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i want to convert the fractional part of a double value with precision upto 4 digits into integer. but when i do it, i lose precision. Is there any way so that i can get the precise value?

int main()
    double number;
    double fractional_part;
    int output;
    number = 1.1234;
    fractional_part = number-(int)number;
    fractional_part = fractional_part*10000.0;
    output = (int)fractional_part;
    return 0;

i am expecting output to be 1234 but it gives 1233. please suggest a way so that i can get desired output. i want the solution in C language.

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You just used the words "double" or "float" and "precise value" in the same sentence. Bad mojo. You're method is OK, but add 0.5 before you convert to int, because that's probably truncating rather than rounding. Better yet, use round() explicitly. That will give you the closest value. "The" precise value doesn't exist. –  Lee Daniel Crocker Jun 23 '13 at 9:37

4 Answers 4

up vote 3 down vote accepted

Assuming you want to get back a positive fraction even for negative values, I'd go with

(int)round(fabs(value - trunc(value)) * 1e4)

which should give you the expected result 1234.

If you do not round and just truncate the value

(int)(fabs(value - trunc(value)) * 1e4)

(which is essentially the same as your original code), you'll end up with the unexpected result 1233 as 1.1234 - 1.0 = 0.12339999999999995 in double precision.

Without using round(), you'll also get the expected result if you change the order of operations to

(int)(fabs(value * 1e4 - trunc(value) * 1e4))

If the integral part of value is large enough, floating-point inaccuracies will of course kick in again.

You can also use modf() instead of trunc() as David suggests, which is probably the best approach as far as floating point accuracy goes:

double dummy;
(int)round(fabs(modf(value, &dummy)) * 1e4)
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I still give 1233 –  Alter Mann Jun 23 '13 at 10:55
@DavidRF: the first version will return the expected 1234; the second one returns 1233 because of floating-point semantics; I'll update the answer... –  Christoph Jun 23 '13 at 12:10
Thanks Cristoph –  Alter Mann Jun 23 '13 at 15:54
These do not always produce the correct answer. Truncation does not, as the example in the question shows 1234 is wanted for 1.1234, but truncation produces 1233. For rounding, consider the value 0.1026499999999999912514425659537664614617824554443359375. Then the first four decimal digits of the fraction are 1026. But the rounding method produces 1027, when double arithmetic (IEEE 754 64-bit binary) is used. –  Eric Postpischil Jun 23 '13 at 22:31
@Christoph: Yes, there is a problem. No, it is not insolvable. There is a widely known paper about it, Correctly Rounded Binary-Decimal and Decimal-Binary Conversions by David M. Gay. This answer presents code that produces incorrect results. Methods to get correct results are known and published. If you want a quick-and-dirty solution and have a good C implementation, you can use sprintf to convert the floating-point number to decimal and scanf to convert to an integer. –  Eric Postpischil Jun 24 '13 at 13:57

number= 1.1234, whole=1, fraction=1234

int main()
 double number;
 int whole, fraction;
 number = 1.1234;
 whole= (int)number;
 fraction =(int)(number*10000);
 fraction = fraction-(whole *10000);
 return 0;
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I agree with your example. But if I don't know the number and I don't know how large is the fractional part? –  Romulus Nov 26 '13 at 22:59
@RemusAvram check this code then stackoverflow.com/a/18517555/2508414 well for us starter that code should work fine, if we try to write a code for a very large number (as far as i know) there is no answer.. those people doing research and high level of programming can do. but so far i haven't found better logic then the one i have implemented. –  Tootsie_Roll Nov 28 '13 at 9:24

Use modf and ceil

#include <stdio.h>
#include <math.h>

int main(void)
    double param, fractpart, intpart;
    int output;

    param = 1.1234;
    fractpart = modf(param , &intpart);
    output = (int)(ceil(fractpart * 10000));
    printf("%d\n", output);

    return 0;
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He wants an int. His method of multiply-and-round is fine, he just has to round closer instead of truncating. –  Lee Daniel Crocker Jun 23 '13 at 9:38
Thanks Lee, edited –  Alter Mann Jun 23 '13 at 9:49
@ Lee Daniel Crocker your method worked...!!! thanks. –  Atul Kumar Verma Jun 23 '13 at 10:03
@ David RF, i expected 500 as output when i enter 1.0500 but it shows 501 i think ceil will not work in all cases. –  Atul Kumar Verma Jun 23 '13 at 10:34
Atul, true, then give one more digit to precision and divide by 10 output = (int)(ceil(fractpart * 100000)) / 10; –  Alter Mann Jun 23 '13 at 10:48

A solution for any number could be:

#include <cmath>

using namespace std;

int _tmain(int argc, _TCHAR* argv[])

float number = 123.46244;
float number_final;
float temp = number;  // keep the number in a temporary variable
int temp2 = 1;        // keep the length of the fractional part

while (fmod(temp, 10) !=0)   // find the length of the fractional part
    temp = temp*10;
    temp2 *= 10;

temp /= 10;       // in tins step our number is lile this xxxx0
temp2 /= 10;
number_final = fmod(temp, temp2);


return 0;
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