How do I generate random numbers in an array that add up to a defined total?

I need to randomly generate an array with 7 slots in Java. All these slots must have a value of at LEAST 1, but combined, have a total value of another defined number. They also all need to be an int value, no 1.5 or 0.9816465684646 numbers. Example:

int a=10;

int[] ar = new int
ar = 1
ar = 1
ar = 2
ar = 2
ar = 1
ar = 2
ar = 1

I want it to generate something like that, but if int a=15, all the numbers would total 15 in any order

• This might even be worth an algorithm tag. Sep 3 '13 at 19:51
• OP, do you know about random variables and probability distributions? This question can't be answered until you define more precisely what you mean by random. Sep 9 '13 at 15:28

The standard way to generate N random numbers that add to a given sum is to think of your sum as a number line, generate N-1 random points on the line, sort them, then use the differences between the points as your final values. To get the minimum 1, start by subtracting N from your sum, run the algorithm given, then add 1 back to each segment.

public class Rand {
public static void main(String[] args) {
int count = 8;
int sum = 100;
java.util.Random g = new java.util.Random();

int vals[] = new int[count];
sum -= count;

for (int i = 0; i < count-1; ++i) {
vals[i] = g.nextInt(sum);
}
vals[count-1] = sum;

java.util.Arrays.sort(vals);
for (int i = count-1; i > 0; --i) {
vals[i] -= vals[i-1];
}
for (int i = 0; i < count; ++i) { ++vals[i]; }

for (int i = 0; i < count; ++i) {
System.out.printf("%4d", vals[i]);
}
System.out.printf("\n");
}
}
• That's very interesting Sep 3 '13 at 20:16
• Could you show a little code so I can see what would be going on? Sep 3 '13 at 20:27
• Yeah, I should probably show some code. Give me a few minutes. Sep 3 '13 at 20:36
• This is a good approach, but the problem is a little harder when the numbers are constrained to be integers. The devil will be in the details. Sep 3 '13 at 20:37
• @TedHopp I'm not sure why the integerness makes a problem. The average difference between the numbers is still going to be N/sum Sep 3 '13 at 20:46

A good way to achieve uniformity is, for example, to fill up a = 15 units into an 8 element array:

1. Put 1 in each element in the array as this is your requirement, you have now 7 values left to distribute
2. Roll a random number between 0 and the max index of the array, and add 1 to that element, and subtract 1 from 7. Do this until 7 goes down to zero.

In this way, you'll meet your minimum conditions by having each element have minimum value 1. Then you distribute the remaining totals in a completely random way.

• +1, don't see any better possible solution. I was pondering on how to get uniformity. My plight here is that they may be too uniform. For a sufficiantly large a, all numbers are going to be very close together, to the point where it's hard to tell there was any randomness. Sep 3 '13 at 19:52
• So what would I change from what you said to make it a 7 element array? I only need 7 numbers Sep 3 '13 at 19:56
• This will perform terribly when your sum is very large. Sep 3 '13 at 20:16
• @LeeDanielCrocker The OP said his values will not exceed 99.
– Kon
Sep 3 '13 at 20:17
• This is going to be slow when a is large. A far more efficient solution would be the one described by Lee Daniel Crocker. Sep 3 '13 at 20:25

Adding on to what @Kon said, you could use two random numbers rather than one for more randomness. That is:

Fill every element in the array with the value 1
valuesToDistribute = a - array.length-1
randomIndex = Roll a number between 0 and array.length-1
randomValue = Roll a number between 1 and valuesToDistribute
Add to randomIndex the value randomValue
Subtract randomValue from valuesToDistribute
Repeat until valuesToDistribute = 0

My java is horrible, so I'm not providing the actual code here, as it would probably be wrong. I've done this exact thing in SQL before though, so I know it works...

1. Let Y be the Total value you want the elements to add up to
2. Begin a loop with variable Z going from 1 to X where X is the number elements in your array (here called AR)
3. In the loop, set AR(Z) to a random number between 1 and Y-X+Z
4. Subtract the new value from Y, so Y = Y - AR(Z)
5. End loop : back to step 2, advancing Z by 1