internal void pc_cmd(string cmd)
{
Logger.SysLog(cmd);
if (cmd == "H")
{
DeviceMgr.Reset();
return;
}
if (cmd == "resi?")
{
if (processor.bOn)
{
DeviceMgr.Report("resi: " + led_rx.Value + " on");
}
else
{
DeviceMgr.Report("resi: " + led_rx.Value + " off");
};
return;
}
Match m;
//TODO add command list
}
internal void pc_cmd(string cmd)
{
Logger.SysLog(cmd);
if (cmd == "H")
{
DeviceMgr.Reset();
return;
}
if (cmd == "resi?")
{
if (processor.bOn)
{
DeviceMgr.Report("resi: " + led_ohm.Value + " on");
}
else
{
DeviceMgr.Report("resi: " + led_ohm.Value + " off");
};
return;
}
if (cmd == "current?")
{
DeviceMgr.Report("curr: " + led_current.Value);
return;
}
Match m;
m = resi_set_mode.Match(cmd);
if (m.Success)
{
string rvalue = m.Groups[1].ToString();
if (Processor.real_title.Contains(rvalue))
{
int i = 0;
for (i = 0; i < Processor.real_title.Length; i++)
{
if (rvalue == Processor.real_title[i])
{
break;
}
}
if (i >= Processor.real_title.Length)
{
return;
}
processor.iReal = i;
processor.iRange = -1; //real case
}
else
{
Decimal a;
if (!Util.TryDecimalParse(m.Groups[1].ToString(), out a))
{
return;
}
int newrange = Processor.CheckRange(a, -1);
if (newrange < 0)
{
return;
}
processor.iRange = newrange;
processor.resistance = a;
}
processor.bOn = (m.Groups[2].ToString() == "on");
return;
}
}
internal void pc_cmd(string cmd)
{
Logger.SysLog(cmd);
if (cmd == "resi?")
{
if (processor.bOn)
{
DeviceMgr.Report("resi: " + processor.resistance.ToString() + " on");
}
else
{
DeviceMgr.Report("resi: " + processor.resistance.ToString() + " off");
};
return;
}
if (cmd == "current?")
{
DeviceMgr.Report("curr: " + led_current.Value);
return;
}
if (cmd == "ZERO")
{
Program.mainwnd.processor.ZeroON();
}
if (cmd == "H")
{
DeviceMgr.Reset();
}
Match m;
m = resi_set_mode.Match(cmd);
if (m.Success)
{
string rvalue = m.Groups[1].ToString();
int newrange = Int32.Parse(m.Groups[3].ToString());
if (newrange < -1 || newrange > 3)
{
return;
}
if (newrange == -1)
{
int i = 0;
for (i = 0; i < Processor.real_title.Length; i++)
{
if (rvalue == Processor.real_title[i])
{
break;
}
}
if (i >= Processor.real_title.Length)
{
return;
}
processor.iRange = -1;
processor.iReal = i;
}
else
{
Decimal a;
if (!Util.TryDecimalParse(m.Groups[1].ToString(), out a))
{
return;
}
processor.iRange = newrange;
processor.resistance = a;
}
processor.bOn = (m.Groups[2].ToString() == "on");
}
RefreshDisplay(true);
}
internal void pc_cmd(string cmd)
{
Logger.SysLog(cmd);
if (cmd == "*IDN?")
{
DeviceMgr.Report("RAYSTING RT" + s_scale + "A");
return;
}
if (cmd == "H")
{
DeviceMgr.Reset();
return;
}
if (cmd == "ZERO")
{
processor.ZeroON();
return;
}
if (cmd == "curr?")
{
if (processor.bOn)
{
DeviceMgr.Report("curr: " + led_current.Value + " on");
}
else
{
DeviceMgr.Report("curr: " + led_current.Value + " off");
}
return;
}
Match m;
m = resi_set_mode.Match(cmd);
if (m.Success)
{
string rvalue = m.Groups[1].ToString();
Decimal a;
if (!Util.TryDecimalParse(m.Groups[1].ToString(), out a))
{
return;
}
if (!IsValidCurrent(a)) //range check
{
return;
}
int rng = Int32.Parse(m.Groups[3].ToString());
if (a > rng)
{
return;
}
processor.range = rng;
processor.setting = a;
processor.bOn = (m.Groups[2].ToString() == "on");
RefreshDisplay(true);
cmd = "setting?";
}
if (cmd == "setting?")
{
if (processor.bOn)
{
DeviceMgr.Report("setting: " + led_setting.Value + " on " + processor.range.ToString());
}
else
{
DeviceMgr.Report("setting: " + led_setting.Value + " off " + processor.range.ToString());
}
return;
}
}