XOR = Logical Exclusive-OR
Hex | Mnemonic | Cycles |
---|---|---|
38 | XOR A, A | 8 |
39 | XOR A, B | 8 |
3A nn | XOR A, #nn | 8 |
3B | XOR A, [HL] | 8 |
3C nn | XOR A, [N+#nn] | 12 |
3D nn nn | XOR A, [#nnnn] | 16 |
3E | XOR A, [X] | 8 |
3F | XOR A, [Y] | 8 |
9E nn | XOR F, #nn | 12 |
CE B8 nn | XOR B, #nn | 12 |
CE B9 nn | XOR L, #nn | 12 |
CE BA nn | XOR H, #nn | 12 |
DA nn nn | XOR [N+#nn], #nn | 20 |
CE 38 ss | XOR A, [X+#ss] | 16 |
CE 39 ss | XOR A, [Y+#ss] | 16 |
CE 3A | XOR A, [X+L] | 16 |
CE 3B | XOR A, [Y+L] | 16 |
CE 3C | XOR [HL], A | 16 |
CE 3D nn | XOR [HL], #nn | 20 |
CE 3E | XOR [HL], [X] | 20 |
CE 3F | XOR [HL], [Y] | 20 |
Execute
#nn = Immediate unsigned 8-Bits A = Register A B = Register B L = Register L H = Register H F = Register F [N+#nn] = Memory: (I shl 16) or (N shl 8) or #nn [HL] = Memory: (I shl 16) or HL [X] = Memory: (XI shl 16) or X [Y] = Memory: (YI shl 16) or Y [#nnnn] = Memory: #nnnn [X+#ss] = Memory: (XI shl 16) or (X + #ss) [Y+#ss] = Memory: (YI shl 16) or (Y + #ss) [X+L] = Memory: (XI shl 16) or (X + signed(L)) [Y+L] = Memory: (YI shl 16) or (Y + signed(L))
; XOR Ds, Sc ; ; Ds = Destination ; Sc = Source Ds = Ds XOR Sc
Description
"8-Bits Destination" Logic XOR (Exclusive-OR) with "8-Bits Source".
Can be used to toggle one or multiple bits. Bit 0 - Mask $01 Bit 1 - Mask $02 Bit 2 - Mask $04 Bit 3 - Mask $08 Bit 4 - Mask $10 Bit 5 - Mask $20 Bit 6 - Mask $40 Bit 7 - Mask $80 All - Mask $FF
Conditions
Zero: Set when result is 0
Sign: Set when 7th bit of the result is 1
Carry and Overflow remain unchanged
Examples
; A = 0x45 XOR A, $40 ; A = 0x05 ; F = (Zero=0):(Sign=0)
; B = 0xF0 XOR B, $04 ; B = 0xF4 ; F = (Zero=0):(Sign=1)
; A = 0xF0 XOR A, $55 ; A = 0xA5 ; F = (Zero=0):(Sign=1)