use crate::ppu::Ppu;
pub const BIOS_SIZE: usize = 256;
pub const ROM_SIZE: usize = 32768;
pub const RAM_SIZE: usize = 8192;
pub const ERAM_SIZE: usize = 8192;
pub const HRAM_SIZE: usize = 128;
pub struct Mmu {
ppu: Ppu,
boot_active: bool,
boot: [u8; BIOS_SIZE],
rom: [u8; ROM_SIZE],
ram: [u8; RAM_SIZE],
eram: [u8; RAM_SIZE],
hram: [u8; HRAM_SIZE],
}
impl Mmu {
pub fn new(ppu: Ppu) -> Mmu {
Mmu {
ppu: ppu,
boot_active: true,
boot: [0u8; BIOS_SIZE],
rom: [0u8; ROM_SIZE],
ram: [0u8; RAM_SIZE],
eram: [0u8; ERAM_SIZE],
hram: [0u8; HRAM_SIZE],
}
}
pub fn read(&self, addr: u16) -> u8 {
match addr & 0xf000 {
// BIOS
0x0000 => {
//@todo we still need to control if we're reading from boot
// if(MMU._inboot)
// {
// if(addr < 0x0100)
// return MMU._boot[addr];
// else if(Z80._r.pc == 0x0100)
// MMU._inboot = 0;
//}
//return MMU._rom[addr];
if self.boot_active {
if addr < 0x0100 {
return self.boot[addr as usize];
}
//else if self @todo implementar isto
}
self.rom[addr as usize]
}
// ROM0
0x1000 | 0x2000 | 0x3000 => self.rom[addr as usize],
// ROM1 (unbanked) (16k)
0x4000 | 0x5000 | 0x6000 | 0x7000 => self.rom[addr as usize],
// Graphics: VRAM (8k)
0x8000 | 0x9000 => {
println!("READING FROM VRAM");
self.ppu.vram[(addr & 0x1fff) as usize]
}
// External RAM (8k)
0xa000 | 0xb000 => {
println!("READING FROM ERAM");
self.eram[(addr & 0x1fff) as usize]
}
// Working RAM (8k)
0xc000 | 0xd000 => self.ram[(addr & 0x1fff) as usize],
// Working RAM shadow
0xe000 => {
println!("READING FROM RAM Shadow");
self.ram[(addr & 0x1fff) as usize]
}
// Working RAM shadow, I/O, Zero-page RAM
0xf000 => match addr & 0x0f00 {
0x000 | 0x100 | 0x200 | 0x300 | 0x400 | 0x500 | 0x600 | 0x700 | 0x800 | 0x900
| 0xa00 | 0xb00 | 0xc00 | 0xd00 => self.ram[(addr & 0x1fff) as usize],
0xe00 => {
println!("READING FROM GPU OAM - NOT IMPLEMENTED");
0x00
}
0xf00 => {
if addr >= 0xff80 {
self.hram[(addr & 0x7f) as usize]
} else {
println!("WRITING TO IO control");
0x00
}
}
addr => panic!("Reading from unknown location 0x{:04x}", addr),
},
addr => panic!("Reading from unknown location 0x{:04x}", addr),
}
}
pub fn write(&mut self, addr: u16, value: u8) {
match addr & 0xf000 {
// BOOT
0x0000 => {
println!("WRITING to BOOT")
}
// ROM0
0x1000 | 0x2000 | 0x3000 => {
println!("WRITING TO ROM 0");
}
// ROM1 (unbanked) (16k)
0x4000 | 0x5000 | 0x6000 | 0x7000 => {
println!("WRITING TO ROM 1");
}
// Graphics: VRAM (8k)
0x8000 | 0x9000 => {
println!("WRITING TO VRAM");
self.ppu.vram[(addr & 0x1fff) as usize] = value;
}
// External RAM (8k)
0xa000 | 0xb000 => {
println!("WRITING TO ERAM");
}
// Working RAM (8k)
0xc000 | 0xd000 => {
println!("WRITING TO RAM");
self.ram[(addr & 0x1fff) as usize] = value;
}
// Working RAM shadow
0xe000 => {
println!("WRITING TO RAM Shadow");
self.ram[(addr & 0x1fff) as usize] = value;
}
// Working RAM shadow, I/O, Zero-page RAM
0xf000 => match addr & 0x0f00 {
0x000 | 0x100 | 0x200 | 0x300 | 0x400 | 0x500 | 0x600 | 0x700 | 0x800 | 0x900
| 0xa00 | 0xb00 | 0xc00 | 0xd00 => {
self.ram[(addr & 0x1fff) as usize] = value;
}
0xe00 => {
println!("WRITING TO GPU OAM");
}
0xf00 => {
if addr >= 0xff80 {
self.hram[(addr & 0x7f) as usize] = value;
} else {
println!("WRITING TO IO control");
}
}
addr => panic!("Writing in unknown location 0x{:04x}", addr),
},
addr => panic!("Writing in unknown location 0x{:04x}", addr),
}
}
pub fn write_boot(&mut self, addr: u16, buffer: &[u8]) {
self.boot[addr as usize..addr as usize + buffer.len()].clone_from_slice(buffer);
}
pub fn write_ram(&mut self, addr: u16, buffer: &[u8]) {
self.ram[addr as usize..addr as usize + buffer.len()].clone_from_slice(buffer);
}
}