bsnes/higan/md/cpu/cpu.cpp

78 lines
1.8 KiB
C++

#include <md/md.hpp>
namespace MegaDrive {
CPU cpu;
#include "serialization.cpp"
auto CPU::Enter() -> void {
while(true) scheduler.synchronize(), cpu.main();
}
auto CPU::main() -> void {
if(state.interruptPending) {
if(state.interruptPending.bit((uint)Interrupt::Reset)) {
state.interruptPending.bit((uint)Interrupt::Reset) = 0;
r.a[7] = bus->readWord(0) << 16 | bus->readWord(2) << 0;
r.pc = bus->readWord(4) << 16 | bus->readWord(6) << 0;
}
if(state.interruptPending.bit((uint)Interrupt::HorizontalBlank)) {
if(4 > r.i) {
state.interruptPending.bit((uint)Interrupt::HorizontalBlank) = 0;
return exception(Exception::Interrupt, Vector::HorizontalBlank, 4);
}
}
if(state.interruptPending.bit((uint)Interrupt::VerticalBlank)) {
if(6 > r.i) {
state.interruptPending.bit((uint)Interrupt::VerticalBlank) = 0;
return exception(Exception::Interrupt, Vector::VerticalBlank, 6);
}
}
}
instruction();
}
auto CPU::step(uint clocks) -> void {
while(wait) {
Thread::step(1);
synchronize();
}
Thread::step(clocks);
synchronize();
}
auto CPU::synchronize() -> void {
synchronize(apu);
synchronize(vdp);
synchronize(psg);
synchronize(ym2612);
for(auto peripheral : peripherals) synchronize(*peripheral);
}
auto CPU::raise(Interrupt interrupt) -> void {
if(!state.interruptLine.bit((uint)interrupt)) {
state.interruptLine.bit((uint)interrupt) = 1;
state.interruptPending.bit((uint)interrupt) = 1;
}
}
auto CPU::lower(Interrupt interrupt) -> void {
state.interruptLine.bit((uint)interrupt) = 0;
state.interruptPending.bit((uint)interrupt) = 0;
}
auto CPU::power() -> void {
M68K::bus = &busCPU;
M68K::power();
create(CPU::Enter, system.frequency() / 7.0);
state = {};
state.interruptPending.bit((uint)Interrupt::Reset) = 1;
}
}