private void BuildChart(WinChartViewer winChartViewerResult, string[] titleXYZ, int chooseItem)
        {
            //Налаштування графіку

            // Create a ThreeDScatterChart object of size
            ThreeDScatterChart c = new ThreeDScatterChart(750, 550);

            // Add a title to the chart
            c.addTitle("3D Scatter Groups", "Times New Roman Italic", 14);

            // Set the center of the plot region at (350, 240),
            //and set width x depth x height to last three parameters
            c.setPlotRegion(300, 240, 350, 350, 350);

            // Set the elevation and rotation angles to 15 and 30 degrees
            c.setViewAngle(15, 30);

            // Add a legend box at
            c.addLegend(650, 20);


            MethodOperation methodOperation = GetDelegateOperation(chooseItem);

            double[] x;
            double[] y;
            double[] z;

            //Додавання группи для графіку по назві проекту
            foreach (KeyValuePair <string, List <BestResultGA> > group in _resultGAByNameProjectGroup)
            {
                //розмір групи
                int countElementsInGroup = group.Value.Count;
                x = new double[countElementsInGroup];
                y = new double[countElementsInGroup];
                z = new double[countElementsInGroup];
                int i = 0;
                //наповнити групу
                methodOperation(group.Value, ref x, ref y, ref z, ref i);

                //добавити групу точок
                c.addScatterGroup(x, y, z, group.Key, Chart.GlassSphere2Shape, 10);
            }

            // Set the x, y and z axis titles
            c.xAxis().setTitle(titleXYZ[0]);
            c.yAxis().setTitle(titleXYZ[1]);
            c.zAxis().setTitle(titleXYZ[2]);

            // Output the chart
            winChartViewerResult.Chart = c;

            winChartViewerResult.ImageMap = c.getHTMLImageMap("chart");//, "", "x={x}&y={y}&z={z}&dataSet={dataSet}&dataSetName={name}");
            // winChartViewerResult.ClickHotSpot += WinChartViewerResult_ClickHotSpot;
            //Зберегти графік в зображення
            //c.makeChart("chart.png");
        }
        //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 random XYZ data for the first 3D scatter group
            RanSeries r0 = new RanSeries(7);

            double[] xData0 = r0.getSeries2(100, 100, -10, 10);
            double[] yData0 = r0.getSeries2(100, 0, 0, 20);
            double[] zData0 = r0.getSeries2(100, 100, -10, 10);

            // The random XYZ data for the second 3D scatter group
            RanSeries r1 = new RanSeries(4);

            double[] xData1 = r1.getSeries2(100, 100, -10, 10);
            double[] yData1 = r1.getSeries2(100, 0, 0, 20);
            double[] zData1 = r1.getSeries2(100, 100, -10, 10);

            // The random XYZ data for the third 3D scatter group
            RanSeries r2 = new RanSeries(8);

            double[] xData2 = r2.getSeries2(100, 100, -10, 10);
            double[] yData2 = r2.getSeries2(100, 0, 0, 20);
            double[] zData2 = r2.getSeries2(100, 100, -10, 10);

            // Create a ThreeDScatterChart object of size 800 x 520 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(800, 520);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle("3D Scatter Groups                    ", "Times New Roman Italic", 20);

            // Set the center of the plot region at (350, 240), and set width x depth x height to
            // 360 x 360 x 270 pixels
            c.setPlotRegion(350, 240, 360, 360, 270);

            // Set the elevation and rotation angles to 15 and 30 degrees
            c.setViewAngle(15, 30);

            // Add a legend box at (640, 180)
            c.addLegend(640, 180);

            // Add 3 scatter groups to the chart with 9 pixels glass sphere symbols of red (ff0000),
            // green (00ff00) and blue (0000ff) colors
            c.addScatterGroup(xData0, yData0, zData0, "Alpha", Chart.GlassSphere2Shape, 9, 0xff0000)
            ;
            c.addScatterGroup(xData1, yData1, zData1, "Beta", Chart.GlassSphere2Shape, 9, 0x00ff00);
            c.addScatterGroup(xData2, yData2, zData2, "Gamma", Chart.GlassSphere2Shape, 9, 0x0000ff)
            ;

            // Set the x, y and z axis titles
            c.xAxis().setTitle("X-Axis Place Holder");
            c.yAxis().setTitle("Y-Axis Place Holder");
            c.zAxis().setTitle("Z-Axis Place Holder");

            // Output the chart
            viewer.Chart = c;
        }
        //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 XYZ data for the 3D scatter chart as 3 random data series
            RanSeries r = new RanSeries(3);

            double[] xData = r.getSeries2(20, 100, -10, 10);
            double[] yData = r.getSeries2(20, 100, -10, 10);
            double[] zData = r.getSeries2(20, 100, -10, 10);

            // Create a ThreeDScatterChart object of size 720 x 520 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(720, 520);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle("3D Scatter Chart (2)  ", "Times New Roman Italic", 20);

            // Set the center of the plot region at (350, 240), and set width x depth x height to
            // 360 x 360 x 270 pixels
            c.setPlotRegion(350, 240, 360, 360, 270);

            // Set the elevation and rotation angles to 15 and 30 degrees
            c.setViewAngle(15, 30);

            // Add a scatter group to the chart using 13 pixels glass sphere symbols, in which the
            // color depends on the z value of the symbol
            ThreeDScatterGroup g = c.addScatterGroup(xData, yData, zData, "",
                                                     Chart.GlassSphere2Shape, 13, Chart.SameAsMainColor);

            // Add grey (888888) drop lines to the symbols
            g.setDropLine(0x888888);

            // Add a color axis (the legend) in which the left center is anchored at (645, 220). Set
            // the length to 200 pixels and the labels on the right side. Use smooth gradient
            // coloring.
            c.setColorAxis(645, 220, Chart.Left, 200, Chart.Right).setColorGradient();

            // Set the x, y and z axis titles using 10 points Arial Bold font
            c.xAxis().setTitle("X-Axis Place Holder", "Arial Bold", 10);
            c.yAxis().setTitle("Y-Axis Place Holder", "Arial Bold", 10);
            c.zAxis().setTitle("Z-Axis Place Holder", "Arial Bold", 10);

            // Output the chart
            viewer.Chart = c;

            //include tool tip for the chart
            viewer.ImageMap = c.getHTMLImageMap("clickable", "",
                                                "title='(x={x|p}, y={y|p}, z={z|p}'");
        }
Exemple #4
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        //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, int minvalue, int maxvalue)
        {
            double[] xData = { minvalue };
            double[] yData = { minvalue };
            double[] zData = { minvalue };

            double[] xData2 = { maxvalue };
            double[] yData2 = { maxvalue };
            double[] zData2 = { maxvalue };
            // Create a ThreeDScatterChart object of size 720 x 600 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(720, 600);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle("3D Scatter Chart (1)  ", "Times New Roman Italic", 20);
            // Set the center of the plot region at (350, 280), and set width x depth x height to
            // 360 x 360 x 270 pixels
            c.setPlotRegion(350, 280, 360, 360, 270);

            // Add a scatter group to the chart using 11 pixels glass sphere symbols, in which the
            // color depends on the z value of the symbol
            c.addScatterGroup(xData, yData, zData, "", Chart.GlassSphere2Shape, 0, Chart.DataColor);
            c.addScatterGroup(xData2, yData2, zData2, "", Chart.GlassSphere2Shape, 0, Chart.DataColor);

            for (int i = 0; i < AP.Count; i++)
            {
                c.addScatterGroup(AP[i].Xd, AP[i].Yd, AP[i].Zd, "", Chart.GlassSphere2Shape, 5, Chart.DataColor);
            }
            // Add a color axis (the legend) in which the left center is anchored at (645, 270). Set
            // the length to 200 pixels and the labels on the right side.
            //     c.setColorAxis(645, 270, Chart.Left, 200, Chart.Right);


            // Set the x, y and z axis titles using 10 points Arial Bold font
            c.xAxis().setTitle("X-Axis Place Holder", "Arial Bold", 10);
            c.yAxis().setTitle("Y-Axis Place Holder", "Arial Bold", 10);
            c.zAxis().setTitle("Z-Axis Place Holder", "Arial Bold", 10);

            // Output the chart
            viewer.Chart = c;

            //include tool tip for the chart
            viewer.ImageMap = c.getHTMLImageMap("clickable", "", "title='(x={x|p}, y={y|p}, z={z|p}'");
        }
Exemple #5
0
        //
        // Create chart
        //
        private void createChart(RazorChartViewer viewer)
        {
            // The XYZ data for the 3D scatter chart as 3 random data series
            RanSeries r = new RanSeries(0);

            double[] xData = r.getSeries2(100, 100, -10, 10);
            double[] yData = r.getSeries2(100, 0, 0, 20);
            double[] zData = r.getSeries2(100, 100, -10, 10);

            // Create a ThreeDScatterChart object of size 720 x 600 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(720, 600);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle("3D Scatter Chart (1)  ", "Times New Roman Italic", 20);

            // Set the center of the plot region at (350, 280), and set width x depth x height to 360 x
            // 360 x 270 pixels
            c.setPlotRegion(350, 280, 360, 360, 270);

            // Add a scatter group to the chart using 11 pixels glass sphere symbols, in which the color
            // depends on the z value of the symbol
            c.addScatterGroup(xData, yData, zData, "", Chart.GlassSphere2Shape, 11, Chart.SameAsMainColor
                              );

            // Add a color axis (the legend) in which the left center is anchored at (645, 270). Set the
            // length to 200 pixels and the labels on the right side.
            c.setColorAxis(645, 270, Chart.Left, 200, Chart.Right);

            // Set the x, y and z axis titles using 10 points Arial Bold font
            c.xAxis().setTitle("X-Axis Place Holder", "Arial Bold", 10);
            c.yAxis().setTitle("Y-Axis Place Holder", "Arial Bold", 10);
            c.zAxis().setTitle("Z-Axis Place Holder", "Arial Bold", 10);

            // Output the chart
            viewer.Image = c.makeWebImage(Chart.PNG);

            // Include tool tip for the chart
            viewer.ImageMap = c.getHTMLImageMap("", "", "title='(x={x|p}, y={y|p}, z={z|p}'");
        }
        //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, int minvalue, int maxvalue)
        {
            ThreeDScatterChart c = new ThreeDScatterChart(1188, 757); //전체 크기수정(하얀부분)

            winchart = viewer;
            min      = minvalue;    //좌표값의 최소값, 최대값을 정할수있게 만들어뒀습니다.
            max      = maxvalue;

            double[] xData1 = { minvalue, minvalue, minvalue, minvalue };
            double[] yData1 = { minvalue, minvalue, minvalue, minvalue };
            double[] zData1 = { minvalue, minvalue, minvalue, minvalue };

            double[] xData2 = { maxvalue, maxvalue, maxvalue, maxvalue };
            double[] yData2 = { maxvalue, maxvalue, maxvalue, maxvalue };
            double[] zData2 = { maxvalue, maxvalue, maxvalue, maxvalue };
            // 필독===========================================
            //
            // 데이터는 세로방향으로 점하나씩 만들어지게 되있습니다. 한마디로 double[] 하나당 점이 4개씩찍히니 값을 일치시켜주는게 좋습니다.
            //
            //================================================


            c.addTitle("Data Visualization", "Times New Roman", 12); // 제목, 폰트, 크기

            // Set the center of the plot region at (350, 240), and set width x depth x height to
            // 360 x 360 x 270 pixels

            c.setPlotRegion(600, 300, 600, 600, 350); //이것을 이용해서 그래프의 크기를 조절할수있습니다.
            c.setBackground(0xffffff, 0x000000);
            c.setViewAngle(15, 30);                   // 보는각도입니다.


            ThreeDScatterGroup g = c.addScatterGroup(xData1, yData1, zData1, "",
                                                     Chart.GlassSphere2Shape, 0, Chart.SameAsMainColor);

            c.addScatterGroup(xData2, yData2, zData2, "",
                              Chart.GlassSphere2Shape, 0, Chart.SameAsMainColor); // 점 추가시키는부분

            //g 없어도 잘돌아갑니다.

            for (int i = 0; i < PL.Count(); i++)
            {
                c.addScatterGroup(PL[i].Xd, PL[i].Yd, PL[i].Zd, "",
                                  Chart.GlassSphere2Shape, 10, Chart.SameAsMainColor);
            }//좌표를 추가하면 List에 저장되서 새로그리는것

            //GlassSphere2Shape
            // Add grey (888888) drop lines to the symbols
            g.setDropLine(0x888888); //뭔지모름 없어도잘돌아감

            // Add a color axis (the legend) in which the left center is anchored at (645, 220). Set
            // the length to 200 pixels and the labels on the right side. Use smooth gradient
            // coloring.


            // Set the x, y and z axis titles using 10 points Arial Bold font
            c.xAxis().setTitle("X-Axis Place Holder", "Arial Bold", 10);
            c.yAxis().setTitle("Y-Axis Place Holder", "Arial Bold", 10);
            c.zAxis().setTitle("Z-Axis Place Holder", "Arial Bold", 10);

            c.xAxis().setColors(0xffffff, 0x000000);
            c.yAxis().setColors(0xffffff, 0x000000);
            c.zAxis().setColors(0xffffff, 0x000000);

            // Output the chart
            viewer.Chart = c;


            //include tool tip for the chart
            viewer.ImageMap = c.getHTMLImageMap("clickable", "",
                                                "title='(x={x|p}, y={y|p}, z={z|p})'");
        }
Exemple #7
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        //Main code for creating chart.
        //Note: the argument chartIndex is unused because this demo only has 1 chart.
        public void createChart(WinChartViewer viewer, SizeF scale)
        {
            this.viewer = viewer;
            this.scale  = scale;
            // The XYZ data for the 3D scatter chart as 3 random data series

            // Create a ThreeDScatterChart object
            c = new ThreeDScatterChart(
                Convert.ToInt32(424 * scale.Width),
                Convert.ToInt32(352 * scale.Height)
                );

            c.setBackground(725538, 725538, 0);//7913160 jasny niebieski 725538 ciemny

            float labelFontSize = 9 * scale.Height;

            c.xAxis().setLabelStyle("Arial Bold", labelFontSize, 7913160);
            c.yAxis().setLabelStyle("Arial Bold", labelFontSize, 7913160);
            c.zAxis().setLabelStyle("Arial Bold", labelFontSize, 7913160);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle(" ", "Calibri", labelFontSize * 2, 7913160);

            // Set the center of the plot region at (350, 280), and set width x depth x height to
            // 360 x 360 x 270 pixels
            //c.setPlotRegion(212, 176, 180, 180, 135);
            c.setPlotRegion(
                Convert.ToInt32(212 * scale.Width),
                Convert.ToInt32(176 * scale.Height),
                Convert.ToInt32(180 * scale.Height),
                Convert.ToInt32(180 * scale.Height),
                Convert.ToInt32(135 * scale.Height)
                );

            // Color palette for the legend
            //int[] color_palette = new int[] { 15754320, 14643553, 13532786, 12422019, 11245461, 10134694, 9023927, 7913160 }; //inverted
            int[] color_palette = new int[] { 2461197, 9029689, 16638029, 16621366, 16736768 };


            // Add a scatter group to the chart using 11 pixels glass sphere symbols, in which the
            // color depends on the z value of the symbol

            c.addScatterGroup(xData, yData, zData, "", Chart.GlassSphere2Shape, 11, Chart.SameAsMainColor);

            //TODO:
            //Set the point color by the wind speed

            // Wall thicknes, wall color, wall grid
            c.setWallThickness(1, 1, 1);
            c.setWallColor(725538, 725538, 725538);
            c.setWallGrid(7913160, 7913160, 7913160);

            // Add a color axis (the legend) in which the left center is anchored at (645, 270). Set
            // the length to 200 pixels and the labels on the right side.
            // Set the colors of the axis elements

            c.setColorAxis(
                Convert.ToInt32(370 * scale.Width),
                Convert.ToInt32(175 * scale.Height),
                Chart.Left, 100, Chart.Right
                ).setColors(725538, 7913160, 7913160, 7913160);

            //set gradient to true and the color palette for the color axis,
            c.colorAxis().setColorGradient(true, color_palette);

            // Set the x, y and z axis titles using 10 points Arial Bold font
            c.xAxis().setTitle("Longitude", "Calibri", labelFontSize, 7913160);
            c.yAxis().setTitle("Latitude", "Calibri", labelFontSize, 7913160);
            c.zAxis().setTitle("Altitude", "Calibri", labelFontSize, 7913160);

            // Output the chart
            viewer.Chart = c;

            //include tool tip for the chart
            viewer.ImageMap = c.getHTMLImageMap("clickable", "",
                                                "title='(x={x|p}, y={y|p}, z={z|p}'");
        }
        //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 x coordinates for the 2 scatter groups
            DateTime[] dataX = { new DateTime(2011,                                                                                       9,  1), new DateTime(2011,                 9, 2), new DateTime(
                                     2011,                                                                                                9,  3), new DateTime(2011,                 9, 4), new DateTime(2011,  9,5), new DateTime(2011,
                                                                                                                                                                                                                  9,                    6), new DateTime(2011,   9,                7), new DateTime(2011,9,                8),new DateTime(2011,9, 9),
                                 new DateTime(2011,                                                                                       9, 10), new DateTime(2011,                 9, 11) };

            // The y and z coordinates for the first scatter group
            double[] dataY0 = { 0.4, 0.2, 0.5, 0.4, 0.7, 1.3, 1.1, 1.0, 0.6, 0.4, 0.5 };
            double[] dataZ0 = { 43, 38, 33, 23.4, 28, 36, 34, 47, 53, 45, 40 };

            // The y and z coordinates for the second scatter group
            double[] dataY1 = { 1.4, 1.0, 1.8, 1.9, 1.5, 1.0, 0.6, 0.7, 1.2, 1.7, 1.5 };
            double[] dataZ1 = { 46, 41, 33, 37, 28, 29, 34, 37, 41, 52, 50 };

            // Instead of displaying numeric values, labels are used for the y-axis
            string[] labelsY = { "Low", "Medium", "High" };

            // Create a ThreeDScatterChart object of size 760 x 520 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(760, 520);

            // Add a title to the chart using 18 points Arial font
            c.addTitle("3D Scatter Chart Axis Types", "Arial", 18);

            // Set the center of the plot region at (385, 270), and set width x depth x height to
            // 480 x 240 x 240 pixels
            c.setPlotRegion(385, 270, 480, 240, 240);

            // Set the elevation and rotation angles to 30 and -10 degrees
            c.setViewAngle(30, -10);

            // Add a legend box at (380, 40) with horizontal layout. Use 9pt Arial Bold font.
            LegendBox b = c.addLegend(380, 40, false, "Arial Bold", 9);

            b.setAlignment(Chart.TopCenter);
            b.setRoundedCorners();

            // Add a scatter group to the chart using 13 pixels red (ff0000) glass sphere symbols,
            // with dotted drop lines
            ThreeDScatterGroup g0 = c.addScatterGroup(Chart.CTime(dataX), dataY0, dataZ0,
                                                      "Alpha Series", Chart.GlassSphere2Shape, 13, 0xff0000);

            g0.setDropLine(c.dashLineColor(Chart.SameAsMainColor, Chart.DotLine));

            // Add a scatter group to the chart using 13 pixels blue (00cc00) cross symbols, with
            // dotted drop lines
            ThreeDScatterGroup g1 = c.addScatterGroup(Chart.CTime(dataX), dataY1, dataZ1,
                                                      "Beta Series", Chart.Cross2Shape(), 13, 0x00cc00);

            g1.setDropLine(c.dashLineColor(Chart.SameAsMainColor, Chart.DotLine));

            // Set x-axis tick density to 50 pixels. ChartDirector auto-scaling will use this as the
            // guideline when putting ticks on the x-axis.
            c.xAxis().setTickDensity(50);

            // Set the y-axis labels
            c.yAxis().setLabels(labelsY);

            // Set label style to Arial bold for all axes
            c.xAxis().setLabelStyle("Arial Bold");
            c.yAxis().setLabelStyle("Arial Bold");
            c.zAxis().setLabelStyle("Arial Bold");

            // Set the x, y and z axis titles using deep blue (000088) 15 points Arial font
            c.xAxis().setTitle("Date/Time Axis", "Arial Italic", 15, 0x000088);
            c.yAxis().setTitle("Label\nBased\nAxis", "Arial Italic", 15, 0x000088);
            c.zAxis().setTitle("Numeric Axis", "Arial Italic", 15, 0x000088);

            // Output the chart
            viewer.Chart = c;
        }
Exemple #9
0
        //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)
        {
            // getSeries2(int len, double startValue, double mindelta, double maxdelta)


            // The random XYZ data for the first 3D scatter group
            //빨강
            RanSeries r0 = new RanSeries(1);

            double[] xData0 = { 0, 0, 0, 0 }; //r0.getSeries2(10, 10, -10, 10);
            // 첫번째 값은
            double[] yData0 = { 0, 0, 0, 0 }; //r0.getSeries2(10, 0, 0, 20);
            double[] zData0 = { 0, 0, 0, 0 }; //r0.getSeries2(10, 10, -10, 10);
            //double[] xData0 = r0.getSeries2(20, 1, 0, 0); // X축
            //double[] yData0 = r0.getSeries2(20, 1, 0, 0); // y축
            //double[] zData0 = r0.getSeries2(20, 1, 0, 0); // z축



            // The random XYZ data for the second 3D scatter group
            //초록
            RanSeries r1 = new RanSeries(1);

            double[] xData1 = { 100, 100, 100, 100 };
            double[] yData1 = { 100, 100, 100, 100 };
            double[] zData1 = { 100, 100, 100, 100 };


            // The random XYZ data for the third 3D scatter group
            //파랑
            RanSeries r2 = new RanSeries(1);

            double[] xData2 = { 50, 50, 50, 50 };
            double[] yData2 = { 50, 50, 50, 50 };
            double[] zData2 = { 50, 50, 50, 50 };

            // Create a ThreeDScatterChart object of size 800 x 520 pixels
            ThreeDScatterChart c = new ThreeDScatterChart(500, 300);

            // Add a title to the chart using 20 points Times New Roman Italic font
            c.addTitle("3D Scatter Groups", "Times New Roman Italic", 20);

            // Set the center of the plot region at (350, 240), and set width x depth x height to
            // 360 x 360 x 270 pixels
            c.setPlotRegion(210, 144, 216, 216, 144);// 차트 크기조절

            // Set the elevation and rotation angles to 15 and 30 degrees
            c.setViewAngle(15, 30);

            // Add a legend box at (640, 180)
            c.addLegend(400, 180);//그룹박스 위치

            // Add 3 scatter groups to the chart with 9 pixels glass sphere symbols of red (ff0000),
            // green (00ff00) and blue (0000ff) colors
            c.addScatterGroup(xData0, yData0, zData0, "Alpha", Chart.GlassSphere2Shape, 0, 0xff0000); // 8은 좌표에 표시되는 점 크기 표시
            c.addScatterGroup(xData1, yData1, zData1, "Beta", Chart.GlassSphere2Shape, 0, 0x00ff00);
            c.addScatterGroup(xData2, yData2, zData2, "Gamma", Chart.GlassSphere2Shape, 8, 0x0000ff);



            // Set the x, y and z axis titles
            c.xAxis().setTitle("X-Axis Place Holder 가");
            c.yAxis().setTitle("Y-Axis Place Holder 나");
            c.zAxis().setTitle("Z-Axis Place Holder 다");

            // Output the chart
            viewer.Chart = c;
        }