#include namespace SuperFamicom { #include "dcu.cpp" #include "data.cpp" #include "alu.cpp" #include "serialization.cpp" SPC7110 spc7110; SPC7110::SPC7110() { decompressor = new Decompressor(*this); } SPC7110::~SPC7110() { delete decompressor; } auto SPC7110::Enter() -> void { while(true) scheduler.synchronize(), spc7110.main(); } auto SPC7110::main() -> void { if(dcuPending) { dcuPending = 0; dcuBeginTransfer(); } if(mulPending) { mulPending = 0; aluMultiply(); } if(divPending) { divPending = 0; aluDivide(); } addClocks(1); } auto SPC7110::addClocks(uint clocks) -> void { step(clocks); synchronize(cpu); } auto SPC7110::init() -> void { } auto SPC7110::load() -> void { } auto SPC7110::unload() -> void { prom.reset(); drom.reset(); ram.reset(); } auto SPC7110::power() -> void { create(SPC7110::Enter, 21'477'272); r4801 = 0x00; r4802 = 0x00; r4803 = 0x00; r4804 = 0x00; r4805 = 0x00; r4806 = 0x00; r4807 = 0x00; r4809 = 0x00; r480a = 0x00; r480b = 0x00; r480c = 0x00; dcuPending = 0; dcuMode = 0; dcuAddress = 0; r4810 = 0x00; r4811 = 0x00; r4812 = 0x00; r4813 = 0x00; r4814 = 0x00; r4815 = 0x00; r4816 = 0x00; r4817 = 0x00; r4818 = 0x00; r481a = 0x00; r4820 = 0x00; r4821 = 0x00; r4822 = 0x00; r4823 = 0x00; r4824 = 0x00; r4825 = 0x00; r4826 = 0x00; r4827 = 0x00; r4828 = 0x00; r4829 = 0x00; r482a = 0x00; r482b = 0x00; r482c = 0x00; r482d = 0x00; r482e = 0x00; r482f = 0x00; mulPending = 0; divPending = 0; r4830 = 0x00; r4831 = 0x00; r4832 = 0x01; r4833 = 0x02; r4834 = 0x00; } auto SPC7110::read(uint24 addr, uint8 data) -> uint8 { cpu.synchronize(*this); if((addr & 0xff0000) == 0x500000) addr = 0x4800; //$50:0000-ffff == $4800 if((addr & 0xff0000) == 0x580000) addr = 0x4808; //$58:0000-ffff == $4808 addr = 0x4800 | (addr & 0x3f); //$00-3f,80-bf:4800-483f switch(addr) { //================== //decompression unit //================== case 0x4800: { uint16 counter = r4809 | r480a << 8; counter--; r4809 = counter >> 0; r480a = counter >> 8; return dcuRead(); } case 0x4801: return r4801; case 0x4802: return r4802; case 0x4803: return r4803; case 0x4804: return r4804; case 0x4805: return r4805; case 0x4806: return r4806; case 0x4807: return r4807; case 0x4808: return 0x00; case 0x4809: return r4809; case 0x480a: return r480a; case 0x480b: return r480b; case 0x480c: return r480c; //============== //data port unit //============== case 0x4810: { data = r4810; dataPortIncrement4810(); return data; } case 0x4811: return r4811; case 0x4812: return r4812; case 0x4813: return r4813; case 0x4814: return r4814; case 0x4815: return r4815; case 0x4816: return r4816; case 0x4817: return r4817; case 0x4818: return r4818; case 0x481a: { dataPortIncrement481a(); return 0x00; } //===================== //arithmetic logic unit //===================== case 0x4820: return r4820; case 0x4821: return r4821; case 0x4822: return r4822; case 0x4823: return r4823; case 0x4824: return r4824; case 0x4825: return r4825; case 0x4826: return r4826; case 0x4827: return r4827; case 0x4828: return r4828; case 0x4829: return r4829; case 0x482a: return r482a; case 0x482b: return r482b; case 0x482c: return r482c; case 0x482d: return r482d; case 0x482e: return r482e; case 0x482f: return r482f; //=================== //memory control unit //=================== case 0x4830: return r4830; case 0x4831: return r4831; case 0x4832: return r4832; case 0x4833: return r4833; case 0x4834: return r4834; } return data; } auto SPC7110::write(uint24 addr, uint8 data) -> void { cpu.synchronize(*this); if((addr & 0xff0000) == 0x500000) addr = 0x4800; //$50:0000-ffff == $4800 if((addr & 0xff0000) == 0x580000) addr = 0x4808; //$58:0000-ffff == $4808 addr = 0x4800 | (addr & 0x3f); //$00-3f,80-bf:4800-483f switch(addr) { //================== //decompression unit //================== case 0x4801: r4801 = data; break; case 0x4802: r4802 = data; break; case 0x4803: r4803 = data; break; case 0x4804: r4804 = data; dcuLoadAddress(); break; case 0x4805: r4805 = data; break; case 0x4806: r4806 = data; r480c &= 0x7f; dcuPending = 1; break; case 0x4807: r4807 = data; break; case 0x4808: break; case 0x4809: r4809 = data; break; case 0x480a: r480a = data; break; case 0x480b: r480b = data & 0x03; break; //============== //data port unit //============== case 0x4811: r4811 = data; break; case 0x4812: r4812 = data; break; case 0x4813: r4813 = data; dataPortRead(); break; case 0x4814: r4814 = data; dataPortIncrement4814(); break; case 0x4815: r4815 = data; if(r4818 & 2) dataPortRead(); dataPortIncrement4815(); break; case 0x4816: r4816 = data; break; case 0x4817: r4817 = data; break; case 0x4818: r4818 = data & 0x7f; dataPortRead(); break; //===================== //arithmetic logic unit //===================== case 0x4820: r4820 = data; break; case 0x4821: r4821 = data; break; case 0x4822: r4822 = data; break; case 0x4823: r4823 = data; break; case 0x4824: r4824 = data; break; case 0x4825: r4825 = data; r482f |= 0x81; mulPending = 1; break; case 0x4826: r4826 = data; break; case 0x4827: r4827 = data; r482f |= 0x80; divPending = 1; break; case 0x482e: r482e = data & 0x01; break; //=================== //memory control unit //=================== case 0x4830: r4830 = data & 0x87; break; case 0x4831: r4831 = data & 0x07; break; case 0x4832: r4832 = data & 0x07; break; case 0x4833: r4833 = data & 0x07; break; case 0x4834: r4834 = data & 0x07; break; } } //=============== //SPC7110::MCUROM //=============== //map address=00-3f,80-bf:8000-ffff mask=0x800000 => 00-3f:8000-ffff //map address=c0-ff:0000-ffff mask=0xc00000 => c0-ff:0000-ffff auto SPC7110::mcuromRead(uint24 addr, uint8 data) -> uint8 { uint mask = (1 << (r4834 & 3)) - 1; //8mbit, 16mbit, 32mbit, 64mbit DROM if(addr < 0x100000) { //$00-0f,80-8f:8000-ffff; $c0-cf:0000-ffff addr &= 0x0fffff; if(prom.size()) { //8mbit PROM return prom.read(bus.mirror(0x000000 + addr, prom.size())); } addr |= 0x100000 * (r4830 & 7); return dataromRead(addr); } if(addr < 0x200000) { //$10-1f,90-9f:8000-ffff; $d0-df:0000-ffff addr &= 0x0fffff; if(r4834 & 4) { //16mbit PROM return prom.read(bus.mirror(0x100000 + addr, prom.size())); } addr |= 0x100000 * (r4831 & 7); return dataromRead(addr); } if(addr < 0x300000) { //$20-2f,a0-af:8000-ffff; $e0-ef:0000-ffff addr &= 0x0fffff; addr |= 0x100000 * (r4832 & 7); return dataromRead(addr); } if(addr < 0x400000) { //$30-3f,b0-bf:8000-ffff; $f0-ff:0000-ffff addr &= 0x0fffff; addr |= 0x100000 * (r4833 & 7); return dataromRead(addr); } return data; } auto SPC7110::mcuromWrite(uint24 addr, uint8 data) -> void { } //=============== //SPC7110::MCURAM //=============== //map address=00-3f,80-bf:6000-7fff mask=0x80e000 => 00-07:0000-ffff auto SPC7110::mcuramRead(uint24 addr, uint8) -> uint8 { if(r4830 & 0x80) { addr = bus.mirror(addr, ram.size()); return ram.read(addr); } return 0x00; } auto SPC7110::mcuramWrite(uint24 addr, uint8 data) -> void { if(r4830 & 0x80) { addr = bus.mirror(addr, ram.size()); ram.write(addr, data); } } }