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This is similar to a question asked on the programming Stack Exchange: http://programmers.stackexchange.com/questions/158247/binary-representation-in-python-and-keeping-leading-zeros

Essentially, I have some numbers that I keep track of in hex:


However, Python tries to outsmart me and over-thinks, so when I write the value to a file, I get this in my hex editor:

00 00 00 00 00 00 00 00 00 00 AA BB CC DD EE FF

It looks to me that Python stores and writes my 48-bit number as a 64- or 128-bit number. How could I prevent the leading zeroes from being written to the file? By comparison, when using numpy.random.bytes(6), Python will write the values to the file without leading zeroes, so it should be capable of doing this I think. Thoughts?

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How are you packing the data and writing to the file? –  cdarke Sep 12 '13 at 12:47
Please show your code, we (usually) can't guess the issue blindly. –  Michael Foukarakis Sep 12 '13 at 13:11
en.wikipedia.org/wiki/Primitive_data_type#Integer_numbers On a 64-bit platform, Python will store 0xAABBCCDDEEFF in memory as a 64-bit integer (just as 0x1 or even 0x0 would be), so when you write it out you'll get 64 bits, unless you explicitly pack the individual bytes yourself. –  lmjohns3 Sep 12 '13 at 15:35

5 Answers 5

The critical thing is how you are packing the numbers. You can write single bytes - it is unusual for a number format to be 6 bytes. I found the following to work for one of the values:

import struct

outfile = 'output.dat'
fh = open(outfile, "wb")

var = struct.pack('6B', 0xAA, 0xBB, 0xCC, 0xDD, 0xEE, 0xFF)


If you use other types, like a short, int, or long (or combinations thereof) you might run into endian issues.

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If you want a 48-bit binary value written to a file, you'll have to write 6 bytes yourself. There's no native number format of that length. Use the struct module to convert a value to bytes:

packed = struct.pack('>q', value) # 64 bits (8 bytes)
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To fix my issue, I had to do two things:

1) Switch to Python 3 2) Use int.to_bytes()

f = open(fileName, 'wb')
for d in dataBuffer:
    if type(d) == int:
         f.write(d.to_bytes(6, byteorder='big'))

I couldn't use struct.pack() or the numpy.savetext(), as I needed to handle 10,000 random values for 2000 files. This seemed easier, but I also had to make my code work with Python 3. I've learned that Python, while trying to be smart and do things for the user, ends up making a mess of things and increasing frustration levels.

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Nice! I didn't know python 3 had this. Otoh, shouting at the hammer you struck your thumb with may feel like a relief, but isn't really going to help you. If I learnt anything from this kind of problems, it's that my own assumptions are always to be questioned. But maybe that's more of a thing for programmers.stackexchange.com :) –  xtofl Nov 28 at 6:44

You could save as text using np.savetxt:

import numpy as np
sn = np.array([0xAABBCCDDEEFF, 0xAA55AA55AA55, 0xBEEF0000BEEF])


np.savetxt('testfile',sn,'%X') # without the '0x'
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If you don't want to use struct.pack, you can write the bytes individually to file by masking out successive bytes of the source integer and using chr to convert them to byte strings :

for shift in range(40, -1, -8):
    f.write(chr((d >> shift) & 0xff))

But this is basically what struct.pack is doing for you under the hood (and in C), so you'd be better off not reinventing the wheel.

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