I have written a system that is able to convert any base (2-36) to another base with whole numbers, and it can convert any real number from base 10 to any other base (2-36).

My problem arises with converting a rational/irrational number from any base besides 10 to another base.

I use the following algorithm for right-side of the decimal point conversion:

1) Take the right side of the decimal point (0.xxxxxx--->) in the input and multiply it by the base you are converting to.

2) Take the number greater than one (left of the point) and add it to the right side of the converted number.

3) Take the right side of the product and use it in the next repetition as the multiplier (it times the base)

4) Repeat until satisfied or left with a whole number (0 on the right side).

This works nicely for converting any floating point number from decimal to another base, but obviously you can't convert FROM a base that isn't decimal.

So what I tried is converting that initial value to the right of the decimal to base 10, performing the math part, and then converting it back to the original base for when I add it to the output value (it's converted to the new base before being added).

Unfortunately, this returns incorrect results for the right side of the decimal point. So, I have answers that are always correct on the left side, but incorrect on the right if converting from a base that is not base 10.

Does anyone have any ideas for how to make this work? Or perhaps it just won't?

**EDIT**

Alternatively, can anyone link me/show me how to convert a rational hexadecimal value into decimal? That alone would be sufficient for me to work around this issue.

**SOLUTION**

I found a fairly easy workaround to this problem for anyone else in the future who reads this question.

All you have to do is the take the number on the right side of the decimal (whatever base it may be) and convert it to decimal (you can see how to convert integers here). Then take that number and divide it by the greatest place value in it. For instance:

```
A.C
C == 12 (dec)
12 / 16 = .75 (this is the fractional value in decimal)
```

You can then take that fractional decimal value and run it through the algorithm I discussed above.

Thanks for everyone's help on this issue!