Mesen/Core/BaseMapper.h
2016-01-28 20:47:16 -05:00

180 lines
5.4 KiB
C++

#pragma once
#include "stdafx.h"
#include "Snapshotable.h"
#include "IMemoryHandler.h"
#include "MessageManager.h"
#include "RomLoader.h"
enum class PrgMemoryType
{
PrgRom,
SaveRam,
WorkRam,
};
enum class ChrMemoryType
{
Default,
ChrRom,
ChrRam
};
enum MemoryAccessType
{
Unspecified = -1,
NoAccess = 0x00,
Read = 0x01,
Write = 0x02,
ReadWrite = 0x03
};
class BaseMapper : public IMemoryHandler, public Snapshotable, public INotificationListener
{
private:
const uint16_t PrgAddressRangeSize = 0x8000;
const uint16_t ChrAddressRangeSize = 0x2000;
MirroringType _mirroringType;
string _batteryFilename;
uint16_t InternalGetPrgPageSize();
uint16_t InternalGetChrPageSize();
uint8_t *_nesNametableRam[2];
uint8_t *_cartNametableRam[10];
uint8_t _nametableIndexes[4];
bool _onlyChrRam = false;
bool _isPalRom = false;
bool _hasBusConflicts = false;
string _romFilename;
bool _allowRegisterRead = false;
uint8_t _isRegisterAddr[0x10000];
vector<uint8_t*> _prgPages;
vector<uint8_t*> _chrPages;
vector<uint8_t> _prgPageAccessType;
vector<uint8_t> _chrPageAccessType;
uint32_t _prgPageNumbers[64];
uint32_t _chrPageNumbers[64];
uint32_t _crc32 = 0;
vector<uint8_t> _originalPrgRom;
protected:
uint8_t* _prgRom = nullptr;
uint8_t* _chrRom = nullptr;
uint8_t* _chrRam = nullptr;
uint32_t _prgSize = 0;
uint32_t _chrRomSize = 0;
uint32_t _chrRamSize = 0;
uint8_t* _saveRam = nullptr;
uint32_t _saveRamSize = 0;
uint8_t* _workRam = nullptr;
bool _hasBattery = false;
virtual void InitMapper() = 0;
virtual void InitMapper(RomData &romData) { }
virtual uint16_t GetPRGPageSize() = 0;
virtual uint16_t GetCHRPageSize() = 0;
virtual uint16_t GetChrRamPageSize() { return 0x2000; }
//Save ram is battery backed and saved to disk
virtual uint32_t GetSaveRamSize() { return 0x2000; }
virtual uint32_t GetSaveRamPageSize() { return 0x2000; }
virtual bool ForceBattery() { return false; }
virtual uint32_t GetChrRamSize() { return 0x2000; }
//Work ram is NOT saved - aka Expansion ram, etc.
virtual uint32_t GetWorkRamPageSize() { return 0x2000; }
virtual uint32_t GetWorkRamSize() { return 0x2000; }
virtual uint16_t RegisterStartAddress() { return 0x8000; }
virtual uint16_t RegisterEndAddress() { return 0xFFFF; }
virtual bool AllowRegisterRead() { return false; }
virtual bool HasBusConflicts() { return false; }
uint8_t InternalReadRam(uint16_t addr);
virtual void WriteRegister(uint16_t addr, uint8_t value) { }
virtual uint8_t ReadRegister(uint16_t addr) { return 0; }
void SelectPrgPage4x(uint16_t slot, uint16_t page, PrgMemoryType memoryType = PrgMemoryType::PrgRom);
void SelectPrgPage2x(uint16_t slot, uint16_t page, PrgMemoryType memoryType = PrgMemoryType::PrgRom);
virtual void SelectPRGPage(uint16_t slot, uint16_t page, PrgMemoryType memoryType = PrgMemoryType::PrgRom);
void SetCpuMemoryMapping(uint16_t startAddr, uint16_t endAddr, int16_t pageNumber, PrgMemoryType type, int8_t accessType = -1);
virtual void SelectChrPage8x(uint16_t slot, uint16_t page, ChrMemoryType memoryType = ChrMemoryType::Default);
virtual void SelectChrPage4x(uint16_t slot, uint16_t page, ChrMemoryType memoryType = ChrMemoryType::Default);
virtual void SelectChrPage2x(uint16_t slot, uint16_t page, ChrMemoryType memoryType = ChrMemoryType::Default);
virtual void SelectCHRPage(uint16_t slot, uint16_t page, ChrMemoryType memoryType = ChrMemoryType::Default);
void SetPpuMemoryMapping(uint16_t startAddr, uint16_t endAddr, uint16_t pageNumber, ChrMemoryType type = ChrMemoryType::Default, int8_t accessType = -1);
void SetPpuMemoryMapping(uint16_t startAddr, uint16_t endAddr, uint8_t* sourceMemory, int8_t accessType = -1);
void RemovePpuMemoryMapping(uint16_t startAddr, uint16_t endAddr);
bool HasBattery();
void LoadBattery();
void SaveBattery();
string GetBatteryFilename();
uint32_t GetPRGPageCount();
uint32_t GetCHRPageCount();
void RestoreOriginalPrgRam();
void InitializeChrRam();
void AddRegisterRange(uint16_t startAddr, uint16_t endAddr);
void RemoveRegisterRange(uint16_t startAddr, uint16_t endAddr);
virtual void StreamState(bool saving);
uint8_t* GetNametable(uint8_t index);
void AddNametable(uint8_t index, uint8_t *nametable);
void SetNametable(uint8_t index, uint8_t nametableIndex);
void SetNametables(uint8_t nametable1Index, uint8_t nametable2Index, uint8_t nametable3Index, uint8_t nametable4Index);
void SetMirroringType(MirroringType type);
MirroringType GetMirroringType();
public:
void Initialize(RomData &romData);
virtual ~BaseMapper();
virtual void Reset(bool softReset) { }
virtual void ProcessCpuClock() { }
virtual void NotifyVRAMAddressChange(uint16_t addr);
void ProcessNotification(ConsoleNotificationType type, void* parameter);
void GetMemoryRanges(MemoryRanges &ranges);
void ApplyCheats();
void SetDefaultNametables(uint8_t* nametableA, uint8_t* nametableB);
bool IsPalRom();
uint32_t GetCrc32();
uint8_t ReadRAM(uint16_t addr);
virtual void WriteRAM(uint16_t addr, uint8_t value);
void WritePrgRam(uint16_t addr, uint8_t value);
virtual uint8_t ReadVRAM(uint16_t addr);
void WriteVRAM(uint16_t addr, uint8_t value);
//Debugger Helper Functions
void GetPrgCopy(uint8_t **buffer);
uint32_t GetPrgSize();
void GetChrRomCopy(uint8_t **buffer);
uint32_t GetChrSize(bool getRamSize = false);
void GetChrRamCopy(uint8_t **buffer);
int32_t ToAbsoluteAddress(uint16_t addr);
int32_t ToAbsoluteChrAddress(uint16_t addr);
int32_t FromAbsoluteAddress(uint32_t addr);
vector<int32_t> GetPRGRanges();
};