# Ceil function: how can we implement it ourselves?

I know that C++ provides us with a ceil function. For practice, I was wondering how can we implement the ceil function in C++. The signature of the method is public static int ceil(float num)

I thought of a simple way: Convert num to a string, find the index of the decimal point, check if the decimal part is greater than 0. If yes, return num+1 else return num. But I want to avoid using the string conversion

-
The signature of `std::ceil()` is not `public static int ceil(float)`. Beware of Java or C# references that might look like C++ at a quick glance. Always make sure the reference you consult is for C++. –  André Caron Dec 4 '11 at 18:34

Here is a naive implementation for positive numbers (this uses the fact that casting to `(int)` truncates toward zero):

``````int ceil(float num) {
int inum = (int)num;
if (num == (float)inum) {
return inum;
}
return inum + 1;
}
``````

It is easy to extend this to work with negative numbers too.

Your question asked for a function returning `int`, but normally the `ceil()` function returns the same type as its argument so there are no problems with the range (that is, `float ceil(float num)`). For example, the above function will fail if `num` is 1e20.

-
Given that most integers cannot be represented exactly in popular `float` implementations, I doubt this is a reliable way to implement `ceil()`. –  André Caron Dec 4 '11 at 18:37
@AndréCaron: That's true, but it shouldn't be a problem for this particular implementation, since the input to the function is not an integer. –  Greg Hewgill Dec 4 '11 at 18:42

You can take apart the ingredients of an IEEE754 floating point number and implement the logic yourself:

``````#include <cstring>

float my_ceil(float f)
{
unsigned input;
memcpy(&input, &f, 4);
int exponent = ((input >> 23) & 255) - 127;
if (exponent < 0) return (f > 0);
// small numbers get rounded to 0 or 1, depending on their sign

int fractional_bits = 23 - exponent;
if (fractional_bits <= 0) return f;
// numbers without fractional bits are mapped to themselves

unsigned integral_mask = 0xffffffff << fractional_bits;
unsigned output = input & integral_mask;
// round the number down by masking out the fractional bits

memcpy(&f, &output, 4);
if (f > 0 && output != input) ++f;
// positive numbers need to be rounded up, not down

return f;
}
``````

(Insert the usual "not portable" disclaimer here.)

-
You could use `frexp` and `ldexp` to do the extraction and recombination. –  Oli Charlesworth Dec 4 '11 at 19:42
@OliCharlesworth: `frexp` returns a float, not an int. How would you propose to mask out the fractional bits then? –  FredOverflow Dec 4 '11 at 19:46

That is essentially what you have to do, but without converting to `string`.

A floating-point number is represented as `(+/-) M * 2^E`. The exponent, `E`, tells you how far away you are from the binary point*. If `E` is big enough, there is no fractional part, so there's nothing to do. If `E` is small enough, there is no integer part, so the answer is 1 (assuming `M` is non-zero, and the number is positive). Otherwise, `E` tells you where the binary point appears within your mantissa, which you can use to do a check, and then perform rounding.

* Not decimal point, because we're in base-2, not base-10.

-
@Charlesworth:yes, I know this fact. I am more concerned with how can i exploit this to determine the decimal part? –  TimeToCodeTheRoad Dec 4 '11 at 18:10
@Time: You can use the `frexp()` function to extract `M` and `E`. You can then use `E` to identify how many digits in `M` are above the binary point, and how many are below. –  Oli Charlesworth Dec 4 '11 at 18:15

Something like this:

``````  double param, fractpart, intpart;

param = 3.14159265;
fractpart = modf (param , &intpart);

int intv = static_cast<int>(intpart); // can overflow - so handle that.

if (fractpart > some_epsilon)
++intv;
``````

You just need to define `some_epsilon` value to whatever you want the fractional part to be bigger than before the integer part is incremented. Other things to consider are sign (i.e. if the value is negative etc.)

-
I would imagine that you'd want `epsilon` to be 0. –  Oli Charlesworth Dec 4 '11 at 19:09
@OliCharlesworth, really? shouldn't it rather be value as close to 0 as possible (say for argument sake 1E-6) to allow for representation issues? –  Nim Dec 4 '11 at 21:45

Try this...

``````int ceil(float val)
{
int temp  = val * 10;
if(val%10)
return (temp+1);
else
return temp;
}
``````
-
I was just typing that –  Matt Dec 4 '11 at 18:12
Needs to be adjusted for -ve values. –  Oli Charlesworth Dec 4 '11 at 18:13
Also, it doesn't deal with e.g. `val = 0.01`. –  Oli Charlesworth Dec 4 '11 at 18:13
Right, and then it doesn't handle `0.001`. –  R. Martinho Fernandes Dec 4 '11 at 18:18
But this is not a solution to the problem of "implement `ceil`". –  R. Martinho Fernandes Dec 4 '11 at 18:51