Mesen/Core/MMC1.h
2016-12-17 23:14:47 -05:00

226 lines
6.2 KiB
C++

#pragma once
#include "stdafx.h"
#include "CPU.h"
#include "BaseMapper.h"
class MMC1 : public BaseMapper
{
private:
enum class MMC1Registers
{
Reg8000 = 0,
RegA000 = 1,
RegC000 = 2,
RegE000 = 3
};
enum class PrgMode
{
_16k = 16,
_32k = 32,
};
enum class ChrMode
{
_4k = 4,
_8k = 8,
};
enum class SlotSelect
{
x8000 = 0x8000,
xC000 = 0xC000,
};
uint8_t _writeBuffer = 0;
uint8_t _shiftCount = 0;
bool _wramDisable;
ChrMode _chrMode;
PrgMode _prgMode;
SlotSelect _slotSelect;
uint8_t _chrReg0;
uint8_t _chrReg1;
uint8_t _prgReg;
int32_t _lastWriteCycle = -1;
bool _forceWramOn;
MMC1Registers _lastChrReg;
private:
bool HasResetFlag(uint8_t value)
{
return (value & 0x80) == 0x80;
}
void ResetBuffer()
{
_shiftCount = 0;
_writeBuffer = 0;
}
bool IsBufferFull(uint8_t value)
{
if(HasResetFlag(value)) {
//When 'r' is set:
// - 'd' is ignored
// - hidden temporary reg is reset (so that the next write is the "first" write)
// - bits 2,3 of reg $8000 are set (16k PRG mode, $8000 swappable)
// - other bits of $8000 (and other regs) are unchanged
ResetBuffer();
_state.Reg8000 |= 0x0C;
return false;
} else {
_writeBuffer >>= 1;
_writeBuffer |= ((value << 4) & 0x10);
_shiftCount++;
return _shiftCount == 5;
}
}
protected:
struct
{
uint8_t Reg8000;
uint8_t RegA000;
uint8_t RegC000;
uint8_t RegE000;
} _state;
virtual void UpdateState()
{
switch(_state.Reg8000 & 0x03) {
case 0: SetMirroringType(MirroringType::ScreenAOnly); break;
case 1: SetMirroringType(MirroringType::ScreenBOnly); break;
case 2: SetMirroringType(MirroringType::Vertical); break;
case 3: SetMirroringType(MirroringType::Horizontal); break;
}
_wramDisable = (_state.RegE000 & 0x10) == 0x10;
_slotSelect = ((_state.Reg8000 & 0x04) == 0x04) ? SlotSelect::x8000 : SlotSelect::xC000;
_prgMode = ((_state.Reg8000 & 0x08) == 0x08) ? PrgMode::_16k : PrgMode::_32k;
_chrMode = ((_state.Reg8000 & 0x10) == 0x10) ? ChrMode::_4k : ChrMode::_8k;
_chrReg0 = _state.RegA000 & 0x1F;
_chrReg1 = _state.RegC000 & 0x1F;
_prgReg = _state.RegE000 & 0x0F;
uint8_t extraReg = _lastChrReg == MMC1Registers::RegC000 && _chrMode == ChrMode::_4k ? _chrReg1 : _chrReg0;
uint8_t prgBankSelect = 0;
if(_prgSize == 0x80000) {
//512kb carts use bit 7 of $A000/$C000 to select page
//This is used for SUROM (Dragon Warrior 3/4, Dragon Quest 4)
prgBankSelect = extraReg & 0x10;
}
if(_wramDisable && !_forceWramOn) {
RemoveCpuMemoryMapping(0x6000, 0x7FFF);
} else {
if(_saveRamSize + _workRamSize > 0x4000) {
//SXROM, 32kb of save ram
SetCpuMemoryMapping(0x6000, 0x7FFF, (extraReg >> 2) & 0x03, HasBattery() ? PrgMemoryType::SaveRam : PrgMemoryType::WorkRam);
} else if(_saveRamSize + _workRamSize > 0x2000) {
if(_saveRamSize == 0x2000 && _workRamSize == 0x2000) {
//SOROM, half of the 16kb ram is battery backed
SetCpuMemoryMapping(0x6000, 0x7FFF, 0, (extraReg >> 3) & 0x01 ? PrgMemoryType::WorkRam : PrgMemoryType::SaveRam);
} else {
//Unknown, shouldn't happen
SetCpuMemoryMapping(0x6000, 0x7FFF, (extraReg >> 2) & 0x01, HasBattery() ? PrgMemoryType::SaveRam : PrgMemoryType::WorkRam);
}
} else {
//Everything else - 8kb of work or save ram
SetCpuMemoryMapping(0x6000, 0x7FFF, 0, HasBattery() ? PrgMemoryType::SaveRam : PrgMemoryType::WorkRam);
}
}
if(_subMapperID == 5) {
//SubMapper 5
//"001: 5 Fixed PRG SEROM, SHROM, SH1ROM use a fixed 32k PRG ROM with no banking support.
SelectPrgPage2x(0, 0);
} else {
if(_prgMode == PrgMode::_32k) {
SelectPrgPage2x(0, (_prgReg & 0xFE) | prgBankSelect);
} else if(_prgMode == PrgMode::_16k) {
if(_slotSelect == SlotSelect::x8000) {
SelectPRGPage(0, _prgReg | prgBankSelect);
SelectPRGPage(1, 0x0F | prgBankSelect);
} else if(_slotSelect == SlotSelect::xC000) {
SelectPRGPage(0, 0 | prgBankSelect);
SelectPRGPage(1, _prgReg | prgBankSelect);
}
}
}
if(_chrMode == ChrMode::_8k) {
SelectCHRPage(0, _chrReg0 & 0x1E);
SelectCHRPage(1, (_chrReg0 & 0x1E) + 1);
} else if(_chrMode == ChrMode::_4k) {
SelectCHRPage(0, _chrReg0);
SelectCHRPage(1, _chrReg1);
}
}
virtual void StreamState(bool saving) override
{
BaseMapper::StreamState(saving);
Stream(_state.Reg8000, _state.RegA000, _state.RegC000, _state.RegE000, _writeBuffer, _shiftCount, _lastWriteCycle, _lastChrReg);
if(!saving) {
UpdateState();
}
}
virtual uint16_t GetPRGPageSize() override { return 0x4000; }
virtual uint16_t GetCHRPageSize() override { return 0x1000; }
virtual void InitMapper() override
{
_state.Reg8000 = 0x0C; //On powerup: bits 2,3 of $8000 are set (this ensures the $8000 is bank 0, and $C000 is the last bank - needed for SEROM/SHROM/SH1ROM which do no support banking)
_state.RegA000 = 0x00;
_state.RegC000 = 0x00;
_state.RegE000 = (_databaseInfo.Board.find("MMC1B") != string::npos ? 0x10 : 0x00); //WRAM Disable: enabled by default for MMC1B
//"MMC1A: PRG RAM is always enabled" - Normally these roms should be classified as mapper 155
_forceWramOn = (_databaseInfo.Board.compare("MMC1A") == 0);
_lastChrReg = MMC1Registers::RegA000;
UpdateState();
}
virtual void WriteRegister(uint16_t addr, uint8_t value) override
{
int32_t currentCycle = CPU::GetCycleCount();
//Ignore write if within 2 cycles of another write (i.e the real write after a dummy write)
if(abs(currentCycle - _lastWriteCycle) >= 2) {
if(IsBufferFull(value)) {
switch((MMC1Registers)((addr & 0x6000) >> 13)) {
case MMC1Registers::Reg8000: _state.Reg8000 = _writeBuffer; break;
case MMC1Registers::RegA000:
_lastChrReg = MMC1Registers::RegA000;
_state.RegA000 = _writeBuffer;
break;
case MMC1Registers::RegC000:
_lastChrReg = MMC1Registers::RegC000;
_state.RegC000 = _writeBuffer;
break;
case MMC1Registers::RegE000: _state.RegE000 = _writeBuffer; break;
}
UpdateState();
//Reset buffer after writing 5 bits
ResetBuffer();
}
}
_lastWriteCycle = currentCycle;
}
};