use std::ops::RangeInclusive; use crate::utils::{ join_bytes }; use crate::rom::ROM; use crate::ppu::{ PPU, DMA_ADDRESS, }; use crate::cpu::{Interrupt}; use crate::timer::{Timer}; use crate::joypad::{Joypad, JOYPAD_ADDRESS}; pub const BANK_ZERO: RangeInclusive = 0x0000..=0x3FFF; pub const BANK_SWITCHABLE: RangeInclusive = 0x4000..=0x7FFF; pub const VIDEO_RAM: RangeInclusive = 0x8000..=0x9FFF; pub const EXTERNAL_RAM: RangeInclusive = 0xA000..=0xBFFF; pub const WORK_RAM_1: RangeInclusive = 0xC000..=0xCFFF; pub const WORK_RAM_2: RangeInclusive = 0xD000..=0xDFFF; pub const ECHO_RAM: RangeInclusive = 0xE000..=0xFDFF; pub const SPRITE_ATTRIBUTE_TABLE: RangeInclusive = 0xFE00..=0xFE9F; pub const NOT_USABLE: RangeInclusive = 0xFEA0..=0xFEFF; pub const IO_REGISTERS: RangeInclusive = 0xFF00..=0xFF7F; pub const HIGH_RAM: RangeInclusive = 0xFF80..=0xFFFE; pub const INTERRUPT_ENABLE_REGISTER: RangeInclusive = 0xFFFF..=0xFFFF; pub const INTERRUPT_ENABLE_ADDRESS: u16 = 0xFFFF; pub const INTERRUPT_FLAG_ADDRESS: u16 = 0xFF0F; pub struct Bus { game_rom: ROM, data: [u8; 0x10000], pub ppu: PPU, pub joypad: Joypad, pub timer: Timer, } impl Bus { pub fn new() -> Self { let args: Vec = std::env::args().collect(); if args.len() < 2 { println!("Please, specify a ROM file"); std::process::exit(1); } let game_rom = match ROM::load_file(&args[1]) { Ok(rom) => rom, Err(err) => { println!("Could not read ROM: {}", err); std::process::exit(1); }, }; let mut bus = Self { data: [0x00; 0x10000], game_rom, ppu: PPU::new(), joypad: Joypad::new(), timer: Timer::new(), }; // Hardware registers after the bootrom bus.write(0xFF00, 0xCF); bus.write(0xFF01, 0x00); bus.write(0xFF02, 0x7E); bus.write(0xFF04, 0x18); bus.write(0xFF05, 0x00); bus.write(0xFF06, 0x00); bus.write(0xFF07, 0xF8); bus.write(0xFF0F, 0xE1); bus.write(0xFF40, 0x91); bus.write(0xFF41, 0x81); bus.write(0xFF42, 0x00); bus.write(0xFF43, 0x00); bus.write(0xFF44, 0x91); bus.write(0xFF45, 0x00); bus.write(0xFF46, 0xFF); bus.write(0xFF47, 0xFC); bus.write(0xFF4A, 0x00); bus.write(0xFF4B, 0x00); bus.write(0xFFFF, 0x00); bus } pub fn read(&self, address: u16) -> u8 { if BANK_ZERO.contains(&address) || BANK_SWITCHABLE.contains(&address) || EXTERNAL_RAM.contains(&address) { return self.game_rom.read(address); } else if address == INTERRUPT_ENABLE_ADDRESS || address == INTERRUPT_FLAG_ADDRESS { return 0b11100000 | self.data[address as usize]; } else if VIDEO_RAM.contains(&address) { return self.ppu.read_vram(address); } else if SPRITE_ATTRIBUTE_TABLE.contains(&address) { return self.ppu.read_oam(address); } else if PPU::is_io_register(address) { return self.ppu.get_register(address); } else if address == JOYPAD_ADDRESS { return self.joypad.read(self.data[address as usize]); } else if Timer::is_io_register(address) { return self.timer.get_register(address); } self.data[address as usize] } pub fn read_16bit(&self, address: u16) -> u16 { join_bytes(self.read(address.wrapping_add(1)), self.read(address)) } pub fn write(&mut self, address: u16, data: u8) { if address == 0xFF01 { // print!("{}", data as char); } if BANK_ZERO.contains(&address) || BANK_SWITCHABLE.contains(&address) || EXTERNAL_RAM.contains(&address) { self.game_rom.write(address, data); } else if WORK_RAM_1.contains(&address) || WORK_RAM_2.contains(&address) { self.data[address as usize] = data; // Copy to the ECHO RAM if address <= 0xDDFF { self.data[(ECHO_RAM.min().unwrap() + (address - WORK_RAM_1.min().unwrap())) as usize] = data; } } else if EXTERNAL_RAM.contains(&address) { self.game_rom.write(address, data); } else if ECHO_RAM.contains(&address) { self.data[address as usize] = data; self.data[(WORK_RAM_1.min().unwrap() + (address - ECHO_RAM.min().unwrap())) as usize] = data; // Copy to the working RAM } else if Timer::is_io_register(address) { self.timer.set_register(address, data); } else if address == JOYPAD_ADDRESS { let byte = self.data[address as usize]; self.data[address as usize] = (data & 0b11110000) | (byte & 0b00001111); } else if VIDEO_RAM.contains(&address) { return self.ppu.write_vram(address, data); } else if SPRITE_ATTRIBUTE_TABLE.contains(&address) { return self.ppu.write_oam(address, data); } else if address == DMA_ADDRESS { self.data[address as usize] = data; let source = (data as u16) * 0x100; let mut count: u16 = 0; let oam_addr = SPRITE_ATTRIBUTE_TABLE.min().unwrap(); while count < 160 { self.ppu.write_oam(oam_addr + count, self.data[(source + count) as usize]); count += 1; } } else if PPU::is_io_register(address) { self.ppu.set_register(address, data); } else { self.data[address as usize] = data; } } pub fn force_write(&mut self, address: u16, data: u8) { self.data[address as usize] = data; } pub fn write_16bit(&mut self, address: u16, data: u16) { let bytes = data.to_le_bytes(); self.write(address, bytes[0]); self.write(address.wrapping_add(1), bytes[1]); } pub fn set_interrupt_flag(&mut self, interrupt: Interrupt, val: bool) { let byte = self.read(INTERRUPT_FLAG_ADDRESS); self.write(INTERRUPT_FLAG_ADDRESS, interrupt.set(byte, val)); } }