# C - Rounding integer division (instead of truncating)

I was curious to know how I can round a number to the nearest tenth whole number. For instance, if I had:

``````int a = 59 / 4;
``````

which would be 14.75 calculated in floating point; how can I store the number as 15 in "a"?

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Please clarify: The nearest tenth (14.8) or the nearest whole number (15) ? –  Carl Smotricz Mar 11 '10 at 5:21
@Carl: since a is an int, it has to be rounded to the nearest whole number, doesn't it? –  Jonathan Leffler Mar 11 '10 at 5:33
sorry nearest whole number –  Dave Mar 11 '10 at 5:34
@Jonathan: Looks that way, but then why say "to the nearest tenth" in the problem statement? Either the statement is incorrect or there's something the OP wants to do that he's not clearly specifying. That's the idea behind asking for clarification. –  Carl Smotricz Mar 11 '10 at 5:45
@Carl: hmm, yes, good point! I am not sure why he is asking about tenths when storing the result in an integer. –  Jonathan Leffler Mar 11 '10 at 5:47

``````int a = 59.0f / 4.0f + 0.5f;
``````

This only works when assigning to an int as it discards anything after the '.'

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Thanks this solution worked perfectly for me! –  Dave Mar 11 '10 at 5:33
Note that this is FLOATING pointer solution. I recommend that you use integer operation for many reasons. –  Yousf Mar 11 '10 at 11:32
Because on systems without a FPU, this makes really, really, bad code. –  Michael Dorgan Nov 18 '11 at 23:55
that's the problem. the OP's question is solvable without using any floating point at all, and so will not be dependent on FPU support being present or being good. also, faster (in the event that lots of these need to be calculated) on most architectures, including those with otherwise fantastic FPU support. also note that your solution could be problematic for larger numbers where floats cannot accurately represent the integer values given. –  Sean Middleditch Mar 21 '12 at 10:17
-1, this gives the wrong answer for many values when sizeof(int) >= sizeof(float). For example, a 32-bit float uses some bits to represent the exponent, and thus it cannot exactly represent every 32-bit int. So 12584491 / 3 = 4194830.333..., which should round down to 4194830, but, on my machine which cannot represent 12584491 exactly in a float, the above formula rounds up to 4194831, which is wrong. Using double is safer. –  Adrian McCarthy Jun 9 at 17:16
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The standard idiom for integer rounding up is:

``````int a = (59 + (4 - 1)) / 4;
``````

You add the divisor minus one to the dividend.

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What if you want to perform a mathematical round (14.75 to 15, 14.25 to 14)? –  Chris Lutz Mar 11 '10 at 5:24
Ugh...then you have to think...add (n - 1) / 2, more or less. For n == 4, you want x % n ∈ { 0, 1 } to round down, and x % n ∈ { 2, 3 } to round up. So, you need to add 2, which is n / 2. For n == 5, you want x % n ∈ { 0, 1, 2 } to round down, and x % n ∈ { 3, 4 } to round up, so you need to add 2 again...hence: `int i = (x + (n / 2)) / n;`? –  Jonathan Leffler Mar 11 '10 at 5:32
What about negative `x` and/or `n`? –  caf Oct 5 '11 at 5:43
This method works for positive `int`. But if the divisor or dividend is negative it produces an incorrect answer. The hint to @caf does not work either. –  chux Jun 9 at 14:06
The (original) title and the question asked for two different things. The title said rounding up (which is what you've answered), but the body says round to nearest (which is what the accepted answer attempts). –  Adrian McCarthy Jun 9 at 17:29
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The above answer is technically correct but will overflow prematurely. You should instead use something like this:

``````int a = (59 - 1)/ 4 + 1;
``````

I assume that you are really trying to do something more general:

``````int divide(x, y)
{
int a = (x -1)/y +1;

return a;
}
``````

x + (y-1) has the potential to overflow giving the incorrect result; whereas, x - 1 will only underflow if x = min_int...

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61.0 / 30.0 = 2.03333(3). So round up should be 2, but (61-1)/30+1=3 –  nad2000 Sep 19 '12 at 4:33
@nad2000 why would 2.0333.. rounded up be 2? –  Gurgeh Nov 6 '12 at 17:20
This does not work if x = 0. The intended result of x/y rounding up if x = 0 is 0. Yet this solution yields a result of 1. The other solution comes up with the correct answer. –  David Mar 16 at 3:20
Actually, this answer is not correct at all. It works for a few numbers but fails on quite a few. See my better (I hope) answer later on in the thread. –  WayneJ Oct 11 at 21:05

As written, you're performing integer arithmetic, which automatically just truncates any decimal results. To perform floating point arithmetic, either change the constants to be floating point values:

``````int a = round(59.0 / 4);
``````

Or cast them to a `float` or other floating point type:

``````int a = round((float)59 / 4);
``````

Either way, you need to do the final rounding with the `round()` function in the `math.h` header, so be sure to `#include <math.h>`.

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A typical `float` (IEEE) limits the useful range of this solution to abs(a/b) < 16,777,216. –  chux Aug 20 at 13:07
``````#define CEIL(a, b) (((a) / (b)) + (((a) % (b)) > 0 ? 1 : 0))
``````

Another useful MACROS (MUST HAVE):

``````#define MIN(a, b)  (((a) < (b)) ? (a) : (b))
#define MAX(a, b)  (((a) > (b)) ? (a) : (b))
#define ABS(a)     (((a) < 0) ? -(a) : (a))
``````
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Your parentheses are making me dizzy. –  Andrew Feb 19 at 0:37
Sure, it looks like a bad case of LISP, but omitting the parentheses around each argument and then evaluating ABS(4 & -1) is worse. –  Justin Jul 12 at 20:38
``````int divide(x,y){
int quotient = x/y;
int remainder = x%y;
if(remainder==0)
return quotient;
int tempY = divide(y,2);
if(remainder>=tempY)
quotient++;
return quotient;
}
``````

eg 59/4 Quotient = 14, tempY = 2, remainder = 3, remainder >= tempY hence quotient = 15;

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PS. "thus" and "ergo" sound even loftier than "hence". –  luser droog Aug 7 '11 at 8:41
This does not work correctly for negative numbers - consider `divide(-59, 4)`. –  caf Oct 5 '11 at 5:42

A code that works for any sign in dividend and divisor.

``````int divRoundClosest(const int n, const int d)
{
return ((n < 0) ^ (d < 0)) ? ((n - d/2)/d) : ((n + d/2)/d);
}
``````

The linux kernel macro DIV_ROUND_CLOSEST doesn't work for negative divisors!

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Aside from `int` values near min/max int, this is the best solution so far. –  chux Aug 20 at 13:12

From Linux kernel (GPLv2):

``````/*
* Divide positive or negative dividend by positive divisor and round
* to closest integer. Result is undefined for negative divisors and
* for negative dividends if the divisor variable type is unsigned.
*/
#define DIV_ROUND_CLOSEST(x, divisor)(          \
{                           \
typeof(x) __x = x;              \
typeof(divisor) __d = divisor;          \
(((typeof(x))-1) > 0 ||             \
((typeof(divisor))-1) > 0 || (__x) > 0) ?  \
(((__x) + ((__d) / 2)) / (__d)) :   \
(((__x) - ((__d) / 2)) / (__d));    \
}                           \
)
``````
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Is `typeof()` part of C or a compiler specific extension? –  chux Aug 20 at 13:02
@chux: It's a GCC extension. It's not a part of standard C. –  Cornstalks Sep 2 at 20:58

I believe this works even with large (positive) integers:

``````#define DIVIDE_WITH_ROUND(N, D)\
(((N) == 0) ? 0:((((N) - (((D)/2) + (D & 1)))/(D)) + 1))
``````

Note that for even integers you subtract denominator/2 before doing the division and adding the missing one back in. For odd integers this ends up rounding too early so you need to subtract (denominator/2 + 1). This macro just adds the lsb of the denominator to take care of difference in the odd vs even case.

for Negative integers, I think this should work

``````#define DIVIDE_WITH_ROUND(N, D)\
(((N) == 0) ? 0:((((N) + (((D)/2) + (D & 1)))/(D)) - 1))
``````

combining the 2 into a single macro is left as an exercise to the reader ;-)

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