//Main code for creating chart. //Note: the argument chartIndex is unused because this demo only has 1 chart. public void createChart(WPFChartViewer viewer, int chartIndex) { // Coordinates of the starting points of the vectors double[] radius = { 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25 }; double[] angle = { 0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90, 120, 150, 180, 210,240, 270, 300, 330, 0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90,120, 150, 180, 210, 240, 270, 300, 330 }; // Magnitude and direction of the vectors double[] magnitude = { 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; double[] direction = { 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90, 120, 150,180, 210, 240, 270, 300, 330, 0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330, 0, 30, 60, 90,120, 150, 180, 210, 240, 270, 300, 330, 0, 30 }; // Create a PolarChart object of size 460 x 460 pixels PolarChart c = new PolarChart(460, 460); // Add a title to the chart at the top left corner using 15pt Arial Bold Italic font c.addTitle("Polar Vector Chart Demonstration", "Arial Bold Italic", 15); // Set center of plot area at (230, 240) with radius 180 pixels c.setPlotArea(230, 240, 180); // Set the grid style to circular grid c.setGridStyle(false); // Set angular axis as 0 - 360, with a spoke every 30 units c.angularAxis().setLinearScale(0, 360, 30); // Add a polar vector layer to the chart with blue (0000ff) vectors c.addVectorLayer(radius, angle, magnitude, direction, Chart.RadialAxisScale, 0x0000ff); // Output the chart viewer.Chart = c; //include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='Vector at ({value}, {angle} deg): Length = {len}, Angle = {dir} deg'"); }
/// <summary> /// Initializes a new instance of the <see cref="View"/> class. /// </summary> public View() { InitializeComponent(); Size = new System.Drawing.Size(50, 50); var viewModel = new ViewModel(); var polarChart = new PolarChart { Series = viewModel.Series, // out of livecharts properties... Location = new System.Drawing.Point(0, 0), Size = new System.Drawing.Size(50, 50), Anchor = AnchorStyles.Left | AnchorStyles.Right | AnchorStyles.Top | AnchorStyles.Bottom }; Controls.Add(polarChart); }
public void CreateChart(WinChartViewer viewer, GameCategoriesModel vModel) { // The data for the chart double[] data = { vModel.Card, vModel.Arcade, vModel.Matching, vModel.Action, vModel.Strategy, vModel.Word, vModel.Puzzles, vModel.Crossword, vModel.MeTVGames, vModel.Quizzes, vModel.Casino, vModel.BrainGames, vModel.Puzzle, vModel.Solitaire }; // The labels for the chart string[] labels = { "Card", "Arcade", "Matching", "Action", "Strategy", "Word", "Puzzles", "Crossword", "MeTVGames", "Quizzes", "Casino", "BrainGames", "Puzzle", "Solitaire" }; // Create a PolarChart object of size 450 x 350 pixels PolarChart c = new PolarChart(347, 238); // Set center of plot area at (225, 185) with radius 150 pixels c.setPlotArea(173, 115, 80); // Add an area layer to the polar chart c.addAreaLayer(data, 0x9999ff); // Set the labels to the angular axis as spokes c.angularAxis().setLabels(labels); // Output the chart viewer.Chart = c; //include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='{label}: score = {value}'"); }
//Main code for creating chart. //Note: the argument img is unused because this demo only has 1 chart. public void createChart(WinChartViewer viewer, string img) { // Data for the chart double[] data = { 9.4, 1.8, 2.1, 2.3, 3.5, 7.7, 8.8, 6.1, 5.0, 3.1, 6.0, 4.3, 5.1, 2.6, 1.5, 2.2, 5.1, 4.3, 4.0, 9.0, 1.7, 8.8, 9.9, 9.5 }; double[] angles = { 0, 15, 30, 45, 60, 75, 90, 105, 120, 135, 150, 165, 180, 195, 210, 225, 240, 255, 270, 285, 300, 315, 330, 345 }; // Create a PolarChart object of size 460 x 460 pixels, with a silver // background and a 1 pixel 3D border PolarChart c = new PolarChart(460, 460, Chart.silverColor(), 0x000000, 1) ; // Add a title to the chart at the top left corner using 15pts Arial Bold // Italic font. Use white text on deep blue background. c.addTitle("Polar Vector Chart Demonstration", "Arial Bold Italic", 15, 0xffffff).setBackground(0x000080); // Set plot area center at (230, 240) with radius 180 pixels and white // background c.setPlotArea(230, 240, 180, 0xffffff); // Set the grid style to circular grid c.setGridStyle(false); // Set angular axis as 0 - 360, with a spoke every 30 units c.angularAxis().setLinearScale(0, 360, 30); // Add sectors to the chart as sector zones for (int i = 0; i < data.Length; ++i) { c.angularAxis().addZone(angles[i], angles[i] + 15, 0, data[i], 0x33ff33, 0x008000); } // Add an Transparent invisible layer to ensure the axis is auto-scaled // using the data c.addLineLayer(data, Chart.Transparent); // Output the chart viewer.Image = c.makeImage(); }
/// <summary> /// Initializes a new instance of the <see cref="SKPolarChart"/> class. /// </summary> public SKPolarChart() { if (!LiveCharts.IsConfigured) { LiveCharts.Configure(LiveChartsSkiaSharp.DefaultPlatformBuilder); } var stylesBuilder = LiveCharts.CurrentSettings.GetTheme <SkiaSharpDrawingContext>(); var initializer = stylesBuilder.GetVisualsInitializer(); if (stylesBuilder.CurrentColors is null || stylesBuilder.CurrentColors.Length == 0) { throw new Exception("Default colors are not valid"); } initializer.ApplyStyleToChart(this); Core = new PolarChart <SkiaSharpDrawingContext>(this, LiveChartsSkiaSharp.DefaultPlatformBuilder, CoreCanvas); Core.Measuring += OnCoreMeasuring; Core.UpdateStarted += OnCoreUpdateStarted; Core.UpdateFinished += OnCoreUpdateFinished; }
// // Create chart // private void createChart(RazorChartViewer viewer) { // The data for the chart double[] data0 = { 90, 25, 40, 55, 68, 44, 79, 85, 50 }; double[] angles0 = { 15, 60, 110, 180, 230, 260, 260, 310, 340 }; double[] data1 = { 80, 91, 66, 80, 92, 87 }; double[] angles1 = { 40, 65, 88, 110, 150, 200 }; // Create a PolarChart object of size 460 x 500 pixels, with a grey (e0e0e0) background and 1 // pixel 3D border PolarChart c = new PolarChart(460, 500, 0xe0e0e0, 0x000000, 1); // Add a title to the chart at the top left corner using 15pt Arial Bold Italic font. Use a // wood pattern as the title background. c.addTitle("Polar Line Chart Demo", "Arial Bold Italic", 15).setBackground(c.patternColor( Url.Content("~/Content/wood.png"))); // Set center of plot area at (230, 280) with radius 180 pixels, and white (ffffff) // background. c.setPlotArea(230, 280, 180, 0xffffff); // Set the grid style to circular grid, with grids below the chart layers c.setGridStyle(false, false); // Add a legend box at top-center of plot area (230, 35) using horizontal layout. Use 10pt // Arial Bold font, with 1 pixel 3D border effect. LegendBox b = c.addLegend(230, 35, false, "Arial Bold", 9); b.setAlignment(Chart.TopCenter); b.setBackground(Chart.Transparent, Chart.Transparent, 1); // Set angular axis as 0 - 360, with a spoke every 30 units c.angularAxis().setLinearScale(0, 360, 30); // Add a blue (0xff) line layer to the chart using (data0, angle0) PolarLineLayer layer0 = c.addLineLayer(data0, 0x0000ff, "Close Loop Line"); layer0.setAngles(angles0); // Set the line width to 2 pixels layer0.setLineWidth(2); // Use 11 pixel triangle symbols for the data points layer0.setDataSymbol(Chart.TriangleSymbol, 11); // Enable data label and set its format layer0.setDataLabelFormat("({value},{angle})"); // Set the data label text box with light blue (0x9999ff) backgruond color and 1 pixel 3D // border effect layer0.setDataLabelStyle().setBackground(0x9999ff, Chart.Transparent, 1); // Add a red (0xff0000) line layer to the chart using (data1, angle1) PolarLineLayer layer1 = c.addLineLayer(data1, 0xff0000, "Open Loop Line"); layer1.setAngles(angles1); // Set the line width to 2 pixels layer1.setLineWidth(2); // Use 11 pixel diamond symbols for the data points layer1.setDataSymbol(Chart.DiamondSymbol, 11); // Set the line to open loop layer1.setCloseLoop(false); // Enable data label and set its format layer1.setDataLabelFormat("({value},{angle})"); // Set the data label text box with light red (0xff9999) backgruond color and 1 pixel 3D // border effect layer1.setDataLabelStyle().setBackground(0xff9999, Chart.Transparent, 1); // Output the chart viewer.Image = c.makeWebImage(Chart.PNG); // Include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("", "", "title='[{dataSetName}] ({radius}, {angle})'"); }
//Main code for creating chart. //Note: the argument chartIndex is unused because this demo only has 1 chart. public void createChart(WinChartViewer viewer, int chartIndex) { // The data for the chart double[] data0 = { 6, 12.5, 18.2, 15 }; double[] angles0 = { 45, 96, 169, 258 }; double[] size0 = { 41, 105, 12, 20 }; double[] data1 = { 18, 16, 11, 14 }; double[] angles1 = { 30, 210, 240, 310 }; double[] size1 = { 30, 45, 12, 90 }; // Create a PolarChart object of size 460 x 460 pixels PolarChart c = new PolarChart(460, 460); // Add a title to the chart at the top left corner using 15pt Arial Bold Italic font c.addTitle2(Chart.TopLeft, "<*underline=2*>EM Field Strength", "Arial Bold Italic", 15); // Set center of plot area at (230, 240) with radius 180 pixels c.setPlotArea(230, 240, 180); // Use alternative light grey/dark grey circular background color c.setPlotAreaBg(0xdddddd, 0xeeeeee); // Set the grid style to circular grid c.setGridStyle(false); // Add a legend box at the top right corner of the chart using 9pt Arial Bold font c.addLegend(459, 0, true, "Arial Bold", 9).setAlignment(Chart.TopRight); // Set angular axis as 0 - 360, with a spoke every 30 units c.angularAxis().setLinearScale(0, 360, 30); // Set the radial axis label format c.radialAxis().setLabelFormat("{value} km"); // Add a blue (0x9999ff) line layer to the chart using (data0, angle0) PolarLineLayer layer0 = c.addLineLayer(data0, 0x9999ff, "Cold Spot"); layer0.setAngles(angles0); // Disable the line by setting its width to 0, so only the symbols are visible layer0.setLineWidth(0); // Use a circular data point symbol layer0.setDataSymbol(Chart.CircleSymbol, 11); // Modulate the symbol size by size0 to produce a bubble chart effect layer0.setSymbolScale(size0); // Add a red (0xff9999) line layer to the chart using (data1, angle1) PolarLineLayer layer1 = c.addLineLayer(data1, 0xff9999, "Hot Spot"); layer1.setAngles(angles1); // Disable the line by setting its width to 0, so only the symbols are visible layer1.setLineWidth(0); // Use a circular data point symbol layer1.setDataSymbol(Chart.CircleSymbol, 11); // Modulate the symbol size by size1 to produce a bubble chart effect layer1.setSymbolScale(size1); // Output the chart viewer.Chart = c; //include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='{dataSetName} at ({value} km, {angle} deg)\nStrength = {z} Watt'"); }
//Main code for creating chart. //Note: the argument chartIndex is unused because this demo only has 1 chart. public void createChart(WPFChartViewer viewer, int chartIndex) { // The data for the chart double[] data = { 5.1, 1.5, 5.1, 4.0, 1.7, 8.7, 9.4, 2.1, 3.5, 8.8, 5.0, 6.0 }; // The labels for the chart string[] labels = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sept", "Oct", "Nov", "Dec" }; // Create a PolarChart object of size 400 x 420 pixels. with a metallic blue (9999ff) // background color and 1 pixel 3D border PolarChart c = new PolarChart(400, 420, Chart.metalColor(0x9999ff), 0x000000, 1); // Add a title to the chart using 16pt Arial Bold Italic font. The title text is white // (0xffffff) on deep blue (000080) background c.addTitle("Chemical Concentration", "Arial Bold Italic", 16, 0xffffff).setBackground( 0x000080); // Set center of plot area at (200, 240) with radius 145 pixels. Set background color to // green (0x33ff33) c.setPlotArea(200, 240, 145, 0x33ff33); // Set the labels to the angular axis c.angularAxis().setLabels(labels); // Color the sector between label index = 5.5 to 7.5 as red (ff3333) zone c.angularAxis().addZone(5.5, 7.5, 0xff3333); // Color the sector between label index = 4.5 to 5.5, and also between 7.5 to 8.5, as // yellow (ff3333) zones c.angularAxis().addZone(4.5, 5.5, 0xffff00); c.angularAxis().addZone(7.5, 8.5, 0xffff00); // Set the grid style to circular grid c.setGridStyle(false); // Use semi-transparent (40ffffff) label background so as not to block the data c.radialAxis().setLabelStyle().setBackground(0x40ffffff, 0x40000000); // Add a legend box at (200, 30) top center aligned, using 9pt Arial Bold font. with a // black border. LegendBox legendBox = c.addLegend(200, 30, false, "Arial Bold", 9); legendBox.setAlignment(Chart.TopCenter); // Add legend keys to represent the red/yellow/green zones legendBox.addKey("Very Dry", 0xff3333); legendBox.addKey("Critical", 0xffff00); legendBox.addKey("Moderate", 0x33ff33); // Add a blue (0x80) line layer with line width set to 3 pixels and use purple (ff00ff) // cross symbols for the data points PolarLineLayer layer = c.addLineLayer(data, 0x000080); layer.setLineWidth(3); layer.setDataSymbol(Chart.Cross2Shape(), 15, 0xff00ff); // Output the chart viewer.Chart = c; // Include tool tip for the chart. viewer.ImageMap = layer.getHTMLImageMap("clickable", "", "title='Concentration on {label}: {value} ppm'"); }
//Main code for creating chart. //Note: the argument img is unused because this demo only has 1 chart. public void createChart(WinChartViewer viewer, string img) { // The data for the chart double[] data0 = { 43, 89, 76, 64, 48, 18, 92, 68, 44, 79, 71, 85 }; double[] angles0 = { 45, 96, 169, 258, 15, 30, 330, 260, 60, 75, 110, 140 } ; double[] data1 = { 50, 91, 26, 29, 80, 53, 62, 87, 19, 40 }; double[] angles1 = { 230, 210, 240, 310, 179, 250, 244, 199, 89, 160 }; double[] data2 = { 88, 65, 76, 49, 80, 53 }; double[] angles2 = { 340, 310, 340, 210, 30, 300 }; // The labels on the angular axis (spokes) string[] labels = { "North", "North\nEast", "East", "South\nEast", "South", "South\nWest", "West", "North\nWest" }; // Create a PolarChart object of size 460 x 460 pixels PolarChart c = new PolarChart(460, 460); // Add a title to the chart at the top left corner using 15pts Arial Bold // Italic font c.addTitle2(Chart.TopLeft, "<*underline=2*>Plants in Wonderland", "Arial Bold Italic", 15); // Set center of plot area at (230, 240) with radius 180 pixels c.setPlotArea(230, 240, 180); // Use alternative light grey/dark grey sector background color c.setPlotAreaBg(0xdddddd, 0xeeeeee, false); // Set the grid style to circular grid c.setGridStyle(false); // Add a legend box at the top right corner of the chart using 9 pts // Arial Bold font c.addLegend(459, 0, true, "Arial Bold", 9).setAlignment(Chart.TopRight); // Set angular axis as 0 - 360, either 8 spokes c.angularAxis().setLinearScale2(0, 360, labels); // Set the radial axis label format c.radialAxis().setLabelFormat("{value} km"); // Add a blue (0xff) polar line layer to the chart using (data0, angle0) PolarLineLayer layer0 = c.addLineLayer(data0, 0x0000ff, "Immortal Weed"); layer0.setAngles(angles0); layer0.setLineWidth(0); layer0.setDataSymbol(Chart.TriangleSymbol, 11); // Add a red (0xff0000) polar line layer to the chart using (data1, // angles1) PolarLineLayer layer1 = c.addLineLayer(data1, 0xff0000, "Precious Flower" ); layer1.setAngles(angles1); // Disable the line by setting its width to 0, so only the symbols are // visible layer1.setLineWidth(0); // Use a 11 pixel diamond data point symbol layer1.setDataSymbol(Chart.DiamondSymbol, 11); // Add a green (0x00ff00) polar line layer to the chart using (data2, // angles2) PolarLineLayer layer2 = c.addLineLayer(data2, 0x00ff00, "Magical Tree"); layer2.setAngles(angles2); // Disable the line by setting its width to 0, so only the symbols are // visible layer2.setLineWidth(0); // Use a 9 pixel square data point symbol layer2.setDataSymbol(Chart.SquareSymbol, 9); // Output the chart viewer.Image = c.makeImage(); //include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='{dataSetName} at ({value} km, {angle} deg)'"); }
// Acción que determina que clase utilitzar para crear los "Charts" public void CrearChart(Button button, Label label = null) { ClearLastElements(); BaseChart.Chart.Series.RemoveAllSeries(); //Themes.RefreshTheme(); Themes.BasicAxes(BaseChart.Chart.Axes.Left, BaseChart.Chart.Axes.Right); Themes.AplicarTheme(BaseChart); switch (button.Text) { case "Line": lineChart = new LineChart(BaseChart); break; case "Column Bar": columnBarChart = new ColumnBarChart(BaseChart); break; case "Area": areaChart = new AreaChart(BaseChart); break; case "Pie": pieChart = new PieChart(BaseChart); break; case "Fast Line": fastLineChart = new FastLineChart(BaseChart); break; case "Horizontal Area": horizAreaChart = new HorizontalAreaChart(BaseChart); break; case "Horizontal Bar": horizBarChart = new HorizontalBarChart(BaseChart); break; case "Horizontal Line": horizLineChart = new HorizontalLineChart(BaseChart); break; case "Donut": donutChart = new DonutChart(BaseChart); break; case "Bubble": bubbleChart = new BubbleChart(BaseChart); break; case "Shape": shapeChart = new ShapeChart(BaseChart); break; case "Gantt": gantChart = new GanttChart(BaseChart); break; case "Point/Scatter": point_scatterChart = new Point_ScatterChart(BaseChart); break; case "Interpolating Line": interpolatingChart = new InterpolatingChartFeatures(BaseChart); break; case "Bar Styles": coneBarChart = new BarStylesChartFeatures(BaseChart); break; case "Zoom & Panning": zoomPaningArrowChart = new ZoomPanningChartFeatures(BaseChart); break; case "Bar Gradient": gradientBarChart = new GradientBarChartFeatures(BaseChart); break; case "Bubble Transparent": bubbleTranspChart = new BubbleTransparencyChartFeatures(BaseChart); break; case "Real Time": fLineRealTimeChart = new FLineRealTimeChartFeatures(BaseChart); break; case "Stack Area": stackAreaChart = new StackAreaChartFeatures(BaseChart); break; case "Multiple Pies": multiPiesChart = new MultiplePiesChartFeatures(BaseChart); break; case "Semi-Pie": semiPieChart = new Semi_PieChartFeatures(BaseChart); break; case "Semi-Donut": semiDonutChart = new Semi_DonutChartFeatures(BaseChart); break; case "Arrow": arrowChart = new ArrowChart(BaseChart); break; case "Polar": polarChart = new PolarChart(BaseChart); break; case "Radar": radarChart = new RadarChart(BaseChart); break; case "Pyramid": pyramidChart = new PyramidChart(BaseChart); break; case "Candle": candleChart = new CandleChart(BaseChart); break; case "Histogram": histogramChart = new HistogramChart(BaseChart); break; case "Error": errorChart = new ErrorChart(BaseChart); break; case "ErrorBar": errorBarChart = new ErrorBarChart(BaseChart); break; case "Funnel": funnelChart = new FunnelChart(BaseChart); break; case "Smith": smithChart = new SmithChart(BaseChart); break; case "Bezier": bezierChart = new BezierChart(BaseChart); break; case "HighLow": highLowChart = new HighLowChart(BaseChart); break; case "Speed Time": realTimeChart = new SpeedTimeChart(BaseChart); break; case "Waterfall": waterfallChart = new WaterfallChart(BaseChart); break; case "Volume": volumeChart = new VolumeChart(BaseChart); break; case "Color Grid": colorGridChart = new ColorGridChart(BaseChart); break; case "Polar Bar": polarBarChart = new PolarBarChart(BaseChart); break; case "Inverted Pyramid": invertedPyramidChart = new InvertedPyramidChart(BaseChart); break; case "Horizontal Histogram": horizHistogramChart = new HorizHistogramChart(BaseChart); break; case "Circular Gauge": basicCircGaugeChart = new BasicCircularGaugeChart(BaseChart); break; case "Car Fuel": carFuelChart = new CarFuelChart(BaseChart); break; case "Custom Hand": custPointerGaugeChart = new CustomPointerChart(BaseChart); break; case "Acceleration": accelerationCircularGaugeChart = new AccelerationCircularGaugeChart(BaseChart); break; case "Knob Gauge": basicKnobGaugeChart = new BasicKnobGaugeChart(BaseChart); break; case "Temperature Knob": temperatureKnobChart = new TemperatureKnobChart(BaseChart); break; case "Compass": try { compassChart = new CompassChart(BaseChart); } catch (Exception e) { } break; case "Map GIS": mapGSIChart = new MapGISChart(BaseChart); break; case "World Map": worldMapChart = new WorldMapChart(BaseChart); break; case "TreeMap": treeMapChart = new TreeMapChart(BaseChart); break; case "Basic Clock": basicClockChart = new BasicClockChart(BaseChart); break; case "Custom Clock": customClockChart = new CustomClockChart(BaseChart); break; case "Organizational Chart": basicOrganizationalChart = new BasicOrganizationalChart(BaseChart); break; case "Numeric Gauge": numericGaugeChart = new NumericGaugeChart(BaseChart); break; case "Linear Gauge": linearGaugeChart = new LinearGaugeChart(BaseChart); break; case "Scales": scalesLinearChart = new ScalesLinearChart(BaseChart); break; case "SubLines": moreLinesLinearChart = new MoreLinesLinearChart(BaseChart); break; case "Mobile Battery": batteryLinearChart = new BatteryLinearChart(BaseChart); break; case "Basic Calendar": basicCalendarChart = new BasicCalendarChart(BaseChart, label); break; case "Special Dates": specialDatesChart = new SpecialDatesChart(BaseChart, label); break; case "TagCloud": tagCloudChart = new TagCloudChart(BaseChart); break; case "Add": addStdFunctionsChart = new AddStdFunctionsChart(BaseChart); break; case "Subtract": subtStdFunctionsChart = new SubtStdFunctionsChart(BaseChart); break; case "Multiply": multStdFunctionsChart = new MultStdFunctionsChart(BaseChart); break; case "Divide": divStdFunctionsChart = new DivStdFunctionsChart(BaseChart); break; case "Count": countStdFunctionsChart = new CountStdFunctionsChart(BaseChart); break; case "Average": avgStdFunctionsChart = new AvgStdFunctionsChart(BaseChart); break; case "High": highStdFunctionsChart = new HighStdFunctionsChart(BaseChart); break; case "Low": lowStdFunctionsChart = new LowStdFunctionsChart(BaseChart); break; case "Median Function": medianStdFunctionsChart = new MedianStdFunctionsChart(BaseChart); break; case "Percent Change": percentStdFunctionsChart = new PercentStdFunctionsChart(BaseChart); break; case "ADX": adxProFunctionChart = new ADXProFunctionChart(BaseChart); break; case "AC": acProFunctionChart = new ACProFunctionChart(BaseChart); break; case "Alligator": alligatorProFunctionChart = new AlligatorProFunctionChart(BaseChart); break; case "AO": aoProFunctionChart = new AOProFunctionChart(BaseChart); break; case "ATR": atrProFunctionChart = new ATRProFunctionChart(BaseChart); break; case "Bollinger Bands": bollingerProFunctionChart = new BollingerProFunctionChart(BaseChart); break; case "CCI": cciProFunctionChart = new CCIProFunctionChart(BaseChart); break; case "CLV": clvProFunctionChart = new CLVProFunctionChart(BaseChart); break; case "Compression OHLC": compressionOHLCProFunctionChart = new CompressionOHLCProFunctionChart(BaseChart); break; case "Exp. Average": expAverageProFunctionChart = new ExpAverageProFunctionChart(BaseChart); break; case "Exp. Moving Average": expMovAverageProFunctionChart = new ExpMovAverageProFunctionChart(BaseChart); break; case "Gator Oscillator": gatorOscillProFunctionChart = new GatorOscillProFunctionChart(BaseChart); break; case "Kurtosis": kurtosisProFunctionChart = new KurtosisProFunctionChart(BaseChart); break; case "MACD": macdProFunctionChart = new MACDProFunctionChart(BaseChart); break; case "Momentum": momentumProFunctionChart = new MomentumProFunctionChart(BaseChart); break; case "Momentum Div.": momentumDivProFunctionChart = new MomentumDivProFunctionChart(BaseChart); break; case "Money Flow": moneyFlowProFunctionChart = new MoneyFlowProFunctionChart(BaseChart); break; case "OBV": obvProFunctionChart = new OBVProFunctionChart(BaseChart); break; case "PVO": pvoProFunctionChart = new PVOProFunctionChart(BaseChart); break; case "RSI": rsiProFunctionChart = new RSIProFunctionChart(BaseChart); break; case "RVI": rviProFunctionChart = new RVIProFunctionChart(BaseChart); break; case "Slope": slopeProFunctionChart = new SlopeProFunctionChart(BaseChart); break; case "Smoothed Mov Avg": smoothMovAvgProFunctionChart = new SmoothMovAvgProFunctionChart(BaseChart); break; case "S.A.R.": sarProFunctionChart = new SARProFunctionChart(BaseChart); break; case "Cross Point": crossPointsProFunctionsChart = new CrossPointsProFunctionsChart(BaseChart); break; case "Correlation": correlationProFunctionChart = new CorrelationProFunctionChart(BaseChart); break; case "Cumulative": cumulativeProFunctionChart = new CumulativeProFunctionChart(BaseChart); break; case "Custom Function": calculateEventProFunctionChart = new CalculateEventProFunctionChart(BaseChart); break; case "Exponential Trend": exponentialTrendProFunctionChart = new ExponentialTrendProFunctionChart(BaseChart); break; case "Fitting Linearizable": fittingProFunctionChart = new FittingProFunctionChart(BaseChart); break; case "Performance": performanceProFunctionChart = new PerformanceProFunctionChart(BaseChart); break; case "Perimeter": perimeterProFunctionChart = new PerimeterProFunctionChart(BaseChart); break; case "Finding Coefficients": findCoeffProFunctionChart = new FindCoeffProFunctionChart(BaseChart); break; case "Down Sampling": downSamplingProFunctionChart = new DownSamplingProFunctionChart(BaseChart); break; case "RMS": rmsProFunctionChart = new RMSProFunctionChart(BaseChart); break; case "Smoothing Function": smoothingProFunctionChart = new SmoothingProFunctionChart(BaseChart); break; case "Standard Deviation": stdDeviationProFunctionChart = new StdDeviationProFunctionChart(BaseChart); break; case "Trendline": trendlineProFunctionChart = new TrendlineProFunctionChart(BaseChart); break; case "Variance": varianceProFunctionChart = new VarianceProFunctionChart(BaseChart); break; case "SPC": spcProFunctionChart = new SPCProFunctionChart(BaseChart); break; case "Cumulative Histogram": cumulativeHistogProFunctionChart = new CumulativeHistogProFunctionChart(BaseChart); break; case "Skewness": skewnessProFunctionChart = new SkewnessProFunctionChart(BaseChart); break; } Themes.AplicarOptions(BaseChart); }
//Main code for creating chart. //Note: the argument img is unused because this demo only has 1 chart. public void createChart(WinChartViewer viewer, string img) { // The data for the chart double[] data = { 51, 15, 51, 40, 17, 87, 94, 21, 35, 88, 50, 60 }; // The labels for the chart string[] labels = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sept", "Oct", "Nov", "Dec" }; // Create a PolarChart object of size 400 x 420 pixels PolarChart c = new PolarChart(400, 420); // Set background color to a 2 pixel pattern color, with a black border // and 1 pixel 3D border effect c.setBackground(c.patternColor(new int[] { 0xffffff, 0xe0e0e0 }, 2), 0, 1); // Add a title to the chart using 16 pts Arial Bold Italic font. The // title text is white (0xffffff) on 2 pixel pattern background c.addTitle("Chemical Concentration", "Arial Bold Italic", 16, 0xffffff ).setBackground(c.patternColor(new int[] { 0x000000, 0x000080 }, 2)); // Set center of plot area at (200, 240) with radius 145 pixels. Set // background color to blue (9999ff) c.setPlotArea(200, 240, 145, 0x9999ff); // Color the region between radius = 40 to 80 as green (99ff99) c.radialAxis().addZone(40, 80, 0x99ff99); // Color the region with radius > 80 as red (ff9999) c.radialAxis().addZone(80, 999, 0xff9999); // Set the grid style to circular grid c.setGridStyle(false); // Set the radial axis label format c.radialAxis().setLabelFormat("{value} ppm"); // Use semi-transparent (40ffffff) label background so as not to block // the data c.radialAxis().setLabelStyle().setBackground(0x40ffffff, 0x40000000); // Add a legend box at (200, 30) top center aligned, using 9 pts Arial // Bold font. with a black border. LegendBox legendBox = c.addLegend(200, 30, false, "Arial Bold", 9); legendBox.setAlignment(Chart.TopCenter); // Add legend keys to represent the red/green/blue zones legendBox.addKey("Under-Absorp", 0x9999ff); legendBox.addKey("Normal", 0x99ff99); legendBox.addKey("Over-Absorp", 0xff9999); // Add a blue (000080) spline line layer with line width set to 3 pixels // and using yellow (ffff00) circles to represent the data points PolarSplineLineLayer layer = c.addSplineLineLayer(data, 0x000080); layer.setLineWidth(3); layer.setDataSymbol(Chart.CircleShape, 11, 0xffff00); // Set the labels to the angular axis as spokes. c.angularAxis().setLabels(labels); // Output the chart viewer.Image = c.makeImage(); // Include tool tip for the chart. viewer.ImageMap = layer.getHTMLImageMap("clickable", "", "title='Concentration on {label}: {value} ppm'"); }
//Main code for creating chart. //Note: the argument img is unused because this demo only has 1 chart. public void createChart(WinChartViewer viewer, string img) { // The data for the chart double[] data0 = { 100, 100, 100, 100, 100 }; double[] data1 = { 90, 85, 85, 80, 70 }; double[] data2 = { 80, 65, 65, 75, 45 }; // The labels for the chart string[] labels = { "Population<*br*><*font=Arial*>6 millions", "GDP<*br*><*font=Arial*>120 billions", "Export<*br*><*font=Arial*>25 billions", "Import<*br*><*font=Arial*>24 billions", "Investments<*br*><*font=Arial*>20 billions" }; // Create a PolarChart object of size 480 x 460 pixels. Set background // color to silver, with 1 pixel 3D border effect PolarChart c = new PolarChart(480, 460, Chart.silverColor(), 0x000000, 1) ; // Add a title to the chart using 15 pts Times Bold Italic font. The // title text is white (ffffff) on a deep green (008000) background c.addTitle("Economic Growth", "Times New Roman Bold Italic", 15, 0xffffff ).setBackground(0x008000); // Set plot area center at (240, 270), with 150 pixels radius c.setPlotArea(240, 270, 150); // Use 1 pixel width semi-transparent black (c0000000) lines as grid // lines c.setGridColor(unchecked ((int)0xc0000000), 1, unchecked ((int)0xc0000000), 1); // Add a legend box at top-center of plot area (240, 35) using horizontal // layout. Use 10 pts Arial Bold font, with silver background and 1 pixel // 3D border effect. LegendBox b = c.addLegend(240, 35, false, "Arial Bold", 10); b.setAlignment(Chart.TopCenter); b.setBackground(Chart.silverColor(), Chart.Transparent, 1); // Add area layers of different colors to represent the data c.addAreaLayer(data0, 0xcc8880, "Year 2004"); c.addAreaLayer(data1, 0xffd080, "Year 1994"); c.addAreaLayer(data2, 0xa0bce0, "Year 1984"); // Set the labels to the angular axis as spokes. c.angularAxis().setLabels(labels); // Set radial axis from 0 - 100 with a tick every 20 units c.radialAxis().setLinearScale(0, 100, 20); // Just show the radial axis as a grid line. Hide the axis labels by // setting the label color to Transparent c.radialAxis().setColors(unchecked ((int)0xc0000000), Chart.Transparent); // Output the chart viewer.Image = c.makeImage(); //include tool tip for the chart viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='Current {label}: {value}% in {dataSetName}'"); }