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Ho to do calculation on 32 bit computers with 2GB RAM. When i do long number arithmetic then the programs start to give garbage value. But i want to do calculate numbers upto tens of thousands of digits.Any language is accepted.

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closed as off topic by Dour High Arch, Wouter J, Gilles, Dom, David Storey Jun 19 '13 at 0:28

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Yes, for example in PHP you can use BC Math –  Alvin Wong Jul 21 '12 at 12:55
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9 Answers 9

up vote 6 down vote accepted

Using Java's BigInteger, executes almost instantaneously:

import java.math.BigInteger;
import java.util.Random;

public class Int10k {

    public static final void main(String[] args) {
        BigInteger  a, b, c;
        Random rnd;

        // Here I'll create two random 40,000-bit numbers (that's
        // rather more than 10,000 decimal digits) and add them
        // together. For specific numbers, you can use the
        // BigInteger(String) constructor, which creates a
        // BigInteger based on a String of digits.
        rnd = new Random();
        a = new BigInteger(40000, rnd);
        b = new BigInteger(40000, rnd);
        c = a.add(b);

        System.out.println(a);
        System.out.println("+");
        System.out.println(b);
        System.out.println("=");
        System.out.println(c);
    }
}
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@Esailija: On my system, java Int10k > output has a perceptible duration. If I remove the System.out.println lines it reduces that perceptible duration by about half, putting it very near the tolerance of my ability to perceive it. But I can percieve it... just. :-) Probably just JVM startup time, though, as opposed to the actual code. –  T.J. Crowder Jul 21 '12 at 13:09
    
Yes I just I realised it was the startup time, I removed my comment ;:P –  Esailija Jul 21 '12 at 13:10
    
@Esailija: Yeah, I just created a DoNothing class, it it looks exactly the same. So the actual code above is instantaneous by human standards (on my machine, ~3 GHz). –  T.J. Crowder Jul 21 '12 at 13:11
    
Personally, I rather dislike Java's BigInteger because you can't use the normal arithmetic operators. It's much easier to use Python or .NET IMHO. –  Tim S. Jul 21 '12 at 13:47
    
@TimS.: Yeah, well, Java doesn't have operator overloading (except that which is defined in the JLS -- e.g., the binary + being both an addition operator and a string concatenation operator). –  T.J. Crowder Jul 21 '12 at 13:50
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The library being used here is BC Math. It is included with PHP by default.

$big_int1 = "";
$big_int2 = "";

for( $i = 0; $i < 10000; ++$i ) {
    $big_int1 .= mt_rand(0,9);
    $big_int2 .= mt_rand(0,9);
}//0.019520044326 seconds or 20 milliseconds

echo bcadd( $big_int1, $big_int2 ); //0.00037407875061035 seconds or 374 microseconds

Executes instantly for me. The string concatenation/random number generation is the bottleneck anyway.

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If i want to add 113413 and 27834687 then how would i do in this program because just putting these values in $big_int1 and $big_int2 are giving me thousands of digit –  Ankit Jul 21 '12 at 12:59
    
@AnkitGautam those are very small.. you could just use 27834687 + 113413. Or if you want bcadd( "113413", "27834687" ); –  Esailija Jul 21 '12 at 13:00
    
@AnkitGautam It doesn't have any theoretical limit. With 2GB (2 147 483 648 bytes) ram you can go pretty far, seeing as this only took 150 000 bytes of ram with memory_get_peak_usage(); –  Esailija Jul 21 '12 at 13:20
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You may use Java BigInteger or any other Big Integer realization

Example:

BigInteger left = new Biginteger("1845618948745415218748");
BigInteger right = new BigInteger("1845452132132132123132123123");

out.println(left.add(right));
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Have you used it? –  Ankit Jul 21 '12 at 12:54
    
Yes, I sometimes use it on programming contest –  RiaD Jul 21 '12 at 12:56
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For .NET it's System.Numerics.BigInteger. Also worth noting 10,000 decimal digits is about 33k bits, or around 4kB. This is not going to stress a system with RAM in GB... on a current system it should all sit in L1 cache for maximum speed. –  Richard Jul 21 '12 at 13:04
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Here are some handy links for a variety of languages:

  • Python (built-in)
  • C/C++ - GMP, probably the most efficient general-purpose arbitrary-precision number library
  • .NET 4 (built-in)
  • .NET - GnuMpDotNet - uses GMP, so also very efficient, but with the benefit of being easier to work with due to operator overloading and such
  • Java (built-in)
  • PHP - BC Math
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It's not a language problem, it's a Math problem: http://en.wikipedia.org/wiki/Arbitrary-precision_arithmetic One which is both well known, and for which plenty of programming libraries exist to solve it for you.

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All Common Lisp implementations include arbitrary-length integers. Typically the implementation punts to a C library to handle it, but it is more convenient to work in Lisp.

Take a look, for example, at Clisp, SBCL, or CMUCL (a web search will find home pages for those projects).

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With the question being as abstract as it is, yes, it is possible to implement such a calculator. At some point you may have to rely on disk caching and implementing the operations manually rather than relying on existing classes (e.g. Java's BigInteger), but it is technically doable.

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-1: Why would you need disk caching? (A billion digit number needs less than 400MB: one decimal digit needs 1/(log 2) bits once in binary format. Here need add and subtract of only 10k digits: expect all to fit in L1 cache.) –  Richard Jul 21 '12 at 13:07
    
@CodesInChaos log 10 == 1 because 10^1 == 10. Hence log(10)/log(2) == 1/log(2). –  Richard Jul 21 '12 at 13:17
    
Oh you're using a convention where you use log for the base 10 logarithm. That's not the convention I'm used to, so I misread your post. We either use log as synonym for ln, or with a specific index to indicate the base. –  CodesInChaos Jul 21 '12 at 13:18
    
@CodesInChaos: In computing texts the only convention I know where the base is not explicit: log -> base 10, ln -> natual, lb (rarer) -> binary. –  Richard Jul 21 '12 at 13:24
    
@richard, log2 is for binary in C. –  Shahbaz Jul 23 '12 at 12:42
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Yes, it is possible. This is a public domain c++ library just for that: https://mattmccutchen.net/bigint/

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here is nice algorithm exists, you can use define 2 array [0-9] and according to each result, define a new array:

{0,1,2,3,4,5,6,7,8,9}
{0,1,2,3,4,5,6,7,8,9}
/////

Then you can define an two dimensional array that put + result:

0 1 ....
1 ...

Same for * and / and etc, then you read a string type and create and string output.

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And why would he choose such an inefficient implementation? –  CodesInChaos Jul 21 '12 at 13:09
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