#![allow(dead_code)]
extern crate core;
use memory::{VMem, CPUBus};
use cartridge::{Cartridge, BankType, MirrorType};
pub trait Mapper : VMem {
fn get_cart(&self) -> &Cartridge;
fn tick(&mut self, _bus: &CPUBus) {}
}
pub struct Mapper1<'a, C> where C: Cartridge {
cart: C,
prg_banks: [&'a [u8]; 2],
chr_banks: [&'a mut [u8]; 2],
sram: &'a mut [u8],
ctl_reg: u8,
load_reg: u8,
prg_nbank: usize, /* num of 16k PRG ROM banks */
chr_nbank: usize /* num of 8k PRG ROM banks */
}
impl<'a, C> VMem for Mapper1<'a, C> where C: Cartridge {
fn read(&self, addr: u16) -> u8 {
let addr = addr as usize;
if addr < 0x2000 { /* 0x2000 size bank */
self.chr_banks[(addr >> 12) & 1][addr & 0xfff]
} else if addr >= 0x8000 { /* 0x4000 size bank */
self.prg_banks[(addr >> 14) & 1][addr & 0x3fff]
} else if addr >= 0x6000 {
self.sram[addr - 0x6000]
} else {
panic!("unmapped address: 0x{:04x}", addr)
}
}
fn write(&mut self, addr: u16, data: u8) {
let addr = addr as usize;
if addr < 0x2000 {
self.chr_banks[(addr >> 12) & 1][addr & 0xfff] = data
} else if addr >= 0x8000 {
self.write_loadreg(addr as u16, data)
} else if addr >= 0x6000 {
self.sram[addr - 0x6000] = data
} else {
panic!("invalid write to address: 0x{:04x}", addr);
}
}
}
impl<'a, C> Mapper1<'a, C> where C: Cartridge {
pub fn new(cart: C) -> Self {
let prg_nbank = cart.get_size(BankType::PrgRom) >> 14;
let chr_nbank = cart.get_size(BankType::ChrRom) >> 13;
unsafe {
let mut m = Mapper1{cart,
prg_nbank,
chr_nbank,
load_reg: 0x10,
ctl_reg: 0x0c,
prg_banks: core::mem::uninitialized(),
chr_banks: core::mem::uninitialized(),
sram: core::mem::uninitialized()};
{
let c = &mut m.cart;
m.prg_banks = [
c.get_bank(0, 0x4000, BankType::PrgRom),
c.get_bank((prg_nbank - 1) << 14, 0x4000, BankType::PrgRom)
];
m.chr_banks = [
c.get_bank(0, 0x1000, BankType::ChrRom),
c.get_bank(0x1000, 0x1000, BankType::ChrRom)
];
m.sram = c.get_bank(0, 0x2000, BankType::Sram);
}
m
}
}
fn write_loadreg(&mut self, addr: u16, data: u8) {
if data & 0x80 == 0x80 {
self.ctl_reg |= 0x0c;
self.load_reg = 0x10;
return
}
let triggered = self.load_reg & 1 == 1;
self.load_reg = (self.load_reg >> 1) | ((data & 1) << 4);
if !triggered { return }
let load_reg = self.load_reg;
match (addr >> 13) & 3 {
0x0 => {
self.ctl_reg = load_reg;
self.cart.set_mirror_type(match load_reg & 3 {
0x0 => MirrorType::Single0,
0x1 => MirrorType::Single1,
0x2 => MirrorType::Vertical,
_ => MirrorType::Horizontal
});
},
0x1 => {
match (self.ctl_reg >> 4) & 1 {
0x0 => {
let base = ((load_reg & 0xfe) as usize % self.chr_nbank) << 13;
self.chr_banks = [
self.cart.get_bank(base, 0x1000, BankType::ChrRom),
self.cart.get_bank(base + 0x1000, 0x1000, BankType::ChrRom)];
},
_ =>
self.chr_banks[0] = self.cart.get_bank(
(load_reg as usize % (self.chr_nbank << 1)) << 12,
0x1000, BankType::ChrRom)
}
},
0x2 => {
if (self.ctl_reg >> 4) & 1 == 1 {
self.chr_banks[1] = self.cart.get_bank(
(load_reg as usize % (self.chr_nbank << 1)) << 12,
0x1000, BankType::ChrRom)
}
},
0x3 => {
let load_reg = load_reg & 0xf;
match (self.ctl_reg >> 2) & 3 {
0x0 | 0x1 => {
let base = ((load_reg & 0xfe) as usize % (self.prg_nbank >> 1)) << 15;
self.prg_banks = [
self.cart.get_bank(base, 0x4000, BankType::PrgRom),
self.cart.get_bank(base + 0x4000, 0x4000, BankType::PrgRom)
];
},
0x2 => self.prg_banks = [
self.cart.get_bank(0, 0x4000, BankType::PrgRom),
self.cart.get_bank((load_reg as usize % self.prg_nbank) << 14,
0x4000, BankType::PrgRom)],
0x3 => self.prg_banks = [
self.cart.get_bank((load_reg as usize % self.prg_nbank) << 14,
0x4000, BankType::PrgRom),
self.cart.get_bank((self.prg_nbank - 1) << 14,
0x4000, BankType::PrgRom)],
_ => ()
}
},
_ => ()
}
self.load_reg = 0x10;
}
}
impl<'a, C> Mapper for Mapper1<'a, C> where C: Cartridge {
fn get_cart(&self) -> &Cartridge {&self.cart}
}
pub struct Mapper2<'a, C> where C: Cartridge {
cart: C,
prg_banks: [&'a [u8]; 2],
chr_bank: &'a mut [u8],
sram: &'a mut [u8],
prg_nbank: usize
}
impl<'a, C> VMem for Mapper2<'a, C> where C: Cartridge {
fn read(&self, addr: u16) -> u8 {
let addr = addr as usize;
if addr < 0x2000 { /* 0x2000 size bank */
self.chr_bank[addr]
} else if addr >= 0x8000 { /* 0x4000 size bank */
self.prg_banks[(addr >> 14) & 1][addr & 0x3fff]
} else if addr >= 0x6000 {
self.sram[addr - 0x6000]
} else {
panic!("unmapped address: 0x{:04x}", addr)
}
}
fn write(&mut self, addr: u16, data: u8) {
let addr = addr as usize;
if addr < 0x2000 {
self.chr_bank[addr] = data;
} else if addr >= 0x8000 {
self.prg_banks[0] =
self.cart.get_bank(((data as usize) % self.prg_nbank) << 14,
0x4000,
BankType::PrgRom)
} else if addr >= 0x6000 {
self.sram[addr - 0x6000] = data
} else {
panic!("invalid write to address: 0x{:04x}", addr);
}
}
}
impl<'a, C> Mapper2<'a, C> where C: Cartridge {
pub fn new(cart: C) -> Self {
let nbank = cart.get_size(BankType::PrgRom) >> 14;
unsafe {
let mut m = Mapper2{cart,
prg_nbank: nbank,
prg_banks: core::mem::uninitialized(),
chr_bank: core::mem::uninitialized(),
sram: core::mem::uninitialized()};
{
let c = &mut m.cart;
m.prg_banks = [
c.get_bank(0, 0x4000, BankType::PrgRom),
c.get_bank((nbank - 1) << 14, 0x4000, BankType::PrgRom)
];
m.chr_bank = c.get_bank(0, 0x2000, BankType::ChrRom);
m.sram = c.get_bank(0, 0x2000, BankType::Sram);
}
m
}
}
}
impl<'a, C> Mapper for Mapper2<'a, C> where C: Cartridge {
fn get_cart(&self) -> &Cartridge {&self.cart}
}
pub struct Mapper4<'a, C> where C: Cartridge {
cart: C,
prg_banks: [&'a [u8]; 4],
chr_banks: [&'a mut [u8]; 8],
sram: &'a mut [u8],
prg_nbank: usize, /* num of 16k PRG ROM banks */
chr_nbank: usize, /* num of 8k PRG ROM banks */
chr_inv: u8,
prg_mode: u8,
reg_idx: u8,
regs: [u8; 8], /* 4 pairs of registers */
irq_reload: u8,
irq_counter: u8,
irq_enable: bool
}
impl<'a, C> VMem for Mapper4<'a, C> where C: Cartridge {
fn read(&self, addr: u16) -> u8 {
let addr = addr as usize;
if addr < 0x2000 {
self.chr_banks[addr >> 10][addr & 0x3ff]
} else if addr >= 0x8000 {
let addr = addr - 0x8000;
self.prg_banks[addr >> 13][addr & 0x1fff]
} else if addr >= 0x6000 {
self.sram[addr - 0x6000]
} else {
panic!("unmapped address: 0x{:04x}", addr)
}
}
fn write(&mut self, addr: u16, data: u8) {
let addr = addr as usize;
if addr < 0x2000 {
self.chr_banks[addr >> 10][addr & 0x3ff] = data
} else if addr < 0x6000 {
panic!("invalid write to address: 0x{:04x}", addr)
} else if addr < 0x8000 {
self.sram[addr - 0x6000] = data
} else if addr < 0xa000 {
match addr & 1 {
0 => self.write_select_reg(data),
_ => self.write_bank_data(data)
}
} else if addr < 0xc000 {
match addr & 1 {
0 => self.write_mirror(data),
_ => ()
}
} else if addr < 0xe000 {
match addr & 1 {
0 => self.irq_reload = data,
_ => self.irq_counter = 0
}
} else {
match addr & 1 {
0 => self.irq_enable = false,
_ => self.irq_enable = true
}
}
}
}
impl<'a, C> Mapper4<'a, C> where C: Cartridge {
#[inline(always)]
fn write_select_reg(&mut self, data: u8) {
self.prg_mode = (data >> 6) & 1;
self.chr_inv = (data >> 7) & 1;
self.reg_idx = data & 0x7;
self.update_banks();
}
#[inline(always)]
fn write_bank_data(&mut self, data: u8) {
self.regs[self.reg_idx as usize] = data;
self.update_banks();
}
#[inline(always)]
fn write_mirror(&mut self, data: u8) {
self.cart.set_mirror_type(match data & 1 {
0 => MirrorType::Vertical,
_ => MirrorType::Horizontal
})
}
#[inline(always)]
fn get_prgbank<'b>(&mut self, idx: u8) -> &'b mut [u8] {
self.cart.get_bank(0x2000 * idx as usize, 0x2000, BankType::PrgRom)
}
#[inline(always)]
fn get_chrbank<'b>(&mut self, idx: u8) -> &'b mut [u8] {
self.cart.get_bank(0x400 * idx as usize, 0x400, BankType::ChrRom)
}
fn update_banks(&mut self) {
macro_rules! make_arr {
($mt: ident, $m: ident, [$($x: expr), *]) => {
[$({let t = ($x as usize % self.$m) as u8;
self.$mt(t)}), *]
};
}
self.prg_banks = match self.prg_mode {
0 => make_arr!(get_prgbank, prg_nbank, [
self.regs[6],
self.regs[7],
(self.prg_nbank - 2) as u8,
(self.prg_nbank - 1) as u8
]),
_ => make_arr!(get_prgbank, prg_nbank, [
(self.prg_nbank - 2) as u8,
self.regs[7],
self.regs[6],
(self.prg_nbank - 1) as u8
])
};
self.chr_banks = match self.chr_inv {
0 => make_arr!(get_chrbank, chr_nbank, [
self.regs[0] & 0xfe,
self.regs[0] | 0x01,
self.regs[1] & 0xfe,
self.regs[1] | 0x01,
self.regs[2],
self.regs[3],
self.regs[4],
self.regs[5]
]),
_ => make_arr!(get_chrbank, chr_nbank, [
self.regs[2],
self.regs[3],
self.regs[4],
self.regs[5],
self.regs[0] & 0xfe,
self.regs[0] | 0x01,
self.regs[1] & 0xfe,
self.regs[1] | 0x01
]),
};
}
pub fn new(cart: C) -> Self {
let prg_nbank = cart.get_size(BankType::PrgRom) >> 13;
let chr_nbank = cart.get_size(BankType::ChrRom) >> 10;
unsafe {
let mut m = Mapper4{cart,
prg_nbank,
chr_nbank,
prg_mode: 0,
chr_inv: 0,
reg_idx: 0,
regs: [0; 8],
prg_banks: core::mem::uninitialized(),
chr_banks: core::mem::uninitialized(),
sram: core::mem::uninitialized(),
irq_reload: 0,
irq_counter: 0,
irq_enable: false
};
m.prg_banks = [
m.get_prgbank(0),
m.get_prgbank(1),
m.get_prgbank((prg_nbank - 2) as u8),
m.get_prgbank((prg_nbank - 1) as u8)];
m.chr_banks = [
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0),
m.get_chrbank(0)];
{
let c = &mut m.cart;
m.sram = c.get_bank(0, 0x2000, BankType::Sram);
}
m
}
}
}
impl<'a, C> Mapper for Mapper4<'a, C> where C: Cartridge {
fn get_cart(&self) -> &Cartridge {&self.cart}
fn tick(&mut self, bus: &CPUBus) {
let ppu = bus.get_ppu();
if ppu.cycle != 260 {
return
}
if ppu.scanline > 239 && ppu.scanline < 261 {
return
}
if !ppu.get_show_bg() && !ppu.get_show_sp() {
return
}
if self.irq_counter == 0 {
self.irq_counter = self.irq_reload
} else {
self.irq_counter -= 1;
if self.irq_counter == 0 && self.irq_enable {
bus.get_cpu().trigger_irq();
}
}
}
}