Mesen/Core/Rambo1.h

#pragma once
#include "stdafx.h"
#include "BaseMapper.h"
#include "CPU.h"
#include "A12Watcher.h"

class Rambo1 : public BaseMapper
{
protected:	
	const uint8_t PpuIrqDelay = 2;
	const uint8_t CpuIrqDelay = 1;
	bool _irqEnabled = false;
	bool _irqCycleMode = false;
	bool _needReload = false;
	uint8_t _irqCounter = 0;
	uint8_t _irqReloadValue = 0;
	uint8_t _cpuClockCounter = 0;
	A12Watcher _a12Watcher;

	uint8_t _currentRegister = 0;
	uint8_t _registers[16];
	uint8_t _needIrqDelay = 0;
	bool _forceClock = false;

protected:
	virtual uint16_t GetPRGPageSize() override { return 0x2000; }
	virtual uint16_t GetCHRPageSize() override { return 0x400; }

	void InitMapper() override
	{
		memset(_registers, 0, sizeof(_registers));
		SelectPRGPage(3, -1);
	}

	void StreamState(bool saving) override
	{
		BaseMapper::StreamState(saving);
		ArrayInfo<uint8_t> registers = { _registers, 16 };
		SnapshotInfo a12Watcher{ &_a12Watcher };
		Stream(_irqEnabled, _irqCycleMode, _needReload, _needIrqDelay, _irqCounter, _irqReloadValue, 
				a12Watcher, _cpuClockCounter, _currentRegister, registers, _forceClock);
	}

	virtual void ProcessCpuClock() override
	{
		if(_needIrqDelay) {
			_needIrqDelay--;
			if(_needIrqDelay == 0) {
				_console->GetCpu()->SetIrqSource(IRQSource::External);
			}
		}

		if(_irqCycleMode || _forceClock) {
			_cpuClockCounter = (_cpuClockCounter + 1) & 0x03;
			if(_cpuClockCounter == 0) {
				ClockIrqCounter(Rambo1::CpuIrqDelay);
				_forceClock = false;
			}
		}
	}

	void ClockIrqCounter(const uint8_t delay)
	{
		if(_needReload) {
			//Fixes Hard Drivin'
			if(_irqReloadValue <= 1) {
				_irqCounter = _irqReloadValue + 1;
			} else {
				_irqCounter = _irqReloadValue + 2;
			}

			_needReload = false;
		} else if(_irqCounter == 0) {
			_irqCounter = _irqReloadValue + 1;
		}

		_irqCounter--;
		if(_irqCounter == 0 && _irqEnabled) {
			_needIrqDelay = delay;
		}
	}

	void UpdateState()
	{
		if(_currentRegister & 0x40) {
			SelectPRGPage(0, _registers[15]);
			SelectPRGPage(1, _registers[6]);
			SelectPRGPage(2, _registers[7]);
		} else {
			SelectPRGPage(0, _registers[6]);
			SelectPRGPage(1, _registers[7]);
			SelectPRGPage(2, _registers[15]);
		}

		uint8_t a12Inversion = _currentRegister & 0x80 ? 0x04 : 0x00;
		SelectCHRPage(0 ^ a12Inversion, _registers[0]);
		SelectCHRPage(2 ^ a12Inversion, _registers[1]);
		SelectCHRPage(4 ^ a12Inversion, _registers[2]);
		SelectCHRPage(5 ^ a12Inversion, _registers[3]);
		SelectCHRPage(6 ^ a12Inversion, _registers[4]);
		SelectCHRPage(7 ^ a12Inversion, _registers[5]);

		if(_currentRegister & 0x20) {
			SelectCHRPage(1 ^ a12Inversion, _registers[8]);
			SelectCHRPage(3 ^ a12Inversion, _registers[9]);
		} else {
			SelectCHRPage(1 ^ a12Inversion, _registers[0]+1);
			SelectCHRPage(3 ^ a12Inversion, _registers[1]+1);
		}		
	}

	void WriteRegister(uint16_t addr, uint8_t value) override
	{
		switch(addr & 0xE001) {
			case 0x8000: 
				_currentRegister = value;
				break;

			case 0x8001:
				_registers[_currentRegister & 0x0F] = value;
				UpdateState();
				break;
			
			case 0xA000: 
				SetMirroringType(value & 0x01 ? MirroringType::Horizontal : MirroringType::Vertical); 
				break;

			case 0xC000: 
				_irqReloadValue = value; 
				break;

			case 0xC001:
				if(_irqCycleMode && ((value & 0x01) == 0x00)) {
					//"To be clear, after the write in the reg $C001, are needed more than four CPU clock cycles before the switch takes place, allowing another clock of irq running the reload." -FHorse
					//Fixes Skull & Crossbones
					_forceClock = true;
				}
				_irqCycleMode = (value & 0x01) == 0x01;
				if(_irqCycleMode) {
					_cpuClockCounter = 0;
				}
				_needReload = true;
				break;

			case 0xE000:
				_irqEnabled = false;
				_console->GetCpu()->ClearIrqSource(IRQSource::External);
				break;
			
			case 0xE001:
				_irqEnabled = true;
				break;
		}
	}

public:
	virtual void NotifyVRAMAddressChange(uint16_t addr) override
	{
		if(!_irqCycleMode) {
			if(_a12Watcher.UpdateVramAddress<30>(addr, _console->GetPpu()->GetFrameCycle()) == A12StateChange::Rise) {
				ClockIrqCounter(Rambo1::PpuIrqDelay);
			}
		}
	}
};