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|
#![allow(dead_code)]
use ppu::PPU;
use apu::APU;
use utils::{Read, Write, load_prefix, save_prefix};
use mos6502::CPU;
use cartridge::MirrorType;
use mapper::RefMapper;
use controller::Controller;
use core::cell::Cell;
use core::ptr::null_mut;
use core::mem::size_of;
pub trait VMem {
fn read(&self, addr: u16) -> u8;
fn write(&mut self, addr: u16, data: u8);
}
#[repr(C)]
pub struct CPUBus<'a> {
/*-- begin state --*/
nmi_after_tick: Cell<bool>,
cpu_stall: Cell<u32>,
/*-- end state --*/
cpu: *mut CPU<'a>,
ppu: *mut PPU<'a>,
apu: *mut APU<'a>,
}
macro_rules! CPUBUS_IGNORED_SIZE {
() => (size_of::<*mut CPU>() +
size_of::<*mut PPU>() +
size_of::<*mut APU>())
}
impl<'a> CPUBus<'a> {
pub fn new() -> Self {
CPUBus {ppu: null_mut(),
cpu: null_mut(),
apu: null_mut(),
nmi_after_tick: Cell::new(false),
cpu_stall: Cell::new(0)
}
}
pub fn load(&mut self, reader: &mut Read) -> bool {
load_prefix(self, CPUBUS_IGNORED_SIZE!(), reader)
}
pub fn save(&self, writer: &mut Write) -> bool {
save_prefix(self, CPUBUS_IGNORED_SIZE!(), writer)
}
pub fn attach(&mut self, cpu: *mut CPU<'a>,
ppu: *mut PPU<'a>,
apu: *mut APU<'a>) {
self.ppu = ppu;
self.cpu = cpu;
self.apu = apu;
}
#[inline(always)] pub fn get_cpu(&self) -> &'a mut CPU<'a> {unsafe{&mut *self.cpu}}
#[inline(always)] pub fn get_ppu(&self) -> &'a mut PPU<'a> {unsafe{&mut *self.ppu}}
#[inline(always)] pub fn get_apu(&self) -> &'a mut APU<'a> {unsafe{&mut *self.apu}}
pub fn cpu_stall(&self, delta: u32) {
self.cpu_stall.set(self.cpu_stall.get() + delta)
}
pub fn tick(&self) {
let cpu = self.get_cpu();
let ppu = self.get_ppu();
let apu = self.get_apu();
let cpu_stall = self.cpu_stall.get();
if cpu_stall == 0 {
cpu.tick()
} else {
self.cpu_stall.set(cpu_stall - 1)
}
if apu.tick(self) {
cpu.trigger_irq()
}
let first = ppu.tick(self);
let second = ppu.tick(self);
let third = ppu.tick(self);
let mut nmi_after_tick = false;
if first || second || third {
nmi_after_tick = !first;
if cpu.cycle == 0 && nmi_after_tick {
cpu.trigger_delayed_nmi()
} else {
cpu.trigger_nmi()
}
//println!("nmi");
}
self.nmi_after_tick.set(nmi_after_tick);
//println!("tick {} {}", ppu.scanline, ppu.cycle);
}
}
#[repr(C)]
pub struct CPUMemory<'a> {
/*-- begin state --*/
sram: [u8; 2048],
/*-- end state --*/
/*-- begin sub-state --*/
pub bus: CPUBus<'a>,
/*-- end sub-state --*/
mapper: &'a RefMapper<'a>,
ctl1: Option<&'a Controller>,
ctl2: Option<&'a Controller>
}
macro_rules! CPUMEM_IGNORED_SIZE {
() => (size_of::<CPUBus>() +
size_of::<&RefMapper>() +
size_of::<Option<&Controller>>() +
size_of::<Option<&Controller>>())
}
impl<'a> CPUMemory<'a> {
pub fn new(mapper: &'a RefMapper<'a>,
ctl1: Option<&'a Controller>,
ctl2: Option<&'a Controller>) -> Self {
CPUMemory{sram: [0; 2048],
bus: CPUBus::new(),
mapper, ctl1, ctl2}
}
pub fn load(&mut self, reader: &mut Read) -> bool {
load_prefix(self, CPUMEM_IGNORED_SIZE!(), reader) &&
self.bus.load(reader)
}
pub fn save(&self, writer: &mut Write) -> bool {
save_prefix(self, CPUMEM_IGNORED_SIZE!(), writer) &&
self.bus.save(writer)
}
pub fn get_bus(&'a self) -> &'a CPUBus<'a> {
&self.bus
}
#[inline(always)]
pub fn read_without_tick(&self, addr: u16) -> u8 {
let cpu = self.bus.get_cpu();
let ppu = self.bus.get_ppu();
match addr >> 12 {
/* [0x0000..0x2000) */
0 | 1 => self.sram[(addr & 0x07ff) as usize],
/* [0x2000..0x4000) */
2 | 3 => {
match addr & 0x7 {
0x2 => {
if ppu.cycle == 2 || ppu.cycle == 3 {
cpu.suppress_nmi()
} /* race condition when status is read near vbl/nmi */
ppu.read_status()
},
0x4 => ppu.read_oamdata(),
0x7 => ppu.read_data(),
_ => 0
}
},
/* [0x4000..0x5000) */
4 => {
let apu = self.bus.get_apu();
match addr {
0x4015 => apu.read_status(),
0x4016 => if let Some(c) = self.ctl1 { c.read() } else { 0 },
0x4017 => if let Some(c) = self.ctl2 { c.read() } else { 0 },
_ => 0
}
},
/* [0x5000..0x6000) */
5 => 0,
/* [0x6000..0xffff) */
_ => self.mapper.read(addr)
}
}
#[inline(always)]
pub fn write_without_tick(&mut self, addr: u16, data: u8) {
let cpu = self.bus.get_cpu();
let ppu = self.bus.get_ppu();
match addr >> 12 {
/* [0x0000..0x2000) */
0 | 1 => self.sram[(addr & 0x07ff) as usize] = data,
/* [0x2000..0x4000) */
2 | 3 => match addr & 0x7 {
0x0 => {
let old = ppu.get_flag_nmi();
ppu.write_ctl(data);
if !ppu.try_nmi() && self.bus.nmi_after_tick.get() {
cpu.suppress_nmi()
} /* NMI could be suppressed if disabled near set */
if !old && ppu.try_nmi() && ppu.vblank_lines {
cpu.trigger_delayed_nmi()
} /* toggle NMI flag can generate multiple ints */
},
0x1 => ppu.write_mask(data),
0x2 => (),
0x3 => ppu.write_oamaddr(data),
0x4 => ppu.write_oamdata(data),
0x5 => ppu.write_scroll(data),
0x6 => ppu.write_addr(data),
_ => ppu.write_data(data),
},
/* [0x4000..0x5000) */
4 => {
let apu = self.bus.get_apu();
match addr {
0x4000 => apu.pulse1.write_reg1(data),
0x4001 => apu.pulse1.write_reg2(data),
0x4002 => apu.pulse1.write_reg3(data),
0x4003 => apu.pulse1.write_reg4(data),
0x4004 => apu.pulse2.write_reg1(data),
0x4005 => apu.pulse2.write_reg2(data),
0x4006 => apu.pulse2.write_reg3(data),
0x4007 => apu.pulse2.write_reg4(data),
0x4008 => apu.triangle.write_reg1(data),
0x400a => apu.triangle.write_reg3(data),
0x400b => apu.triangle.write_reg4(data),
0x400c => apu.noise.write_reg1(data),
0x400e => apu.noise.write_reg3(data),
0x400f => apu.noise.write_reg4(data),
0x4010 => apu.dmc.write_reg1(data),
0x4011 => apu.dmc.write_reg2(data),
0x4012 => apu.dmc.write_reg3(data),
0x4013 => apu.dmc.write_reg4(data),
0x4015 => apu.write_status(data),
0x4017 => apu.write_frame_counter(data),
0x4014 => ppu.write_oamdma(data, &self.bus),
0x4016 => {
if let Some(c) = self.ctl1 { c.write(data) }
if let Some(c) = self.ctl2 { c.write(data) }
}
_ => ()
}
},
/* [0x5000..0x6000) */
5 => (),
/* [0x6000..0xffff) */
_ => self.mapper.get_mut().write(addr, data)
}
}
}
impl<'a> VMem for CPUMemory<'a> {
fn read(&self, addr: u16) -> u8 {
self.bus.tick();
self.read_without_tick(addr)
}
fn write(&mut self, addr: u16, data: u8) {
self.bus.tick();
self.write_without_tick(addr, data);
}
}
#[repr(C)]
pub struct PPUMemory<'a> {
/*-- begin state -- */
nametable: [u8; 0x800],
palette: [u8; 0x20],
/*-- end state --*/
mapper: &'a RefMapper<'a>
}
macro_rules! PPUMEM_IGNORED_SIZE {
() => (size_of::<&RefMapper>())
}
impl<'a> PPUMemory<'a> {
pub fn new(mapper: &'a RefMapper<'a>) -> Self {
PPUMemory{
nametable: [0; 0x800],
palette: [0; 0x20],
mapper
}
}
pub fn load(&mut self, reader: &mut Read) -> bool {
load_prefix(self, PPUMEM_IGNORED_SIZE!(), reader)
}
pub fn save(&self, writer: &mut Write) -> bool {
save_prefix(self, PPUMEM_IGNORED_SIZE!(), writer)
}
}
const MIRROR_IDX: [[u8; 4]; 5] = [
[0, 0, 1, 1],
[0, 1, 0, 1],
[0, 0, 0, 0],
[1, 1, 1, 1],
[0, 1, 2, 3],
];
#[inline(always)]
fn get_mirror_addr(kind: MirrorType, addr: u16) -> u16 {
let table = addr >> 10;
let offset = addr & 0x03ff;
((MIRROR_IDX[kind as usize][table as usize] as u16) << 10) + offset
}
#[inline(always)]
fn get_mirror_palette(addr: u16) -> u16 {
if addr >= 0x10 && addr & 3 == 0 {
addr - 0x10
} else { addr }
}
impl<'a> PPUMemory<'a> {
#[inline(always)]
pub fn read_nametable(&self, addr: u16) -> u8 {
let mt = self.mapper.get_cart().get_mirror_type();
self.nametable[(get_mirror_addr(mt, addr) & 0x7ff) as usize]
}
#[inline(always)]
pub fn read_palette(&self, addr: u16) -> u8 {
self.palette[get_mirror_palette(addr) as usize]
}
#[inline(always)]
pub fn write_nametable(&mut self, addr: u16, data: u8) {
let mt = self.mapper.get_cart().get_mirror_type();
self.nametable[(get_mirror_addr(mt, addr) & 0x7ff) as usize] = data
}
#[inline(always)]
pub fn write_palette(&mut self, addr: u16, data: u8) {
self.palette[get_mirror_palette(addr) as usize] = data
}
#[inline(always)]
pub fn read_mapper(&self, addr: u16) -> u8 {
self.mapper.read(addr)
}
#[inline(always)]
fn write_mapper(&self, addr: u16, data: u8) {
self.mapper.get_mut().write(addr, data)
}
#[inline(always)]
pub fn tick(&self, bus: &CPUBus) {
self.mapper.get_mut().tick(bus)
}
}
impl<'a> VMem for PPUMemory<'a> {
fn read(&self, mut addr: u16) -> u8 {
addr &= 0x3fff;
match addr >> 12 {
/* [0x0000..0x2000) */
0 | 1 => self.read_mapper(addr),
/* [0x2000..0x3000) */
2 => self.read_nametable((addr - 0x2000) & 0xfff),
/* [0x3000..0x4000) */
_ => match addr >> 8 {
0x3f => self.read_palette((addr - 0x3f00) & 0x1f),
_ => self.read_nametable((addr - 0x2000) & 0xfff)
},
}
}
fn write(&mut self, mut addr: u16, data: u8) {
addr &= 0x3fff;
match addr >> 12 {
/* [0x0000..0x2000) */
0 | 1 => self.write_mapper(addr, data),
/* [0x2000..0x3000) */
2 => self.write_nametable((addr - 0x2000) & 0xfff, data),
/* [0x3000..0x4000) */
_ => match addr >> 8 {
0x3f => self.write_palette((addr - 0x3f00) & 0x1f, data),
_ => self.write_nametable((addr - 0x2000) & 0xfff, data)
},
}
}
}
|