# Can Math.Round in C# be used for whole integer values?

I have integer 363 for example.

Any method to make it 360 or 365?

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do you want it 360 or 365? (rounded up or down) –  The Scrum Meister Dec 21 '10 at 3:34
either way is fine. –  william Dec 21 '10 at 3:35
your_num % 5 == 0 ? your_num : your_num + (your_num % 5) –  Pratik Dec 21 '10 at 5:33

There's nothing built-in, you're just going to have to code the logic yourself. Here's one such method. (Going down is clearer, but going up is manageable.)

``````int number = 363;
int roundedDown = number - number % 5;
int roundedUp = number + (number % 5 > 0 ? (5 - number % 5) : 0);
``````

Edit for negative numbers, the logic almost gets reversed.

``````static int RoundUpToFive(int number)
{
if (number >= 0)
return number + (number % 5 > 0 ? (5 - number % 5) : 0);
else
return number - (number % 5);
}

static int RoundDownToFive(int number)
{
if (number >= 0)
return number - number % 5;
else
return number + (number % 5 < 0 ? (-5 - number % 5) : 0);
}
``````
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@Ani, didn't check for negatives. Will muddy the water a bit. –  user414076 Dec 21 '10 at 4:03
+1 Nice, dodges going into floating-point land completely. –  Ani Dec 21 '10 at 4:23

This is a hack, but it works:

``````var rounded = Math.Round(363 / 5f) * 5;
``````
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I m sry. But I simply dun know wht is 5f? –  william Dec 21 '10 at 3:31
It specifies 5 as a float value. It has the same meaning as `(float)5`. You have to divide using a floating-point value, or the result will be truncated as an integer, and will subsequently always round down. –  cdhowie Dec 21 '10 at 3:32
Note that this will evaluate to a `double` when the OP was (probably) looking for an `int`. –  John Rasch Dec 21 '10 at 3:40
Throwing this in an extension method would be kick ass. Then you just round out the integer. ` var i = 363 ` then ` i.rounded() ` to get what you need. –  Chase Florell Dec 21 '10 at 3:40
@John: No reason it can't be casted to `int`. –  cdhowie Dec 21 '10 at 3:42
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Here's what I usually do, which is a combination of the two ideas:

``````static int RoundDown(int x, int n) {
return x / n * n;
}

static int Round(int x, int n) {
return (x + n / 2) / n * n;
}

static int RoundUp(int x, int n) {
return (x + n - 1) / n * n;
}
``````

(That assumes positive numbers; Extending it to negatives is straight-forward.)

According to LLVM, the Round function can also be written like this:

``````int Round(int x, int n) {
int z = (x + n / 2);
return z - (z % n);
}
``````

Which you may find more elegant.

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