Example #1
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            // this example will in the future demonstrate histogram plots with +- values.
            // currently not used - histograms don't support this.
            plotSurface.Clear();

            int[] values = { -10, 2, -3, 4, 6, -1, 10, 4, -4, -3 };
            HistogramPlot hp = new HistogramPlot();
            hp.OrdinateData = values;
            plotSurface.Add(hp);

            plotSurface.Refresh();
        }
Example #2
0
    void ClearVisualizations()
    {
        navbarwidget.ClearMarkedPositions();

        plotSurface.Clear();
        plotSurface.Refresh();

        Gtk.Widget widget;
        widget = this.scrolledwindowTable2D.Child;
        if (widget != null)
        {
            this.scrolledwindowTable2D.Remove(widget);
        }

        widget = this.scrolledwindowTable3D.Child;
        if (widget != null)
        {
            this.scrolledwindowTable3D.Remove(widget);
        }
    }
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            System.Random r = new Random();

            int len = 35;
            double[] a = new double[len];
            double[] b = new double[len];

            for (int i = 0; i < len; ++i)
            {
                int j = len - 1 - i;
                a[i] = (double)Math.Exp(-(double)(i - len / 2) * (double)(i - len / 2) / 50.0f);
                b[i] = a[i] + (r.Next(10) / 50.0f) - 0.05f;
                if (b[i] < 0.0f)
                {
                    b[i] = 0;
                }
            }

            HistogramPlot sp = new HistogramPlot();
            sp.DataSource = b;
            sp.Pen = Pens.DarkBlue;
            sp.Filled = true;
            sp.RectangleBrush = new RectangleBrushes.HorizontalCenterFade(Color.Lavender, Color.Gold);
            sp.BaseWidth = 0.5f;
            sp.Label = "Random Data";
            LinePlot lp = new LinePlot();
            lp.DataSource = a;
            lp.Pen = new Pen(Color.Blue, 3.0f);
            lp.Label = "Gaussian Function";
            plotSurface.Add(sp);
            plotSurface.Add(lp);
            plotSurface.Legend = new Legend();
            plotSurface.YAxis1.WorldMin = 0.0f;
            plotSurface.Title = "Histogram Plot";
            plotSurface.Refresh();
        }
Example #4
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            // first of all, generate some mockup data.
            DataTable info = new DataTable("Store Information");
            info.Columns.Add("Index", typeof(int));
            info.Columns.Add("IndexOffsetLeft", typeof(float));
            info.Columns.Add("IndexOffsetRight", typeof(float));
            info.Columns.Add("StoreName", typeof(string));
            info.Columns.Add("BarBase", typeof(float));
            info.Columns.Add("StoreGrowth", typeof(float));
            info.Columns.Add("AverageGrowth", typeof(float));
            info.Columns.Add("ProjectedSales", typeof(float));

            float barBase = 185.0f;
            Random r = new Random();
            for (int i = 0; i < 18; ++i)
            {
                DataRow row = info.NewRow();
                row["Index"] = i;
                row["IndexOffsetLeft"] = (float)i - 0.1f;
                row["IndexOffsetRight"] = (float)i + 0.1f;
                row["StoreName"] = "Store " + (i + 1).ToString();
                row["BarBase"] = barBase;
                row["StoreGrowth"] = barBase + ((r.NextDouble() - 0.1) * 20.0f);
                row["AverageGrowth"] = barBase + ((r.NextDouble() - 0.1) * 15.0f);
                row["ProjectedSales"] = barBase + (r.NextDouble() * 15.0f);
                info.Rows.Add(row);
                barBase += (float)r.NextDouble() * 4.0f;
            }

            plotSurface.Clear();

            plotSurface.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.AntiAlias;

            // generate the grid
            Grid grid = new Grid();
            grid.VerticalGridType = Grid.GridType.Coarse;
            grid.HorizontalGridType = Grid.GridType.None;
            grid.MajorGridPen = new Pen(Color.Black, 1.0f);
            plotSurface.Add(grid);

            // generate the trendline
            LinePlot trendline = new LinePlot();
            trendline.DataSource = info;
            trendline.AbscissaData = "Index";
            trendline.OrdinateData = "BarBase";
            trendline.Pen = new Pen(Color.Black, 3.0f);
            trendline.Label = "Trendline";
            plotSurface.Add(trendline);

            // draw store growth bars
            BarPlot storeGrowth = new BarPlot();
            storeGrowth.DataSource = info;
            storeGrowth.AbscissaData = "IndexOffsetLeft";
            storeGrowth.OrdinateDataTop = "StoreGrowth";
            storeGrowth.OrdinateDataBottom = "BarBase";
            storeGrowth.Label = "Store Growth";
            storeGrowth.FillBrush = Florence.RectangleBrushes.Solid.Black;
            //storeGrowth.BorderPen = new Pen( Color.Black, 2.0f );
            plotSurface.Add(storeGrowth);

            // draw average growth bars
            BarPlot averageGrowth = new BarPlot();
            averageGrowth.DataSource = info;
            averageGrowth.AbscissaData = "IndexOffsetRight";
            averageGrowth.OrdinateDataBottom = "BarBase";
            averageGrowth.OrdinateDataTop = "AverageGrowth";
            averageGrowth.Label = "Average Growth";
            averageGrowth.FillBrush = Florence.RectangleBrushes.Solid.Gray;
            //averageGrowth.BorderPen = new Pen( Color.Black, 2.0f );
            plotSurface.Add(averageGrowth);

            // generate the projected sales step line.
            StepPlot projected = new StepPlot();
            projected.DataSource = info;
            projected.AbscissaData = "Index";
            projected.OrdinateData = "ProjectedSales";
            projected.Pen = new Pen(Color.Orange, 3.0f);
            projected.HideVerticalSegments = true;
            projected.Center = true;
            projected.Label = "Projected Sales";
            projected.WidthScale = 0.7f;
            plotSurface.Add(projected);

            // generate the minimum target line.
            HorizontalLine minimumTargetLine = new HorizontalLine(218, new Pen(Color.Green, 3.5f));
            minimumTargetLine.Label = "Minimum Target";
            minimumTargetLine.LengthScale = 0.98f;
            minimumTargetLine.ShowInLegend = true; // off by default for lines.
            plotSurface.Add(minimumTargetLine);

            // generate the preferred target line.
            HorizontalLine preferredTargetLine = new HorizontalLine(228, new Pen(Color.Blue, 3.5f));
            preferredTargetLine.Label = "Preferred Target";
            preferredTargetLine.LengthScale = 0.98f;
            preferredTargetLine.ShowInLegend = true; // off by default for lines.
            plotSurface.Add(preferredTargetLine);

            // make some modifications so that chart matches requirements.
            // y axis.
            plotSurface.YAxis1.TicksIndependentOfPhysicalExtent = true;
            plotSurface.YAxis1.TickTextNextToAxis = false;
            plotSurface.YAxis1.TicksAngle = 3.0f * (float)Math.PI / 2.0f;
            ((LinearAxis)plotSurface.YAxis1).LargeTickStep = 10.0;
            ((LinearAxis)plotSurface.YAxis1).NumberOfSmallTicks = 0;

            // x axis
            plotSurface.XAxis1.TicksIndependentOfPhysicalExtent = true;
            plotSurface.XAxis1.TickTextNextToAxis = false;
            plotSurface.XAxis1.TicksAngle = (float)Math.PI / 2.0f;
            LabelAxis la = new LabelAxis(plotSurface.XAxis1);
            for (int i = 0; i < info.Rows.Count; ++i)
            {
                la.AddLabel((string)info.Rows[i]["StoreName"], Convert.ToInt32(info.Rows[i]["Index"]));
            }
            la.TicksLabelAngle = (float)90.0f;
            la.TicksBetweenText = true;
            plotSurface.XAxis1 = la;

            plotSurface.XAxis2 = (Axis)plotSurface.XAxis1.Clone();
            plotSurface.XAxis2.HideTickText = true;
            plotSurface.XAxis2.LargeTickSize = 0;

            Legend l = new Legend();
            l.NumberItemsVertically = 2;
            l.AttachTo(Florence.PlotSurface2D.XAxisPosition.Bottom, Florence.PlotSurface2D.YAxisPosition.Left);
            l.HorizontalEdgePlacement = Florence.Legend.Placement.Outside;
            l.VerticalEdgePlacement = Florence.Legend.Placement.Inside;
            l.XOffset = 5;
            l.YOffset = 50;
            l.BorderStyle = Florence.LegendBase.BorderType.Line;

            plotSurface.Legend = l;

            plotSurface.Title =
                "Sales Growth Compared to\n" +
                "Average Sales Growth by Store Size - Rank Order Low to High";

            plotSurface.Refresh();
        }
Example #5
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            double[] y = new double[1] { 1.0f };
            foreach (object i in Enum.GetValues(typeof(Marker.MarkerType)))
            {
                Marker m = new Marker((Marker.MarkerType)Enum.Parse(typeof(Marker.MarkerType), i.ToString()), 8);
                double[] x = new double[1];
                x[0] = (double)m.Type;
                PointPlot pp = new PointPlot();
                pp.OrdinateData = y;
                pp.AbscissaData = x;
                pp.Marker = m;
                pp.Label = m.Type.ToString();
                plotSurface.Add(pp);
            }
            plotSurface.Title = "Markers";
            plotSurface.YAxis1.Label = "Index";
            plotSurface.XAxis1.Label = "Marker";
            plotSurface.YAxis1.WorldMin = 0.0f;
            plotSurface.YAxis1.WorldMax = 2.0f;
            plotSurface.XAxis1.WorldMin -= 1.0f;
            plotSurface.XAxis1.WorldMax += 1.0f;

            Legend legend = new Legend();
            legend.AttachTo(PlotSurface2D.XAxisPosition.Top, PlotSurface2D.YAxisPosition.Right);
            legend.VerticalEdgePlacement = Legend.Placement.Outside;
            legend.HorizontalEdgePlacement = Legend.Placement.Inside;
            legend.XOffset = 5; // note that these numbers can be negative.
            legend.YOffset = 0;
            plotSurface.Legend = legend;

            plotSurface.Refresh();
        }
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            FilledRegion fr = new FilledRegion(
                new VerticalLine(1.2),
                new VerticalLine(2.4));
            fr.Brush = Brushes.BlanchedAlmond;
            plotSurface.Add(fr);

            // note that arrays can be of any type you like.
            int[] opens = { 1, 2, 1, 2, 1, 3 };
            double[] closes = { 2, 2, 2, 1, 2, 1 };
            float[] lows = { 0, 1, 1, 1, 0, 0 };
            System.Int64[] highs = { 3, 2, 3, 3, 3, 4 };
            int[] times = { 0, 1, 2, 3, 4, 5 };

            CandlePlot cp = new CandlePlot();
            cp.CloseData = closes;
            cp.OpenData = opens;
            cp.LowData = lows;
            cp.HighData = highs;
            cp.AbscissaData = times;
            plotSurface.Add(cp);

            HorizontalLine line = new HorizontalLine(1.2);
            line.LengthScale = 0.89f;
            plotSurface.Add(line, -10);

            VerticalLine line2 = new VerticalLine(1.2);
            line2.LengthScale = 0.89f;
            plotSurface.Add(line2);

            plotSurface.AddInteraction(new PlotZoom());

            plotSurface.Title = "Line in the Title Number 1\nFollowed by another title line\n and another";
            plotSurface.Refresh();
        }
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            double[] data = new double[] { 0, 4, 3, 2, 5, 4, 2, 3 };
            double[] data2 = new double[] { 5, 2, 4, 1, 2, 1, 5, 3 };

            HistogramPlot hp = new HistogramPlot();
            hp.OrdinateData = data;
            hp.RectangleBrush = RectangleBrushes.Horizontal.FaintRedFade;
            hp.Filled = true;
            hp.BaseOffset = -0.15;
            hp.BaseWidth = 0.25f;

            HistogramPlot hp2 = new HistogramPlot();
            hp2.OrdinateData = data2;
            hp2.RectangleBrush = RectangleBrushes.Horizontal.FaintGreenFade;
            hp2.Filled = true;
            hp2.BaseOffset = 0.15;
            hp2.BaseWidth = 0.25f;

            plotSurface.Clear();

            plotSurface.Add(hp);
            plotSurface.Add(hp2);

            plotSurface.PlotBackBrush = RectangleBrushes.Vertical.FaintBlueFade;
            plotSurface.Refresh();
        }
Example #8
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();
            const int size = 200;
            float [] xs = new float [size];
            float [] ys = new float [size];
            for (int i=0; i<size; i++)
            {
                xs[i] = (float)Math.Sin((double)i/(double)(size-1)*2.0*Math.PI);
                ys[i] = (float)Math.Cos((double)i/(double)(size-1)*6.0*Math.PI);
            }

            LinePlot lp = new LinePlot();
            lp.OrdinateData = ys;
            lp.AbscissaData = xs;
            Pen linePen = new Pen( Color.Yellow, 5.0f );
            lp.Pen = linePen;
            plotSurface.Add(lp);
            plotSurface.Title = "AxisConstraint.EqualScaling in action...";

            // Image downloaded from http://squidfingers.com. Thanks!
            Assembly a = Assembly.GetExecutingAssembly();
            System.IO.Stream file =
                a.GetManifestResourceStream( "DemoLib.Resources.pattern01.jpg" );
            System.Drawing.Image im = Image.FromStream( file );
            plotSurface.PlotBackImage = new Bitmap( im );

            plotSurface.AddAxesConstraint( new AxesConstraint.AspectRatio( 1.0, PlotSurface2D.XAxisPosition.Top, PlotSurface2D.YAxisPosition.Left ) );
            plotSurface.XAxis1.WorldMin = plotSurface.YAxis1.WorldMin;
            plotSurface.XAxis1.WorldMax = plotSurface.YAxis1.WorldMax;
            plotSurface.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.AntiAlias;

            plotSurface.AddInteraction(new PlotZoom());

            // make sure plot surface colors are as we expect - the wave example changes them.
            //plotSurface.PlotBackColor = Color.White;
            plotSurface.XAxis1.Color = Color.Black;
            plotSurface.YAxis1.Color = Color.Black;

            plotSurface.Refresh();
        }
Example #9
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            // log log plot
            plotSurface.Clear();

            Grid mygrid = new Grid();
            mygrid.HorizontalGridType = Grid.GridType.Fine;
            mygrid.VerticalGridType = Grid.GridType.Fine;
            plotSurface.Add(mygrid);

            int npt = 101;
            float [] x = new float[npt];
            float [] y = new float[npt];

            float step=0.1f;

            // plot a power law on the log-log scale
            for (int i=0; i<npt; ++i)
            {
                x[i] = (i+1)*step;
                y[i] = x[i]*x[i];
            }
            float xmin = x[0];
            float xmax = x[npt-1];
            float ymin = y[0];
            float ymax = y[npt-1];

            LinePlot lp = new LinePlot();
            lp.OrdinateData = y;
            lp.AbscissaData = x;
            lp.Pen = new Pen( Color.Red );
            plotSurface.Add( lp );
            // axes
            // x axis
            LogAxis logax = new LogAxis( plotSurface.XAxis1 );
            logax.WorldMin = xmin;
            logax.WorldMax = xmax;
            logax.AxisColor = Color.Red;
            logax.LabelColor = Color.Red;
            logax.TickTextColor = Color.Red;
            logax.LargeTickStep = 1.0f;
            logax.Label = "x";
            plotSurface.XAxis1 = logax;
            // y axis
            LogAxis logay = new LogAxis( plotSurface.YAxis1 );
            logay.WorldMin = ymin;
            logay.WorldMax = ymax;
            logay.AxisColor = Color.Red;
            logay.LabelColor = Color.Red;
            logay.TickTextColor = Color.Red;
            logay.LargeTickStep = 1.0f;
            logay.Label = "x^2";
            plotSurface.YAxis1 = logay;

            LinePlot lp1 = new LinePlot();
            lp1.OrdinateData = y;
            lp1.AbscissaData = x;
            lp1.Pen = new Pen( Color.Blue );
            plotSurface.Add( lp1, PlotSurface2D.XAxisPosition.Top, PlotSurface2D.YAxisPosition.Right );
            // axes
            // x axis (lin)
            LinearAxis linx = (LinearAxis) plotSurface.XAxis2;
            linx.WorldMin = xmin;
            linx.WorldMax = xmax;
            linx.AxisColor = Color.Blue;
            linx.LabelColor = Color.Blue;
            linx.TickTextColor = Color.Blue;
            linx.Label = "x";
            plotSurface.XAxis2 = linx;
            // y axis (lin)
            LinearAxis liny = (LinearAxis) plotSurface.YAxis2;
            liny.WorldMin = ymin;
            liny.WorldMax = ymax;
            liny.AxisColor = Color.Blue;
            liny.LabelColor = Color.Blue;
            liny.TickTextColor = Color.Blue;
            liny.Label = "x^2";
            plotSurface.YAxis2 = liny;

            plotSurface.Title = "x^2 plotted with log(red)/linear(blue) axes";

            plotSurface.Refresh();
        }
Example #10
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();
            //plotSurface.DateTimeToolTip = true;

            // obtain stock information from xml file
            DataSet ds = new DataSet();
            System.IO.Stream file =
                Assembly.GetExecutingAssembly().GetManifestResourceStream("DemoLib.Resources.asx_jbh.xml");
            ds.ReadXml(file, System.Data.XmlReadMode.ReadSchema);
            DataTable dt = ds.Tables[0];
            DataView dv = new DataView(dt);

            // create CandlePlot.
            CandlePlot cp = new CandlePlot();
            cp.DataSource = dt;
            cp.AbscissaData = "Date";
            cp.OpenData = "Open";
            cp.LowData = "Low";
            cp.HighData = "High";
            cp.CloseData = "Close";
            cp.BearishColor = Color.Red;
            cp.BullishColor = Color.Green;
            cp.Style = CandlePlot.Styles.Filled;

            // calculate 10 day moving average and 2*sd line
            ArrayList av10 = new ArrayList();
            ArrayList sd2_10 = new ArrayList();
            ArrayList sd_2_10 = new ArrayList();
            ArrayList dates = new ArrayList();
            for (int i = 0; i < dt.Rows.Count - 10; ++i)
            {
                float sum = 0.0f;
                for (int j = 0; j < 10; ++j)
                {
                    sum += (float)dt.Rows[i + j]["Close"];
                }
                float average = sum / 10.0f;
                av10.Add(average);
                sum = 0.0f;
                for (int j = 0; j < 10; ++j)
                {
                    sum += ((float)dt.Rows[i + j]["Close"] - average) * ((float)dt.Rows[i + j]["Close"] - average);
                }
                sum /= 10.0f;
                sum = 2.0f * (float)Math.Sqrt(sum);
                sd2_10.Add(average + sum);
                sd_2_10.Add(average - sum);
                dates.Add((DateTime)dt.Rows[i + 10]["Date"]);
            }

            // and a line plot of close values.
            LinePlot av = new LinePlot();
            av.OrdinateData = av10;
            av.AbscissaData = dates;
            av.Color = Color.LightGray;
            av.Pen.Width = 2.0f;

            LinePlot top = new LinePlot();
            top.OrdinateData = sd2_10;
            top.AbscissaData = dates;
            top.Color = Color.LightSteelBlue;
            top.Pen.Width = 2.0f;

            LinePlot bottom = new LinePlot();
            bottom.OrdinateData = sd_2_10;
            bottom.AbscissaData = dates;
            bottom.Color = Color.LightSteelBlue;
            bottom.Pen.Width = 2.0f;

            FilledRegion fr = new FilledRegion(top, bottom);
            //fr.RectangleBrush = new RectangleBrushes.Vertical( Color.FloralWhite, Color.GhostWhite );
            fr.RectangleBrush = new RectangleBrushes.Vertical(Color.FromArgb(255, 255, 240), Color.FromArgb(240, 255, 255));
            plotSurface.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.AntiAlias;

            plotSurface.Add(fr);

            plotSurface.Add(new Grid());

            plotSurface.Add(av);
            plotSurface.Add(top);
            plotSurface.Add(bottom);
            plotSurface.Add(cp);

            // now make an arrow...
            ArrowItem arrow = new ArrowItem(new PointD(((DateTime)dt.Rows[60]["Date"]).Ticks, 2.28), -80, "An interesting flat bit");
            arrow.ArrowColor = Color.DarkBlue;
            arrow.PhysicalLength = 50;

            //plotSurface.Add( arrow );

            plotSurface.Title = "AU:JBH";
            plotSurface.XAxis1.Label = "Date / Time";
            plotSurface.XAxis1.WorldMin += plotSurface.XAxis1.WorldLength / 4.0;
            plotSurface.XAxis1.WorldMax -= plotSurface.XAxis1.WorldLength / 2.0;
            plotSurface.YAxis1.Label = "Price [$]";

            plotSurface.XAxis1 = new TradingDateTimeAxis(plotSurface.XAxis1);

            plotSurface.AddInteraction(new PlotDrag(true, true));
            plotSurface.AddInteraction(new AxisDrag());

            // make sure plot surface colors are as we expect - the wave example changes them.
            plotSurface.PlotBackColor = Color.White;
            plotSurface.XAxis1.Color = Color.Black;
            plotSurface.YAxis1.Color = Color.Black;

            plotSurface.Refresh();
        }
Example #11
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            // obtain stock information from xml file
            DataSet ds = new DataSet();
            System.IO.Stream file =
                Assembly.GetExecutingAssembly().GetManifestResourceStream("DemoLib.Resources.asx_jbh.xml");
            ds.ReadXml(file, System.Data.XmlReadMode.ReadSchema);
            DataTable dt = ds.Tables[0];

            // create CandlePlot.
            CandlePlot cp = new CandlePlot();
            cp.DataSource = dt;
            cp.AbscissaData = "Date";
            cp.OpenData = "Open";
            cp.LowData = "Low";
            cp.HighData = "High";
            cp.CloseData = "Close";
            cp.BearishColor = Color.Red;
            cp.BullishColor = Color.Green;
            cp.StickWidth = 3;
            cp.Color = Color.DarkBlue;

            plotSurface.Add(new Grid());
            plotSurface.Add(cp);

            plotSurface.Title = "AU:JBH";
            plotSurface.XAxis1.Label = "Date / Time";
            plotSurface.YAxis1.Label = "Price [$]";

            plotSurface.Refresh();
        }
Example #12
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            string myfile =
            "-1.251382E-3 -1.279191E-3 -7.230207E-4 -8.064462E-4 -5.005528E-4 -5.839783E-4 -1.696318E-3 -1.668509E-3 -3.893189E-4 -4.449358E-4 -1.473850E-3 -1.473850E-3 -1.974403E-3 -1.946594E-3 -2.085637E-3 -2.085637E-3 -1.612892E-3 -1.640701E-3 -1.863169E-3 " +
            "-1.251382E-3 -1.306999E-3 -6.674037E-4 -8.620631E-4 -4.449358E-4 -6.674037E-4 -1.668509E-4 -1.668509E-3 -3.615103E-4 -5.005528E-4 -5.561698E-5 -1.473850E-3 -4.449358E-4 -1.946594E-3 -6.395953E-4 -2.057828E-3 -1.585084E-3 -1.696318E-3 -1.807552E-3 " +
            "-1.223573E-3 -1.306999E-3 -6.117867E-4 -9.176802E-4 -3.893189E-4 -7.508292E-4 -1.390424E-4 -1.640701E-3 -3.615103E-4 -5.561698E-4 -5.561698E-5 -1.446041E-3 -4.449358E-4 -1.918786E-3 -6.117867E-4 -2.057828E-3 -1.585084E-3 -1.724126E-3 -1.779743E-3 " +
            "-1.251382E-3 -1.334807E-3 -5.839783E-4 -9.732971E-4 -3.615103E-4 -8.342547E-4 -1.390424E-4 3.893189E-4 1.751935E-3 2.919891E-3 3.476061E-3 3.031125E-3 1.807552E-3 6.674037E-4 -6.117867E-4 -2.030020E-3 -1.585084E-3 -1.779743E-3 -1.779743E-3 " +
            "-1.279191E-3 -1.362616E-3 -5.561698E-4 -1.028914E-3 -3.615103E-4 8.620631E-4 2.335913E-3 3.114551E-3 4.087848E-3 5.227996E-3 6.395952E-3 5.700740E-3 4.560592E-3 2.502764E-3 1.362616E-3 -6.117867E-4 -1.585084E-3 -1.807552E-3 -1.751935E-3 " +
            "-1.306999E-3 -1.390424E-3 -5.561698E-4 -1.056723E-3 1.890977E-3 4.087848E-3 6.117868E-3 9.621738E-3 1.357054E-2 1.721345E-2 1.715784E-2 1.462726E-2 1.059503E-2 6.368144E-3 3.253593E-3 1.279191E-3 6.674037E-4 -1.807552E-3 -1.779743E-3 " +
            "-1.390424E-3 -1.390424E-3 -5.561698E-4 1.585084E-3 4.560592E-3 8.481589E-3 1.437699E-2 2.155158E-2 2.702985E-2 3.078400E-2 3.134017E-2 2.892083E-2 2.338694E-2 1.446041E-2 6.757463E-3 3.031125E-3 6.674037E-4 -1.807552E-3 -1.807552E-3 " +
            "-1.446041E-3 -1.362616E-3 1.140148E-3 3.448253E-3 7.647335E-3 1.512782E-2 2.360941E-2 3.125674E-2 3.520555E-2 3.673501E-2 3.692967E-2 3.598418E-2 3.345361E-2 2.466613E-2 1.415452E-2 5.700740E-3 3.114551E-3 8.342547E-5 -1.835360E-3 " +
            "-1.529467E-3 -1.334807E-3 1.112340E-3 5.367038E-3 1.154052E-2 2.080075E-2 3.011659E-2 3.581733E-2 3.751365E-2 3.676282E-2 3.687406E-2 3.776393E-2 3.598418E-2 3.139579E-2 1.999430E-2 9.315844E-3 3.142359E-3 1.112340E-4 -1.863169E-3 " +
            "-1.640701E-3 -1.306999E-3 1.084531E-3 6.785271E-3 1.557275E-2 2.410996E-2 3.311991E-2 3.584514E-2 3.748584E-2 3.681844E-2 3.681844E-2 3.776393E-2 3.592857E-2 3.350923E-2 2.177405E-2 1.140148E-2 3.114551E-3 1.112340E-4 -1.890977E-3 " +
            "-1.696318E-3 -1.251382E-3 1.056723E-3 6.813080E-3 1.557275E-2 2.413777E-2 3.311991E-2 3.756927E-2 3.745804E-2 3.687406E-2 3.676282E-2 3.776393E-2 3.590076E-2 3.350923E-2 2.174624E-2 1.142929E-2 3.114551E-3 1.390424E-4 -1.918786E-3 " +
            "-1.779743E-3 -1.195765E-3 1.028914E-3 6.785271E-3 1.256944E-2 2.180186E-2 3.039468E-2 3.598418E-2 3.743023E-2 3.695748E-2 3.673501E-2 3.773612E-2 3.587295E-2 2.967166E-2 1.874292E-2 9.593928E-3 3.086742E-3 1.668509E-4 -1.918786E-3 " +
            "-1.863169E-3 -1.140148E-3 -1.362616E-3 3.058934E-3 7.285824E-3 1.532248E-2 2.472175E-2 3.195195E-2 3.478842E-2 3.701310E-2 3.670720E-2 3.545582E-2 3.220223E-2 2.333132E-2 1.354273E-2 5.978825E-3 1.279191E-3 1.668509E-4 -1.918786E-3 " +
            "-1.918786E-3 -1.084531E-3 -1.390424E-3 6.674037E-4 3.448253E-3 7.563909E-3 1.596207E-2 2.394311E-2 2.875398E-2 3.103427E-2 3.181291E-2 2.972727E-2 2.363721E-2 1.543371E-2 9.176801E-3 5.978825E-3 1.251382E-3 1.668509E-4 -1.890977E-3 " +
            "-1.974403E-3 -1.056723E-3 -1.390424E-3 6.674037E-4 1.362616E-3 3.781955E-3 8.036654E-3 1.304218E-2 1.824237E-2 2.127349E-2 2.174624E-2 1.963279E-2 1.573960E-2 1.148491E-2 7.341441E-3 3.197976E-3 -1.446041E-3 -1.557275E-3 -1.835360E-3 " +
            "-2.030020E-3 -1.056723E-3 -1.334807E-3 -1.084531E-3 -1.279191E-3 1.001106E-3 3.948805E-3 6.674037E-3 9.983247E-3 1.243039E-2 1.426576E-2 1.454384E-2 1.184642E-2 8.787482E-3 4.504975E-3 6.952122E-4 -1.418233E-3 -1.557275E-3 -1.779743E-3 " +
            "-2.057828E-3 -1.056723E-3 -1.306999E-3 -1.084531E-3 -1.251382E-3 -7.786377E-4 6.395953E-4 2.586189E-3 4.254699E-3 6.117868E-3 7.619526E-3 7.508292E-3 5.951017E-3 3.003317E-3 -9.176802E-4 -1.195765E-3 -1.362616E-3 -1.557275E-3 -1.751935E-3 " +
            "-2.085637E-3 -1.084531E-3 -1.251382E-3 -1.112340E-3 -1.223573E-3 -7.786377E-4 -8.620631E-4 -3.893189E-4 -4.449358E-4 3.337019E-4 1.167957E-3 9.454886E-4 3.893189E-4 -8.342547E-4 -9.176802E-4 -1.195765E-3 -1.306999E-3 -1.585084E-3 -1.696318E-3 " +
            "-2.113445E-3 -1.140148E-3 -1.195765E-3 -1.140148E-3 -1.167957E-3 -7.786377E-4 -8.342547E-4 -3.893189E-4 -4.171273E-4 -1.279191E-3 -1.251382E-3 -1.195765E-3 -1.195765E-3 -8.342547E-4 -8.620631E-4 -1.223573E-3 -1.251382E-3 -1.612892E-3 -1.668509E-3";
            string[] tokens = myfile.Split(new char[1] { ' ' });
            double[,] map = new double[19, 19];
            for (int i = 0; i < 19; ++i)
            {
                for (int j = 0; j < 19; ++j)
                {
                    map[i, j] = Convert.ToDouble(tokens[i * 19 + j], new
                        System.Globalization.CultureInfo("en-US"));
                }
            }

            plotSurface.Clear();

            plotSurface.Title = "Cathode 11.2 QE Map";

            ImagePlot ip = new ImagePlot(map, -9.0f, 1.0f, -9.0f, 1.0f);
            //ip.Gradient = new StepGradient( StepGradient.Type.Rainbow );
            ip.Gradient = new LinearGradient(Color.Gold, Color.Black);

            plotSurface.Add(ip);
            plotSurface.XAxis1.Label = "x [mm]";
            plotSurface.YAxis1.Label = "y [mm]";

            plotSurface.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.None;

            //plotSurface.AddAxesConstraint( new AxesConstraint.AxisPosition( PlotSurface2D.YAxisPosition.Left, 0) );
            //plotSurface.AddAxesConstraint( new AxesConstraint.AxisPosition( PlotSurface2D.XAxisPosition.Top, 0.0f) );
            //plotSurface.AddAxesConstraint(
            //	new AxesConstraint.YPixelWorldLength(0.1f,PlotSurface2D.XAxisPosition.Bottom) );
            //plotSurface.AddAxesConstraint( new AxesConstraint.AspectRatio(1.0,PlotSurface2D.XAxisPosition.Top,PlotSurface2D.YAxisPosition.Left) );

            plotSurface.AddInteraction(new PlotSelection());

            plotSurface.Refresh();
        }
Example #13
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            // can plot different types.
            ArrayList l = new ArrayList();
            l.Add((int)2);
            l.Add((double)1.0);
            l.Add((float)3.0);
            l.Add((int)5.0);

            LinePlot lp1 = new LinePlot(new double[] { 4.0, 3.0, 5.0, 8.0 });
            lp1.Pen = new Pen(Color.LightBlue);
            lp1.Pen.Width = 2.0f;

            //lp.AbscissaData = new StartStep( 0.0, 2.0 );

            LinePlot lp2 = new LinePlot(new double[] { 2.0, 1.0, 4.0, 5.0 });
            lp2.Pen = new Pen(Color.LightBlue);
            lp2.Pen.Width = 2.0f;

            FilledRegion fr = new FilledRegion(lp1, lp2);

            plotSurface.Add(fr);

            plotSurface.Add(new Grid());
            plotSurface.Add(lp1);
            plotSurface.Add(lp2);

            ArrowItem a = new ArrowItem(new PointD(2, 4), -50.0f, "Arrow");
            a.HeadOffset = 5;
            a.ArrowColor = Color.Red;
            a.TextColor = Color.Purple;
            plotSurface.Add(a);

            MarkerItem m = new MarkerItem(new Marker(Marker.MarkerType.TriangleDown, 8, Color.ForestGreen), 1.38, 2.9);
            plotSurface.Add(m);

            plotSurface.XAxis1.TicksCrossAxis = true;

            ((LinearAxis)plotSurface.XAxis1).LargeTickValue = -4.1;
            ((LinearAxis)plotSurface.XAxis1).AutoScaleText = true;
            ((LinearAxis)plotSurface.XAxis1).TicksIndependentOfPhysicalExtent = true;
            //plotSurface.XAxis1.Label = "Hello world";

            plotSurface.Refresh();

            /*
            plotSurface.AutoScaleTitle = false;
            plotSurface.AutoScaleAutoGeneratedAxes = true;

            plotSurface.Title = "My Title";

            double[] a = { 0, 2, 1, 4, double.NaN, double.NaN, 5, 8, 7, 9 };
            LinePlot lp = new LinePlot();
            lp.DataSource = a;
            lp.Label = "My Label";

            plotSurface.Add( lp );

            plotSurface.Legend = new Legend();
            plotSurface.Legend.AutoScaleText = false;
            plotSurface.Legend.NeverShiftAxes = true;
            plotSurface.Legend.HorizontalEdgePlacement = Legend.Placement.Inside;
            plotSurface.Legend.VerticalEdgePlacement = Legend.Placement.Inside;
            plotSurface.Legend.XOffset = -10;
            plotSurface.Legend.YOffset = 10;
            //plotSurface.AddAxesConstraint( new AxesConstraint.EqualSpacing() );

            ((LinearAxis)plotSurface.XAxis1).Offset = 10.0;
            ((LinearAxis)plotSurface.XAxis1).Scale = 27.0;
            //((LinearAxis)plotSurface.XAxis1).TicksIndependentOfPhysicalExtent = true;
            //((LinearAxis)plotSurface.YAxis1).TicksIndependentOfPhysicalExtent = true;

            AxesConstraint.AxisPosition c1 =
                new Florence.AxesConstraint.AxisPosition( PlotSurface2D.YAxisPosition.Left, 100.0f );

            AxesConstraint.AspectRatio c2 =
                new AxesConstraint.AspectRatio( 5.0f, PlotSurface2D.YAxisPosition.Left );

            plotSurface.AddAxesConstraint( c1 );
            plotSurface.AddAxesConstraint( c2 );

            plotSurface.Refresh();
            */
        }
Example #14
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            this.plotSurface = plotSurface;

            this.Timer = new System.Timers.Timer();
            this.Timer.Interval = 500;
            this.Timer.Elapsed += new ElapsedEventHandler(Timer_Elapsed);
            this.Timer.Enabled = true;
            plotSurface.Clear();

            int len = 24;
            string[] s = new string[len];
            PlotQEExampleValues = new double[len];
            PlotQEExampleTextValues = new string[len];

            Random r = new Random();

            for (int i = 0; i < len; i++)
            {
                PlotQEExampleValues[i] = 8.0f + 12.0f * (double)r.Next(10000) / 10000.0f;
                if (PlotQEExampleValues[i] > 18.0f)
                {
                    PlotQEExampleTextValues[i] = "KCsTe";
                }
                else
                {
                    PlotQEExampleTextValues[i] = "";
                }
                s[i] = i.ToString("00") + ".1";
            }

            PointPlot pp = new PointPlot();
            pp.DataSource = PlotQEExampleValues;
            pp.Marker = new Marker(Marker.MarkerType.Square, 10);
            pp.Marker.DropLine = true;
            pp.Marker.Pen = Pens.CornflowerBlue;
            pp.Marker.Filled = false;
            plotSurface.Add(pp);

            LabelPointPlot tp1 = new LabelPointPlot();
            tp1.DataSource = PlotQEExampleValues;
            tp1.TextData = PlotQEExampleTextValues;
            tp1.LabelTextPosition = LabelPointPlot.LabelPositions.Above;
            tp1.Marker = new Marker(Marker.MarkerType.None, 10);
            plotSurface.Add(tp1);

            LabelAxis la = new LabelAxis(plotSurface.XAxis1);
            for (int i = 0; i < len; ++i)
            {
                la.AddLabel(s[i], i);
            }
            FontFamily ff = new FontFamily("Verdana");
            la.TickTextFont = new Font(ff, 7);
            la.PhysicalSpacingMin = 25;
            plotSurface.XAxis1 = la;

            plotSurface.Title = "Cs2Te Photocathode QE evolution";
            plotSurface.TitleFont = new Font(ff, 15);
            plotSurface.XAxis1.WorldMin = -1.0f;
            plotSurface.XAxis1.WorldMax = len;
            plotSurface.XAxis1.LabelFont = new Font(ff, 10);
            plotSurface.XAxis1.Label = "Cathode ID";
            plotSurface.YAxis1.Label = "QE [%]";
            plotSurface.YAxis1.LabelFont = new Font(ff, 10);
            plotSurface.YAxis1.TickTextFont = new Font(ff, 10);

            plotSurface.YAxis1.WorldMin = 0.0;
            plotSurface.YAxis1.WorldMax = 25.0;

            plotSurface.XAxis1.TicksLabelAngle = 60.0f;

            plotSurface.Refresh();
        }
Example #15
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            // Create a new line plot from array data via the ArrayAdapter class.
            LinePlot lp = new LinePlot();
            lp.DataSource = makeDaub(256);
            lp.Color = Color.Green;
            lp.Label = "Daubechies Wavelet"; // no legend, but still useful for copy data to clipboard.

            Grid myGrid = new Grid();
            myGrid.VerticalGridType = Grid.GridType.Fine;
            myGrid.HorizontalGridType = Grid.GridType.Coarse;
            plotSurface.Add(myGrid);

            // And add it to the plot surface
            plotSurface.Add(lp);
            plotSurface.Title = "Reversed / Upside down Daubechies Wavelet";

            // Ok, the above will produce a decent default plot, but we would like to change
            // some of the Y Axis details. First, we'd like lots of small ticks (10) between
            // large tick values. Secondly, we'd like to draw a grid for the Y values. To do
            // this, we create a new LinearAxis (we could also use Label, Log etc). Rather than
            // starting from scratch, we use the constructor that takes an existing axis and
            // clones it (values in the superclass Axis only are cloned). PlotSurface2D
            // automatically determines a suitable axis when we add plots to it (merging
            // current requirements with old requirements), and we use this as our starting
            // point. Because we didn't specify which Y Axis we are using when we added the
            // above line plot (there is one on the left - YAxis1 and one on the right - YAxis2)
            // PlotSurface2D.Add assumed we were using YAxis1. So, we create a new axis based on
            // YAxis1, update the details we want, then set the YAxis1 to be our updated one.
            LinearAxis myAxis = new LinearAxis(plotSurface.YAxis1);
            myAxis.NumberOfSmallTicks = 2;
            plotSurface.YAxis1 = myAxis;

            // We would also like to modify the way in which the X Axis is printed. This time,
            // we'll just modify the relevant PlotSurface2D Axis directly.
            plotSurface.XAxis1.WorldMax = 100.0f;

            plotSurface.PlotBackColor = Color.OldLace;
            plotSurface.XAxis1.Reversed = true;
            plotSurface.YAxis1.Reversed = true;

            // Force a re-draw of the control.
            plotSurface.Refresh();
        }
Example #16
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            // draw a fine grid.
            Grid fineGrid = new Grid();
            fineGrid.VerticalGridType = Grid.GridType.Fine;
            fineGrid.HorizontalGridType = Grid.GridType.Fine;
            plotSurface.Add(fineGrid);

            const int npt = 101;
            float[] x = new float[npt];
            float[] y = new float[npt];
            float step = 0.1f;
            for (int i = 0; i < npt; ++i)
            {
                x[i] = i * step - 5.0f;
                y[i] = (float)Math.Pow(10.0, x[i]);
            }
            float xmin = x[0];
            float xmax = x[npt - 1];
            float ymin = (float)Math.Pow(10.0, xmin);
            float ymax = (float)Math.Pow(10.0, xmax);

            LinePlot lp = new LinePlot();
            lp.OrdinateData = y;
            lp.AbscissaData = x;
            lp.Pen = new Pen(Color.Red);
            plotSurface.Add(lp);

            LogAxis loga = new LogAxis(plotSurface.YAxis1);
            loga.WorldMin = ymin;
            loga.WorldMax = ymax;
            loga.AxisColor = Color.Red;
            loga.LabelColor = Color.Red;
            loga.TickTextColor = Color.Red;
            loga.LargeTickStep = 1.0f;
            loga.Label = "10^x";
            plotSurface.YAxis1 = loga;

            LinePlot lp1 = new LinePlot();
            lp1.OrdinateData = y;
            lp1.AbscissaData = x;
            lp1.Pen = new Pen(Color.Blue);
            plotSurface.Add(lp1, PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Right);
            LinearAxis lin = new LinearAxis(plotSurface.YAxis2);
            lin.WorldMin = ymin;
            lin.WorldMax = ymax;
            lin.AxisColor = Color.Blue;
            lin.LabelColor = Color.Blue;
            lin.TickTextColor = Color.Blue;
            lin.Label = "10^x";
            plotSurface.YAxis2 = lin;

            LinearAxis lx = (LinearAxis)plotSurface.XAxis1;
            lx.WorldMin = xmin;
            lx.WorldMax = xmax;
            lx.Label = "x";

            //((LogAxis)plotSurface.YAxis1).LargeTickStep = 2;

            plotSurface.Title = "Mixed Linear/Log Axes";

            //plotSurface.XAxis1.LabelOffset = 20.0f;

            plotSurface.Refresh();
        }
Example #17
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            Grid mygrid = new Grid();
            mygrid.VerticalGridType = Grid.GridType.Coarse;
            Pen majorGridPen = new Pen( Color.LightGray );
            float[] pattern = { 1.0f, 2.0f };
            majorGridPen.DashPattern = pattern;
            mygrid.MajorGridPen = majorGridPen;
            plotSurface.Add( mygrid );

            float[] xs = {20.0f, 31.0f, 27.0f, 38.0f, 24.0f, 3.0f, 2.0f };
            float[] xs2 = {7.0f, 10.0f, 42.0f, 9.0f, 2.0f, 79.0f, 70.0f };
            float[] xs3 = {1.0f, 20.0f, 20.0f, 25.0f, 10.0f, 30.0f, 30.0f };

            HistogramPlot hp = new HistogramPlot();
            hp.DataSource = xs;
            hp.BaseWidth = 0.6f;
            hp.RectangleBrush =
                new RectangleBrushes.HorizontalCenterFade( Color.FromArgb(255,255,200), Color.White );
            hp.Filled = true;
            hp.Label = "Developer Work";

            HistogramPlot hp2 = new HistogramPlot();
            hp2.DataSource = xs2;
            hp2.Label = "Web Browsing";
            hp2.RectangleBrush = RectangleBrushes.Horizontal.FaintGreenFade;
            hp2.Filled = true;
            hp2.StackedTo( hp );

            HistogramPlot hp3 = new HistogramPlot();
            hp3.DataSource = xs3;
            hp3.Label = "P2P Downloads";
            hp3.RectangleBrush = RectangleBrushes.Vertical.FaintBlueFade;
            hp3.Filled = true;
            hp3.StackedTo( hp2 );

            plotSurface.Add( hp );
            plotSurface.Add( hp2 );
            plotSurface.Add( hp3 );

            plotSurface.Legend = new Legend();

            LabelAxis la = new LabelAxis( plotSurface.XAxis1 );
            la.AddLabel( "Monday", 0.0f );
            la.AddLabel( "Tuesday", 1.0f );
            la.AddLabel( "Wednesday", 2.0f );
            la.AddLabel( "Thursday", 3.0f );
            la.AddLabel( "Friday", 4.0f );
            la.AddLabel( "Saturday", 5.0f );
            la.AddLabel( "Sunday", 6.0f );
            la.Label = "Days";
            la.TickTextFont = new Font( "Courier New", 8 );
            la.TicksBetweenText = true;

            plotSurface.XAxis1 = la;
            plotSurface.YAxis1.WorldMin = 0.0;
            plotSurface.YAxis1.Label = "MBytes";
            ((LinearAxis)plotSurface.YAxis1).NumberOfSmallTicks = 1;

            plotSurface.Title = "Internet useage for user:\n johnc 09/01/03 - 09/07/03";

            plotSurface.XAxis1.TicksLabelAngle = 30.0f;

            plotSurface.PlotBackBrush = RectangleBrushes.Vertical.FaintRedFade;
            plotSurface.Refresh();
        }
Example #18
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();
            plotSurface.Add(new HorizontalLine(0.0, Color.LightGray));
            plotSurface.Add(new VerticalLine(0.0, Color.LightGray));

            const int N = 400;
            const double start = -Math.PI * 7.0;
            const double end = Math.PI * 7.0;

            double[] xs = new double[N];
            double[] ys = new double[N];

            for (int i = 0; i < N; ++i)
            {
                double t = ((double)i * (end - start) / (double)N + start);
                xs[i] = 0.5 * (t - 2.0 * Math.Sin(t));
                ys[i] = 2.0 * (1.0 - 2.0 * Math.Cos(t));
            }

            LinePlot lp = new LinePlot(ys, xs);
            lp.Pen = new Pen(Color.DarkBlue, 2.0f);
            lp.Label = "Circular Line"; // no legend, but still useful for copy data to clipboard.
            plotSurface.Add(lp);

            plotSurface.XAxis1 = new PiAxis(plotSurface.XAxis1);

            plotSurface.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.AntiAlias;

            plotSurface.Legend = new Legend();
            plotSurface.Legend.AttachTo(PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Right);
            plotSurface.Legend.HorizontalEdgePlacement = Legend.Placement.Inside;
            plotSurface.Legend.VerticalEdgePlacement = Legend.Placement.Inside;
            plotSurface.Legend.XOffset = -10;
            plotSurface.Legend.YOffset = -10;

            plotSurface.Refresh();
        }
Example #19
0
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            //FileStream fs = new FileStream( @"c:\light.wav", System.IO.FileMode.Open );
            System.IO.Stream file =
                Assembly.GetExecutingAssembly().GetManifestResourceStream("DemoLib.Resources.light.wav");

            System.Int16[] w = new short[5000];
            byte[] a = new byte[10000];
            file.Read(a, 0, 10000);
            for (int i = 100; i < 5000; ++i)
            {
                w[i] = BitConverter.ToInt16(a, i * 2);
            }

            file.Close();

            plotSurface.Clear();
            plotSurface.AddInteraction(new VerticalGuideline(Color.Gray));
            plotSurface.AddInteraction(new HorizontalGuideline(Color.Gray));
            plotSurface.AddInteraction(new PlotDrag(true, true));
            plotSurface.AddInteraction(new AxisDrag());

            plotSurface.Add(new HorizontalLine(0.0, Color.LightBlue));

            StepPlot sp = new StepPlot();
            sp.DataSource = w;
            sp.Color = Color.Yellow;
            sp.Center = true;
            plotSurface.Add(sp);

            plotSurface.YAxis1.FlipTicksLabel = true;

            plotSurface.OuterBackColor = Color.Black;
            plotSurface.PlotBackColor = Color.DarkBlue;
            plotSurface.XAxis1.Color = Color.White;
            plotSurface.YAxis1.Color = Color.White;

            plotSurface.Refresh();
        }
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear(); // clear everything. reset fonts. remove plot components etc.

            System.Random r = new Random();
            double[] a = new double[100];
            double[] b = new double[100];
            double mult = 0.00001f;
            for (int i = 0; i < 100; ++i)
            {
                a[i] = ((double)r.Next(1000) / 5000.0f - 0.1f) * mult;
                if (i == 50) { b[i] = 1.0f * mult; }
                else
                {
                    b[i] = (double)Math.Sin((((double)i - 50.0f) / 4.0f)) / (((double)i - 50.0f) / 4.0f);
                    b[i] *= mult;
                }
                a[i] += b[i];
            }

            Marker m = new Marker(Marker.MarkerType.Cross1, 6, new Pen(Color.Blue, 2.0F));
            PointPlot pp = new PointPlot(m);
            pp.OrdinateData = a;
            pp.AbscissaData = new StartStep(-500.0, 10.0);
            pp.Label = "Random";
            plotSurface.Add(pp);

            LinePlot lp = new LinePlot();
            lp.OrdinateData = b;
            lp.AbscissaData = new StartStep(-500.0, 10.0);
            lp.Pen = new Pen(Color.Red, 2.0f);
            plotSurface.Add(lp);

            plotSurface.Title = "Sinc Function";
            plotSurface.YAxis1.Label = "Magnitude";
            plotSurface.XAxis1.Label = "Position";

            Legend legend = new Legend();
            legend.AttachTo(PlotSurface2D.XAxisPosition.Top, PlotSurface2D.YAxisPosition.Left);
            legend.VerticalEdgePlacement = Legend.Placement.Inside;
            legend.HorizontalEdgePlacement = Legend.Placement.Inside;
            legend.YOffset = 8;

            plotSurface.Legend = legend;
            plotSurface.LegendZOrder = 1; // default zorder for adding idrawables is 0, so this puts legend on top.

            plotSurface.Refresh();
        }
        public void CreatePlot(InteractivePlotSurface2D plotSurface)
        {
            plotSurface.Clear();

            Grid mygrid = new Grid();
            mygrid.HorizontalGridType = Grid.GridType.Fine;
            mygrid.VerticalGridType = Grid.GridType.Fine;
            plotSurface.Add(mygrid);

            // in this example we synthetize a particle distribution
            // in the x-x' phase space and plot it, with the rms Twiss
            // ellipse and desnity distribution
            const int Particle_Number = 500;
            float[] x = new float[Particle_Number];
            float[] y = new float[Particle_Number];
            // Twiss parameters for the beam ellipse
            // 5 mm mrad max emittance, 1 mm beta function
            float alpha, beta, gamma, emit;
            alpha = -2.0f;
            beta = 1.0f;
            gamma = (1.0f + alpha * alpha) / beta;
            emit = 4.0f;

            float da, xmax, xpmax;
            da = -alpha / gamma;
            xmax = (float)Math.Sqrt(emit / gamma);
            xpmax = (float)Math.Sqrt(emit * gamma);

            Random rand = new Random();

            // cheap randomizer on the unit circle
            for (int i = 0; i < Particle_Number; i++)
            {
                float r;
                do
                {
                    x[i] = (float)(2.0f * rand.NextDouble() - 1.0f);
                    y[i] = (float)(2.0f * rand.NextDouble() - 1.0f);
                    r = (float)Math.Sqrt(x[i] * x[i] + y[i] * y[i]);
                } while (r > 1.0f);
            }

            // transform to the tilted twiss ellipse
            for (int i = 0; i < Particle_Number; ++i)
            {
                y[i] *= xpmax;
                x[i] = x[i] * xmax + y[i] * da;
            }
            plotSurface.Title = "Beam Horizontal Phase Space and Twiss ellipse";

            PointPlot pp = new PointPlot();
            pp.OrdinateData = y;
            pp.AbscissaData = x;
            pp.Marker = new Marker(Marker.MarkerType.FilledCircle, 4, new Pen(Color.Blue));
            plotSurface.Add(pp, PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Left);

            // set axes
            LinearAxis lx = (LinearAxis)plotSurface.XAxis1;
            lx.Label = "Position - x [mm]";
            lx.NumberOfSmallTicks = 2;
            LinearAxis ly = (LinearAxis)plotSurface.YAxis1;
            ly.Label = "Divergence - x' [mrad]";
            ly.NumberOfSmallTicks = 2;

            // Draws the rms Twiss ellipse computed from the random data
            float[] xeli = new float[40];
            float[] yeli = new float[40];

            float a_rms, b_rms, g_rms, e_rms;

            Twiss(x, y, out a_rms, out b_rms, out g_rms, out e_rms);
            TwissEllipse(a_rms, b_rms, g_rms, e_rms, ref xeli, ref yeli);

            LinePlot lp = new LinePlot();
            lp.OrdinateData = yeli;
            lp.AbscissaData = xeli;
            plotSurface.Add(lp, PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Left);
            lp.Pen = new Pen(Color.Red, 2.0f);
            // Draws the ellipse containing 100% of the particles
            // for a uniform distribution in 2D the area is 4 times the rms
            float[] xeli2 = new float[40];
            float[] yeli2 = new float[40];
            TwissEllipse(a_rms, b_rms, g_rms, 4.0F * e_rms, ref xeli2, ref yeli2);

            LinePlot lp2 = new LinePlot();
            lp2.OrdinateData = yeli2;
            lp2.AbscissaData = xeli2;
            plotSurface.Add(lp2, PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Left);
            Pen p2 = new Pen(Color.Red, 2.0f);
            float[] pattern = { 5.0f, 40.0f };
            p2.DashPattern = pattern;
            lp2.Pen = p2;

            // now bin the particle position to create beam density histogram
            float range, min, max;
            min = (float)lx.WorldMin;
            max = (float)lx.WorldMax;
            range = max - min;

            const int Nbin = 30;
            float dx = range / Nbin;
            float[] xbin = new float[Nbin + 1];
            float[] xh = new float[Nbin + 1];

            for (int j = 0; j <= Nbin; ++j)
            {
                xbin[j] = min + j * range;
                if (j < Nbin) xh[j] = 0.0F;
            }
            for (int i = 0; i < Particle_Number; ++i)
            {
                if (x[i] >= min && x[i] <= max)
                {
                    int j;
                    j = Convert.ToInt32(Nbin * (x[i] - min) / range);
                    xh[j] += 1;
                }
            }
            StepPlot sp = new StepPlot();
            sp.OrdinateData = xh;
            sp.AbscissaData = new StartStep(min, range / Nbin);
            sp.Center = true;
            plotSurface.Add(sp, PlotSurface2D.XAxisPosition.Bottom, PlotSurface2D.YAxisPosition.Right);
            // axis formatting
            LinearAxis ly2 = (LinearAxis)plotSurface.YAxis2;
            ly2.WorldMin = 0.0f;
            ly2.Label = "Beam Density [a.u.]";
            ly2.NumberOfSmallTicks = 2;
            sp.Pen = new Pen(Color.Green, 2);

            // Finally, refreshes the plot
            plotSurface.Refresh();
        }