//70224 clocks/frame // 456 clocks/scanline // 154 scanlines/frame auto CPU::add_clocks(uint clocks) -> void { if(system.sgb()) system._clocksExecuted += clocks; while(clocks--) { if(++status.clock == 0) { cartridge.mbc3.second(); } //4MHz / N(hz) - 1 = mask status.div++; if((status.div & 15) == 0) timer_262144hz(); if((status.div & 63) == 0) timer_65536hz(); if((status.div & 255) == 0) timer_16384hz(); if((status.div & 511) == 0) timer_8192hz(); if((status.div & 1023) == 0) timer_4096hz(); ppu.clock -= ppu.frequency; if(ppu.clock < 0) co_switch(ppu.thread); apu.clock -= apu.frequency; if(apu.clock < 0) co_switch(apu.thread); } if(system.sgb()) scheduler.exit(Scheduler::Event::Step); } auto CPU::timer_262144hz() -> void { if(status.timer_enable && status.timer_clock == 1) { if(++status.tima == 0) { status.tima = status.tma; interrupt_raise(Interrupt::Timer); } } } auto CPU::timer_65536hz() -> void { if(status.timer_enable && status.timer_clock == 2) { if(++status.tima == 0) { status.tima = status.tma; interrupt_raise(Interrupt::Timer); } } } auto CPU::timer_16384hz() -> void { if(status.timer_enable && status.timer_clock == 3) { if(++status.tima == 0) { status.tima = status.tma; interrupt_raise(Interrupt::Timer); } } } auto CPU::timer_8192hz() -> void { if(status.serial_transfer && status.serial_clock) { if(--status.serial_bits == 0) { status.serial_transfer = 0; interrupt_raise(Interrupt::Serial); } } } auto CPU::timer_4096hz() -> void { if(status.timer_enable && status.timer_clock == 0) { if(++status.tima == 0) { status.tima = status.tma; interrupt_raise(Interrupt::Timer); } } } auto CPU::hblank() -> void { if(status.dma_mode == 1 && status.dma_length && ppu.status.ly < 144) { for(auto n : range(16)) { dma_write(status.dma_target++, dma_read(status.dma_source++)); } add_clocks(8 << status.speed_double); status.dma_length -= 16; } }