), but I don't think it will give me uniformly random distribution.
I am first finding the average part *avg* by dividing n/m. Then I am generating *m-1* random numbers which are around avg in magnitude(by alternately generating random numbers between *0 & avg*, and *avg & 2*avg*. Then I am subtracting the sum of these *m-1* numbers from original number *n* and setting that as the *m*'th part.

Assume that the function *rand(x, y)* returns a random number uniformly between x and y.

```
int[] divideUniformlyRandomly(int n, int m)
{
int[] res = new int[m];
int avg = n / m;
int sum = 0;
bool alternator = false;
for(int i = 0; i < m - 1; i++)
{
if(alternator == false)
{
res[i] = rand(0, avg);
alternator = true;
}
else
{
res[i] = rand(avg, 2*avg);
alternator = false;
}
sum += res[i];
}
res[m-1] = n - sum;
return res;
}
```

`random`

is not a very popular tag. – Tudor Mar 27 '12 at 14:26