# How to calculate numbers upto thousand of digits [closed]

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 StoreyJun 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

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);

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

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

You may use Java BigInteger or any other Big Integer realization

Example:

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

``````
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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
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

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

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