# Stackoverflow exception while testing Miller Rabin

All,

I have implemented a code that generates 2 random prime numbers and the multiplication of these 2 numbers should pass the Miller Rabin primality test. However, my code keeps looping all the time trying to find a number that passes Miller rabin test and ends up with a Stackoverflow exception. Here is the code:

``````private void populateRandomPrimes()
{
onePrimeValue = RandomPrime.getValue();

do
{
secondPrimeValue= RandomPrime.getValue();
}while(onePrimeValue == secondPrimeValue);

BigInteger calcNum = new BigInteger(Integer.toString(onePrimeValue*secondPrimeValue));

try
{
**if (calcNum.isProbablePrime(20))**
populateMultiplicativeForPlayer();
else
populateRandomPrimes();
}
catch (Exception io)
{
io.printStackTrace();
}
}
``````

In the code above:
1 > RandomPrime class returns a random prime number
2 > Both onePrimeValue and secondPrimeValue should be different
3 > Since the code line : `if (calcNum.isProbablePrime(20))` never returns a `true`, I end up calling the same till I get `Stackoverflow` exception

Can anyone suggest me how to get around with this issue?

-
Maybe try not use recursion... Rather put it into a large while loop. You can even place a counter and get it to stop/fail after a certain amount of iterations. –  Paul Dec 5 '10 at 19:25
If you are sure that `calcNum.isProbablePrime()` works correctly, you should as Paul suggested. –  khachik Dec 5 '10 at 20:17
Well isProbablePrime() does work fine, But I never get a prime number from 2 primes .. I am only getting composite primes –  name_masked Dec 5 '10 at 20:26

Please see my comment below your question...

``````private void populateRandomPrimes()
{
while (true){
onePrimeValue = RandomPrime.getValue();

do
{
secondPrimeValue= RandomPrime.getValue();
}while(onePrimeValue == secondPrimeValue);

BigInteger calcNum = new BigInteger(Integer.toString(onePrimeValue*secondPrimeValue));

try
{
if (calcNum.isProbablePrime(20)){
populateMultiplicativeForPlayer();
return;
}
}
catch (Exception io)
{
io.printStackTrace();
}
}
}
``````
-

Move the calcNum computation inside of the do-while loop and add an extra condition:

``````private void populateRandomPrimes()
{
onePrimeValue = RandomPrime.getValue();
BigInteger calcNum = null;
do {
secondPrimeValue= RandomPrime.getValue();
calcNum = new BigInteger(Integer.toString(onePrimeValue*secondPrimeValue));
} while(onePrimeValue.equals(secondPrimeValue) && !(calcNum.isProbablePrime(20));

//if you get here, calcNum isProbPrime, so no need to check again
try {
populateMultiplicativeForPlayer();
} catch (Exception ex) {
ex.printStackTrace();
}
}
``````

You are running into this problem because you don't have a definitive base case for your recursion. Also, don't use `==` on objects unless you know what you're doing. Your do-while condition should have used `.equals()` to compare `onePrimeValue` and `secondPimeValue`

The worst case scenario with this approach is that your program will get stuck in an infinite loop because the exit condition of the do-while loop is never satisfied. To remedy this, you can add a third condition to the loop to ensure that it terminates after a fixed number of iterations.

-
well `secondPrimeValue` and `onePrimeValue` are of type `int`. So I don't need to use `.equals()` . And I am infact only running into the worse scenario :) –  name_masked Dec 5 '10 at 20:47
That wasn't obvious from reading the code, but OK. –  Amir Afghani Dec 5 '10 at 20:57
``````private BigInteger generateAppropriateNumber() {
BigInteger result;
boolean isOk = false;
while (isOk == false) {
onePrimeValue = RandomPrime.getValue();
do {
secondPrimeValue= RandomPrime.getValue();
} while(onePrimeValue.equals(secondPrimeValue));
BigInteger result =
new BigInteger(Integer.toString(onePrimeValue * secondPrimeValue));
if (result.isProbablePrime(20)) {
isOk = true;
}
}
return result;
}

private void populateRandomPrimes() {
populateMultiplicativeForPlayer(generateAppropriateNumber());
}
``````

I.e.

1. Use loop instead of recursion to avoid stack increase.
2. Don't use global variables. It is really bad style.
-