auto CPU::portRead(uint2 port) const -> uint8 { return status.port[port]; } auto CPU::portWrite(uint2 port, uint8 data) -> void { status.port[port] = data; } auto CPU::op_io() -> void { status.clock_count = 6; dma_edge(); add_clocks(6); alu_edge(); } auto CPU::op_read(uint32 addr) -> uint8 { status.clock_count = speed(addr); dma_edge(); add_clocks(status.clock_count - 4); regs.mdr = bus.read(addr); add_clocks(4); alu_edge(); debugger.op_read(addr, regs.mdr); return regs.mdr; } auto CPU::op_write(uint32 addr, uint8 data) -> void { alu_edge(); status.clock_count = speed(addr); dma_edge(); add_clocks(status.clock_count); bus.write(addr, regs.mdr = data); debugger.op_write(addr, regs.mdr); } auto CPU::speed(uint addr) const -> uint { if(addr & 0x408000) { if(addr & 0x800000) return status.rom_speed; return 8; } if((addr + 0x6000) & 0x4000) return 8; if((addr - 0x4000) & 0x7e00) return 6; return 12; } auto CPU::disassembler_read(uint32 addr) -> uint8 { return bus.read(addr); }