GarbAGE (Garbage Accurate GameBoy Emulator)
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/*
* Copyright (C) 2022 Riyyi
* Copyright (C) 2022 Th3FrankXD
*
* SPDX-License-Identifier: MIT
*/
#pragma once
#include <cstdint> // int8_t, uint8_t, uint32_t
#include <functional> // std::function
#include <unordered_map>
#include "processing-unit.h"
#include "ruc/format/formatter.h"
class CPU final : public ProcessingUnit {
private:
friend struct CPUTest;
public:
explicit CPU(uint32_t frequency);
virtual ~CPU();
void update() override;
// -------------------------------------
// Arithmetic and Logic Instructions
// 8-bit
void adc8();
void add8();
void and8();
void cp();
void daa();
void dec8();
void inc8();
void or8();
void sbc8();
void sub8();
void xor8();
// 16-bit
void addr16();
void adds8();
void dec16();
void inc16();
// -------------------------------------
// Bit Operations Instructions
void bit();
void res();
void set();
void swap();
// -------------------------------------
// Bit Shift Instructions
void ra();
void rl();
void rlc();
void rr();
void rrc();
void sla();
void sra();
void srl();
// -------------------------------------
// Load Instructions
// 8-bit
void lda8();
void ldffi8();
void ldi8();
void ldr8();
// 16-bit
void ldi16();
void ldr16();
void pop();
void push();
// -------------------------------------
// Jumps and Subroutines
void call();
void jp16();
void jrs8();
void ret();
void rst();
// -------------------------------------
// Stack Operations Instructions
// -------------------------------------
// Miscellaneous Instructions
void misc();
void nop();
void prefix();
// -------------------------------------
uint32_t af() const { return (m_cf << 4 | m_hf << 5 | m_nf << 6 | m_zf << 7) | m_a << 8; }
uint32_t bc() const { return m_c | m_b << 8; }
uint32_t de() const { return m_e | m_d << 8; }
uint32_t hl() const { return m_l | m_h << 8; }
uint32_t pc() const { return m_pc; }
uint32_t sp() const { return m_sp; }
void setBC(uint32_t value);
void setDE(uint32_t value);
void setHL(uint32_t value);
private:
uint32_t pcRead();
uint32_t pcRead16() { return pcRead() | (pcRead() << 8); }
void write(uint32_t address, uint32_t value);
uint32_t read(uint32_t address);
void ffWrite(uint32_t address, uint32_t value);
uint32_t ffRead(uint32_t address);
bool isCarry(uint32_t lhs, uint32_t rhs, uint32_t limit_bit);
// Registers
uint32_t m_a { 0 }; // Accumulator
uint32_t m_b { 0 }; // B
uint32_t m_c { 0 }; // C
uint32_t m_d { 0 }; // D
uint32_t m_e { 0 }; // E
uint32_t m_h { 0 }; // H
uint32_t m_l { 0 }; // L
uint32_t m_pc { 0 }; // Program Counter
uint32_t m_sp { 0 }; // Stack Pointer
// Flags
uint32_t m_zf { 0 }; // Zero flag
uint32_t m_nf { 0 }; // Subtraction flag (BCD)
uint32_t m_hf { 0 }; // Half Carry flag (BCD)
uint32_t m_cf { 0 }; // Carry flag
int8_t m_wait_cycles { 0 };
};
template<>
struct ruc::format::Formatter<CPU> : Formatter<uint32_t> {
void parse(Parser& parser);
void format(Builder& builder, const CPU& value) const;
};