static int Main(string[] args) { Log.writeLine += WriteLine; #if DEBUG //Log.writeLine += WriteLineF; Log.level = LogLevel.INFO; #else Log.level = LogLevel.INFO; #endif int fnIndex = AnalyzeOption(args); int mIndex = -1; if (args != null) { for (int i = fnIndex; i < args.Length; i++) { if ((Path.GetExtension(args[i]).ToLower().IndexOf(Common.Common.objExtension) < 0) && (Path.GetExtension(args[i]).ToUpper().IndexOf(".XML") < 0) ) { continue; } mIndex = i; break; } } if (mIndex < 0) { Log.WriteLine(LogLevel.INFO, string.Format("引数({0}ファイル)1個欲しいよぉ...", Common.Common.objExtension)); return(-1); } srcFile = args[mIndex]; if (!File.Exists(args[mIndex])) { Log.WriteLine(LogLevel.ERROR, string.Format("ファイル[{0}]が見つかりません", args[mIndex])); return(-1); } rsc = CheckDevice(); try { SineWaveProvider16 waveProvider; int latency = 1000; switch (device) { case 0: waveProvider = new SineWaveProvider16(); waveProvider.SetWaveFormat((int)SamplingRate, 2); callBack = EmuCallback; audioOutput = new DirectSoundOut(latency); audioOutput.Init(waveProvider); break; case 1: case 2: trdMain = new Thread(new ThreadStart(RealCallback)); trdMain.Priority = ThreadPriority.Highest; trdMain.IsBackground = true; trdMain.Name = "trdVgmReal"; sw = Stopwatch.StartNew(); swFreq = Stopwatch.Frequency; break; } MDSound.ymf278b ymf278b = new MDSound.ymf278b(); MDSound.MDSound.Chip chip = new MDSound.MDSound.Chip { type = MDSound.MDSound.enmInstrumentType.YMF278B, ID = 0, Instrument = ymf278b, Update = ymf278b.Update, Start = ymf278b.Start, Stop = ymf278b.Stop, Reset = ymf278b.Reset, SamplingRate = SamplingRate, Clock = opl4MasterClock, Volume = 0, Option = new object[] { GetApplicationFolder() } }; mds = new MDSound.MDSound(SamplingRate, samplingBuffer, new MDSound.MDSound.Chip[] { chip }); //ppz8em = new PPZ8em(SamplingRate); //ppsdrv = new PPSDRV(SamplingRate); Common.Environment env = new Common.Environment(); env.AddEnv("moondriver"); env.AddEnv("moondriveropt"); envMoonDriver = env.GetEnvVal("moondriver"); envMoonDriverOpt = env.GetEnvVal("moondriveropt"); List <string> opt = (envMoonDriverOpt == null) ? (new List <string>()) : envMoonDriverOpt.ToList(); for (int i = fnIndex; i < args.Length; i++) { opt.Add(args[i]); } mIndex += (envMoonDriverOpt == null ? 0 : envMoonDriverOpt.Length) - fnIndex; #if NETCOREAPP System.Text.Encoding.RegisterProvider(System.Text.CodePagesEncodingProvider.Instance); #endif drv = new Driver.Driver(); Driver.MoonDriverDotNETOption dop = new Driver.MoonDriverDotNETOption(); //dop.isAUTO = isAUTO; //dop.isNRM = isNRM; //dop.isSPB = isSPB; //dop.isVA = isVA; //dop.usePPS = usePPS; //dop.usePPZ = usePPZ; //dop.isLoadADPCM = false; //dop.loadADPCMOnly = false; //dop.ppz8em = ppz8em; //dop.ppsdrv = ppsdrv; //dop.envPmd = envPmd; //dop.srcFile = srcFile; //dop.jumpIndex = -1;// 112;// -1; List <string> pop = new List <string>(); //bool pmdvolFound = false; for (int i = 0; i < opt.Count; i++) { if (i == mIndex) { continue; } string op = opt[i].ToUpper().Trim(); pop.Add(op); //if (op.IndexOf("-D") >= 0 || op.IndexOf("/D") >= 0) // pmdvolFound = true; } Log.WriteLine(LogLevel.INFO, ""); ((Driver.Driver)drv).Init( srcFile , OPL4Write , SamplingRate , dop , pop.ToArray() , appendFileReaderCallback ); ////AUTO指定の場合に構成が変わるので、構成情報を受け取ってから音量設定を行う //isNRM = dop.isNRM; //isSPB = dop.isSPB; //isVA = dop.isVA; //usePPS = dop.usePPS; //usePPZ = dop.usePPZ; //string[] pmdOptionVol = SetVolume(); ////ユーザーがコマンドラインでDオプションを指定していない場合はpmdVolを適用させる //if (!pmdvolFound && pmdOptionVol != null && pmdOptionVol.Length > 0) //{ // ((Driver.Driver)drv).resetOption(pmdOptionVol);// //} List <Tuple <string, string> > tags = drv.GetTags(); if (tags != null) { foreach (Tuple <string, string> tag in tags) { if (tag.Item1 == "") { continue; } WriteLine2(LogLevel.INFO, string.Format("{0,-16} : {1}", tag.Item1, tag.Item2), 16 + 3); } } Log.WriteLine(LogLevel.INFO, ""); drv.StartRendering((int)SamplingRate , new Tuple <string, int>[] { new Tuple <string, int>("YMF278B", (int)opl4MasterClock) }); drv.MusicSTART(0); switch (device) { case 0: audioOutput.Play(); break; case 1: case 2: trdMain.Start(); break; } Log.WriteLine(LogLevel.INFO, "演奏を終了する場合は何かキーを押してください(実chip時は特に。)"); while (true) { System.Threading.Thread.Sleep(1); if (Console.KeyAvailable) { break; } //ステータスが0(終了)又は0未満(エラー)の場合はループを抜けて終了 if (drv.GetStatus() <= 0) { if (drv.GetStatus() == 0) { System.Threading.Thread.Sleep((int)(latency * 2.0));//実際の音声が発音しきるまでlatency*2の分だけ待つ } break; } if (loop != 0 && drv.GetNowLoopCounter() > loop) { System.Threading.Thread.Sleep((int)(latency * 2.0));//実際の音声が発音しきるまでlatency*2の分だけ待つ break; } } drv.MusicSTOP(); drv.StopRendering(); ((Driver.Driver)drv).dispStatus(); } catch (MoonDriverException pe) { Log.WriteLine(LogLevel.ERROR, pe.Message); } catch (Exception ex) { Log.WriteLine(LogLevel.FATAL, "演奏失敗"); Log.WriteLine(LogLevel.FATAL, string.Format("message:{0}", ex.Message)); Log.WriteLine(LogLevel.FATAL, string.Format("stackTrace:{0}", ex.StackTrace)); } finally { if (((Driver.Driver)drv).renderingException != null) { Log.WriteLine(LogLevel.FATAL, "演奏失敗"); Log.WriteLine(LogLevel.FATAL, string.Format("message:{0}", ((Driver.Driver)drv).renderingException.Message)); Log.WriteLine(LogLevel.FATAL, string.Format("stackTrace:{0}", ((Driver.Driver)drv).renderingException.StackTrace)); } if (audioOutput != null) { audioOutput.Stop(); while (audioOutput.PlaybackState == PlaybackState.Playing) { Thread.Sleep(1); } audioOutput.Dispose(); audioOutput = null; } if (trdMain != null) { trdClosed = true; while (!trdStopped) { Thread.Sleep(1); } } if (nc86ctl != null) { nc86ctl.deinitialize(); nc86ctl = null; } if (nScci != null) { nScci.Dispose(); nScci = null; } } return(0); }
private static RSoundChip CheckDevice() { SChipType ct = null; int iCount = 0; switch (device) { case 1: //GIMIC存在チェック nc86ctl = new Nc86ctl.Nc86ctl(); try { nc86ctl.initialize(); iCount = nc86ctl.getNumberOfChip(); } catch { iCount = 0; } if (iCount == 0) { try { nc86ctl.deinitialize(); } catch { } nc86ctl = null; Log.WriteLine(LogLevel.ERROR, "Not found G.I.M.I.C"); device = 0; break; } for (int i = 0; i < iCount; i++) { NIRealChip rc = nc86ctl.getChipInterface(i); NIGimic2 gm = rc.QueryInterface(); ChipType cct = gm.getModuleType(); int o = -1; if (cct == ChipType.CHIP_OPL3) { ct = new SChipType(); ct.SoundLocation = -1; ct.BusID = i; string seri = gm.getModuleInfo().Serial; if (!int.TryParse(seri, out o)) { o = -1; ct = null; continue; } ct.SoundChip = o; ct.ChipName = gm.getModuleInfo().Devname; ct.InterfaceName = gm.getMBInfo().Devname; //isGimicOPNA = (ct.ChipName == "GMC-OPNA"); break; } } RC86ctlSoundChip rsc = null; if (ct == null) { nc86ctl.deinitialize(); nc86ctl = null; Log.WriteLine(LogLevel.ERROR, "Not found G.I.M.I.C(OPNA module)"); device = 0; } else { rsc = new RC86ctlSoundChip(-1, ct.BusID, ct.SoundChip); rsc.c86ctl = nc86ctl; rsc.init(); rsc.SetMasterClock(opl4MasterClock); //SoundBoardII //rsc.setSSGVolume(63);//PC-8801 } return(rsc); case 2: //SCCI存在チェック nScci = new NScci.NScci(); iCount = nScci.NSoundInterfaceManager_.getInterfaceCount(); if (iCount == 0) { nScci.Dispose(); nScci = null; Log.WriteLine(LogLevel.ERROR, "Not found SCCI."); device = 0; break; } for (int i = 0; i < iCount; i++) { NSoundInterface iIntfc = nScci.NSoundInterfaceManager_.getInterface(i); NSCCI_INTERFACE_INFO iInfo = nScci.NSoundInterfaceManager_.getInterfaceInfo(i); int sCount = iIntfc.getSoundChipCount(); for (int s = 0; s < sCount; s++) { NSoundChip sc = iIntfc.getSoundChip(s); int t = sc.getSoundChipType(); if (t == 1) { ct = new SChipType(); ct.SoundLocation = 0; ct.BusID = i; ct.SoundChip = s; ct.ChipName = sc.getSoundChipInfo().cSoundChipName; ct.InterfaceName = iInfo.cInterfaceName; goto scciExit; } } } scciExit :; RScciSoundChip rssc = null; if (ct == null) { nScci.Dispose(); nScci = null; Log.WriteLine(LogLevel.ERROR, "Not found SCCI(OPNA module)."); device = 0; } else { rssc = new RScciSoundChip(0, ct.BusID, ct.SoundChip); rssc.scci = nScci; rssc.init(); } return(rssc); } return(null); }