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What is a good algorithm to determine the necessary fraction needed to add/sub to the number in order to round it to the nearest integer without using the inbuilt ceiling or floor funcitons?

Edit: Looking for a mathematical number trick to figure out the part needed to round the number to the nearest integer. The more primitive the math operations the better. Please avoid using other's procedures. 0.5 can be taken eitherway, whatever suits your method. This is NOT my homework question, nor am I going to use this anywhere.

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Are you able to use others functions from the standard api ? Or do you really want to implement your own algorithm, even though it means re-implement the wheel ? –  yves Baumes May 17 '09 at 19:05
Are you allowed to cast to an int? Or does that count as a built in floor function? –  DeadHead May 17 '09 at 19:05
Sorry no castings. –  unj2 May 17 '09 at 19:07
does that also exclude the nearest integer function nint()? –  TStamper May 17 '09 at 19:08
How would you deal with 0.5, which is equidistant from 0 and 1. Arithmetic rounding always rounds upward, but Banker's rounding takes the nearest even number. –  Eugene Yokota May 17 '09 at 19:27

3 Answers 3

Mod the number with one to get the decimal part, if its >0.5, round up, else round down


Divide the number by 0.5, if its odd, round up, else round down

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Note that some languages only define mod/% on integers. –  Stephan202 May 17 '09 at 19:13
The algorithm is clever if x %1 >= 0.5 print ((x- x%1) + 1) -x else print x%1 end Can you please think of anothersolution without the %? –  unj2 May 17 '09 at 19:17
Any other constraints? will dividing do the trick? –  Simonw May 17 '09 at 19:29
I dont think dividing by 0.5(multiplying by 2) will work. –  unj2 May 17 '09 at 19:30
Why? Without any other info its impossible to answer this question –  Simonw May 17 '09 at 19:34

Once you have the fractional part of the number, the problem is pretty much solved. One way to get the fractional part is to repeatedly subtract powers-of-2 from you number (assuming it has been made positive, if it were negative to begin with).

The function below, getWholeMaker, returns what you want (the "thing" that must be added to round the number). It's running time is O(log(n)), and uses only elementary operations.

/* Returns the factional part of x */
double getFrac(double x) {
    if(x < 0) x = -x;
    if(x < 1) return x;
    else if(x < 2) return x-1;

    /* x >= 0 */
    double t = 2;
    while(t+t <= x) t += t;
    /* t is now the largest power of 2 less than or equal to x */
    while(t >= 1) {
        if(t <= x) x -= t;
        t /= 2;

    return x;

double getWholeMaker(double x) {
    double frac = getFrac(x);
    double sign = x >= 0 ? +1 : -1;
    return sign * (frac <= 0.5 ? -frac : 1-frac);
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Sweet. But this looks like pkaeding's algorithm optimized. Am i correct? –  unj2 May 17 '09 at 20:53
Yes, It's like pkaeding's, but works in logarithmic time (pkaeding's is linear time). –  Ashutosh Mehra May 17 '09 at 21:07

If you can't use mod (because it might only be defined for integers in your language, you might be able to do something like this (in C-ish pseudocode):

// make the input positive:
boolean inputPositive = true;
if (input < 0) {
  input = 0 - input;
  inputPositive = false;

// subtract 1 until you just have the decimal portion:
int integerPart = 0;
while (input > 1) {
  input = input - 1;

int ret;
if (input >= 0.5) { // round up
  ret = integerPart + 1;
} else {
  ret = integerPart;

if (inputPositive) {
  return ret;
} else {
  return 0 - ret;

This solution doesn't use mod or any outside functions. Of course, I can't imagine why you would want this in real life. It is interesting to think about, though.

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Very good answer according to me it follows all the requirements! :-) –  yves Baumes May 17 '09 at 19:40
+1 of course, I forgot to mention .. ;-) –  yves Baumes May 17 '09 at 19:43
+1. You could improve on this by subtracting ever smaller powers of two, so that this procedure will also terminate within reasonable time for large inputs. –  Stephan202 May 17 '09 at 19:45
This is very interesting. I like the part where you check if the number is positive. I hadnt thought about that. I had hoped somebody would come with math tricks and even though subtracting one is quite tedious, i think this solution works. Thanks. –  unj2 May 17 '09 at 19:48

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