#include namespace SuperFamicom { CPU cpu; #include "dma.cpp" #include "memory.cpp" #include "io.cpp" #include "timing.cpp" #include "irq.cpp" #include "joypad.cpp" #include "serialization.cpp" auto CPU::interruptPending() const -> bool { return status.interruptPending; } auto CPU::pio() const -> uint8 { return io.pio; } auto CPU::joylatch() const -> bool { return io.joypadStrobeLatch; } CPU::CPU() { PPUcounter::scanline = {&CPU::scanline, this}; } auto CPU::synchronizeSMP() -> void { if(smp.clock < 0) co_switch(smp.thread); } auto CPU::synchronizePPU() -> void { if(ppu.clock < 0) co_switch(ppu.thread); } auto CPU::synchronizeCoprocessors() -> void { for(auto coprocessor : coprocessors) { if(coprocessor->clock < 0) co_switch(coprocessor->thread); } } auto CPU::synchronizePeripherals() -> void { for(auto peripheral : peripherals) { if(peripheral->clock < 0) co_switch(peripheral->thread); } } auto CPU::Enter() -> void { while(true) scheduler.synchronize(), cpu.main(); } auto CPU::main() -> void { if(status.interruptPending) { status.interruptPending = false; if(status.nmiPending) { status.nmiPending = false; r.vector = r.e ? 0xfffa : 0xffea; interrupt(); debug(cpu.nmi); } else if(status.irqPending) { status.irqPending = false; r.vector = r.e ? 0xfffe : 0xffee; interrupt(); debug(cpu.irq); } else if(status.resetPending) { status.resetPending = false; step(132); r.vector = 0xfffc; interrupt(); } else if(status.powerPending) { status.powerPending = false; step(186); r.pc.l = bus.read(0xfffc, r.mdr); r.pc.h = bus.read(0xfffd, r.mdr); } } debug(cpu.execute, r.pc); instruction(); } auto CPU::load(Markup::Node node) -> bool { version = max(1, min(2, node["cpu/version"].natural())); return true; } auto CPU::power() -> void { for(auto& byte : wram) byte = random(0x55); //CPU r.a = 0x0000; r.x = 0x0000; r.y = 0x0000; r.s = 0x01ff; //DMA for(auto& channel : this->channel) { channel.direction = 1; channel.indirect = true; channel.unused = true; channel.reverseTransfer = true; channel.fixedTransfer = true; channel.transferMode = 7; channel.targetAddress = 0xff; channel.sourceAddress = 0xffff; channel.sourceBank = 0xff; channel.transferSize = 0xffff; channel.indirectBank = 0xff; channel.hdmaAddress = 0xffff; channel.lineCounter = 0xff; channel.unknown = 0xff; } status.powerPending = true; status.interruptPending = true; } auto CPU::reset() -> void { create(Enter, system.cpuFrequency()); coprocessors.reset(); PPUcounter::reset(); function uint8> reader; function void> writer; reader = {&CPU::readAPU, this}; writer = {&CPU::writeAPU, this}; bus.map(reader, writer, "00-3f,80-bf:2140-217f"); reader = {&CPU::readCPU, this}; writer = {&CPU::writeCPU, this}; bus.map(reader, writer, "00-3f,80-bf:2180-2183,4016-4017,4200-421f"); reader = {&CPU::readDMA, this}; writer = {&CPU::writeDMA, this}; bus.map(reader, writer, "00-3f,80-bf:4300-437f"); reader = [](uint24 addr, uint8) -> uint8 { return cpu.wram[addr]; }; writer = [](uint24 addr, uint8 data) -> void { cpu.wram[addr] = data; }; bus.map(reader, writer, "00-3f,80-bf:0000-1fff", 0x2000); bus.map(reader, writer, "7e-7f:0000-ffff", 0x20000); //CPU r.pc = 0x000000; r.x.h = 0x00; r.y.h = 0x00; r.s.h = 0x01; r.d = 0x0000; r.db = 0x00; r.p = 0x34; r.e = 1; r.mdr = 0x00; r.wai = false; r.vector = 0xfffc; //reset vector address //$2140-217f for(auto& port : io.port) port = 0x00; //$2181-$2183 io.wramAddress = 0x000000; //$4016-$4017 io.joypadStrobeLatch = 0; //$4200 io.nmiEnabled = false; io.hirqEnabled = false; io.virqEnabled = false; io.autoJoypadPoll = false; //$4201 io.pio = 0xff; //$4202-$4203 io.wrmpya = 0xff; io.wrmpyb = 0xff; //$4204-$4206 io.wrdiva = 0xffff; io.wrdivb = 0xff; //$4207-$420a io.hirqPos = 0x01ff; io.virqPos = 0x01ff; //$420d io.romSpeed = 8; //$4214-$4217 io.rddiv = 0x0000; io.rdmpy = 0x0000; //$4218-$421f io.joy1 = 0x0000; io.joy2 = 0x0000; io.joy3 = 0x0000; io.joy4 = 0x0000; //ALU alu.mpyctr = 0; alu.divctr = 0; alu.shift = 0; //DMA for(auto& channel : this->channel) { channel.dmaEnabled = false; channel.hdmaEnabled = false; channel.hdmaCompleted = false; channel.hdmaDoTransfer = false; } pipe.valid = false; pipe.addr = 0; pipe.data = 0; //Timing status.clockCount = 0; status.lineClocks = lineclocks(); status.irqLock = false; status.dramRefreshPosition = (version == 1 ? 530 : 538); status.dramRefreshed = false; status.hdmaInitPosition = (version == 1 ? 12 + 8 - dmaCounter() : 12 + dmaCounter()); status.hdmaInitTriggered = false; status.hdmaPosition = 1104; status.hdmaTriggered = false; status.nmiValid = false; status.nmiLine = false; status.nmiTransition = false; status.nmiPending = false; status.nmiHold = false; status.irqValid = false; status.irqLine = false; status.irqTransition = false; status.irqPending = false; status.irqHold = false; status.resetPending = !status.powerPending; status.interruptPending = true; status.dmaActive = false; status.dmaCounter = 0; status.dmaClocks = 0; status.dmaPending = false; status.hdmaPending = false; status.hdmaMode = 0; status.autoJoypadActive = false; status.autoJoypadLatch = false; status.autoJoypadCounter = 0; status.autoJoypadClock = 0; } }