Beispiel #1
0
        private void TestForm_Load(object sender, EventArgs e)
        {
            winformsMap1.MapUnit      = GeographyUnit.Meter;
            winformsMap1.ZoomLevelSet = new ThinkGeoCloudMapsZoomLevelSet();
            // Set the full extent and the background color
            winformsMap1.CurrentExtent = new RectangleShape(-16697924, 9349764, -10018754, 1804723);
            winformsMap1.BackgroundOverlay.BackgroundBrush = new GeoSolidBrush(GeoColor.FromArgb(255, 198, 255, 255));

            // Please input your ThinkGeo Cloud Client ID / Client Secret to enable the background map.
            ThinkGeoCloudRasterMapsOverlay thinkGeoCloudMapsOverlay = new ThinkGeoCloudRasterMapsOverlay("ThinkGeo Cloud Client ID", "ThinkGeo Cloud Client Secret");

            winformsMap1.Overlays.Add(thinkGeoCloudMapsOverlay);

            ShapeFileFeatureSource featureSource = new ShapeFileFeatureSource("../../data/swineflu.shp");

            HeatLayer heatLayer = new HeatLayer(featureSource);
            //Creates the HeatStyle to set the properties determining the display of the heat map with earth quake data.
            //Notice that each point is treated with an intensity depending on the value of the column "other_magn1".
            //So, in addition to the density of points location, the value for each point is also going to be counted into account
            //for the coloring of the map.
            HeatStyle heatStyle = new HeatStyle();

            heatStyle.Alpha               = 255;
            heatStyle.PointRadius         = 100;
            heatStyle.PointRadiusUnit     = DistanceUnit.Kilometer;
            heatStyle.Alpha               = 180;
            heatStyle.PointIntensity      = 10;
            heatStyle.IntensityColumnName = "CONFIRMED";
            heatStyle.IntensityRangeStart = 0;
            heatStyle.IntensityRangeEnd   = 638;

            heatLayer.HeatStyle = heatStyle;

            LayerOverlay heatMapOverlay = new LayerOverlay();

            heatMapOverlay.Layers.Add(heatLayer);

            winformsMap1.Overlays.Add("HeatOverlay", heatMapOverlay);


            winformsMap1.Refresh();
        }
Beispiel #2
0
        private void TestForm_Load(object sender, EventArgs e)
        {
            // Set the full extent and the background color
            winformsMap1.CurrentExtent = new RectangleShape(-150, 64, -90, 16);
            winformsMap1.BackgroundOverlay.BackgroundBrush = new GeoSolidBrush(GeoColor.FromArgb(255, 198, 255, 255));

            //WorldMapKit
            WorldMapKitWmsDesktopOverlay worldMapKitDesktopOverlay = new WorldMapKitWmsDesktopOverlay();

            winformsMap1.Overlays.Add(worldMapKitDesktopOverlay);

            ShapeFileFeatureSource featureSource = new ShapeFileFeatureSource(@"..\..\Data\swineflu.shp");

            HeatLayer heatLayer = new HeatLayer(featureSource);
            //Creates the HeatStyle to set the properties determining the display of the heat map with earth quake data.
            //Notice that each point is treated with an intensity depending on the value of the column "other_magn1".
            //So, in addition to the density of points location, the value for each point is also going to be counted into account
            //for the coloring of the map.
            HeatStyle heatStyle = new HeatStyle();

            heatStyle.Alpha           = 255;
            heatStyle.PointRadius     = 100;
            heatStyle.PointRadiusUnit = DistanceUnit.Kilometer;
            heatStyle.Alpha           = 180;
            heatStyle.PointIntensity  = 10;

            heatStyle.IntensityColumnName = "CONFIRMED";
            heatStyle.IntensityRangeStart = 0;
            heatStyle.IntensityRangeEnd   = 638;

            heatLayer.HeatStyle = heatStyle;

            LayerOverlay heatMapOverlay = new LayerOverlay();

            heatMapOverlay.Layers.Add(heatLayer);

            winformsMap1.Overlays.Add("HeatOverlay", heatMapOverlay);


            winformsMap1.Refresh();
        }