EightBit/Intel8080/inc/Intel8080.h

#pragma once

// Auxiliary carry logic from https://github.com/begoon/i8080-core

#include <cstdint>
#include <stdexcept>

#include <Bus.h>
#include <InputOutput.h>
#include <IntelProcessor.h>
#include <Signal.h>
#include <Register.h>

namespace EightBit {
	class Intel8080 final : public IntelProcessor {
	public:
		enum StatusBits {
			SF = Bit7,
			ZF = Bit6,
			AC = Bit4,
			PF = Bit2,
			CF = Bit0,
		};

		Intel8080(Bus& bus, InputOutput& ports);

		Signal<Intel8080> ExecutingInstruction;

		virtual int execute(uint8_t opcode) final;
		virtual int step() final;

		virtual register16_t& AF() final;
		virtual register16_t& BC() final;
		virtual register16_t& DE() final;
		virtual register16_t& HL() final;

	protected:
		virtual void reset() final;

	private:
		bool m_interruptEnable = false;

		InputOutput& m_ports;

		register16_t af;
		register16_t bc = 0xffff;
		register16_t de = 0xffff;
		register16_t hl = 0xffff;

		uint8_t R(int r) {
			switch (r) {
			case 0b000:
				return B();
			case 0b001:
				return C();
			case 0b010:
				return D();
			case 0b011:
				return E();
			case 0b100:
				return H();
			case 0b101:
				return L();
			case 0b110:
				return BUS().read(HL());
			case 0b111:
				return A();
			default:
				UNREACHABLE;
			}
		}

		void R(int r, uint8_t value) {
			switch (r) {
			case 0b000:
				B() = value;
				break;
			case 0b001:
				C() = value;
				break;
			case 0b010:
				D() = value;
				break;
			case 0b011:
				E() = value;
				break;
			case 0b100:
				H() = value;
				break;
			case 0b101:
				L() = value;
				break;
			case 0b110:
				BUS().write(HL(), value);
				break;
			case 0b111:
				A() = value;
				break;
			default:
				UNREACHABLE;
			}
		}

		register16_t& RP(int rp) {
			switch (rp) {
			case 0b00:
				return BC();
			case 0b01:
				return DE();
			case 0b10:
				return HL();
			case 0b11:
				return SP();
			default:
				UNREACHABLE;
			}
		}

		register16_t& RP2(int rp) {
			switch (rp) {
			case 0b00:
				return BC();
			case 0b01:
				return DE();
			case 0b10:
				return HL();
			case 0b11:
				return AF();
			default:
				UNREACHABLE;
			}
		}

		static void adjustAuxiliaryCarryAdd(uint8_t& f, uint8_t before, uint8_t value, int calculation) {
			setFlag(f, AC, calculateHalfCarryAdd(before, value, calculation));
		}

		static void adjustAuxiliaryCarrySub(uint8_t& f, uint8_t before, uint8_t value, int calculation) {
			clearFlag(f, AC, calculateHalfCarrySub(before, value, calculation));
		}

		void subtract(uint8_t& operand, uint8_t value, int carry = 0);

		void execute(int x, int y, int z, int p, int q);

		void increment(uint8_t& operand);
		void decrement(uint8_t& operand);

		void di();
		void ei();

		bool returnConditionalFlag(int flag);
		bool jumpConditionalFlag(int flag);
		bool callConditionalFlag(int flag);

		void add(register16_t value);

		void add(uint8_t value, int carry = 0);
		void adc(uint8_t value);
		void sbb(uint8_t value);
		void andr(uint8_t value);
		void xorr(uint8_t value);
		void orr(uint8_t value);
		void compare(uint8_t value);

		void rlc();
		void rrc();
		void rl();
		void rr();

		void daa();

		void cma();
		void stc();
		void cmc();

		void xhtl();

		void writePort(uint8_t port);
		void writePort();

		uint8_t readPort(uint8_t port);
		uint8_t readPort();
	};
}