private static void LoadFromCsvFile <T>(CsvDataReader <T> dataReader, string path, Action <T> callbackForEachItem) where T : ICsvData, new() { IEnumerable <T> csvData = dataReader.ReadFile(path); if (callbackForEachItem != null) { foreach (T item in csvData) { callbackForEachItem.Invoke(item); } } }
public StreamLinesSample() { InitializeComponent(); // We will set the tube path position color based on the Density string colorColumnName = "Density"; // "AngularVelocity" bool invertColorValue = false; // This needs to be set to true when using AngularVelocity // First create a gradient legend and texture var gradientStopCollection = new GradientStopCollection(); gradientStopCollection.Add(new GradientStop(Colors.Red, 1)); gradientStopCollection.Add(new GradientStop(Colors.Yellow, 0.75)); gradientStopCollection.Add(new GradientStop(Colors.Lime, 0.5)); gradientStopCollection.Add(new GradientStop(Colors.Aqua, 0.25)); gradientStopCollection.Add(new GradientStop(Colors.Blue, 0)); var linearGradientBrush = new LinearGradientBrush(gradientStopCollection, new System.Windows.Point(0, 1), // startPoint (offset == 0) - note that y axis is down (so 1 is bottom) new System.Windows.Point(0, 0)); // endPoint (offset == 1) // Create Legend control var gradientColorLegend = new GradientColorLegend() { Width = 70, Height = 200, Margin = new Thickness(5, 5, 5, 5) }; gradientColorLegend.GradientBrush = linearGradientBrush; var gradientTexture = gradientColorLegend.RenderToTexture(size: 256, isHorizontal: true); var imageBrush = new ImageBrush(gradientTexture); // IMPORTANT: // When texture coordinates have one components (for example y) always set to 0, // we need to change the ViewportUnits from the default RelativeToBoundingBox to Absolute. imageBrush.ViewportUnits = BrushMappingMode.Absolute; var gradientMaterial = new DiffuseMaterial(imageBrush); // Now load sample data // Sample data was created by using ParaView application and exporting the streamlines into csv file. string sampleDataFileName = System.IO.Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "Resources\\Streamlines.csv"); // Create csv file reader that can read data from a csv file var csvDataReader = new CsvDataReader(); csvDataReader.ReadFile(sampleDataFileName); float minValue, maxValue; csvDataReader.GetValuesRange(colorColumnName, out minValue, out maxValue); float dataRange = maxValue - minValue; var streamlineIndexes = csvDataReader.IndividualObjectIndexes; // Create the streamlines var allStreamlineBounds = new Rect3D(); for (var i = 0; i < csvDataReader.IndividualObjectIndexes.Length - 1; i++) { Rect3D bounds; int startIndex = streamlineIndexes[i]; int endIndex = streamlineIndexes[i + 1] - 1; int dataCount = endIndex - startIndex; if (dataCount < 2) // Skip streamlines without any positions or with less then 2 positions { continue; } var positions = csvDataReader.GetPositions(startIndex, dataCount, out bounds); allStreamlineBounds.Union(bounds); var pathPositions = new Point3DCollection(positions); float[] dataValues = csvDataReader.GetValues(colorColumnName, startIndex, dataCount); // Generate texture coordinates for each path position // Because our texture is one dimensional gradient image (size 256 x 1) // we set the x coordinate in range from 0 to 1 (0 = first gradient color; 1 = last gradient color). // // Note: // If we would only set x texture coordinate and preserve y at 0, // WPF would not render the texture because the y size would be 0 // and because by default the ViewportUnits is set to RelativeToBoundingBox, // WPF "thinks" the texture is empty. // Therefore we need to set the imageBrush.ViewportUnits to Absolute. var positionsCount = pathPositions.Count; var textureCoordinates = new PointCollection(positionsCount); for (int j = 0; j < dataCount; j++) { float relativeDataValue = (dataValues[j] - minValue) / dataRange; if (invertColorValue) { relativeDataValue = 1.0f - relativeDataValue; } textureCoordinates.Add(new Point(relativeDataValue, 0)); } var tubePathMesh3D = new Ab3d.Meshes.TubePathMesh3D( pathPositions: pathPositions, pathPositionTextureCoordinates: textureCoordinates, radius: 0.03, isTubeClosed: true, isPathClosed: false, segments: 8); var geometryModel3D = new GeometryModel3D(tubePathMesh3D.Geometry, gradientMaterial); //var geometryModel3D = new GeometryModel3D(tubePathMesh3D.Geometry, new DiffuseMaterial(Brushes.Red)); geometryModel3D.BackMaterial = new DiffuseMaterial(Brushes.DimGray); var modelVisual3D = new ModelVisual3D() { Content = geometryModel3D }; MainViewport.Children.Add(modelVisual3D); } Camera1.TargetPosition = allStreamlineBounds.GetCenterPosition(); Camera1.Distance = allStreamlineBounds.GetDiagonalLength(); // Add legend control: int legendValuesCount = 5; for (int i = 0; i < legendValuesCount; i++) { float t = (float)i / (float)(legendValuesCount - 1); float oneValue = minValue + t * (maxValue - minValue); string valueLegendText = string.Format(System.Globalization.CultureInfo.InvariantCulture, "{0:0.00}", oneValue); gradientColorLegend.LegendLabels.Add(new GradientColorLegend.LegendLabel(t, valueLegendText)); } var legendTitleTextBlock = new TextBlock() { Text = colorColumnName, FontSize = 14, FontWeight = FontWeights.Bold, Foreground = Brushes.Black, HorizontalAlignment = HorizontalAlignment.Center }; var stackPanel = new StackPanel() { Orientation = Orientation.Vertical, VerticalAlignment = VerticalAlignment.Bottom, HorizontalAlignment = HorizontalAlignment.Right, Margin = new Thickness(0, 0, 5, 5) }; stackPanel.Children.Add(legendTitleTextBlock); stackPanel.Children.Add(gradientColorLegend); RootGrid.Children.Add(stackPanel); }