Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm new to Java and just code a program with BigInteger.

public static void main(String[] args) {
  BigInteger n = new BigInteger("5");
  BigInteger i = new BigInteger("2");
  while (lesserOrEqual(i,n) {
    System.out.println("n.mod(i) = "+n.mod(i));
    if (n.mod(i) == ZERO) {
      n = n.divide(i);
    else {
  System.out.println("n = "+n);
  System.out.println("i = "+i);

public static boolean lesserOrEqual(BigInteger m, BigInteger n) `{
  if (m.compareTo(n) == -1 || m.compareTo(n) == 0)
    return true;
  return false;

ZERO and ONE are defined of the type BigInteger 0, 1, respectively.

I want "i=2" to divide "n=5", if "n mod i == 0", else "i++", until "n" to be lesser or equal to "i".

I think the output must be

n.mod(i) = 1
n = 5
i = 3
n.mod(i) = 2
n = 5
i = 4
n.mod(i) = 1
n = 5
i = 5
n.mod(i) = 0
n = 1
i = 5

and with the equivalent code with primitive type int, I have the result as expected.

but this with BigInteger goes to infinite loop

n.mod(i) = 1
n = 5
i = 2

Does anyone know why it is so?

share|improve this question
up vote 10 down vote accepted

The BigInteger class represents integers as immutable objects.

There are two points here.

  1. Don't use == to test if two BigIntegers are equal
  2. To change the value of a BigInteger variable you must do i = i.add(ONE); and not just i.add(ONE);.

The reason not to use == to compare BigIntegers is because instead of checking for numerical equality you are checking that they are the same object in memory.

Consider with Strings.

String a = "a";
String b = "b";

String x = a + b;
String y = "ab";

In the above example x.equals(y) is true because they contain the same number of characters in exactly the same order. However, x == y is not true because they are different objects in memory.

The reason you need to to assign the result of arithmetic operations to a variable is because BigInteger is immutable. Thus arithmetic operations cannot change the value of the object it is operating on, but it can create a new BigInteger (which it returns). Which is why you must assign the result of the arithmetic operation to the variable you want it saved in.

As an aside a shortcut for your lesserThanOrEqual to is this.

boolean result = m.compareTo(n) <= 0;


  • m == n becomes m.compareTo(n) == 0
  • m != n becomes m.compareTo(n) != 0
  • m < n becomes m.compareTo(n) < 0
  • m > n becomes m.compareTo(n) > 0
  • m <= n becomes m.compareTo(n) <= 0
  • m >= n becomes m.compareTo(n) >= 0
share|improve this answer
Thkan you for the detailed explain! – user1124390 Jan 19 '12 at 15:28

both of the above answers are right. They are not telling you, however, that BigInteger instances are immutable. That means they don't change once set. That is why you need to always assign the result of a transformation...

share|improve this answer

You are doing this:


But you should do this:

i = i.add(ONE);
share|improve this answer

You're not saving the result that gets returned from i.add(ONE). It's giving you a BigInteger object containing the desired value, but you're dropping it on the floor instead of assigning it to i.

share|improve this answer

i.add(ONE) has to be reassigned: i = i.add(ONE)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.