# How to extract the decimal part from a floating point number in C?

How can we extract the decimal part of a floating point number and store the decimal part and the integer part into two separate integer variables?

• I don't see how you could put the decimal part into an integer unless you knew how many digits you wanted to keep. Could you give a few examples? Feb 1 '09 at 1:16
• i want to get the decimal part as integer for any inputting value. so the number of digits in the deciaml part cannot predict.
– Binu
Feb 1 '09 at 1:25
• like if u input 16.25 i want to get 25 in an integer value also if teh nuber is 0.3215769 i want to get 3215769 in an integer like that
– Binu
Feb 1 '09 at 1:33
• reading into a string, then checking to see whether the string is a double (questions exist on SO that are answered saying how to do that), and then getting the stuff after the ".". what about that? or do you need to read other formats too (10e-5)? Feb 1 '09 at 1:49
• How would you distinguish the decimal fractions in 1.5 and 1.005? Jun 5 '09 at 12:16

You use the `modf` function:

``````double integral;
double fractional = modf(some_double, &integral);
``````

You can also cast it to an integer, but be warned you may overflow the integer. The result is not predictable then.

• @penu It's because you are using `%d` for printing `double`. Here is the working code: codepad.org/kPGKtcZi Mar 20 '16 at 19:47
• This code truncates 123.456745693850 from 0.45674569385 to 0.456746 Feb 24 at 9:13
• @Richard you can open a new stackoverflow question to ask why it would do that on your machine. I have no idea. Feb 25 at 21:30

Try this:

``````int main() {
double num = 23.345;
int intpart = (int)num;
double decpart = num - intpart;
printf("Num = %f, intpart = %d, decpart = %f\n", num, intpart, decpart);
}
``````

For me, it produces:

``````Num = 23.345000, intpart = 23, decpart = 0.345000
``````

Which appears to be what you're asking for.

• the first part is correct but wish to get the result as decimal part as 345000 integer
– Binu
Feb 1 '09 at 1:03
• but i want to get the deciaml part as Integer value which means decpart=345000
– Binu
Mar 14 '09 at 16:11
• int decpart = 100000*(num - intpart); Jun 5 '09 at 12:14
• This method is susceptible to some nasty floating-point problems. Try setting `num = 1.1` for a quick example. As a floating-point number `decpart` cannot represent `0.1`. Apr 28 '15 at 15:50

The quick "in a nut shell" most obvious answer seems like:

``````#define N_DECIMAL_POINTS_PRECISION (1000) // n = 3. Three decimal points.

float f = 123.456;
int integerPart = (int)f;
int decimalPart = ((int)(f*N_DECIMAL_POINTS_PRECISION)%N_DECIMAL_POINTS_PRECISION);
``````

You would change how many decimal points you want by changing the `N_DECIMAL_POINTS_PRECISION` to suit your needs.

• Just for fun. Let's do a thought experiement: The more obfuscated and complex ( see "hard to maintain code" ) solution could go as far as [bit slicing] the float or double to get the actual ["integerBits" and "fractionalBits"]. Mar 26 '09 at 3:53
• I'm not exactly sure of why you would do this... maybe this method would have the advantage of capturing the integer and decimal parts directly without losing any of the precision due to floating point rounding. Mar 26 '09 at 3:54
• Here is some incomplete pseudo code to give you the idea: #define BIT_MASK1 /* not sure / #define SHIFT / not sure / #define BIT_MASK2 / not sure */ float f = 123.456; uint32_t * tmp = (uint32_t *)&f; int integerPart = (int)f; Mar 26 '09 at 3:55

I created a subroutine one using a double float, it returns 2 integer values.

``````
void double2Ints(double f, int p, int *i, int *d)
{
// f = float, p=decimal precision, i=integer, d=decimal
int   li;
int   prec=1;

for(int x=p;x>0;x--)
{
prec*=10;
};  // same as power(10,p)

li = (int) f;              // get integer part
*d = (int) ((f-li)*prec);  // get decimal part
*i = li;
}

void test()
{
double df = 3.14159265;
int   i,d;
for(int p=2;p<9;p++)
{
double2Ints(df, p, &i,&d); printf("d2i (%d) %f = %d.%d\r\n",p, df,i,d);
}
}
```
```

I think that using string is the correct way to go in this case, since you don't know a priori the number of digits in the decimal part. But, it won't work for all cases (e.g. 1.005), as mentioned before by @SingleNegationElimination. Here is my take on this:

``````#include <stdio.h>
#include <stdlib.h>

int main(void)
{
char s_value, s_integral, s_fractional;
int i, found = 0, count = 1, integral, fractional;

scanf("%s", s_value);

for (i = 0; s_value[i] != '\0'; i++)
{
if (!found)
{
if (s_value[i] == '.')
{
found = 1;
s_integral[i] = '\0';
continue;
}
s_integral[i] = s_value[i];
count++;
}
else
s_fractional[i - count] = s_value[i];
}
s_fractional[i - count] = '\0';

integral = atoi(s_integral);
fractional = atoi(s_fractional);
printf("value = %s, integral = %d, fractional = %d\n",
s_value, integral, fractional);

return 0;
}
``````
• You solved the problem in a way nobody should ever attempt to solve it. Jan 24 '20 at 1:04

Use the floating number to subtract the floored value to get its fractional part:

``````double fractional = some_double - floor(some_double);
``````

This prevents the typecasting to an integer, which may cause overflow if the floating number is very large that an integer value could not even contain it.

Also for negative values, this code gives you the positive fractional part of the floating number since floor() computes the largest integer value not greater than the input value.

• Try it with a number such as 10.2346789358 and you will get 0.2346789357999999 in return which is wrong. Feb 24 at 9:10
• In the context of `double`, 0.2346789357999999 is one of several correct answers, depending on exactly how the value is encoded, compiler flags, architecture, processor flags, etc. Floating point types are not decimal. Oct 14 at 19:04

Here is another way:

``````#include <stdlib.h>
int main()
{
char* inStr = "123.4567";         //the number we want to convert
char* endptr;                     //unused char ptr for strtod

char* loc = strchr(inStr, '.');
long mantissa = strtod(loc+1, endptr);
long whole = strtod(inStr, endptr);

printf("whole: %d \n", whole);     //whole number portion
printf("mantissa: %d", mantissa);  //decimal portion

}
``````

Output:

``````whole: 123
mantissa: 4567
``````
• Your code won’t work on 16 bits platforms where longs are 32 bits and long double are 53 bits. May 3 '15 at 15:37
``````float num;
int intgPart;
float fracPart;
printf("Enter the positive floating point number: ");
scanf("%f", &num);

intgPart = (int)num;
fracPart = num - intgPart;
``````

The fractional part can be obtained by subtracting an integral part from the original double value.

Maybe the best idea is to solve the problem while the data is in String format. If you have the data as String, you may parse it according to the decimal point. You extract the integral and decimal part as Substrings and then convert these substrings to actual integers.

• Converting it to a string just for this is a bit silly, but if it were a string originally then this makes sense. Apr 24 '12 at 21:12

I made this function, it seems to work fine:

``````#include <math.h>

void GetFloattoInt (double fnum, long precision, long *pe, long *pd)
{
long pe_sign;
long intpart;
float decpart;

if(fnum>=0)
{
pe_sign=1;
}
else
{
pe_sign=-1;
}

intpart=(long)fnum;
decpart=fnum-intpart;

*pe=intpart;
*pd=(((long)(decpart*pe_sign*pow(10,precision)))%(long)pow(10,precision));
}
``````

If you just want to get the first decimal value, the solution is really simple.

Here's an explanatory example:

``````int leftSideOfDecimalPoint = (int) initialFloatValue; // The cast from float to int keeps only the integer part

int temp = (int) initialFloatValue * 10;
int rightSideOfDecimalPoint = temp % 10;
``````

Say for example we have an initial float value of 27.8 .

• By just casting the initial float value to an int, you discard the fraction part and only keep the integer part.
• By multiplying the initial float value by 10 we get a result of 278.0, then by casting this result to int, gives you the value of 278
• If we divide 278 by 10, we get 27.8, of which the remainder is 8, which is the value at the right side of the decimal point. Thus use modulus.

This technique can then be used to get the following decimal characters by using for example 100 instead of 10, and so on.

Just take note that if you use this technique on real-time systems, for example to display it on a 7-segment display, it may not work properly because we are multiplying with a float value, where multiplication takes a lot of overhead time.

Even I was thinking how to do it. But I found a way. Try this code

``````printf("Enter a floating number");
scanf("%d%c%d", &no, &dot, &dec);
printf("Number=%d Decimal part=%d", no, dec);
``````

Output:-

``````Enter a floating number
23.13
Number=23 Decimal part=13
``````
• Won't work for 23.003 Oct 7 at 17:36
`````` #include <stdio.h>
Int main ()
{
float f=56.75;
int a=(int)f;
int result=(f-a)*100;
printf ("integer = %d\n decimal part to integer
=%d\n",result);
}
Output:-
integer =56
decimal part to integer = 75
``````
• You assume here that decimal part is only two digits wide. That may not be case. Mar 19 '18 at 12:38
• Although your code snippet might solve the issue, you should describe what’s the purpose of your code (how it solves the problem). Furthermore, you might want to check stackoverflow.com/help/how-to-answer Mar 19 '18 at 14:29

Suppose A is your integer then (int)A, means casting the number to an integer and will be the integer part, the other is (A - (int)A)*10^n, here n is the number of decimals to keep.

``````cout<<"enter a decimal number\n";
cin>>str;
for(i=0;i<str.size();i++)
{
if(str[i]=='.')
break;
}

for(j=i+1;j<str.size();j++)
{
cout<<str[j];
}
``````