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bsnes/higan/sfc/cpu/timing.cpp

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C++
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auto CPU::dmaCounter() const -> uint {
return (status.dma_counter + hcounter()) & 7;
}
auto CPU::addClocks(uint clocks) -> void {
status.irq_lock = false;
uint ticks = clocks >> 1;
while(ticks--) {
tick();
if(hcounter() & 2) pollInterrupts();
}
step(clocks);
status.auto_joypad_clock += clocks;
if(status.auto_joypad_clock >= 256) {
status.auto_joypad_clock -= 256;
stepAutoJoypadPoll();
}
if(!status.dram_refreshed && hcounter() >= status.dram_refresh_position) {
status.dram_refreshed = true;
addClocks(40);
}
#if defined(DEBUGGER)
synchronizeSMP();
synchronizePPU();
synchronizeCoprocessors();
#endif
}
//called by ppu.tick() when Hcounter=0
auto CPU::scanline() -> void {
status.dma_counter = (status.dma_counter + status.line_clocks) & 7;
status.line_clocks = lineclocks();
//forcefully sync S-CPU to other processors, in case chips are not communicating
synchronizeSMP();
synchronizePPU();
synchronizeCoprocessors();
if(vcounter() == 0) {
//HDMA init triggers once every frame
status.hdma_init_position = (cpu_version == 1 ? 12 + 8 - dmaCounter() : 12 + dmaCounter());
status.hdma_init_triggered = false;
status.auto_joypad_counter = 0;
}
//DRAM refresh occurs once every scanline
if(cpu_version == 2) status.dram_refresh_position = 530 + 8 - dmaCounter();
status.dram_refreshed = false;
//HDMA triggers once every visible scanline
if(vcounter() <= (ppu.overscan() == false ? 224 : 239)) {
status.hdma_position = 1104;
status.hdma_triggered = false;
}
}
auto CPU::aluEdge() -> void {
if(alu.mpyctr) {
alu.mpyctr--;
if(status.rddiv & 1) status.rdmpy += alu.shift;
status.rddiv >>= 1;
alu.shift <<= 1;
}
if(alu.divctr) {
alu.divctr--;
status.rddiv <<= 1;
alu.shift >>= 1;
if(status.rdmpy >= alu.shift) {
status.rdmpy -= alu.shift;
status.rddiv |= 1;
}
}
}
auto CPU::dmaEdge() -> void {
//H/DMA pending && DMA inactive?
//.. Run one full CPU cycle
//.. HDMA pending && HDMA enabled ? DMA sync + HDMA run
//.. DMA pending && DMA enabled ? DMA sync + DMA run
//.... HDMA during DMA && HDMA enabled ? DMA sync + HDMA run
//.. Run one bus CPU cycle
//.. CPU sync
if(status.dma_active == true) {
if(status.hdma_pending) {
status.hdma_pending = false;
if(hdmaEnabledChannels()) {
if(!dmaEnabledChannels()) {
dmaAddClocks(8 - dmaCounter());
}
status.hdma_mode == 0 ? hdmaInit() : hdmaRun();
if(!dmaEnabledChannels()) {
addClocks(status.clock_count - (status.dma_clocks % status.clock_count));
status.dma_active = false;
}
}
}
if(status.dma_pending) {
status.dma_pending = false;
if(dmaEnabledChannels()) {
dmaAddClocks(8 - dmaCounter());
dmaRun();
addClocks(status.clock_count - (status.dma_clocks % status.clock_count));
status.dma_active = false;
}
}
}
if(status.hdma_init_triggered == false && hcounter() >= status.hdma_init_position) {
status.hdma_init_triggered = true;
hdmaInitReset();
if(hdmaEnabledChannels()) {
status.hdma_pending = true;
status.hdma_mode = 0;
}
}
if(status.hdma_triggered == false && hcounter() >= status.hdma_position) {
status.hdma_triggered = true;
if(hdmaActiveChannels()) {
status.hdma_pending = true;
status.hdma_mode = 1;
}
}
if(status.dma_active == false) {
if(status.dma_pending || status.hdma_pending) {
status.dma_clocks = 0;
status.dma_active = true;
}
}
}
//used to test for NMI/IRQ, which can trigger on the edge of every opcode.
//test one cycle early to simulate two-stage pipeline of x816 CPU.
//
//status.irq_lock is used to simulate hardware delay before interrupts can
//trigger during certain events (immediately after DMA, writes to $4200, etc)
auto CPU::lastCycle() -> void {
if(!status.irq_lock) {
status.nmi_pending |= nmiTest();
status.irq_pending |= irqTest();
status.interrupt_pending = (status.nmi_pending || status.irq_pending);
}
}
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