# generating random integers between 0 and some value where half are in the set (0,5] and the other half (5,x]

I am looking for a way to generate a random integer from 0-x, where x is defined at runtime by the human user. However, half of those numbers must be greater than zero and less than or equal to 5 (0,5] and the other half must be in the set of [6,x].

I know that the following code will generate a number from 0-x. The main problem is ensuring that half of them will be in the set of (0,5]

``````    Math.random() * x;
``````

I'm not looking for someone to do this for me, just looking for some hints. Thank you!

-
Just generate two sets, and shuffle the end result. If you're storing the result in a list, you can use Collections.shuffle() –  Gijs Overvliet Oct 18 '12 at 14:43
Do you have a number specifying the size of the entire generated set, being that you want half of it to be in (0,5], and the oher half in the [6,x]? –  Less Oct 18 '12 at 14:49
no, I have no such set size since this is supposed to be used for a grocery line simulator. The "customers" arrive randomly between t=0 and t= simulation length. I have the customer arrival worked out, but this portion is to determine how many items are in their cart since half of them are shopping for at most 5 items, the rest are shopping for at least 6 items and at most x items. –  audiFanatic Oct 18 '12 at 15:02

You could first flip a coin and based on that generate upper or lower number:

``````final Random rnd = new Random();
while (true)
System.out.println(rnd.nextBoolean()? rnd.nextInt(6) : 6 + rnd.nextInt(x-5));
``````

Or, using the unwieldy `Math.random()` (bound to have trouble at the edges of the range):

``````while (true)
System.out.println(Math.floor(
math.random() < 0.5 ? (Math.random() * 6) : (6 + (x-5) * Math.random())
));
``````

Consider this as a hint only :)

-
I'm not sure, but I think he wants exactly half, not probabilistically half. –  Brian Oct 18 '12 at 14:45
Very elegant, and nice! –  ppeterka Oct 18 '12 at 14:45
@brian Usually in this context it is meant statistically half, but let's hear it from OP. –  Marko Topolnik Oct 18 '12 at 14:46
Can you explain what the `?` and the `:` mean? –  YiweiG Oct 18 '12 at 14:56
Yes, I can. It is the conditional operator, also known as the ternary operator. –  Marko Topolnik Oct 18 '12 at 14:57

I'd do this:

`````` double halfX= x / 2.0;
double random = Math.random() * x;
if( random< halfX ) {
random = random*5.0/(halfX);
} else {
random = (random/halfX - 1) * (x-5.0) + 5.0 ;
}
``````

I think it is good now. This is less understandable and readable, but has only one call to random for each invocation. Apart from the fact MarkoTopolnic pointed out: the user needed an integer... I'd have to calculate what rounding would do to the distribution.

This is absolutely not easy... My head aches, so the best I can come up with:

``````double halfX= x / 2.0 + 1.0;
double random = Math.random() * (x+2.0);
int randomInt;
if( random< halfX ) {
randomInt = (int) (random*6.0/(halfX)); //truncating, means equal distribution from 0-5
} else {
randomInt = (int) ((random/halfX - 1.0) * (x-5.0) + 6.0) ; //notice x-5.0, this range before truncation is actually from 6.0 to x+1.0, after truncating it gets to [6;x], as this is integer
}
``````

The second part I'm not sure though... A few hours of sleep would get it right... I hope the intentions and logic is clear though...

-
Yes, tricky stuff this `Math.random()`... But we can leave at least something to OP to complete his homework :) –  Marko Topolnik Oct 18 '12 at 15:05
@MarkoTopolnik I enjoyed this, and seen some fantastic ways one can code :) –  ppeterka Oct 18 '12 at 15:07
I'm glad you share my taste for concise, FP-style code :) –  Marko Topolnik Oct 18 '12 at 15:11

In case anyone is curious, here's the solution I came up with based on Marko's solution.

I had the following class defined for another part of this program.

``````public class BooleanSource
{
private double probability;

BooleanSource(double p) throws IllegalArgumentException
{
if(p < 0.0)
throw new IllegalArgumentException("Probability too small");
if(p > 1.0)
throw new IllegalArgumentException("Probability too large");
probability = p;
}

public boolean occurs()
{
return (Math.random() < probability);
}
}
``````

With that, I did the following

``````    private static void setNumItems(Customer c, int maxItems)
{
BooleanSource numProb = new BooleanSource(0.5);
int numItems;

if(numProb.occurs())
{
double num = (Math.random()*4)+1;
numItems = (int) Math.round(num);
}
else
{
double num = 5 + (maxItems-5)*Math.random();
numItems = (int) Math.round(num);
}

c.setNumItems(numItems);
}
``````
-