# Dividing two integers and rounding up the result, without using floating pont

I need to divide two numbers and round it up. Are there any better way to do this?

``````int myValue = (int) ceil( (float)myIntNumber / myOtherInt );
``````

I find an overkill to have to cast two different time. (the extern int cast is just to shut down the warning)

Note I have to cast internally to float otherwise

``````int a = ceil(256/11); //> Should be 24, but it is 23
^example
``````
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I doubt anybody is going to present a solution that is less ugly. What you have is the most legible way to do this. Wait, you aren't actually using literals in your real code are you? If you are, then just make them floating point literals. Otherwise, casting is the way to go. – Benjamin Lindley Jun 9 '13 at 1:13
You should use `double` instead of `float`, unless you're sure that you'll never have numbers larger than 16777216. – celtschk Jun 9 '13 at 1:17
@yes123 don't wanna bother you but what do you mean by elegant, yours is very easy to read but the ones I posted may be more mathy and possibly faster – aaronman Jun 9 '13 at 1:34
@Raymond Chen Both this question and the one you mentioned, the OPs checked an answer than works for `unsigned` only or uses floating point. Your reference also work only for `unsigned`. As non-floating point solutions exists that work for all `int`, further Q & A in warranted. – chux Jun 9 '13 at 13:59
@Damon I was caught on this yesterday too. Example: For n = -7, d = 5, we would like -7/5 = -1.2 round up to -1. But (-7+5-1)/5 = -3/5 which results in 0. As to the "why". For positive numbers, adding the `d-1` compensates the normal division rounding down toward 0. But when `n` is negative (d positive), the normal division rounds up (towards 0) without the compensation and gives the wrong answer with compensation. – chux Jun 9 '13 at 14:54

With help from DyP, came up with the following branchless formula:

``````int idiv_ceil ( int numerator, int denominator )
{
return numerator / denominator
+ (((numerator < 0) ^ (denominator > 0)) && (numerator%denominator));
}
``````

It avoids floating-point conversions and passes a basic suite of unit tests, as shown here:

Here's another version that avoids the modulo operator.

``````int idiv_ceil ( int numerator, int denominator )
{
int truncated = numerator / denominator;
return truncated + (((numerator < 0) ^ (denominator > 0)) &&
(numerator - truncated*denominator));
}
``````

The first one will be faster on processors where IDIV returns both quotient and remainder (and the compiler is smart enough to use that).

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You can leave out 8 parentheses, though you'll get a warning. – dyp Jun 9 '13 at 2:50
@aaronman It discards the fractional part of an integer division, but that's equivalent. – dyp Jun 9 '13 at 3:09
@aaronman The accepted answer is not incorrect. Read the assumptions. – dyp Jun 9 '13 at 3:12
@aaronman: Because this site penalizes people who don't "accept" an answer. So they end up choosing the one that's least bad. – Ben Voigt Jun 9 '13 at 3:25
Are you sure it's branchless? I would expect the `&&` operator to introduce a branch because it requires short-circuit evaluation. – Adrian McCarthy Jun 9 '13 at 14:08

Assuming that both `myIntNumber` and `myOtherInt` are positive, you could do:

``````int myValue = (myIntNumber + myOtherInt - 1) / myOtherInt;
``````
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If you suspect others have a hard time reading it, append a well written comment. – chux Jun 9 '13 at 0:58
What about: `myIntNumber<0? myIntNumber/myOtherInt : (myIntNumber + myOtherInt - 1) / myOtherInt`? – celtschk Jun 9 '13 at 1:12
Other devs should learn to read this expresion if they find it confusing - it's not an uncommon idiom. – Michael Burr Jun 9 '13 at 1:26
@yes123 Just make it a self-explanatory function. `int myValue = divide_and_round_up(myIntNumber, myOtherInt);` (or `div_ceil`) – dyp Jun 9 '13 at 1:29
Nope, doesn't work. ideone.com/90FIjh – Ben Voigt Jun 9 '13 at 2:30

Integer division with round-up.

Only 1 division executed per call, no `%` or `*` or conversion to/from floating point, works for positive and negative `int`. See note (1).

``````n (numerator) = OPs myIntNumber;
d (denominator) = OPs myOtherInt;
``````

The following approach is simple. `int` division rounds toward 0. For negative quotients, this is a round up so nothing special is needed. For positive quotients, add `d-1` to effect a round up, then perform an unsigned division.

Note (1) The usual divide by `0` blows things up and `MININT/-1` fails as expected on 2's compliment machines.

``````int IntDivRoundUp(int n, int d) {
// If n and d are the same sign ...
if ((n < 0) == (d < 0)) {
// If n (and d) are negative ...
if (n < 0) {
n = -n;
d = -d;
}
// Unsigned division rounds down.  Adding d-1 to n effects a round up.
return (((unsigned) n) + ((unsigned) d) - 1)/((unsigned) d);
}
else {
return n/d;
}
}
``````

[Edit: test code removed, see earlier rev as needed]

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Instead of using the ceil function before casting to int, you can add a constant which is very nearly (but not quite) equal to 1 - this way, nearly anything (except a value which is exactly or incredibly close to an actual integer) will be increased by one before it is truncated.

Example:

``````#define EPSILON (0.9999)

int myValue = (int)(((float)myIntNumber)/myOtherInt + EPSILON);
``````

EDIT: after seeing your response to the other post, I want to clarify that this will round up, not away from zero - negative numbers will become less negative, and positive numbers will become more positive.

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that's still 2 typecast – dynamic Jun 9 '13 at 0:57
It's also wrong, it rounds `-3/2` to zero. – Ben Voigt Jun 9 '13 at 2:30

Just use

``````int ceil_of_division = ((dividend-1)/divisor)+1;
``````

For example:

``````for (int i=0;i<20;i++)
std::cout << i << "/8 = " << ((i-1)/8)+1 << std::endl;
``````
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