# How to modify bits in an integer?

I have an integer with a value `7` (`0b00000111`) And I would like to replace it with a function to `13` (`0b00001101`). What is the best algorithm to replace bits in an integer?

For example:

``````set_bits(somevalue, 3, 1) # What makes the 3rd bit to 1 in somevalue?
``````
• Just like in C. wiki.python.org/moin/BitwiseOperators
– Kos
Aug 29 '12 at 8:33
• Be careful with your prefixes for literal integers... `0x` is the prefix for hexadecimal numbers. The prefix you want is `0b`. Aug 29 '12 at 8:44

These work for integers of any size, even greater than 32 bit:

``````def set_bit(value, bit):
return value | (1<<bit)

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

If you like things short, you can just use:

``````>>> val = 0b111
>>> val |= (1<<3)
>>> '{:b}'.format(val)
'1111'
>>> val &=~ (1<<1)
'1101'
``````
• Awesome for setting and clearing flags in an integer! No libraries requires :) Nov 12 '15 at 10:52

You just need:

``````def set_bit(v, index, x):
"""Set the index:th bit of v to 1 if x is truthy, else to 0, and return the new value."""
mask = 1 << index   # Compute mask, an integer with just bit 'index' set.
v &= ~mask          # Clear the bit indicated by the mask (if x is False)
if x:
v |= mask         # If x was True, set the bit indicated by the mask.
return v            # Return the result, we're done.

>>> set_bit(7, 3, 1)
15
>>> set_bit(set_bit(7, 1, 0), 3, 1)
13
``````

Note that bit numbers (`index`) are from 0, with 0 being the least significant bit.

Also note that the new value is returned, there's no way to modify an integer "in place" like you show (at least I don't think so).

• He said, casually, as if thousands of people inexperienced with binary would not have to walk through this code step by step over the years to figure out what the hell it was doing that caused it to work so perfectly. Feb 3 '17 at 4:35
• @Aerovistae Heh ... Not sure if you're being tongue-in-cheek. I added comments to make the code even clearer. Hopefully that will save all those people some work. :) Feb 3 '17 at 9:10
• Thanks! I was indeed being tongue-in-cheek. Had to go totally relearn my binary operations to understand what was going on; hadn't touched 'em since college. Feb 3 '17 at 9:25
• You might be happy to know that as is this works for numpy arrays as well. `v` can be a numpy array and `index` can either be a scalar or a numpy array of the same length as `v`. Very useful! Who knew setting bits needed to be so clever. Mar 10 '17 at 15:16
• @SwiftsNamesake I'm sure it can be clevered out, but this makes it pretty clear which was the goal. Oct 3 '17 at 7:45

You can use bitwise opertions. http://wiki.python.org/moin/BitwiseOperators

if you want to set a given bit to 1 you can use bitwise 'or' with 1 on given position:

0b00000111 | 0b00001000 = 0b00001111

to set a given bit to 0 you can use bitwise 'and'

0b00001111 & 0b11111011 = 0b00001011

Note that 0b prefix is for binary numbers and 0x is for hexadecimal.

• Hi, instead of posting a new answer and deleting the old one, consider just editing your old answer. :-) Aug 29 '12 at 8:52
• That was my intention but I had it opened in two tabs and sent from the wrong one :) Aug 29 '12 at 8:55
• But I would like to set bytes by index. Aug 29 '12 at 8:56
• Then (as @unwind showed you) you can take 0b1 (=1) and shift it left to the correct position (1 << index in his code). Then you can use |, & or calculate inversion, which changes all zeros to ones. Aug 29 '12 at 8:59

Going by the examples provided, it sounds like you are looking to swap bits in an integer. For example in 7 `(0b00000111)`, if you swap the bits in the 3rd and 1st positions you obtain 13 `(0b00001101)`.

I would have the following as a function signature `swap_bits(val, i, j)`

What is the best algorithm? Well, the following algorithm takes constant time, O(1).

``````def swap_bits(val, i, j):
"""
Given an integer val, swap bits in positions i and j if they differ
by flipping their values, i.e, select the bits to flip with a mask.
Since v ^ 1 = 0 when v = 1 and 1 when v = 0, perform the flip using an XOR.
"""
if not (val >> i) & 1 == (val >> j) & 1:
mask = (1 << i) | (1 << j)
`````` >>> swap_bits(7, 3, 1)