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Not that I'll really need it, but is there a really large variable I can use in Java to store huge numbers (up to around forty digits).

long's max-length is 9223372036854775807, which is 19 digits.

I'm trying to create a simple calculator that can handle large numbers, because most nowadays can only hold 10 digits or so, and I want to do calculations with big exponents.

Just wondering.

EDIT

Thanks for the answers. I'll use BigInteger for big integers. For decimals, I'll use float ^e, as @WebDaldo suggested, or BigDecimal, as @kocko suggested.

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5 Answers 5

up vote 12 down vote accepted

You can use BigInteger class.

BigInteger bi1 = new BigInteger("637824629384623845238423545642384"); 
BigInteger bi2 = new BigInteger("3039768898793547264523745379249934"); 

BigInteger bigSum = bi1.add(bi2);

BigInteger bigProduct = bi1.multiply(bi2);

System.out.println("Sum : " + bigSum);
System.out.println("Product : " + bigProduct);

Output:

Sum : 3677593528178171109762168924892318

Product : 1938839471287900434078965247064711159607977007048190357000119602656

I should mention BigDecimal, which is excellent for amount calculations compare to double.

BigDecimal bd = new BigDecimal("123234545.4767");
BigDecimal displayVal = bd.setScale(2, RoundingMode.HALF_EVEN);

NumberFormat usdFormat = NumberFormat.getCurrencyInstance(Locale.US);        
System.out.println(usdFormat.format(displayVal.doubleValue()));

Output:

$123,234,545.48

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do you know what the largest value of BigInteger is? –  jlam55555 Aug 26 '13 at 12:48
    
@Jon: Probably somewhere above 2^1000000. Depends on how much memory you have, really. –  cHao Aug 26 '13 at 12:51
    
@Jon It's (2^32)^(2^31-1). –  arshajii Aug 26 '13 at 12:52

You can try using the BigInteger class for operations with really huge integer numbers.

For operations with floating numbers, Java provides the BigDecimal class, which can be useful, as well.

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For calculations with exponents, like you would use in a calculator, you should use BigDecimal. The problem with BigInteger is that it only handles integers (no fractional numbers) and that for really big numbers like 10^100 it stores all the zeros, using a lot of memory, instead of using a format based on scientific notation.

You could alternatively use the floating point number type double, which gives you a large range of values, low memory usage and fast operations. But because of rounding issues and limited precision (around 16 decimal digits), I wouldn't recommend using it unless you really know what you're doing.

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You can use float ^e

so you could have

0.55342663552772737682136182736127836782163 * 10^e

Calculators are mostly use that, too.

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1  
A java float isn't arbitrary precision... –  Anders R. Bystrup Aug 26 '13 at 12:51
1  
A float has only about 8 decimal digits of precision. You probably should avoid using it. –  Joni Aug 26 '13 at 12:55
1  
(docs.oracle.com/javase/specs/jls/se7/html/jls-4.html#jls-4.2.3) The floating-point types are float and double, which are conceptually associated with the single-precision 32-bit and double-precision 64-bit format IEEE 754 values and operations as specified in IEEE Standard for Binary Floating-Point Arithmetic, ANSI/IEEE Standard 754-1985 (IEEE, New York). –  WEBALDO.at Aug 26 '13 at 12:58
1  
You do know that 32 bits means that only 23 are used for the mantissa? And that with 23 bits you can only represent numbers with 7-8 digits, right? –  Joni Aug 26 '13 at 13:28

This is for all bigger numbers above 15 since using int blows it. You may want to find the factorial of 50 or 100 0r 500.

// Recursive version of the Fat factorial for bigger numbers ex: Factorial of 500     
BigInteger fatFactorial(int b) {
    if (BigInteger.ONE.equals(BigInteger.valueOf(b))
        || BigInteger.ZERO.equals(BigInteger.valueOf(b))) {
            return BigInteger.ONE;
    } else {
        return BigInteger.valueOf(b).multiply(fatFactorial(b - 1));
        }
    }
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4  
Although the code is appreciated, it should always have an accompanying explanation. This doesn't have to be long but it is expected. –  peterh May 17 at 6:40
    
This is for all bigger numbers above 15 since using int blows it. You may want to find the factorial of 50 or 100 0r 500. This works. –  kamals1986 May 17 at 8:36
    
public class Factorial { BigInteger fatFactorial(int b) { if (BigInteger.ONE.equals(BigInteger.valueOf(b)) || BigInteger.ZERO.equals(BigInteger.valueOf(b))) { return BigInteger.ONE; } else { return BigInteger.valueOf(b).multiply(fatFactorial(b - 1)); } } public static void main(String[] args) { Factorial fac = new Factorial(); System.out.println("Fat Numbers Fact of " + 500 + " = " + fac.fatFactorial(500)); } } –  kamals1986 May 17 at 8:38
    
No, no! Edit it into your answer. The explanation is not for me, it is for the googlers of the future (and for the java beginners). –  peterh May 17 at 8:41
    
No, you don't need to include the whole class, it doesn't make things more clear. Your original code snippet is enough, but give an explanation with that. –  peterh May 17 at 8:42

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