public MovementWindow(MainWindow mainWindow , string mode , int complexity , int Speed, System.Windows.Media.Color color1 , System.Windows.Media.Color color2 , System.Windows.Media.Color color3 )
{
InitializeComponent();
Pointer1.Stroke = new SolidColorBrush(color1);
this.color1 = new SolidColorBrush(color1);
Pointer1.DataContext = model;
Pointer2.Stroke = new SolidColorBrush(color2);
this.color2 = new SolidColorBrush(color2);
StimulyEllipse1.Stroke = this.color1;
CheckPointEllipse.Stroke = this.color2;
Pointer2.DataContext = model;
lineBrush = new SolidColorBrush(color3);
CourseSpeed = Speed;
this.queue1 = new AnimationQueue(StimulyEllipse1, Canvas.LeftProperty, Canvas.TopProperty);
this.mainWindow = mainWindow;
recorder = coordinateRecorder.getInstance(this);
holder = CoordinateDataBuffer.GetInstance();
t = new System.Timers.Timer();
t.Elapsed += new ElapsedEventHandler(SendInfo);
t.Interval += 100;
this.SetBinding(Window.WidthProperty, new Binding("RezolutionX") { Source = model, Mode = BindingMode.OneWayToSource });
this.SetBinding(Window.HeightProperty, new Binding("RezolutionY") { Source = model, Mode = BindingMode.OneWayToSource });
if (complexity == 0)
{
CourseSpeed += 4; // Lowest complexity trajectory has too many coordinates and the animation moves to slow. For this increment the course speed more .
}
if (mode == "Asynchronous")
{
generate = Asynchronous;
checkPointTimer = new System.Timers.Timer();
checkPointTimer.Interval = 1000.0 / CourseSpeed * 50;
checkPointTimer.Elapsed += new ElapsedEventHandler(ShowNextCheckPoint);
queue1.checkPointHandler += new EventHandler(ShowNextCheckPoint);
StimulyEllipse1.Visibility = Visibility.Visible;
CheckPointEllipse.Visibility = Visibility.Visible;
}
if (mode == "Synchronous")
{
generate = Synchronous;
StimulyEllipse1.Visibility = Visibility.Visible;
}
CourseComplexity = complexity;
}
private Service(MainWindow observer)
{
this.observer = observer;
microphones = new MicrophoneHandler(this);
WMHandler = new WiimoteHandler();
stimuly_data_context = MovementWindowViewModel.GetInstance();
wm1_data_context = new WiimoteDataContext();
wm2_data_context = new WiimoteDataContext();
mic_data_context = new MicrophoneViewModel();
try {
port = PortAccessHandler.GetIntance();
}
catch (Exception ex)
{
Xceed.Wpf.Toolkit.MessageBox.Show(
"A paralel port could not be detected on the given address. Please make sure you have a paralel port on the machine. \r\n"+
ex.Message);
port = null;
}
}
//Make two threads to test if that improves the GUI responsiveness of the led points. Theoretically it should as there would be way less calls to the OnNext method . Ideally
//it would have a frequence of around 60 to 100 fps.
//Made service as a Singleton
public static Service getInstance(MainWindow observer)
{
if (instance == null)
instance = new Service(observer);
return instance;
}
public MovementWindow(MainWindow mainWindow , System.Windows.Media.Color color1, System.Windows.Media.Color color2, System.Windows.Media.Color color3 , int StrokeThickness)
{
InitializeComponent();
Pointer1.Stroke = new SolidColorBrush(color1);
Pointer1.DataContext = model;
Pointer2.Stroke = new SolidColorBrush(color2);
Pointer2.DataContext = model;
lineBrush = new SolidColorBrush(color3);
this.StrokeThickness = StrokeThickness;
this.mainWindow = mainWindow;
recorder = coordinateRecorder.getInstance(this);
holder = CoordinateDataBuffer.GetInstance();
this.queue1 = new AnimationQueue(StimulyEllipse1, Canvas.LeftProperty, Canvas.TopProperty);
t = new System.Timers.Timer();
t.Elapsed += new ElapsedEventHandler(SendInfo);
t.Interval += 100;
this.SetBinding(Window.WidthProperty, new Binding("RezolutionX") { Source = model, Mode = BindingMode.OneWayToSource });
this.SetBinding(Window.HeightProperty, new Binding("RezolutionY") { Source = model, Mode = BindingMode.OneWayToSource });
generate = Self_Paced;
CourseComplexity = 0;
StimulyEllipse1.Visibility = Visibility.Visible;
}
