Mesen/Core/Disassembler.cpp
Souryo dffc03ad68 MMC5 support (incomplete)
Heavy refactoring of BaseMapper (to support MMC5 functionality, and be more flexible in general)
2015-07-29 22:10:34 -04:00

193 lines
7.3 KiB
C++

#include "stdafx.h"
#include "Disassembler.h"
#include "DisassemblyInfo.h"
#include "CPU.h"
Disassembler::Disassembler(uint8_t* internalRAM, uint8_t* prgROM, uint32_t prgSize)
{
_internalRAM = internalRAM;
_prgROM = prgROM;
_prgSize = prgSize;
for(uint32_t i = 0; i < prgSize; i++) {
_disassembleCache.push_back(shared_ptr<DisassemblyInfo>(nullptr));
}
for(uint32_t i = 0; i < 0x2000; i++) {
_disassembleMemoryCache.push_back(shared_ptr<DisassemblyInfo>(nullptr));
}
string opName[256] = {
// 0 1 2 3 4 5 6 7 8 9 A B C D E F
"BRK", "ORA", "", "", "NOP", "ORA", "ASL", "", "PHP", "ORA", "ASL", "", "NOP", "ORA", "ASL", "", //0
"BPL", "ORA", "", "", "NOP", "ORA", "ASL", "", "CLC", "ORA", "", "", "NOP", "ORA", "ASL", "", //1
"JSR", "AND", "", "", "BIT", "AND", "ROL", "", "PLP", "AND", "ROL", "", "BIT", "AND", "ROL", "", //2
"BMI", "AND", "", "", "NOP", "AND", "ROL", "", "SEC", "AND", "", "", "NOP", "AND", "ROL", "", //3
"RTI", "EOR", "", "", "NOP", "EOR", "LSR", "", "PHA", "EOR", "LSR", "", "JMP", "EOR", "LSR", "", //4
"BVC", "EOR", "", "", "NOP", "EOR", "LSR", "", "CLI", "EOR", "", "", "NOP", "EOR", "LSR", "", //5
"RTS", "ADC", "", "", "NOP", "ADC", "ROR", "", "PLA", "ADC", "ROR", "", "JMP", "ADC", "ROR", "", //6
"BVS", "ADC", "", "", "NOP", "ADC", "ROR", "", "SEI", "ADC", "", "", "NOP", "ADC", "ROR", "", //7
"NOP", "STA", "NOP", "", "STY", "STA", "STX", "", "DEY", "NOP", "TXA", "", "STY", "STA", "STX", "", //8
"BCC", "STA", "", "", "STY", "STA", "STX", "", "TYA", "STA", "TXS", "", "", "STA", "", "", //9
"LDY", "LDA", "LDX", "", "LDY", "LDA", "LDX", "", "TAY", "LDA", "TAX", "", "LDY", "LDA", "LDX", "", //A
"BCS", "LDA", "", "", "LDY", "LDA", "LDX", "", "CLV", "LDA", "TSX", "", "LDY", "LDA", "LDX", "", //B
"CPY", "CPA", "NOP", "", "CPY", "CPA", "DEC", "", "INY", "CPA", "DEX", "", "CPY", "CPA", "DEC", "", //C
"BNE", "CPA", "", "", "NOP", "CPA", "DEC", "", "CLD", "CPA", "", "", "NOP", "CPA", "DEC", "", //D
"CPX", "SBC", "NOP", "", "CPX", "SBC", "INC", "", "INX", "SBC", "NOP", "", "CPX", "SBC", "INC", "", //E
"BEQ", "SBC", "", "", "NOP", "SBC", "INC", "", "SED", "SBC", "", "", "NOP", "SBC", "INC", "" //F
};
AddrMode opMode[256] = {
Imp, IndX, None, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Acc, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
Abs, IndX, None, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Acc, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
Imp, IndX, None, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Acc, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
Imp, IndX, None, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Acc, Imm, Ind, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
Imm, IndX, Imm, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Imp, Imm, Abs, Abs, Abs, Abs,
Rel, IndYW, None, IndY, ZeroX, ZeroX, ZeroY, ZeroY, Imp, AbsYW, Imp, AbsY, AbsXW, AbsXW, AbsYW, AbsY,
Imm, IndX, Imm, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Imp, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndY, ZeroX, ZeroX, ZeroY, ZeroY, Imp, AbsY, Imp, AbsY, AbsX, AbsX, AbsY, AbsY,
Imm, IndX, Imm, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Imp, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
Imm, IndX, Imm, IndX, Zero, Zero, Zero, Zero, Imp, Imm, Imp, Imm, Abs, Abs, Abs, Abs,
Rel, IndY, None, IndYW, ZeroX, ZeroX, ZeroX, ZeroX, Imp, AbsY, Imp, AbsYW, AbsX, AbsX, AbsXW, AbsXW,
};
for(int i = 0; i < 256; i++) {
DisassemblyInfo::OPName[i] = opName[i];
DisassemblyInfo::OPMode[i] = opMode[i];
switch(DisassemblyInfo::OPMode[i]) {
case AddrMode::Abs:
case AddrMode::AbsX:
case AddrMode::AbsXW:
case AddrMode::AbsY:
case AddrMode::AbsYW:
case AddrMode::Ind:
DisassemblyInfo::OPSize[i] = 3;
break;
case AddrMode::Imm:
case AddrMode::IndX:
case AddrMode::IndY:
case AddrMode::IndYW:
case AddrMode::Rel:
case AddrMode::Zero:
case AddrMode::ZeroX:
case AddrMode::ZeroY:
DisassemblyInfo::OPSize[i] = 2;
break;
default:
DisassemblyInfo::OPSize[i] = 1;
break;
}
}
}
Disassembler::~Disassembler()
{
if(_prgROM) {
delete[] _prgROM;
}
}
void Disassembler::BuildCache(uint32_t absoluteAddr, uint16_t memoryAddr)
{
if(memoryAddr < 0x2000) {
memoryAddr = memoryAddr & 0x7FF;
if(!_disassembleMemoryCache[memoryAddr]) {
shared_ptr<DisassemblyInfo> disInfo(new DisassemblyInfo(&_internalRAM[memoryAddr]));
_disassembleMemoryCache[memoryAddr] = disInfo;
}
} else {
while(!_disassembleCache[absoluteAddr]) {
shared_ptr<DisassemblyInfo> disInfo(new DisassemblyInfo(&_prgROM[absoluteAddr]));
_disassembleCache[absoluteAddr] = disInfo;
uint8_t opCode = _prgROM[absoluteAddr];
if(opCode == 0x10 || opCode == 0x20 || opCode == 0x30 || opCode == 0x40 || opCode == 0x50 || opCode == 0x60 || opCode == 0x70 || opCode == 0x90 || opCode == 0xB0 || opCode == 0xD0 || opCode == 0xF0 || opCode == 0x4C || opCode == 0x6C) {
//Hit a jump/return instruction, can't assume that what follows is actual code, stop disassembling
break;
}
absoluteAddr += disInfo->GetSize();
memoryAddr += disInfo->GetSize();
}
}
}
string Disassembler::GetRAMCode()
{
std::ostringstream output;
uint32_t addr = 0x0000;
uint32_t byteCount = 0;
while(addr < 0x2000) {
shared_ptr<DisassemblyInfo> info;
if(info = _disassembleMemoryCache[addr&0x7FF]) {
if(byteCount > 0) {
output << "\n";
byteCount = 0;
}
output << std::hex << std::uppercase << addr << ":" << info->ToString(addr) << "\n";
addr += info->GetSize();
} else {
if(byteCount >= 8) {
output << "\n";
byteCount = 0;
}
if(byteCount == 0) {
output << std::hex << std::uppercase << addr << ":" << ".db";
}
output << std::hex << " $" << std::setfill('0') << std::setw(2) << (short)_internalRAM[addr];
byteCount++;
addr++;
}
}
output << "\n1FFF:--END OF INTERNAL RAM--\n";
return output.str();
}
string Disassembler::GetCode(uint32_t startAddr, uint32_t endAddr, uint16_t &memoryAddr)
{
std::ostringstream output;
uint32_t addr = startAddr;
uint32_t byteCount = 0;
while(addr <= endAddr) {
shared_ptr<DisassemblyInfo> info;
if(info = _disassembleCache[addr]) {
if(byteCount > 0) {
output << "\n";
byteCount = 0;
}
output << std::hex << std::uppercase << memoryAddr << ":" << info->ToString(memoryAddr) << "\n";
addr += info->GetSize();
memoryAddr += info->GetSize();
} else {
if(byteCount >= 8) {
output << "\n";
byteCount = 0;
}
if(byteCount == 0) {
output << std::hex << std::uppercase << memoryAddr << ":" << ".db";
}
output << std::hex << " $" << std::setfill('0') << std::setw(2) << (short)_prgROM[addr];
byteCount++;
addr++;
memoryAddr++;
}
}
output << "\n";
return output.str();
}