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I want to make

BigInteger.ModPow(1/BigInteger, 2,5);

but 1/BigInteger always return 0, which causes, that the result is 0 too. I tried to look for some BigDecimal class for c# but I have found nothing. Is there any way how to count this even if there is no BigDecimal?

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Use something else instead of Integer. How about double? –  Vlad Spreys Jan 6 '13 at 11:08
Double is too short for division by BigInteger –  Martin Ševic Jan 6 '13 at 11:08
How possible 1/BigInteger returns 0 ?. BigInters default value is 0. It should thrown DivideByZeroException. –  Soner Gönül Jan 6 '13 at 11:18
From the little I know of El Gamal, I don't think the literal multiplicative inverse is what you're looking for. –  Rawling Jan 6 '13 at 11:23
@MartinŠevic Depends on what you want. Suppose your denominator is a BigInteger with less than 300 decimal figures, then the division of 1 by the corresponding double works OK. Precision is lost, but magnitude is OK. But with e.g. 400 decimal figures, double will over-/underflow to infinity or zero. –  Jeppe Stig Nielsen Jan 6 '13 at 11:50

3 Answers 3

1/a is 0 for |a|>1, since BigIntegers use integer division where the fractional part of a division is ignored. I'm not sure what result you're expecting for this.

I assume you want to modular multiplicative inverse of a modulo m, and not a fractional number. This inverse exists iff a and m are co-prime, i.e. gcd(a, m) = 1.

The linked wikipedia page lists the two standard algorithms for calculating the modular multiplicative inverse:

  • Extended Euclidean algorithm, which works for arbitrary moduli
    It's fast, but has input dependent runtime.

    I don't have C# code at hand, but porting the pseudo code from wikipedia should be straight forward.

  • Using Euler's theorem:
    $i^{-1} = i^{φ(n)-1}$
    This requires knowledge of φ(m) i.e. you need to know the prime factors of m. It's a popular choice when m is a prime and thus φ(m) = m-1 when it simply becomes $a^{-1} = a^{p-2}$. If you need constant runtime and you know φ(m), this is the way to go.

    In C# this becomes BigInteger.ModPow(a, phiOfM-1, m)

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You could be right. Note that i and n must be relatively prime for this to be well-defined. –  Jeppe Stig Nielsen Jan 6 '13 at 12:01

The overload of the / operator chosen, is the following:

public static BigInteger operator /(
        BigInteger dividend,
        BigInteger divisor

See BigInteger.Division Operator. If the result is between 0 and 1 (which is likely when dividend is 1 as in your case), because the return value is an integer, 0 is returned, as you see.

What are you trying to do with the ModPow method? Do you realize that 2,5 are two arguments, two and five, not "two-point-five"? Is your intention "take square modulo 5"?

If you want floating-point division, you can use:

1.0 / (double)yourBigInt

Note the cast to double. This may lose precision and even "underflow" to zero if yourBigInt is too huge.

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Try following

 BigInteger.ModPow(BigInteger.Divide(1, <BigInteger>), 2,5);

Ideas is to use BigInteger.Divide instead of 1/BigInteger

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Doesn't work. Return 0 –  Martin Ševic Jan 6 '13 at 11:15
How are you using return value. It must be used like BigInteger (not as int/double or any other type) –  Tilak Jan 6 '13 at 11:15
Trying to write ElGamal cryptographic system. I have Encrypt already working but for decrypt i need to make inverse of BigInteger and that's the problem –  Martin Ševic Jan 6 '13 at 11:17
@Tilak (and upvoters!), it's still integer division so 1 divided by anything greater than 1 will be 0. –  Rawling Jan 6 '13 at 11:17
@Rawling, You are right. _Martin, Have you looked at BigRational library yet? –  Tilak Jan 6 '13 at 11:21

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