# From a float to an integer

Given this code that my professor gave us in an exam which means we cannot modify the code nor use function from other libraries (except stdio.h):

``````float x;

(suppose x NOT having an integer part)
while (CONDITION){
x = x*10
}
``````

I have to find the condition that makes sure that x has no valid number to the right of decimal point not giving attention to the problems of precision of a float number (After the decimal point we have to have only zeros). I tried this condition:

``````while ((fmod((x*10),10))){
X = X*10
}
printf(" %f ",x);
``````

example:

``````INPUT x=0.456; --------> OUTPUT: 456.000
INPUT X=0.4567;--------> OUTPUT; 4567.000
It is important to be sure that after the decimal point we don't have any
significant number
``````

But I had to include math.h library BUT my professor doesn't allow us to use it in this specific case (I'm not even allowed to use (long) since we never seen it in class).

So what is the condition that solve the problem properly without this library?

• This generally doesn't make sense since floating point can't accurately represent most numbers and will have as many decimal digits as it's total precision. – 2501 Jul 5 '16 at 8:06
• You could study `float` type and make some tests on internal bits – Mathieu Jul 5 '16 at 8:44
• I'm not even allowed to use (long) since we never seen it in class This does not make sense.... cast is the easiest way to do so, although, as @2501 already wrote, is not accurate. – LPs Jul 5 '16 at 8:54
• Probably your professor should specify you constrains for this test and what kind of precision he/she would expect. If your professor is not aware of precision problems, you should start thinking about change the school/class... ;) – LPs Jul 5 '16 at 9:17
• Please modify your question and give an clear example of different inputs and desired outputs. – Jabberwocky Jul 5 '16 at 9:53

There is fuzziness ("not giving attention to the problems of precision of a float number") in the question, yet I think a sought answer is below, assign `x` to an integer type until `x` no longer has a fractional part.

Success of this method depends on `INT_MIN <= x <= INT_MAX`. This is expected when the number of bits in the significant of `float` does not exceed the value bits of `int`. Although this is common, it is not specified by C. As an alternative, code could with a wider integer type like `long long` with a far less chance of the range restriction issue.

Given the rounding introduced with `*10`, this method is not a good foundation of `float` to text conversion.

``````float Dipok(float x) {
int i;
while ((i=x) != x) {
x = x*10;
}
return x;
}

#include <assert.h>
#include <stdio.h>
#include <float.h>

void Dipok_test(float x) {
// suppose x NOT having an integer part
assert(x > -1.0 && x < 1.0);
float y = Dipok(x);
printf("x:%.*f y:%.f\n", FLT_DECIMAL_DIG, x, y);
}

int main(void) {
Dipok_test(0.456);
Dipok_test(0.4567);
return 0;
}
``````

Output

``````x:0.456000000 y:456
x:0.456699997 y:4567
``````
• ... and `Dipok_test(0.001);` yields `x:0.001000 y:10000001` on my machine. – undur_gongor Jul 5 '16 at 18:03
• @undur_gongor A typical `float` using binary32 format with `float x = 0.001` will set `x` to the exact value of `0.001000000047497451305389404296875`. It is this value that `Dipok(float x)` receives. Given that OP specified "not giving attention to the problems of precision of a float number", the answer of `10000001` is OK. OP is certainly using this as a base for other applications and will use the loop count of `while ((i=x) != x)` to further process `100`, `10000001` or whatever. – chux - Reinstate Monica Jul 5 '16 at 18:23
• While this is formally correct, I feel it's a bit far-fetched. Would be curious to see if OP is happy with the result in this case. – undur_gongor Jul 6 '16 at 6:07

As pointed out here previously:Due to the accuracy of floats this is not really possible but I think your Prof wants to get something like

``````while (x  - (int)x != 0 )
``````

or

``````while (x  - (int)x >= 0.00000001 )
``````

You can get rid of the zeroes by using the g modifier instead of f:

``````printf(" %g \n",x);
``````
• This will fail if the actual float value is slightly smaller than the intended one. – undur_gongor Jul 5 '16 at 11:50

As already pointed out by 2501, this is just not possible.

Floats are not accurate. Depending on your platform, the float value for 0.001 is represented as something like 0.0010000001 in fact.

What would you expect the code to calculate: 10000001 or 1?

Any solution will work for some values only.

• Typical `float` have 6+ digits of relative decimal accuracy. Their values are exact. The issue is that many operations on `floats` incur rounding such as the assignment of `float x = 0.001;`. – chux - Reinstate Monica Jul 5 '16 at 13:51

I try to answer to my exam question please if I say something wrong correct me!

It is not possible to find a proper condition that makes sure that there are no valid number after the decimal point. For example : We want to know the result of 0.4*20 which is 8.000 BUT due to imprecision problems the output will be different:

``````f=0.4;
for(i=1;i<20;i++)
f=f+0.4;
printf("The number f=0.4*20 is ");
if(f!=8.0) {printf(" not ");}
printf(" %f ",8.0);
printf("The real answer is f=0.4*20= %f",f);
``````

Our OUTPUT will be:

``````The number f=0.4*20 is not 8.000000

The real answer is f=0.4*20= 8.000001
``````
• I'm not supposed to use function from other libraries except stdio.h, I used only printf just to show that float numbers are not precise. – Dipok Jul 5 '16 at 14:10