#pragma once #include #include #include #include #include "Chip.h" #include "Signal.h" #include "Register.h" #include "EventArgs.h" #include "Mapper.h" namespace EightBit { class Bus : public Mapper { public: virtual ~Bus() = default; Signal WritingByte; Signal WrittenByte; Signal ReadingByte; Signal ReadByte; [[nodiscard]] auto ADDRESS() const noexcept { return m_address; } [[nodiscard]] auto& ADDRESS() noexcept { return m_address; } [[nodiscard]] auto DATA() const noexcept { return m_data; } [[nodiscard]] auto& DATA() noexcept { return m_data; } [[nodiscard]] auto peek() { return reference(); } [[nodiscard]] auto peek(const uint16_t address) { return reference(address); } [[nodiscard]] auto peek(const register16_t address) { return reference(address.word); } void poke(const uint8_t value) { reference() = value; } void poke(const uint16_t address, const uint8_t value) { reference(address) = value; } void poke(const register16_t address, const uint8_t value) { reference(address.word) = value; } [[nodiscard]] uint8_t read(); template [[nodiscard]] auto read(const T address) { ADDRESS() = address; return read(); } void write(); void write(uint8_t value); template void write(const T offset, const uint8_t value) { ADDRESS() = offset; write(value); } virtual void raisePOWER(); virtual void lowerPOWER(); virtual void initialise() = 0; protected: [[nodiscard]] uint8_t& reference(uint16_t address); [[nodiscard]] auto& reference(const register16_t address) { return reference(address.word); } [[nodiscard]] uint8_t& reference() { return reference(ADDRESS()); } [[nodiscard]] static std::map> parseHexFile(std::string path); void loadHexFile(std::string path); private: uint8_t m_data = Chip::Mask8; register16_t m_address = Chip::Mask16; }; }