B with the value
1. If the result is
1, it's odd parity. If the result is
0, it's even parity. That's because even numbers always have
0 in the least significant bit, odd numbers always have
Accessing very vague memories of 8080-class assembly, but I think it would be something like:
MOV A, B
par_odd ; parity is odd here, work your magic
par_even ; parity is even here, work other magic
par_done ; carry on processing here
For example, the value
72 that you're using, is
64 + 8 or binary
So, assuming your bit counting code works correctly, register
B will be set to two, or
00000010. ANDing that with
00000001 gives you 0, hence even parity.
Alternatively, the value
11111110 would set register
00000111. ANDing that with
1, hence odd parity.
You can also use something like:
where A is the value rather than the count of 1-bits.
The reason you may need the ANA is to ensure the parity flag is set based on the contents of the accumulator. Only certain operations set the flags and ANDing the accumulator with itself will leave it untouched but set the P, S and Z flags based on it.