# How to convert a double to its' binary form in Arithmetic Coding?

I am doing Arithmetic Coding now, and I have got the final start position and distance, then I add them. How can I convert the result to binary mode?

For example, how can I convert `0.125 decimal` to `0.001 binary` in C++?

``````void CArithmeticCoding::Encode()
{
if ( 0 == m_input )
return;
printf("The input is [%s].\n", this->m_input);

while (*m_input)
{
if ( *m_input == m_MPS )
{
DOMPS();
}
else
{
DOLPS();
}
++m_input;
}
double ret = m_start + m_dis;

return;
}
``````
-

Converting anything to binary means finding out how many of each kind of power of 2 is involved. In the case of a decimal number, the powers involved are negative.

For `.125`, the sequence is like this:

``````.125 x 2 =  .250 (< 1)
.250 x 2 =  .500 (< 1)
.500 x 2 = 1.000 (>= 1)
.000     = 0     done
``````

So, the binary representation is `0`x`2^-1` + `0`x`2^-2` + `1`x`2^-3` = `.001` binary. As an exercise, contrast this technique with converting a normal integer into binary representation.

Just as regular decimals can have non-terminating patterns (like 1/3 or pi/4), the same can happen for the binary representations. In those cases, you have to stop the calculation when you reach your desired precision.

-
As an exercise, try converting 1/3 ;) –  Mare Infinitus Jun 12 '12 at 8:45
@MareInfinitus: ;-) Thanks for the input, answer is updated. –  jxh Jun 12 '12 at 8:48
no problem. besides there are lots of example implementations of IEEE 754 around, if you just now what to search for ; –  Mare Infinitus Jun 12 '12 at 9:30