; Z80 Interpreter.
; This is part of the Z80-CP/M emulator written by Sprite_tm.
; The Z80-specific instructions themselves actually aren't
; implemented yet, making this more of an i8080 emulator.
; Copyright (C) 2010 Sprite_tm
; Copyright (C) 2010 Leo C.
; This file is part of avrcpm.
;
; avrcpm is free software: you can redistribute it and/or modify it
; under the terms of the GNU General Public License as published by
; the Free Software Foundation, either version 3 of the License, or
; (at your option) any later version.
;
; avrcpm is distributed in the hope that it will be useful,
; but WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
; GNU General Public License for more details.
;
; You should have received a copy of the GNU General Public License
; along with avrcpm. If not, see .
;
; $Id$
;
.dseg
z_b: .byte 1
z_c: .byte 1
z_d: .byte 1
z_e: .byte 1
z_h: .byte 1
z_l: .byte 1
.cseg
;Init z80
z80_init:
ldi z_pcl,low (IPLADDR)
ldi z_pch,high(IPLADDR)
cbi flags,trace
printnewline
printstring "Ok, CPU is live!"
printnewline
main:
.if INS_DEBUG
cbi flags,trace
cpi z_pch,DBG_TRACE_BOTTOM
brlo notraceon
cpi z_pch,DBG_TRACE_TOP
brsh notraceon
sbi flags,trace
notraceon:
.endif
.if PRINT_PC
cpi z_pch,DBG_TRACE_BOTTOM
brlo noprintpc
cpi z_pch,DBG_TRACE_TOP
brsh noprintpc
printnewline
printstring "PC="
movw temp,z_pcl
rcall printhexw
printstring " "
noprintpc:
.endif
; *** Stage 1: Fetch next opcode
mem_read_s z_pc
.if INS_DEBUG
sbis flags,trace
rjmp notrace1
printnewline
printstring "PC="
push temp
movw temp,z_pcl
rcall printhexw
pop temp
printstring ", opcode="
rcall printhex
notrace1:
.endif
adiw z_pcl,1
; *** Stage 2: Decode it using the ins_table.
ldi zh,high(inst_table*2)
mov zl,temp
add zl,temp
adc zh,_0
lpm insdecl,Z+
lpm insdech,Z
.if INS_DEBUG
sbis flags,trace
rjmp notrace2
printstring ", decoded="
movw temp,insdecl
rcall printhexw
notrace2:
.endif
; *** Stage 3: Fetch operand. Use the fetch jumptable for this.
mov temp,insdecl
andi temp,0x1F
breq nofetch
ldi zl,low(fetchjumps)
ldi zh,high(fetchjumps)
add zl,temp
adc zh,_0
icall
.if INS_DEBUG
sbis flags,trace
rjmp notrace3
printstring " pre: op="
movw temp,opl
rcall printhexw
notrace3:
rjmp nonofetch
.endif
nofetch:
.if INS_DEBUG
sbis flags,trace
rjmp nonofetch
printstring " "
nonofetch:
.endif
; *** Stage 4: Execute operation :) Use the op jumptable for this.
mov temp,insdech
andi temp,0xFC
breq nooper
lsr temp
lsr temp
ldi zl,low(opjumps)
ldi zh,high(opjumps)
add zl,temp
adc zh,_0
icall
.if INS_DEBUG
sbis flags,trace
rjmp notrace4
printstring " post: op="
movw temp,opl
rcall printhexw
notrace4:
rjmp nonooper
.endif
nooper:
.if INS_DEBUG
sbis flags,trace
rjmp nonooper
printstring " "
nonooper:
.endif
; *** Stage 5: Store operand. Use the store jumptable for this.
swap insdecl
swap insdech
movw temp,insdecl
andi temp,0x0E
andi temp2,0x30
or temp,temp2
breq nostore
lsr temp
ldi zl,low(storejumps)
ldi zh,high(storejumps)
add zl,temp
adc zh,_0
icall
.if INS_DEBUG
sbis flags,trace
rjmp notrace5
printstring " stored "
notrace5:
.endif
nostore:
;All done. Neeeext!
rjmp main
; --------------------------------------------------------------
; ------------ Fetch phase stuff -----------------
.equ FETCH_NOP = (0<<0)
.equ FETCH_A = (1<<0)
.equ FETCH_B = (2<<0)
.equ FETCH_C = (3<<0)
.equ FETCH_D = (4<<0)
.equ FETCH_E = (5<<0)
.equ FETCH_H = (6<<0)
.equ FETCH_L = (7<<0)
.equ FETCH_AF = (8<<0)
.equ FETCH_BC = (9<<0)
.equ FETCH_DE = (10<<0)
.equ FETCH_HL = (11<<0)
.equ FETCH_SP = (12<<0)
.equ FETCH_MBC = (13<<0)
.equ FETCH_MDE = (14<<0)
.equ FETCH_MHL = (15<<0)
.equ FETCH_MSP = (16<<0)
.equ FETCH_DIR8 = (17<<0)
.equ FETCH_DIR16= (18<<0)
.equ FETCH_RST = (19<<0)
;Jump table for fetch routines. Make sure to keep this in sync with the .equs!
fetchjumps:
rjmp do_fetch_nop
rjmp do_fetch_a
rjmp do_fetch_b
rjmp do_fetch_c
rjmp do_fetch_d
rjmp do_fetch_e
rjmp do_fetch_h
rjmp do_fetch_l
rjmp do_fetch_af
rjmp do_fetch_bc
rjmp do_fetch_de
rjmp do_fetch_hl
rjmp do_fetch_sp
rjmp do_fetch_mbc
rjmp do_fetch_mde
rjmp do_fetch_mhl
rjmp do_fetch_msp
rjmp do_fetch_dir8
rjmp do_fetch_dir16
rjmp do_fetch_rst
do_fetch_nop:
ret
do_fetch_a:
mov opl,z_a
ret
do_fetch_b:
lds opl,z_b
ret
do_fetch_c:
lds opl,z_c
ret
do_fetch_d:
lds opl,z_d
ret
do_fetch_e:
lds opl,z_e
ret
do_fetch_h:
lds opl,z_h
ret
do_fetch_l:
lds opl,z_l
ret
do_fetch_af:
mov opl,z_flags
mov oph,z_a
ret
do_fetch_bc:
lds opl,z_c
lds oph,z_b
ret
do_fetch_de:
lds opl,z_e
lds oph,z_d
ret
do_fetch_hl:
lds opl,z_l
lds oph,z_h
ret
do_fetch_sp:
movw opl,z_spl
ret
do_fetch_mbc:
lds xh,z_b
lds xl,z_c
mem_read_d opl
ret
do_fetch_mde:
lds xh,z_d
lds xl,z_e
mem_read_d opl
ret
do_fetch_mhl:
lds xh,z_h
lds xl,z_l
mem_read_d opl
ret
do_fetch_msp:
movw x,z_spl
mem_read_d opl
adiw x,1
mem_read_d oph
ret
do_fetch_dir8:
mem_read_ds opl, z_pc
adiw z_pcl,1
ret
do_fetch_dir16:
mem_read_ds opl, z_pc
adiw z_pcl,1
mem_read_ds oph, z_pc
adiw z_pcl,1
ret
do_fetch_rst:
movw x,z_pcl
sbiw x,1
mem_read_d opl
andi opl,0x38
ldi oph,0
ret
; ------------ Store phase stuff -----------------
.equ STORE_NOP = (0<<5)
.equ STORE_A = (1<<5)
.equ STORE_B = (2<<5)
.equ STORE_C = (3<<5)
.equ STORE_D = (4<<5)
.equ STORE_E = (5<<5)
.equ STORE_H = (6<<5)
.equ STORE_L = (7<<5)
.equ STORE_AF = (8<<5)
.equ STORE_BC = (9<<5)
.equ STORE_DE = (10<<5)
.equ STORE_HL = (11<<5)
.equ STORE_SP = (12<<5)
.equ STORE_PC = (13<<5)
.equ STORE_MBC = (14<<5)
.equ STORE_MDE = (15<<5)
.equ STORE_MHL = (16<<5)
.equ STORE_MSP = (17<<5)
.equ STORE_RET = (18<<5)
.equ STORE_CALL = (19<<5)
.equ STORE_AM = (20<<5)
;Jump table for store routines. Make sure to keep this in sync with the .equs!
storejumps:
rjmp do_store_nop
rjmp do_store_a
rjmp do_store_b
rjmp do_store_c
rjmp do_store_d
rjmp do_store_e
rjmp do_store_h
rjmp do_store_l
rjmp do_store_af
rjmp do_store_bc
rjmp do_store_de
rjmp do_store_hl
rjmp do_store_sp
rjmp do_store_pc
rjmp do_store_mbc
rjmp do_store_mde
rjmp do_store_mhl
rjmp do_store_msp
rjmp do_store_ret
rjmp do_store_call
rjmp do_store_am
do_store_nop:
ret
do_store_a:
mov z_a,opl
ret
do_store_b:
sts z_b,opl
ret
do_store_c:
sts z_c,opl
ret
do_store_d:
sts z_d,opl
ret
do_store_e:
sts z_e,opl
ret
do_store_h:
sts z_h,opl
ret
do_store_l:
sts z_l,opl
ret
do_store_af:
mov z_a,oph
mov z_flags,opl
ret
do_store_bc:
sts z_b,oph
sts z_c,opl
ret
do_store_de:
sts z_d,oph
sts z_e,opl
ret
do_store_hl:
sts z_h,oph
sts z_l,opl
ret
do_store_mbc:
lds xh,z_b
lds xl,z_c
mem_write_s opl
ret
do_store_mde:
lds xh,z_d
lds xl,z_e
mem_write_s opl
ret
do_store_mhl:
lds xh,z_h
lds xl,z_l
mem_write_s opl
ret
do_store_msp:
movw xl,z_spl
mem_write_s opl
adiw xl,1
mem_write_s oph
ret
do_store_sp:
movw z_spl,opl
ret
do_store_pc:
movw z_pcl,opl
ret
do_store_ret:
movw x,z_spl
mem_read_d z_pcl
adiw x,1
mem_read_d z_pch
adiw x,1
movw z_spl,x
.if STACK_DBG
printnewline
printstring "Stack pop "
movw temp,z_pcl
rcall printhexw
printstring ", SP is now "
movw temp,z_spl
rcall printhexw
printstring ". "
.endif
ret
do_store_call:
movw xl,z_spl
sbiw x,1
mem_write_s z_pch
sbiw x,1
mem_write_s z_pcl
movw z_spl,xl
.if STACK_DBG
printnewline
printstring "Stack push "
movw temp,z_pcl
rcall printhexw
printstring ", SP is now "
movw temp,z_spl
rcall printhexw
printstring ". "
.endif
movw z_pcl,opl
ret
do_store_am:
mem_write_ds op, z_a
ret
; ------------ Operation phase stuff -----------------
.equ OP_NOP = (0<<10)
.equ OP_INC = (1<<10)
.equ OP_DEC = (2<<10)
.equ OP_INC16 = (3<<10)
.equ OP_DEC16 = (4<<10)
.equ OP_RLC = (5<<10)
.equ OP_RRC = (6<<10)
.equ OP_RR = (7<<10)
.equ OP_RL = (8<<10)
.equ OP_ADDA = (9<<10)
.equ OP_ADCA = (10<<10)
.equ OP_SUBFA = (11<<10)
.equ OP_SBCFA = (12<<10)
.equ OP_ANDA = (13<<10)
.equ OP_ORA = (14<<10)
.equ OP_XORA = (15<<10)
.equ OP_ADDHL = (16<<10)
.equ OP_STHL = (17<<10) ;store HL in fetched address
.equ OP_RMEM16 = (18<<10) ;read mem at fetched address
.equ OP_RMEM8 = (19<<10) ;read mem at fetched address
.equ OP_DA = (20<<10)
.equ OP_SCF = (21<<10)
.equ OP_CPL = (22<<10)
.equ OP_CCF = (23<<10)
.equ OP_POP16 = (24<<10)
.equ OP_PUSH16 = (25<<10)
.equ OP_IFNZ = (26<<10)
.equ OP_IFZ = (27<<10)
.equ OP_IFNC = (28<<10)
.equ OP_IFC = (29<<10)
.equ OP_IFPO = (30<<10)
.equ OP_IFPE = (31<<10)
.equ OP_IFP = (32<<10)
.equ OP_IFM = (33<<10)
.equ OP_OUTA = (34<<10)
.equ OP_IN = (35<<10)
.equ OP_EXHL = (36<<10)
.equ OP_DI = (37<<10)
.equ OP_EI = (38<<10)
.equ OP_INV = (39<<10)
.equ OP_CPFA = (40<<10)
.equ OP_INCA = (41<<10)
.equ OP_DECA = (42<<10)
opjumps:
rjmp do_op_nop
rjmp do_op_inc
rjmp do_op_dec
rjmp do_op_inc16
rjmp do_op_dec16
rjmp do_op_rlc
rjmp do_op_rrc
rjmp do_op_rr
rjmp do_op_rl
rjmp do_op_adda
rjmp do_op_adca
rjmp do_op_subfa
rjmp do_op_sbcfa
rjmp do_op_anda
rjmp do_op_ora
rjmp do_op_xora
rjmp do_op_addhl
rjmp do_op_sthl
rjmp do_op_rmem16
rjmp do_op_rmem8
rjmp do_op_da
rjmp do_op_scf
rjmp do_op_cpl
rjmp do_op_ccf
rjmp do_op_pop16
rjmp do_op_push16
rjmp do_op_ifnz
rjmp do_op_ifz
rjmp do_op_ifnc
rjmp do_op_ifc
rjmp do_op_ifpo
rjmp do_op_ifpe
rjmp do_op_ifp
rjmp do_op_ifm
rjmp do_op_outa
rjmp do_op_in
rjmp do_op_exhl
rjmp do_op_di
rjmp do_op_ei
rjmp do_op_inv
rjmp do_op_cpfa
rjmp do_op_inca
rjmp do_op_deca
;----------------------------------------------------------------
;| |
;| Zilog |
;| |
;| ZZZZZZZ 88888 000 |
;| Z 8 8 0 0 |
;| Z 8 8 0 0 0 |
;| Z 88888 0 0 0 |
;| Z 8 8 0 0 0 |
;| Z 8 8 0 0 |
;| ZZZZZZZ 88888 000 |
;| |
;| Z80 MICROPROCESSOR Instruction Set Summary |
;| |
;----------------------------------------------------------------
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;|----------+------+---------------------+----------------------|
;|ADC A,s |***V0*|Add with Carry |A=A+s+CY |
;|ADC HL,ss |**?V0*|Add with Carry |HL=HL+ss+CY |
;|ADD A,s |***V0*|Add |A=A+s |
;|ADD HL,ss |--?-0*|Add |HL=HL+ss |
;|ADD IX,pp |--?-0*|Add |IX=IX+pp |
;|ADD IY,rr |--?-0*|Add |IY=IY+rr |
;|AND s |**1P00|Logical AND |A=A&s |
;|BIT b,m |?*1?0-|Test Bit |m&{2^b} |
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|CALL nn |------|Unconditional Call |-[SP]=PC,PC=nn |
;|CCF |--?-0*|Complement Carry Flag|CY=~CY |
;|CP s |***V1*|Compare |A-s |
;|CPD |****1-|Compare and Decrement|A-[HL],HL=HL-1,BC=BC-1|
;|CPDR |****1-|Compare, Dec., Repeat|CPD till A=[HL]or BC=0|
;|CPI |****1-|Compare and Increment|A-[HL],HL=HL+1,BC=BC-1|
;|CPIR |****1-|Compare, Inc., Repeat|CPI till A=[HL]or BC=0|
;|CPL |--1-1-|Complement |A=~A |
;|DAA |***P-*|Decimal Adjust Acc. |A=BCD format |
;|DEC s |***V1-|Decrement |s=s-1 |
;|DEC xx |------|Decrement |xx=xx-1 |
;|DEC ss |------|Decrement |ss=ss-1 |
;|DI |------|Disable Interrupts | |
;|DJNZ e |------|Dec., Jump Non-Zero |B=B-1 till B=0 |
;|EI |------|Enable Interrupts | |
;|EX [SP],HL|------|Exchange |[SP]<->HL |
;|EX [SP],xx|------|Exchange |[SP]<->xx |
;|EX AF,AF' |------|Exchange |AF<->AF' |
;|EX DE,HL |------|Exchange |DE<->HL |
;|EXX |------|Exchange |qq<->qq' (except AF)|
;|HALT |------|Halt | |
;|IM n |------|Interrupt Mode | (n=0,1,2)|
;|IN A,[n] |------|Input |A=[n] |
;|IN r,[C] |***P0-|Input |r=[C] |
;|INC r |***V0-|Increment |r=r+1 |
;|INC [HL] |***V0-|Increment |[HL]=[HL]+1 |
;|INC xx |------|Increment |xx=xx+1 |
;|INC [xx+d]|***V0-|Increment |[xx+d]=[xx+d]+1 |
;|INC ss |------|Increment |ss=ss+1 |
;|IND |?*??1-|Input and Decrement |[HL]=[C],HL=HL-1,B=B-1|
;|INDR |?1??1-|Input, Dec., Repeat |IND till B=0 |
;|INI |?*??1-|Input and Increment |[HL]=[C],HL=HL+1,B=B-1|
;|INIR |?1??1-|Input, Inc., Repeat |INI till B=0 |
;|JP [HL] |------|Unconditional Jump |PC=[HL] |
;|JP [xx] |------|Unconditional Jump |PC=[xx] |
;|JP nn |------|Unconditional Jump |PC=nn |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|JR e |------|Unconditional Jump |PC=PC+e |
;|JR cc,e |------|Conditional Jump |If cc JR(cc=C,NC,NZ,Z)|
;|LD dst,src|------|Load |dst=src |
;|LD A,i |**0*0-|Load |A=i (i=I,R)|
;|LDD |--0*0-|Load and Decrement |[DE]=[HL],HL=HL-1,# |
;|LDDR |--000-|Load, Dec., Repeat |LDD till BC=0 |
;|LDI |--0*0-|Load and Increment |[DE]=[HL],HL=HL+1,# |
;|LDIR |--000-|Load, Inc., Repeat |LDI till BC=0 |
;|NEG |***V1*|Negate |A=-A |
;|NOP |------|No Operation | |
;|OR s |**0P00|Logical inclusive OR |A=Avs |
;|OTDR |?1??1-|Output, Dec., Repeat |OUTD till B=0 |
;|OTIR |?1??1-|Output, Inc., Repeat |OUTI till B=0 |
;|OUT [C],r |------|Output |[C]=r |
;|OUT [n],A |------|Output |[n]=A |
;|OUTD |?*??1-|Output and Decrement |[C]=[HL],HL=HL-1,B=B-1|
;|OUTI |?*??1-|Output and Increment |[C]=[HL],HL=HL+1,B=B-1|
;|POP xx |------|Pop |xx=[SP]+ |
;|POP qq |------|Pop |qq=[SP]+ |
;|PUSH xx |------|Push |-[SP]=xx |
;|PUSH qq |------|Push |-[SP]=qq |
;|RES b,m |------|Reset bit |m=m&{~2^b} |
;|RET |------|Return |PC=[SP]+ |
;|RET cc |------|Conditional Return |If cc RET |
;|RETI |------|Return from Interrupt|PC=[SP]+ |
;|RETN |------|Return from NMI |PC=[SP]+ |
;|RL m |**0P0*|Rotate Left |m={CY,m}<- |
;|RLA |--0-0*|Rotate Left Acc. |A={CY,A}<- |
;|RLC m |**0P0*|Rotate Left Circular |m=m<- |
;|RLCA |--0-0*|Rotate Left Circular |A=A<- |
;|RLD |**0P0-|Rotate Left 4 bits |{A,[HL]}={A,[HL]}<- ##|
;|RR m |**0P0*|Rotate Right |m=->{CY,m} |
;|RRA |--0-0*|Rotate Right Acc. |A=->{CY,A} |
;|RRC m |**0P0*|Rotate Right Circular|m=->m |
;|RRCA |--0-0*|Rotate Right Circular|A=->A |
;|RRD |**0P0-|Rotate Right 4 bits |{A,[HL]}=->{A,[HL]} ##|
;|RST p |------|Restart | (p=0H,8H,10H,...,38H)|
;|SBC A,s |***V1*|Subtract with Carry |A=A-s-CY |
;|SBC HL,ss |**?V1*|Subtract with Carry |HL=HL-ss-CY |
;|SCF |--0-01|Set Carry Flag |CY=1 |
;|SET b,m |------|Set bit |m=mv{2^b} |
;|SLA m |**0P0*|Shift Left Arithmetic|m=m*2 |
;|SRA m |**0P0*|Shift Right Arith. |m=m/2 |
;|SRL m |**0P0*|Shift Right Logical |m=->{0,m,CY} |
;|SUB s |***V1*|Subtract |A=A-s |
;|XOR s |**0P00|Logical Exclusive OR |A=Axs |
;|----------+------+--------------------------------------------|
;| F |-*01? |Flag unaffected/affected/reset/set/unknown |
;| S |S |Sign flag (Bit 7) |
;| Z | Z |Zero flag (Bit 6) |
;| HC | H |Half Carry flag (Bit 4) |
;| P/V | P |Parity/Overflow flag (Bit 2, V=overflow) |
;| N | N |Add/Subtract flag (Bit 1) |
;| CY | C|Carry flag (Bit 0) |
;|-----------------+--------------------------------------------|
;| n |Immediate addressing |
;| nn |Immediate extended addressing |
;| e |Relative addressing (PC=PC+2+offset) |
;| [nn] |Extended addressing |
;| [xx+d] |Indexed addressing |
;| r |Register addressing |
;| [rr] |Register indirect addressing |
;| |Implied addressing |
;| b |Bit addressing |
;| p |Modified page zero addressing (see RST) |
;|-----------------+--------------------------------------------|
;|DEFB n(,...) |Define Byte(s) |
;|DEFB 'str'(,...) |Define Byte ASCII string(s) |
;|DEFS nn |Define Storage Block |
;|DEFW nn(,...) |Define Word(s) |
;|-----------------+--------------------------------------------|
;| A B C D E |Registers (8-bit) |
;| AF BC DE HL |Register pairs (16-bit) |
;| F |Flag register (8-bit) |
;| I |Interrupt page address register (8-bit) |
;| IX IY |Index registers (16-bit) |
;| PC |Program Counter register (16-bit) |
;| R |Memory Refresh register |
;| SP |Stack Pointer register (16-bit) |
;|-----------------+--------------------------------------------|
;| b |One bit (0 to 7) |
;| cc |Condition (C,M,NC,NZ,P,PE,PO,Z) |
;| d |One-byte expression (-128 to +127) |
;| dst |Destination s, ss, [BC], [DE], [HL], [nn] |
;| e |One-byte expression (-126 to +129) |
;| m |Any register r, [HL] or [xx+d] |
;| n |One-byte expression (0 to 255) |
;| nn |Two-byte expression (0 to 65535) |
;| pp |Register pair BC, DE, IX or SP |
;| qq |Register pair AF, BC, DE or HL |
;| qq' |Alternative register pair AF, BC, DE or HL |
;| r |Register A, B, C, D, E, H or L |
;| rr |Register pair BC, DE, IY or SP |
;| s |Any register r, value n, [HL] or [xx+d] |
;| src |Source s, ss, [BC], [DE], [HL], nn, [nn] |
;| ss |Register pair BC, DE, HL or SP |
;| xx |Index register IX or IY |
;|-----------------+--------------------------------------------|
;| + - * / ^ |Add/subtract/multiply/divide/exponent |
;| & ~ v x |Logical AND/NOT/inclusive OR/exclusive OR |
;| <- -> |Rotate left/right |
;| [ ] |Indirect addressing |
;| [ ]+ -[ ] |Indirect addressing auto-increment/decrement|
;| { } |Combination of operands |
;| # |Also BC=BC-1,DE=DE-1 |
;| ## |Only lower 4 bits of accumulator A used |
;----------------------------------------------------------------
;How the flags are supposed to work:
;7 ZFL_S - Sign flag (=MSBit of result)
;6 ZFL_Z - Zero flag. Is 1 when the result is 0
;4 ZFL_H - Half-carry (carry from bit 3 to 4)
;2 ZFL_P - Parity/2-complement Overflow
;1 ZFL_N - Subtract - set if last op was a subtract
;0 ZFL_C - Carry
;
;I sure hope I got the mapping between flags and instructions correct...
.equ ZFL_S = 7
.equ ZFL_Z = 6
.equ ZFL_H = 4
.equ ZFL_P = 2
.equ ZFL_N = 1
.equ ZFL_C = 0
.equ AVR_T = SREG_T
.equ AVR_H = SREG_H
.equ AVR_S = SREG_S
.equ AVR_V = SREG_V
.equ AVR_N = SREG_N
.equ AVR_Z = SREG_Z
.equ AVR_C = SREG_C
;------------------------------------------------;
; Load table value from flash indexed by source reg.
;
; ldpmx dstreg,tablebase,indexreg
;
; (6 words, 8 cycles)
.macro ldpmx
ldi zh,high(@1*2) ; table must be page aligned
mov zl,@2
lpm @0,z
.endm
.macro do_z80_flags_HP
#if EM_Z80
bmov z_flags, ZFL_P, temp, AVR_V
bmov z_flags, ZFL_H, temp, AVR_H
#endif
.endm
.macro do_z80_flags_set_N
#if EM_Z80
ori z_flags, (1< ("
mov temp,opl
rcall printhex
printstring ") "
.endif
mov temp,z_a
mov temp2,opl
rcall portWrite
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|IN A,[n] |------|Input |A=[n] |
;
;
do_op_in: ; in a,(opl)
.if PORT_DEBUG
printnewline
printstring "Port read: ("
mov temp,opl
rcall printhex
printstring ") -> "
.endif
mov temp2,opl
rcall portRead
mov opl,temp
.if PORT_DEBUG
rcall printhex
printstring " "
.endif
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|INC r |***V0-|Increment |r=r+1 |
;|INC [HL] |***V0-|Increment |[HL]=[HL]+1 |
;|INC [xx+d]|***V0-|Increment |[xx+d]=[xx+d]+1 |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|INC r |**-P0-|Increment |r=r+1 |
;|INC [HL] |**-P0-|Increment |[HL]=[HL]+1 |
;
;
do_op_inc:
inc opl
#if EM_Z80
in temp, sreg
#endif
andi z_flags,(1<A |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|RRCA |---- *|Rotate Right Circular|A=->A |
;
;
do_op_rrc:
;Rotate Right Cyclical. All bits move 1 to the
;right, the lsb becomes c and msb.
do_z80_flags_op_rotate
lsr opl
brcc do_op_rrc_noc
ori opl, 0x80
ori z_flags, (1<{CY,A} |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|RRA |---- *|Rotate Right Acc. |A=->{CY,A} |
;
;
do_op_rr:
;Rotate Right. All bits move 1 to the right, the lsb
;becomes c, c becomes msb.
clc ; get z80 carry to avr carry
sbrc z_flags,ZFL_C
sec
do_z80_flags_op_rotate ; (clear ZFL_C, doesn't change AVR_C)
bmov z_flags,ZFL_C, opl,0 ; Bit 0 --> CY
ror opl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|RLA |--0-0*|Rotate Left Acc. |A={CY,A}<- |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|RLA |---- *|Rotate Left Acc. |A={CY,A}<- |
;
;
do_op_rl:
;Rotate Left. All bits move 1 to the left, the msb
;becomes c, c becomes lsb.
clc
sbrc z_flags,ZFL_C
sec
do_z80_flags_op_rotate ; (clear ZFL_C, doesn't change AVR_C)
bmov z_flags,ZFL_C, opl,7 ; Bit 7 --> CY
rol opl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|ADD A,s |***V0*|Add |A=A+s |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|ADD A,s |***P *|Add |A=A+s |
;
;
do_op_adda:
add z_a,opl
in temp,sreg
ldpmx z_flags,sz53p_tab,z_a ;S,Z,P flag
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_HP
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|ADC A,s |***V0*|Add with Carry |A=A+s+CY |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|ADC A,s |***P *|Add with Carry |A=A+s+CY |
;
;
do_op_adca:
clc
sbrc z_flags,ZFL_C
sec
adc z_a,opl
in temp,sreg
ldpmx z_flags,sz53p_tab,z_a ;S,Z,P
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_HP
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|SUB s |***V1*|Subtract |A=A-s |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|SUB s |***P *|Subtract |A=A-s |
;
do_op_subfa:
sub z_a,opl
in temp,sreg
ldpmx z_flags,sz53p_tab,z_a ;S,Z,P
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_HP
do_z80_flags_set_N
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CP s |***V1*|Compare |A-s |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|CP s |***P *|Compare |A-s |
;
do_op_cpfa:
mov temp,z_a
sub temp,opl
mov opl,temp
in temp,sreg
ldpmx z_flags,sz53p_tab,opl ;S,Z,P
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_HP
do_z80_flags_set_N
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|SBC A,s |***V1*|Subtract with Carry |A=A-s-CY |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|SBC A,s |***P *|Subtract with Carry |A=A-s-CY |
;
;
do_op_sbcfa:
clc
sbrc z_flags,ZFL_C
sec
sbc z_a,opl
in temp,sreg
ldpmx z_flags,sz53p_tab,z_a ;S,Z,P
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_HP
do_z80_flags_set_N
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|AND s |**1P00|Logical AND |A=A&s |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|AND s |**-P 0|Logical AND |A=A&s |
;
; TODO H-Flag
do_op_anda:
and z_a,opl ;
ldpmx z_flags,sz53p_tab,z_a ;S,Z,P,N,C
do_z80_flags_op_and
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|OR s |**0P00|Logical inclusive OR |A=Avs |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|OR s |**-P00|Logical inclusive OR |A=Avs |
;
; TODO: H-Flag
do_op_ora:
or z_a,opl
ldpmx z_flags,sz53p_tab,z_a ;S,Z,H,P,N,C
do_z80_flags_op_or
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|XOR s |**0P00|Logical Exclusive OR |A=Axs |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|XOR s |**-P 0|Logical Exclusive OR |A=Axs |
;
; TODO: H-Flag
do_op_xora:
eor z_a,opl
ldpmx z_flags,sz53p_tab,z_a ;S,Z,H,P,N,C
do_z80_flags_op_or
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|ADD HL,ss |--?-0*|Add |HL=HL+ss |
;|----------|SZHP C|---------- 8080 ----------------------------|
;|ADD HL,ss |---- *|Add |HL=HL+ss |
;
;
do_op_addhl:
lds temp,z_l
lds temp2,z_h
add opl,temp
adc oph,temp2
in temp,sreg
bmov z_flags,ZFL_H, temp,AVR_H
bmov z_flags,ZFL_C, temp,AVR_C
do_z80_flags_clear_N
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|LD dst,src|------|Load |dst=src |
;
;
do_op_sthl: ;store hl to mem loc in opl:h
movw xl,opl
lds temp,z_l
mem_write
adiw xl,1
lds temp,z_h
mem_write
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|LD dst,src|------|Load |dst=src |
;
;
do_op_rmem16:
movw xl,opl
mem_read_d opl
adiw x,1
mem_read_d oph
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|LD dst,src|------|Load |dst=src |
;
;
do_op_rmem8:
mem_read_ds opl, op
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|DAA |***P-*|Decimal Adjust Acc. | |
;|----------|SZHP C|---------- 8080 ----------------------------|
;
; Not yet checked
; Description (http://www.z80.info/z80syntx.htm#DAA):
; This instruction conditionally adjusts the accumulator for BCD addition
; and subtraction operations. For addition (ADD, ADC, INC) or subtraction
; (SUB, SBC, DEC, NEC), the following table indicates the operation performed:
;
; -------------------------------------------------------------------------------
; | | 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 |
; |-----------------------------------------------------------------------------|
;
; Flags:
; C: See instruction.
; N: Unaffected.
; P/V: Set if Acc. is even parity after operation, reset otherwise.
; H: See instruction.
; Z: Set if Acc. is Zero after operation, reset otherwise.
; S: Set if most significant bit of Acc. is 1 after operation, reset otherwise.
#if 1
do_op_da:
ldi oph,0 ; what to add
sbrc z_flags,ZFL_H ; if H-Flag
rjmp op_da_06
mov temp,opl
andi temp,0x0f ; ... or lower digit > 9
cpi temp,0x0a
brlo op_da_06n
op_da_06:
ori oph,0x06
op_da_06n:
sbrc z_flags,(1< 9
brlo do_op_da_h ;
ori temp2,0x06 ; add 6 to lower digit
do_op_da_h: ;
sbrc z_flags,ZFL_H ; ... or H-Flag
ori temp2,0x06 ;
add opl,temp2 ;
ldi temp2,0 ;
mov temp,opl ;
andi temp,0xf0 ;
cpi temp,0xa0 ;
brlo do_op_da_c ;
ori temp2,0x60 ;
do_op_da_c: ; else sub-op
sbrc z_flags,ZFL_C ;
ori temp2,0x60 ;
andi z_flags, ~( (1<HL |
;|EX DE,HL |------|Exchange |DE<->HL |
;
;
do_op_exhl:
lds temp,z_l
lds temp2,z_h
sts z_l,opl
sts z_h,oph
movw opl,temp
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;
; TODO: Implement IFF1, IFF2
do_op_di:
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;
; TODO: Implement IFF1, IFF2
do_op_ei:
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifnz:
sbrs z_flags, ZFL_Z
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifz:
sbrc z_flags, ZFL_Z
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifnc:
sbrs z_flags, ZFL_C
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifc:
sbrc z_flags, ZFL_C
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifpo:
sbrs z_flags, ZFL_P
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifpe:
sbrc z_flags, ZFL_P
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifp: ;sign positive, aka s=0
sbrs z_flags, ZFL_S
ret
clr insdech
clr insdecl
ret
;----------------------------------------------------------------
;|Mnemonic |SZHPNC|Description |Notes |
;----------------------------------------------------------------
;|CALL cc,nn|------|Conditional Call |If cc CALL |
;|JP cc,nn |------|Conditional Jump |If cc JP |
;|RET cc |------|Conditional Return |If cc RET |
;
;
do_op_ifm: ;sign negative, aka s=1
sbrc z_flags, ZFL_S
ret
clr insdech
clr insdecl
ret
; ----------------------- Opcode decoding -------------------------
; Lookup table for Z80 opcodes. Translates the first byte of the instruction word into three
; operations: fetch, do something, store.
; The table is made of 256 words. These 16-bit words consist of
; the fetch operation (bit 0-4), the processing operation (bit 10-16) and the store
; operation (bit 5-9).
.org (PC+255) & 0xff00
inst_table:
.dw (FETCH_NOP | OP_NOP | STORE_NOP) ; 00 NOP
.dw (FETCH_DIR16| OP_NOP | STORE_BC ) ; 01 nn nn LD BC,nn
.dw (FETCH_A | OP_NOP | STORE_MBC) ; 02 LD (BC),A
.dw (FETCH_BC | OP_INC16 | STORE_BC ) ; 03 INC BC
.dw (FETCH_B | OP_INC | STORE_B ) ; 04 INC B
.dw (FETCH_B | OP_DEC | STORE_B ) ; 05 DEC B
.dw (FETCH_DIR8 | OP_NOP | STORE_B ) ; 06 nn LD B,n
.dw (FETCH_A | OP_RLC | STORE_A ) ; 07 RLCA
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 08 EX AF,AF' (Z80)
.dw (FETCH_BC | OP_ADDHL | STORE_HL ) ; 09 ADD HL,BC
.dw (FETCH_MBC | OP_NOP | STORE_A ) ; 0A LD A,(BC)
.dw (FETCH_BC | OP_DEC16 | STORE_BC ) ; 0B DEC BC
.dw (FETCH_C | OP_INC | STORE_C ) ; 0C INC C
.dw (FETCH_C | OP_DEC | STORE_C ) ; 0D DEC C
.dw (FETCH_DIR8 | OP_NOP | STORE_C ) ; 0E nn LD C,n
.dw (FETCH_A | OP_RRC | STORE_A ) ; 0F RRCA
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 10 oo DJNZ o (Z80)
.dw (FETCH_DIR16| OP_NOP | STORE_DE ) ; 11 nn nn LD DE,nn
.dw (FETCH_A | OP_NOP | STORE_MDE) ; 12 LD (DE),A
.dw (FETCH_DE | OP_INC16 | STORE_DE ) ; 13 INC DE
.dw (FETCH_D | OP_INC | STORE_D ) ; 14 INC D
.dw (FETCH_D | OP_DEC | STORE_D ) ; 15 DEC D
.dw (FETCH_DIR8 | OP_NOP | STORE_D ) ; 16 nn LD D,n
.dw (FETCH_A | OP_RL | STORE_A ) ; 17 RLA
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 18 oo JR o (Z80)
.dw (FETCH_DE | OP_ADDHL | STORE_HL ) ; 19 ADD HL,DE
.dw (FETCH_MDE | OP_NOP | STORE_A ) ; 1A LD A,(DE)
.dw (FETCH_DE | OP_DEC16 | STORE_DE ) ; 1B DEC DE
.dw (FETCH_E | OP_INC | STORE_E ) ; 1C INC E
.dw (FETCH_E | OP_DEC | STORE_E ) ; 1D DEC E
.dw (FETCH_DIR8 | OP_NOP | STORE_E ) ; 1E nn LD E,n
.dw (FETCH_A | OP_RR | STORE_A ) ; 1F RRA
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 20 oo JR NZ,o (Z80)
.dw (FETCH_DIR16| OP_NOP | STORE_HL ) ; 21 nn nn LD HL,nn
.dw (FETCH_DIR16| OP_STHL | STORE_NOP) ; 22 nn nn LD (nn),HL
.dw (FETCH_HL | OP_INC16 | STORE_HL ) ; 23 INC HL
.dw (FETCH_H | OP_INC | STORE_H ) ; 24 INC H
.dw (FETCH_H | OP_DEC | STORE_H ) ; 25 DEC H
.dw (FETCH_DIR8 | OP_NOP | STORE_H ) ; 26 nn LD H,n
.dw (FETCH_A | OP_DA | STORE_A ) ; 27 DAA
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 28 oo JR Z,o (Z80)
.dw (FETCH_HL | OP_ADDHL | STORE_HL ) ; 29 ADD HL,HL
.dw (FETCH_DIR16| OP_RMEM16 | STORE_HL ) ; 2A nn nn LD HL,(nn)
.dw (FETCH_HL | OP_DEC16 | STORE_HL ) ; 2B DEC HL
.dw (FETCH_L | OP_INC | STORE_L ) ; 2C INC L
.dw (FETCH_L | OP_DEC | STORE_L ) ; 2D DEC L
.dw (FETCH_DIR8 | OP_NOP | STORE_L ) ; 2E nn LD L,n
.dw (FETCH_NOP | OP_CPL | STORE_NOP) ; 2F CPL
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 30 oo JR NC,o (Z80)
.dw (FETCH_DIR16| OP_NOP | STORE_SP ) ; 31 nn nn LD SP,nn
.dw (FETCH_DIR16| OP_NOP | STORE_AM ) ; 32 nn nn LD (nn),A
.dw (FETCH_SP | OP_INC16 | STORE_SP ) ; 33 INC SP
.dw (FETCH_MHL | OP_INC | STORE_MHL) ; 34 INC (HL)
.dw (FETCH_MHL | OP_DEC | STORE_MHL) ; 35 DEC (HL)
.dw (FETCH_DIR8 | OP_NOP | STORE_MHL) ; 36 nn LD (HL),n
.dw (FETCH_NOP | OP_SCF | STORE_NOP) ; 37 SCF
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; 38 oo JR C,o (Z80)
.dw (FETCH_SP | OP_ADDHL | STORE_HL ) ; 39 ADD HL,SP
.dw (FETCH_DIR16| OP_RMEM8 | STORE_A ) ; 3A nn nn LD A,(nn)
.dw (FETCH_SP | OP_DEC16 | STORE_SP ) ; 3B DEC SP
.dw (FETCH_NOP | OP_INCA | STORE_NOP) ; 3C INC A
.dw (FETCH_NOP | OP_DECA | STORE_NOP) ; 3D DEC A
.dw (FETCH_DIR8 | OP_NOP | STORE_A ) ; 3E nn LD A,n
.dw (FETCH_NOP | OP_CCF | STORE_NOP) ; 3F CCF (Complement Carry Flag, gvd)
.dw (FETCH_B | OP_NOP | STORE_B ) ; 40 LD B,r
.dw (FETCH_C | OP_NOP | STORE_B ) ; 41 LD B,r
.dw (FETCH_D | OP_NOP | STORE_B ) ; 42 LD B,r
.dw (FETCH_E | OP_NOP | STORE_B ) ; 43 LD B,r
.dw (FETCH_H | OP_NOP | STORE_B ) ; 44 LD B,r
.dw (FETCH_L | OP_NOP | STORE_B ) ; 45 LD B,r
.dw (FETCH_MHL | OP_NOP | STORE_B ) ; 46 LD B,r
.dw (FETCH_A | OP_NOP | STORE_B ) ; 47 LD B,r
.dw (FETCH_B | OP_NOP | STORE_C ) ; 48 LD C,r
.dw (FETCH_C | OP_NOP | STORE_C ) ; 49 LD C,r
.dw (FETCH_D | OP_NOP | STORE_C ) ; 4A LD C,r
.dw (FETCH_E | OP_NOP | STORE_C ) ; 4B LD C,r
.dw (FETCH_H | OP_NOP | STORE_C ) ; 4C LD C,r
.dw (FETCH_L | OP_NOP | STORE_C ) ; 4D LD C,r
.dw (FETCH_MHL | OP_NOP | STORE_C ) ; 4E LD C,r
.dw (FETCH_A | OP_NOP | STORE_C ) ; 4F LD C,r
.dw (FETCH_B | OP_NOP | STORE_D ) ; 50 LD D,r
.dw (FETCH_C | OP_NOP | STORE_D ) ; 51 LD D,r
.dw (FETCH_D | OP_NOP | STORE_D ) ; 52 LD D,r
.dw (FETCH_E | OP_NOP | STORE_D ) ; 53 LD D,r
.dw (FETCH_H | OP_NOP | STORE_D ) ; 54 LD D,r
.dw (FETCH_L | OP_NOP | STORE_D ) ; 55 LD D,r
.dw (FETCH_MHL | OP_NOP | STORE_D ) ; 56 LD D,r
.dw (FETCH_A | OP_NOP | STORE_D ) ; 57 LD D,r
.dw (FETCH_B | OP_NOP | STORE_E ) ; 58 LD E,r
.dw (FETCH_C | OP_NOP | STORE_E ) ; 59 LD E,r
.dw (FETCH_D | OP_NOP | STORE_E ) ; 5A LD E,r
.dw (FETCH_E | OP_NOP | STORE_E ) ; 5B LD E,r
.dw (FETCH_H | OP_NOP | STORE_E ) ; 5C LD E,r
.dw (FETCH_L | OP_NOP | STORE_E ) ; 5D LD E,r
.dw (FETCH_MHL | OP_NOP | STORE_E ) ; 5E LD E,r
.dw (FETCH_A | OP_NOP | STORE_E ) ; 5F LD E,r
.dw (FETCH_B | OP_NOP | STORE_H ) ; 60 LD H,r
.dw (FETCH_C | OP_NOP | STORE_H ) ; 61 LD H,r
.dw (FETCH_D | OP_NOP | STORE_H ) ; 62 LD H,r
.dw (FETCH_E | OP_NOP | STORE_H ) ; 63 LD H,r
.dw (FETCH_H | OP_NOP | STORE_H ) ; 64 LD H,r
.dw (FETCH_L | OP_NOP | STORE_H ) ; 65 LD H,r
.dw (FETCH_MHL | OP_NOP | STORE_H ) ; 66 LD H,r
.dw (FETCH_A | OP_NOP | STORE_H ) ; 67 LD H,r
.dw (FETCH_B | OP_NOP | STORE_L ) ; 68 LD L,r
.dw (FETCH_C | OP_NOP | STORE_L ) ; 69 LD L,r
.dw (FETCH_D | OP_NOP | STORE_L ) ; 6A LD L,r
.dw (FETCH_E | OP_NOP | STORE_L ) ; 6B LD L,r
.dw (FETCH_H | OP_NOP | STORE_L ) ; 6C LD L,r
.dw (FETCH_L | OP_NOP | STORE_L ) ; 6D LD L,r
.dw (FETCH_MHL | OP_NOP | STORE_L ) ; 6E LD L,r
.dw (FETCH_A | OP_NOP | STORE_L ) ; 6F LD L,r
.dw (FETCH_B | OP_NOP | STORE_MHL) ; 70 LD (HL),r
.dw (FETCH_C | OP_NOP | STORE_MHL) ; 71 LD (HL),r
.dw (FETCH_D | OP_NOP | STORE_MHL) ; 72 LD (HL),r
.dw (FETCH_E | OP_NOP | STORE_MHL) ; 73 LD (HL),r
.dw (FETCH_H | OP_NOP | STORE_MHL) ; 74 LD (HL),r
.dw (FETCH_L | OP_NOP | STORE_MHL) ; 75 LD (HL),r
.dw (FETCH_NOP | OP_NOP | STORE_NOP) ; 76 HALT
.dw (FETCH_A | OP_NOP | STORE_MHL) ; 77 LD (HL),r
.dw (FETCH_B | OP_NOP | STORE_A ) ; 78 LD A,r
.dw (FETCH_C | OP_NOP | STORE_A ) ; 79 LD A,r
.dw (FETCH_D | OP_NOP | STORE_A ) ; 7A LD A,r
.dw (FETCH_E | OP_NOP | STORE_A ) ; 7B LD A,r
.dw (FETCH_H | OP_NOP | STORE_A ) ; 7C LD A,r
.dw (FETCH_L | OP_NOP | STORE_A ) ; 7D LD A,r
.dw (FETCH_MHL | OP_NOP | STORE_A ) ; 7E LD A,r
.dw (FETCH_A | OP_NOP | STORE_A ) ; 7F LD A,r
.dw (FETCH_B | OP_ADDA | STORE_NOP) ; 80 ADD A,r
.dw (FETCH_C | OP_ADDA | STORE_NOP) ; 81 ADD A,r
.dw (FETCH_D | OP_ADDA | STORE_NOP) ; 82 ADD A,r
.dw (FETCH_E | OP_ADDA | STORE_NOP) ; 83 ADD A,r
.dw (FETCH_H | OP_ADDA | STORE_NOP) ; 84 ADD A,r
.dw (FETCH_L | OP_ADDA | STORE_NOP) ; 85 ADD A,r
.dw (FETCH_MHL | OP_ADDA | STORE_NOP) ; 86 ADD A,r
.dw (FETCH_A | OP_ADDA | STORE_NOP) ; 87 ADD A,r
.dw (FETCH_B | OP_ADCA | STORE_NOP) ; 88 ADC A,r
.dw (FETCH_C | OP_ADCA | STORE_NOP) ; 89 ADC A,r
.dw (FETCH_D | OP_ADCA | STORE_NOP) ; 8A ADC A,r
.dw (FETCH_E | OP_ADCA | STORE_NOP) ; 8B ADC A,r
.dw (FETCH_H | OP_ADCA | STORE_NOP) ; 8C ADC A,r
.dw (FETCH_L | OP_ADCA | STORE_NOP) ; 8D ADC A,r
.dw (FETCH_MHL | OP_ADCA | STORE_NOP) ; 8E ADC A,r
.dw (FETCH_A | OP_ADCA | STORE_NOP) ; 8F ADC A,r
.dw (FETCH_B | OP_SUBFA | STORE_NOP) ; 90 SUB A,r
.dw (FETCH_C | OP_SUBFA | STORE_NOP) ; 91 SUB A,r
.dw (FETCH_D | OP_SUBFA | STORE_NOP) ; 92 SUB A,r
.dw (FETCH_E | OP_SUBFA | STORE_NOP) ; 93 SUB A,r
.dw (FETCH_H | OP_SUBFA | STORE_NOP) ; 94 SUB A,r
.dw (FETCH_L | OP_SUBFA | STORE_NOP) ; 95 SUB A,r
.dw (FETCH_MHL | OP_SUBFA | STORE_NOP) ; 96 SUB A,r
.dw (FETCH_A | OP_SUBFA | STORE_NOP) ; 97 SUB A,r
.dw (FETCH_B | OP_SBCFA | STORE_NOP) ; 98 SBC A,r
.dw (FETCH_C | OP_SBCFA | STORE_NOP) ; 99 SBC A,r
.dw (FETCH_D | OP_SBCFA | STORE_NOP) ; 9A SBC A,r
.dw (FETCH_E | OP_SBCFA | STORE_NOP) ; 9B SBC A,r
.dw (FETCH_H | OP_SBCFA | STORE_NOP) ; 9C SBC A,r
.dw (FETCH_L | OP_SBCFA | STORE_NOP) ; 9D SBC A,r
.dw (FETCH_MHL | OP_SBCFA | STORE_NOP) ; 9E SBC A,r
.dw (FETCH_A | OP_SBCFA | STORE_NOP) ; 9F SBC A,r
.dw (FETCH_B | OP_ANDA | STORE_NOP) ; A0 AND A,r
.dw (FETCH_C | OP_ANDA | STORE_NOP) ; A1 AND A,r
.dw (FETCH_D | OP_ANDA | STORE_NOP) ; A2 AND A,r
.dw (FETCH_E | OP_ANDA | STORE_NOP) ; A3 AND A,r
.dw (FETCH_H | OP_ANDA | STORE_NOP) ; A4 AND A,r
.dw (FETCH_L | OP_ANDA | STORE_NOP) ; A5 AND A,r
.dw (FETCH_MHL | OP_ANDA | STORE_NOP) ; A6 AND A,r
.dw (FETCH_A | OP_ANDA | STORE_NOP) ; A7 AND A,r
.dw (FETCH_B | OP_XORA | STORE_NOP) ; A8 XOR A,r
.dw (FETCH_C | OP_XORA | STORE_NOP) ; A9 XOR A,r
.dw (FETCH_D | OP_XORA | STORE_NOP) ; AA XOR A,r
.dw (FETCH_E | OP_XORA | STORE_NOP) ; AB XOR A,r
.dw (FETCH_H | OP_XORA | STORE_NOP) ; AC XOR A,r
.dw (FETCH_L | OP_XORA | STORE_NOP) ; AD XOR A,r
.dw (FETCH_MHL | OP_XORA | STORE_NOP) ; AE XOR A,r
.dw (FETCH_A | OP_XORA | STORE_NOP) ; AF XOR A,r
.dw (FETCH_B | OP_ORA | STORE_NOP) ; B0 OR A,r
.dw (FETCH_C | OP_ORA | STORE_NOP) ; B1 OR A,r
.dw (FETCH_D | OP_ORA | STORE_NOP) ; B2 OR A,r
.dw (FETCH_E | OP_ORA | STORE_NOP) ; B3 OR A,r
.dw (FETCH_H | OP_ORA | STORE_NOP) ; B4 OR A,r
.dw (FETCH_L | OP_ORA | STORE_NOP) ; B5 OR A,r
.dw (FETCH_MHL | OP_ORA | STORE_NOP) ; B6 OR A,r
.dw (FETCH_A | OP_ORA | STORE_NOP) ; B7 OR A,r
.dw (FETCH_B | OP_CPFA | STORE_NOP) ; B8 CP A,r
.dw (FETCH_C | OP_CPFA | STORE_NOP) ; B9 CP A,r
.dw (FETCH_D | OP_CPFA | STORE_NOP) ; BA CP A,r
.dw (FETCH_E | OP_CPFA | STORE_NOP) ; BB CP A,r
.dw (FETCH_H | OP_CPFA | STORE_NOP) ; BC CP A,r
.dw (FETCH_L | OP_CPFA | STORE_NOP) ; BD CP A,r
.dw (FETCH_MHL | OP_CPFA | STORE_NOP) ; BE CP A,r
.dw (FETCH_A | OP_CPFA | STORE_NOP) ; BF CP A,r
.dw (FETCH_NOP | OP_IFNZ | STORE_RET) ; C0 RET NZ
.dw (FETCH_NOP | OP_POP16 | STORE_BC ) ; C1 POP BC
.dw (FETCH_DIR16| OP_IFNZ | STORE_PC ) ; C2 nn nn JP NZ,nn
.dw (FETCH_DIR16| OP_NOP | STORE_PC ) ; C3 nn nn JP nn
.dw (FETCH_DIR16| OP_IFNZ | STORE_CALL) ; C4 nn nn CALL NZ,nn
.dw (FETCH_BC | OP_PUSH16 | STORE_NOP) ; C5 PUSH BC
.dw (FETCH_DIR8 | OP_ADDA | STORE_NOP) ; C6 nn ADD A,n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; C7 RST 0
.dw (FETCH_NOP | OP_IFZ | STORE_RET) ; C8 RET Z
.dw (FETCH_NOP | OP_NOP | STORE_RET) ; C9 RET
.dw (FETCH_DIR16| OP_IFZ | STORE_PC ) ; CA nn nn JP Z,nn
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; CB (Z80 specific)
.dw (FETCH_DIR16| OP_IFZ | STORE_CALL) ; CC nn nn CALL Z,nn
.dw (FETCH_DIR16| OP_NOP | STORE_CALL) ; CD nn nn CALL nn
.dw (FETCH_DIR8 | OP_ADCA | STORE_NOP) ; CE nn ADC A,n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; CF RST 8H
.dw (FETCH_NOP | OP_IFNC | STORE_RET) ; D0 RET NC
.dw (FETCH_NOP | OP_POP16 | STORE_DE ) ; D1 POP DE
.dw (FETCH_DIR16| OP_IFNC | STORE_PC ) ; D2 nn nn JP NC,nn
.dw (FETCH_DIR8 | OP_OUTA | STORE_NOP) ; D3 nn OUT (n),A
.dw (FETCH_DIR16| OP_IFNC | STORE_CALL) ; D4 nn nn CALL NC,nn
.dw (FETCH_DE | OP_PUSH16 | STORE_NOP) ; D5 PUSH DE
.dw (FETCH_DIR8 | OP_SUBFA | STORE_NOP) ; D6 nn SUB n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; D7 RST 10H
.dw (FETCH_NOP | OP_IFC | STORE_RET) ; D8 RET C
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; D9 EXX (Z80)
.dw (FETCH_DIR16| OP_IFC | STORE_PC ) ; DA nn nn JP C,nn
.dw (FETCH_DIR8 | OP_IN | STORE_A ) ; DB nn IN A,(n)
.dw (FETCH_DIR16| OP_IFC | STORE_CALL) ; DC nn nn CALL C,nn
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; DD (Z80)
.dw (FETCH_DIR8 | OP_SBCFA | STORE_NOP) ; DE nn SBC A,n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; DF RST 18H
.dw (FETCH_NOP | OP_IFPO | STORE_RET) ; E0 RET PO
.dw (FETCH_NOP | OP_POP16 | STORE_HL ) ; E1 POP HL
.dw (FETCH_DIR16| OP_IFPO | STORE_PC ) ; E2 nn nn JP PO,nn
.dw (FETCH_MSP | OP_EXHL | STORE_MSP) ; E3 EX (SP),HL
.dw (FETCH_DIR16| OP_IFPO | STORE_CALL) ; E4 nn nn CALL PO,nn
.dw (FETCH_HL | OP_PUSH16 | STORE_NOP) ; E5 PUSH HL
.dw (FETCH_DIR8 | OP_ANDA | STORE_NOP) ; E6 nn AND n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; E7 RST 20H
.dw (FETCH_NOP | OP_IFPE | STORE_RET) ; E8 RET PE
.dw (FETCH_HL | OP_NOP | STORE_PC ) ; E9 JP (HL)
.dw (FETCH_DIR16| OP_IFPE | STORE_PC ) ; EA nn nn JP PE,nn
.dw (FETCH_DE | OP_EXHL | STORE_DE ) ; EB EX DE,HL
.dw (FETCH_DIR16| OP_IFPE | STORE_CALL) ; EC nn nn CALL PE,nn
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; ED (Z80 specific)
.dw (FETCH_DIR8 | OP_XORA | STORE_NOP) ; EE nn XOR n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; EF RST 28H
.dw (FETCH_NOP | OP_IFP | STORE_RET) ; F0 RET P
.dw (FETCH_NOP | OP_POP16 | STORE_AF ) ; F1 POP AF
.dw (FETCH_DIR16| OP_IFP | STORE_PC ) ; F2 nn nn JP P,nn
.dw (FETCH_NOP | OP_DI | STORE_NOP) ; F3 DI
.dw (FETCH_DIR16| OP_IFP | STORE_CALL) ; F4 nn nn CALL P,nn
.dw (FETCH_AF | OP_PUSH16 | STORE_NOP) ; F5 PUSH AF
.dw (FETCH_DIR8 | OP_ORA | STORE_NOP) ; F6 nn OR n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; F7 RST 30H
.dw (FETCH_NOP | OP_IFM | STORE_RET) ; F8 RET M
.dw (FETCH_HL | OP_NOP | STORE_SP ) ; F9 LD SP,HL
.dw (FETCH_DIR16| OP_IFM | STORE_PC ) ; FA nn nn JP M,nn
.dw (FETCH_NOP | OP_EI | STORE_NOP) ; FB EI
.dw (FETCH_DIR16| OP_IFM | STORE_CALL) ; FC nn nn CALL M,nn
.dw (FETCH_NOP | OP_INV | STORE_NOP) ; FD (Z80 specific)
.dw (FETCH_DIR8 | OP_CPFA | STORE_NOP) ; FE nn CP n
.dw (FETCH_RST | OP_NOP | STORE_CALL) ; FF RST 38H
;----------------------------------------------------------------
; Lookup table, stolen from z80ex, Z80 emulation library.
; http://z80ex.sourceforge.net/
; The S, Z, 5 and 3 bits and the parity of the lookup value
.org (PC+255) & 0xff00
sz53p_tab:
.db 0x44,0x00,0x00,0x04,0x00,0x04,0x04,0x00
.db 0x08,0x0c,0x0c,0x08,0x0c,0x08,0x08,0x0c
.db 0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04
.db 0x0c,0x08,0x08,0x0c,0x08,0x0c,0x0c,0x08
.db 0x20,0x24,0x24,0x20,0x24,0x20,0x20,0x24
.db 0x2c,0x28,0x28,0x2c,0x28,0x2c,0x2c,0x28
.db 0x24,0x20,0x20,0x24,0x20,0x24,0x24,0x20
.db 0x28,0x2c,0x2c,0x28,0x2c,0x28,0x28,0x2c
.db 0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04
.db 0x0c,0x08,0x08,0x0c,0x08,0x0c,0x0c,0x08
.db 0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00
.db 0x08,0x0c,0x0c,0x08,0x0c,0x08,0x08,0x0c
.db 0x24,0x20,0x20,0x24,0x20,0x24,0x24,0x20
.db 0x28,0x2c,0x2c,0x28,0x2c,0x28,0x28,0x2c
.db 0x20,0x24,0x24,0x20,0x24,0x20,0x20,0x24
.db 0x2c,0x28,0x28,0x2c,0x28,0x2c,0x2c,0x28
.db 0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84
.db 0x8c,0x88,0x88,0x8c,0x88,0x8c,0x8c,0x88
.db 0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80
.db 0x88,0x8c,0x8c,0x88,0x8c,0x88,0x88,0x8c
.db 0xa4,0xa0,0xa0,0xa4,0xa0,0xa4,0xa4,0xa0
.db 0xa8,0xac,0xac,0xa8,0xac,0xa8,0xa8,0xac
.db 0xa0,0xa4,0xa4,0xa0,0xa4,0xa0,0xa0,0xa4
.db 0xac,0xa8,0xa8,0xac,0xa8,0xac,0xac,0xa8
.db 0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80
.db 0x88,0x8c,0x8c,0x88,0x8c,0x88,0x88,0x8c
.db 0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84
.db 0x8c,0x88,0x88,0x8c,0x88,0x8c,0x8c,0x88
.db 0xa0,0xa4,0xa4,0xa0,0xa4,0xa0,0xa0,0xa4
.db 0xac,0xa8,0xa8,0xac,0xa8,0xac,0xac,0xa8
.db 0xa4,0xa0,0xa0,0xa4,0xa0,0xa4,0xa4,0xa0
.db 0xa8,0xac,0xac,0xa8,0xac,0xa8,0xa8,0xac
; vim:set ts=8 noet nowrap