How do I do a bitwise Not operation in Python?

In order to test building an Xor operation with more basic building blocks (using Nand, Or, and And in my case) I need to be able to do a Not operation. The built-in `not` only seems to do this with single bits. If I do:

``````x = 0b1100
x = not x
``````

I should get `0b0011` but instead I just get `0b0`. What am I doing wrong? Or is Python just missing this basic functionality?

I know that Python has a built-in Xor function but I've been using Python to test things for an HDL project/course where I need to build an Xor gate. I wanted to test this in Python but I can't without an equivalent to a Not gate.

The problem with using `~` in Python, is that it works with signed integers. This is also the only way that really makes sense unless you limit yourself to a particular number of bits. It will work ok with bitwise math, but it can make it hard to interpret the intermediate results.

For 4 bit logic, you should just subtract from `0b1111`

``````0b1111 - 0b1100  # == 0b0011
``````

For 8 bit logic, subtract from `0b11111111` etc.

The general form is

``````def bit_not(n, numbits=8):
return (1 << numbits) - 1 - n
``````
• Thanks! It would be nice if Python allowed unsigned numbers, but that would be a huge change, so this works. :) – Lauren Jul 4 '15 at 1:18
• Note that you can also phrase this as constructing a mask and ANDing with it (Python's pseudo-two's complement system handles that properly by reducing to a positive number constrained by the mask), e.g. `return ~n & ((1 << numbits) - 1)`. You solution works fine, but feels sort of backwards to me, simply because I prefer to think in terms of actually flipping the bits, then masking to the proper width. – ShadowRanger May 23 at 14:38

Another way to achieve this, is to assign a mask like this (should be all 1's):

``````mask = 0b1111
``````

Then xor it with your number like this:

``````number = 0b1100
``````

You can refer the xor truth table to know why it works.

• For the record, this relies on the input already falling in that range, or the output will remain outside the range; you can't use it for cutdown. If you want it to work for numbers that might exceed the desired range, `~number & mask` works with only slightly more work, and looks closer to the logic of what you intend. e.g. `0x12345 ^ 0xffff` gets `0x1dcba`, while `~0x12345 & 0xffff` gets `0xdcba`. – ShadowRanger May 23 at 14:25

Try this, it's called the bitwise complement operator:

``````~0b1100
``````
• this answer is wrong; because python integers are signed, `~i` is always trivially `-i-1` for any integer `i` – xdavidliu Aug 17 '18 at 18:57

The general form given by John La Rooy, can be simplified in this way (python == 2.7 and >=3.1):

``````def bit_not(n):
return (1 << n.bit_length()) - 1 - n
``````
• This only works if `n`'s logical high bit is set to `1`. If you're logically working with eight bit numbers, then this will work for `n in range(128, 256)`, but for `n in range(128)`, it will fail to set the high bits. This also makes it non-reversible (because the number will continually shrink on each reversal as the high bits that should have been preserved are lost); even when the high bit is set, the result won't have it set, so the next reversal becomes wrong. – ShadowRanger May 23 at 14:34