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How can I convert a string of bytes into an int in python?

Say like this: 'y\xcc\xa6\xbb'

I came up with a clever/stupid way of doing it:

sum(ord(c) << (i * 8) for i, c in enumerate('y\xcc\xa6\xbb'[::-1]))

I know there has to be something builtin or in the standard library that does this more simply...

This is different from converting a string of hex digits for which you can use int(xxx, 16), but instead I want to convert a string of actual byte values.


I kind of like James' answer a little better because it doesn't require importing another module, but Greg's method is faster:

>>> from timeit import Timer
>>> Timer('struct.unpack("<L", "y\xcc\xa6\xbb")[0]', 'import struct').timeit()
>>> Timer("int('y\xcc\xa6\xbb'.encode('hex'), 16)").timeit()

My hacky method:

>>> Timer("sum(ord(c) << (i * 8) for i, c in enumerate('y\xcc\xa6\xbb'[::-1]))").timeit()


Someone asked in comments what's the problem with importing another module. Well, importing a module isn't necessarily cheap, take a look:

>>> Timer("""import struct\nstruct.unpack(">L", "y\xcc\xa6\xbb")[0]""").timeit()

Including the cost of importing the module negates almost all of the advantage that this method has. I believe that this will only include the expense of importing it once for the entire benchmark run; look what happens when I force it to reload every time:

>>> Timer("""reload(struct)\nstruct.unpack(">L", "y\xcc\xa6\xbb")[0]""", 'import struct').timeit()

Needless to say, if you're doing a lot of executions of this method per one import than this becomes proportionally less of an issue. It's also probably i/o cost rather than cpu so it may depend on the capacity and load characteristics of the particular machine.

share|improve this question
and importing something from the standard lib is bad, why? – hop Jan 15 '09 at 1:56
andyway, duplicate:… – hop Jan 15 '09 at 1:56
your "further update" is weird... why would you import the module so often? – hop Jan 19 '09 at 8:20
I know this is old question. But if you want to keep your comparison upto date for other people: Mechanical snail's answer (int.from_bytes) out-performed struct.unpack on my computer. Next to being more readable imo. – magu_ Jan 20 at 17:42
up vote 53 down vote accepted

You can also use the struct module to do this:

>>> struct.unpack("<L", "y\xcc\xa6\xbb")[0]
share|improve this answer
Warning: "L" is actually 8 bytes (not 4) in 64 bit Python builds, so this might fail there. – Rafał Dowgird Jan 15 '09 at 11:47
Rafał: Not really, since Greg was using <, according to the docs L is standard size (4) "when the format string starts with one of '<', '>', '!' or '='." – André Laszlo Dec 24 '11 at 0:50
This answer doesn't work for arbitrary-length binary strings. – amcnabb Feb 4 '13 at 19:49
Types have specific sizes, it'll never work for arbitrary-length binary strings. You could set up a for loop to handle that if you know the type of each item. – Joshua Olson Jan 9 '14 at 18:12
This is a good answer as long as the integer you are creating is a long or shorter. If you are converting something longer than 64 bits, the suggestion below (in.from_bytes, Python 3.2 or higher) is much better. – Paul Hoffman May 2 '14 at 0:20

In Python 3.2 and later, use

>>> int.from_bytes(b'y\xcc\xa6\xbb', byteorder='big')


>>> int.from_bytes(b'y\xcc\xa6\xbb', byteorder='little')

according to the endianness of your byte-string.

This also works for bytestring-integers of arbitrary length, and for two's-complement signed integers by specifying signed=True. See the docs for from_bytes.

share|improve this answer

As Greg said, you can use struct if you are dealing with binary values, but if you just have a "hex number" but in byte format you might want to just convert it like:

s = 'y\xcc\xa6\xbb'
num = int(s.encode('hex'), 16)

...this is the same as:

num = struct.unpack(">L", s)[0]

...except it'll work for any number of bytes.

share|improve this answer
what exactly is the difference between "binary values" and a "'hex number' but in byte format"??????? – hop Jan 15 '09 at 1:52
See "help struct". Eg. "001122334455".decode('hex') cannot be converted to a number using struct. – James Antill Jan 15 '09 at 3:24
By the way, this answer assumes that the integer is encoded in big-endian byte order. For little-endian order, do: int(''.join(reversed(s)).encode('hex'), 16) – amcnabb Feb 4 '13 at 19:54
good but this is going to be slow! Guess that doesn't really matter if you're coding in Python. – MattClimbs Nov 3 '15 at 5:48
import array
integerValue = array.array("I", 'y\xcc\xa6\xbb')[0]

Warning: the above is strongly platform-specific. Both the "I" specifier and the endianness of the string->int conversion are dependent on your particular Python implementation. But if you want to convert many integers/strings at once, then the array module does it quickly.

share|improve this answer

I use the following function to convert data between int, hex and bytes.

def bytes2int(str):
 return int(str.encode('hex'), 16)

def bytes2hex(str):
 return '0x'+str.encode('hex')

def int2bytes(i):
 h = int2hex(i)
 return hex2bytes(h)

def int2hex(i):
 return hex(i)

def hex2int(h):
 if len(h) > 1 and h[0:2] == '0x':
  h = h[2:]

 if len(h) % 2:
  h = "0" + h

 return int(h, 16)

def hex2bytes(h):
 if len(h) > 1 and h[0:2] == '0x':
  h = h[2:]

 if len(h) % 2:
  h = "0" + h

 return h.decode('hex')


share|improve this answer

In Python 2.x, you could use the format specifiers <B for unsigned bytes, and <b for signed bytes with struct.unpack/struct.pack.


Let x = '\xff\x10\x11'

data_ints = [struct.unpack('<B', x)[0] for x in '\xff\x10\x11'] # [255, 16, 17]
data_ints = struct.unpack('<' + 'B'*len(x), x) # [255, 16, 17]


data_bytes = ''.join([struct.pack('<B', x) for x in data_ints]) # '\xff\x10\x11'
data_bytes = struct.pack('<' + 'B'*len(data_ints), *data_ints) # '\xff\x10\x11'
That * is required!

See for a list of the format specifiers.

share|improve this answer

int.from_bytes is the best solution if you are at version >=3.2. The "struct.unpack" solution requires a string so it will not apply to arrays of bytes. Here is another solution:

def bytes2int( tb, order='big'):
    if order == 'big': seq=[0,1,2,3]
    elif order == 'little': seq=[3,2,1,0]
    i = 0
    for j in seq: i = (i<<8)+tb[j]
    return i

hex( bytes2int( [0x87, 0x65, 0x43, 0x21])) returns '0x87654321'.

It handles big and little endianness and is easily modifiable for 8 bytes

share|improve this answer

I was struggling to find a solution for arbitrary length byte sequences that would work under Python 2.x. Finally I wrote this one, it's a bit hacky because it performs a string conversion, but it works.

Function for Python 2.x, arbitrary length

def signedbytes(data):
    """Convert a bytearray into an integer, considering the first bit as
    sign. The data must be big-endian."""
    negative = data[0] & 0x80 > 0

    if negative:
        inverted = bytearray(~d % 256 for d in data)
        return -signedbytes(inverted) - 1

    encoded = str(data).encode('hex')
    return int(encoded, 16)

This function has two requirements:

  • The input data needs to be a bytearray. You may call the function like this:

    s = 'y\xcc\xa6\xbb'
    n = signedbytes(s)
  • The data needs to be big-endian. In case you have a little-endian value, you should reverse it first:

    n = signedbytes(s[::-1])

Of course, this should be used only if arbitrary length is needed. Otherwise, stick with more standard ways (e.g. struct).

share|improve this answer

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