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I have the following code to count the number of 1s and save it to reg B. I need to modify it to find if the parity is even or odd...

LXI H, var1
MVI B, 00H
MVI D, 00H
MVI C, 08H



var1: db 72
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Which value are you trying to determine the parity of? – Jim Mischel Mar 17 '13 at 12:06
up vote 1 down vote accepted

An even parity means that there's an even number of bits set in an octet. According to this brief introduction to Intel 8085 architecture:

Flag is an 8-bit register containing 5 1-bit flags:
- Sign - set if the most significant bit of the result is set.
- Zero - set if the result is zero.
- Auxiliary carry - set if there was a carry out from bit 3 to bit 4 of the result.
- Parity - set if the parity (the number of set bits in the result) is even.
- Carry - set if there was a carry during addition, or borrow during subtraction/comparison.

The parity flag can be most easily tested with conditional branches (link to source)

JPE label;   // Jump if parity is Even 
JPO label;   // or jump if parity is Odd

The flag is set by most arithmetic and logical instructions that deal with a single output registers. Counter-examples are MOV, and CMP, which doesn't store a result. Arithmetic operations (INX, DEX etc.) that modify a register pair in turn do not have an unambiguous result.

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That's true, but you can't just blindly use the parity bit - only certain operations set it. – paxdiablo Mar 17 '13 at 11:48
+1 - but be sure to OR the value with itself first. As in ORA A. Then check the parity bit with JPE or JPO – Jim Mischel Mar 17 '13 at 12:03

Just bitwise AND register 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 1.

Accessing very vague memories of 8080-class assembly, but I think it would be something like:

          MOV      A, B
          ANI      01H
          JZ       par_even
par_odd   ; parity is odd here, work your magic
          JMP      over

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 01001000.

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 254, or 11111110 would set register B to 7, or 00000111. ANDing that with 00000001 gives 1, hence odd parity.

You can also use something like:

ANA    A
JPE    par_even

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.

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@Aki, you stated that B is the number of 1-bits in the value you're checking, not the value itself. The parity of that value is whether or not the 1-bit count is even, which is decided totally by the least significant bit of the count. You need to re-read the answer. I wasn't stating that the LSB was the parity bit. – paxdiablo Mar 17 '13 at 11:51
@Jim, I suggest you reread the question and answer. When you count the 1bits in that number, as per the original code, you end up with 3, which is 00000011 - the LSB is SET hence odd parity. – paxdiablo Mar 17 '13 at 12:32
Ahhh ... now I see. I downvoted and shouldn't have. For some reason it won't let me reverse my vote unless the answer is edited. – Jim Mischel Mar 17 '13 at 12:32
Thanks for correcting. It's the correct answer to a wrong question. (Changed the parity of my vote accordingly) – Aki Suihkonen Mar 17 '13 at 17:03

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