# What's a good way to check if a double is an integer in C#? [duplicate]

Possible Duplicate:
How to determine if a decimal/double is an integer?

I have a variable of type double and am wanting to check whether it is an integer.

At the moment I have

``````public bool CheckIfInteger(double number)
{
return number.ToString().Contains(".") == false;
}
``````

Is there a better way?

UPDATE: Sorry I didn't realise the potential for confusion, by integer I meant the mathematical definiton of integer, that is the natural numbers together with the negatives of the non-zero natural numbers.

-

## marked as duplicate by nawfal, DocMax, Ed Heal, John Koerner, TilakJan 13 '13 at 3:24

Your way is risky: what if the machine regional settings has "," as decimal separator? Looks like you can choose from the answers below. :) –  Shadow Wizard Nov 2 '10 at 11:44
The first thing that comes to mind with the current approach you use is that it might not take into account that the decimal separator could be different depending on the current thread culture. If you're going to choose one of the alternatives from the answers below be careful of anything that treats the input number as a string before giving you a result... especially if it does not account for decimal separators other than "." –  Saul Dolgin Nov 2 '10 at 11:50
@Shadow: You case can be workarounded with `CultureInfo.CurrentCulture.NumberFormat.NumberDecimalSeparator`. But what about `((decimal))Int32.MaxValue+1)`? It's a decimal without decimal separator –  abatishchev Nov 2 '10 at 12:06
kinda cool to see all the creative solutions to such a basic problem. cheers. –  tenfour Nov 2 '10 at 12:53
Not to be pedantic, but...A Double will never be an Integer. The value of a Double might very well be integral. I think you mean "if a Double has an integral value" ? –  mickeyf Nov 3 '10 at 15:04

``````return Math.Truncate(number) == number;
``````

As mentioned in the comments, you might need to take account of the fact that a `double` representation of your number might not be an exact integer. In that case you'll need to allow for some margin-of-error:

``````double diff = Math.Abs(Math.Truncate(number) - number);
return (diff < 0.0000001) || (diff > 0.9999999);
``````
-
However, be aware of floating point precision issues: with `double number = 100.0 * (8183.23 - 6695.37)` you would get `false` using this method. –  Dirk Vollmar - 0xA3 Nov 2 '10 at 12:20

If you want to check for an Integer, this will do it:

``````public bool IsInteger(double number)
{
return (number % 1 == 0);
}
``````

If you additionally want to check if the number could be converted into an Int32:

``````public bool IsInt32(double number)
{
return (number % 1 == 0) && number >= Int32.MinValue && number <= Int32.MaxValue;
}
``````
-
this won't work in cases of large double values, value range of double is larger than that of int. TryParse will give you false because of range but your mod will return true. Try it out with double.MaxValue –  BrokenGlass Nov 2 '10 at 11:53
Thanks for the note, updated my answer. –  Tim Schmelter Nov 2 '10 at 12:01
@BrokenGlass, @Tim: The question says "integer", not "int" or "Int32". Tim's original logic was correct in that it matched what the OP attempts in the question, returning true for any integer `double`, otherwise false. (Ideally the OP should clarify whether they mean `Int32` or just integer.) –  LukeH Nov 2 '10 at 12:07
@LukeH: It fails with any integer datatype provided by C# though, even Int64 doesn't provide the same range as double. So you are correct in saying it is a valid integer check, but then what use is that to me practically if I can't store it in any integer variable? –  BrokenGlass Nov 2 '10 at 12:11
@BrokenGlass: Does the OP say that they want to store it in an integer variable? Perhaps they just want to know whether or not it's an integer. That's what the question says. (As I said, ideally the OP should clarify what they really mean.) –  LukeH Nov 2 '10 at 12:15

The pitfall of working with string representations is the locale used and yoou have to take care of rounding issues. 0.999999999 can be considered to be integer 1 in most cases. Here is a small snippet taking into account rounding errors:

``````Math.Abs(number - Math.Round(number)) < EPSILON
``````

where EPSILON is a double value that is small enough for your purpose 0.00001 for example

-
+1 for mentioning epsilon. –  Polyfun Nov 2 '10 at 12:02

Try:

``````public bool CheckIfInteger(double number)
{
return ((double) (int) number == number);
}
``````

Or the prettier:

``````public bool CheckIfInteger(double number)
{
return (Math.Floor(number) == number);
}
``````
-
Why do you cast int back to double again? –  nawfal Jan 13 '13 at 0:07

I'd use TryParse:

``````  double value = 2.0;
int number;
bool result = Int32.TryParse(value.ToString(), out number);
``````
-
``````    public static bool CheckIfInteger(double number)
{
return number - Math.Truncate(number) == 0;
}
``````
-
How about number == Math.Truncate(number)? –  JohannesH Nov 2 '10 at 12:14

I think that a better question is: How can I tell if a double is close enough to an integer to be considered an integer for my purposes? Because otherwise, you are bound to run into ambiguities. So I'd recommend something like this:

``````return Math.Abs(someDouble - Math.Round(someDouble)) < TOLERANCE;
``````
-

I'm liking abatishchev's idea to use CurrentCulture.

``````return number.ToString().Contains(CultureInfo.CurrentCulture.NumberFormat.NumberDecimalSeparator) == false;
``````

Would this not solve the epsilon problem (which I didn't even consider initially)?

-

I use the following string extension method which checks against a RegEx pattern

``````   public static bool IsInteger(this string inputString)
{
Regex regexInteger = new Regex(@"^[-]?\d+\$");
Match m = regexInteger.Match(inputString);
return m.Success;
}
``````
-
this won't work in many cases including overflow, value range of double is larger than that of int. You now have two problems. –  BrokenGlass Nov 2 '10 at 11:50
Fair comment - agreed –  Madeleine Nov 2 '10 at 12:09
Will this also fail when a negative number is not expressed as -1, but as (1)? –  Wonko the Sane Nov 2 '10 at 14:13