//TODO: in Visual Studio go to View/Task List and then select "Comments" - this shows a list of all comments starting with TODO - like this one for example
//TODO: suggestions what to build:
//TODO: first implement a simple "message composer". Imaging dropdown-menus to select the ParticipantIDs and MessageType of the first three bytes and then a textbox where you can enter the rest of the message (using ~ as a placeholder for \t and then string.Replace('~', '\t') before sending the message
// this first component is useful for Sayantan to test the software on the Arduino
//TODO: next implement to receive data/readings from the scale
//TODO: then implement automatic calibration stuff...
public ViewModel()
{
SetSteppingSpeed = new RelayCommand(delegate
{
PrimarySerial.SendString(string.Format("STEPS_PER_MINUTE\t{0}", StepsPerMinute));
});
}
public ViewModel()
{
PrimarySerial.NewMessageReceived += PrimarySerial_NewMessageReceived;
SendMessageCommand = new RelayCommand(delegate
{
SendMessage();
});
}
public SerialIO()
{
Current = this;
_SendTimer.Elapsed += _SendTimer_Elapsed;
//ports
CommandRefreshPorts = new RelayCommand(delegate
{
var ports = SerialPort.GetPortNames().ToList();
PortNames = ports.ToArray();
SelectedPort = 0;
});
CommandRefreshPorts.Execute(null);
}
public Experiment()
{
saveTimer.Tick += delegate
{
Save();
};
DeleteExperimentCommand = new RelayCommand(async delegate
{
bool delete = (await CustomMessageBox.ShowAsync("Deleting an Experiment", string.Format("Do you want to delete {0} ?", DisplayName), System.Windows.MessageBoxImage.Warning, 0, "Keep the experiment", string.Format("Delete {0}", this.Title)) == 1);
if (delete)
try
{
Directory.Delete(BaseDirectory, true);
}
catch { }
});
}
public MCPSettings()
{
ChangeHomeDirectoryCommand = new RelayCommand(delegate
{
string previousPath = HomeDirectoryPath;
FolderBrowserDialog fbd = new FolderBrowserDialog() { Description = "Select Home Directory" };
if (!string.IsNullOrWhiteSpace(previousPath))
fbd.SelectedPath = previousPath;
else
fbd.RootFolder = Environment.SpecialFolder.MyComputer;
fbd.ShowDialog();
if (fbd.SelectedPath != previousPath)
{
if (fbd.SelectedPath.EndsWith("MCP"))
HomeDirectoryPath = fbd.SelectedPath;
else
HomeDirectoryPath = Path.Combine(fbd.SelectedPath, "MCP");
}
});
BrowseHomeDirectoryCommand = new RelayCommand(delegate
{
try
{
System.Diagnostics.Process.Start(HomeDirectoryPath);
}
catch { }
});
//
DispatcherTimer dt = new DispatcherTimer() { Interval = TimeSpan.FromMilliseconds(20) };
dt.Tick += async delegate
{
dt.Stop();
if (string.IsNullOrWhiteSpace(HomeDirectoryPath))
{
int sel = await CustomMessageBox.ShowAsync("Setup", "Welcome to the MCP!\r\n\r\nBefore you can start you must set a home directory where files will be saved.\r\n\r\nYou may set or change the home directory under \"Settings\".", System.Windows.MessageBoxImage.Information, 0, "Select Home Directory", "Okay");
if (sel == 0)
ChangeHomeDirectoryCommand.Execute(null);
}
else
InitializeHomeDirectory();
};
dt.Start();
}
public ExperimentLibrary()
{
AddExperimentCommand = new RelayCommand(async delegate
{
Experiment exp = new Experiment();
ExperimentInformationWindow eiw = new ExperimentInformationWindow("Create Experimet", true) { DataContext = exp };
List<ParticipantID> selectedReactors = await eiw.ShowAsync();
if (eiw.Confirmed)
{
foreach (ParticipantID selectedReactor in selectedReactors)
Directory.CreateDirectory(Path.Combine(experimentsDirectory, exp.DisplayName, selectedReactor.ToString()));
exp.BaseDirectory = Path.Combine(experimentsDirectory, exp.DisplayName);//this authorizes the experiment to be saved or save itself (when a property changes)
exp.Save();
}
});
scanTimer.Tick += delegate
{
scanTimer.Stop();
ScanExperimentsDirectory();
};
}
public Calibrator()
{
FinalizeCommand = new RelayCommand(delegate
{
var si = PrepareResults();
ShowResults(si);
});
CopyCommand = new RelayCommand(delegate
{
var si = PrepareResults();
// now copy the response points
var outputTabbed = "Raw\tsRaw\tOD\r\n";
foreach (BiomassResponseData rd in si.ResponseCurve)
{
outputTabbed += string.Format("{0}\t{1}\t{2}\r\n", rd.Analog, rd.AnalogStd, rd.OD);
}
outputTabbed = outputTabbed.TrimEnd('\n', '\r');
try
{
System.Windows.Clipboard.SetDataObject(outputTabbed, true);
}
catch (Exception ex)
{
Task t = CustomMessageBox.ShowAsync("Error", "Export to Clipboard failed.\n\nPlease try again.", MessageBoxImage.Warning, 0, "Ok");
}
});
OpenFileCommand = new RelayCommand(delegate
{
LoadCalibrationFile();
});
progressTimer.Tick += delegate
{
foreach (Subcalibration sub in Subcalibrations)
sub.Tick();
};
progressTimer.Start();
//Initialize
UpdateNumberOfSubcalibrations();
}
public Transformer()
{
OpenFileCommand = new RelayCommand(delegate
{
LoadCalibrationFile();
//TODO: load calibration file implementieren
// response curve regression aus der datei laden
// file info text anzeigen
// laden von log-dateien implementieren
// transformation implementieren
// speichern implementieren
});
LoadRawFileCommand = new RelayCommand(delegate
{
LoadLogFile(RawDataPoints);
TransformToODCommand.RaiseCanExecuteChanged();
OnPropertyChanged("InfoRaw");
});
TransformToODCommand = new RelayCommand(delegate
{
SimulatePostprocessing();
}, new Func<bool>(() => BiomassSensorInfo != null && RawDataPoints.Count > 0));
}
public Subcalibration(GasSensorResponseData sensorRD, string symbol, string unit)
{
this.ResponsePoint = sensorRD;
this.Symbol = symbol;
this.Unit = unit;
CaptureCommand = new RelayCommand(delegate
{
OnRequestCaptureEvent(this, new EventArgs());
}, () => State != SubcalibrationState.Running);
AbortCommand = new RelayCommand(delegate
{
SensorDataSet.Clear();
if (!finishTask.IsCompleted)
finishTask.Start();
}, () => State == SubcalibrationState.Running);
}
//TODO: commands to delete pumps or reactors
#endregion
public Inventory()
{
Current = this;
ImportPumpCommand = new RelayCommand(delegate
{
OpenFileDialog ofd = new OpenFileDialog() { Filter = "Pump Calibration Files|*.pump" };
DialogResult result = ofd.ShowDialog();
if (result == DialogResult.OK)
{
FileInfo fi = new FileInfo(ofd.FileName);
try
{
File.Copy(ofd.FileName, Path.Combine(pumpDirectory, fi.Name));
}
catch (Exception ex)
{
Task mb = CustomMessageBox.ShowAsync("Can't import", "There was an error:\r\n\r\n" + ex.Message, System.Windows.MessageBoxImage.Error, 0, "Ok");
}
}
});
ImportSensorCommand = new RelayCommand(delegate
{
OpenFileDialog ofd = new OpenFileDialog() { Filter = "Sensor Calibration Files|*.biomass;*.sensor" };
DialogResult result = ofd.ShowDialog();
if (result == DialogResult.OK)
{
FileInfo fi = new FileInfo(ofd.FileName);
try
{
File.Copy(ofd.FileName, Path.Combine(sensorDirectory, fi.Name));
}
catch (Exception ex)
{
Task mb = CustomMessageBox.ShowAsync("Can't import", "There was an error:\r\n\r\n" + ex.Message, System.Windows.MessageBoxImage.Error, 0, "Ok");
}
}
});
AddReactorCommand = new RelayCommand(async delegate
{
ReactorInformation newReactor = new ReactorInformation();
ReactorInformationWindow piw = new ReactorInformationWindow("Add New Reactor", true, Pumps.Values, BiomassSensors.Values, GasSensors.Values) { DataContext = newReactor };
piw.Show();
await piw.WaitTask;
if (piw.Confirmed)
{
newReactor.SaveTo(reactorDirectory);
}
});
ImportReactorCommand = new RelayCommand(delegate
{
OpenFileDialog ofd = new OpenFileDialog() { Filter = "Reactor Files|*.reactor" };
DialogResult result = ofd.ShowDialog();
if (result == DialogResult.OK)
{
FileInfo fi = new FileInfo(ofd.FileName);
try
{
File.Copy(ofd.FileName, Path.Combine(reactorDirectory, fi.Name));
}
catch (Exception ex)
{
Task mb = CustomMessageBox.ShowAsync("Can't import", "There was an error:\r\n\r\n" + ex.Message, System.Windows.MessageBoxImage.Error, 0, "Ok");
}
}
});
}
public Calibrator()
{
StartOverCommand = new RelayCommand(delegate
{
Subcalibrations.Clear();
foreach (GasSensorResponseData gsrd in CalibrationProfiles.Profiles[CalibrationTarget][CalibrationMode])
Subcalibrations.Add(new Subcalibration(gsrd, CalibrationProfiles.Symbols[CalibrationTarget], CalibrationProfiles.Units[CalibrationTarget]) { Target = CalibrationTarget });
foreach (Subcalibration sub in Subcalibrations)
{
sub.RequestCapture += sub_RequestCapture;
sub.CaptureEnded += sub_CaptureEnded;
}
}, () => ActiveCalibrationSub == null);
FinalizeCommand = new RelayCommand(delegate
{
PrepareResults();
});
OpenFileCommand = new RelayCommand(delegate
{
LoadCalibrationFile();
});
progressTimer.Tick += delegate
{
foreach (Subcalibration sub in Subcalibrations)
sub.Tick();
};
progressTimer.Start();
//Initialize
StartOverCommand.Execute(null);
}
public Calibrator()
{
StartCalibrationCommand = new RelayCommand(async delegate
{
SpeechIO.Speak(string.Format("Starting {0} calibration.", CalibrationMode));
Subcalibrations.Clear();
foreach (int[] pair in CalibrationProfiles.Profiles[CalibrationTarget][CalibrationMode])
Subcalibrations.Add(new Subcalibration(pair[0], pair[1], CalibrationProfiles.Symbols[CalibrationTarget], CalibrationProfiles.Units[CalibrationTarget]) { Target = CalibrationTarget });
foreach (Subcalibration sub in Subcalibrations)
{
ActiveCalibrationSub = sub;
if (!await sub.RunAsync())
{
SpeechIO.Speak("Calibration cancelled.");
ActiveCalibrationSub = null;
return;
}
}
ActiveCalibrationSub = null;
SpeechIO.Speak("Calibration finished.");
PrepareResults();
}, () => ActiveCalibrationSub == null);
AbortCalibrationCommand = new RelayCommand(delegate
{
foreach (Subcalibration sub in Subcalibrations)
sub.Abort();
}, () => ActiveCalibrationSub != null);
progressTimer.Tick += delegate
{
OnPropertyChanged("ProgressPercent");
OnPropertyChanged("RemainingCalibrationTime");
};
progressTimer.Start();
}
