auto CPU::read(uint16 addr) -> uint8 { if(io.oamdmaPending) { io.oamdmaPending = false; read(addr); oamdma(); } while(io.rdyLine == 0) { regs.mdr = bus.read(io.rdyAddrValid ? io.rdyAddrValue : addr); step(12); } regs.mdr = bus.read(addr); step(12); return regs.mdr; } auto CPU::write(uint16 addr, uint8 data) -> void { bus.write(addr, regs.mdr = data); step(12); } auto CPU::lastCycle() -> void { io.interruptPending = ((io.irqLine | io.apuLine) & ~regs.p.i) | io.nmiPending; } auto CPU::nmi(uint16& vector) -> void { if(io.nmiPending) { io.nmiPending = false; vector = 0xfffa; } } auto CPU::oamdma() -> void { for(uint n : range(256)) { uint8 data = read(io.oamdmaPage << 8 | n); write(0x2004, data); } } auto CPU::nmiLine(bool line) -> void { //edge-sensitive (0->1) if(!io.nmiLine && line) io.nmiPending = true; io.nmiLine = line; } auto CPU::irqLine(bool line) -> void { //level-sensitive io.irqLine = line; } auto CPU::apuLine(bool line) -> void { //level-sensitive io.apuLine = line; } auto CPU::rdyLine(bool line) -> void { io.rdyLine = line; } auto CPU::rdyAddr(bool valid, uint16 value) -> void { io.rdyAddrValid = valid; io.rdyAddrValue = value; }