# How to store a large (10 digits) integer?

Which Java data type would be able to store a big numerical value, like 9999999999?

Your concrete example could be stored in `long` (or `java.lang.Long` if this is necessary).

If at any point you need bigger numbers, you can try `java.math.BigInteger` (if integer), or `java.math.BigDecimal` (if decimal)

• These classes are very slow, and should only be used if you really need a lot of digits. 10 digits can easily be stored in a "long." However, should you need 50 to 5000 digits, these two classes are the best way to do it. – Karl Dec 21 '09 at 8:32
• quite correct.. I instinctively assumed that he has tried the obvious, and didn't succeed. Edited my answer so that it's correct. – Bozho Dec 21 '09 at 8:36

You can store this in a `long`. A `long` can store a value from `-9223372036854775808` to `9223372036854775807`.

• cletus: point taken, have edited. – Ben James Dec 21 '09 at 8:36
• To be clear, at least 18 digits. Same for long and Long. – Teddy Oct 5 '18 at 17:40

In addition to all the other answers I'd like to note that if you want to write that number as a literal in your Java code, you'll need to append a `L` or `l` to tell the compiler that it's a `long` constant:

``````long l1 = 9999999999;  // this won't compile
long l2 = 9999999999L; // this will work
``````

A primitive long or its java.lang.Long wrapper can also store ten digits.

• +1 A long can store 18-19 digits with absolute precision. Unless the OP indicates that they need more than this, a long is a far better choice than BigInteger. – cletus Dec 21 '09 at 8:32
• Long is better than BigInteger upto 18 digits. Thanks for answering! – Saurabh Singh Jul 26 '18 at 16:08

Use BigInt datatype with its implicit operations. The plus point for it is it will not give answers in exponential representation. It will give full length result

Here is an example of addition

``````      BigInteger big1 = new BigInteger("1234567856656567242177779");
BigInteger big2 = new BigInteger("12345565678566567131275737372777569");
System.out.println(bigSum );
``````
• Welcome to Stack Overflow. if you found any same question anywhere then mark that question as a duplicate instead of giving same solution again. or you can give a link of your answer posted earlier before. – Shell Apr 19 '14 at 6:00

you can use long or double.

• A double? If the OP's example of `9999999999` is indicative, then there's no need to introduce floating-point imprecision for an integral number. – Ben James Dec 21 '09 at 8:56
• yup ben your right but was just showing him we can use these things too. It really depends on your business requirement. – akellakarthik Dec 21 '09 at 9:01

You could store by creating an object that hold a string value number to store in an array list. by example: `BigInt objt = new BigInt("999999999999999999999999999999999999999999999999999");`

objt is created by the constructor of BigInt class. Inside the class look like.

``````BigInt{

ArrayList<Integer> myNumber = new ArrayList <Integer>();

public BigInt(){}

public BigInt(String number){ for(int i; i<number.length; i++){ myNumber.add(number.indexOf(i)); } }

}
``````
• This is all completely irrelevant. He didn't ask about arrays or lists or numbers with 52 decimal digits. It doesn't even compile. – user207421 Oct 14 '13 at 5:04

A wrapper class java.lang.Long can store 10 digit easily.

``````   Long phoneNumber = 1234567890;
``````

It can store more than that also.

Documentation:

``````public final class Long extends Number implements Comparable<Long> {
/**
* A constant holding the minimum value a {@code long} can
* have, -2<sup>63</sup>.
*/
@Native public static final long MIN_VALUE = 0x8000000000000000L;

/**
* A constant holding the maximum value a {@code long} can
* have, 2<sup>63</sup>-1.
*/
@Native public static final long MAX_VALUE = 0x7fffffffffffffffL;
}
``````

This means it can store values of range 9,223,372,036,854,775,807 to -9,223,372,036,854,775,808.