I just wrote the following C++ code in order to convert a fractional number into its corresponding binary format.

```
double get_decimal_part(double num) {
long x = static_cast<long>(num);
return (num - static_cast<double>(x));
}
long get_real_part(double num) {
return static_cast<long>(num);
}
string fraction_to_binary(double num) {
string decimal_binary = "";
double decimal_part = get_decimal_part(num);
while ( decimal_part > 0 ) {
double temp = decimal_part * 2;
if ( get_real_part(temp) == 0 ) decimal_binary += "0";
else decimal_binary += "1";
decimal_part = get_decimal_part(temp);
}
return decimal_binary;
}
int main() {
cout << "3.50 - " << fraction_to_binary(3.50) << endl;
cout << "3.14 - " << fraction_to_binary(3.14) << endl;
}
```

The output would be :-

```
3.50 - 1
3.14 - 001000111101011100001010001111010111000010100011111
```

I'd have the following questions regarding the same :-

- In the case if "3.50", my implementation would give "1" as the output -- how can I go about modifying my implementation in order to account for the trailing "0" in 3.50?
- If there were any library functions that could help me get the precision of a floating point number? I'm guessing I could use that information to modify my implementation.

[EDIT] I also tried using the following to convert a float to a string but it wouldnt help either.

```
stringstream ss;
ss << my_float;
cout << string(ss.str()) << endl;
```

`0`

, you will need to handle your number as a string, as the numeric representation will not contain trailing zeros – emartel Jan 13 '13 at 12:36`my_float`

already lost the trailing zeros – emartel Jan 13 '13 at 12:40`floor`

. – Mr Lister Jan 13 '13 at 12:42`get_fractional_part`

and`get_integral_part`

. – n.m. Jan 13 '13 at 13:21`floor`

, but`modf`

. There is a library function which does exactly what he wants. – James Kanze Jan 13 '13 at 13:44