257 lines
No EOL
12 KiB
C++
257 lines
No EOL
12 KiB
C++
#include "stdafx.h"
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#include <algorithm>
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#include "DisassemblyInfo.h"
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#include "CpuTypes.h"
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#include "MemoryManager.h"
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#include "DummyCpu.h"
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#include "../Utilities/HexUtilities.h"
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#include "../Utilities/FastString.h"
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DisassemblyInfo::DisassemblyInfo()
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{
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}
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DisassemblyInfo::DisassemblyInfo(uint8_t *opPointer, uint8_t cpuFlags)
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{
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Initialize(opPointer, cpuFlags);
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}
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void DisassemblyInfo::Initialize(uint8_t *opPointer, uint8_t cpuFlags)
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{
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_flags = cpuFlags & (ProcFlags::MemoryMode8 | ProcFlags::IndexMode8);
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_byteCode[0] = opPointer[0];
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_addrMode = DisassemblyInfo::OpMode[_byteCode[0]];
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_opSize = GetOperandSize(_addrMode, _flags) + 1;
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for(int i = 1; i < _opSize; i++) {
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_byteCode[i] = opPointer[i];
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}
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}
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void DisassemblyInfo::GetDisassembly(string &out, uint32_t memoryAddr)
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{
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FastString str;
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str.Write(DisassemblyInfo::OpName[_byteCode[0]]);
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str.Write(' ');
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uint32_t opAddr = GetOperandAddress(memoryAddr);
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FastString operand;
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if(_opSize > 1) {
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operand.Write('$');
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if(_opSize == 2) {
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operand.Write(HexUtilities::ToHex((uint8_t)opAddr));
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} else if(_opSize == 3) {
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operand.Write(HexUtilities::ToHex((uint16_t)opAddr));
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} else if(_opSize == 4) {
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operand.Write(HexUtilities::ToHex24(opAddr));
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}
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}
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switch(_addrMode) {
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case AddrMode::Abs: str.Write(operand); break;
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case AddrMode::AbsJmp: str.Write(operand); break;
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case AddrMode::AbsIdxXInd: str.Write('(', operand, ",X)"); break;
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case AddrMode::AbsIdxX: str.Write(operand, ",X"); break;
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case AddrMode::AbsIdxY: str.Write(operand, ",Y"); break;
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case AddrMode::AbsInd: str.Write('(', operand, ')'); break;
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case AddrMode::AbsIndLng: str.Write('[', operand, ']'); break;
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case AddrMode::AbsLngIdxX: str.Write(operand, ",X"); break;
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case AddrMode::AbsLng: str.Write(operand); break;
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case AddrMode::AbsLngJmp: str.Write(operand); break;
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case AddrMode::Acc: break;
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case AddrMode::BlkMov: str.Write('$', operand[1], operand[2], " -> "); str.Write('$', operand[3], operand[4]); break;
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case AddrMode::DirIdxIndX: str.Write('(', operand, ",X)"); break;
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case AddrMode::DirIdxX: str.Write(operand, ",X"); break;
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case AddrMode::DirIdxY: str.Write(operand, ",Y"); break;
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case AddrMode::DirIndIdxY: str.Write("(", operand, "),Y"); break;
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case AddrMode::DirIndLngIdxY: str.Write("[", operand, "],Y"); break;
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case AddrMode::DirIndLng: str.Write("[", operand, "]"); break;
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case AddrMode::DirInd: str.Write("(", operand, ")"); break;
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case AddrMode::Dir: str.Write(operand); break;
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case AddrMode::Imm8: case AddrMode::Imm16: case AddrMode::ImmX: case AddrMode::ImmM:
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str.Write('#', operand);
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break;
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case AddrMode::Imp: break;;
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case AddrMode::RelLng: str.Write(operand);
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case AddrMode::Rel: str.Write(operand);
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case AddrMode::Stk: break;
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case AddrMode::StkRel: str.Write(operand, ",S"); break;
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case AddrMode::StkRelIndIdxY: str.Write('(', operand, ",S),Y"); break;
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default: throw std::runtime_error("invalid address mode");
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}
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out += str.ToString();
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}
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uint32_t DisassemblyInfo::GetOperandAddress(uint32_t memoryAddr)
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{
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uint32_t opAddr = 0;
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if(_opSize == 2) {
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opAddr = _byteCode[1];
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} else if(_opSize == 3) {
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opAddr = _byteCode[1] | (_byteCode[2] << 8);
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} else if(_opSize == 4) {
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opAddr = _byteCode[1] | (_byteCode[2] << 8) | (_byteCode[3] << 16);
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}
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if(_addrMode == AddrMode::Rel) {
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if(_opSize == 2) {
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opAddr = (int8_t)opAddr + memoryAddr + 2;
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} else {
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opAddr = (int16_t)opAddr + memoryAddr + 2;
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}
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}
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return opAddr;
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}
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uint8_t DisassemblyInfo::GetOperandSize()
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{
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return _opSize - 1;
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}
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uint8_t DisassemblyInfo::GetOperandSize(AddrMode addrMode, uint8_t flags)
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{
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switch(addrMode) {
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case AddrMode::Acc:
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case AddrMode::Imp:
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case AddrMode::Stk:
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return 0;
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case AddrMode::DirIdxIndX:
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case AddrMode::DirIdxX:
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case AddrMode::DirIdxY:
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case AddrMode::DirIndIdxY:
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case AddrMode::DirIndLngIdxY:
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case AddrMode::DirIndLng:
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case AddrMode::DirInd:
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case AddrMode::Dir:
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case AddrMode::Imm8:
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case AddrMode::Rel:
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case AddrMode::StkRel:
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case AddrMode::StkRelIndIdxY:
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return 1;
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case AddrMode::Abs:
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case AddrMode::AbsIdxXInd:
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case AddrMode::AbsIdxX:
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case AddrMode::AbsIdxY:
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case AddrMode::AbsInd:
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case AddrMode::AbsIndLng:
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case AddrMode::AbsJmp:
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case AddrMode::BlkMov:
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case AddrMode::Imm16:
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case AddrMode::RelLng:
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return 2;
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case AddrMode::AbsLngJmp:
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case AddrMode::AbsLngIdxX:
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case AddrMode::AbsLng:
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return 3;
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case AddrMode::ImmX: return (flags & ProcFlags::IndexMode8) ? 1 : 2;
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case AddrMode::ImmM: return (flags & ProcFlags::MemoryMode8) ? 1 : 2;
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}
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throw std::runtime_error("Invalid mode");
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}
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uint8_t DisassemblyInfo::GetOperandSize(uint8_t opCode, uint8_t flags)
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{
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return GetOperandSize(DisassemblyInfo::OpMode[opCode], flags);
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}
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void DisassemblyInfo::GetByteCode(uint8_t copyBuffer[4])
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{
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memcpy(copyBuffer, _byteCode, _opSize);
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}
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void DisassemblyInfo::GetByteCode(string &out)
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{
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FastString str;
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for(int i = 0; i < _opSize; i++) {
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str.Write('$', HexUtilities::ToHex(_byteCode[i]));
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if(i < _opSize - 1) {
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str.Write(' ');
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}
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}
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out += str.ToString();
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}
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void DisassemblyInfo::GetEffectiveAddressString(string &out, CpuState &state, MemoryManager* memoryManager)
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{
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int32_t effectiveAddress = GetEffectiveAddress(state, memoryManager);
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if(effectiveAddress >= 0) {
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out += " [" + HexUtilities::ToHex24(effectiveAddress) + "]";
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}
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}
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int32_t DisassemblyInfo::GetEffectiveAddress(CpuState &state, MemoryManager *memoryManager)
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{
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if(_addrMode > AddrMode::ImmM && _addrMode != AddrMode::Acc && _addrMode != AddrMode::Imp && _addrMode != AddrMode::Stk && _addrMode != AddrMode::Rel && _addrMode != AddrMode::RelLng && _addrMode != AddrMode::BlkMov) {
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DummyCpu cpu(memoryManager);
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state.PS &= ~(ProcFlags::IndexMode8 | ProcFlags::MemoryMode8);
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state.PS |= _flags;
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cpu.SetDummyState(state);
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cpu.Exec();
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return cpu.GetLastOperand();
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}
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return -1;
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}
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uint16_t DisassemblyInfo::GetMemoryValue(uint32_t effectiveAddress, MemoryManager *memoryManager, uint8_t &valueSize)
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{
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if(_flags & ProcFlags::MemoryMode8) {
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valueSize = 1;
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return memoryManager->Peek(effectiveAddress);
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} else {
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valueSize = 2;
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return memoryManager->PeekWord(effectiveAddress);
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}
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}
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string DisassemblyInfo::OpName[256] = {
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//0 1 2 3 4 5 6 7 8 9 A B C D E F
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"BRK", "ORA", "COP", "ORA", "TSB", "ORA", "ASL", "ORA", "PHP", "ORA", "ASL", "PHD", "TSB", "ORA", "ASL", "ORA", // 0
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"BPL", "ORA", "ORA", "ORA", "TRB", "ORA", "ASL", "ORA", "CLC", "ORA", "INC", "TCS", "TRB", "ORA", "ASL", "ORA", // 1
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"JSR", "AND", "JSL", "AND", "BIT", "AND", "ROL", "AND", "PLP", "AND", "ROL", "PLD", "BIT", "AND", "ROL", "AND", // 2
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"BMI", "AND", "AND", "AND", "BIT", "AND", "ROL", "AND", "SEC", "AND", "DEC", "TSC", "BIT", "AND", "ROL", "AND", // 3
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"RTI", "EOR", "WDM", "EOR", "MVP", "EOR", "LSR", "EOR", "PHA", "EOR", "LSR", "PHK", "JMP", "EOR", "LSR", "EOR", // 4
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"BVC", "EOR", "EOR", "EOR", "MVN", "EOR", "LSR", "EOR", "CLI", "EOR", "PHY", "TCD", "JMP", "EOR", "LSR", "EOR", // 5
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"RTS", "ADC", "PER", "ADC", "STZ", "ADC", "ROR", "ADC", "PLA", "ADC", "ROR", "RTL", "JMP", "ADC", "ROR", "ADC", // 6
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"BVS", "ADC", "ADC", "ADC", "STZ", "ADC", "ROR", "ADC", "SEI", "ADC", "PLY", "TDC", "JMP", "ADC", "ROR", "ADC", // 7
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"BRA", "STA", "BRL", "STA", "STY", "STA", "STX", "STA", "DEY", "BIT", "TXA", "PHB", "STY", "STA", "STX", "STA", // 8
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"BCC", "STA", "STA", "STA", "STY", "STA", "STX", "STA", "TYA", "STA", "TXS", "TXY", "STZ", "STA", "STZ", "STA", // 9
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"LDY", "LDA", "LDX", "LDA", "LDY", "LDA", "LDX", "LDA", "TAY", "LDA", "TAX", "PLB", "LDY", "LDA", "LDX", "LDA", // A
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"BCS", "LDA", "LDA", "LDA", "LDY", "LDA", "LDX", "LDA", "CLV", "LDA", "TSX", "TYX", "LDY", "LDA", "LDX", "LDA", // B
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"CPY", "CMP", "REP", "CMP", "CPY", "CMP", "DEC", "CMP", "INY", "CMP", "DEX", "WAI", "CPY", "CMP", "DEC", "CMP", // C
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"BNE", "CMP", "CMP", "CMP", "PEI", "CMP", "DEC", "CMP", "CLD", "CMP", "PHX", "STP", "JML", "CMP", "DEC", "CMP", // D
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"CPX", "SBC", "SEP", "SBC", "CPX", "SBC", "INC", "SBC", "INX", "SBC", "NOP", "XBA", "CPX", "SBC", "INC", "SBC", // E
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"BEQ", "SBC", "SBC", "SBC", "PEA", "SBC", "INC", "SBC", "SED", "SBC", "PLX", "XCE", "JSR", "SBC", "INC", "SBC" // F
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};
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typedef AddrMode M;
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AddrMode DisassemblyInfo::OpMode[256] = {
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//0 1 2 3 4 5 6 7 8 9 A B C D E F
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M::Stk, M::DirIdxIndX, M::Stk, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Stk, M::ImmM, M::Acc, M::Stk, M::Abs, M::Abs, M::Abs, M::AbsLng, // 0
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::Dir, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Acc, M::Imp, M::Abs, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // 1
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M::Abs, M::DirIdxIndX, M::AbsLng, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Stk, M::ImmM, M::Acc, M::Stk, M::Abs, M::Abs, M::Abs, M::AbsLng, // 2
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::DirIdxX, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Acc, M::Imp, M::AbsIdxX, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // 3
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M::Stk, M::DirIdxIndX, M::Imm8, M::StkRel, M::BlkMov, M::Dir, M::Dir, M::DirIndLng, M::Stk, M::ImmM, M::Acc, M::Stk, M::Abs, M::Abs, M::Abs, M::AbsLng, // 4
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::BlkMov, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Stk, M::Imp, M::AbsLng, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // 5
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M::Stk, M::DirIdxIndX, M::RelLng, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Stk, M::ImmM, M::Acc, M::Stk, M::AbsInd, M::Abs, M::Abs, M::AbsLng, // 6
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::DirIdxX, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Stk, M::Imp, M::AbsIdxXInd, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // 7
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M::Rel, M::DirIdxIndX, M::RelLng, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Imp, M::ImmM, M::Imp, M::Stk, M::Abs, M::Abs, M::Abs, M::AbsLng, // 8
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::DirIdxX, M::DirIdxX, M::DirIdxY, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Imp, M::Imp, M::Abs, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // 9
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M::ImmX, M::DirIdxIndX, M::ImmX, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Imp, M::ImmM, M::Imp, M::Stk, M::Abs, M::Abs, M::Abs, M::AbsLng, // A
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::DirIdxX, M::DirIdxX, M::DirIdxY, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Imp, M::Imp, M::AbsIdxX, M::AbsIdxX, M::AbsIdxY, M::AbsLngIdxX, // B
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M::ImmX, M::DirIdxIndX, M::Imm8, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Imp, M::ImmM, M::Imp, M::Imp, M::Abs, M::Abs, M::Abs, M::AbsLng, // C
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::Dir, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Stk, M::Imp, M::AbsIndLng, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX, // D
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M::ImmX, M::DirIdxIndX, M::Imm8, M::StkRel, M::Dir, M::Dir, M::Dir, M::DirIndLng, M::Imp, M::ImmM, M::Imp, M::Imp, M::Abs, M::Abs, M::Abs, M::AbsLng, // E
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M::Rel, M::DirIndIdxY, M::DirInd, M::StkRelIndIdxY, M::Imm16, M::DirIdxX, M::DirIdxX, M::DirIndLngIdxY, M::Imp, M::AbsIdxY, M::Stk, M::Imp, M::AbsIdxXInd, M::AbsIdxX, M::AbsIdxX, M::AbsLngIdxX // F
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}; |