# testing if given number is integer

i am trying to implement user defined function which tests if number is integer

``````#include <iostream>
#include <typeinfo>
using namespace std;
bool   integer(float k){
if (k==20000) return false;;
if (k==(-20000)) return  false;
if (k==0)  return true;
if (k<0)  return integer(k+1);
else if(k>0)  return integer (k-1);
return false;
}
int main(){

float s=23.34;
float s1=45;
cout<<boolalpha;
cout<<integer(s)<<endl;
cout<<integer(s1)<<endl;
return 0;

}
``````

so idea is that,if number is integer, does not matter it is negative or positive ,if we decrease or increase by one, we must get zero,but problem is, that how can create upper and lower bound for increasing and decreasing?

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I don't even... Why do you consider >20000 and <-20000 not integers? Why would you start comparing in the middle of your range and not from -20000? – tenfour Oct 4 '11 at 10:38
yes you are right i have changed it by MAX_INT and MIN_INT – dato datuashvili Oct 4 '11 at 10:45
no @tenfour,i am reading section about number theory where it is discussed topics about (quadratic)residue and roots of prime numbers residues and so on,and here is algorithm which somehow involves term of integer,if square root from something is integer,then it is root ,so it is main reason – dato datuashvili Oct 4 '11 at 10:49
Readers: There is a new and very comprehensive Q&A on this topic, explicitly considering C++11. – chappjc Aug 10 '15 at 20:21

## 5 Answers

``````#include <cmath>

bool is_integer(float k)
{
return std::floor(k) == k;
}
``````

This solution should work for all possible values of `k`. I am pretty sure this is a case where you can safely compare floats using `==`.

Try to thoughtfully name functions. `integer` does not give any clue what it actually does, so I changed the function name to something more meaningful.

For the future, testing if a number is integer should feel like a very simple operation, so you should have a strong feeling that the best solution will be very simple. I hope you realize your original solution is absurd for many reasons (biggest reason: it will cause a stack overflow for the vast majority of cases).

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This may not work if this `floor` is the `double floor(double)` defined in `<math.h>`. The call to this `floor` will cast `k` to a double and the function will return the floor as a double. It would be better to use `float floorf(float)` here, and even better to use `std::floor(float)` from `<cmath>`. – David Hammen Oct 4 '11 at 11:11
Another potential problem area is negative numbers, where `floor` rounds away from zero. Safest solution is `return std::floor(std::abs(k)) == std::abs(k)`. – David Hammen Oct 4 '11 at 11:15
Why would that cause a problem? If it's integral, it won't be rounded. If it is not integral, it doesn't matter where it gets rounded as long as it's not equal to the original, which it can't be. – tenfour Oct 4 '11 at 11:17

Why not just do something like this:

``````bool integer(float k)
{
return k == (float)(int)k;
}
``````

?

(Feel free to use proper C++ type casts of course.)

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Note that this returns `false` for sufficiently large integers (like 1e100). (Not saying that what the user wants is in fact possible in a general sense with floats.) – Mat Oct 4 '11 at 10:40
True (except that you can't actually represent 1e100 as a single precision float !) - I imagine it's good enough for > 99% of use cases though. – Paul R Oct 4 '11 at 10:49
@Mat: in fact it has undefined behavior for sufficiently large values of `k` (greater in magnitude than about `INT_MAX`). – Steve Jessop Oct 4 '11 at 11:18

This is not going to work, as for sufficiently large floats, `x-1 == x`.

You should test the bit pattern of the float to check whether the fractional part is 0.

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Also, recursion should be avoided here and it's a very slow method, not just that x+/-1==x for |x| -> inf. – Alexey Frunze Oct 4 '11 at 10:37
... and will cause a stack overflow in almost every case. – tenfour Oct 4 '11 at 10:57

its in limit.h macro set to INT_MAX (for maximum) or INT_MIN (for minimum ) for the integers

correct answer

`````` bool integer(float k)
{
if( k == (int) k) return true;
return false;
}
``````
-
Are you actually suggesting he use these constants in his function? Did you see what it does? – tenfour Oct 4 '11 at 10:38
No, user is asking for the upper and lower limit.. :-/ so I gave the answer accordingly.. – Aman Agarwal Oct 4 '11 at 10:39

You can just use the boost lexical cast header

``````  bool isinteger(float k){
try{
int tmp = boost::lexical_cast<int>(k);
(void*) tmp;
return true;
}catch(boost::bad_lexical_cast &c){
return false;
}
``````
-
boost function is interested – dato datuashvili Oct 4 '11 at 10:46