bsnes/higan/processor/m68k/instruction.cpp

1267 lines
37 KiB
C++

auto M68K::instruction() -> void {
opcode = readPC();
return instructionTable[opcode]();
}
M68K::M68K() {
#define bind(id, name, ...) { \
assert(!instructionTable[id]); \
instructionTable[id] = [=] { return instruction##name(__VA_ARGS__); }; \
disassembleTable[id] = [=] { return disassemble##name(__VA_ARGS__); }; \
}
#define unbind(id) { \
instructionTable[id].reset(); \
disassembleTable[id].reset(); \
}
#define pattern(s) \
std::integral_constant<uint16_t, bit::test(s)>::value
//ABCD
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1100 ---1 0000 ----") | xreg << 9 | yreg << 0;
EffectiveAddress dataWith{DataRegisterDirect, xreg};
EffectiveAddress dataFrom{DataRegisterDirect, yreg};
bind(opcode | 0 << 3, ABCD, dataWith, dataFrom);
EffectiveAddress addressWith{AddressRegisterIndirectWithPreDecrement, xreg};
EffectiveAddress addressFrom{AddressRegisterIndirectWithPreDecrement, yreg};
bind(opcode | 1 << 3, ABCD, addressWith, addressFrom);
}
//ADD
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1101 ---0 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
EffectiveAddress from{mode, reg};
DataRegister with{dreg};
bind(opcode | 0 << 6, ADD<Byte>, from, with);
bind(opcode | 1 << 6, ADD<Word>, from, with);
bind(opcode | 2 << 6, ADD<Long>, from, with);
if(mode == 1) unbind(opcode | 0 << 6);
}
//ADD
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1101 ---1 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
DataRegister from{dreg};
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, ADD<Byte>, from, with);
bind(opcode | 1 << 6, ADD<Word>, from, with);
bind(opcode | 2 << 6, ADD<Long>, from, with);
}
//ADDA
for(uint3 areg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1101 ---+ 11-- ----") | areg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
AddressRegister ar{areg};
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 8, ADDA<Word>, ar, ea);
bind(opcode | 1 << 8, ADDA<Long>, ar, ea);
}
//ADDI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 0110 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode | 0 << 6, ADDI<Byte>, modify);
bind(opcode | 1 << 6, ADDI<Word>, modify);
bind(opcode | 2 << 6, ADDI<Long>, modify);
}
//ADDQ
for(uint3 data : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0101 ---0 ++-- ----") | data << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 2) continue;
uint4 immediate = data ? (uint4)data : (uint4)8;
if(mode != 1) {
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, ADDQ<Byte>, immediate, with);
bind(opcode | 1 << 6, ADDQ<Word>, immediate, with);
bind(opcode | 2 << 6, ADDQ<Long>, immediate, with);
} else {
AddressRegister with{reg};
bind(opcode | 1 << 6, ADDQ<Word>, immediate, with);
bind(opcode | 2 << 6, ADDQ<Long>, immediate, with);
}
}
//ADDX
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1101 ---1 ++00 ----") | xreg << 9 | yreg << 0;
EffectiveAddress dataWith{DataRegisterDirect, xreg};
EffectiveAddress dataFrom{DataRegisterDirect, yreg};
bind(opcode | 0 << 6 | 0 << 3, ADDX<Byte>, dataWith, dataFrom);
bind(opcode | 1 << 6 | 0 << 3, ADDX<Word>, dataWith, dataFrom);
bind(opcode | 2 << 6 | 0 << 3, ADDX<Long>, dataWith, dataFrom);
EffectiveAddress addressWith{AddressRegisterIndirectWithPreDecrement, xreg};
EffectiveAddress addressFrom{AddressRegisterIndirectWithPreDecrement, yreg};
bind(opcode | 0 << 6 | 1 << 3, ADDX<Byte>, addressWith, addressFrom);
bind(opcode | 1 << 6 | 1 << 3, ADDX<Word>, addressWith, addressFrom);
bind(opcode | 2 << 6 | 1 << 3, ADDX<Long>, addressWith, addressFrom);
}
//AND
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1100 ---0 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
EffectiveAddress from{mode, reg};
DataRegister with{dreg};
bind(opcode | 0 << 6, AND<Byte>, from, with);
bind(opcode | 1 << 6, AND<Word>, from, with);
bind(opcode | 2 << 6, AND<Long>, from, with);
}
//AND
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1100 ---1 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
DataRegister from{dreg};
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, AND<Byte>, from, with);
bind(opcode | 1 << 6, AND<Word>, from, with);
bind(opcode | 2 << 6, AND<Long>, from, with);
}
//ANDI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 0010 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, ANDI<Byte>, with);
bind(opcode | 1 << 6, ANDI<Word>, with);
bind(opcode | 2 << 6, ANDI<Long>, with);
}
//ANDI_TO_CCR
{ auto opcode = pattern("0000 0010 0011 1100");
bind(opcode, ANDI_TO_CCR);
}
//ANDI_TO_SR
{ auto opcode = pattern("0000 0010 0111 1100");
bind(opcode, ANDI_TO_SR);
}
//ASL (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++00 0---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ASL<Byte>, shift, modify);
bind(opcode | 1 << 6, ASL<Word>, shift, modify);
bind(opcode | 2 << 6, ASL<Long>, shift, modify);
}
//ASL (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++10 0---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ASL<Byte>, shift, modify);
bind(opcode | 1 << 6, ASL<Word>, shift, modify);
bind(opcode | 2 << 6, ASL<Long>, shift, modify);
}
//ASL (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0001 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ASL, modify);
}
//ASR (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++00 0---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ASR<Byte>, shift, modify);
bind(opcode | 1 << 6, ASR<Word>, shift, modify);
bind(opcode | 2 << 6, ASR<Long>, shift, modify);
}
//ASR (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++10 0---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ASR<Byte>, shift, modify);
bind(opcode | 1 << 6, ASR<Word>, shift, modify);
bind(opcode | 2 << 6, ASR<Long>, shift, modify);
}
//ASR (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0000 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ASR, modify);
}
//BCC
for(uint4 condition : range( 16))
for(uint8 displacement : range(256)) {
auto opcode = pattern("0110 ---- ---- ----") | condition << 8 | displacement << 0;
bind(opcode, BCC, condition, displacement);
}
//BCHG (register)
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 ---1 01-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
DataRegister bit{dreg};
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BCHG<Long>, bit, with);
if(mode != 0) bind(opcode, BCHG<Byte>, bit, with);
}
//BCHG (immediate)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1000 01-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BCHG<Long>, with);
if(mode != 0) bind(opcode, BCHG<Byte>, with);
}
//BCLR (register)
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 ---1 10-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
DataRegister bit{dreg};
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BCLR<Long>, bit, with);
if(mode != 0) bind(opcode, BCLR<Byte>, bit, with);
}
//BCLR (immediate)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1000 10-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BCLR<Long>, with);
if(mode != 0) bind(opcode, BCLR<Byte>, with);
}
//BSET (register)
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 ---1 11-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
DataRegister bit{dreg};
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BSET<Long>, bit, with);
if(mode != 0) bind(opcode, BSET<Byte>, bit, with);
}
//BSET (immediate)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1000 11-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
if(mode == 0) bind(opcode, BSET<Long>, with);
if(mode != 0) bind(opcode, BSET<Byte>, with);
}
//BTST (register)
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 ---1 00-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister dr{dreg};
EffectiveAddress ea{mode, reg};
if(mode == 0) bind(opcode, BTST<Long>, dr, ea);
if(mode != 0) bind(opcode, BTST<Byte>, dr, ea);
}
//BTST (immediate)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1000 00-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 4)) continue;
EffectiveAddress ea{mode, reg};
if(mode == 0) bind(opcode, BTST<Long>, ea);
if(mode != 0) bind(opcode, BTST<Byte>, ea);
}
//CHK
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 ---1 10-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister compare{dreg};
EffectiveAddress maximum{mode, reg};
bind(opcode, CHK, compare, maximum);
}
//CLR
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0010 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 6, CLR<Byte>, ea);
bind(opcode | 1 << 6, CLR<Word>, ea);
bind(opcode | 2 << 6, CLR<Long>, ea);
}
//CMP
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1011 ---0 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
DataRegister dr{dreg};
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 6, CMP<Byte>, dr, ea);
bind(opcode | 1 << 6, CMP<Word>, dr, ea);
bind(opcode | 2 << 6, CMP<Long>, dr, ea);
if(mode == 1) unbind(opcode | 0 << 6);
}
//CMPA
for(uint3 areg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1011 ---+ 11-- ----") | areg << 9 | mode << 3 | reg << 0;
AddressRegister ar{areg};
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 8, CMPA<Word>, ar, ea);
bind(opcode | 1 << 8, CMPA<Long>, ar, ea);
}
//CMPI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1100 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 6, CMPI<Byte>, ea);
bind(opcode | 1 << 6, CMPI<Word>, ea);
bind(opcode | 2 << 6, CMPI<Long>, ea);
}
//CMPM
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1011 ---1 ++00 1---") | xreg << 9 | yreg << 0;
EffectiveAddress ax{AddressRegisterIndirectWithPostIncrement, xreg};
EffectiveAddress ay{AddressRegisterIndirectWithPostIncrement, yreg};
bind(opcode | 0 << 6, CMPM<Byte>, ax, ay);
bind(opcode | 1 << 6, CMPM<Word>, ax, ay);
bind(opcode | 2 << 6, CMPM<Long>, ax, ay);
}
//DBCC
for(uint4 condition : range(16))
for(uint3 dreg : range( 8)) {
auto opcode = pattern("0101 ---- 1100 1---") | condition << 8 | dreg << 0;
DataRegister dr{dreg};
bind(opcode, DBCC, condition, dr);
}
//DIVS
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1000 ---1 11-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister with{dreg};
EffectiveAddress from{mode, reg};
bind(opcode, DIVS, with, from);
}
//DIVU
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1000 ---0 11-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister with{dreg};
EffectiveAddress from{mode, reg};
bind(opcode, DIVU, with, from);
}
//EOR
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1011 ---1 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
DataRegister from{dreg};
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, EOR<Byte>, from, with);
bind(opcode | 1 << 6, EOR<Word>, from, with);
bind(opcode | 2 << 6, EOR<Long>, from, with);
}
//EORI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 1010 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, EORI<Byte>, with);
bind(opcode | 1 << 6, EORI<Word>, with);
bind(opcode | 2 << 6, EORI<Long>, with);
}
//EORI_TO_CCR
{ auto opcode = pattern("0000 1010 0011 1100");
bind(opcode, EORI_TO_CCR);
}
//EORI_TO_SR
{ auto opcode = pattern("0000 1010 0111 1100");
bind(opcode, EORI_TO_SR);
}
//EXG
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1100 ---1 0100 0---") | xreg << 9 | yreg << 0;
DataRegister x{xreg};
DataRegister y{yreg};
bind(opcode, EXG, x, y);
}
//EXG
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1100 ---1 0100 1---") | xreg << 9 | yreg << 0;
AddressRegister x{xreg};
AddressRegister y{yreg};
bind(opcode, EXG, x, y);
}
//EXG
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1100 ---1 1000 1---") | xreg << 9 | yreg << 0;
DataRegister x{xreg};
AddressRegister y{yreg};
bind(opcode, EXG, x, y);
}
//EXT
for(uint3 dreg : range(8)) {
auto opcode = pattern("0100 1000 1+00 0---") | dreg << 0;
DataRegister with{dreg};
bind(opcode | 0 << 6, EXT<Word>, with);
bind(opcode | 1 << 6, EXT<Long>, with);
}
//ILLEGAL
{ auto opcode = pattern("0100 1010 1111 1100");
bind(opcode, ILLEGAL);
}
//JMP
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1110 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || mode == 3 || mode == 4 || (mode == 7 && reg >= 4)) continue;
EffectiveAddress target{mode, reg};
bind(opcode, JMP, target);
}
//JSR
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1110 10-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || mode == 3 || mode == 4 || (mode == 7 && reg >= 4)) continue;
EffectiveAddress target{mode, reg};
bind(opcode, JSR, target);
}
//LEA
for(uint3 areg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 ---1 11-- ----") | areg << 9 | mode << 3 | reg << 0;
if(mode <= 1 || mode == 3 || mode == 4 || (mode == 7 && reg >= 4)) continue;
AddressRegister ar{areg};
EffectiveAddress ea{mode, reg};
bind(opcode, LEA, ar, ea);
}
//LINK
for(uint3 areg : range(8)) {
auto opcode = pattern("0100 1110 0101 0---") | areg << 0;
AddressRegister with{areg};
bind(opcode, LINK, with);
}
//LSL (immediate)
for(uint3 data : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++00 1---") | data << 9 | dreg << 0;
auto immediate = data ? (uint4)data : (uint4)8;
DataRegister dr{dreg};
bind(opcode | 0 << 6, LSL<Byte>, immediate, dr);
bind(opcode | 1 << 6, LSL<Word>, immediate, dr);
bind(opcode | 2 << 6, LSL<Long>, immediate, dr);
}
//LSL (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++10 1---") | sreg << 9 | dreg << 0;
DataRegister sr{sreg};
DataRegister dr{dreg};
bind(opcode | 0 << 6, LSL<Byte>, sr, dr);
bind(opcode | 1 << 6, LSL<Word>, sr, dr);
bind(opcode | 2 << 6, LSL<Long>, sr, dr);
}
//LSL (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0011 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode, LSL, ea);
}
//LSR (immediate)
for(uint3 data : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++00 1---") | data << 9 | dreg << 0;
auto immediate = data ? (uint4)data : (uint4)8;
DataRegister dr{dreg};
bind(opcode | 0 << 6, LSR<Byte>, immediate, dr);
bind(opcode | 1 << 6, LSR<Word>, immediate, dr);
bind(opcode | 2 << 6, LSR<Long>, immediate, dr);
}
//LSR (register)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++10 1---") | count << 9 | dreg << 0;
DataRegister shift{count};
DataRegister dr{dreg};
bind(opcode | 0 << 6, LSR<Byte>, shift, dr);
bind(opcode | 1 << 6, LSR<Word>, shift, dr);
bind(opcode | 2 << 6, LSR<Long>, shift, dr);
}
//LSR (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0010 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode, LSR, ea);
}
//MOVE
for(uint3 toReg : range(8))
for(uint3 toMode : range(8))
for(uint3 fromMode : range(8))
for(uint3 fromReg : range(8)) {
auto opcode = pattern("00++ ---- ---- ----") | toReg << 9 | toMode << 6 | fromMode << 3 | fromReg << 0;
if(toMode == 1 || (toMode == 7 && toReg >= 2)) continue;
if(fromMode == 7 && fromReg >= 5) continue;
EffectiveAddress to{toMode, toReg};
EffectiveAddress from{fromMode, fromReg};
bind(opcode | 1 << 12, MOVE<Byte>, to, from);
bind(opcode | 3 << 12, MOVE<Word>, to, from);
bind(opcode | 2 << 12, MOVE<Long>, to, from);
if(fromMode == 1) unbind(opcode | 1 << 12);
}
//MOVEA
for(uint3 areg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("00++ ---0 01-- ----") | areg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
AddressRegister ar{areg};
EffectiveAddress ea{mode, reg};
bind(opcode | 3 << 12, MOVEA<Word>, ar, ea);
bind(opcode | 2 << 12, MOVEA<Long>, ar, ea);
}
//MOVEM
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1000 1+-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || mode == 3 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress to{mode, reg};
bind(opcode | 0 << 6, MOVEM_TO_MEM<Word>, to);
bind(opcode | 1 << 6, MOVEM_TO_MEM<Long>, to);
}
//MOVEM
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1100 1+-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || mode == 4 || (mode == 7 && reg >= 4)) continue;
EffectiveAddress from{mode, reg};
bind(opcode | 0 << 6, MOVEM_TO_REG<Word>, from);
bind(opcode | 1 << 6, MOVEM_TO_REG<Long>, from);
}
//MOVEP
for(uint3 dreg : range(8))
for(uint3 areg : range(8)) {
auto opcode = pattern("0000 ---1 1+00 1---") | dreg << 9 | areg << 0;
DataRegister from{dreg};
EffectiveAddress to{AddressRegisterIndirectWithDisplacement, areg};
bind(opcode | 0 << 6, MOVEP<Word>, from, to);
bind(opcode | 1 << 6, MOVEP<Long>, from, to);
}
//MOVEP
for(uint3 dreg : range(8))
for(uint3 areg : range(8)) {
auto opcode = pattern("0000 ---1 0+00 1---") | dreg << 9 | areg << 0;
DataRegister to{dreg};
EffectiveAddress from{AddressRegisterIndirectWithDisplacement, areg};
bind(opcode | 0 << 6, MOVEP<Word>, from, to);
bind(opcode | 1 << 6, MOVEP<Long>, from, to);
}
//MOVEQ
for(uint3 dreg : range( 8))
for(uint8 immediate : range(256)) {
auto opcode = pattern("0111 ---0 ---- ----") | dreg << 9 | immediate << 0;
DataRegister dr{dreg};
bind(opcode, MOVEQ, dr, immediate);
}
//MOVE_FROM_SR
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0000 11-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode, MOVE_FROM_SR, ea);
}
//MOVE_TO_CCR
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0100 11-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode, MOVE_TO_CCR, ea);
}
//MOVE_TO_SR
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0110 11-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
EffectiveAddress ea{mode, reg};
bind(opcode, MOVE_TO_SR, ea);
}
//MOVE_FROM_USP
for(uint3 areg : range(8)) {
auto opcode = pattern("0100 1110 0110 1---") | areg << 0;
AddressRegister to{areg};
bind(opcode, MOVE_FROM_USP, to);
}
//MOVE_TO_USP
for(uint3 areg : range(8)) {
auto opcode = pattern("0100 1110 0110 0---") | areg << 0;
AddressRegister from{areg};
bind(opcode, MOVE_TO_USP, from);
}
//MULS
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1100 ---1 11-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister with{dreg};
EffectiveAddress from{mode, reg};
bind(opcode, MULS, with, from);
}
//MULU
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1100 ---0 11-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
DataRegister with{dreg};
EffectiveAddress from{mode, reg};
bind(opcode, MULU, with, from);
}
//NBCD
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1000 00-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode, NBCD, with);
}
//NEG
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0100 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, NEG<Byte>, with);
bind(opcode | 1 << 6, NEG<Word>, with);
bind(opcode | 2 << 6, NEG<Long>, with);
}
//NEGX
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0000 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, NEGX<Byte>, with);
bind(opcode | 1 << 6, NEGX<Word>, with);
bind(opcode | 2 << 6, NEGX<Long>, with);
}
//NOP
{ auto opcode = pattern("0100 1110 0111 0001");
bind(opcode, NOP);
}
//NOT
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 0110 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, NOT<Byte>, with);
bind(opcode | 1 << 6, NOT<Word>, with);
bind(opcode | 2 << 6, NOT<Long>, with);
}
//OR
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1000 ---0 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 5)) continue;
EffectiveAddress from{mode, reg};
DataRegister with{dreg};
bind(opcode | 0 << 6, OR<Byte>, from, with);
bind(opcode | 1 << 6, OR<Word>, from, with);
bind(opcode | 2 << 6, OR<Long>, from, with);
}
//OR
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1000 ---1 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
DataRegister from{dreg};
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, OR<Byte>, from, with);
bind(opcode | 1 << 6, OR<Word>, from, with);
bind(opcode | 2 << 6, OR<Long>, from, with);
}
//ORI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 0000 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, ORI<Byte>, with);
bind(opcode | 1 << 6, ORI<Word>, with);
bind(opcode | 2 << 6, ORI<Long>, with);
}
//ORI_TO_CCR
{ auto opcode = pattern("0000 0000 0011 1100");
bind(opcode, ORI_TO_CCR);
}
//ORI_TO_SR
{ auto opcode = pattern("0000 0000 0111 1100");
bind(opcode, ORI_TO_SR);
}
//PEA
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1000 01-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || mode == 3 || mode == 4 || (mode == 7 && reg >= 4)) continue;
EffectiveAddress from{mode, reg};
bind(opcode, PEA, from);
}
//RESET
{ auto opcode = pattern("0100 1110 0111 0000");
bind(opcode, RESET);
}
//ROL (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++01 1---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROL<Byte>, shift, modify);
bind(opcode | 1 << 6, ROL<Word>, shift, modify);
bind(opcode | 2 << 6, ROL<Long>, shift, modify);
}
//ROL (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++11 1---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROL<Byte>, shift, modify);
bind(opcode | 1 << 6, ROL<Word>, shift, modify);
bind(opcode | 2 << 6, ROL<Long>, shift, modify);
}
//ROL (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0111 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ROL, modify);
}
//ROR (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++01 1---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROR<Byte>, shift, modify);
bind(opcode | 1 << 6, ROR<Word>, shift, modify);
bind(opcode | 2 << 6, ROR<Long>, shift, modify);
}
//ROR (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++11 1---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROR<Byte>, shift, modify);
bind(opcode | 1 << 6, ROR<Word>, shift, modify);
bind(opcode | 2 << 6, ROR<Long>, shift, modify);
}
//ROR (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0110 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ROR, modify);
}
//ROXL (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++01 0---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROXL<Byte>, shift, modify);
bind(opcode | 1 << 6, ROXL<Word>, shift, modify);
bind(opcode | 2 << 6, ROXL<Long>, shift, modify);
}
//ROXL (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---1 ++11 0---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROXL<Byte>, shift, modify);
bind(opcode | 1 << 6, ROXL<Word>, shift, modify);
bind(opcode | 2 << 6, ROXL<Long>, shift, modify);
}
//ROXL (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0101 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ROXL, modify);
}
//ROXR (immediate)
for(uint3 count : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++01 0---") | count << 9 | dreg << 0;
auto shift = count ? (uint4)count : (uint4)8;
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROXR<Byte>, shift, modify);
bind(opcode | 1 << 6, ROXR<Word>, shift, modify);
bind(opcode | 2 << 6, ROXR<Long>, shift, modify);
}
//ROXR (register)
for(uint3 sreg : range(8))
for(uint3 dreg : range(8)) {
auto opcode = pattern("1110 ---0 ++11 0---") | sreg << 9 | dreg << 0;
DataRegister shift{sreg};
DataRegister modify{dreg};
bind(opcode | 0 << 6, ROXR<Byte>, shift, modify);
bind(opcode | 1 << 6, ROXR<Word>, shift, modify);
bind(opcode | 2 << 6, ROXR<Long>, shift, modify);
}
//ROXR (effective address)
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1110 0100 11-- ----") | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress modify{mode, reg};
bind(opcode, ROXR, modify);
}
//RTE
{ auto opcode = pattern("0100 1110 0111 0011");
bind(opcode, RTE);
}
//RTR
{ auto opcode = pattern("0100 1110 0111 0111");
bind(opcode, RTR);
}
//RTS
{ auto opcode = pattern("0100 1110 0111 0101");
bind(opcode, RTS);
}
//SBCD
for(uint3 xreg : range(8))
for(uint3 yreg : range(8)) {
auto opcode = pattern("1000 ---1 0000 ----") | xreg << 9 | yreg << 0;
EffectiveAddress dataWith{DataRegisterDirect, xreg};
EffectiveAddress dataFrom{DataRegisterDirect, yreg};
bind(opcode | 0 << 3, SBCD, dataWith, dataFrom);
EffectiveAddress addressWith{AddressRegisterIndirectWithPreDecrement, xreg};
EffectiveAddress addressFrom{AddressRegisterIndirectWithPreDecrement, yreg};
bind(opcode | 1 << 3, SBCD, addressWith, addressFrom);
}
//SCC
for(uint4 condition : range(16))
for(uint3 mode : range( 8))
for(uint3 reg : range( 8)) {
auto opcode = pattern("0101 ---- 11-- ----") | condition << 8 | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress to{mode, reg};
bind(opcode, SCC, condition, to);
}
//STOP
{ auto opcode = pattern("0100 1110 0111 0010");
bind(opcode, STOP);
}
//SUB
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1001 ---0 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
EffectiveAddress source{mode, reg};
DataRegister target{dreg};
bind(opcode | 0 << 6, SUB<Byte>, source, target);
bind(opcode | 1 << 6, SUB<Word>, source, target);
bind(opcode | 2 << 6, SUB<Long>, source, target);
if(mode == 1) unbind(opcode | 0 << 6);
}
//SUB
for(uint3 dreg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1001 ---1 ++-- ----") | dreg << 9 | mode << 3 | reg << 0;
if(mode <= 1 || (mode == 7 && reg >= 2)) continue;
DataRegister source{dreg};
EffectiveAddress target{mode, reg};
bind(opcode | 0 << 6, SUB<Byte>, source, target);
bind(opcode | 1 << 6, SUB<Word>, source, target);
bind(opcode | 2 << 6, SUB<Long>, source, target);
}
//SUBA
for(uint3 areg : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("1001 ---+ 11-- ----") | areg << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 5) continue;
AddressRegister to{areg};
EffectiveAddress from{mode, reg};
bind(opcode | 0 << 8, SUBA<Word>, to, from);
bind(opcode | 1 << 8, SUBA<Long>, to, from);
}
//SUBI
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0000 0100 ++-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, SUBI<Byte>, with);
bind(opcode | 1 << 6, SUBI<Word>, with);
bind(opcode | 2 << 6, SUBI<Long>, with);
}
//SUBQ
for(uint3 data : range(8))
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0101 ---1 ++-- ----") | data << 9 | mode << 3 | reg << 0;
if(mode == 7 && reg >= 2) continue;
auto immediate = data ? (uint4)data : (uint4)8;
if(mode != 1) {
EffectiveAddress with{mode, reg};
bind(opcode | 0 << 6, SUBQ<Byte>, immediate, with);
bind(opcode | 1 << 6, SUBQ<Word>, immediate, with);
bind(opcode | 2 << 6, SUBQ<Long>, immediate, with);
} else {
AddressRegister with{reg};
bind(opcode | 1 << 6, SUBQ<Word>, immediate, with);
bind(opcode | 2 << 6, SUBQ<Long>, immediate, with);
}
}
//SUBX
for(uint3 treg : range(8))
for(uint3 sreg : range(8)) {
auto opcode = pattern("1001 ---1 ++00 ----") | treg << 9 | sreg << 0;
EffectiveAddress dataTarget{DataRegisterDirect, treg};
EffectiveAddress dataSource{DataRegisterDirect, sreg};
bind(opcode | 0 << 6 | 0 << 3, SUBX<Byte>, dataTarget, dataSource);
bind(opcode | 1 << 6 | 0 << 3, SUBX<Word>, dataTarget, dataSource);
bind(opcode | 2 << 6 | 0 << 3, SUBX<Long>, dataTarget, dataSource);
EffectiveAddress addressTarget{AddressRegisterIndirectWithPreDecrement, treg};
EffectiveAddress addressSource{AddressRegisterIndirectWithPreDecrement, sreg};
bind(opcode | 0 << 6 | 1 << 3, SUBX<Byte>, addressTarget, addressSource);
bind(opcode | 1 << 6 | 1 << 3, SUBX<Word>, addressTarget, addressSource);
bind(opcode | 2 << 6 | 1 << 3, SUBX<Long>, addressTarget, addressSource);
}
//SWAP
for(uint3 dreg : range(8)) {
auto opcode = pattern("0100 1000 0100 0---") | dreg << 0;
DataRegister with{dreg};
bind(opcode, SWAP, with);
}
//TAS
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1010 11-- ----") | mode << 3 | reg << 0;
if(mode == 1 || (mode == 7 && reg >= 2)) continue;
EffectiveAddress with{mode, reg};
bind(opcode, TAS, with);
}
//TRAP
for(uint4 vector : range(16)) {
auto opcode = pattern("0100 1110 0100 ----") | vector << 0;
bind(opcode, TRAP, vector);
}
//TRAPV
{ auto opcode = pattern("0100 1110 0111 0110");
bind(opcode, TRAPV);
}
//TST
for(uint3 mode : range(8))
for(uint3 reg : range(8)) {
auto opcode = pattern("0100 1010 ++-- ----") | mode << 3 | reg << 0;
if(mode == 7 && reg >= 2) continue;
EffectiveAddress ea{mode, reg};
bind(opcode | 0 << 6, TST<Byte>, ea);
bind(opcode | 1 << 6, TST<Word>, ea);
bind(opcode | 2 << 6, TST<Long>, ea);
if(mode == 1) unbind(opcode | 0 << 6);
}
//UNLK
for(uint3 areg : range(8)) {
auto opcode = pattern("0100 1110 0101 1---") | areg << 0;
AddressRegister with{areg};
bind(opcode, UNLK, with);
}
//ILLEGAL
for(uint16 opcode : range(65536)) {
if(instructionTable[opcode]) continue;
bind(opcode, ILLEGAL);
}
#undef bind
#undef unbind
#undef pattern
}