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I have an application that I want to be able to use large numbers and very precise numbers. For this, I needed a precision interpretation and IntX only works for integers.

Is there a class in .net framework or even third party(preferably free) that would do this?

Is there another way to do this?

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How about Decimal? –  kennytm Jun 3 '10 at 16:07
^ Decimal doesn't have anywhere near the dynamic range of double or float as no exponent. See quad precision float in c# answer below! –  Dr. ABT Mar 28 '13 at 12:35
@Dr.ABT: It does have an exponent... but a much smaller one than double, smaller even than float, even considering the different base. –  Ben Voigt Oct 22 '14 at 1:32

8 Answers 8

up vote 8 down vote accepted

Maybe the Decimal type would work for you?

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Thanks Guys, I was wondering about performance but with the amount of precision I get, this shouldn't be a problem. Can decimal handle large numbers though? –  akshaykarthik Jun 4 '10 at 0:47
According to stackoverflow.com/questions/230105/net-decimal-what-in-sql, Decimal can handle up to 29 digits to the left of the decimal point (and 28 to the right). Is that large enough? –  Tim Pietzcker Jun 4 '10 at 4:55
@Tim Pietzcker link is broken –  sra Jan 7 '12 at 20:07
@sra: Thanks for the heads-up. I've updated the link to an article by Jon Skeet. That one should be more stable :) –  Tim Pietzcker Jan 7 '12 at 21:17
There's another drawback to using Decimal, and that's dynamic range. Decimal.MaxValue is 79,228,162,514,264,337,593,543,950,335, or 7.9E28. It can't be used as a substitute for double calculations with higher precision, since Double has a dynamic range of +/- 1E308 –  Dr. ABT Aug 23 '12 at 12:22

The F# library has some really big number types as well if you're okay with using that...

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Hi Justin, interested to hear more - can we do long-double (80bits or 128bits) in f#? All the decimal types in C# have high bits but no exponent –  Dr. ABT Mar 28 '13 at 12:19

You can use the freely available, arbitrary precision, BigDecimal from java.math, which is part of the J# redistributable package from Microsoft and is a managed .NET library.

Place a reference to vjslib in your project and you can something like this:

using java.math;

public void main() 
    BigDecimal big = new BigDecimal("1234567890123456789011223344556677889900.0000009876543210000987654321");
    big.add(new BigDecimal(1.0));

Will print the following to the debug console:


Note that, as already mentioned, .NET 2010 contains a BigInteger class which, as a matter of fact, was already available in earlier versions, but only as internal class (i.e., you'd need some reflection to get it to work).

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If Decimal doesn't work for you, try implementing (or grabbing code from somewhere) Rational arithmetic using large integers. That will provide the precision you need.

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Got a link for something I could port? –  Dr. ABT Mar 28 '13 at 12:19

Use decimal for this if possible.

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Decimal is a 128-bit (16 byte) value type that is used for highly precise calculations. It is a floating point type that is represented internally as base 10 instead of base 2 (i.e. binary). If you need to be highly precise, you should use Decimal - but the drawback is that Decimal is about 20 times slower than using floats.

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Decimal contains 26 bits of padding zeros, so it's really only 102 bits. –  Ben Voigt Oct 22 '14 at 1:32

I've been searching for a solution for this for a long time, and today came across this library:

Quadruple Precision Double in C#

Signed 128-bit floating point data type library, with 64 effective bits of precision (vs. 53 for Doubles) and a 64 bit exponent (vs. 11 for Doubles). Quads have greater precision and far greater range than Doubles and are especially useful when dealing with very large or very small values, such as those in probabilistic models. As of version 2.0, all Quad arithmetic is checked (underflowing to 0, overflowing to +/- infinity), has special PositiveInfinity, NegativeInfinity, and NaN values, and follows the same rules as .Net Double arithmetic and comparison operators (e.g. 1/0 == PositiveInfinity, 0 * PositiveInfinity == NaN, NaN != NaN), making it a convenient drop-in replacement for Doubles in existing code.

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Decimal is 128 bits if that would work.

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