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Apologies for this seemingly minor question, but I can't seem to find the answer anywhere - I'm just coming up to implementing the DAA instruction in my Z80 emulator, and I noticed in the Zilog manual that it is for the purposes of adjusting the accumulator for binary coded decimal arithmetic. It says the instruction is intended to be run right after an addition or subtraction instruction.

My questions are:

  • what happens if it is run after another instruction?
  • how does it know what instruction preceeded it?
  • I realise there is the N flag - but this surely wouldnt definitively indicate that the previous instruction was an addition or subtraction instruction?
  • Does it just modify the accumulator anyway, based on the conditions set out in the DAA table, regardless of the previous instruction?
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2 Answers 2

up vote 7 down vote accepted

Does it just modify the accumulator anyway, based on the conditions set out in the DAA table, regardless of the previous instruction?

Yes. The documentation is only telling you what DAA is intended to be used for. Perhaps you are referring to the table at this link:

--------------------------------------------------------------------------------
|           | C Flag  | HEX value in | H Flag | HEX value in | Number  | C flag|
| Operation | Before  | upper digit  | Before | lower digit  | added   | After |
|           | DAA     | (bit 7-4)    | DAA    | (bit 3-0)    | to byte | DAA   |
|------------------------------------------------------------------------------|
|           |    0    |     0-9      |   0    |     0-9      |   00    |   0   |
|   ADD     |    0    |     0-8      |   0    |     A-F      |   06    |   0   |
|           |    0    |     0-9      |   1    |     0-3      |   06    |   0   |
|   ADC     |    0    |     A-F      |   0    |     0-9      |   60    |   1   |
|           |    0    |     9-F      |   0    |     A-F      |   66    |   1   |
|   INC     |    0    |     A-F      |   1    |     0-3      |   66    |   1   |
|           |    1    |     0-2      |   0    |     0-9      |   60    |   1   |
|           |    1    |     0-2      |   0    |     A-F      |   66    |   1   |
|           |    1    |     0-3      |   1    |     0-3      |   66    |   1   |
|------------------------------------------------------------------------------|
|   SUB     |    0    |     0-9      |   0    |     0-9      |   00    |   0   |
|   SBC     |    0    |     0-8      |   1    |     6-F      |   FA    |   0   |
|   DEC     |    1    |     7-F      |   0    |     0-9      |   A0    |   1   |
|   NEG     |    1    |     6-F      |   1    |     6-F      |   9A    |   1   |
|------------------------------------------------------------------------------|

I must say, I've never seen a dafter instruction spec. If you examine the table carefully, you will see that the effect of the instruction depends only on the C and H flags and the value in the accumulator -- it doesn't depend on the previous instruction at all. Also, it doesn't divulge what happens if, for example, C=0, H=1, and the lower digit in the accumulator is 4 or 5. So you will have to execute a NOP in such cases, or generate an error message, or something.

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Thanks very much - I hope to find not too many more ambiguous instructions such as this :-) –  PhilPotter1987 Nov 14 '11 at 10:22
1  
Z80's DAA should be equivalent to x86's DAA and DAS as they have the same purpose. Check out the x86 descriptions of both. Some kind of DAA is available on many CPUs. –  Alexey Frunze Nov 14 '11 at 11:14
1  
@Alex: the x86 chips have two Decimal Adjust instructions: DAA (Decimal Adjust after Addition) and DAS (Decimal Adjust after Subtraction). The Z80 DAA instruction combines them into one, by assuming that the operands of the most recent add/subtract were valid BCD numbers. –  TonyK Nov 23 '11 at 7:28
    
@TonyK: Correct. –  Alexey Frunze Nov 23 '11 at 7:44

Just wanted to add that the N flag is what they mean when they talk about the previous operation. Additions set N = 0, subtractions set N = 1. Thus the contents of the A register and the C, H and N flags determine the result.

The instruction is intended to support BCD arithmetic but has other uses. Consider this code:

    and  15
    add  a,90h
    daa
    adc  a,40h
    daa

It ends converting the lower 4 bits of A register into the ASCII values '0', '1', ... '9', 'A', 'B', ..., 'F'. In other words, a binary to hexadecimal converter.

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