How can I add, subtract, and compare binary numbers in Python without converting to decimal?

1Is this a homework question, i.e are you asking how to do maths at a low level? See (stackoverflow.com/questions/1149929/…) – Tom Leys Oct 6 '09 at 3:50

1Can you give some examples of what you are trying to achieve? – John La Rooy Oct 6 '09 at 4:17

8numbers are already binary in python. They get converted to binary when your program starts and are only converted back to decimal when you use something like str() or print – John La Rooy Oct 6 '09 at 4:31
You can convert between a string representation of the binary using bin() and int()
>>> bin(88)
'0b1011000'
>>> int('0b1011000', 2)
88
>>>
>>> a=int('01100000', 2)
>>> b=int('00100110', 2)
>>> bin(a & b)
'0b100000'
>>> bin(a  b)
'0b1100110'
>>> bin(a ^ b)
'0b1000110'

Thank you. Yes, this is a homework assignment. The assignment states that I am supposed to leave the numbers in 'binary format' when performing ._add, ._sub, ._gt, ._lt, and ._eq. Your example above seems to convert from bin to int. I am not sure if this will be acceptable but I don't see any other way it could be except your example. – EkSwaim Oct 6 '09 at 12:52

8You can also use the binary literal, when using Python 2.6 and above. Instead of
int('01100111',2)
you write0b01100111
for example, which is103
. – Joschua Dec 20 '10 at 9:58
I think you're confused about what binary is. Binary and decimal are just different representations of a number  e.g. 101 base 2 and 5 base 10 are the same number. The operations add, subtract, and compare operate on numbers  101 base 2 == 5 base 10 and addition is the same logical operation no matter what base you're working in. The fact that your python interpreter may store things as binary internally doesn't affect how you work with it  if you have an integer type, just use +, , etc.
If you have strings of binary digits, you'll have to either write your own implementation or convert them using the int(binaryString, 2) function.
If you're talking about bitwise operators, then you're after:
~ Not
^ XOR
 Or
& And
Otherwise, binary numbers work exactly the same as decimal numbers, because numbers are numbers, no matter how you look at them. The only difference between decimal and binary is how we represent that data when we are looking at it.

Always fun to write add, sub etc with bitwise operators. For anyone interested in this, look for guides on circuits, more specifically half adders, then full adders and then finally subtractor, maybe even a addersubstractor. From here you can translate it into bitwise operators. – Horse SMith Apr 26 '15 at 3:46
Binary, decimal, hexadecimal... the base only matters when reading or outputting numbers, adding binary numbers is just the same as adding decimal number : it is just a matter of representation.
Below is a rewrite of a previously posted function:
def addBinary(a, b): # Example: a = '11' + b =' 100' returns as '111'.
for ch in a: assert ch in {'0','1'}, 'bad digit: ' + ch
for ch in b: assert ch in {'0','1'}, 'bad digit: ' + ch
sumx = int(a, 2) + int(b, 2)
return bin(sumx)[2:]
'''
I expect the intent behind this assignment was to work in binary string format.
This is absolutely doable.
'''
def compare(bin1, bin2):
return bin1.lstrip('0') == bin2.lstrip('0')
def add(bin1, bin2):
result = ''
blen = max((len(bin1), len(bin2))) + 1
bin1, bin2 = bin1.zfill(blen), bin2.zfill(blen)
carry_s = '0'
for b1, b2 in list(zip(bin1, bin2))[::1]:
count = (carry_s, b1, b2).count('1')
carry_s = '1' if count >= 2 else '0'
result += '1' if count % 2 else '0'
return result[::1]
if __name__ == '__main__':
print(add('101', '100'))
I leave the subtraction func as an exercise for the reader.
Not sure if helpful, but I leave my solution here:
class Solution:
# @param A : string
# @param B : string
# @return a strings
def addBinary(self, A, B):
num1 = bin(int(A, 2))
num2 = bin(int(B, 2))
bin_str = bin(int(num1, 2)+int(num2, 2))
b_index = bin_str.index('b')
return bin_str[b_index+1:]
s = Solution()
print(s.addBinary("11", "100"))
I think you're confused about what binary is. Binary and decimal are just different representations of a number  e.g. 101 base 2 and 5 base 10 are the same number. The operations add, subtract, and compare operate on numbers  101 base 2 == 5 base 10 and addition is the same logical operation no matter what base you're working in.

I think you're misinterpreting what the question was asking. OP was looking for a way to read/manipulate numbers in binary representation and have them interact with numbers in an integer representation. – Josh Nov 18 '20 at 16:22