Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm having a bit of trying to figure if the variables used when creating an object persist in Java.

Specifically I'm looking at BigInteger. If I'm reading the code correctly it looks like instead of doing addition etc. on a bit by bit basis the number is broken up into 32bit words which allows for faster operation. What I have not been able to figure out is whether this 32bit word representation and other variables (mag[], signum etc.) have to be created everytime a method is used on a BigInteger or if it somehow they persists in cache and remain associated with their particular BigInteger once it has been created.

share|improve this question
Those are just fields that are kept in memory when any instance of BigInteger is created, there is no cache or magic. – Marcelo Aug 9 '13 at 20:24
up vote 2 down vote accepted

I guess you're looking at this code:

 1054    public BigInteger add(BigInteger val) {
 1055         int[] resultMag;
 1056         if (val.signum == 0)
 1057             return this;
 1058         if (signum == 0)
 1059             return val;
 1060         if (val.signum == signum)
 1061             return new BigInteger(add(mag, val.mag), signum);
 1063         int cmp = intArrayCmp(mag, val.mag);
 1064         if (cmp==0)
 1065             return ZERO;
 1066         resultMag = (cmp>0 ? subtract(mag, val.mag)
 1067                            : subtract(val.mag, mag));
 1068         resultMag = trustedStripLeadingZeroInts(resultMag);
 1070         return new BigInteger(resultMag, cmp*signum);
 1071     }

The mag and signum that you refer to are fields in each instance of BigInteger. They are not calculated on demand, they are part of the implementation of BigInteger. Their very method of access (not a function invocation) indicates it's merely accessing a storage location.

share|improve this answer
It's code like that I@m talking about yes. I understand now those are the fields that make up the BigInteger and are created as the BigInteger is created or when first needed and persist. What I still don't get is if those fields were instead public how would they be addressed so I could access them. Ideally I'd like to be able to use the private mutableBigInteger and those fields for other methods so I'm wondering if I cut and pasted the entire code and edited to make fields public how could I address them. Probably saying this badly but hope you get the idea. – Rhuaidhri Tynan Aug 9 '13 at 20:47
@Rhuaidhri Tynan: Don't make fields like that public (or, take a time machine back to the 1970s if you're going to do that). You can no longer protect the invariants of your class from abuse. And, you'd have to press me very hard to be convinced that making a mutable BigInteger class exposed to the world is a good idea. 6 isn't mutable, and neither should be 2^57,885,161 - 1. – jason Aug 9 '13 at 20:51
I'm new to OO reading the java tutorials. The one place where mutable BigInts make sense to me is with the bitwise like methods. It seems silly to me to have to perform a N bit operation when I just want to change one bit. I've come up with some maths that makes some large int operations simpler and instead of having to create my own version of BigInt I'm trying to figure out how I can combine my methods with the existing code base. – Rhuaidhri Tynan Aug 9 '13 at 21:00
@Rhuaidhri Tynan: No, it's not silly at all. Numbers are defined by their value not by their identity, therefore they should be immutable. 6 is 6, and you can't mutate that. – jason Aug 10 '13 at 3:05
@Rhuaidhri Tynan: I am not missing the point. I understand perfectly well what you're trying to do. And I think it's a bad idea. If x is a storage location holding Integer, it can hold any value. But it obtains different values not through mutation. – jason Aug 11 '13 at 14:45

Those are just normal object fields -- they're how that object is stored. They're not "created everytime a method is used on a BigInteger" -- what would they be created from? A BigInteger is implemented as that set of fields; there's no other magical implementation they're extrapolated from.

share|improve this answer
Thats what was confusing me, the BigInteger itself acts as if BigIntegers were represented in two's-complement notation so it looks like it's just an array so I wasn't sure if it consisted of just a two's-complement representation in an array or all those fields. The bit that I still don't get is how that is stored in memory, if the code was changed to make those fields public how would they be addressed. I'm having trouble understanding the java tutorials on this whole area. – Rhuaidhri Tynan Aug 9 '13 at 20:35

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.