private void RenderFeature(SKCanvas canvas, IViewport viewport, IStyle style, IFeature feature) { if (feature.Geometry is Point) { PointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolTextureCache); } else if (feature.Geometry is MultiPoint) { MultiPointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolTextureCache); } else if (feature.Geometry is LineString) { LineStringRenderer.Draw(canvas, viewport, style, feature.Geometry); } else if (feature.Geometry is MultiLineString) { MultiLineStringRenderer.Draw(canvas, viewport, style, feature.Geometry); } else if (feature.Geometry is Polygon) { PolygonRenderer.Draw(canvas, viewport, style, feature.Geometry); } else if (feature.Geometry is MultiPolygon) { MultiPolygonRenderer.Draw(canvas, viewport, style, feature.Geometry); } else if (feature.Geometry is IRaster) { RasterRenderer.Draw(canvas, viewport, style, feature, _tileTextureCache, _currentIteration); } }
private void RenderFeature(SKCanvas canvas, IReadOnlyViewport viewport, IStyle style, IFeature feature, float layerOpacity) { if (feature.Geometry is Point) { PointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolCache, layerOpacity * style.Opacity); } else if (feature.Geometry is MultiPoint) { MultiPointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolCache, layerOpacity * style.Opacity); } else if (feature.Geometry is LineString) { LineStringRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity); } else if (feature.Geometry is MultiLineString) { MultiLineStringRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity); } else if (feature.Geometry is Polygon) { PolygonRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity, _symbolCache); } else if (feature.Geometry is MultiPolygon) { MultiPolygonRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity, _symbolCache); } else if (feature.Geometry is IRaster) { RasterRenderer.Draw(canvas, viewport, style, feature, layerOpacity * style.Opacity, _tileCache, _currentIteration); } }
public static void Draw(SKCanvas canvas, IViewport viewport, IStyle style, IFeature feature, IGeometry geometry) { var multiPolygon = (MultiPolygon)geometry; foreach (var polygon in multiPolygon) { PolygonRenderer.Draw(canvas, viewport, style, feature, polygon); } }
public static void Draw(SKCanvas canvas, IReadOnlyViewport viewport, IStyle style, IFeature feature, MultiPolygon multiPolygon, float opacity, SymbolCache?symbolCache = null) { foreach (var geometry in multiPolygon.Geometries) { var polygon = (Polygon)geometry; PolygonRenderer.Draw(canvas, viewport, style, feature, polygon, opacity, symbolCache); } }
public static void Draw(SKCanvas canvas, IReadOnlyViewport viewport, IStyle style, IFeature feature, IGeometry geometry, float opacity, SymbolCache symbolCache = null) { var multiPolygon = (MultiPolygon)geometry; foreach (var polygon in multiPolygon) { PolygonRenderer.Draw(canvas, viewport, style, feature, polygon, opacity, symbolCache); } }
public static void Draw(SKCanvas canvas, IReadOnlyViewport viewport, IStyle?style, RectFeature rectFeature, float opacity) { try { PolygonRenderer.Draw(canvas, viewport, style, rectFeature, rectFeature.Rect.ToPolygon(), opacity); } catch (Exception ex) { Logger.Log(LogLevel.Error, ex.Message, ex); } }
private void RenderFeature(SKCanvas canvas, IReadOnlyViewport viewport, ILayer layer, IStyle style, IFeature feature, float layerOpacity) { // Check, if we have a special renderer for this style if (StyleRenderers.ContainsKey(style.GetType())) { // Save canvas canvas.Save(); // We have a special renderer, so try, if it could draw this var result = ((ISkiaStyleRenderer)StyleRenderers[style.GetType()]).Draw(canvas, viewport, layer, feature, style, _symbolCache); // Restore old canvas canvas.Restore(); // Was it drawn? if (result) { // Yes, special style renderer drawn correct return; } } // No special style renderer handled this up to now, than try standard renderers if (feature.Geometry is Point) { PointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolCache, layerOpacity * style.Opacity); } else if (feature.Geometry is MultiPoint) { MultiPointRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, _symbolCache, layerOpacity * style.Opacity); } else if (feature.Geometry is LineString) { LineStringRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity); } else if (feature.Geometry is MultiLineString) { MultiLineStringRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity); } else if (feature.Geometry is Polygon) { PolygonRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity, _symbolCache); } else if (feature.Geometry is MultiPolygon) { MultiPolygonRenderer.Draw(canvas, viewport, style, feature, feature.Geometry, layerOpacity * style.Opacity, _symbolCache); } else if (feature.Geometry is IRaster) { RasterRenderer.Draw(canvas, viewport, style, feature, layerOpacity * style.Opacity, _tileCache, _currentIteration); } }
private static void Draw(SKCanvas canvas, IReadOnlyViewport viewport, IStyle style, float layerOpacity, IFeature feature, Geometry?geometry, SymbolCache symbolCache) { if (geometry is Point point) { PointRenderer.Draw(canvas, viewport, style, feature, point.X, point.Y, symbolCache, layerOpacity * style.Opacity); } else if (geometry is MultiPoint multiPoint) { MultiPointRenderer.Draw(canvas, viewport, style, feature, multiPoint, symbolCache, layerOpacity * style.Opacity); } else if (geometry is LineString lineString) { LineStringRenderer.Draw(canvas, viewport, style, feature, lineString, layerOpacity * style.Opacity); } else if (geometry is MultiLineString multiLineString) { MultiLineStringRenderer.Draw(canvas, viewport, style, feature, multiLineString, layerOpacity * style.Opacity); } else if (geometry is Polygon polygon) { PolygonRenderer.Draw(canvas, viewport, style, feature, polygon, layerOpacity * style.Opacity, symbolCache); } else if (geometry is MultiPolygon multiPolygon) { MultiPolygonRenderer.Draw(canvas, viewport, style, feature, multiPolygon, layerOpacity * style.Opacity, symbolCache); } else if (geometry is GeometryCollection collection) { for (var i = 0; i < collection.NumGeometries; i++) { Draw(canvas, viewport, style, layerOpacity, feature, collection.GetGeometryN(i), symbolCache); } } else { Logger.Log(LogLevel.Warning, $"Failed to find renderer for geometry feature of type {geometry?.GetType()}"); } }
public bool Draw(SKCanvas canvas, IReadOnlyViewport viewport, ILayer layer, IFeature feature, IStyle style, ISymbolCache symbolCache, long iteration) { try { var vectorStyle = (VectorStyle)style; var opacity = (float)(layer.Opacity * style.Opacity); switch (feature) { case RectFeature rectFeature: PolygonRenderer.Draw(canvas, viewport, vectorStyle, rectFeature, rectFeature.Rect.ToPolygon(), opacity); break; case PointFeature pointFeature: SymbolStyleRenderer.DrawSymbol(canvas, viewport, layer, pointFeature.Point.X, pointFeature.Point.Y, new SymbolStyle { Outline = vectorStyle.Outline, Fill = vectorStyle.Fill, Line = vectorStyle.Line }); break; case GeometryFeature geometryFeature: switch (geometryFeature.Geometry) { case GeometryCollection collection: for (var i = 0; i < collection.NumGeometries; i++) Draw(canvas, viewport, layer, new GeometryFeature(collection.GetGeometryN(i)), style, symbolCache, iteration); break; case Point point: Draw(canvas, viewport, layer, new PointFeature(point.X, point.Y), style, symbolCache, iteration); break; case Polygon polygon: PolygonRenderer.Draw(canvas, viewport, vectorStyle, feature, polygon, opacity, symbolCache); break; case LineString lineString: LineStringRenderer.Draw(canvas, viewport, vectorStyle, lineString, opacity); break; default: throw new ArgumentException("Unknown geometry of Feature"); } break; } } catch (Exception ex) { Logger.Log(LogLevel.Error, ex.Message, ex); } return true; }