Difference between revisions of "Z80 wait instructions"

From MSX Game Library

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| <tt>CP (IY+0)<br/>CP (HL)</tt>  || 29 || 4 || C, S, and Z flags modified by definition. P/V detects overflow.
 
| <tt>CP (IY+0)<br/>CP (HL)</tt>  || 29 || 4 || C, S, and Z flags modified by definition. P/V detects overflow.
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| <tt>NOP<br/>INC (HL)<br/>DEC (HL)</tt>  || 29 || 3 || Preserves C flag, N flag is reset, P/V detects overflow and rest are modified by definition.<br/>C flag preserved, P/V detects overflow and rest modified by definition.
 
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| <tt>BIT 0,(HL)<br/>CP (HL)<br/>CP (HL)</tt> || 30 || 4 || Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.<br/>C, S, and Z flags modified by definition. P/V detects overflow.
 
| <tt>BIT 0,(HL)<br/>CP (HL)<br/>CP (HL)</tt> || 30 || 4 || Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.<br/>C, S, and Z flags modified by definition. P/V detects overflow.
 
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Revision as of 11:41, 3 March 2024

Z80 instruction set that don't change registers value (except for F and R registers):

Inst. T-S Bytes Flag modification
NOP 5 1 None
CP (HL) 8 1 C, S, and Z flags modified by definition. P/V detects overflow.
NOP
NOP
10 2 None
LD R,A 11 2 C is preserved, H and N are reset, and alters Z and S. P/V is set if interrupts are enabled, reset otherwise.
NOP
CP (HL)
13 2 C, S, and Z flags modified by definition. P/V detects overflow.
BIT 0,(HL) 14 2 Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.
NOP
NOP
NOP
15 3 None
CP (HL)
CP (HL)
16 2 C, S, and Z flags modified by definition. P/V detects overflow.
NOP
NOP
CP (HL)
18 3 C, S, and Z flags modified by definition. P/V detects overflow.
NOP
BIT 0,(HL)
19 3 Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.
NOP
NOP
NOP
NOP
20 4 None
CP (IY+0) 21 3 C, S, and Z flags modified by definition. P/V detects overflow.
CP (HL)
BIT 0,(HL)
22 3 C, S, and Z flags modified by definition. P/V detects overflow.
Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.
PUSH AF
POP AF
23 2 None
CP (HL)
CP (HL)
CP (HL)
24 3 C, S, and Z flags modified by definition. P/V detects overflow.
INC (HL)
DEC (HL)
24 2 Preserves C flag, N flag is reset, P/V detects overflow and rest are modified by definition.
C flag preserved, P/V detects overflow and rest modified by definition.
NOP
NOP
NOP
NOP
NOP
25 5 None
NOP
CP (IY+0)
26 4 C, S, and Z flags modified by definition. P/V detects overflow.
NOP
CP (HL)
BIT 0,(HL)
27 4 C, S, and Z flags modified by definition. P/V detects overflow.
Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.
NOP
PUSH AF
POP AF
28 3 None
CP (IY+0)
CP (HL)
29 4 C, S, and Z flags modified by definition. P/V detects overflow.
NOP
INC (HL)
DEC (HL)
29 3 Preserves C flag, N flag is reset, P/V detects overflow and rest are modified by definition.
C flag preserved, P/V detects overflow and rest modified by definition.
BIT 0,(HL)
CP (HL)
CP (HL)
30 4 Opposite of the bit #0 is written into the Z flag. C is preserved, N is reset, H is set, and S and P/V are undefined.
C, S, and Z flags modified by definition. P/V detects overflow.