private void Reset(object sender, RoutedEventArgs e) { DivergenceConvergencePlot.Series.Clear(); DivergenceConvergencePlot.InvalidatePlot(); //force rerender ValueSeries.ItemsSource = null; ValueSeries.InvalidateVisual(); CountSeries.ItemsSource = null; CountSeries.InvalidateVisual(); SolvedSeriesItems = new List <DataPoint>(); SolvedProductsPlot.Series.Clear(); SolvedProductsPlot.InvalidatePlot(); AverageContrib.Series.Clear(); AverageContrib.InvalidatePlot(); CurrentIteration = 0; RepopAgents(); }
public override void Do(IDemoChartControl chartControl) { // Generate simple sin curve. Axis Z as value copy and then we select XZ-projection. var points = new Vector3F[Resolution]; var values = new float[Resolution]; for (int i = 0; i < Resolution; i++) { values[i] = (float)Math.Sin((float)i / Resolution * Math.PI * 4); points[i] = new Vector3F(i, 0, values[i]); } // Data reader for series. var reader = new DefaultPositionValueMaskDataReader(points, values, new OneAxisBounds(-1, 1)); // Value series data presentation. var series = new ValueSeries { // Set data reader. Reader = reader, // Marker style. MarkerStyle = MarkerStyle.Circle, // Line pattern. PatternStyle = PatternStyle.Solid, // Marker size in pixels, it will be same size in pixels not depending on zoom. MarkerSize = 10, // Line thickness. Thickness = 2f, // Set name. Name = "Series" }; // We set XZ projection for 2D mode as we use Z axis same as value, and Y axis does not has sense chartControl.ContextView.Camera2D.Projection = Projection2DTypes.XPosZPos; chartControl.ContextView.Mode2D = true; // Set chart data source. chartControl.DataSource = series; }