public static void plot(System.Collections.Generic.IEnumerable <double> x, System.Collections.Generic.IEnumerable <double> y) { var chart2d = new Computator.NET.Charting.RealCharting.Chart2D(); chart2d.AddDataPoints(System.Linq.Enumerable.ToList(y), System.Linq.Enumerable.ToList(x)); var plotForm = new Computator.NET.Charting.PlotForm(chart2d); plotForm.Show(); }
public static void plot(System.Func <double, double> fx, params System.Collections.Generic.IEnumerable <double>[] xys) { var chart2d = new Computator.NET.Charting.RealCharting.Chart2D(); chart2d.AddFunction(new Computator.NET.DataTypes.Function(fx, Computator.NET.DataTypes.FunctionType.Real2D)); for (int i = 0; i < xys.Length - 1; i++) { chart2d.AddDataPoints(System.Linq.Enumerable.ToList(xys[i]), System.Linq.Enumerable.ToList(xys[i + 1])); } var plotForm = new Computator.NET.Charting.PlotForm(chart2d); plotForm.Show(); }
public static void plot(params System.Func <double, double>[] fxs) { var chart2d = new Computator.NET.Charting.RealCharting.Chart2D(); chart2d.SetChartAreaValues(-5, 5, -5, 5); chart2d.Quality = 0.5 * 100; foreach (var fx in fxs)//TODO: function name? { chart2d.AddFunction(new Computator.NET.DataTypes.Function(fx, Computator.NET.DataTypes.FunctionType.Real2D)); } var plotForm = new Computator.NET.Charting.PlotForm(chart2d); plotForm.Show(); }
public static void plot(params System.Func <double, double, double>[] fxys) { var chart3d = new Computator.NET.Charting.Chart3D.UI.Chart3DControl { Mode = (fxys.Length > 1) ? Computator.NET.Charting.Chart3D.Chart3DMode.Points : Computator.NET.Charting.Chart3D.Chart3DMode.Surface }; chart3d.SetChartAreaValues(-5, 5, -5, 5); foreach (var fxy in fxys)//TODO: function name? { chart3d.AddFunction(new Computator.NET.DataTypes.Function(fxy, Computator.NET.DataTypes.FunctionType.Real3D)); } var plotForm = new Computator.NET.Charting.PlotForm(chart3d); plotForm.Show(); }
public static void plot(System.Collections.Generic.IEnumerable <double> x, System.Collections.Generic.IEnumerable <double> y, System.Collections.Generic.IEnumerable <double> z) { var xa = System.Linq.Enumerable.ToArray(x); var ya = System.Linq.Enumerable.ToArray(y); var za = System.Linq.Enumerable.ToArray(z); var chart3d = new Computator.NET.Charting.Chart3D.UI.Chart3DControl(); var points = new System.Collections.Generic.List <Computator.NET.DataTypes.Point3D>(); var n = System.Math.Min(System.Math.Min(xa.Length, ya.Length), za.Length); for (var j = 0; j < n; j++) { points.Add(new Computator.NET.DataTypes.Point3D(xa[j], ya[j], za[j])); } chart3d.AddPoints(points); var plotForm = new Computator.NET.Charting.PlotForm(chart3d); plotForm.Show(); }
public static void plot(Computator.NET.DataTypes.Function f, double XMin = -5, double XMax = 5, double YMin = -5, double YMax = 5, double quality = 0.5) { Computator.NET.DataTypes.Charts.IChart chart; switch (f.FunctionType) { case Computator.NET.DataTypes.FunctionType.Real2D: case Computator.NET.DataTypes.FunctionType.Real2DImplicit: chart = new Computator.NET.Charting.RealCharting.Chart2D(); break; case Computator.NET.DataTypes.FunctionType.Real3D: case Computator.NET.DataTypes.FunctionType.Real3DImplicit: chart = new Computator.NET.Charting.Chart3D.UI.Chart3DControl(); break; case Computator.NET.DataTypes.FunctionType.Complex: case Computator.NET.DataTypes.FunctionType.ComplexImplicit: chart = new Computator.NET.Charting.ComplexCharting.ComplexChart(); break; case Computator.NET.DataTypes.FunctionType.Scripting: default: throw new System.ArgumentOutOfRangeException(); } chart.SetChartAreaValues(XMin, XMax, YMin, YMax); chart.Quality = quality * 100; chart.AddFunction(f); var plotForm = new Computator.NET.Charting.PlotForm(chart); plotForm.Show(); }
public void ShowPlotDialog() { var plotForm = new Computator.NET.Charting.PlotForm(this); plotForm.Show(); }