using Codice.CM.Client.Differences; using System; using System.IO; using System.Security.Principal; using UnityEngine; using VirtualNes.Core; using VirtualNes.Core.Debug; namespace VirtualNes.Core { public class APU { public const uint QUEUE_LENGTH = 8192; // Volume adjust // Internal sounds public const uint RECTANGLE_VOL = 0x0F0; public const uint TRIANGLE_VOL = 0x130; public const uint NOISE_VOL = 0x0C0; public const uint DPCM_VOL = 0x0F0; // Extra sounds public const uint VRC6_VOL = 0x0F0; public const uint VRC7_VOL = 0x130; public const uint FDS_VOL = 0x0F0; public const uint MMC5_VOL = 0x0F0; public const uint N106_VOL = 0x088; public const uint FME7_VOL = 0x130; private NES nes; private byte exsound_select; private APU_INTERNAL @internal = new APU_INTERNAL(); private APU_VRC6 vrc6 = new APU_VRC6(); private APU_VRC7 vrc7 = new APU_VRC7(); private APU_MMC5 mmc5 = new APU_MMC5(); private APU_FDS fds = new APU_FDS(); private APU_N106 n106 = new APU_N106(); private APU_FME7 fme7 = new APU_FME7(); private int last_data; private int last_diff; protected short[] m_SoundBuffer = new short[256]; protected int[] lowpass_filter = new int[4]; protected QUEUE queue = new QUEUE(); protected QUEUE exqueue = new QUEUE(); protected bool[] m_bMute = new bool[16]; protected double elapsed_time; public APU(NES parent) { exsound_select = 0; nes = parent; @internal.SetParent(parent); last_data = last_diff = 0; Array.Clear(m_SoundBuffer, 0, m_SoundBuffer.Length); Array.Clear(lowpass_filter, 0, lowpass_filter.Length); for (int i = 0; i < m_bMute.Length; i++) m_bMute[i] = true; } public void Dispose() { @internal.Dispose(); vrc6.Dispose(); vrc7.Dispose(); mmc5.Dispose(); fds.Dispose(); n106.Dispose(); fme7.Dispose(); } private int[] vol = new int[24]; static double cutofftemp = (2.0 * 3.141592653579 * 40.0); static double tmp = 0.0; public void Process(ISoundDataBuffer lpBuffer, uint dwSize) { int nBits = Supporter.Config.sound.nBits; uint dwLength = (uint)(dwSize / (nBits / 8)); int output; QUEUEDATA q = default; uint writetime; var pSoundBuf = m_SoundBuffer; int nCcount = 0; int nFilterType = Supporter.Config.sound.nFilterType; if (!Supporter.Config.sound.bEnable) { byte empty = (byte)(Supporter.Config.sound.nRate == 8 ? 128 : 0); for (int i = 0; i < dwSize; i++) lpBuffer.WriteByte(empty); return; } // Volume setup // 0:Master // 1:Rectangle 1 // 2:Rectangle 2 // 3:Triangle // 4:Noise // 5:DPCM // 6:VRC6 // 7:VRC7 // 8:FDS // 9:MMC5 // 10:N106 // 11:FME7 MemoryUtility.ZEROMEMORY(vol, vol.Length); var bMute = m_bMute; var nVolume = Supporter.Config.sound.nVolume; int nMasterVolume = bMute[0] ? nVolume[0] : 0; // Internal vol[0] = (int)(bMute[1] ? (RECTANGLE_VOL * nVolume[1] * nMasterVolume) / (100 * 100) : 0); vol[1] = (int)(bMute[2] ? (RECTANGLE_VOL * nVolume[2] * nMasterVolume) / (100 * 100) : 0); vol[2] = (int)(bMute[3] ? (TRIANGLE_VOL * nVolume[3] * nMasterVolume) / (100 * 100) : 0); vol[3] = (int)(bMute[4] ? (NOISE_VOL * nVolume[4] * nMasterVolume) / (100 * 100) : 0); vol[4] = (int)(bMute[5] ? (DPCM_VOL * nVolume[5] * nMasterVolume) / (100 * 100) : 0); // VRC6 vol[5] = (int)(bMute[6] ? (VRC6_VOL * nVolume[6] * nMasterVolume) / (100 * 100) : 0); vol[6] = (int)(bMute[7] ? (VRC6_VOL * nVolume[6] * nMasterVolume) / (100 * 100) : 0); vol[7] = (int)(bMute[8] ? (VRC6_VOL * nVolume[6] * nMasterVolume) / (100 * 100) : 0); // VRC7 vol[8] = (int)(bMute[6] ? (VRC7_VOL * nVolume[7] * nMasterVolume) / (100 * 100) : 0); // FDS vol[9] = (int)(bMute[6] ? (FDS_VOL * nVolume[8] * nMasterVolume) / (100 * 100) : 0); // MMC5 vol[10] = (int)(bMute[6] ? (MMC5_VOL * nVolume[9] * nMasterVolume) / (100 * 100) : 0); vol[11] = (int)(bMute[7] ? (MMC5_VOL * nVolume[9] * nMasterVolume) / (100 * 100) : 0); vol[12] = (int)(bMute[8] ? (MMC5_VOL * nVolume[9] * nMasterVolume) / (100 * 100) : 0); // N106 vol[13] = (int)(bMute[6] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[14] = (int)(bMute[7] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[15] = (int)(bMute[8] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[16] = (int)(bMute[9] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[17] = (int)(bMute[10] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[18] = (int)(bMute[11] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[19] = (int)(bMute[12] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); vol[20] = (int)(bMute[13] ? (N106_VOL * nVolume[10] * nMasterVolume) / (100 * 100) : 0); // FME7 vol[21] = (int)(bMute[6] ? (FME7_VOL * nVolume[11] * nMasterVolume) / (100 * 100) : 0); vol[22] = (int)(bMute[7] ? (FME7_VOL * nVolume[11] * nMasterVolume) / (100 * 100) : 0); vol[23] = (int)(bMute[8] ? (FME7_VOL * nVolume[11] * nMasterVolume) / (100 * 100) : 0); // double cycle_rate = ((double)FRAME_CYCLES*60.0/12.0)/(double)Config.sound.nRate; double cycle_rate = (nes.nescfg.FrameCycles * 60.0 / 12.0) / Supporter.Config.sound.nRate; // CPUサイクル数がループしてしまった時の対策処理 if (elapsed_time > nes.cpu.GetTotalCycles()) { QueueFlush(); } while ((dwLength--) != 0) { writetime = (uint)elapsed_time; while (GetQueue((int)writetime, ref q)) { WriteProcess(q.addr, q.data); } while (GetExQueue((int)writetime, ref q)) { WriteExProcess(q.addr, q.data); } // 0-4:internal 5-7:VRC6 8:VRC7 9:FDS 10-12:MMC5 13-20:N106 21-23:FME7 output = 0; output += @internal.Process(0) * vol[0]; output += @internal.Process(1) * vol[1]; output += @internal.Process(2) * vol[2]; output += @internal.Process(3) * vol[3]; output += @internal.Process(4) * vol[4]; if ((exsound_select & 0x01) != 0) { output += vrc6.Process(0) * vol[5]; output += vrc6.Process(1) * vol[6]; output += vrc6.Process(2) * vol[7]; } if ((exsound_select & 0x02) != 0) { output += vrc7.Process(0) * vol[8]; } if ((exsound_select & 0x04) != 0) { output += fds.Process(0) * vol[9]; } if ((exsound_select & 0x08) != 0) { output += mmc5.Process(0) * vol[10]; output += mmc5.Process(1) * vol[11]; output += mmc5.Process(2) * vol[12]; } if ((exsound_select & 0x10) != 0) { output += n106.Process(0) * vol[13]; output += n106.Process(1) * vol[14]; output += n106.Process(2) * vol[15]; output += n106.Process(3) * vol[16]; output += n106.Process(4) * vol[17]; output += n106.Process(5) * vol[18]; output += n106.Process(6) * vol[19]; output += n106.Process(7) * vol[20]; } if ((exsound_select & 0x20) != 0) { fme7.Process(3); // Envelope & Noise output += fme7.Process(0) * vol[21]; output += fme7.Process(1) * vol[22]; output += fme7.Process(2) * vol[23]; } output >>= 8; if (nFilterType == 1) { //ローパスフィルターTYPE 1(Simple) output = (lowpass_filter[0] + output) / 2; lowpass_filter[0] = output; } else if (nFilterType == 2) { //ローパスフィルターTYPE 2(Weighted type 1) output = (lowpass_filter[1] + lowpass_filter[0] + output) / 3; lowpass_filter[1] = lowpass_filter[0]; lowpass_filter[0] = output; } else if (nFilterType == 3) { //ローパスフィルターTYPE 3(Weighted type 2) output = (lowpass_filter[2] + lowpass_filter[1] + lowpass_filter[0] + output) / 4; lowpass_filter[2] = lowpass_filter[1]; lowpass_filter[1] = lowpass_filter[0]; lowpass_filter[0] = output; } else if (nFilterType == 4) { //ローパスフィルターTYPE 4(Weighted type 3) output = (lowpass_filter[1] + lowpass_filter[0] * 2 + output) / 4; lowpass_filter[1] = lowpass_filter[0]; lowpass_filter[0] = output; } // DC成分のカット(HPF TEST) { // static double cutoff = (2.0*3.141592653579*40.0/44100.0); double cutoff = cutofftemp / Supporter.Config.sound.nRate; double @in, @out; @in = output; @out = (@in - tmp); tmp = tmp + cutoff * @out; output = (int)@out; } // Limit if (output > 0x7FFF) { output = 0x7FFF; } else if (output < -0x8000) { output = -0x8000; } if (nBits != 8) { byte highByte = (byte)(output >> 8); // 获取高8位 byte lowByte = (byte)(output & 0xFF); // 获取低8位 lpBuffer.WriteByte(highByte); lpBuffer.WriteByte(lowByte); } else { lpBuffer.WriteByte((byte)((output >> 8) ^ 0x80)); } if (nCcount < 0x0100) pSoundBuf[nCcount++] = (short)output; // elapsedtime += cycle_rate; elapsed_time += cycle_rate; } if (elapsed_time > ((nes.nescfg.FrameCycles / 24) + nes.cpu.GetTotalCycles())) { elapsed_time = nes.cpu.GetTotalCycles(); } if ((elapsed_time + (nes.nescfg.FrameCycles / 6)) < nes.cpu.GetTotalCycles()) { elapsed_time = nes.cpu.GetTotalCycles(); } } private bool GetExQueue(int writetime, ref QUEUEDATA ret) { if (exqueue.wrptr == exqueue.rdptr) { return false; } if (exqueue.data[exqueue.rdptr].time <= writetime) { ret = exqueue.data[exqueue.rdptr]; exqueue.rdptr++; exqueue.rdptr = (int)(exqueue.rdptr & (QUEUE_LENGTH - 1)); return true; } return false; } private void QueueFlush() { while (queue.wrptr != queue.rdptr) { WriteProcess(queue.data[queue.rdptr].addr, queue.data[queue.rdptr].data); queue.rdptr++; queue.rdptr = (int)(queue.rdptr & (QUEUE_LENGTH - 1)); } while (exqueue.wrptr != exqueue.rdptr) { WriteExProcess(exqueue.data[exqueue.rdptr].addr, exqueue.data[exqueue.rdptr].data); exqueue.rdptr++; exqueue.rdptr = (int)(exqueue.rdptr & (QUEUE_LENGTH - 1)); } } private void WriteExProcess(ushort addr, byte data) { if ((exsound_select & 0x01) != 0) { vrc6.Write(addr, data); } if ((exsound_select & 0x02) != 0) { vrc7.Write(addr, data); } if ((exsound_select & 0x04) != 0) { fds.Write(addr, data); } if ((exsound_select & 0x08) != 0) { mmc5.Write(addr, data); } if ((exsound_select & 0x10) != 0) { if (addr == 0x0000) { byte dummy = n106.Read(addr); } else { n106.Write(addr, data); } } if ((exsound_select & 0x20) != 0) { fme7.Write(addr, data); } } private void WriteProcess(ushort addr, byte data) { // $4018はVirtuaNES固有ポート if (addr >= 0x4000 && addr <= 0x401F) { @internal.Write(addr, data); } } internal void SyncDPCM(int cycles) { @internal.Sync(cycles); } internal byte Read(ushort addr) { return @internal.SyncRead(addr); } internal void Write(ushort addr, byte data) { // $4018偼VirtuaNES屌桳億乕僩 if (addr >= 0x4000 && addr <= 0x401F) { @internal.SyncWrite(addr, data); SetQueue(nes.cpu.GetTotalCycles(), addr, data); } } private void SetQueue(int writetime, ushort addr, byte data) { queue.data[queue.wrptr].time = writetime; queue.data[queue.wrptr].addr = addr; queue.data[queue.wrptr].data = data; queue.wrptr++; var newwrptr = (int)(queue.wrptr & (QUEUE_LENGTH - 1)); queue.wrptr = newwrptr; if (queue.wrptr == queue.rdptr) { Debuger.LogError("queue overflow."); } } private bool GetQueue(int writetime, ref QUEUEDATA ret) { if (queue.wrptr == queue.rdptr) { return false; } if (queue.data[queue.rdptr].time <= writetime) { ret = queue.data[queue.rdptr]; queue.rdptr++; var newrdptr = (int)(queue.rdptr & (QUEUE_LENGTH - 1)); queue.rdptr = newrdptr; return true; } return false; } public void SoundSetup() { float fClock = nes.nescfg.CpuClock; int nRate = Supporter.Config.sound.nRate; @internal.Setup(fClock, nRate); vrc6.Setup(fClock, nRate); vrc7.Setup(fClock, nRate); mmc5.Setup(fClock, nRate); fds.Setup(fClock, nRate); n106.Setup(fClock, nRate); fme7.Setup(fClock, nRate); } internal void SelectExSound(byte data) { exsound_select = data; } internal void Reset() { queue = new QUEUE(); exqueue = new QUEUE(); elapsed_time = 0; float fClock = nes.nescfg.CpuClock; int nRate = Supporter.Config.sound.nRate; @internal.Reset(fClock, nRate); vrc6.Reset(fClock, nRate); vrc7.Reset(fClock, nRate); mmc5.Reset(fClock, nRate); fds.Reset(fClock, nRate); n106.Reset(fClock, nRate); fme7.Reset(fClock, nRate); SoundSetup(); } internal void ExWrite(ushort addr, byte data) { SetExQueue(nes.cpu.GetTotalCycles(), addr, data); if ((exsound_select & 0x04) != 0) { if (addr >= 0x4040 && addr < 0x4100) { fds.SyncWrite(addr, data); } } if ((exsound_select & 0x08) != 0) { if (addr >= 0x5000 && addr <= 0x5015) { mmc5.SyncWrite(addr, data); } } } private void SetExQueue(int writetime, ushort addr, byte data) { exqueue.data[exqueue.wrptr].time = writetime; exqueue.data[exqueue.wrptr].addr = addr; exqueue.data[exqueue.wrptr].data = data; exqueue.wrptr++; var temp = QUEUE_LENGTH - 1; exqueue.wrptr = (int)(exqueue.wrptr & temp); if (exqueue.wrptr == exqueue.rdptr) { Debuger.LogError("exqueue overflow."); } } internal byte ExRead(ushort addr) { byte data = 0; if ((exsound_select & 0x10) != 0) { if (addr == 0x4800) { SetExQueue(nes.cpu.GetTotalCycles(), 0, 0); } } if ((exsound_select & 0x04) != 0) { if (addr >= 0x4040 && addr < 0x4100) { data = fds.SyncRead(addr); } } if ((exsound_select & 0x08) != 0) { if (addr >= 0x5000 && addr <= 0x5015) { data = mmc5.SyncRead(addr); } } return data; } } public struct QUEUEDATA { public int time; public ushort addr; public byte data; public byte reserved; } public class QUEUE { public int rdptr; public int wrptr; public QUEUEDATA[] data = new QUEUEDATA[8192]; } }