auto M68K::_readByte(uint32 addr) -> uint8 { return read(addr); } auto M68K::_readWord(uint32 addr) -> uint16 { uint16 data = _readByte(addr + 0) << 8; return data |= _readByte(addr + 1) << 0; } auto M68K::_readLong(uint32 addr) -> uint32 { uint32 data = _readWord(addr + 0) << 16; return data |= _readWord(addr + 2) << 0; } auto M68K::_readPC(uint size) -> uint32 { uint32 data = _readWord(_pc); _pc += 2; if(size == Byte) return (uint8)data; if(size == Word) return data; data = (data << 16) | _readWord(_pc); _pc += 2; return data; } auto M68K::_immediate(uint size) -> string { if(size == Byte) return {"#$", hex(_readPC(Byte), 2L)}; if(size == Word) return {"#$", hex(_readPC(Word), 4L)}; if(size == Long) return {"#$", hex(_readPC(Long), 8L)}; return "#???"; } auto M68K::_address(uint size, EA& ea) -> string { if(ea.mode == 7) { if(ea.reg == 2) return {"$", hex(_pc + (int16)_readPC(Word), 6L)}; } return "???"; } auto M68K::_read(uint size, EA& ea) -> string { if(ea.mode == 0) return {"d", ea.reg}; if(ea.mode == 1) return {"a", ea.reg}; if(ea.mode == 2) return {"(a", ea.reg, ")"}; if(ea.mode == 3) return {"(a", ea.reg, ")+"}; if(ea.mode == 4) return {"-(a", ea.reg, ")"}; if(ea.mode == 5) return {"($", hex(r.a(ea.reg) + (int16)_readPC(Word), 6L), ")"}; if(ea.mode == 7) { if(ea.reg == 1) return {"($", hex(_readPC(Long), 6L), ")"}; if(ea.reg == 4) { if(size == Byte) return {"#$", hex(_readPC(Byte), 2L)}; if(size == Word) return {"#$", hex(_readPC(Word), 4L)}; if(size == Long) return {"#$", hex(_readPC(Long), 8L)}; } } return "???"; } auto M68K::_write(uint size, EA& ea) -> string { return _read(size, ea); } auto M68K::_branch(uint displacement) -> string { uint16 word = _readPC(); if(displacement) displacement = (int8)displacement, _pc -= 2; else displacement = (int16)displacement; return {"$", hex(_pc + displacement, 6L)}; } auto M68K::_suffix(uint size) -> string { if(size == Byte) return ".b"; if(size == Word) return ".w"; if(size == Long) return ".l"; return ".?"; } auto M68K::_condition(uint condition) -> string { static const string conditions[16] = { "ra", "sr", "hi", "ls", "cc", "cs", "ne", "eq", "vc", "vs", "pl", "mi", "ge", "lt", "gt", "le", }; return conditions[(uint4)condition]; } auto M68K::disassemble(uint32 pc) -> string { uint16 opcode; return {hex(_pc = pc, 6L), " ", hex(opcode = _readPC(), 4L), " ", disassembleTable[opcode]()}; } auto M68K::disassembleRegisters() -> string { return { hex(r.d0, 8L), " ", hex(r.d1, 8L), " ", hex(r.d2, 8L), " ", hex(r.d3, 8L), " ", hex(r.d4, 8L), " ", hex(r.d5, 8L), " ", hex(r.d6, 8L), " ", hex(r.d7, 8L), " ", r.t ? "T" : "t", r.s ? "S" : "s", (uint)r.i, r.c ? "C" : "c", r.v ? "V" : "v", r.z ? "Z" : "z", r.n ? "N" : "n", r.x ? "X" : "x", "\n", hex(r.a0, 8L), " ", hex(r.a1, 8L), " ", hex(r.a2, 8L), " ", hex(r.a3, 8L), " ", hex(r.a4, 8L), " ", hex(r.a5, 8L), " ", hex(r.a6, 8L), " ", hex(r.ssp, 8L), " ", hex(r.usp, 8L) }; } // auto M68K::disassembleANDI(uint size, EA modify) -> string { return {"andi", _suffix(size), " ", _immediate(size), ",", _read(size, modify)}; } auto M68K::disassembleBCC(uint condition, uint displacement) -> string { return {"b", _condition(condition), " ", _branch(displacement)}; } auto M68K::disassembleLEA(uint target, EA source) -> string { return {"lea ", _address(Long, source), ",a", target}; } auto M68K::disassembleMOVE(uint size, EA target, EA source) -> string { return {"move", _suffix(size), " ", _read(size, source), ",", _write(size, target)}; } auto M68K::disassembleMOVEA(uint size, uint target, EA source) -> string { return {"movea ", _read(size, source), ",a", target}; } auto M68K::disassembleMOVEM(uint direction, uint size, EA source) -> string { string op{"movem", _suffix(size), " "}; uint16 list = _readPC(); string regs; for(auto n : range(8)) if(list.bit(0 + n)) regs.append("d", n, ","); regs.trimRight(","); if(regs && list >> 8) regs.append("/"); for(auto n : range(8)) if(list.bit(8 + n)) regs.append("a", n, ","); regs.trimRight(","); if(direction == 0) { return {op, regs, ",", _read(size, source)}; } else { return {op, _read(size, source), ",", regs}; } } auto M68K::disassembleMOVEQ(uint target, uint immediate) -> string { return {"moveq #$", hex(immediate, 2L), ",d", target}; } auto M68K::disassembleMOVE_USP(uint direction, uint reg) -> string { if(direction == 0) { return {"move a", reg, ",usp"}; } else { return {"move usp,a", reg}; } } auto M68K::disassembleNOP() -> string { return {"nop "}; } auto M68K::disassembleTST(uint size, EA source) -> string { return {"tst", _suffix(size), " ", _read(size, source)}; }