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I made an application to resolve the factorial and when I type a number longer than than 20 digits for a long variable , it returns a negative number. I want to know why a long variable in C# returns a negative value when it crosses the limit? Is it supposed to be like this?

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Please show calculation. – Michael Sallmen Oct 2 '12 at 18:51
So you just assumed that variables can be infinitely large? – Servy Oct 2 '12 at 18:54
Watch the bits. What other outcome would you expect? – Austin Henley Oct 2 '12 at 18:54
Why are you voting this guy down? Its basic and the english is poor, but the question is valid – Marius Oct 2 '12 at 19:30
The question is not valid, if he had searched he would have found tons of resources. – Austin Henley Oct 2 '12 at 19:57

This is quite normal behaviour, called overflow.

As a first step, turn it into an error with

    // your calculations

And this book has a thorough explanation with all the bits and bytes.

This might be of some help figuring it out:

static void Main2(string[] args)
    short s = 0;
    Console.WriteLine("Dec: {0,6} Hex {0:X4}", s);
    s -= 1;
    Console.WriteLine("Dec: {0,6} Hex {0:X4}", s);

    s = short.MaxValue;
    Console.WriteLine("Dec: {0,6} Hex {0:X4}", s);
    s += 1;
    Console.WriteLine("Dec: {0,6} Hex {0:X4}", s);
    Console.WriteLine(s == short.MinValue);    // is MaxValue+1 == MinValue ?

It prints

Dec:      0 Hex 0000
Dec:     -1 Hex FFFF
Dec:  32767 Hex 7FFF
Dec: -32768 Hex 8000

Reading Hex char as bits:

0 = 0000
1 = 0001
7 = 0111
8 = 1000
F = 1111

You can see that the most significant (left-most) bit is used as the +/- sign.

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oooo here i go thanks – Juan O.S. Oct 2 '12 at 20:11

Everyone has already mentioned why it turns negative, so I'll just tell you how you can change your factorial function. Use BigInteger (assuming you are using .NET 4.0).

static BigInteger Factorial(BigInteger bigInt) {
    if (bigInt == 0) {
        return 0;
    else if (bigInt == 1) {
        return 1;
    else {
        return bigInt * Factorial(bigInt - 1);
share|improve this answer

Per the docs:

Holds signed 64-bit (8-byte) integers ranging in value from -9,223,372,036,854,775,808 through 9,223,372,036,854,775,807 (9.2...E+18).

20! = 2.432902e+18
21! = 5.1090942e+19

As you can see, 21! is well over hte max on long.

Some better links for C# data types:

Integral Types Floating-Point Types

If you're planning on computing factorials over 20!, you'll need to step up to a Floating-Point type.

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Yes, 21! is great than the long limit, but 20! is not. Thus it is overflowing.

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The long data type has an MSDN reference. Basically what you are telling us is not the entire story. This upper long limit is 9.223372037x10^18 and the factorial of 20 is 2.432902008x10^18 less than the upper limit for long.

I would post some code up so we can look at what actually is happening.

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If you don't want that kind of overflow, consider using BigInteger. To use it, your C# project needs to include a reference to the .NET assembly System.Numerics.dll. And your code file should include

using System.Numerics;

in the top.

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It is called arithmetic overflow.

A 4-bit example:


As you can see, the correct answer would require 5-bits but how do we store this in 4-bits?! We can't correctly, overflow must occur.

To answer your direct question, your value becomes negative because it is signed so when it overflows it wraps around to the lower bound.

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All of the numeric types in c# support a max function so Long.MaxValue will tell you the limit. As for why it goes negative that has to do with setting the high order bit of a two's complement encoded number

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