I wrote some code to check if a bit sequence can be found within a different bit sequence.

For example, below, the bit sequence of 9 is found in the bit sequence of 25, but not in that of 15.

The way I'm doing this now is to take the string binary representation and run a regex to check if one matches the other. Ideally I'd like to do this using bitwise operations, and I've looked at the bitwise operation truth table and apparently XNOR looks like it would do what I need.. but I haven't had much success with it.

How would you do this type of matching using bitwise operations?


for x in [N,H1,H2]:

Nb,H1b,H2b=[format(x,"b") for x in [N,H1,H2]]
import re
for x in [H1b,H2b]:
  • XNOR can be achieved by e.g.(~(N^H1)), but could you please elaborate why do you think XNOR is the solution? what will you check on the XNOR's result to determine if it is true or false? – Adam.Er8 Sep 1 at 10:08
  • 1
    I was thinking to check (~(N^H1))==N but I tried that and the XNOR gave a negative result, which.. is far from what I was expecting. But then maybe that's because the XNOR in Python is performed on signed integers. The reason why I mentioned XNOR is because its table looks like a bit-by-bit equality check and that made it seem like a good fit. – average Sep 1 at 10:18
  • It gives you all 1s if the bits are completely equal, we can use that to determine if the bit pattern is contained "aligned right". but let's say, what about H3 = 51? N = 9's bit pattern is still contained in it (and your regex solution will indeed return true), but any bit-wise solution will require some shifting, this becomes much less elegant. – Adam.Er8 Sep 1 at 10:26
  • @Adam.Er8 it's fine to only handle the aligned case. The other ones can be handled by shifting N in different positions. – average Sep 1 at 10:28
  • OK, I'll give it a try – Adam.Er8 Sep 1 at 10:30

Assuming your bit string and patterns are not to long (ie they fit in a long long), here is how it can be written in C.

// searchs if pattern is present within  bit string tosearch
// patternlenth is the number of bits in the pattern
// returns the required shift for the firt match is found
// assumes the number of bits in tosearch bit sting is 64
// returns -1 is pattern is not found
int bitstringsearch(unsigned long long tosearch, long long pattern, int patternlength){
  long long mask = (1<<patternlength) -1 ;
  // mask is a set of patternlength consecutive ones at lsb
  for (int i=0; i<64-patternlength; i++){
    if ( (~(tosearch ^ pattern) & mask) == mask)
      // checks is the patternlenth LSB bits of tosearch are equal
      //  to pattern
      return i;  // yes, returns the current shift
    tosearch >>=1;  // shift bitsting to search search
  return -1;  // not found

The translation in python should obvious. This can easily be extended to search for all matches.


to check if your sequence Nb is in the other sequence you can use:

H1b.find(Nb) != -1
H2b.find(Nb) != -1

or you can use:

Nb in H1b
Nb in H2b

I have a feeling that this can be achieved by checking some (simple) relationship between the 2 numbers, but I can't put my finger on it. Below it's an alternative.


#!/usr/bin/env python3

import sys
import math

def get_mask(n, base=2):
    magnitude = math.ceil(math.log(n, base))
    return base ** magnitude - 1

def contains_binary(container, containee):
    mask = get_mask(containee)
    while containee <= container:
        if container & mask == containee:
            return True
        containee <<= 1
        mask <<= 1
    return False

def main():
    op1 = 9
    numbers = [
    for op0 in numbers:
        print("{0:d} ({1:s}) contains {2:d} ({3:s}): {4:}".format(op0, bin(op0)[2:], op1, bin(op1)[2:], contains_binary(op0, op1)))

if __name__ == "__main__":
    print("Python {0:s} {1:d}bit on {2:s}\n".format(" ".join(item.strip() for item in sys.version.split("\n")), 64 if sys.maxsize > 0x100000000 else 32, sys.platform))


  • Works on unsigned values only
  • get_mask: gets the number bit (actually, digit) count, and makes it all 1 (BASE - 1) (probably this is the nxor equivalent)
  • contains_binary: moves containee and its bit mask window from right to left in container
    • ands (binary) the mask to zero out all container's bits outside of the window
    • Checks the result against containee


[cfati@CFATI-5510-0:e:\Work\Dev\StackOverflow\q057744847]> "e:\Work\Dev\VEnvs\py_064_03.07.03_test0\Scripts\python.exe" code00.py
Python 3.7.3 (v3.7.3:ef4ec6ed12, Mar 25 2019, 22:22:05) [MSC v.1916 64 bit (AMD64)] 64bit on win32

0 (0) contains 9 (1001): False
1 (1) contains 9 (1001): False
8 (1000) contains 9 (1001): False
9 (1001) contains 9 (1001): True
15 (1111) contains 9 (1001): False
18 (10010) contains 9 (1001): True
25 (11001) contains 9 (1001): True
51 (110011) contains 9 (1001): True
54 (110110) contains 9 (1001): False
90 (1011010) contains 9 (1001): False
549 (1000100101) contains 9 (1001): True
17477 (100010001000101) contains 9 (1001): False


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