# How to interpret 4 bytes as a 32-bit float using Python

I am sort of a novice to the Python language and am having a hard time doing something I could very easily do with C++ or Java but for some reason seems so convoluted to do in Python. I have the following four bytes in an array (in big endian order):

``````[0x64, 0xD8, 0x6E, 0x3F]
``````

I already know beforehand what these bytes represent. They specify the following 32-bit floating-point number: `0.932989`

What are the steps I need to perform using Python (preferably v3.2.1 and without using extra imports) to interpret those 4 bytes as that float and store that number in a variable which I can manipulate as a 32-bit floating-point value? I.e. so i can use it just as the following variable `myVar = 0.932989`

I've tried:

``````x = [0x64, 0xd8, 0x6e, 0x3f]
y = int.from_bytes(x, byteorder='little', signed=False) #interpret bytes as an unsigned little-endian integer (so far so good)
z = float(y) #attempt to cast as float reinterprets integer value rather than its byte values
``````

`y` has the right expected integer interpretation of those bytes, which is `1064228964`, the problem comes when casting that to a 32-bit `float`. Instead of casting the raw bytes of `y` as a float, it casts the integer representation of those bytes, so `z` contains `1064228964.0` instead of the desired value of `0.932989`. Is there maybe something equivalent to `int.from_bytes` that I can use to perform this simple task? Perhaps something like `float.from_bytes`?

• Take a look at the 'struct' module. May 7, 2016 at 20:42

For detail see Python Struct. For your specific question:

``````import struct

# if input is string, per @robyschek will fail on python 3
data=b'\x64\xd8\x64\x3f'
print struct.unpack('<f', data)   #little endian
print struct.unpack('>f', data)   # big endian

list1=[0x64, 0xD8, 0x6E, 0x3F]
# aa=str(bytearray(list1))  # edit: this conversion wasn't needed
aa= bytearray(list1)
print struct.unpack('<f', aa)
​
``````

output:

``````(0.8939268589019775,)
(3.193376169798871e+22,)
(0.9329893589019775,)
``````
• `unpack` works on bytearrays, so no need to cast to `str`, and even more, on py3 `unpack` does not accept `str` and will fail May 7, 2016 at 21:21
• @robyschek : Ty, wanted to give string answer, since that's common. Ty for pointer on py3. May 7, 2016 at 21:23
• For some reason I get `aa="bytearray(b'd\\xd8n?')"`. is there a way to fix this? May 7, 2016 at 21:46
• Yes. I type `list1=[0x64, 0xD8, 0x6E, 0x3F]` and then `aa=str(bytearray(list1))`, then I type `aa` to see its contents, and the answer from python is `"bytearray(b'd\\xd8n?')"`. May 7, 2016 at 21:57
• Please see my edit. You don't need the aa=str(...) portion, just passing the bytelist is OK, your error happens in Python3, which is why I didn't notice it (Python 2.7 here). May 7, 2016 at 22:00

If you're willing to use a big library that's really for handling (large) arrays of numbers efficiently:

``````import numpy as np
data_bytes = np.array([0x64, 0xD8, 0x6E, 0x3F], dtype=np.uint8)
data_as_float = data_bytes.view(dtype=np.float32)
print(data_as_float)
``````

This will also work on big byte arrays; then you get an array of floats.