#include #define BSX_CPP namespace SuperFamicom { #include "serialization.cpp" BSXCartridge bsxcartridge; void BSXCartridge::init() { } void BSXCartridge::load() { } void BSXCartridge::unload() { rom.reset(); ram.reset(); psram.reset(); } void BSXCartridge::power() { } void BSXCartridge::reset() { for(unsigned i = 0; i < 16; i++) r[i] = 0x00; r[0x07] = 0x80; r[0x08] = 0x80; mmio_commit(); } uint8 BSXCartridge::memory_access(bool write, Memory &memory, unsigned addr, uint8 data) { if(write == 0) return memory_read(memory, addr); memory_write(memory, addr, data); } uint8 BSXCartridge::memory_read(Memory &memory, unsigned addr) { addr = bus.mirror(addr, memory.size()); return memory.read(addr); } void BSXCartridge::memory_write(Memory &memory, unsigned addr, uint8 data) { addr = bus.mirror(addr, memory.size()); return memory.write(addr, data); } //mcu_access() allows mcu_read() and mcu_write() to share decoding logic uint8 BSXCartridge::mcu_access(bool write, unsigned addr, uint8 data) { if((addr & 0xe08000) == 0x008000) { //$00-1f:8000-ffff if(r07 == 1) { addr = ((addr & 0x1f0000) >> 1) | (addr & 0x7fff); return memory_access(write, rom, addr, data); } } if((addr & 0xe08000) == 0x808000) { //$80-9f:8000-ffff if(r08 == 1) { addr = ((addr & 0x1f0000) >> 1) | (addr & 0x7fff); return memory_access(write, rom, addr, data); } } if((addr & 0xe0e000) == 0x206000) { //$20-3f:6000-7fff return memory_access(write, psram, addr, data); } if((addr & 0xf00000) == 0x400000) { //$40-4f:0000-ffff if(r05 == 0) return memory_access(write, psram, addr & 0x0fffff, data); } if((addr & 0xf00000) == 0x500000) { //$50-5f:0000-ffff if(r06 == 0) return memory_access(write, psram, addr & 0x0fffff, data); } if((addr & 0xf00000) == 0x600000) { //$60-6f:0000-ffff if(r03 == 1) return memory_access(write, psram, addr & 0x0fffff, data); } if((addr & 0xf80000) == 0x700000) { //$70-77:0000-ffff return memory_access(write, psram, addr & 0x07ffff, data); } if(((addr & 0x408000) == 0x008000) //$00-3f|80-bf:8000-ffff || ((addr & 0x400000) == 0x400000) //$40-7f|c0-ff:0000-ffff ) { if(r02 == 0) addr = ((addr & 0x7f0000) >> 1) | (addr & 0x7fff); Memory &memory = (r01 == 0 ? (Memory&)satellaviewcartridge : (Memory&)psram); return memory_access(write, memory, addr & 0x7fffff, data); } return cpu.regs.mdr; } uint8 BSXCartridge::mcu_read(unsigned addr) { return mcu_access(0, addr); } void BSXCartridge::mcu_write(unsigned addr, uint8 data) { mcu_access(1, addr, data); } uint8 BSXCartridge::mmio_read(unsigned addr) { if((addr & 0xf0ffff) == 0x005000) { //$00-0f:5000 uint8 n = (addr >> 16) & 15; return r[n]; } if((addr & 0xf8f000) == 0x105000) { //$10-17:5000-5fff return memory_read(ram, ((addr >> 16) & 7) * 0x1000 + (addr & 0xfff)); } return 0x00; } void BSXCartridge::mmio_write(unsigned addr, uint8 data) { if((addr & 0xf0ffff) == 0x005000) { //$00-0f:5000 uint8 n = (addr >> 16) & 15; r[n] = data; if(n == 0x0e && data & 0x80) mmio_commit(); return; } if((addr & 0xf8f000) == 0x105000) { //$10-17:5000-5fff return memory_write(ram, ((addr >> 16) & 7) * 0x1000 + (addr & 0xfff), data); } } void BSXCartridge::mmio_commit() { r00 = r[0x00] & 0x80; r01 = r[0x01] & 0x80; r02 = r[0x02] & 0x80; r03 = r[0x03] & 0x80; r04 = r[0x04] & 0x80; r05 = r[0x05] & 0x80; r06 = r[0x06] & 0x80; r07 = r[0x07] & 0x80; r08 = r[0x08] & 0x80; r09 = r[0x09] & 0x80; r0a = r[0x0a] & 0x80; r0b = r[0x0b] & 0x80; r0c = r[0x0c] & 0x80; r0d = r[0x0d] & 0x80; r0e = r[0x0e] & 0x80; r0f = r[0x0f] & 0x80; } }