# How to convert number to next higher multiple of five?

I am coding a program where a form opens for a certain period of time before closing. I am giving the users to specify the time in seconds. But i'd like this to be in mutliples of five. Or the number gets rounded off to the nearest multiple.

if they enter 1 - 4, then the value is automatically set to 5. If they enter 6 - 10 then the value is automatically set to 10.

max value is 60, min is 0.

what i have, but i am not happy with this logic since it resets it to 10 seconds.

if (Convert.ToInt32(maskedTextBox1.Text) >= 60 || Convert.ToInt32(maskedTextBox1.Text) <= 0)
mySettings.ToastFormTimer = 10000;
else
mySettings.ToastFormTimer = Convert.ToInt32 (maskedTextBox1.Text) * 1000;
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just a side note, if you are doing the conversion to int multiple times I would create a local variable so you only need to perform that operation once. – Jon Mar 7 '10 at 9:13

## 4 Answers

what about this:

int x = int.Parse(maskedTextBox1.Text)/5;
int y = Math.Min(Math.Max(x,1),12)*5; // between [5,60]
// use y as the answer you need
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-1 So bad that I had to downvote, even though I usually try to avoid doing so. – Tronic Mar 7 '10 at 3:12
Guys, why is this bad? x will have the divisor. y will have a value in the range {5, 10, 15,..., 60}. isn't that what the question asked? – morpheus Mar 7 '10 at 3:16
It is a horribly complex way of determining if something is divisible by 5. This is why the modulus operator exists. Not to mention the part about fiddling around with the maskedTextBox1.Text value....that is way too UI specific. – Jedidja Mar 7 '10 at 3:19
I was trying to help the person who asked the question to do what s/he eventually wanted to do. did you read the full question? – morpheus Mar 7 '10 at 3:23
+1 because you solved the problem stated as op. to being down voted by users who could not read the question only the title. – Hogan Mar 7 '10 at 3:41

use the Modulus Operator

if(num % 5 == 0)
{
// the number is a multiple of 5.
}
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OMG the modulus, COMPLETELY FORGOT ABOUT THAT. I knew i knew the answer before asking. Thanks! by the way, know a way to "round" off to the next 5? lol – masfenix Mar 7 '10 at 3:08
If the number isn't a multiple of 5 and you want to go to the next closest multiple, then do: num += (5 - (num % 5)). Actually, instead of testing the number to be a multiple of 5, you can just do that and know that the result will be the value, or the next multiple. – Jeras Mar 7 '10 at 3:14
For your purpose, however, an integer division, followed by a multiplication seems more appropriate, specifically: delayInSeconds = (((int) userInput + 1) / 5 ) * 5 (followed by the filter on 0-60 range. You're not so much interested in the fact that modulo isn't 0 than to "push" the value to the next multiple of 5 whether it needs it or not. – mjv Mar 7 '10 at 3:14
5 * ((num - 1) / 5 + 1)

Should work if c# does integer division.

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You need to first subtract 1 from num, otherwise you'll round up multiples of 5 to the next multiple of 5. I'm guessing this is why someone downvoted you. – outis Mar 7 '10 at 4:03
+1 outis. With that minor error fixed, this is a really simple way to do exactly what the OP asked. – elwyn Feb 2 '11 at 2:59

For the higher goal of rounding to the upper multiple of 5, you don't need to test whether a number is a multiple. Generally speaking, you can round-up or round-to-nearest by adding a constant, then rounding down. To round up, the constant is one less than n. Rounding an integer down to a multiple of n is simple: divide by n and multiply the result by n. Here's a case where rounding error works in your favor.

int ceil_n(int x, int n) {
return ((x+n-1) / n) * n;
}

In dynamic languages that cast the result of integer division to prevent rounding error (which doesn't include C#), you'd need to cast the quotient back to an integer.

Dividing by n can be viewed as a right-shift by 1 place in base n; similarly, multiplying by n is equivalent to a left-shift by 1. This is why the above approach works: it sets the least-significant digit of the number in base n to 0.

2410=445,  2510=505,  2610=515
((445+4 = 535) >>5 1) <<5 1 = 505 = 2510
((505+4 = 545) >>5 1) <<5 1 = 505 = 2510
((515+4 = 605) >>5 1) <<5 1 = 605 = 3010

Another way of zeroing the LSD is to subtract the remainder to set the least significant base n digit to 0, as Jeras does in his comment.

int ceil_n(int x, int n) {
x += n-1;
return x - x%n;
}
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