# Binary representation of float in Python (bits not hex)

How to get the string as binary IEEE 754 representation of a 32 bit float?

Example

1.00 -> '00111111100000000000000000000000'

-

You can do that with the `struct` package:

``````import struct
def binary(num):
return ''.join(bin(ord(c)).replace('0b', '').rjust(8, '0') for c in struct.pack('!f', num))
``````

That packs it as a network byte-ordered float, and then converts each of the resulting bytes into an 8-bit binary representation and concatenates them out:

``````>>> binary(1)
'00111111100000000000000000000000'
``````
-
The benefit of this method is that it's trivially easy to convert to 64-bit floats if needed. –  Mark Ransom May 8 at 15:54
@MarkRansom -- you might be right, but it seems like there is an awful lot of string manipulation which is going on for each bit that doesn't need to be done ... –  mgilson May 8 at 15:59
I agree with @mgilson -- I actually prefer his solution, but with a single final `replace` and `rjust` to 32 (or 64), rather than one for each byte. –  Dan Lecocq May 8 at 16:01
I've added my own answer, not sure it's any cleaner. There really should be a version of `bin` that does the right thing. –  Mark Ransom May 8 at 16:20
@MarkRansom: `bin(struct.unpack('!Q', struct.pack('!d', -1.))[0])[2:].zfill(64)` works for doubles (64-bit floats). –  J.F. Sebastian May 8 at 16:46

Here's an ugly one ...

``````>>> import struct
>>> bin(struct.unpack('!i',struct.pack('!f',1.0))[0])
'0b111111100000000000000000000000'
``````

Basically, I just used the struct module to convert the float to an int ...

Here's a slightly better one using `ctypes`:

``````>>> import ctypes
>>> bin(ctypes.c_int.from_buffer(ctypes.c_float(1.0)).value)
'0b111111100000000000000000000000'
``````

Basically, I construct a `float` and use the same memory location, but I tag it as a `c_int`. The `c_int`'s value is a python integer which you can use the builtin `bin` function on.

-
it relies on `sizeof(int) == sizeof(float)` (use `'!'` to force `4` bytes for `i` format). `ctypes.sizeof(ctypes.c_int)` might depend on platform. There is `int.from_bytes()` on Python 3.2+ –  J.F. Sebastian May 8 at 16:11
@J.F.Sebastian -- I suppose I'm also assuming that `bin` returns the IEEE standard representation... –  mgilson May 8 at 16:19
no. I don't understand what you're talking about. –  J.F. Sebastian May 8 at 16:25
I suppose I don't either. The `bin` function doesn't guarantee much about the output -- Only that it is an object that python can handle. If the `sizeof(int) != sizeof(float)` then it's not using IEEE 754 (is it?). In that case, the bit pattern returned by `bin` could be anything as well -- e.g. the bits could be reported backward or something due to different endianness. The sign bit could be some place else, etc. etc. –  mgilson May 8 at 16:29
`sizeof(int) != sizeof(float)` issue is unrelated to `bin()` (that works on Python integers that are unlimited). To support negative floats, use `!I` format. –  J.F. Sebastian May 8 at 16:41

After browsing through lots of similar questions I've written something which hopefully does what I wanted.

``````f = 1.00
negative = False
if f < 0:
f = f*-1
negative = True

s = struct.pack('>f', f)
p = struct.unpack('>l', s)[0]
hex_data =  hex(p)

scale = 16
num_of_bits = 32
binrep = bin(int(hex_data, scale))[2:].zfill(num_of_bits)
if negative:
binrep = '1' + binrep[1:]
``````

`binrep` is the result. Each part will be explained.

``````f = 1.00
negative = False
if f < 0:
f = f*-1
negative = True
``````

Converts the number to a positive if negative, and sets the variable negative to false. The reason for this is that the difference between positive and negative binary representations is just in the first bit, and this was the simpler way than to figure out what goes wrong when doing the whole process with negative numbers.

``````s = struct.pack('>f', f)                          #'?\x80\x00\x00'
p = struct.unpack('>l', s)[0]                     #1065353216
hex_data =  hex(p)                                #'0x3f800000'
``````

`s` is a hex representation of the binary `f`. it is however not in the pretty form i need. Thats where p comes in. It is the int representation of the hex s. And then another conversion to get a pretty hex.

``````scale = 16
num_of_bits = 32
binrep = bin(int(hex_data, scale))[2:].zfill(num_of_bits)
if negative:
binrep = '1' + binrep[1:]
``````

`scale` is the base 16 for the hex. `num_of_bits` is 32, as float is 32 bits, it is used later to fill the additional places with 0 to get to 32. Got the code for `binrep` from this question. If the number was negative, just change the first bit.

I know this is ugly, but i didn't find a nice way and I needed it fast. Comments are welcome.

-
`bin(struct.unpack('!I', struct.pack('!f', -1.))[0])[2:].zfill(32)` supports positive/negative floats. To improve performance you could modify `b2a_bin(struct.pack('!f', -1.))` to accept floats directly. –  J.F. Sebastian May 8 at 16:34

This problem is more cleanly handled by breaking it into two parts.

The first is to convert the float into an int with the equivalent bit pattern:

``````def float32_bit_pattern(value):
return sum(ord(b) << 8*i for i,b in enumerate(struct.pack('f', value)))
``````

Next convert the int to a string:

``````def int_to_binary(value, bits):
return bin(value).replace('0b', '').rjust(bits, '0')
``````

Now combine them:

``````>>> int_to_binary(float32_bit_pattern(1.0), 32)
'00111111100000000000000000000000'
``````
-

Found another solution using the bitstring module.

``````import bitstring
f1 = bitstring.BitArray(float=1.0, length=32)
``````00111111100000000000000000000000