# The Weird BigInteger.mod Modulus Method

In Java, we know if we want to compare two reference objects, we usually need to use `equals`, but here I am so confused about the output of the following:

``````System.out.println(new BigInteger("0") == BigInteger.ZERO);                     // false
System.out.println(new BigInteger("0").mod(BigInteger.ONE) == BigInteger.ZERO); // true
``````

Why is the second statement true?

• `==` is evil and can sometimes trick you into believing that it works. Just don't pay attention to its output. – Louis Wasserman May 19 '14 at 5:41

Took a while, but following the logical paths of the execution takes us to:

MutableBigInteger#toBigInteger(int sign)

Which has the following statement:

``````BigInteger toBigInteger(int sign) {
if (intLen == 0 || sign == 0)
return BigInteger.ZERO;
return new BigInteger(getMagnitudeArray(), sign);
}
``````

So in this case, the constant `BigInteger.ZERO` is returned, so the statement is true.

Stack trace:

``````BigInteger#mod(BigInteger)
BigInteger#remainder(BigInteger)
BigInteger#remainderKnuth(BigInteger)
MutableBigInteger#toBigInteger(int)
``````

Its a three method implementation :

``````public BigInteger mod(BigInteger m) {
if (m.signum <= 0)
throw new ArithmeticException("BigInteger: modulus not positive");

BigInteger result = this.remainder(m);     // call remainder()
return (result.signum >= 0 ? result : result.add(m));
}

public BigInteger remainder(BigInteger val) {
MutableBigInteger q = new MutableBigInteger(),
a = new MutableBigInteger(this.mag),
b = new MutableBigInteger(val.mag);

return a.divide(b, q).toBigInteger(this.signum); // call toBigInteger()
}

BigInteger toBigInteger(int sign) {
if (intLen == 0 || sign == 0)