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.

*code00.py*:

```
#!/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 = [
0,
1,
8,
9,
15,
18,
25,
51,
54,
90,
549,
17477,
]
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))
main()
print("\nDone.")
```

**Notes**:

- 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*
*and*s (binary) the mask to zero out all *container*'s bits outside of the window
- Checks the result against
*containee*

**Output**:

```
[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
Done.
```

`(~(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`(~(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`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