I have a non-negative int and I would like to efficiently convert it to a big-endian string containing the same data. For example, the int 1245427 (which is 0x1300F3) should result in a string of length 3 containing three characters whose byte values are 0x13, 0x00, and 0xf3.

My ints are on the scale of 35 (base-10) digits.

How do I do this?


You can use the struct module:

import struct
print(struct.pack('>I', your_int))

'>I' is a format string. > means big endian and I means unsigned int. Check the documentation for more format chars.

  • 10
    struct.pack returns a fixed length string and doesn't seem to have facilities for handling large ints. I suppose I could break my int into powers of 2^32, run it through struct.pack(), and reassemble the result, but that seems like a lot of work...do you know of a simpler way?
    – fish
    May 10 '09 at 20:33
  • 2
    I couldn't find a library to handle arbitrary long ints. I think you will have to implement it yourself. Other answers contain implementations. May 10 '09 at 21:00
  • Ayman, note that Python has built-in support for arbitrarily long ints, so you don't need a library. In Python 3, there will only be the int type, but even now in Python 2.4+, ints are automatically converted to Python longs when they overflow 32 bits (signed).
    – Ben Hoyt
    May 10 '09 at 21:58
  • 2
    benhoyt, thanks for the comment. I'm aware of this. I was talking about handling the conversion of arbitrary long ints to big endian. Not handling them in general. May 10 '09 at 22:25

In Python 3.2+, you can use int.to_bytes:

If you don't want to specify the size

>>> n = 1245427
>>> n.to_bytes((n.bit_length() + 7) // 8, 'big') or b'\0'

If you don't mind specifying the size

>>> (1245427).to_bytes(3, byteorder='big')
  • 12
    How to do this in 2.6?
    – Kimvais
    Jul 31 '13 at 12:58
  • 4
    If your integer is signed, add signed=True.
    – gerrit
    Apr 30 '14 at 22:47
  • 2
    Am I right in thinking the (length + 7) // 8 part is the same as doing math.ceil(length / 8) ? If so, I think it'd be clearer to use that option
    – Jezzamon
    Apr 20 '16 at 1:27
  • 1
    @JanusTroelsen They are the same, as long as the n.bit_length() is a reasonable size (you need around a quadrillion bits for there to be an issue, which means that n is going to be unbelievably large). In my situation readability is much more important than a performance increase, and numbers will never be that big.
    – Jezzamon
    Apr 20 '16 at 22:44
  • 1
    @Kebman why would they be valid UTF-8? I don't see why that would be a case. Maybe ask a new well-written question and ping me, and I'll try to respond. Oct 27 '20 at 18:03

This is fast and works for small and (arbitrary) large ints:

def Dump(n): 
  s = '%x' % n
  if len(s) & 1:
    s = '0' + s
  return s.decode('hex')
print repr(Dump(1245427))  #: '\x13\x00\xf3'
  • 3
    As a variant of the above, one can replace if len(s) & 1 with if len(s) % 2 (both are ture if there are an odd amount of hexadecimal characters), and '%x' % n with '{0:x}'.format(n) (both of which format the number as a hexadecimal string).
    – Abbafei
    Feb 23 '15 at 8:22

Probably the best way is via the built-in struct module:

>>> import struct
>>> x = 1245427
>>> struct.pack('>BH', x >> 16, x & 0xFFFF)
>>> struct.pack('>L', x)[1:]  # could do it this way too

Alternatively -- and I wouldn't usually recommend this, because it's mistake-prone -- you can do it "manually" by shifting and the chr() function:

>>> x = 1245427
>>> chr((x >> 16) & 0xFF) + chr((x >> 8) & 0xFF) + chr(x & 0xFF)

Out of curiosity, why do you only want three bytes? Usually you'd pack such an integer into a full 32 bits (a C unsigned long), and use struct.pack('>L', 1245427) but skip the [1:] step?

def tost(i):
  result = []
  while i:
    i >>= 8
  return ''.join(result)
  • 3
    tost(0) returns an empty string. Needs an i == 0 test before the while loop if the desired result is '\x00'
    – Mike Ellis
    Mar 31 '14 at 14:20
  • It would be better off with a try/except than an if i==0, on the assumption it doesn't happen most of the time.
    – J.J
    Mar 8 '17 at 22:12

Single-source Python 2/3 compatible version based on @pts' answer:

#!/usr/bin/env python
import binascii

def int2bytes(i):
    hex_string = '%x' % i
    n = len(hex_string)
    return binascii.unhexlify(hex_string.zfill(n + (n & 1)))

# -> b'\x13\x00\xf3'

The shortest way, I think, is the following:

import struct
val = 0x11223344
val = struct.unpack("<I", struct.pack(">I", val))[0]
print "%08x" % val

This converts an integer to a byte-swapped integer.

  • This only will not use the most efficient number of bytes for some numbers, e.g. 70000
    – J.J
    Mar 8 '17 at 22:07

Using the bitstring module:

>>> bitstring.BitArray(uint=1245427, length=24).bytes

Note though that for this method you need to specify the length in bits of the bitstring you are creating.

Internally this is pretty much the same as Alex's answer, but the module has a lot of extra functionality available if you want to do more with your data.


Very easy with pwntools , the tools created for software hacking

(Un-ironically, I stumbled across this thread and tried solutions here, until I realised there exists conversion functionality in pwntools)

import pwntools

x2 = p32(x1)

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