struct Cartridge : Thread, IO { static auto Enter() -> void; auto main() -> void; auto step(uint clocks) -> void; auto power() -> void; auto load() -> void; auto unload() -> void; //memory.cpp auto romRead(uint20 addr) -> uint8; auto romWrite(uint20 addr, uint8 data) -> void; auto ramRead(uint20 addr) -> uint8; auto ramWrite(uint20 addr, uint8 data) -> void; //rtc.cpp auto rtcLoad() -> void; auto rtcSave() -> void; auto rtcTickSecond() -> void; auto rtcCheckAlarm() -> void; auto rtcStatus() -> uint8; auto rtcCommand(uint8 data) -> void; auto rtcRead() -> uint8; auto rtcWrite(uint8 data) -> void; //io.cpp auto portRead(uint16 addr) -> uint8 override; auto portWrite(uint16 addr, uint8 data) -> void override; //serialization.cpp auto serialize(serializer&) -> void; struct Information { string manifest; string title; bool orientation; //0 = horizontal; 1 = vertical string sha256; } information; struct Registers { //$00c0 BANK_ROM2 uint8 romBank2; //$00c1 BANK_SRAM uint8 sramBank; //$00c2 BANK_ROM0 uint8 romBank0; //$00c3 BANK_ROM1 uint8 romBank1; //$00cc GPO_EN uint8 gpoEnable; //$00cd GPO_DATA uint8 gpoData; } r; struct Memory { uint8* data = nullptr; uint size = 0; uint mask = 0; string name; }; struct RTC : Memory { uint8 command; uint4 index; uint8 alarm; uint8 alarmHour; uint8 alarmMinute; auto year() -> uint8& { return data[0]; } auto month() -> uint8& { return data[1]; } auto day() -> uint8& { return data[2]; } auto weekday() -> uint8& { return data[3]; } auto hour() -> uint8& { return data[4]; } auto minute() -> uint8& { return data[5]; } auto second() -> uint8& { return data[6]; } }; Memory rom; Memory ram; EEPROM eeprom; RTC rtc; }; extern Cartridge cartridge;