diff --git a/src/SPU.cpp b/src/SPU.cpp index 00db3691..cff38d3a 100644 --- a/src/SPU.cpp +++ b/src/SPU.cpp @@ -65,23 +65,69 @@ const s16 SPUChannel::PSGTable[8][8] = {-0x7FFF, -0x7FFF, -0x7FFF, -0x7FFF, -0x7FFF, -0x7FFF, -0x7FFF, -0x7FFF} }; -s16 SPUChannel::InterpCos[0x100]; -s16 SPUChannel::InterpCubic[0x100][4]; -bool SPUChannel::InterpInited = false; +// generate interpolation tables +// values are 1:1:14 fixed-point +constexpr std::array InterpCos = []() constexpr { + std::array interp {}; + float m_pi = std::acos(-1.0f); + for (int i = 0; i < 0x100; i++) + { + float ratio = (i * m_pi) / 255.0f; + ratio = 1.0f - std::cos(ratio); -SPU::SPU(melonDS::NDS& nds) : NDS(nds) + interp[i] = (s16)(ratio * 0x2000); + } + + return interp; +}(); + +constexpr array2d InterpCubic = []() constexpr { + array2d interp {}; + + for (int i = 0; i < 0x100; i++) + { + s32 i1 = i << 6; + s32 i2 = (i * i) >> 2; + s32 i3 = (i * i * i) >> 10; + + interp[i][0] = -i3 + 2*i2 - i1; + interp[i][1] = i3 - 2*i2 + 0x4000; + interp[i][2] = -i3 + i2 + i1; + interp[i][3] = i3 - i2; + } + + return interp; +}(); + +SPU::SPU(melonDS::NDS& nds) : + NDS(nds), + Channels { + SPUChannel(0, nds), + SPUChannel(1, nds), + SPUChannel(2, nds), + SPUChannel(3, nds), + SPUChannel(4, nds), + SPUChannel(5, nds), + SPUChannel(6, nds), + SPUChannel(7, nds), + SPUChannel(8, nds), + SPUChannel(9, nds), + SPUChannel(10, nds), + SPUChannel(11, nds), + SPUChannel(12, nds), + SPUChannel(13, nds), + SPUChannel(14, nds), + SPUChannel(15, nds), + }, + Capture { + SPUCaptureUnit(0, nds), + SPUCaptureUnit(1, nds), + }, + AudioLock(Platform::Mutex_Create()) { NDS.RegisterEventFunc(Event_SPU, 0, MemberEventFunc(SPU, Mix)); - for (int i = 0; i < 16; i++) - Channels[i] = new SPUChannel(i, NDS); - - Capture[0] = new SPUCaptureUnit(0, NDS); - Capture[1] = new SPUCaptureUnit(1, NDS); - - AudioLock = Platform::Mutex_Create(); - ApplyBias = true; Degrade10Bit = false; @@ -90,50 +136,10 @@ SPU::SPU(melonDS::NDS& nds) : NDS(nds) OutputBackbufferWritePosition = 0; OutputFrontBufferReadPosition = 0; OutputFrontBufferWritePosition = 0; - - if (!SPUChannel::InterpInited) - { - // generate interpolation tables - // values are 1:1:14 fixed-point - - float m_pi = std::acos(-1.0f); - for (int i = 0; i < 0x100; i++) - { - float ratio = (i * m_pi) / 255.0f; - ratio = 1.0f - std::cos(ratio); - - SPUChannel::InterpCos[i] = (s16)(ratio * 0x2000); - } - - for (int i = 0; i < 0x100; i++) - { - s32 i1 = i << 6; - s32 i2 = (i * i) >> 2; - s32 i3 = (i * i * i) >> 10; - - SPUChannel::InterpCubic[i][0] = -i3 + 2*i2 - i1; - SPUChannel::InterpCubic[i][1] = i3 - 2*i2 + 0x4000; - SPUChannel::InterpCubic[i][2] = -i3 + i2 + i1; - SPUChannel::InterpCubic[i][3] = i3 - i2; - } - - SPUChannel::InterpInited = true; - } } SPU::~SPU() { - for (int i = 0; i < 16; i++) - { - delete Channels[i]; - Channels[i] = nullptr; - } - - delete Capture[0]; - delete Capture[1]; - Capture[0] = nullptr; - Capture[1] = nullptr; - Platform::Mutex_Free(AudioLock); AudioLock = nullptr; @@ -149,10 +155,10 @@ void SPU::Reset() Bias = 0; for (int i = 0; i < 16; i++) - Channels[i]->Reset(); + Channels[i].Reset(); - Capture[0]->Reset(); - Capture[1]->Reset(); + Capture[0].Reset(); + Capture[1].Reset(); NDS.ScheduleEvent(Event_SPU, false, 1024, 0, 0); } @@ -176,11 +182,11 @@ void SPU::DoSavestate(Savestate* file) file->Var8(&MasterVolume); file->Var16(&Bias); - for (int i = 0; i < 16; i++) - Channels[i]->DoSavestate(file); + for (SPUChannel& channel : Channels) + channel.DoSavestate(file); - Capture[0]->DoSavestate(file); - Capture[1]->DoSavestate(file); + for (SPUCaptureUnit& capture : Capture) + capture.DoSavestate(file); } @@ -192,8 +198,8 @@ void SPU::SetPowerCnt(u32 val) void SPU::SetInterpolation(int type) { - for (int i = 0; i < 16; i++) - Channels[i]->InterpType = type; + for (SPUChannel& channel : Channels) + channel.InterpType = type; } void SPU::SetBias(u16 bias) @@ -212,14 +218,7 @@ void SPU::SetDegrade10Bit(bool enable) } -SPUChannel::SPUChannel(u32 num, melonDS::NDS& nds) : NDS(nds) -{ - Num = num; - - InterpType = 0; -} - -SPUChannel::~SPUChannel() +SPUChannel::SPUChannel(u32 num, melonDS::NDS& nds) : NDS(nds), Num(num) { } @@ -579,11 +578,6 @@ void SPUChannel::PanOutput(s32 in, s32& left, s32& right) SPUCaptureUnit::SPUCaptureUnit(u32 num, melonDS::NDS& nds) : NDS(nds), Num(num) -{ - Num = num; -} - -SPUCaptureUnit::~SPUCaptureUnit() { } @@ -713,21 +707,21 @@ void SPU::Mix(u32 dummy) if ((Cnt & (1<<15)) && (!dummy)) { - s32 ch0 = Channels[0]->DoRun(); - s32 ch1 = Channels[1]->DoRun(); - s32 ch2 = Channels[2]->DoRun(); - s32 ch3 = Channels[3]->DoRun(); + s32 ch0 = Channels[0].DoRun(); + s32 ch1 = Channels[1].DoRun(); + s32 ch2 = Channels[2].DoRun(); + s32 ch3 = Channels[3].DoRun(); // TODO: addition from capture registers - Channels[0]->PanOutput(ch0, left, right); - Channels[2]->PanOutput(ch2, left, right); + Channels[0].PanOutput(ch0, left, right); + Channels[2].PanOutput(ch2, left, right); - if (!(Cnt & (1<<12))) Channels[1]->PanOutput(ch1, left, right); - if (!(Cnt & (1<<13))) Channels[3]->PanOutput(ch3, left, right); + if (!(Cnt & (1<<12))) Channels[1].PanOutput(ch1, left, right); + if (!(Cnt & (1<<13))) Channels[3].PanOutput(ch3, left, right); for (int i = 4; i < 16; i++) { - SPUChannel* chan = Channels[i]; + SPUChannel* chan = &Channels[i]; s32 channel = chan->DoRun(); chan->PanOutput(channel, left, right); @@ -736,7 +730,7 @@ void SPU::Mix(u32 dummy) // sound capture // TODO: other sound capture sources, along with their bugs - if (Capture[0]->Cnt & (1<<7)) + if (Capture[0].Cnt & (1<<7)) { s32 val = left; @@ -744,10 +738,10 @@ void SPU::Mix(u32 dummy) if (val < -0x8000) val = -0x8000; else if (val > 0x7FFF) val = 0x7FFF; - Capture[0]->Run(val); + Capture[0].Run(val); } - if (Capture[1]->Cnt & (1<<7)) + if (Capture[1].Cnt & (1<<7)) { s32 val = right; @@ -755,7 +749,7 @@ void SPU::Mix(u32 dummy) if (val < -0x8000) val = -0x8000; else if (val > 0x7FFF) val = 0x7FFF; - Capture[1]->Run(val); + Capture[1].Run(val); } // final output @@ -767,20 +761,20 @@ void SPU::Mix(u32 dummy) break; case 0x0100: // channel 1 { - s32 pan = 128 - Channels[1]->Pan; + s32 pan = 128 - Channels[1].Pan; leftoutput = ((s64)ch1 * pan) >> 10; } break; case 0x0200: // channel 3 { - s32 pan = 128 - Channels[3]->Pan; + s32 pan = 128 - Channels[3].Pan; leftoutput = ((s64)ch3 * pan) >> 10; } break; case 0x0300: // channel 1+3 { - s32 pan1 = 128 - Channels[1]->Pan; - s32 pan3 = 128 - Channels[3]->Pan; + s32 pan1 = 128 - Channels[1].Pan; + s32 pan3 = 128 - Channels[3].Pan; leftoutput = (((s64)ch1 * pan1) >> 10) + (((s64)ch3 * pan3) >> 10); } break; @@ -793,20 +787,20 @@ void SPU::Mix(u32 dummy) break; case 0x0400: // channel 1 { - s32 pan = Channels[1]->Pan; + s32 pan = Channels[1].Pan; rightoutput = ((s64)ch1 * pan) >> 10; } break; case 0x0800: // channel 3 { - s32 pan = Channels[3]->Pan; + s32 pan = Channels[3].Pan; rightoutput = ((s64)ch3 * pan) >> 10; } break; case 0x0C00: // channel 1+3 { - s32 pan1 = Channels[1]->Pan; - s32 pan3 = Channels[3]->Pan; + s32 pan1 = Channels[1].Pan; + s32 pan3 = Channels[3].Pan; rightoutput = (((s64)ch1 * pan1) >> 10) + (((s64)ch3 * pan3) >> 10); } break; @@ -982,7 +976,7 @@ u8 SPU::Read8(u32 addr) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -999,8 +993,8 @@ u8 SPU::Read8(u32 addr) case 0x04000500: return Cnt & 0x7F; case 0x04000501: return Cnt >> 8; - case 0x04000508: return Capture[0]->Cnt; - case 0x04000509: return Capture[1]->Cnt; + case 0x04000508: return Capture[0].Cnt; + case 0x04000509: return Capture[1].Cnt; } } @@ -1012,7 +1006,7 @@ u16 SPU::Read16(u32 addr) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -1027,7 +1021,7 @@ u16 SPU::Read16(u32 addr) case 0x04000500: return Cnt; case 0x04000504: return Bias; - case 0x04000508: return Capture[0]->Cnt | (Capture[1]->Cnt << 8); + case 0x04000508: return Capture[0].Cnt | (Capture[1].Cnt << 8); } } @@ -1039,7 +1033,7 @@ u32 SPU::Read32(u32 addr) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -1053,10 +1047,10 @@ u32 SPU::Read32(u32 addr) case 0x04000500: return Cnt; case 0x04000504: return Bias; - case 0x04000508: return Capture[0]->Cnt | (Capture[1]->Cnt << 8); + case 0x04000508: return Capture[0].Cnt | (Capture[1].Cnt << 8); - case 0x04000510: return Capture[0]->DstAddr; - case 0x04000518: return Capture[1]->DstAddr; + case 0x04000510: return Capture[0].DstAddr; + case 0x04000518: return Capture[1].DstAddr; } } @@ -1068,7 +1062,7 @@ void SPU::Write8(u32 addr, u8 val) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -1092,11 +1086,11 @@ void SPU::Write8(u32 addr, u8 val) return; case 0x04000508: - Capture[0]->SetCnt(val); + Capture[0].SetCnt(val); if (val & 0x03) Log(LogLevel::Warn, "!! UNSUPPORTED SPU CAPTURE MODE %02X\n", val); return; case 0x04000509: - Capture[1]->SetCnt(val); + Capture[1].SetCnt(val); if (val & 0x03) Log(LogLevel::Warn, "!! UNSUPPORTED SPU CAPTURE MODE %02X\n", val); return; } @@ -1109,7 +1103,7 @@ void SPU::Write16(u32 addr, u16 val) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -1117,8 +1111,8 @@ void SPU::Write16(u32 addr, u16 val) case 0x2: chan->SetCnt((chan->Cnt & 0x0000FFFF) | (val << 16)); return; case 0x8: chan->SetTimerReload(val); - if ((addr & 0xF0) == 0x10) Capture[0]->SetTimerReload(val); - else if ((addr & 0xF0) == 0x30) Capture[1]->SetTimerReload(val); + if ((addr & 0xF0) == 0x10) Capture[0].SetTimerReload(val); + else if ((addr & 0xF0) == 0x30) Capture[1].SetTimerReload(val); return; case 0xA: chan->SetLoopPos(val); return; @@ -1141,13 +1135,13 @@ void SPU::Write16(u32 addr, u16 val) return; case 0x04000508: - Capture[0]->SetCnt(val & 0xFF); - Capture[1]->SetCnt(val >> 8); + Capture[0].SetCnt(val & 0xFF); + Capture[1].SetCnt(val >> 8); if (val & 0x0303) Log(LogLevel::Warn, "!! UNSUPPORTED SPU CAPTURE MODE %04X\n", val); return; - case 0x04000514: Capture[0]->SetLength(val); return; - case 0x0400051C: Capture[1]->SetLength(val); return; + case 0x04000514: Capture[0].SetLength(val); return; + case 0x0400051C: Capture[1].SetLength(val); return; } } @@ -1158,7 +1152,7 @@ void SPU::Write32(u32 addr, u32 val) { if (addr < 0x04000500) { - SPUChannel* chan = Channels[(addr >> 4) & 0xF]; + SPUChannel* chan = &Channels[(addr >> 4) & 0xF]; switch (addr & 0xF) { @@ -1168,8 +1162,8 @@ void SPU::Write32(u32 addr, u32 val) chan->SetLoopPos(val >> 16); val &= 0xFFFF; chan->SetTimerReload(val); - if ((addr & 0xF0) == 0x10) Capture[0]->SetTimerReload(val); - else if ((addr & 0xF0) == 0x30) Capture[1]->SetTimerReload(val); + if ((addr & 0xF0) == 0x10) Capture[0].SetTimerReload(val); + else if ((addr & 0xF0) == 0x30) Capture[1].SetTimerReload(val); return; case 0xC: chan->SetLength(val); return; } @@ -1189,15 +1183,15 @@ void SPU::Write32(u32 addr, u32 val) return; case 0x04000508: - Capture[0]->SetCnt(val & 0xFF); - Capture[1]->SetCnt(val >> 8); + Capture[0].SetCnt(val & 0xFF); + Capture[1].SetCnt(val >> 8); if (val & 0x0303) Log(LogLevel::Warn, "!! UNSUPPORTED SPU CAPTURE MODE %04X\n", val); return; - case 0x04000510: Capture[0]->SetDstAddr(val); return; - case 0x04000514: Capture[0]->SetLength(val & 0xFFFF); return; - case 0x04000518: Capture[1]->SetDstAddr(val); return; - case 0x0400051C: Capture[1]->SetLength(val & 0xFFFF); return; + case 0x04000510: Capture[0].SetDstAddr(val); return; + case 0x04000514: Capture[0].SetLength(val & 0xFFFF); return; + case 0x04000518: Capture[1].SetDstAddr(val); return; + case 0x0400051C: Capture[1].SetLength(val & 0xFFFF); return; } } } diff --git a/src/SPU.h b/src/SPU.h index bf0c658b..03d476e8 100644 --- a/src/SPU.h +++ b/src/SPU.h @@ -31,7 +31,6 @@ class SPUChannel { public: SPUChannel(u32 num, melonDS::NDS& nds); - ~SPUChannel(); void Reset(); void DoSavestate(Savestate* file); @@ -39,44 +38,40 @@ public: static const u16 ADPCMTable[89]; static const s16 PSGTable[8][8]; - static s16 InterpCos[0x100]; - static s16 InterpCubic[0x100][4]; - static bool InterpInited; - // audio interpolation is an improvement upon the original hardware // (which performs no interpolation) - int InterpType; + int InterpType = 0; - u32 Num; + const u32 Num; - u32 Cnt; - u32 SrcAddr; - u16 TimerReload; - u32 LoopPos; - u32 Length; + u32 Cnt = 0; + u32 SrcAddr = 0; + u16 TimerReload = 0; + u32 LoopPos = 0; + u32 Length = 0; - u8 Volume; - u8 VolumeShift; - u8 Pan; + u8 Volume = 0; + u8 VolumeShift = 0; + u8 Pan = 0; - bool KeyOn; - u32 Timer; - s32 Pos; - s16 PrevSample[3]; - s16 CurSample; - u16 NoiseVal; + bool KeyOn = false; + u32 Timer = 0; + s32 Pos = 0; + s16 PrevSample[3] {}; + s16 CurSample = 0; + u16 NoiseVal = 0; - s32 ADPCMVal; - s32 ADPCMIndex; - s32 ADPCMValLoop; - s32 ADPCMIndexLoop; - u8 ADPCMCurByte; + s32 ADPCMVal = 0; + s32 ADPCMIndex = 0; + s32 ADPCMValLoop = 0; + s32 ADPCMIndexLoop = 0; + u8 ADPCMCurByte = 0; - u32 FIFO[8]; - u32 FIFOReadPos; - u32 FIFOWritePos; - u32 FIFOReadOffset; - u32 FIFOLevel; + u32 FIFO[8] {}; + u32 FIFOReadPos = 0; + u32 FIFOWritePos = 0; + u32 FIFOReadOffset = 0; + u32 FIFOLevel = 0; void FIFO_BufferData(); template T FIFO_ReadData(); @@ -150,25 +145,24 @@ class SPUCaptureUnit { public: SPUCaptureUnit(u32 num, melonDS::NDS&); - ~SPUCaptureUnit(); void Reset(); void DoSavestate(Savestate* file); - u32 Num; + const u32 Num; - u8 Cnt; - u32 DstAddr; - u16 TimerReload; - u32 Length; + u8 Cnt = 0; + u32 DstAddr = 0; + u16 TimerReload = 0; + u32 Length = 0; - u32 Timer; - s32 Pos; + u32 Timer = 0; + s32 Pos = 0; - u32 FIFO[4]; - u32 FIFOReadPos; - u32 FIFOWritePos; - u32 FIFOWriteOffset; - u32 FIFOLevel; + u32 FIFO[4] {}; + u32 FIFOReadPos = 0; + u32 FIFOWritePos = 0; + u32 FIFOWriteOffset = 0; + u32 FIFOLevel = 0; void FIFO_FlushData(); template void FIFO_WriteData(T val); @@ -206,7 +200,7 @@ private: class SPU { public: - SPU(melonDS::NDS& nds); + explicit SPU(melonDS::NDS& nds); ~SPU(); void Reset(); void DoSavestate(Savestate* file); @@ -242,23 +236,23 @@ public: private: static const u32 OutputBufferSize = 2*2048; melonDS::NDS& NDS; - s16 OutputBackbuffer[2 * OutputBufferSize]; - u32 OutputBackbufferWritePosition; + s16 OutputBackbuffer[2 * OutputBufferSize] {}; + u32 OutputBackbufferWritePosition = 0; - s16 OutputFrontBuffer[2 * OutputBufferSize]; - u32 OutputFrontBufferWritePosition; - u32 OutputFrontBufferReadPosition; + s16 OutputFrontBuffer[2 * OutputBufferSize] {}; + u32 OutputFrontBufferWritePosition = 0; + u32 OutputFrontBufferReadPosition = 0; Platform::Mutex* AudioLock; - u16 Cnt; - u8 MasterVolume; - u16 Bias; - bool ApplyBias; - bool Degrade10Bit; + u16 Cnt = 0; + u8 MasterVolume = 0; + u16 Bias = 0; + bool ApplyBias = true; + bool Degrade10Bit = false; - SPUChannel* Channels[16]; - SPUCaptureUnit* Capture[2]; + std::array Channels; + std::array Capture; }; }