public RSoundChip SearchOPNA()
{
if (nScci != null)
{
int iCount = nScci.NSoundInterfaceManager_.getInterfaceCount();
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)
{
continue;
}
string ChipName = sc.getSoundChipInfo().cSoundChipName;
string InterfaceName = iInfo.cInterfaceName;
RScciSoundChip rsc = new RScciSoundChip(0, i, s);
rsc.scci = nScci;
return(rsc);
}
}
}
if (nc86ctl != null)
{
int iCount = nc86ctl.getNumberOfChip();
for (int i = 0; i < iCount; i++)
{
NIRealChip rc = nc86ctl.getChipInterface(i);
NIGimic2 gm = rc.QueryInterface();
ChipType cct = gm.getModuleType();
if (cct != ChipType.CHIP_YM2608 && cct != ChipType.CHIP_YMF288)
{
continue;
}
int o = -1;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
string ChipName = gm.getModuleInfo().Devname;
string InterfaceName = gm.getMBInfo().Devname;
RC86ctlSoundChip rsc = new RC86ctlSoundChip(-1, i, o);
rsc.c86ctl = nc86ctl;
return(rsc);
}
}
return(null);
}
public List <Setting.ChipType> GetRealChipList()
{
List <Setting.ChipType> ret = new List <Setting.ChipType>();
if (nScci != null)
{
int iCount = nScci.NSoundInterfaceManager_.getInterfaceCount();
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();
Setting.ChipType ct = new Setting.ChipType();
ct.SoundLocation = 0;
ct.BusID = i;
ct.SoundChip = s;
ct.ChipName = sc.getSoundChipInfo().cSoundChipName;
ct.Type = t;
ct.InterfaceName = iInfo.cInterfaceName;
ret.Add(ct);
}
}
}
if (nc86ctl != null)
{
int iCount = nc86ctl.getNumberOfChip();
for (int i = 0; i < iCount; i++)
{
NIRealChip rc = nc86ctl.getChipInterface(i);
NIGimic2 gm = rc.QueryInterface();
ChipType cct = gm.getModuleType();
Setting.ChipType ct = null;
int o = -1;
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
ret.Add(ct);
}
}
return(ret);
}
override public void init()
{
NIRealChip rc = c86ctl.getChipInterface(BusID);
rc.reset();
realChip = rc;
NIGimic2 gm = rc.QueryInterface();
dClock = gm.getPLLClock();
chiptype = gm.getModuleType();
if (chiptype == ChipType.CHIP_YM2608)
{
//setRegister(0x2d, 00);
//setRegister(0x29, 82);
//setRegister(0x07, 38);
}
}
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);
}
public List <Setting.ChipType> GetRealChipList(EnmRealChipType realChipType)
{
List <Setting.ChipType> ret = new List <Setting.ChipType>();
if (nScci != null)
{
int iCount = nScci.NSoundInterfaceManager_.getInterfaceCount();
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 == (int)realChipType)
{
Setting.ChipType ct = new Setting.ChipType();
ct.SoundLocation = 0;
ct.BusID = i;
ct.SoundChip = s;
ct.ChipName = sc.getSoundChipInfo().cSoundChipName;
ct.InterfaceName = iInfo.cInterfaceName;
ret.Add(ct);
}
else
{
//互換指定をチェック
NSCCI_SOUND_CHIP_INFO chipInfo = sc.getSoundChipInfo();
for (int n = 0; n < chipInfo.iCompatibleSoundChip.Length; n++)
{
if ((int)realChipType != chipInfo.iCompatibleSoundChip[n])
{
continue;
}
Setting.ChipType ct = new Setting.ChipType();
ct.SoundLocation = 0;
ct.BusID = i;
ct.SoundChip = s;
ct.ChipName = sc.getSoundChipInfo().cSoundChipName;
ct.InterfaceName = iInfo.cInterfaceName;
ret.Add(ct);
break;
}
}
}
}
}
if (nc86ctl != null)
{
int iCount = nc86ctl.getNumberOfChip();
for (int i = 0; i < iCount; i++)
{
NIRealChip rc = nc86ctl.getChipInterface(i);
NIGimic2 gm = rc.QueryInterface();
ChipType cct = gm.getModuleType();
Setting.ChipType ct = null;
int o = -1;
switch (realChipType)
{
case EnmRealChipType.AY8910:
if (cct == ChipType.CHIP_UNKNOWN || cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288 || cct == ChipType.CHIP_YM2203)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2203:
case EnmRealChipType.YM2608:
if (cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288 || cct == ChipType.CHIP_YM2203)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2413:
if (cct == ChipType.CHIP_YM2413 || cct == ChipType.CHIP_UNKNOWN)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
}
break;
case EnmRealChipType.YM2610:
if (cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2151:
if (cct == ChipType.CHIP_YM2151)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM3526:
case EnmRealChipType.YM3812:
case EnmRealChipType.YMF262:
if (cct == ChipType.CHIP_OPL3)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
}
if (ct != null)
{
ret.Add(ct);
}
}
}
return(ret);
}
public RSoundChip GetRealChip(Setting.ChipType chipType, int ind = 0)
{
if (nScci != null)
{
int iCount = nScci.NSoundInterfaceManager_.getInterfaceCount();
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);
switch (ind)
{
case 0:
if (0 == chipType.SoundLocation &&
i == chipType.BusID &&
s == chipType.SoundChip)
{
RScciSoundChip rsc = new RScciSoundChip(0, i, s, chipType.Type);
rsc.scci = nScci;
return(rsc);
}
break;
case 1:
if (0 == chipType.SoundLocation2A &&
i == chipType.BusID2A &&
s == chipType.SoundChip2A)
{
RScciSoundChip rsc = new RScciSoundChip(0, i, s, chipType.Type2A);
rsc.scci = nScci;
return(rsc);
}
break;
case 2:
if (0 == chipType.SoundLocation2B &&
i == chipType.BusID2B &&
s == chipType.SoundChip2B)
{
RScciSoundChip rsc = new RScciSoundChip(0, i, s, chipType.Type2B);
rsc.scci = nScci;
return(rsc);
}
break;
}
}
}
}
if (nc86ctl != null)
{
int iCount = nc86ctl.getNumberOfChip();
for (int i = 0; i < iCount; i++)
{
NIRealChip rc = nc86ctl.getChipInterface(i);
NIGimic2 gm = rc.QueryInterface();
ChipType cct = gm.getModuleType();
int o = -1;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
switch (ind)
{
case 0:
if (-1 == chipType.SoundLocation &&
i == chipType.BusID &&
o == chipType.SoundChip)
{
RC86ctlSoundChip rsc = new RC86ctlSoundChip(-1, i, o, chipType.Type);
rsc.c86ctl = nc86ctl;
return(rsc);
}
break;
case 1:
if (-1 == chipType.SoundLocation2A &&
i == chipType.BusID2A &&
o == chipType.SoundChip2A)
{
RC86ctlSoundChip rsc = new RC86ctlSoundChip(-1, i, o, chipType.Type2A);
rsc.c86ctl = nc86ctl;
return(rsc);
}
break;
case 2:
if (-1 == chipType.SoundLocation2B &&
i == chipType.BusID2B &&
o == chipType.SoundChip2B)
{
RC86ctlSoundChip rsc = new RC86ctlSoundChip(-1, i, o, chipType.Type2B);
rsc.c86ctl = nc86ctl;
return(rsc);
}
break;
}
}
}
return(null);
}
public List <Setting.ChipType> GetRealChipList(EnmRealChipType realChipType)
{
List <Setting.ChipType> ret = new List <Setting.ChipType>();
if (nScci != null)
{
int iCount = nScci.NSoundInterfaceManager_.getInterfaceCount();
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 == (int)realChipType ||
(realChipType == EnmRealChipType.YM2203 && t == (int)EnmRealChipType.YM2608) ||
(realChipType == EnmRealChipType.YM2610 && t == (int)EnmRealChipType.YM2608) ||
(realChipType == EnmRealChipType.AY8910 && t == (int)EnmRealChipType.YM2203) ||
(realChipType == EnmRealChipType.AY8910 && t == (int)EnmRealChipType.YM2608) ||
(realChipType == EnmRealChipType.AY8910 && t == (int)EnmRealChipType.YM2610)
)
{
Setting.ChipType ct = new Setting.ChipType();
ct.SoundLocation = 0;
ct.BusID = i;
ct.SoundChip = s;
ct.ChipName = sc.getSoundChipInfo().cSoundChipName;
ct.Type = t;
ct.InterfaceName = iInfo.cInterfaceName;
ret.Add(ct);
}
}
}
}
if (nc86ctl != null)
{
int iCount = nc86ctl.getNumberOfChip();
for (int i = 0; i < iCount; i++)
{
NIRealChip rc = nc86ctl.getChipInterface(i);
NIGimic2 gm = rc.QueryInterface();
ChipType cct = gm.getModuleType();
Setting.ChipType ct = null;
int o = -1;
switch (realChipType)
{
case EnmRealChipType.AY8910:
if (cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288 || cct == ChipType.CHIP_YM2203)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2203:
case EnmRealChipType.YM2608:
if (cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288 || cct == ChipType.CHIP_YM2203)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2610:
if (cct == ChipType.CHIP_YM2608 || cct == ChipType.CHIP_YMF288)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
case EnmRealChipType.YM2151:
if (cct == ChipType.CHIP_YM2151)
{
ct = new Setting.ChipType();
ct.SoundLocation = -1;
ct.BusID = i;
string seri = gm.getModuleInfo().Serial;
if (!int.TryParse(seri, out o))
{
o = -1;
}
ct.SoundChip = o;
ct.ChipName = gm.getModuleInfo().Devname;
ct.InterfaceName = gm.getMBInfo().Devname;
ct.Type = (int)cct;
}
break;
}
if (ct != null)
{
ret.Add(ct);
}
}
}
return(ret);
}
private void Form1_Shown(object sender, EventArgs e)
{
for (int i = 0; i < 1; i++)
{
try
{
MsgDisp("SCCI:処理開始");
MsgDisp("SCCI:コンストラクタ開始");
scci = new NScci.NScci();
MsgDisp("SCCI:コンストラクタ終了");
MsgDisp("SCCI:getInterfaceCount開始");
int n = scci.NSoundInterfaceManager_.getInterfaceCount();
MsgDisp("SCCI:getInterfaceCount完了");
if (n == 0)
{
MsgDisp("SCCI:SCCI見つからず");
scci.Dispose();
scci = null;
}
else
{
for (int j = 0; j < n; j++)
{
MsgDisp(string.Format("SCCI:====================== Interface {0}", j));
MsgDisp("SCCI:getInterface 開始");
NSoundInterface nsif = scci.NSoundInterfaceManager_.getInterface(j);
MsgDisp("SCCI:getInterface 完了");
MsgDisp("SCCI:getSoundChipCount 開始");
int c = nsif.getSoundChipCount();
MsgDisp("SCCI:getSoundChipCount 完了");
for (int k = 0; k < c; k++)
{
MsgDisp("SCCI:------------------- Chip Information");
MsgDisp("SCCI:getSoundChip 開始");
NSoundChip nsc = nsif.getSoundChip(k);
MsgDisp("SCCI:getSoundChip 完了");
MsgDisp("SCCI:getSoundChipInfo 開始");
NSCCI_SOUND_CHIP_INFO nssci = nsc.getSoundChipInfo();
MsgDisp("SCCI:getSoundChipInfo 完了");
MsgDisp(string.Format("SCCI:cSoundChipName {0}", nssci.cSoundChipName));
MsgDisp(string.Format("SCCI:dClock {0}", nssci.dClock));
MsgDisp(string.Format("SCCI:iSoundChip {0}", nssci.iSoundChip));
MsgDisp(string.Format("SCCI:bIsUsed {0}", nssci.bIsUsed));
}
}
if (scci != null)
{
scci.Dispose();
scci = null;
}
}
}
catch (Exception escci)
{
MsgDisp("SCCI:Exception発生");
MsgDisp(string.Format("SCCI:Message:{0}", escci.Message));
MsgDisp(string.Format("SCCI:StackTrace:{0}", escci.StackTrace));
}
try
{
MsgDisp("c86ctl:処理開始");
MsgDisp("c86ctl:Nc86ctl 開始");
c86 = new Nc86ctl.Nc86ctl();
MsgDisp("c86ctl:Nc86ctl 完了");
MsgDisp("c86ctl:initialize 開始");
c86.initialize();
MsgDisp("c86ctl:initialize 完了");
MsgDisp("c86ctl:getNumberOfChip 開始");
int nc = c86.getNumberOfChip();
MsgDisp("c86ctl:getNumberOfChip 完了");
if (nc == 0)
{
MsgDisp("c86ctl:deinitialize 開始");
c86.deinitialize();
MsgDisp("c86ctl:deinitialize 完了");
MsgDisp("c86ctl:c86ctl見つからず");
c86.Dispose();
c86 = null;
}
else
{
MsgDisp("c86ctl:getChipInterface 開始");
NIRealChip nirc = c86.getChipInterface(0);
MsgDisp("c86ctl:getChipInterface 完了");
MsgDisp("c86ctl:reset 開始");
nirc.reset();
MsgDisp("c86ctl:reset 完了");
MsgDisp("c86ctl:QueryInterface 開始");
NIGimic2 nig = nirc.QueryInterface();
MsgDisp("c86ctl:QueryInterface 完了");
UInt16 aa = 0;
UInt16 bb = 0;
UInt16 cc = 0;
UInt16 dd = 0;
MsgDisp("c86ctl:getFWVer 開始");
nig.getFWVer(ref aa, ref bb, ref cc, ref dd);
MsgDisp(string.Format("c86ctl:getFWVer 完了({0}.{1}.{2}.{3})", aa, bb, cc, dd));
MsgDisp("c86ctl:getMBInfo 開始");
Devinfo dv = nig.getMBInfo();
MsgDisp(string.Format("c86ctl:getMBInfo 完了 {0}", dv.Devname));
MsgDisp("c86ctl:getModuleType 開始");
ChipType tp = nig.getModuleType();
MsgDisp(string.Format("c86ctl:getModuleType 完了 {0}", tp));
MsgDisp("c86ctl:getModuleInfo 開始");
Devinfo di = nig.getModuleInfo();
MsgDisp(string.Format("c86ctl:getModuleInfo 完了 {0}", di.Devname));
MsgDisp("c86ctl:getSSGVolume 開始");
byte vol = nig.getSSGVolume();
MsgDisp(string.Format("c86ctl:getSSGVolume 完了 {0}", vol));
MsgDisp("c86ctl:getPLLClock 開始");
uint clock = nig.getPLLClock();
MsgDisp(string.Format("c86ctl:getPLLClock 完了 {0}", clock));
}
}
catch (Exception ec86)
{
MsgDisp("c86ctl:Exception発生");
MsgDisp(string.Format("c86ctl:Message:{0}", ec86.Message));
MsgDisp(string.Format("c86ctl:StackTrace:{0}", ec86.StackTrace));
}
}
}