//MMC2 struct NES_PxROM : Board { NES_PxROM(Markup::Node& document) : Board(document) { revision = Revision::PNROM; } auto readPRG(uint addr) -> uint8 { if(addr < 0x6000) return cpu.mdr(); if(addr < 0x8000) return prgram.read(addr); uint bank = 0; switch((addr / 0x2000) & 3) { case 0: bank = prgBank; break; case 1: bank = 0x0d; break; case 2: bank = 0x0e; break; case 3: bank = 0x0f; break; } return prgrom.read((bank * 0x2000) | (addr & 0x1fff)); } auto writePRG(uint addr, uint8 data) -> void { if(addr < 0x6000) return; if(addr < 0x8000) return prgram.write(addr, data); switch(addr & 0xf000) { case 0xa000: prgBank = data & 0x0f; break; case 0xb000: chrBank[0][0] = data & 0x1f; break; case 0xc000: chrBank[0][1] = data & 0x1f; break; case 0xd000: chrBank[1][0] = data & 0x1f; break; case 0xe000: chrBank[1][1] = data & 0x1f; break; case 0xf000: mirror = data & 0x01; break; } } auto addrCIRAM(uint addr) const -> uint { switch(mirror) { case 0: return ((addr & 0x0400) >> 0) | (addr & 0x03ff); //vertical mirroring case 1: return ((addr & 0x0800) >> 1) | (addr & 0x03ff); //horizontal mirroring } } auto readCHR(uint addr) -> uint8 { if(addr & 0x2000) return ppu.readCIRAM(addrCIRAM(addr)); bool region = addr & 0x1000; uint bank = chrBank[region][latch[region]]; if((addr & 0x0ff8) == 0x0fd8) latch[region] = 0; if((addr & 0x0ff8) == 0x0fe8) latch[region] = 1; return Board::readCHR((bank * 0x1000) | (addr & 0x0fff)); } auto writeCHR(uint addr, uint8 data) -> void { if(addr & 0x2000) return ppu.writeCIRAM(addrCIRAM(addr), data); bool region = addr & 0x1000; uint bank = chrBank[region][latch[region]]; if((addr & 0x0ff8) == 0x0fd8) latch[region] = 0; if((addr & 0x0ff8) == 0x0fe8) latch[region] = 1; return Board::writeCHR((bank * 0x1000) | (addr & 0x0fff), data); } auto power() -> void { } auto reset() -> void { prgBank = 0; chrBank[0][0] = 0; chrBank[0][1] = 0; chrBank[1][0] = 0; chrBank[1][1] = 0; mirror = 0; latch[0] = 0; latch[1] = 0; } auto serialize(serializer& s) -> void { Board::serialize(s); s.integer(prgBank); s.integer(chrBank[0][0]); s.integer(chrBank[0][1]); s.integer(chrBank[1][0]); s.integer(chrBank[1][1]); s.integer(mirror); s.array(latch); } enum Revision : uint { PEEOROM, PNROM, } revision; uint4 prgBank; uint5 chrBank[2][2]; bool mirror; bool latch[2]; };