bsnes/higan/sfc/dsp/dsp.cpp

303 lines
5.5 KiB
C++

#include <sfc/sfc.hpp>
namespace SuperFamicom {
DSP dsp;
#define REG(n) state.regs[n]
#define VREG(n) state.regs[v.vidx + n]
#include "serialization.cpp"
#include "gaussian.cpp"
#include "counter.cpp"
#include "envelope.cpp"
#include "brr.cpp"
#include "misc.cpp"
#include "voice.cpp"
#include "echo.cpp"
DSP::DSP() {
static_assert(sizeof(signed) >= 32 / 8, "signed >= 32-bits");
static_assert((int8)0x80 == -0x80, "8-bit sign extension");
static_assert((int16)0x8000 == -0x8000, "16-bit sign extension");
static_assert((uint16)0xffff0000 == 0, "16-bit unsigned clip");
static_assert((-1 >> 1) == -1, "arithmetic shift right");
//-0x8000 <= n <= +0x7fff
assert(sclamp<16>(+0x8000) == +0x7fff);
assert(sclamp<16>(-0x8001) == -0x8000);
}
/* timing */
auto DSP::step(unsigned clocks) -> void {
clock += clocks;
}
auto DSP::synchronizeSMP() -> void {
if(SMP::Threaded == true) {
if(clock >= 0 && scheduler.sync != Scheduler::SynchronizeMode::All) co_switch(smp.thread);
} else {
while(clock >= 0) smp.enter();
}
}
auto DSP::Enter() -> void { dsp.enter(); }
auto DSP::enter() -> void {
while(true) {
if(scheduler.sync == Scheduler::SynchronizeMode::All) {
scheduler.exit(Scheduler::ExitReason::SynchronizeEvent);
}
voice5(voice[0]);
voice2(voice[1]);
tick();
voice6(voice[0]);
voice3(voice[1]);
tick();
voice7(voice[0]);
voice4(voice[1]);
voice1(voice[3]);
tick();
voice8(voice[0]);
voice5(voice[1]);
voice2(voice[2]);
tick();
voice9(voice[0]);
voice6(voice[1]);
voice3(voice[2]);
tick();
voice7(voice[1]);
voice4(voice[2]);
voice1(voice[4]);
tick();
voice8(voice[1]);
voice5(voice[2]);
voice2(voice[3]);
tick();
voice9(voice[1]);
voice6(voice[2]);
voice3(voice[3]);
tick();
voice7(voice[2]);
voice4(voice[3]);
voice1(voice[5]);
tick();
voice8(voice[2]);
voice5(voice[3]);
voice2(voice[4]);
tick();
voice9(voice[2]);
voice6(voice[3]);
voice3(voice[4]);
tick();
voice7(voice[3]);
voice4(voice[4]);
voice1(voice[6]);
tick();
voice8(voice[3]);
voice5(voice[4]);
voice2(voice[5]);
tick();
voice9(voice[3]);
voice6(voice[4]);
voice3(voice[5]);
tick();
voice7(voice[4]);
voice4(voice[5]);
voice1(voice[7]);
tick();
voice8(voice[4]);
voice5(voice[5]);
voice2(voice[6]);
tick();
voice9(voice[4]);
voice6(voice[5]);
voice3(voice[6]);
tick();
voice1(voice[0]);
voice7(voice[5]);
voice4(voice[6]);
tick();
voice8(voice[5]);
voice5(voice[6]);
voice2(voice[7]);
tick();
voice9(voice[5]);
voice6(voice[6]);
voice3(voice[7]);
tick();
voice1(voice[1]);
voice7(voice[6]);
voice4(voice[7]);
tick();
voice8(voice[6]);
voice5(voice[7]);
voice2(voice[0]);
tick();
voice3a(voice[0]);
voice9(voice[6]);
voice6(voice[7]);
echo22();
tick();
voice7(voice[7]);
echo23();
tick();
voice8(voice[7]);
echo24();
tick();
voice3b(voice[0]);
voice9(voice[7]);
echo25();
tick();
echo26();
tick();
misc27();
echo27();
tick();
misc28();
echo28();
tick();
misc29();
echo29();
tick();
misc30();
voice3c(voice[0]);
echo30();
tick();
voice4(voice[0]);
voice1(voice[2]);
tick();
}
}
auto DSP::tick() -> void {
step(3 * 8);
synchronizeSMP();
}
/* register interface for S-SMP $00f2,$00f3 */
auto DSP::mute() const -> bool {
return REG(FLG) & 0x40;
}
auto DSP::read(uint8 addr) -> uint8 {
return REG(addr);
}
auto DSP::write(uint8 addr, uint8 data) -> void {
REG(addr) = data;
if((addr & 0x0f) == ENVX) {
state.envxBuffer = data;
} else if((addr & 0x0f) == OUTX) {
state.outxBuffer = data;
} else if(addr == KON) {
state.konBuffer = data;
} else if(addr == ENDX) {
//always cleared, regardless of data written
state.endxBuffer = 0;
REG(ENDX) = 0;
}
}
/* initialization */
auto DSP::power() -> void {
for(auto& r : state.regs) r = 0;
state.echoHistoryOffset = 0;
state.everyOtherSample = false;
state.kon = 0;
state.noise = 0;
state.counter = 0;
state.echoOffset = 0;
state.echoLength = 0;
state.konBuffer = 0;
state.endxBuffer = 0;
state.envxBuffer = 0;
state.outxBuffer = 0;
state._pmon = 0;
state._non = 0;
state._eon = 0;
state._dir = 0;
state._koff = 0;
state._brrNextAddress = 0;
state._adsr0 = 0;
state._brrHeader = 0;
state._brrByte = 0;
state._srcn = 0;
state._esa = 0;
state._echoDisabled = 0;
state._dirAddress = 0;
state._pitch = 0;
state._output = 0;
state._looped = 0;
state._echoPointer = 0;
state._mainOut[0] = state._mainOut[1] = 0;
state._echoOut[0] = state._echoOut[1] = 0;
state._echoIn[0] = state._echoIn[1] = 0;
for(auto n : range(8)) {
voice[n].bufferOffset = 0;
voice[n].gaussianOffset = 0;
voice[n].brrAddress = 0;
voice[n].brrOffset = 1;
voice[n].vbit = 1 << n;
voice[n].vidx = n * 0x10;
voice[n].konDelay = 0;
voice[n].envelopeMode = EnvelopeRelease;
voice[n].envelope = 0;
voice[n].hiddenEnvelope = 0;
voice[n]._envxOut = 0;
}
}
auto DSP::reset() -> void {
create(Enter, system.apuFrequency());
REG(FLG) = 0xe0;
state.noise = 0x4000;
state.echoHistoryOffset = 0;
state.everyOtherSample = 1;
state.echoOffset = 0;
state.counter = 0;
}
#undef REG
#undef VREG
}