private bool Set(string parameter, string value)
{
bool pos_changed = false;
switch (parameter)
{
case "MPos":
if ((pos_changed = _MPos != value))
{
if (!_isMPos)
{
IsMachinePosition = true;
}
_MPos = value;
MachinePosition.Parse(_MPos);
}
break;
case "WPos":
if ((pos_changed = _WPos != value))
{
if (_isMPos)
{
IsMachinePosition = false;
}
_WPos = value;
WorkPosition.Parse(_WPos);
}
break;
case "WCO":
if ((pos_changed = _wco != value))
{
_wco = value;
has_wco = true;
WorkPositionOffset.Parse(value);
}
break;
case "A":
if (_a != value)
{
_a = value;
if (_a == "")
{
Mist = Flood = IsToolChanging = false;
SpindleState.Value = GCode.SpindleState.Off;
}
else
{
Mist = value.Contains("M");
Flood = value.Contains("F");
IsToolChanging = value.Contains("T");
SpindleState.Value = value.Contains("S") ? GCode.SpindleState.CW : (value.Contains("C") ? GCode.SpindleState.CCW : GCode.SpindleState.Off);
}
}
break;
case "WCS":
if (_wcs != value)
{
WorkCoordinateSystem = GrblParserState.WorkOffset = value;
}
break;
case "Bf":
string[] buffers = value.Split(',');
if (buffers[0] != _pb_avail)
{
_pb_avail = buffers[0];
OnPropertyChanged(nameof(PlanBufferAvailable));
}
if (buffers[1] != _rxb_avail)
{
_rxb_avail = buffers[1];
OnPropertyChanged(nameof(RxBufferAvailable));
}
break;
case "Ln":
LineNumber = int.Parse(value);
break;
case "FS":
if (_fs != value)
{
_fs = value;
if (_fs == "")
{
FeedRate = ProgrammedRPM = 0d;
if (!double.IsNaN(ActualRPM))
{
ActualRPM = 0d;
}
}
else
{
double[] values = dbl.ParseList(_fs);
if (_feedrate != values[0])
{
FeedRate = values[0];
}
if (_rpm != values[1])
{
ProgrammedRPM = values[1];
}
if (values.Length > 2 && _rpmActual != values[2])
{
ActualRPM = values[2];
}
}
}
break;
case "F":
if (_fs != value)
{
_fs = value;
if (_fs == "")
{
FeedRate = ProgrammedRPM = 0d;
if (!double.IsNaN(ActualRPM))
{
ActualRPM = 0d;
}
}
else
{
FeedRate = dbl.Parse(_fs);
}
}
break;
case "PWM":
PWM = int.Parse(value);
break;
case "Pn":
if (_pn != value)
{
_pn = value;
int s = 0;
foreach (char c in _pn)
{
int i = GrblConstants.SIGNALS.IndexOf(c);
if (i >= 0)
{
s |= (1 << i);
}
}
Signals.Value = (Signals)s;
}
break;
case "Ov":
if (_ov != value)
{
_ov = value;
if (_ov == string.Empty)
{
FeedOverride = RapidsOverride = RPMOverride = 100d;
}
else
{
double[] values = dbl.ParseList(_ov);
if (_feedOverride != values[0])
{
FeedOverride = values[0];
}
if (_rapidsOverride != values[1])
{
RapidsOverride = values[1];
}
if (_rpmOverride != values[2])
{
RPMOverride = values[2];
}
}
}
break;
case "Sc":
if (_sc != value)
{
int s = 0;
foreach (char c in value)
{
int i = GrblInfo.AxisLetterToIndex(c);
if (i >= 0)
{
s |= (1 << i);
}
}
AxisScaled.Value = (AxisFlags)s;
Scaling = value;
}
break;
case "Ex":
if (_ex != value)
{
TubeCoolant = value == "C";
}
break;
case "SD":
value = string.Format("SD Card streaming {0}% complete", value.Split(',')[0]);
if (SDCardStatus != value)
{
Message = SDCardStatus = value;
}
break;
case "T":
if (_tool != value)
{
Tool = value == "0" ? GrblConstants.NO_TOOL : value;
}
break;
case "TLR":
IsTloReferenceSet = value != "0";
break;
case "MPG":
GrblInfo.MPGMode = _grblState.MPG = value == "1";
IsMPGActive = _grblState.MPG;
break;
case "H":
if (_h != value)
{
_h = value;
var hs = _h.Split(',');
HomedState = hs[0] == "1" ? HomedState.Homed : (GrblState.State == GrblStates.Alarm && GrblState.Substate == 11 ? HomedState.NotHomed : HomedState.Unknown);
}
break;
case "D":
_d = value;
LatheMode = GrblParserState.LatheMode = value == "0" ? LatheMode.Radius : LatheMode.Diameter;
break;
case "THC":
{
var values = value.Split(',');
if (_thcv != values[0])
{
_thcv = values[0];
THCVoltage = dbl.Parse(_thcv);
}
value = values.Length > 1 ? values[1] : "";
if (_thcs != value)
{
_thcs = value;
int s = 0;
foreach (char c in _thcs)
{
int i = GrblConstants.THCSIGNALS.IndexOf(c);
if (i >= 0)
{
s |= (1 << i);
}
}
THCSignals.Value = (THCSignals)s;
}
}
break;
case "Enc":
{
var enc = value.Split(',');
OverrideEncoderMode = (GrblEncoderMode)int.Parse(enc[0]);
}
break;
}
return(pos_changed);
}
public bool Set(string parameter, string value)
{
bool changed = false;
switch (parameter)
{
case "MPos":
if ((changed = _MPos != value))
{
if (!_isMPos)
{
IsMachinePosition = true;
}
_MPos = value;
MachinePosition.Parse(_MPos);
for (int i = 0; i < GrblInfo.NumAxes; i++)
{
double newpos = MachinePosition.Values[i] - WorkPositionOffset.Values[i];
if (!Position.Values[i].Equals(newpos))
{
Position.Values[i] = newpos;
}
}
}
break;
case "WPos":
if ((changed = _WPos != value))
{
if (_isMPos)
{
IsMachinePosition = false;
}
_WPos = value;
WorkPosition.Parse(_WPos);
for (int i = 0; i < GrblInfo.NumAxes; i++)
{
if (!Position.Values[i].Equals(WorkPosition.Values[i]))
{
Position.Values[i] = WorkPosition.Values[i];
}
}
}
break;
case "A":
if ((changed = _a != value))
{
_a = value;
if (_a == "")
{
Mist = Flood = IsToolChanging = false;
SpindleState.Value = GCode.SpindleState.Off;
}
else
{
Mist = value.Contains("M");
Flood = value.Contains("F");
IsToolChanging = value.Contains("T");
SpindleState.Value = value.Contains("S") ? GCode.SpindleState.CW : (value.Contains("C") ? GCode.SpindleState.CCW : GCode.SpindleState.Off);
}
}
break;
case "WCO":
if ((changed = _wco != value))
{
_wco = value;
WorkPositionOffset.Parse(value);
if (_isMPos)
{
for (int i = 0; i < GrblInfo.NumAxes; i++)
{
double newpos = MachinePosition.Values[i] - WorkPositionOffset.Values[i];
if (!Position.Values[i].Equals(newpos))
{
Position.Values[i] = newpos;
}
}
}
}
break;
case "WCS":
if ((changed = _wcs != value))
{
WorkCoordinateSystem = GrblParserState.WorkOffset = value;
}
break;
case "FS":
if ((changed = _fs != value))
{
_fs = value;
if (_fs == "")
{
FeedRate = ProgrammedRPM = 0d;
if (!double.IsNaN(ActualRPM))
{
ActualRPM = 0d;
}
}
else
{
double[] values = dbl.ParseList(_fs);
if (_feedrate != values[0])
{
FeedRate = values[0];
}
if (_rpm != values[1])
{
ProgrammedRPM = values[1];
}
if (values.Length > 2 && _rpmActual != values[2])
{
ActualRPM = values[2];
}
}
}
break;
case "Pn":
if ((changed = _pn != value))
{
_pn = value;
int s = 0;
foreach (char c in _pn)
{
int i = GrblConstants.SIGNALS.IndexOf(c);
if (i >= 0)
{
s |= (1 << i);
}
}
Signals.Value = (Signals)s;
}
break;
case "Ov":
if ((changed = _ov != value))
{
_ov = value;
if (_ov == string.Empty)
{
FeedOverride = RapidsOverride = RPMOverride = 100d;
}
else
{
double[] values = dbl.ParseList(_ov);
if (_feedOverride != values[0])
{
FeedOverride = values[0];
}
if (_rapidsOverride != values[1])
{
RapidsOverride = values[1];
}
if (_rpmOverride != values[2])
{
RPMOverride = values[2];
}
}
}
break;
case "Sc":
if ((changed = _sc != value))
{
int s = 0;
foreach (char c in value)
{
int i = GrblInfo.AxisLetterToIndex(c);
if (i >= 0)
{
s |= (1 << i);
}
}
AxisScaled.Value = (AxisFlags)s;
Scaling = value;
}
break;
case "Ex":
if ((changed = _ex != value))
{
TubeCoolant = value == "C";
}
break;
case "SD":
value = string.Format("SD Card streaming {0}% complete", value);
if ((changed = SDCardStatus != value))
{
Message = SDCardStatus = value;
}
break;
case "T":
if ((changed = _tool != value))
{
Tool = GrblParserState.Tool = value == "0" ? GrblConstants.NO_TOOL : value;
}
break;
case "MPG":
GrblInfo.MPGMode = _grblState.MPG = value == "1";
IsMPGActive = _grblState.MPG;
changed = true;
break;
case "H":
if (_h != value)
{
_h = value;
HomedState = value == "1" ? HomedState.Homed : HomedState.Unknown;
changed = true;
}
break;
case "D":
_d = value;
LatheMode = GrblParserState.LatheMode = value == "0" ? LatheMode.Radius : LatheMode.Diameter;
changed = true;
break;
}
return(changed);
}