I had this weird experience with problem number 10 on Project Euler (great site by the way). The assignment was to calculate the sum of all the prime numbers below two million.

I used an int for the sum, and my algorith produced an answer, but when i pasted it to verify the answer, it was wrong.

It turned out that the result was too big to fit in an int, but wouldn't this cause an overflow error or something? Instead, it just returned a value far off from the real answer.

When I changed the type to long, everything was hunky dory.

  • 5
    Do you really want every integer operation to check for overflow? Jan 13 '10 at 12:11
  • 6
    Well, it shure would have saved me some time in this particular case ;)
    – erikric
    Jan 13 '10 at 12:18
  • 1
    In this case, yes. The vast majority of operations can't possibly overflow though. It would be interesting if the compiler could prove this and disable checking as a result, but I very much doubt it does.
    – Thorarin
    Jan 13 '10 at 12:34

C# integer operations don’t throw exceptions upon overflow by default. You can achieve that via the project settings, or by making the calculation checked:

int result = checked(largeInt + otherLargeInt);

Now the operation will throw.

The opposite is unchecked, which makes any operation explicitly unchecked. Obviously, this only makes sense when you’ve got checked operations enabled in the project settings.

  • Unless you're in debug mode, where I think int operations are checked by default.
    – Ant
    Jan 13 '10 at 13:52
  • 8
    Nope. I ran in debug mode when this occured.
    – erikric
    Jan 13 '10 at 14:21
  • Oh. I stand corrected. I was sure that my Project Euler projects told me about overflows in debug mode. :/
    – Ant
    Jan 14 '10 at 10:02
  • 8
    "Obviously, this only makes sense when you’ve got checked operations enabled in the project settings." ... or you want to evaluate an unchecked expression in a checked context. You can certainly nest the blocks.
    – mmx
    Jan 15 '10 at 10:02
  • 1
    @NealDavis Inside a checked block or expression, an OverflowException is thrown. If you don’t care about overflows, don’t check for them. Your checksum example would be a typical use-case where you don’t want to check for overflows. This will normally roll around (not go to zero). However, note that C# (and other languages) by default do something cheeky called “integer promotion”. The result of adding two bytes is an integer. If you print that directly, the result may be larger than what can fit inside a byte. You need to reassign it to a byte (or cast it) to truncate it. Jul 2 '19 at 9:42

In C# an OverflowException is not thrown (in VB the exception is thrown per default).

To get the excpetion you have to embed your code in a checked context:

byte value = 241;
        sbyte newValue = (sbyte) value;
        Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", 
            value.GetType().Name, value, 
            newValue.GetType().Name, newValue);
    catch (OverflowException) 
        Console.WriteLine("Exception: {0} > {1}.", value, SByte.MaxValue);

MSDN explains in more detail:

For the arithmetic, casting, or conversion operation to throw an OverflowException, the operation must occur in a checked context. By default, arithmetic operations and overflows in Visual Basic are checked; in C#, they are not. If the operation occurs in an unchecked context, the result is truncated by discarding any high-order bits that do not fit into the destination type.


It's because, by default C# do not throw any exception for integer overflow as well as underflow. There are couple of things you can do here.

Option 1

You have to enable the exception to be thrown by go to Project => properties => Build tab => Advanced => check for arithmetic overflow underflow.(make sure you tick the option)

enter image description here

Make sure you tick the option

Option 2

Use a checked block and throw an overflow exception to handle the situation. A sample code snippet would be

                int y = 1000000000;
                short x = (short)y;
        catch (OverflowException ex)
        catch (Exception ex)

I have already added a comment, but maybe it would be interesting for some of you:

msdn tells us:

Integer arithmetic overflow either throws an OverflowException or discards the most significant bits of the result


Decimal arithmetic overflow always throws an OverflowException.


When integer overflow occurs, what happens depends on the execution context, which can be checked or unchecked. In a checked context, an OverflowException is thrown. In an unchecked context, the most significant bits of the result are discarded and execution continues. Thus, C# gives you the choice of handling or ignoring overflow.

  • 1
    Which makes sense, since decimals are mostly used for either currency or scientific calculations, and you would probably rather have them throw then fail silently.
    – Snellface
    Mar 28 '16 at 11:13

By default, C# does not check for arithmetic overflow on integers. You can change this with the /checked compiler option or by enabling "Check for arithmetic overflow/underflow" in Visual Studio (project properties - Build - Advanced).

You can use checked and unchecked keywords to override the default on a case-by-case basis. If you rely on checking taking place in a piece of code, explicitly enabling it using checked would be a good idea.

int j = checked(i * 2);

    int j = i * 2;
    // Do more stuff

Note that floating point operations never throw an OverflowException, and decimal operations always throw an OverflowException. See also C# operators.


I have a mathematical operation that is truncated without generating error, even if the destination is a large variable:

Int count1 = (1000*10000) x 1024; //an exception is not raised


Even if the target variable is large it is still truncated and throws no exception and I don't understand why count2 is treated as an int32 and not an int64

Int64 count2 = (1000*10000) x 1024;

Note: 10000 is a variable read from a configuration file

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.