The Game Boy Z80 CPU has a half-carry flag, and I can't seem to find much information about when to set/clear it.

What I understand so far is that any 8-bit add, subtract, shift, or rotate operation (and maybe others?) set it to bit 4 of the result(?), and the DAA instruction sets/uses this somehow. What I'm not sure is how 16-bit instructions affect it and whether it's affected or not by the use of certain registers.

  • Er, isn't it electronics question? Jan 15 '12 at 8:21
  • 17
    I'm writing an emulator, so I don't think so...
    – Rena
    Jan 15 '12 at 8:22
  • I highly recommend that anyone struggling with the half-carry flag read this thread for further details.
    – ihonen
    Jan 19 '20 at 8:50
  • Read the Z80 reference manual. The effect on every flag of every instruction is documented.
    – TomServo
    Mar 14 '20 at 21:55

It's the carry from bit 3 to bit 4, just like the normal carry flag records carry from bit 7. So, e.g. to get the half carry bit in an add:

((a&0xf) + (value&0xf))&0x10

Which gives 0x10 if half carry should be set, 0 otherwise. Getting half carry from the other relevant ops follows naturally - the questions is whether there was carry from the low nibble to the high.

To put things in perspective, the z80 has a 4bit ALU and performs 8bit ops by doing two 4bit ops. So it gets half carry very naturally, as an intermediate result.

DAA is interested in the flag because if half carry is set then two digits that add up to more than 16 were added in the low nibble; that will have correctly produced carry into the upper nibble but will have left the low nibble 6 lower than it should be, since there were six more values between 10, when it should have generated carry, and 16, when it did.

  • 2
    Alright, but what about 16-bit operations? Is the half-carry set from the high or low byte?
    – Rena
    Jan 16 '12 at 8:03
  • 3
    The high byte; it's the most recent half carry. And you've probably found it already, but I find datasheets.chipdb.org/Zilog/Z80/z80-documented-0.90.pdf to have a great description of DAA, plus explanations of where half carry comes from in edge cases like CCF (where it's set to old carry, if memory serves).
    – Tommy
    Jan 16 '12 at 9:33
  • 2
    One thing to add that makes it clear to me: Adding e.g., 0x37 and 0x44 will not cause a half-carry because you only look at the lower 4 bits of each byte, add them together, and see if that overflows. 0x0F + 0x01 does, 0x37 + 0x44 does not.
    – Michael Stum
    Feb 3 '16 at 9:03
  • The GBZ80 (a.k.a. the SM83) has an 8-bit ALU.
    – S.S. Anne
    Jun 8 '20 at 1:19

For 16-bit operations, the carry from bit 3 to bit 4 in the register's high byte sets the flag. In other words, bit 11 to bit 12.

(Note the above bits are labeled 0-15, from least to most significant)

See here: http://www.z80.info/z80code.htm

16 bit arithmetic

If  you want to add numbers that are more than the 0-255 that can
be stored in the A register,  then the HL, IX or IY registers can
be used. Thus LD HL,1000H:LD BC,2000H:ADD HL,BC will give

00 000000 2000 0000 3000 0000 0000 00 000000 0000 0000 0000 0000

The flags are set as follows.

C or carry flag          1 if answer >65535 else 0
Z or zero flag           not changed
P flag                   not changed
S or sign flag           not changed
N flag                   0
H or half carry flag     1 if carry from bit 11 to bit 12 else 0

Since the half-carry flag is one of the most common stumbling blocks for Game Boy emulator makers, I'll take the liberty to post a link to a recent question of mine regarding the subject as an answer:

Game Boy: Half-carry flag and 16-bit instructions (especially opcode 0xE8)

A summary of the above thread (answer by @gekkio):

It depends on the instruction, but the flags are always updated based on the same bit positions if you think in terms of 8-bit values...it just varies whether we're talking about the high or low byte of the 16-bit value. Bit 11 is just bit 3 of the high byte.

  • ADD SP, e: H from bit 3, C from bit 7 (flags from low byte op)
  • LD HL, SP+e: H from bit 3, C from bit 7 (flags from low byte op)
  • ADD HL, rr: H from bit 11, C from bit 15 (flags from high byte op)
  • INC rr: no flag updates (executed by the 16-bit inc/dec unit)
  • DEC rr: no flag updates (executed by the 16-bit inc/dec unit)

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