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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 :-

  1. 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?
  2. 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;
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For the trailing 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
@uki your my_float already lost the trailing zeros –  emartel Jan 13 '13 at 12:40
@uki Yes, use double. And floor. –  Mr Lister Jan 13 '13 at 12:42
How exactly would you account for the trailing zero in 3.140? What would your program output? Also, your function names are misleading, call them get_fractional_part and get_integral_part. –  n.m. Jan 13 '13 at 13:21
@MrLister And he shouldn't be using floor, but modf. There is a library function which does exactly what he wants. –  James Kanze Jan 13 '13 at 13:44

1 Answer 1

up vote 3 down vote accepted

Before answering your specific questions, what's wrong with modf for this?

With regards to your specific questions:

  1. What trailing "0"? You're talking about a text representation here. Inside the machine, "3.5" and "3.50" correspond to the same number, and have the same representation.

  2. There is a library function which returns the precision of a floating point number: std::numeric_limits<double>::digits (except that it isn't a function, but a constant). But if you want to break a number down into its integral and whole number parts, modf fits the bill exactly. And unlike your code, will actually work, for all values of double.


Looking closer at the larger picture of what you are trying to do: my approach would be to use frexp to extract the base 2 exponent, then ldexp to scale the number into the range [0.5...1) Then loop std::numeric_limits<double>::digits times, each time multiplying by 2, and checking that: if the results of the multiplication are less than 1, then insert a 0 digit; otherwise, insert a 1 digit and subtract 1. (Note that all of the above actions will be exact if the machine floating point is base 2, or a power of 2.)

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