# Generating an Odd Random Number between a given Range

How to generate an odd Random number between a given range..

For Eg: For range between 1 to 6 .. Random No is 3 or 1 or 5

Method for Generating Random No :

``````    Random_No = Min + (int)(Math.Random()*((Max-Min)+1))
``````

Method For Generating Odd Random No :

``````    Random_No = Min + (int)(Math.Random()*((Max-Min)+1))
if(Random_No%2 ==0)
{
if((Max%2)==0)&&Random_No==Max)
{
Random_No = Random_No - 1;
}
else{
Random_No = Random_No +1;
}
}
``````

This Function will always convert 2 into 3 and not 1 Can we make this a more random function which can convert 2 sometimes into 3 and sometimes into 1 ??

• Another way would be to generate a number from 0 to 2 (`(6-1)/2`) and double then increment the result. It's easy to generalize this to a range starting with any number. – BlueRaja - Danny Pflughoeft Sep 26 '12 at 5:46

Assuming max is inclusive, I'd suggest the following:

``````if (Max % 2 == 0) --Max;
if (Min % 2 == 0) ++Min;
Random_No = Min + 2*(int)(Math.random()*((Max-Min)/2+1));
``````

It results in even distribution among all the odd numbers.

• this helps a lot – Sanket Sep 26 '12 at 5:26
• @Jonathan Leffler: good edit. – CrazyCasta Sep 26 '12 at 5:43
• Actually, romedius did the clever stuff; I just cleaned up the edit a bit, accidentally but unavoidably getting undue credit. You can see the details of who did what in the revision history (click on the time by the 'edited' label). – Jonathan Leffler Sep 26 '12 at 5:51
• Didn't knew that, thanks :-) – romedius Sep 26 '12 at 5:57
• @CrazyCasta, you do not need the first line where you decrement Max. – rouble Mar 31 '17 at 5:12

If you want to include randomness in the direction as well use random number for the same.

``````  int  randomDirection = Min + (int)(Math.Random()*((Max-Min)+1));
if(randomDirection%2==0) {  // any condition to switch the direction
Random_No = Random_No + 1;
} else {
Random_No = Random_No - 1;
}
``````

Instead of generating a random number between 0 and 6, generate one between 0 and 5 and round up to the nearest odd number, that way you'll have a perfect distribution (33% for each possibility (1, 3, 5))

To do so you need to generate a second pseudo-random number to add or substract 1

``````Random_No = Min + (int)(Math.Random()*((Max-Min)+1))
repartitionNumber =(int)(Math.Random()*((2)) // between 0 and 1
if(Random_No%2 ==0)
{
if(Random_No+1<=Max && Random_No-1>=Min)
{
if(repartitionNumber==0)
Random_No = Random_No + 1;
else
Random_No = Random_No - 1;
}
else if(Random_No+1<=Max)
Random_No = Random_No + 1;
else if (Random_No-1>=Min)
Random_No = Random_No - 1;
}
``````

I wonder why other answers all use the int cast to generate the random number. Why not generate random integer directly, which is more accurate than real number way?

``````Random rn = new Random();
if(maximum % 2 == 1) maximum = maximum + 1; // turn right bound to even
if(minimum % 2 == 0) minimum = minimum - 1; // turn left bound to odd
int range = (maximum - minimum + 1) / 2;
int randomNum =  rn.nextInt(range) * 2 + minimum;
``````

To generate an odd number from a integer you can use `n * 2 + 1` Really you are generating random numbers and applying a transformation afterwards

``````int num = min / 2 + random.nextInt((max + 1) / 2 - min / 2);
num = num * 2 + 1;
``````

This will work even if the range is [1,5] [2,5] [2,6] [1,6]

Mathematically the numbers will not gain anything by rounding up or down in the last step. Instead the first and the last number have a 50% lower chance to get picked over all the other numbers.

Stick with CrazyCasta's or J.A's solution.

How about checking the return from Math.random() as a floating number. If its int part is an even number, then convert up/down based on its floating part. Like:

assume Math.random() returned x.y; if x is even, return (y>=0.5)?(x+1):(x-1)

Will this randomized a little?

• I guess thats what my question is... I want equal probability for all the numbers ranging from x to y – Sanket Sep 26 '12 at 6:00

Let the rouding above or below depend on a random epsilon.

``````    Random_No = Min + (int)(Math.Random()*((Max-Min)+1))
if(Random_No%2 ==0)
{

if((Max%2)==0)&&Random_No==Max)
{
Random_No = Random_No - 1;
}
else{
epsilon = Math.Random();
if(epsilon > 0.5)
Random_No = Random_No + 1;
else
Random_No = Random_No - 1;
}
}
``````

In Java 1.7 or later, I would use ThreadLocalRandom:

``````import java.util.concurrent.ThreadLocalRandom;

// Get odd random number within range [min, max]
// Start with an odd minimum and add random even number from the remaining range
public static int randOddInt(int min, int max) {
if (min % 2 == 0) ++min;
return min + 2*ThreadLocalRandom.current().nextInt((max-min)/2+1);
}

// Get even random number within range [min, max]
// Start with an even minimum and add random even number from the remaining range
public static int randEvenInt(int min, int max) {
if (min % 2 != 0) ++min;
return min + 2*ThreadLocalRandom.current().nextInt((max-min)/2+1);
}
``````

The reason to use ThreadLocalRandom is explained here. Also note that the reason we +1 to the input to ThreadLocalRandom.nextInt() is to make sure the max is included in the range.