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 ?
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
.
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)
True
>>> get_bit(5, 1)
False
>>> set_bit(5, 1)
7
>>> clear_bit(5, 2)
1
>>> clear_bit(7, 2)
3
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)
'0xdeadbaef'
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]
Outputs:
D E A D
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 '19 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)