# Function Returning NaN

I created a program that calculates this algorithm starting at k=1 and ending it k=100:

Here's the code that I've created:

``````public static void calculatePi() {
BigInteger firstFactorial;
BigInteger secondFactorial;
BigInteger firstMultiplication;
BigInteger firstExponent;
BigInteger secondExponent;
int firstNumber = 1103;
double summationPi = 3.0;
double currentPi = 3.0;
double pi = 3.0;
int secondNumber = 2;
double thirdNumber = Math.sqrt(2.0);
int fourthNumber = 9801;
double prefix = 1;

for(int i=1;i<101;i++){
firstFactorial = factorial(4*i);
secondFactorial = factorial(i);
firstMultiplication = BigInteger.valueOf(26390*i);
firstExponent = exponent(secondFactorial, 4);
secondExponent = exponent(BigInteger.valueOf(396),4*i);
summationPi /= firstExponent.intValue()*secondExponent.intValue();
currentPi += summationPi;
}

prefix = secondNumber*thirdNumber;
prefix = prefix/fourthNumber;

summationPi = summationPi*prefix;

pi = 1/summationPi;

System.out.println("Pi is: " + pi);

return;
}
``````

The function exponent(a,b); returns the result of a^b. The function factorial(a) returns the factorial of a. I have proven that both of these functions work perfectly. However, the code seems to mysteriously be returning "NaN." I understand that this happens when something is divided by zero, however I have not been able to find any point at which something is divided by zero. Is there anything else that would cause this/I'm doing wrong?

Note: In the for statement, I'm using i as k in the algorithm.

-
NaN is typically caused by dividing 0 by 0 (see other possible causes here: en.wikipedia.org/wiki/NaN#Creation). You should step through your code in a debugger, or add lots of print statements, in order to isolate the first calculation that results in NaN. –  Oli Charlesworth Mar 15 '12 at 19:11
pi is not exactly 3.0 –  Dan W Mar 15 '12 at 19:12
Ok, thanks @OliCharlesworth –  Toby Mar 15 '12 at 19:14
@DanW: I suspect that's what the OP is setting out to demonstrate (see the function name)... –  Oli Charlesworth Mar 15 '12 at 19:14
@Toby It was intended more to be a joke comment. –  Dan W Mar 15 '12 at 19:17

## Problem:

These lines are likely where the error is happening:

``````summationPi = firstFactorial.intValue()*firstAddition.intValue();
summationPi /= firstExponent.intValue()*secondExponent.intValue();
``````

The reason being that you are calling `intValue()` on a `BigInteger`, which is not guaranteed to return the full value (since an `int` can only hold 32 bits of data. This could also come in to play with storing the result as a `double` instead of a `BigDecimal`).

You then take that possible `NaN` value and use it as the divisor in your division.

## Solution:

``````BigDecimal currentPi = BigDecimal.ONE;

.divide(new BigDecimal(firstExponent.multiply(secondExponent)), new MathContext(10000)));
``````

Notice that I am able to eliminate `summationPi` by combining multiple lines into one. Also, the `MathContext` that comes up in the `divide()` method is set to `10000`, this can be changed to any accuracy you want.

For more information on `BigDecimal`, check the API.

-
Doing that is giving me a lot of errors because firAddition, firstExponent and secondExponent aren't BigDecimals but rather BigIntegers. –  Toby Mar 15 '12 at 20:41
@Toby, I forgot that part, I'll edit it now. –  Jon Mar 15 '12 at 21:41
I get this whenever I run the code (line 53 is your code) Exception in thread "main" java.lang.ArithmeticException: Non-terminating decimal expansion; no exact representable decimal result. at java.math.BigDecimal.divide(BigDecimal.java:1603) at picalculator.PiCalculator.calculatePi(PiCalculator.java:53) at picalculator.PiCalculator.main(PiCalculator.java:24) Java Result: 1 –  Toby Mar 15 '12 at 23:10
@Toby that's a function of `MathContext`. I'll update it again. Sorry about that. –  Jon Mar 15 '12 at 23:59
No problem, thanks so much for the help! –  Toby Mar 17 '12 at 2:43

The cause of this problem is at this line:

summationPi /= firstExponent.intValue()*secondExponent.intValue();

where the value of the secondExponent becomes so large as i increases that if you retrieve its int value using the intValue() method, you will get 0.

-