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();
nc86ctl.initialize();
iCount = nc86ctl.getNumberOfChip();
if (iCount == 0)
{
nc86ctl.deinitialize();
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_YM2608 || cct == ChipType.CHIP_YMF288 || cct == ChipType.CHIP_YM2203)
{
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;
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(7987200); //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);
}
static int Main(string[] args)
{
Log.writeLine += WriteLine;
#if DEBUG
//Log.writeLine += WriteLineF;
Log.level = LogLevel.INFO;// TRACE;
#else
Log.level = LogLevel.INFO;
#endif
int fnIndex = AnalyzeOption(args);
if (args == null || args.Length != fnIndex + 1)
{
Log.WriteLine(LogLevel.ERROR, "引数(.Mファイル)1個欲しいよぉ");
return(-1);
}
if (!File.Exists(args[fnIndex]))
{
Log.WriteLine(LogLevel.ERROR, "ファイルが見つかりません");
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.ym2608 ym2608 = new MDSound.ym2608();
MDSound.MDSound.Chip chip = new MDSound.MDSound.Chip
{
type = MDSound.MDSound.enmInstrumentType.YM2608,
ID = 0,
Instrument = ym2608,
Update = ym2608.Update,
Start = ym2608.Start,
Stop = ym2608.Stop,
Reset = ym2608.Reset,
SamplingRate = SamplingRate,
Clock = opnaMasterClock,
Volume = 0,
Option = new object[] { GetApplicationFolder() }
};
mds = new MDSound.MDSound(SamplingRate, samplingBuffer, new MDSound.MDSound.Chip[] { chip });
#if NETCOREAPP
System.Text.Encoding.RegisterProvider(System.Text.CodePagesEncodingProvider.Instance);
#endif
drv = new Driver.Driver();
((Driver.Driver)drv).Init(
args[fnIndex]
, OPNAWrite
, OPNAWaitSend
, false
, false //isLoadADPCM
, false //loadADPCMOnly
);
List <Tuple <string, string> > tags = drv.GetTags();
if (tags != null)
{
foreach (Tuple <string, string> tag in tags)
{
if (tag.Item1 == "")
{
continue;
}
Log.WriteLine(LogLevel.INFO, string.Format("{0,-16} : {1}", tag.Item1, tag.Item2));
}
}
//if (loadADPCMOnly) return 0;
drv.StartRendering((int)SamplingRate, (int)opnaMasterClock);
switch (device)
{
case 0:
audioOutput.Play();
break;
case 1:
case 2:
trdMain.Start();
break;
}
drv.MusicSTART(0);
Log.WriteLine(LogLevel.INFO, "終了する場合は何かキーを押してください");
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;
}
}
drv.MusicSTOP();
drv.StopRendering();
}
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 (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);
}
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]).ToUpper().IndexOf(".M") < 0) &&
(Path.GetExtension(args[i]).ToUpper().IndexOf(".XML") < 0)
)
{
continue;
}
mIndex = i;
break;
}
}
if (mIndex < 0)
{
Log.WriteLine(LogLevel.INFO, "引数(.Mファイル)1個欲しいよぉ...");
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.ym2608 ym2608 = new MDSound.ym2608();
MDSound.MDSound.Chip chip = new MDSound.MDSound.Chip
{
type = MDSound.MDSound.enmInstrumentType.YM2608,
ID = 0,
Instrument = ym2608,
Update = ym2608.Update,
Start = ym2608.Start,
Stop = ym2608.Stop,
Reset = ym2608.Reset,
SamplingRate = SamplingRate,
Clock = opnaMasterClock,
Volume = 0,
Option = new object[] { GetApplicationFolder() }
};
ppz8em = new MDSound.PPZ8();
MDSound.MDSound.Chip chipp = new MDSound.MDSound.Chip
{
type = MDSound.MDSound.enmInstrumentType.PPZ8,
ID = 0,
Instrument = ppz8em,
Update = ppz8em.Update,
Start = ppz8em.Start,
Stop = ppz8em.Stop,
Reset = ppz8em.Reset,
SamplingRate = SamplingRate,
Clock = opnaMasterClock,
Volume = 0,
Option = null
};
ppsdrv = new MDSound.PPSDRV();
MDSound.MDSound.Chip chipps = new MDSound.MDSound.Chip
{
type = MDSound.MDSound.enmInstrumentType.PPSDRV,
ID = 0,
Instrument = ppsdrv,
Update = ppsdrv.Update,
Start = ppsdrv.Start,
Stop = ppsdrv.Stop,
Reset = ppsdrv.Reset,
SamplingRate = (uint)
(
device == 0
? SamplingRate
: (
userPPSFREQ == -1
? (
device == 1
? SamplingRatePPSGIMIC
: SamplingRatePPSSCCI
)
: (uint)userPPSFREQ
)
),
Clock = opnaMasterClock,
Volume = 0,
Option = device == 0 ? null : (new object[] { (Action <int, int>)PPSDRVpsg })
};
p86em = new MDSound.P86();
MDSound.MDSound.Chip chip86 = new MDSound.MDSound.Chip
{
type = MDSound.MDSound.enmInstrumentType.mpcmX68k,//TBD
ID = 0,
Instrument = p86em,
Update = p86em.Update,
Start = p86em.Start,
Stop = p86em.Stop,
Reset = p86em.Reset,
SamplingRate = SamplingRate,
Clock = opnaMasterClock,
Volume = 0,
Option = null
};
mds = new MDSound.MDSound(SamplingRate, samplingBuffer, new MDSound.MDSound.Chip[] { chip, chipp, chipps, chip86 });
//ppz8em = new PPZ8em(SamplingRate);
//ppsdrv = new PPSDRV(SamplingRate);
Common.Environment env = new Common.Environment();
env.AddEnv("pmd");
env.AddEnv("pmdopt");
envPmd = env.GetEnvVal("pmd");
envPmdOpt = env.GetEnvVal("pmdopt");
List <string> opt = (envPmdOpt == null) ? (new List <string>()) : envPmdOpt.ToList();
for (int i = fnIndex; i < args.Length; i++)
{
opt.Add(args[i]);
}
mIndex += (envPmdOpt == null ? 0 : envPmdOpt.Length) - fnIndex;
#if NETCOREAPP
System.Text.Encoding.RegisterProvider(System.Text.CodePagesEncodingProvider.Instance);
#endif
drv = new Driver.Driver();
Driver.PMDDotNETOption dop = new Driver.PMDDotNETOption();
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;// -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
, OPNAWrite
, OPNAWaitSend
, dop
, pop.ToArray()
, appendFileReaderCallback
, PPZ8Write
, PPSDRVWrite
, P86Write
);
//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>("YM2608", (int)opnaMasterClock) });
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 (PmdException 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);
}