use super::Mapper;
use crate::cartridge::mappers::{decode_mirroring, encode_mirroring};
use crate::cartridge::{CHR_BANK_LEN, Mirroring};
use crate::savestate::{SaveStateError, StateReader, StateWriter};
const PRG_BANK_32K: usize = 0x8000;
enum ChrMemory {
Rom(Vec<u8>),
Ram(Vec<u8>),
}
pub(super) struct Nina003 {
prg_rom: Vec<u8>,
chr: ChrMemory,
prg_bank: usize,
chr_bank: usize,
mirroring: Mirroring,
has_mirror_control: bool,
}
impl Nina003 {
pub(super) fn new(
prg_rom: Vec<u8>,
chr_rom: Vec<u8>,
mirroring: Mirroring,
has_mirror_control: bool,
) -> Self {
let chr = if chr_rom.is_empty() {
ChrMemory::Ram(vec![0; CHR_BANK_LEN])
} else {
ChrMemory::Rom(chr_rom)
};
Self {
prg_rom,
chr,
prg_bank: 0,
chr_bank: 0,
mirroring,
has_mirror_control,
}
}
fn prg_bank_count(&self) -> usize {
self.prg_rom.len() / PRG_BANK_32K
}
fn chr_bank_count(&self) -> usize {
match &self.chr {
ChrMemory::Rom(chr_rom) => chr_rom.len() / CHR_BANK_LEN,
ChrMemory::Ram(chr_ram) => chr_ram.len() / CHR_BANK_LEN,
}
}
}
impl Mapper for Nina003 {
fn cpu_read(&mut self, addr: u16) -> Option<u8> {
match addr {
0x8000..=0xFFFF => {
let bank = self.prg_bank % self.prg_bank_count().max(1);
let offset = bank * PRG_BANK_32K + (addr as usize - 0x8000);
Some(self.prg_rom[offset % self.prg_rom.len()])
}
_ => None,
}
}
fn cpu_write(&mut self, addr: u16, data: u8) -> bool {
match addr {
0x4100..=0x5FFF => {
if self.has_mirror_control {
self.mirroring = if (data & 0x80) != 0 {
Mirroring::Vertical
} else {
Mirroring::Horizontal
};
self.prg_bank = ((data >> 3) & 0x07) as usize;
self.chr_bank = (((data >> 3) & 0x08) | (data & 0x07)) as usize;
} else {
self.prg_bank = (data >> 3) as usize;
self.chr_bank = data as usize;
}
true
}
_ => false,
}
}
fn ppu_read(&mut self, addr: u16) -> Option<u8> {
if !matches!(addr, 0x0000..=0x1FFF) {
return None;
}
let bank = self.chr_bank % self.chr_bank_count().max(1);
let offset = bank * CHR_BANK_LEN + addr as usize;
match &mut self.chr {
ChrMemory::Rom(chr_rom) => Some(chr_rom[offset % chr_rom.len()]),
ChrMemory::Ram(chr_ram) => Some(chr_ram[offset % chr_ram.len()]),
}
}
fn ppu_write(&mut self, addr: u16, data: u8) -> bool {
if !matches!(addr, 0x0000..=0x1FFF) {
return false;
}
let bank = self.chr_bank % self.chr_bank_count().max(1);
let offset = bank * CHR_BANK_LEN + addr as usize;
if let ChrMemory::Ram(chr_ram) = &mut self.chr {
let len = chr_ram.len();
chr_ram[offset % len] = data;
}
true
}
fn mirroring(&self) -> Mirroring {
self.mirroring
}
fn save_state(&self, writer: &mut StateWriter) {
writer.write_u64(self.prg_bank as u64);
writer.write_u64(self.chr_bank as u64);
writer.write_bool(self.has_mirror_control);
writer.write_u8(encode_mirroring(self.mirroring));
match &self.chr {
ChrMemory::Rom(_) => writer.write_bool(false),
ChrMemory::Ram(chr_ram) => {
writer.write_bool(true);
writer.write_bytes(chr_ram);
}
}
}
fn load_state(&mut self, reader: &mut StateReader<'_>) -> Result<(), SaveStateError> {
self.prg_bank = reader.read_u64()? as usize;
self.chr_bank = reader.read_u64()? as usize;
self.has_mirror_control = reader.read_bool()?;
self.mirroring = decode_mirroring(reader.read_u8()?)?;
let has_chr_ram = reader.read_bool()?;
match (&mut self.chr, has_chr_ram) {
(ChrMemory::Ram(chr_ram), true) => reader.read_bytes_into(chr_ram)?,
(ChrMemory::Rom(_), false) => {}
_ => {
return Err(SaveStateError::InvalidData(
"CHR RAM presence mismatch for NINA-003 save state",
));
}
}
Ok(())
}
}