java.math.MutableBigInteger is only available from inside the package. It inherits from java.lang.Object and there is only one subclass (SignedMutableBigInteger) which is only available from inside the package.

 * A class used to represent multiprecision integers that makes efficient
 * use of allocated space by allowing a number to occupy only part of
 * an array so that the arrays do not have to be reallocated as often.
 * When performing an operation with many iterations the array used to
 * hold a number is only reallocated when necessary and does not have to
 * be the same size as the number it represents. A mutable number allows
 * calculations to occur on the same number without having to create
 * a new number for every step of the calculation as occurs with
 *  BigIntegers.
 * @see BigInteger
 * @version 1.12, 12/19/03
 * @author Michael McCloskey
 * @since 1.3


I'd guess MutableBigInteger is used internally for BigInteger heavy calculations that are slowed down by frequent reallocations. I'm not sure why its not exported as part of java.math. Perhaps some distaste for mutable value classes?

To clarify "mutable":
Standard BigInteger has one value for its entire lifetime, given two BigInteger references "a" & "b", "a+b" will always yield a new BigInteger with the same value. Let's say that value is 4.

With MutableBigInteger, "a+b" could yield 4 initially, yet yield 8, 16, 32, or any other number at some point in the future due to OTHER code changing the values (aka. mutating) of the objects referenced by "a" & "b". Accordingly, most (perhaps all) of the value types (Character, Short, Long, Integer, BigInteger, BigDecimal, Float, Double, even String) in Java are immutable.

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  • Thanks for answering. Maybe the questions should be: "Why it is no public class?". I think the such a class could be very usefull, especially for loop variables. – c0d3x May 21 '09 at 1:41
  • I've expanded my answer a bit accordingly. Basically, its probably not mutable because other value types are also not mutable. Its a convention, really. – Kevin Montrose May 21 '09 at 1:45

The issue with BigInteger is that it's immutable: in other words, once you have a BigInteger object, you can't change the value of the object itself, you can only replace it with a new object.

Now this is normally a fine thing, since it prevents aliasing and so on (you don't want your "2 + 3" somewhere to suddenly turn into "2 + 5" because a user of that "3" somewhere else in your program changed it into a "5"). However, internally the BigInteger uses an array to hold the components of this value. For a large number, this array can be quite large; a BigInteger representing a bazillion might need an array of, oh, a thousand elements, say.

So what happens when I want to add one to this BigInteger? Well, we create a new BigInteger, which in turn will create a new array internal to it of a thousand elements, copy all of the elements of the old BigInteger's internal array to the new BigInteger's internal array, excepting the last one, and put in a new version of that last element incremented by one. (Or it might need to update the last two.) If you then don't need the old value, it frees up that old BigInteger, which frees up the array.

This is obviously pretty inefficient if you are just getting rid of the old values anyway. So if you have operations like this, you can instead use a MutableBigInteger, which can be incremented by simply changing the last element in the internal array of the existing MutableBigInteger. This is far faster! However, it does destroy the old value, which can be problematic, as I pointed out above. If someone gives you the int "3", you can expect that to stay the same. If someone gives you a MutableBigInteger, don't expect it to be the same number later on!

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  • Thanks for answering. You described the way the class works very well. But you missed one thing: The class is not public (declared without or with the default modifier). So it is not availible from outside the package java.math . – c0d3x May 21 '09 at 1:43
  • @c0d3x and Curt, there is certainly nothing wrong with creating an immutable constructor flag in an otherwise immutable class, or vice versa. That would certainly protect your "3". I'm more than a little annoyed frankly that there is no mutable LongLong and similar for the BigInteger variants. I feel that this immutable business is a clumsy bit of pedantry and violates the law of least surprise, both when using it and reading code using it. Seriously, have any of you seen a page of it? It's just gross. – user4229245 Jul 21 '16 at 16:41
  • I've seen tens of thousands of lines of code with almost no immutability at all. It's called Haskell, and it's wonderful. :-) Honestly, making the majority of your data immutable almost always makes for easier programming. However, it is often true that, in systems heavily reliant on mutability throughout the system, trying to introduce immutability can get awkward. That's not really a problem with the concept; it's a problem with it not being applied well. – cjs Jul 22 '16 at 10:37
  • The issue with encapsulation often tends to break down into one of two mindsets when it comes to numbers. 1. Are we abstracting out the storage of immediates, or 2. Are we abstracting out the immediate itself. IMO, having immutable numbers is of very little help, so I tend to default to the first mindset. If we need both the storage of the number and the (immutable) immediate, then there certainly is no problem with the following idiom (not currently valid): BigInteger fiveBI = new BigInteger(5, BigInteger.IMMUTABLE); – user4229245 Jul 22 '16 at 20:40
  • Keep in mind, what are common for the storage of numbers to begin with? We like to increment them. bigI.inc() is not possible. We like to add to them. bigI.add(17) is not possible. (etc.) I really think that there are times when we let the academics run amok when designing libraries. – user4229245 Jul 22 '16 at 20:46

MutableBigInteger is referenced in the java.math library. If you have a JDK installed check out the contents of src.zip in your jdk directory.

You will see BigInteger uses it:

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

    a.divide(b, q, r);
    return new BigInteger(q, this.signum * val.signum);

MutableBigInteger is an encapsulation of the mathematical algorithms used by BigInteger.

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