I'm trying to convert a floating point number to binary representation; how can I achieve this? My goal is, however, not to be limited by 2m so I'm hoping for something that could be easily extended to any base (3, 4, 8) ecc.

I've got a straightforward implementation so far for integers:

```
import string
LETTER = '0123456789' + string.ascii_lowercase
def convert_int(num, base):
if base == 1:
print "WARNING! ASKING FOR BASE = 1"
return '1' * num if num != 0 else '0'
if base > 36: raise ValueError('base must be >= 1 and <= 36')
num, rest = divmod(num, base)
rest = [LETTER[rest]]
while num >= base:
num, r = divmod(num, base)
rest.append(LETTER[r])
rest.reverse()
return (LETTER[num] if num else '') + ''.join(str(x) for x in rest)
```

any help appreciated :)

edit:

```
def convert_float(num, base, digits=None):
num = float(num)
if digits is None: digits = 6
num = int(round(num * pow(base, digits)))
num = convert_int(num, base)
num = num[:-digits] + '.' + num[:digits]
if num.startswith('.'): num = '0' + num
return num
```

is that right? why do i get this behaviour?

```
>>> convert_float(1289.2893, 16)
'509.5094a0'
>>> float.hex(1289.2983)
'0x1.42531758e2196p+10'
```

p.s. How to convert float number to Binary?

I've read that discussion, but I don't get the answer.. I mean, does it work only for 0.25, 0.125? and I dont understand the phrase 'must be in reverse order'...

`significant_digits`

and an`exponent`

) or a natural number with a "binary point" in between? Both are actually not that hard (once you grok the math), but different. – delnan Jan 29 '11 at 19:39