#pragma once #include #include #include #include "Signal.h" #include "AddressEventArgs.h" #if defined(_M_X64) || defined(_M_IX86 ) # define HOST_LITTLE_ENDIAN #else # define HOST_BIG_ENDIAN #endif namespace EightBit { typedef union { struct { #ifdef HOST_LITTLE_ENDIAN uint8_t low; uint8_t high; #endif #ifdef HOST_BIG_ENDIAN uint8_t high; uint8_t low; #endif }; uint16_t word; } register16_t; class Memory { public: static uint8_t highByte(uint16_t value) { return value >> 8; } static uint8_t lowByte(uint16_t value) { return value & 0xff; } Memory(uint16_t addressMask); // Only fired with read/write methods Signal WrittenByte; Signal ReadingByte; register16_t& ADDRESS() { return m_address; } uint8_t& DATA() { return *m_data; } uint8_t& placeDATA(uint8_t value) { m_temporary = value; m_data = &m_temporary; return DATA(); } uint8_t& referenceDATA(uint8_t& value) { m_data = &value; return DATA(); } virtual uint8_t peek(uint16_t address) const; virtual uint16_t peekWord(uint16_t address) const; virtual uint8_t& reference() { auto effective = effectiveAddress(ADDRESS().word); return m_locked[effective] ? placeDATA(m_bus[effective]) : referenceDATA(m_bus[effective]); } virtual uint16_t effectiveAddress(uint16_t address) const { return address & m_addressMask; } uint8_t read(uint16_t offset) { ADDRESS().word = offset; const auto content = reference(); ReadingByte.fire(AddressEventArgs(offset, content)); return content; } void write(uint16_t offset, uint8_t value) { ADDRESS().word = offset; reference() = value; WrittenByte.fire(AddressEventArgs(offset, value)); } void clear(); void loadRom(const std::string& path, uint16_t offset); void loadRam(const std::string& path, uint16_t offset); protected: std::array m_bus; std::array m_locked; uint16_t m_addressMask; // Mirror uint8_t m_temporary; // Used to simulate ROM register16_t m_address; uint8_t* m_data; int loadMemory(const std::string& path, uint16_t offset); }; }