In C I could, for example, zero out bit #10 in a 32 bit unsigned value like so:

unsigned long value = 0xdeadbeef;
value &= ~(1<<10);

How do I do that in Python ?


Bitwise operations on Python ints work much like in C. The &, | and ^ operators in Python work just like in C. The ~ operator works as for a signed integer in C; that is, ~x computes -x-1.

You have to be somewhat careful with left shifts, since Python integers aren't fixed-width. Use bit masks to obtain the low order bits. For example, to do the equivalent of shift of a 32-bit integer do (x << 5) & 0xffffffff.

value = 0xdeadbeef
value &= ~(1<<10)

Some common bit operations that might serve as example:

def get_bit(value, n):
    return ((value >> n & 1) != 0)

def set_bit(value, n):
    return value | (1 << n)

def clear_bit(value, n):
    return value & ~(1 << n)

Usage e.g.

>>> get_bit(5, 2)
>>> get_bit(5, 1)
>>> set_bit(5, 1)
>>> clear_bit(5, 2)
>>> clear_bit(7, 2)

You should also check out BitArray, which is a nice interface for dealing with sequences of bits.


Have you tried copying and pasting your code into the Python REPL to see what will happen?

>>> value = 0xdeadbeef
>>> value &= ~(1<<10)
>>> hex (value)

Omit the 'unsigned long', and the semi-colons are not needed either:

value = 0xDEADBEEF
value &= ~(1<<10)
print value
"0x%08X" % value

Python has C style bit manipulation operators, so your example is literally the same in Python except without type keywords.

value = 0xdeadbeef
value &= ~(1 << 10)

If you're going to do a lot of bit manipulation ( and you care much more about readability rather than performance for your application ) then you may want to create an integer wrapper to enable slicing like in Verilog or VHDL:

 import math
 class BitVector:
     def __init__(self,val):
         self._val = val

     def __setslice__(self,highIndx,lowIndx,newVal):
         assert math.ceil(math.log(newVal)/math.log(2)) <= (highIndx-lowIndx+1)

         # clear out bit slice
         clean_mask = (2**(highIndx+1)-1)^(2**(lowIndx)-1)

         self._val = self._val ^ (self._val & clean_mask)
         # set new value
         self._val = self._val | (newVal<<lowIndx)

     def __getslice__(self,highIndx,lowIndx):
         return (self._val>>lowIndx)&(2L**(highIndx-lowIndx+1)-1)

 b = BitVector(0)
 b[3:0]   = 0xD
 b[7:4]   = 0xE
 b[11:8]  = 0xA
 b[15:12] = 0xD

 for i in xrange(0,16,4):
     print '%X'%b[i+3:i]


  • Great solution! You might consider adding it as pip package. However, just to note, that it works only with Python 2. (which makes sense, since it's more than 10 years old...) – Zvika Dec 8 at 10:12
a = int('00001111', 2)
b = int('11110000', 2)
bin(a & b)[2:].zfill(8)
bin(a | b)[2:].zfill(8)
bin(a << 2)[2:].zfill(8)
bin(a >> 2)[2:].zfill(8)
bin(a ^ b)[2:].zfill(8)
int(bin(a | b)[2:].zfill(8), 2)

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