//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 x and y coordinates of the grid
double[] dataX = { 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0 };
double[] dataY = { 0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0 };
// The values at the grid points. In this example, we will compute the
// values using the formula z = sin((x - 0.5) * 2 * pi) * sin((y - 0.5) *
// 2 * pi)
double[] dataZ = new double[(dataX.Length) * (dataY.Length)];
for (int yIndex = 0; yIndex < dataY.Length; ++yIndex)
{
double y = (dataY[yIndex] - 0.5) * 2 * 3.1416;
for (int xIndex = 0; xIndex < dataX.Length; ++xIndex)
{
double x = (dataX[xIndex] - 0.5) * 2 * 3.1416;
dataZ[yIndex * (dataX.Length) + xIndex] = Math.Sin(x) * Math.Sin(
y);
}
}
// Create a SurfaceChart object of size 720 x 540 pixels
SurfaceChart c = new SurfaceChart(720, 540);
// Add a title to the chart using 20 points Times New Roman Italic font
c.addTitle("Quantum Wave Function", "Times New Roman Italic", 20);
// Set the center of the plot region at (360, 245), and set width x depth
// x height to 360 x 360 x 270 pixels
c.setPlotRegion(360, 245, 360, 360, 270);
// Set the elevation and rotation angles to 20 and 30 degrees
c.setViewAngle(20, 30);
// Set the data to use to plot the chart
c.setData(dataX, dataY, dataZ);
// Spline interpolate data to a 80 x 80 grid for a smooth surface
c.setInterpolation(80, 80);
// Set surface grid lines to semi-transparent black (dd000000)
c.setSurfaceAxisGrid(unchecked ((int)0xdd000000));
// Set contour lines to semi-transparent white (80ffffff)
c.setContourColor(unchecked ((int)0x80ffffff));
// 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. Use smooth gradient coloring.
c.setColorAxis(645, 270, Chart.Left, 200, Chart.Right).setColorGradient()
;
// Set the x, y and z axis titles using 10 points Arial Bold font
c.xAxis().setTitle("x/L(x)", "Arial Bold", 10);
c.yAxis().setTitle("y/L(y)", "Arial Bold", 10);
c.zAxis().setTitle("Wave Function Amplitude", "Arial Bold", 10);
// Output the chart
viewer.Image = c.makeImage();
}
public void Draw(WinChartViewer viewer)
{
Mat img = new Mat(imgPath);
Mat grayScale = new Mat(img.Rows, img.Cols, MatType.CV_8UC1);
grayScale = img.CvtColor(ColorConversionCodes.BGR2GRAY);
byte[,] data = new byte[grayScale.Rows, grayScale.Cols];
for (int i = 0; i < grayScale.Rows; i++)
{
for (int j = 0; j < grayScale.Cols; j++)
{
data[i, j] = grayScale.At <Byte>(i, j);
}
}
double[] dataX = new double[grayScale.Rows * grayScale.Cols];
double[] dataY = new double[grayScale.Rows * grayScale.Cols];
double[] dataZ = new double[grayScale.Rows * grayScale.Cols]; //GrayValue
int SIZE = 0;
for (int x = 0; x < grayScale.Rows; x++)
{
for (int y = 0; y < grayScale.Cols; y++)
{
dataX[SIZE] = x;
dataY[SIZE] = y;
dataZ[SIZE] = data[x, y];
SIZE++;
}
}
SurfaceChart c = new SurfaceChart(595, 400);
c.setPlotRegion(240, 170, 250, 250, 180);
c.setData(dataX, dataY, dataZ);
c.setInterpolation(100, 100);
c.setViewAngle(elevationAngle, rotationAngle);
c.setShadingMode(Chart.RectangularFrame);
c.setColorAxis(530, 270, Chart.Left, 200, Chart.Right);
c.setWallColor(0x000000);
c.setWallGrid(0xffffff, 0xffffff, 0xffffff, 0x888888, 0x888888, 0x888888);
c.setWallThickness(0, 0, 0);
c.setWallVisibility(true, false, false);
c.xAxis().setTitle("Y Axis", "Arial Bold", 15);
c.yAxis().setTitle("X Axis", "Arial Bold", 15);
c.xAxis().setLabelStyle("Arial", 10);
c.yAxis().setLabelStyle("Arial", 10);
c.zAxis().setLabelStyle("Arial", 10);
c.colorAxis().setLabelStyle("Arial", 10);
// Output the chart
viewer.Chart = c;
}
//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 x and y coordinates of the grid
double[] dataX = { -10, -9, -8, -7, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4,
5, 6, 7, 8, 9, 10 };
double[] dataY = { -10, -9, -8, -7, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4,
5, 6, 7, 8, 9, 10 };
// The values at the grid points. In this example, we will compute the
// values using the formula z = x * sin(y) + y * sin(x).
double[] dataZ = new double[(dataX.Length) * (dataY.Length)];
for (int yIndex = 0; yIndex < dataY.Length; ++yIndex)
{
double y = dataY[yIndex];
for (int xIndex = 0; xIndex < dataX.Length; ++xIndex)
{
double x = dataX[xIndex];
dataZ[yIndex * (dataX.Length) + xIndex] = x * Math.Sin(y) + y *
Math.Sin(x);
}
}
// Create a SurfaceChart object of size 720 x 600 pixels
SurfaceChart c = new SurfaceChart(720, 600);
// Add a title to the chart using 20 points Times New Roman Italic font
c.addTitle("Surface Energy Density ", "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);
// Set the data to use to plot the chart
c.setData(dataX, dataY, dataZ);
// Spline interpolate data to a 80 x 80 grid for a smooth surface
c.setInterpolation(80, 80);
// 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 (nm)", "Arial Bold", 10);
c.yAxis().setTitle("Y (nm)", "Arial Bold", 10);
c.zAxis().setTitle("Energy Density (J/m<*font,super*>2<*/font*>)",
"Arial Bold", 10);
// Output the chart
viewer.Image = c.makeImage();
}
//
// Create chart
//
private void createChart(RazorChartViewer viewer)
{
// The x and y coordinates of the grid
DateTime[] dataX = { new DateTime(2008, 9, 1), new DateTime(2008, 9, 2), new DateTime(2008, 9,
3), new DateTime(2008, 9, 4), new DateTime(2008, 9, 5), new DateTime(2008,9, 6) };
string[] dataY = { "Low", "Medium", "High" };
// The data series
double[] lowData = { 24, 38, 33, 25, 28, 36 };
double[] mediumData = { 49, 42, 34, 47, 53, 50 };
double[] highData = { 44, 51, 38, 33, 47, 42 };
// Create a SurfaceChart object of size 760 x 500 pixels
SurfaceChart c = new SurfaceChart(760, 500);
// Add a title to the chart using 18 points Arial font
c.addTitle("Surface Chart Axis Types", "Arial", 18);
// Set the center of the plot region at (385, 240), and set width x depth x height to 480 x
// 240 x 240 pixels
c.setPlotRegion(385, 240, 480, 240, 240);
// Set the elevation and rotation angles to 30 and -10 degrees
c.setViewAngle(30, -10);
// Set the data to use to plot the chart. As the y-data are text strings (enumerated), we
// will use an empty array for the y-coordinates. For the z data series, they are just the
// concatenation of the individual data series.
c.setData(Chart.CTime(dataX), null, new ArrayMath(lowData).insert(mediumData).insert(highData
).result());
// Set the y-axis labels
c.yAxis().setLabels(dataY);
// Set x-axis tick density to 75 pixels. ChartDirector auto-scaling will use this as the
// guideline when putting ticks on the x-axis.
c.xAxis().setTickDensity(75);
// Spline interpolate data to a 80 x 40 grid for a smooth surface
c.setInterpolation(80, 40);
// Set surface grid lines to semi-transparent black (cc000000).
c.setSurfaceAxisGrid(unchecked ((int)0xcc000000));
// Set contour lines to the same color as the fill color at the contour level
c.setContourColor(Chart.SameAsMainColor);
// Add a color axis (the legend) in which the top right corner is anchored at (95, 100). Set
// the length to 160 pixels and the labels on the left side.
ColorAxis cAxis = c.setColorAxis(95, 100, Chart.TopRight, 160, Chart.Left);
// Add a bounding box with light grey (eeeeee) background and grey (888888) border.
cAxis.setBoundingBox(0xeeeeee, 0x888888);
// Set label style to Arial bold for all axes
c.xAxis().setLabelStyle("Arial Bold");
c.yAxis().setLabelStyle("Arial Bold");
c.zAxis().setLabelStyle("Arial Bold");
c.colorAxis().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.Image = c.makeWebImage(Chart.JPG);
}
//
// Create chart
//
private void createChart(RazorChartViewer viewer)
{
// The x and y coordinates of the grid
double[] dataX = { -10, -9, -8, -7, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
double[] dataY = { -10, -9, -8, -7, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
// The values at the grid points. In this example, we will compute the values using the
// formula z = Sin(x * x / 128 - y * y / 256 + 3) * Cos(x / 4 + 1 - Exp(y / 8))
double[] dataZ = new double[dataX.Length * dataY.Length];
for (int yIndex = 0; yIndex < dataY.Length; ++yIndex)
{
double y = dataY[yIndex];
for (int xIndex = 0; xIndex < dataX.Length; ++xIndex)
{
double x = dataX[xIndex];
dataZ[yIndex * dataX.Length + xIndex] = Math.Sin(x * x / 128.0 - y * y / 256.0 + 3) *
Math.Cos(x / 4.0 + 1 - Math.Exp(y / 8.0));
}
}
// Create a SurfaceChart object of size 750 x 600 pixels
SurfaceChart c = new SurfaceChart(750, 600);
// Add a title to the chart using 20 points Times New Roman Italic font
c.addTitle("Surface Energy Density ", "Times New Roman Italic", 20);
// Set the center of the plot region at (380, 260), and set width x depth x height to 360 x
// 360 x 270 pixels
c.setPlotRegion(380, 260, 360, 360, 270);
// Set the elevation and rotation angles to 30 and 210 degrees
c.setViewAngle(30, 210);
// Set the perspective level to 60
c.setPerspective(60);
// Set the data to use to plot the chart
c.setData(dataX, dataY, dataZ);
// Spline interpolate data to a 80 x 80 grid for a smooth surface
c.setInterpolation(80, 80);
// Use semi-transparent black (c0000000) for x and y major surface grid lines. Use dotted
// style for x and y minor surface grid lines.
int majorGridColor = unchecked ((int)0xc0000000);
int minorGridColor = c.dashLineColor(majorGridColor, Chart.DotLine);
c.setSurfaceAxisGrid(majorGridColor, majorGridColor, minorGridColor, minorGridColor);
// Set contour lines to semi-transparent white (80ffffff)
c.setContourColor(unchecked ((int)0x80ffffff));
// Add a color axis (the legend) in which the left center is anchored at (665, 280). Set the
// length to 200 pixels and the labels on the right side.
c.setColorAxis(665, 280, Chart.Left, 200, Chart.Right);
// Set the x, y and z axis titles using 12 points Arial Bold font
c.xAxis().setTitle("X Title\nPlaceholder", "Arial Bold", 12);
c.yAxis().setTitle("Y Title\nPlaceholder", "Arial Bold", 12);
c.zAxis().setTitle("Z Title Placeholder", "Arial Bold", 12);
// Output the chart
viewer.Image = c.makeWebImage(Chart.JPG);
}
public void drawChart(WinChartViewer viewer)
{
if (openFileFlag == false)
{
if (openFileDialog1.ShowDialog() == System.Windows.Forms.DialogResult.OK)
{
openFileFlag = true;
string filename = openFileDialog1.FileName;
dt1 = GetDataTableFromCsv(filename, false);
}
}
double[] xData = new double[dt1.Rows.Count * dt1.Columns.Count];
double[] yData = new double[dt1.Rows.Count * dt1.Columns.Count];
double[] zData = new double[dt1.Rows.Count * dt1.Columns.Count];
int temp = 0;
for (int x = 0; x < dt1.Rows.Count; x++)
{
for (int y = 0; y < dt1.Columns.Count; y++)
{
xData[temp] = x;
yData[temp] = y;
zData[temp] = Convert.ToInt64(dt1.Rows[x][y]);
temp += 1;
}
}
c = null;
// Create a SurfaceChart object of size 720 x 600 pixels
c = new SurfaceChart(720, 600);
// Set the center of the plot region at (330, 290),
//and set width x depth x height to
// 360 x 360 x 270 pixels
c.setPlotRegion(330, 290, 360, 360, 270);
// Set the data to use to plot the chart
c.setData(xData, yData, zData);
// Spline interpolate data to a 80 x 80 grid for a smooth surface
c.setInterpolation(80, 80);
// Set the view angles
c.setViewAngle(elevationAngle, rotationAngle);
// Check if draw frame only during rotation
if (isDragging && DrawFrameOnRotate.Checked)
{
c.setShadingMode(Chart.RectangularFrame);
}
// Add a color axis (the legend) in which the left center is anchored
//at (650, 270). Set the length to 200 pixels and the labels on the
//right side.
c.setColorAxis(650, 270, Chart.Left, 200, Chart.Right);
// Set the x, y and z axis titles using 10 points Arial Bold font
c.xAxis().setTitle("X", "Arial Bold", 15);
c.yAxis().setTitle("Y", "Arial Bold", 15);
// Set axis label font
c.xAxis().setLabelStyle("Arial", 10);
c.yAxis().setLabelStyle("Arial", 10);
c.zAxis().setLabelStyle("Arial", 10);
c.colorAxis().setLabelStyle("Arial", 10);
// 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(WPFChartViewer viewer, int chartIndex)
{
// The (x, y, z) coordinates of the scattered data
double[] dataX = { 0.5, 1.9, 4.9, 1.0, 8.9, 9.8, 5.9, 2.9, 6.8, 9.0, 0.0, 8.9, 1.9, 4.8,
2.4, 3.4, 7.9, 7.5, 4.8, 7.5, 9.5, 0.4, 8.9, 0.9, 5.4, 9.4, 2.9, 8.9, 0.9, 8.9,
10.0, 1.0, 6.8, 3.8, 9.0, 5.3, 6.4, 4.9, 4.5, 2.0, 5.4, 0.0, 10.0, 3.9, 5.4, 5.9,
5.8, 0.3, 4.4, 8.3 };
double[] dataY = { 3.3, 3.0, 0.7, 1.0, 9.3, 4.5, 8.4, 0.1, 0.8, 0.1, 9.3, 1.8, 4.3, 1.3,
2.3, 5.4, 6.9, 9.0, 9.8, 7.5, 1.8, 1.4, 4.5, 7.8, 3.8, 4.0, 2.9, 2.4, 3.9, 2.9, 2.3,
9.3, 2.0, 3.4, 4.8, 2.3, 3.4, 2.3, 1.5, 7.8, 4.5, 0.9, 6.3, 2.4, 6.9, 2.8, 1.3, 2.9,
6.4, 6.3 };
double[] dataZ = { 6.6, 12.5, 7.4, 6.2, 9.6, 13.6, 19.9, 2.2, 6.9, 3.4, 8.7, 8.4, 7.8,
8.0, 9.4, 11.9, 9.6, 15.7, 12.0, 13.3, 9.6, 6.4, 9.0, 6.9, 4.6, 9.7,10.6, 9.2, 7.0,
6.9, 9.7, 8.6, 8.0, 13.6, 13.2, 5.9, 9.0, 3.2, 8.3, 9.7, 8.2, 6.1, 8.7, 5.6, 14.9,
9.8, 9.3, 5.1, 10.8, 9.8 };
// Create a SurfaceChart object of size 680 x 550 pixels. Set background to brushed
// silver and border to grey (888888). Set the top-left and bottom-right corners to
// rounded corners with 20 pixels radius.
SurfaceChart c = new SurfaceChart(680, 550, Chart.brushedSilverColor(), 0x888888);
c.setRoundedFrame(0xffffff, 20, 0, 20, 0);
// Add a title to the chart using 20 points Times New Roman Italic font. Set top/bottom
// margin to 8 pixels.
ChartDirector.TextBox title = c.addTitle("Surface Created Using Scattered Data Points",
"Times New Roman Italic", 20);
title.setMargin2(0, 0, 8, 8);
// Add a 2 pixel wide black (000000) separator line under the title
c.addLine(10, title.getHeight(), c.getWidth() - 10, title.getHeight(), 0x000000, 2);
// Set the center of the plot region at (290, 235), and set width x depth x height to
// 360 x 360 x 180 pixels
c.setPlotRegion(290, 235, 360, 360, 180);
// Set the elevation and rotation angles to 45 and -45 degrees
c.setViewAngle(45, -45);
// Set the perspective level to 30
c.setPerspective(30);
// Set the data to use to plot the chart
c.setData(dataX, dataY, dataZ);
// Add a color axis (the legend) in which the top right corner is anchored at (660, 80).
// Set the length to 200 pixels and the labels on the right side.
ColorAxis cAxis = c.setColorAxis(660, 80, Chart.TopRight, 200, Chart.Right);
// Set the color axis title with 12 points Arial Bold font
cAxis.setTitle("Z Title Placeholder", "Arial Bold", 12);
// Add a bounding box with light grey (eeeeee) background and grey (888888) border. Set
// the top-left and bottom-right corners to rounded corners of 10 pixels radius.
cAxis.setBoundingBox(0xeeeeee, 0x888888);
cAxis.setRoundedCorners(10, 0, 10, 0);
// Set surface grid lines to semi-transparent black (cc000000)
c.setSurfaceAxisGrid(unchecked ((int)0xcc000000));
// Set contour lines to semi-transparent white (80ffffff)
c.setContourColor(unchecked ((int)0x80ffffff));
// Set the walls to black in color
c.setWallColor(0x000000);
// Set the xyz major wall grid lines to white (ffffff), and minor wall grid lines to
// grey (888888)
c.setWallGrid(0xffffff, 0xffffff, 0xffffff, 0x888888, 0x888888, 0x888888);
// Set the wall thickness to 0
c.setWallThickness(0, 0, 0);
// Show only the xy wall, and hide the yz and zx walls.
c.setWallVisibility(true, false, false);
// Set the x, y and z axis titles using 12 points Arial Bold font
c.xAxis().setTitle("X Title\nPlaceholder", "Arial Bold", 12);
c.yAxis().setTitle("Y Title\nPlaceholder", "Arial Bold", 12);
// Output the chart
viewer.Chart = c;
}
public void drawChart(WinChartViewer viewer)
{
var pDocument = CDocument.GetDocument;
CInspectionResult.CResult objResult = pDocument.GetInspectionResultAlign(m_iPositionInspection);
do
{
double[,] objData = { { 0, 0 }, { 0, 0 } };
try {
if (enumImageType.IMAGE_ORIGIN == m_eImageType)
{
if (null != objResult.objResultCommon.obj3DDataHeightCrop2d)
{
objData = objResult.objResultCommon.obj3DDataHeightCrop2d;
}
}
else
{
if (null != objResult.objResultCommon.obj3DResultHeightData && m_iPositionCrop < objResult.objResultCommon.obj3DResultHeightData.Count)
{
objData = objResult.objResultCommon.obj3DResultHeightData[m_iPositionCrop];
}
}
double[] xData = new double[objData.GetLength(0) * objData.GetLength(1)];
double[] yData = new double[objData.GetLength(0) * objData.GetLength(1)];
double[] zData = new double[objData.GetLength(0) * objData.GetLength(1)];
int temp = 0;
// for( int x = 0; x < objData.GetLength( 1 ); x++ ) {
// for( int y = 0; y < objData.GetLength( 0 ); y++ ) {
// xData[ temp ] = x;
// yData[ temp ] = y;
// zData[ temp ] = objData[ y, x ];
// temp += 1;
// }
// }
int iX = 0, iY = 0;
for (int x = objData.GetLength(1) - 1; x >= 0; x--)
{
iY = 0;
for (int y = objData.GetLength(0) - 1; y >= 0; y--)
{
//for( int y = 0; y < objData.GetLength( 0 ); y++ ) {
xData[temp] = x;
yData[temp] = y;
zData[temp] = objData[iY, x];
if (enumImageType.IMAGE_CROP == m_eImageType)
{
if (-1 < objData[iY, x])
{
zData[temp] = objData[iY, x];
}
else
{
zData[temp] = -1;
}
}
temp += 1;
iY++;
}
iX++;
}
zData[0] = 0.5;
zData[1] = -0.5;
c = null;
// Create a SurfaceChart object of size 720 x 600 pixels
c = new SurfaceChart(1082, 698);
// Set the center of the plot region at (330, 290),
//and set width x depth x height to
// 360 x 360 x 270 pixels
c.setPlotRegion(1082 / 2, 698 / 2, 700, 400, 400);
// Set the data to use to plot the chart
c.setData(xData, yData, zData);
// Spline interpolate data to a 80 x 80 grid for a smooth surface
c.setInterpolation(150, 150);
// Set the view angles
c.setViewAngle(elevationAngle, rotationAngle);
// Check if draw frame only during rotation
if (isDragging && true /*DrawFrameOnRotate.Checked*/)
{
c.setShadingMode(Chart.RectangularFrame);
}
// Add a color axis (the legend) in which the left center is anchored
//at (650, 270). Set the length to 200 pixels and the labels on the
//right side.
c.setColorAxis(1000, 270, Chart.Left, 200, Chart.Right);
// Set the x, y and z axis titles using 10 points Arial Bold font
c.xAxis().setTitle("X", "Arial Bold", 15);
c.yAxis().setTitle("Y", "Arial Bold", 15);
// Set axis label font
c.xAxis().setLabelStyle("Arial", 10);
c.yAxis().setLabelStyle("Arial", 10);
c.zAxis().setLabelStyle("Arial", 10);
c.colorAxis().setLabelStyle("Arial", 10);
// Output the chart
viewer.Chart = c;
} catch (Exception ex) {
pDocument.SetUpdateLog(CDefine.enumLogType.LOG_VISION_EXCEPTION_CAMERA_0, "Draw Chart : " + ex.ToString());
}
} while(false);
}
private void btnRunBacktests_Click(object sender, EventArgs e)
{
SurfaceChart c = new SurfaceChart(1004, 626);
c.addTitle("Optimization surface plot");
c.setPlotRegion(350, 280, 360, 360, 270);
c.xAxis().setTitle("Minimum change [%]", "Arial Bold", 10);
c.yAxis().setTitle("Hold time [hr]", "Arial Bold", 10);
c.setColorAxis(645, 270, Chart.Left, 200, Chart.Right).setColorGradient();
int changemin = (int)numChangeMin.Value;
int changemax = (int)numChangeMax.Value;
bool relative = chkChangeRel.Checked;
int timemin = (int)numTimeMin.Value;
int timemax = (int)numTimeMax.Value;
decimal changestep = 1;
if (rad_1.Checked)
{
changestep = 1;
}
else if (rad_01.Checked)
{
changestep = (decimal)0.1;
}
else if (rad_001.Checked)
{
changestep = (decimal)0.01;
}
else if (rad_0001.Checked)
{
changestep = (decimal)0.001;
}
int timestep = 1;
if (radDays.Checked)
{
timestep *= 24;
timemin *= 24;
timemax *= 24;
}
else if (radWeeks.Checked)
{
timestep *= 24 * 7;
timemin *= 24 * 7;
timemax *= 24 * 7;
}
else if (radMonths.Checked)
{
timestep *= 24 * 7 * 30;
timemin *= 24 * 7 * 30;
timemax *= 24 * 7 * 30;
}
decimal[] X = linearSpace(changemin, changestep, changemax);
int[] Y = linearSpacedInts(timemin, timestep, timemax);
decimal[] Z = new decimal[X.Length * Y.Length];
for (int i = 0; i < Y.Length; i++)
{
for (int j = 0; j < X.Length; j++)
{
Z[j + i * X.Length] = BackTest.SimpleHoldStrategyResult(effect, cause,
relative, (decimal)0.01 * X[j], Y[i]);
}
}
decimal[] Y_decimal = new decimal[Y.Length];
for (int k = 0; k < Y.Length; k++)
{
Y_decimal[k] = (decimal)Y[k];
}
//convert to double
double[] X_double = Array.ConvertAll(X, x => (double)x);
double[] Y_double = Array.ConvertAll(Y, x => (double)x);
double[] Z_double = Array.ConvertAll(Z, x => (double)x);
c.setData(X_double, Y_double, Z_double);
surface1.Chart = c;
}
