# How to Round Up The Result Of Integer Division

I'm thinking in particular of how to display pagination controls, when using a language such as C# or Java.

If I have x items which I want to display in chunks of y per page, how many pages will be needed?

-
Am I missing something? y/x + 1 works great (provided you know the / operator always rounds down). –  rikkit Aug 7 '12 at 16:03
@rikkit - if y and x are equal, y/x + 1 is one too high. –  Ian Nelson Aug 7 '12 at 19:15

You'll want to do floating point division, and then use the ceiling function, to round up the value to the next integer.

-

Another alternative is to use the mod() function (or '%'). If there is a non-zero remainder then increment the integer result of the division.

-

This should give you what you want. You will definitely want x items divided by y items per page, the problem is when uneven numbers come up, so if there is a partial page we also want to add one page.

``````int x = number_of_items;
int y = items_per_page;

// with out library
int pages = x/y + (x % y > 0 ? 1 : 0)

// with library
int pages = (int)Math.Ceiling((double)x / (double)y);
``````
-
x/y + !!(x % y) avoids the branch for C-like languages. Odds are good, however, your compiler is doing that anyway. –  Rhys Ulerich Jan 26 '10 at 15:57

For C# the solution is to cast the values to a double (as Math.Ceiling takes a double):

``````int nPages = Math.Ceiling((double)nItems / (double)nItemsPerPage);
``````

In java you should do the same with Math.ceil().

-
why is this answer so far down when the op asks for C# explicitly! –  felickz Oct 1 '12 at 20:46
You also need to cast the output to `int` because `Math.Ceiling` returns a `double` or `decimal`, depending on the input types. –  Dan Maguire Oct 17 '12 at 21:28
+1 for an excellent one-liner that works well. –  arthur.e.anderson Jan 3 at 19:17
because it is extremely inefficient –  Zar Shardan Apr 4 at 13:05

Found an elegant solution:

``````int pageCount = (records + recordsPerPage - 1) / recordsPerPage;
``````
-
Excellent, I want to save that in my brain. –  RishiD Aug 17 '10 at 16:57
@RishiD - we call that "memorising" :-) –  Ian Nelson Aug 17 '10 at 21:25
-1 because of the overflow bug pointed out by Brandon DuRette –  finnw May 4 '11 at 9:21
Mr Obvious says: Remember to make sure that recordsPerPage is not zero –  Adam Gent May 19 '11 at 11:41
Good job, I can't believe C# doesn't have integer ceiling. –  gosu kiwi Aug 29 '12 at 18:32

The integer math solution that Ian provided is nice, but suffers from an integer overflow bug. Assuming the variables are all `int`, the solution could be rewritten to use `long` math and avoid the bug:

`int pageCount = (-1L + records + recordsPerPage) / recordsPerPage;`

If `records` is a `long`, the bug remains. The modulus solution does not have the bug.

-
I don't think you are realistically going to hit this bug in the scenario presented. 2^31 records is quite a lot to be having to page through. –  rjmunro Feb 5 '09 at 0:18
@rjmunro, real-world example here –  finnw May 4 '11 at 9:20
@finnw: AFAICS, there isn't a real-world example on that page, just a report of someone else finding the bug in a theoretical scenario. –  rjmunro Nov 29 '11 at 11:44
Yes, I was being pedantic in pointing out the bug. Many bugs can exist in perpetuity without ever causing any problems. A bug of the same form existed in the JDK's implementation of binarySearch for some nine years, before someone reported it (googleresearch.blogspot.com/2006/06/…). I guess the question is, regardless of how unlikely you are to encounter this bug, why not fix it up front? –  Brandon DuRette Nov 29 '11 at 17:59
Also, it should be noted that it's not just the number of elements that are paged that matter, it's also the page size. So, if you're building a library and someone chooses to not page by passing 2^31-1 (Integer.MAX_VALUE) as the page size, then the bug is triggered. –  Brandon DuRette Nov 29 '11 at 18:03
show 1 more comment

Converting to floating point and back seems like a huge waste of time at the CPU level.

Ian Nelson's solution:

``````int pageCount = (records + recordsPerPage - 1) / recordsPerPage;
``````

Can be simplified to:

``````int pageCount = (records - 1) / recordsPerPage + 1;
``````

AFAICS, this doesn't have the overflow bug that Brandon DuRette pointed out, and because it only uses it once, you don't need to store the recordsPerPage specially if it comes from an expensive function to fetch the value from a config file or something.

I.e. this might be inefficient, if config.fetch_value used a database lookup or something:

``````int pageCount = (records + config.fetch_value('records per page') - 1) / config.fetch_value('records per page');
``````

This creates a variable you don't really need, which probably has (minor) memory implications and is just too much typing:

``````int recordsPerPage = config.fetch_value('records per page')
int pageCount = (records + recordsPerPage - 1) / recordsPerPage;
``````

This is all one line, and only fetches the data once:

``````int pageCount = (records - 1) / config.fetch_value('records per page') + 1;
``````
-
+1, the issue of zero records still returning 1 pageCount is actually handy, since I would still want 1 page, showing the placeholder/fake row of "no records match your criteria", helps avoid any "0 page count" issues in whatever pagination control you use. –  Timothy Walters Mar 17 '11 at 2:38
+1 for optimizing. Exactly what I needed. –  Nicholas Apr 25 '11 at 0:18
Be aware that the two solutions do not return the same pageCount for zero records. This simplified version will return 1 pageCount for zero records, whereas the Roland Backhouse version returns 0 pageCount. Fine if that's what you desire, but the two equations are not equivalent when performed by C#/Java stylee integer division. –  Ian Nelson Sep 6 '11 at 7:48

For records == 0, rjmunro's solution gives 1. The correct solution is 0. That said, if you know that records > 0 (and I'm sure we've all assumed recordsPerPage > 0), then rjmunro solution gives correct results and does not have any of the overflow issues.

``````int pageCount = 0;
if (records > 0)
{
pageCount = (((records - 1) / recordsPerPage) + 1);
}
// no else required
``````

All the integer math solutions are going to be more efficient than any of the floating point solutions.

-
This method is unlikely to be a performance bottleneck. And if it is, you should also consider the cost of the branch. –  finnw May 4 '11 at 13:14

Alternative to remove branching in testing for zero:

``````int pageCount = (records + recordsPerPage - 1) / recordsPerPage * (records != 0);
``````

Not sure if this will work in C#, should do in C/C++.

-

A generic method, whose result you can iterate over may be of interest:

``````public static Object[][] chunk(Object[] src, int chunkSize) {

int overflow = src.length%chunkSize;
int numChunks = (src.length/chunkSize) + (overflow>0?1:0);
Object[][] dest = new Object[numChunks][];
for (int i=0; i<numChunks; i++) {
dest[i] = new Object[ (i<numChunks-1 || overflow==0) ? chunkSize : overflow ];
System.arraycopy(src, i*chunkSize, dest[i], 0, dest[i].length);
}
return dest;
}
``````
-
Guava has a similar method (`Lists.partition(List, int)`) and ironically the `size()` method of the resulting `List` (as of `r09`) suffers from the overflow bug mentioned in Brandon DuRette's answer. –  finnw May 4 '11 at 13:21

A variant of Nick Berardi's answer that avoids a branch:

``````int q = records / recordsPerPage, r = records % recordsPerPage;
int pageCount = q - (-r >> (Integer.SIZE - 1));
``````

Note: `(-r >> (Integer.SIZE - 1))` consists of the sign bit of `r`, repeated 32 times (thanks to sign extension of the `>>` operator.) This evaluates to 0 if `r` is zero or negative, -1 if `r` is positive. So subtracting it from `q` has the effect of adding 1 if `records % recordsPerPage > 0`.

-

I had a similar need where I needed to convert Minutes to hours & minutes. What I used was:

``````int hrs = 0; int mins = 0;

float tm = totalmins;

if ( tm > 60 ) ( hrs = (int) (tm / 60);

mins = (int) (tm - (hrs * 60));

System.out.println("Total time in Hours & Minutes = " + hrs + ":" + mins);
``````
-
``````uint64_t integerDivide( const uint64_t& rctNumerator, const uint64_t& rctDenominator )