# Convert base-2 binary number string to int

I'd simply like to convert a base-2 binary number string into an int, something like this:

``````>>> '11111111'.fromBinaryToInt()
255
``````

Is there a way to do this in Python?

• While it doesn't really matter, a binary string typically means a string containing actual binary data (a byte contains two hexadecimal digits, ie "\x00" is a null byte). – trevorKirkby May 3 '14 at 18:25

You use the built-in `int` function, and pass it the base of the input number, i.e. `2` for a binary number:

``````>>> int('11111111', 2)
255
``````

Here is documentation for python2, and for python3.

• In case someone is looking for the opposite: `bin(255)` -> `'0b11111111'`. See this answer for additional details. – Akseli Palén Mar 13 '13 at 23:29
• It should be noted that this only works for unsigned binary integers. For signed integers, the conversion options are a mess. – Fake Name Nov 1 '14 at 13:30
• How to do this in python 3? – Saras Arya Feb 27 '15 at 5:45
• @SarasArya It's very similar! :) I updated, see above. – unwind Feb 27 '15 at 8:01
• And note that in an interactive REPL session (as suggested by the `>>>` prompt), you don't need to use `print` at all. The OP's hypothetical example didn't. So it really should be identical in Python 2 and 3. – John Y Jul 12 '16 at 22:36

Just type 0b11111111 in python interactive interface:

``````>>> 0b11111111
255
``````

Another way to do this is by using the `bitstring` module:

``````>>> from bitstring import BitArray
>>> b = BitArray(bin='11111111')
>>> b.uint
255
``````

Note that the unsigned integer is different from the signed integer:

``````>>> b.int
-1
``````

The `bitstring` module isn't a requirement, but it has lots of performant methods for turning input into and from bits into other forms, as well as manipulating them.

Using int with base is the right way to go. I used to do this before I found int takes base also. It is basically a reduce applied on a list comprehension of the primitive way of converting binary to decimal ( e.g. 110 = 2**0 * 0 + 2 ** 1 * 1 + 2 ** 2 * 1)

``````add = lambda x,y : x + y
reduce(add, [int(x) * 2 ** y for x, y in zip(list(binstr), range(len(binstr) - 1, -1, -1))])
``````
• Instead of defining `add = lambda x, y: x + y`, `int.__add__` can be provided to reduce. E.g. `reduce(int.__add__, ...)` – Jordan Jambazov Aug 28 '16 at 10:46

If you wanna know what is happening behind the scene, then here you go.

``````class Binary():
def __init__(self, binNumber):
self._binNumber = binNumber
self._binNumber = self._binNumber[::-1]
self._binNumber = list(self._binNumber)
self._x = 
self._count = 1
self._change = 2
self._amount = 0
print(self._ToNumber(self._binNumber))
def _ToNumber(self, number):
self._number = number
for i in range (1, len (self._number)):
self._total = self._count * self._change
self._count = self._total
self._x.append(self._count)
self._deep = zip(self._number, self._x)
for self._k, self._v in self._deep:
if self._k == '1':
self._amount += self._v
return self._amount
mo = Binary('101111110')
``````

A recursive Python implementation:

``````def int2bin(n):
return int2bin(n >> 1) + [n & 1] if n > 1 else 
``````

If you are using python3.6 or later you can use f-string to do the conversion:

Binary to decimal:

``````>>> print(f'{0b1011010:#0}')
90

>>> bin_2_decimal = int(f'{0b1011010:#0}')
>>> bin_2_decimal
90
``````

binary to octal hexa and etc.

``````>>> f'{0b1011010:#o}'
'0o132'  # octal

>>> f'{0b1011010:#x}'

>>> f'{0b1011010:#0}'
'90'     # decimal
``````

Pay attention to 2 piece of information separated by colon.

In this way, you can convert between {binary, octal, hexadecimal, decimal} to {binary, octal, hexadecimal, decimal} by changing right side of colon[:]

``````:#b -> converts to binary
:#o -> converts to octal