# Long variable in C#, why does it return a negative value when it crosses the limits

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

``````checked
{
}
``````

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
True
``````

``````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);
}
}
``````
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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:

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:

`````` 1101
+0101
-----
10010
``````

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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