/// <summary>
        /// Called when the sketch finishes. This is where we will create the edit operation and then execute it.
        /// </summary>
        /// <param name="geometry">The geometry created by the sketch.</param>
        /// <returns>A Task returning a Boolean indicating if the sketch complete event was successfully handled.</returns>
        protected override async Task <bool> OnSketchCompleteAsync(Geometry geometry)
        {
            if (CurrentTemplate == null || geometry == null)
            {
                return(false);
            }

            bool result = await QueuedTask.Run(() =>
            {
                // get the anno layer
                AnnotationLayer annoLayer = CurrentTemplate.Layer as AnnotationLayer;
                if (annoLayer == null)
                {
                    return(false);
                }

                // get the anno feature class
                var fc = annoLayer.GetFeatureClass() as ArcGIS.Core.Data.Mapping.AnnotationFeatureClass;
                if (fc == null)
                {
                    return(false);
                }

                // get the featureclass CIM definition which contains the labels, symbols
                var cimDefinition = fc.GetDefinition() as ArcGIS.Core.Data.Mapping.AnnotationFeatureClassDefinition;
                var labels        = cimDefinition.GetLabelClassCollection();
                var symbols       = cimDefinition.GetSymbolCollection();

                // make sure there are labels, symbols
                if ((labels.Count == 0) || (symbols.Count == 0))
                {
                    return(false);
                }


                // find the label class required
                //   typically you would use a subtype name or some other characteristic

                // use the first label class
                var label = labels[0];
                if (labels.Count > 1)
                {
                    // find a label class based on template name
                    foreach (var LabelClass in labels)
                    {
                        if (LabelClass.Name == CurrentTemplate.Name)
                        {
                            label = LabelClass;
                            break;
                        }
                    }
                }

                // each label has a textSymbol
                // the symbolName *should* be the symbolID to be used
                var symbolName = label.TextSymbol.SymbolName;
                int symbolID   = -1;
                if (!int.TryParse(symbolName, out symbolID))
                {
                    // int.TryParse fails - attempt to find the symbolName in the symbol collection
                    foreach (var symbol in symbols)
                    {
                        if (symbol.Name == symbolName)
                        {
                            symbolID = symbol.ID;
                            break;
                        }
                    }
                }
                // no symbol?
                if (symbolID == -1)
                {
                    return(false);
                }


                // use the template's inspector object
                var inspector = CurrentTemplate.Inspector;
                // get the annotation properties
                var annoProperties = inspector.GetAnnotationProperties();

                // AnnotationClassID, SymbolID and Shape are the bare minimum for an annotation feature

                // use the inspector[fieldName] to set the annotationClassid - this is allowed since annotationClassID is a guaranteed field in the annotation schema
                inspector["AnnotationClassID"] = label.ID;
                // set the symbolID too
                inspector["SymbolID"] = symbolID;

                // use the annotation properties to set the other attributes
                annoProperties.TextString        = "My annotation feature";
                annoProperties.Color             = ColorFactory.Instance.GreenRGB;
                annoProperties.VerticalAlignment = ArcGIS.Core.CIM.VerticalAlignment.Top;
                annoProperties.Underline         = true;

                // set the geometry to be the sketched line
                // when creating annotation features the shape to be passed in the create operation is the CIMTextGraphic shape
                annoProperties.Shape = geometry;

                // set the annotation properties back on the inspector
                inspector.SetAnnotationProperties(annoProperties);

                // Create an edit operation
                var createOperation  = new EditOperation();
                createOperation.Name = string.Format("Create {0}", CurrentTemplate.Layer.Name);
                createOperation.SelectNewFeatures = true;

                // create and execute using the inspector
                createOperation.Create(CurrentTemplate.Layer, inspector);
                return(createOperation.Execute());
            });

            return(result);
        }
Exemplo n.º 2
0
        public void snippets_elements()
        {
            #region Find an element on a layout
            // Reference a layoutitem in a project by name
            LayoutProjectItem layoutItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("MyLayout"));
            if (layoutItem != null)
            {
                QueuedTask.Run(() =>
                {
                    // Reference and load the layout associated with the layout item
                    Layout layout = layoutItem.GetLayout();
                    if (layout != null)
                    {
                        //Find a single specific element
                        Element rect = layout.FindElement("Rectangle") as Element;

                        //Or use the Elements collection
                        Element rect2 = layout.Elements.FirstOrDefault(item => item.Name.Equals("Rectangle"));
                    }
                });
            }
            #endregion

            Element element = null;
            #region Update element properties
            QueuedTask.Run(() =>
            {
                // update an element's name
                element.SetName("New Name");

                // update and element's visibility
                element.SetVisible(true);
            });
            #endregion
            {
                #region Get element selection count
                //Count the number of selected elements on the active layout view
                LayoutView activeLayoutView = LayoutView.Active;
                if (activeLayoutView != null)
                {
                    var selectedElements = activeLayoutView.GetSelectedElements();
                    ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show($@"Selected elements: {selectedElements.Count}");
                }
                #endregion
            }
            {
                #region Set element selection
                //The the active layout view's selection to include 2 rectangle elements
                LayoutView activeLayoutView = LayoutView.Active;
                if (activeLayoutView != null)
                {
                    QueuedTask.Run(() =>
                    {
                        Layout lyt = activeLayoutView.Layout;

                        Element rec  = lyt.FindElement("Rectangle");
                        Element rec2 = lyt.FindElement("Rectangle 2");

                        List <Element> elmList = new List <Element>
                        {
                            rec,
                            rec2
                        };

                        activeLayoutView.SelectElements(elmList);
                    });
                }
                #endregion
            }
            {
                #region Clear the layout selection
                //If the a layout view is active, the clear its selection
                LayoutView activeLayoutView = LayoutView.Active;
                if (activeLayoutView != null)
                {
                    activeLayoutView.ClearElementSelection();
                }
                #endregion
            }
            Layout  aLayout = null;
            Element elm     = null;
            #region Delete an element or elements on a layout

            QueuedTask.Run(() =>
            {
                //Delete a specific element on a layout
                aLayout.DeleteElement(elm);

                //Or delete a group of elements using a filter
                aLayout.DeleteElements(item => item.Name.Contains("Clone"));

                //Or delete all elements on a layout
                aLayout.DeleteElements(item => true);
            });
            #endregion
            #region Set Halo property of North Arrow
            //Assuming the selected item is a north arrow
            var northArrow = LayoutView.Active.GetSelectedElements().First();
            QueuedTask.Run(() =>
            {
                //Get definition of north arrow...
                var cim = northArrow.GetDefinition() as CIMMarkerNorthArrow;
                //this halo symbol is 50% transparent, no outline (i.e. 0 width)
                //First construct a polygon symbol to use in the Halo
                //Polygon symbol will need a fill and a stroke
                var polyFill   = SymbolFactory.Instance.ConstructSolidFill(ColorFactory.Instance.CreateRGBColor(0, 0, 0, 50));
                var polyStroke = SymbolFactory.Instance.ConstructStroke(ColorFactory.Instance.BlackRGB, 0);
                var haloPoly   = SymbolFactory.Instance.ConstructPolygonSymbol(polyFill, polyStroke);
                //Set the north arrow defintion of HaloSymbol and HaloSize
                ((CIMPointSymbol)cim.PointSymbol.Symbol).HaloSymbol = haloPoly;
                ((CIMPointSymbol)cim.PointSymbol.Symbol).HaloSize   = 3; //size of the halo
                                                                         //set it back
                northArrow.SetDefinition(cim);
            });
            #endregion
        }
Exemplo n.º 3
0
        public void snippets_exportLayout()
        {
            #region Export a layout

            // Reference a layoutitem in a project by name
            LayoutProjectItem layoutItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("MyLayout"));
            if (layoutItem != null)
            {
                QueuedTask.Run(() =>
                {
                    Layout layout = layoutItem.GetLayout();
                    if (layout == null)
                    {
                        return;
                    }

                    // Create BMP format with appropriate settings
                    BMPFormat BMP = new BMPFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.bmp"
                    };
                    if (BMP.ValidateOutputFilePath())
                    {
                        layout.Export(BMP);
                    }

                    // Create EMF format with appropriate settings
                    EMFFormat EMF = new EMFFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.emf"
                    };
                    if (EMF.ValidateOutputFilePath())
                    {
                        layout.Export(EMF);
                    }

                    // create eps format with appropriate settings
                    EPSFormat EPS = new EPSFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.eps"
                    };
                    if (EPS.ValidateOutputFilePath())
                    {
                        layout.Export(EPS);
                    }

                    // Create GIF format with appropriate settings
                    GIFFormat GIF = new GIFFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.gif"
                    };
                    if (GIF.ValidateOutputFilePath())
                    {
                        layout.Export(GIF);
                    }

                    // Create JPEG format with appropriate settings
                    JPEGFormat JPEG = new JPEGFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.jpg"
                    };
                    if (JPEG.ValidateOutputFilePath())
                    {
                        layout.Export(JPEG);
                    }

                    // Create PDF format with appropriate settings
                    PDFFormat PDF = new PDFFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.pdf"
                    };
                    if (PDF.ValidateOutputFilePath())
                    {
                        layout.Export(PDF);
                    }

                    // Create PNG format with appropriate settings
                    PNGFormat PNG = new PNGFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.png"
                    };
                    if (PNG.ValidateOutputFilePath())
                    {
                        layout.Export(PNG);
                    }

                    // Create SVG format with appropriate settings
                    SVGFormat SVG = new SVGFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.svg"
                    };
                    if (SVG.ValidateOutputFilePath())
                    {
                        layout.Export(SVG);
                    }

                    // Create TGA format with appropriate settings
                    TGAFormat TGA = new TGAFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.tga"
                    };
                    if (TGA.ValidateOutputFilePath())
                    {
                        layout.Export(TGA);
                    }

                    // Create TIFF format with appropriate settings
                    TIFFFormat TIFF = new TIFFFormat()
                    {
                        Resolution     = 300,
                        OutputFileName = @"C:\temp\Layout.tif"
                    };
                    if (TIFF.ValidateOutputFilePath())
                    {
                        layout.Export(TIFF);
                    }
                });
            }
            #endregion
        }
        /// <summary>
        /// Function to identify rendered and source dataset pixel values for one or more
        /// raster, mosaic and image service layers.
        /// </summary>
        /// <param name="mapPoint">Map point to identify pixel values.</param>
        public static async void CustomRasterIdentify(MapPoint mapPoint)
        {
            // Create a new list of popup pages.
            var popupContents = new List <PopupContent>();
            // Create an empty string that will represent what goes into a popup page.
            string identifiedVal = "";
            // Create the popup pages to show.
            await QueuedTask.Run(() =>
            {
                // Check if there is an active map view.
                if (MapView.Active != null)
                {
                    // Get the active map view.
                    var mapView = MapView.Active;
                    // Get the list of selected layers.
                    IReadOnlyList <Layer> selectedLayerList = MapView.Active.GetSelectedLayers();
                    if (selectedLayerList.Count == 0)
                    {
                        // If no layers are selected fill the popup page with the appropriate message.
                        // Note: you can use html tags to format the text.
                        identifiedVal += "<p>No Layers selected. Please select one or more Raster, Mosaic or Image Service layers.</p>";
                        // Add the popup page to the list of pages.
                        popupContents.Add(new PopupContent(identifiedVal, "Custom Raster Identify"));
                    }
                    else
                    {
                        // Iterate over the list of selected layers.
                        foreach (Layer currentSelectedLayer in selectedLayerList)
                        {
                            #region Get a basic raster layer from the selected layer.
                            BasicRasterLayer currentRasterLayer = null;
                            if (currentSelectedLayer is MosaicLayer)
                            {
                                // If the current selected layer is a mosaic layer,
                                MosaicLayer mosaicLayer = currentSelectedLayer as MosaicLayer;
                                // Get the image sub-layer from the mosaic layer. This is a basic raster layer.
                                currentRasterLayer = mosaicLayer.GetImageLayer() as BasicRasterLayer;
                            }
                            else if (currentSelectedLayer is BasicRasterLayer)
                            {
                                // If the current selected layer is a raster layer or image service layer,
                                // both are already basic raster layers.
                                currentRasterLayer = currentSelectedLayer as BasicRasterLayer;
                            }
                            else
                            {
                                // If the current selected layer is neither a mosaic nor a raster or image service layer,
                                // fill the popup page with the appropriate message.
                                identifiedVal += "<p>Selected layer is not a raster layer. Please select one or more Raster, Mosaic or Image Service layers.</p>";
                                // Add the popup page to the list of pages.
                                popupContents.Add(new PopupContent(identifiedVal, "Custom Raster Identify for: " + currentSelectedLayer.Name));
                                continue;
                            }
                            #endregion

                            #region Get the pixel value for the rendered raster.
                            // Add the label for the rendered pixel value.
                            identifiedVal += "<b>Rendered Pixel value: </b>";
                            // Get the raster from the current selected raster layer.
                            Raster raster = currentRasterLayer.GetRaster();
                            // If the map spatial reference is different from the spatial reference of the raster,
                            // set the map spatial reference on the raster. This will ensure the map points are
                            // correctly reprojected to image points.
                            if (mapView.Map.SpatialReference.Name != raster.GetSpatialReference().Name)
                            {
                                raster.SetSpatialReference(mapView.Map.SpatialReference);
                            }

                            // Convert the map point to be identified into an image point.
                            Tuple <int, int> imagePoint = raster.MapToPixel(mapPoint.X, mapPoint.Y);
                            if ((int)imagePoint.Item1 < 0 || (int)imagePoint.Item1 > raster.GetWidth() ||
                                (int)imagePoint.Item2 < 0 || (int)imagePoint.Item2 > raster.GetHeight())
                            {
                                // If the point is outside the image, fill the pixel value with the appropriate message.
                                identifiedVal += "Point is not within image. \n";
                            }
                            else
                            {
                                // If the point is within the image. Iterate over the bands in the raster.
                                for (int band = 0; band < raster.GetBandCount(); band++)
                                {
                                    // Get the pixel value based on the band, column and row and add the
                                    // formatted pixel value to the popup page.
                                    if (band == 0)
                                    {
                                        identifiedVal += raster.GetPixelValue(band, (int)imagePoint.Item1, (int)imagePoint.Item2).ToString();
                                    }
                                    else
                                    {
                                        identifiedVal += ", " + raster.GetPixelValue(band, (int)imagePoint.Item1, (int)imagePoint.Item2).ToString();
                                    }
                                }
                                identifiedVal += ".";
                            }
                            // Add the rendered pixel value to the popup page contents.
                            string htmlContent = "<p>" + identifiedVal + "</p>";
                            #endregion

                            #region Get the pixel value for the source raster dataset.
                            // Add the label for the source dataset pixel value.
                            identifiedVal = "<b>Dataset Pixel value: </b>";
                            // Get the basic raster dataset from the raster.
                            BasicRasterDataset basicRasterDataset = raster.GetRasterDataset();
                            if (!(basicRasterDataset is RasterDataset))
                            {
                                // If the dataset is not a raster dataset, fill the pixel value with the appropriate message.
                                identifiedVal += "Selected layer is not a Raster Layer. Please select one or more Raster, Mosaic or Image Service layers.";
                                htmlContent   += "<p>" + identifiedVal + "</p>";
                                popupContents.Add(new PopupContent(htmlContent, "Custom Raster Identify for " + currentSelectedLayer.Name));
                            }
                            // Get the raster dataset.
                            RasterDataset rasterDataset = basicRasterDataset as RasterDataset;
                            // Create a full raster from the raster dataset.
                            raster = rasterDataset.CreateFullRaster();
                            // If the map spatial reference is different from the spatial reference of the raster,
                            // Set the map spatial reference on the raster. This will ensure the map points are
                            // correctly reprojected to image points.
                            if (mapView.Map.SpatialReference.Name != raster.GetSpatialReference().Name)
                            {
                                raster.SetSpatialReference(mapView.Map.SpatialReference);
                            }

                            // Convert the map point to be identified to an image point.
                            imagePoint = raster.MapToPixel(mapPoint.X, mapPoint.Y);
                            if ((int)imagePoint.Item1 < 0 || (int)imagePoint.Item1 > raster.GetWidth() ||
                                (int)imagePoint.Item2 < 0 || (int)imagePoint.Item2 > raster.GetHeight())
                            {
                                // If the point is outside the image, fill the pixel value with the appropriate message.
                                identifiedVal += "Point is not within image. \n";
                            }
                            else
                            {
                                // If the point is within the image. Iterate over the bands in the raster.
                                for (int band = 0; band < raster.GetBandCount(); band++)
                                {
                                    // Get the pixel value based on the band, column and row and add the
                                    // formatted pixel value to the popup page.
                                    if (band == 0)
                                    {
                                        identifiedVal += raster.GetPixelValue(band, (int)imagePoint.Item1, (int)imagePoint.Item2).ToString();
                                    }
                                    else
                                    {
                                        identifiedVal += ", " + raster.GetPixelValue(band, (int)imagePoint.Item1, (int)imagePoint.Item2).ToString();
                                    }
                                }
                                identifiedVal += ".";
                            }
                            // Add the source dataset pixel value to the popup page contents.
                            htmlContent += "<p>" + identifiedVal + "</p>";
                            #endregion

                            // Add the popup page to the list of pages.
                            popupContents.Add(new PopupContent(htmlContent, "Custom Raster Identify for " + currentSelectedLayer.Name));
                            // Reset
                            identifiedVal = "";
                        }
                    }
                }
            });

            // Show custom popup with the list of popup pages created above.
            MapView.Active.ShowCustomPopup(popupContents);
        }
Exemplo n.º 5
0
        public void snippets_CreateLayoutElements()
        {
            LayoutView layoutView = LayoutView.Active;
            Layout     layout     = layoutView.Layout;

            #region Create point graphic with symbology

            //Create a simple 2D point graphic and apply an existing point style item as the symbology.
            //An alternative simple symbol is also provided below.  This would completely elminate the 4 lines of code that reference a style.

            QueuedTask.Run(() =>
            {
                //Build 2D point geometry
                Coordinate2D coord2D = new Coordinate2D(2.0, 10.0);

                //Reference a point symbol in a style
                StyleProjectItem ptStylePrjItm = Project.Current.GetItems <StyleProjectItem>().FirstOrDefault(item => item.Name == "ArcGIS 2D");
                SymbolStyleItem ptSymStyleItm  = ptStylePrjItm.SearchSymbols(StyleItemType.PointSymbol, "City Hall")[0];
                CIMPointSymbol pointSym        = ptSymStyleItm.Symbol as CIMPointSymbol;
                pointSym.SetSize(50);

                //Set symbolology, create and add element to layout
                //CIMPointSymbol pointSym = SymbolFactory.Instance.ConstructPointSymbol(ColorFactory.Instance.RedRGB, 25.0, SimpleMarkerStyle.Star);  //Alternative simple symbol
                GraphicElement ptElm = LayoutElementFactory.Instance.CreatePointGraphicElement(layout, coord2D, pointSym);
                ptElm.SetName("New Point");
            });
            #endregion

            #region Create line graphic with symbology

            //Create a simple 2D line graphic and apply an existing line style item as the symbology.
            //An alternative simple symbol is also provided below.  This would completely elminate the 4 lines of code that reference a style.

            QueuedTask.Run(() =>
            {
                //Build 2d line geometry
                List <Coordinate2D> plCoords = new List <Coordinate2D>();
                plCoords.Add(new Coordinate2D(1, 8.5));
                plCoords.Add(new Coordinate2D(1.66, 9));
                plCoords.Add(new Coordinate2D(2.33, 8.1));
                plCoords.Add(new Coordinate2D(3, 8.5));
                Polyline linePl = PolylineBuilder.CreatePolyline(plCoords);

                //Reference a line symbol in a style
                StyleProjectItem lnStylePrjItm = Project.Current.GetItems <StyleProjectItem>().FirstOrDefault(item => item.Name == "ArcGIS 2D");
                SymbolStyleItem lnSymStyleItm  = lnStylePrjItm.SearchSymbols(StyleItemType.LineSymbol, "Line with 2 Markers")[0];
                CIMLineSymbol lineSym          = lnSymStyleItm.Symbol as CIMLineSymbol;
                lineSym.SetSize(20);

                //Set symbolology, create and add element to layout
                //CIMLineSymbol lineSym = SymbolFactory.Instance.ConstructLineSymbol(ColorFactory.Instance.BlueRGB, 4.0, SimpleLineStyle.Solid);  //Alternative simple symbol
                GraphicElement lineElm = LayoutElementFactory.Instance.CreateLineGraphicElement(layout, linePl, lineSym);
                lineElm.SetName("New Line");
            });
            #endregion

            #region Create rectangle graphic with simple symbology

            //Create a simple 2D rectangle graphic and apply simple fill and outline symbols.

            QueuedTask.Run(() =>
            {
                //Build 2D envelope geometry
                Coordinate2D rec_ll = new Coordinate2D(1.0, 4.75);
                Coordinate2D rec_ur = new Coordinate2D(3.0, 5.75);
                Envelope rec_env    = EnvelopeBuilder.CreateEnvelope(rec_ll, rec_ur);

                //Set symbolology, create and add element to layout
                CIMStroke outline        = SymbolFactory.Instance.ConstructStroke(ColorFactory.Instance.BlackRGB, 5.0, SimpleLineStyle.Solid);
                CIMPolygonSymbol polySym = SymbolFactory.Instance.ConstructPolygonSymbol(ColorFactory.Instance.GreenRGB, SimpleFillStyle.DiagonalCross, outline);
                GraphicElement recElm    = LayoutElementFactory.Instance.CreateRectangleGraphicElement(layout, rec_env, polySym);
                recElm.SetName("New Rectangle");
            });
            #endregion

            #region Create text element with basic font properties

            //Create a simple point text element and assign basic symbology as well as basic text settings.

            QueuedTask.Run(() =>
            {
                //Build 2D point geometry
                Coordinate2D coord2D = new Coordinate2D(3.5, 10);

                //Set symbolology, create and add element to layout
                CIMTextSymbol sym       = SymbolFactory.Instance.ConstructTextSymbol(ColorFactory.Instance.RedRGB, 32, "Arial", "Regular");
                string textString       = "Point text";
                GraphicElement ptTxtElm = LayoutElementFactory.Instance.CreatePointTextGraphicElement(layout, coord2D, textString, sym);
                ptTxtElm.SetName("New Point Text");

                //Change additional text properties
                ptTxtElm.SetAnchor(Anchor.CenterPoint);
                ptTxtElm.SetX(4.5);
                ptTxtElm.SetY(9.5);
                ptTxtElm.SetRotation(45);
            });
            #endregion

            #region Create rectangle text with more advanced symbol settings

            //Create rectangle text with background and border symbology.  Also notice how formatting tags are using within the text string.

            QueuedTask.Run(() =>
            {
                //Build 2D polygon geometry
                List <Coordinate2D> plyCoords = new List <Coordinate2D>();
                plyCoords.Add(new Coordinate2D(3.5, 7));
                plyCoords.Add(new Coordinate2D(4.5, 7));
                plyCoords.Add(new Coordinate2D(4.5, 6.7));
                plyCoords.Add(new Coordinate2D(5.5, 6.7));
                plyCoords.Add(new Coordinate2D(5.5, 6.1));
                plyCoords.Add(new Coordinate2D(3.5, 6.1));
                Polygon poly = PolygonBuilder.CreatePolygon(plyCoords);

                //Set symbolology, create and add element to layout
                CIMTextSymbol sym         = SymbolFactory.Instance.ConstructTextSymbol(ColorFactory.Instance.GreyRGB, 10, "Arial", "Regular");
                string text               = "Some Text String that is really long and is <BOL>forced to wrap to other lines</BOL> so that we can see the effects." as String;
                GraphicElement polyTxtElm = LayoutElementFactory.Instance.CreatePolygonParagraphGraphicElement(layout, poly, text, sym);
                polyTxtElm.SetName("New Polygon Text");

                //(Optionally) Modify paragraph border
                CIMGraphic polyTxtGra = polyTxtElm.Graphic;
                CIMParagraphTextGraphic cimPolyTxtGra   = polyTxtGra as CIMParagraphTextGraphic;
                cimPolyTxtGra.Frame.BorderSymbol        = new CIMSymbolReference();
                cimPolyTxtGra.Frame.BorderSymbol.Symbol = SymbolFactory.Instance.ConstructLineSymbol(ColorFactory.Instance.GreyRGB, 1.0, SimpleLineStyle.Solid);
                polyTxtElm.SetGraphic(polyTxtGra);
            });
            #endregion

            #region Create a new picture element with advanced symbol settings

            //Create a picture element and also set background and border symbology.

            QueuedTask.Run(() =>
            {
                //Build 2D envelope geometry
                Coordinate2D pic_ll = new Coordinate2D(6, 1);
                Coordinate2D pic_ur = new Coordinate2D(8, 2);
                Envelope env        = EnvelopeBuilder.CreateEnvelope(pic_ll, pic_ur);

                //Create and add element to layout
                string picPath        = @"C:\Temp\WhitePass.jpg";
                GraphicElement picElm = LayoutElementFactory.Instance.CreatePictureGraphicElement(layout, env, picPath);
                picElm.SetName("New Picture");

                //(Optionally) Modify the border and shadow
                CIMGraphic picGra                   = picElm.Graphic;
                CIMPictureGraphic cimPicGra         = picGra as CIMPictureGraphic;
                cimPicGra.Frame.BorderSymbol        = new CIMSymbolReference();
                cimPicGra.Frame.BorderSymbol.Symbol = SymbolFactory.Instance.ConstructLineSymbol(ColorFactory.Instance.BlueRGB, 2.0, SimpleLineStyle.Solid);

                cimPicGra.Frame.ShadowSymbol        = new CIMSymbolReference();
                cimPicGra.Frame.ShadowSymbol.Symbol = SymbolFactory.Instance.ConstructPolygonSymbol(ColorFactory.Instance.BlackRGB, SimpleFillStyle.Solid);

                picElm.SetGraphic(picGra);
            });
            #endregion

            #region Create a map frame and zoom to a bookmark

            //Create a map frame and also sets its extent by zooming the the extent of an existing bookmark.

            QueuedTask.Run(() =>
            {
                //Build 2D envelope geometry
                Coordinate2D mf_ll = new Coordinate2D(6.0, 8.5);
                Coordinate2D mf_ur = new Coordinate2D(8.0, 10.5);
                Envelope mf_env    = EnvelopeBuilder.CreateEnvelope(mf_ll, mf_ur);

                //Reference map, create MF and add to layout
                MapProjectItem mapPrjItem = Project.Current.GetItems <MapProjectItem>().FirstOrDefault(item => item.Name.Equals("Map"));
                Map mfMap      = mapPrjItem.GetMap();
                MapFrame mfElm = LayoutElementFactory.Instance.CreateMapFrame(layout, mf_env, mfMap);
                mfElm.SetName("New Map Frame");

                //Zoom to bookmark
                Bookmark bookmark = mfElm.Map.GetBookmarks().FirstOrDefault(b => b.Name == "Great Lakes");
                mfElm.SetCamera(bookmark);
            });
            #endregion

            #region Create a legend for a specifc map frame

            //Create a legend for an associated map frame.

            QueuedTask.Run(() =>
            {
                //Build 2D envelope geometry
                Coordinate2D leg_ll = new Coordinate2D(6, 2.5);
                Coordinate2D leg_ur = new Coordinate2D(8, 4.5);
                Envelope leg_env    = EnvelopeBuilder.CreateEnvelope(leg_ll, leg_ur);

                //Reference MF, create legend and add to layout
                MapFrame mapFrame = layout.FindElement("New Map Frame") as MapFrame;
                if (mapFrame == null)
                {
                    ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("Map frame not found", "WARNING");
                    return;
                }
                Legend legendElm = LayoutElementFactory.Instance.CreateLegend(layout, leg_env, mapFrame);
                legendElm.SetName("New Legend");
            });
            #endregion

            #region Creating group elements
            //Create an empty group element at the root level of the contents pane
            //Note: call within QueuedTask.Run()
            GroupElement grp1 = LayoutElementFactory.Instance.CreateGroupElement(layout);
            grp1.SetName("Group");

            //Create a group element inside another group element
            //Note: call within QueuedTask.Run()
            GroupElement grp2 = LayoutElementFactory.Instance.CreateGroupElement(grp1);
            grp2.SetName("Group in Group");
            #endregion Creating group elements

            {
                #region Create scale bar
                Coordinate2D llScalebar = new Coordinate2D(6, 2.5);
                MapFrame     mapframe   = layout.FindElement("New Map Frame") as MapFrame;
                //Note: call within QueuedTask.Run()
                LayoutElementFactory.Instance.CreateScaleBar(layout, llScalebar, mapframe);
                #endregion
            }
            #region How to search for scale bars in a style
            var arcgis_2d = Project.Current.GetItems <StyleProjectItem>().First(si => si.Name == "ArcGIS 2D");
            QueuedTask.Run(() => {
                var scaleBarItems = arcgis_2d.SearchScaleBars("Double Alternating Scale Bar");
            });

            #endregion

            #region How to add a scale bar from a style to a layout
            var arcgis_2dStyle = Project.Current.GetItems <StyleProjectItem>().First(si => si.Name == "ArcGIS 2D");
            QueuedTask.Run(() =>
            {
                //Imperial Double Alternating Scale Bar
                //Metric Double Alternating Scale Bar
                //or just use empty string to list them all...
                var scaleBarItem     = arcgis_2d.SearchScaleBars("Double Alternating Scale Bar").FirstOrDefault();
                Coordinate2D coord2D = new Coordinate2D(10.0, 7.0);
                MapFrame myMapFrame  = layout.FindElement("Map Frame") as MapFrame;
                LayoutElementFactory.Instance.CreateScaleBar(layout, coord2D, myMapFrame, scaleBarItem);
            });
            #endregion

            #region Create NorthArrow
            Coordinate2D llNorthArrow = new Coordinate2D(6, 2.5);
            MapFrame     mf           = layout.FindElement("New Map Frame") as MapFrame;
            //Note: call within QueuedTask.Run()
            var northArrow = LayoutElementFactory.Instance.CreateNorthArrow(layout, llNorthArrow, mf);
            #endregion

            #region How to search for North Arrows in a style
            var arcgis_2dStyles = Project.Current.GetItems <StyleProjectItem>().First(si => si.Name == "ArcGIS 2D");
            QueuedTask.Run(() => {
                var scaleBarItems = arcgis_2dStyles.SearchNorthArrows("ArcGIS North 13");
            });
            #endregion

            #region How to add a North Arrow from a style to a layout
            var arcgis2dStyles = Project.Current.GetItems <StyleProjectItem>().First(si => si.Name == "ArcGIS 2D");
            QueuedTask.Run(() => {
                var northArrowStyleItem = arcgis2dStyles.SearchNorthArrows("ArcGIS North 13").FirstOrDefault();
                Coordinate2D nArrow     = new Coordinate2D(6, 2.5);
                MapFrame newFrame       = layout.FindElement("New Map Frame") as MapFrame;
                //Note: call within QueuedTask.Run()
                var newNorthArrow = LayoutElementFactory.Instance.CreateNorthArrow(layout, nArrow, newFrame, northArrowStyleItem);
            });

            #endregion

            #region Create dynamic text
            var          title   = @"<dyn type = ""page"" property = ""name"" />";
            Coordinate2D llTitle = new Coordinate2D(6, 2.5);
            //Note: call within QueuedTask.Run()
            var titleGraphics = LayoutElementFactory.Instance.CreatePointTextGraphicElement(layout, llTitle, null) as TextElement;
            titleGraphics.SetTextProperties(new TextProperties(title, "Arial", 24, "Bold"));
            #endregion


            #region Create dynamic table

            QueuedTask.Run(() =>
            {
                //Build 2D envelope geometry
                Coordinate2D tab_ll = new Coordinate2D(6, 2.5);
                Coordinate2D tab_ur = new Coordinate2D(12, 6.5);
                Envelope tab_env    = EnvelopeBuilder.CreateEnvelope(tab_ll, tab_ur);
                MapFrame mapFrame   = layout.FindElement("New Map Frame") as MapFrame;
                // get the layer
                MapProjectItem mapPrjItem = Project.Current.GetItems <MapProjectItem>().FirstOrDefault(item => item.Name.Equals("Map"));
                Map theMap = mapPrjItem?.GetMap();
                var lyrs   = theMap?.FindLayers("Inspection Point Layer", true);
                if (lyrs?.Count > 0)
                {
                    Layer lyr  = lyrs[0];
                    var table1 = LayoutElementFactory.Instance.CreateTableFrame(layout, tab_env, mapFrame, lyr, new string[] { "No", "Type", "Description" });
                }
            });
            #endregion
        }
 public static Task <Layout> CloneAsync(this Layout layout)
 {
     return(QueuedTask.Run(() => {
         return Clone(layout);
     }));
 }
Exemplo n.º 7
0
        protected override async Task HandleMouseDownAsync(MapViewMouseButtonEventArgs e)
        {
            await QueuedTask.Run(() =>
            {
                var mapPoint = MapPointBuilder.CreateMapPoint(e.ClientPoint.X, e.ClientPoint.Y);
                var result   = ActiveMapView.GetFeatures(mapPoint);
                List <PopupContent> popups = new List <PopupContent>();
                foreach (var kvp in result)
                {
                    var layer = kvp.Key as BasicFeatureLayer;
                    if (layer == null)
                    {
                        continue;
                    }
                    var fields   = layer.GetFieldDescriptions().Where(f => f.Name == "DI_JI_HAO");
                    var tableDef = layer.GetTable().GetDefinition();
                    var oidField = tableDef.GetObjectIDField();
                    foreach (var id in kvp.Value)
                    {
                        //获取地级编号
                        //DI_JI_HAO
                        var qf = new QueryFilter()
                        {
                            WhereClause = $"{oidField} = {id}", SubFields = string.Join(",", fields.Select(f => f.Name))
                        };
                        var rows = layer.Search(qf);
                        if (!rows.MoveNext())
                        {
                            continue;
                        }
                        using (var row = rows.Current)
                        {
                            foreach (var field in fields)
                            {
                                var val = row[field.Name];
                                if (field.Name == "DI_JI_HAO")
                                {
                                    PopupContent pc = new PopupContent(new Uri("http://59.42.105.34:5001/client/?id=" + val), "林业");
                                    popups.Add(pc);
                                }
                            }
                        }
                    }
                }

                //Flash the features that intersected the sketch geometry.
                MessageBox.Show(popups.ToString());
                ActiveMapView.FlashFeature(result);
                var height             = System.Windows.SystemParameters.WorkArea.Height / 2;
                var width              = System.Windows.SystemParameters.WorkArea.Width / 2;
                var topLeftCornerPoint = new System.Windows.Point(0, 0);
                var popupDef           = new PopupDefinition()
                {
                    Append   = true,                                  // if true new record is appended to existing (if any)
                    Dockable = true,                                  // if true popup is dockable - if false Append is not applicable
                    Position = topLeftCornerPoint,                    // Position of top left corner of the popup (in pixels)
                    Size     = new System.Windows.Size(width, height) // size of the popup (in pixels)
                };

                //Show the custom pop-up with the custom commands and the default pop-up commands.
                try
                {
                    ActiveMapView.ShowCustomPopup(popups, null, true, popupDef);
                } catch (System.Exception e1)
                {
                    MessageBox.Show(string.Format("{0}", e1));
                }

                //return the collection of pop-up content object.
            });
        }
        //public async void GetTotalValues()
        public async void GetTotalValues()
        {
            long   TotalValueLow      = 0;
            long   TotalValueMedium   = 0;
            long   TotalValueHigh     = 0;
            long   targetSettingValue = 0;
            double lowSettingValue    = 0;
            double mediumSettingValue = 0;
            double highSettingValue   = 0;


            await QueuedTask.Run(() =>
            {
                // FeatureLayer CrowdLayer = MapView.Active.Map.FindLayer("CrowdPlanning") as FeatureLayer;
                FeatureLayer CrowdLayer = MapView.Active.Map.Layers.First(layer => layer.Name.Equals("CrowdPlanning")) as FeatureLayer;
                if (CrowdLayer == null)
                {
                    ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("Layer is not found");
                    return;
                }

                //CrowdLayer.Search(null)
                ArcGIS.Core.Data.Table CrowdTable = CrowdLayer.GetTable();
                QueryFilter QF = new QueryFilter
                {
                    WhereClause = "LOW > 0"
                };

                RowCursor CrowdRow = CrowdTable.Search(QF, false);

                long lowValue;
                long mediumValue;
                long highValue;


                while (CrowdRow.MoveNext())
                {
                    lowValue    = 0;
                    mediumValue = 0;
                    highValue   = 0;
                    using (Row currentRow = CrowdRow.Current)
                    {
                        lowValue      = Convert.ToInt32(currentRow["Low"]);
                        TotalValueLow = TotalValueLow + lowValue;

                        mediumValue      = Convert.ToInt32(currentRow["Medium"]);
                        TotalValueMedium = TotalValueMedium + mediumValue;

                        highValue      = Convert.ToInt32(currentRow["High"]);
                        TotalValueHigh = TotalValueHigh + highValue;

                        targetSettingValue = Convert.ToInt32(currentRow["TargetSetting"]);
                        lowSettingValue    = Convert.ToDouble(currentRow["LowSetting"]);
                        mediumSettingValue = Convert.ToDouble(currentRow["MediumSetting"]);
                        highSettingValue   = Convert.ToDouble(currentRow["HighSetting"]);
                    }
                }
            });

            // Assign values to properties
            TotalHigh   = TotalValueHigh;
            TotalMedium = TotalValueMedium;
            TotalLow    = TotalValueLow;
            // Assign setting values
            TargetSetting = targetSettingValue;
            LowSetting    = lowSettingValue;
            MediumSetting = mediumSettingValue;
            HighSetting   = highSettingValue;


            // UPDATE PIE CHARTS
            // Chart 1 - High Estimate
            KeyValuePair <string, int>[] myKeyValuePairHigh = new KeyValuePair <string, int>[]
            {
                new KeyValuePair <string, int>("High Estimate Allocated", Convert.ToInt32(TotalValueHigh)),
                new KeyValuePair <string, int>("Remaining to Estimate", Convert.ToInt32(TargetSetting))
            };
            PieChartResult = myKeyValuePairHigh;
            NotifyPropertyChanged(() => PieChartResult);

            // Chart 2 - Medium Estimate
            KeyValuePair <string, int>[] myKeyValuePairMedium = new KeyValuePair <string, int>[]
            {
                new KeyValuePair <string, int>("Medium Estimate Allocated", Convert.ToInt32(TotalValueMedium)),
                new KeyValuePair <string, int>("Remaining to Estimate", Convert.ToInt32(TargetSetting))
            };
            PieChartResultMedium = myKeyValuePairMedium;
            NotifyPropertyChanged(() => PieChartResultMedium);

            // Chart 3 - Low Estimate
            KeyValuePair <string, int>[] myKeyValuePairLow = new KeyValuePair <string, int>[]
            {
                new KeyValuePair <string, int>("Low Estimate Allocated", Convert.ToInt32(TotalValueLow)),
                new KeyValuePair <string, int>("Remaining to Estimate", Convert.ToInt32(TargetSetting))
            };
            PieChartResultLow = myKeyValuePairLow;
            NotifyPropertyChanged(() => PieChartResultLow);

            //end of GetTotalValues
        }
Exemplo n.º 9
0
        public static async Task <string> GetGeoJSONFromFeatureLayer(FeatureLayer polygonFeatureLayer)
        {
            return(await QueuedTask.Run(() => {
                QueryFilter filter = new QueryFilter
                {
                    WhereClause = "1=1"
                };

                //SpatialReference inSR = polygonFeatureLayer.GetSpatialReference();
                SpatialReference outputSR = SpatialReferenceBuilder.CreateSpatialReference(4326); // wgs84

                RowCursor rowCursor = polygonFeatureLayer.Search(filter);

                List <object> _features = new List <object>();
                List <object> _coordinates = new List <object>();

                while (rowCursor.MoveNext())
                {
                    var row = rowCursor.Current;
                    Feature feature = row as Feature;

                    Polygon inPolygon = feature.GetShape() as Polygon;

                    Polygon outPolygon = GeometryEngine.Instance.Project(inPolygon, outputSR) as Polygon;

                    IReadOnlyList <Coordinate2D> pts = outPolygon.Copy2DCoordinatesToList();

                    //List<object> _coordinates = new List<object>();
                    List <object> _main_coordinates = new List <object>();
                    //List<object> _hole_coordinates = new List<object>(); // ignore hole coordinates

                    foreach (var pt in pts)
                    {
                        double[] _pt = { pt.X, pt.Y };
                        _main_coordinates.Add(_pt);
                    }
                    _coordinates.Add(_main_coordinates);
                }
                var _geometry = new
                {
                    type = "Polygon",
                    coordinates = _coordinates
                };
                var _properties = new
                {
                    //OBJECTID =
                };
                var _feature = new
                {
                    type = "Feature",
                    geometry = _geometry,
                    properties = _properties
                };

                _features.Add(_feature);

                var geojson_object = new
                {
                    type = "FeatureCollection",
                    features = _features
                };

                // API accept multipolygon's geojson

                string geojson_string = JsonConvert.SerializeObject(geojson_object.features[0]);

                return geojson_string;
            }));
        }
 protected override void OnClick()
 {
     QueuedTask.Run(() => Module1.Current.ClearGraphics());
 }
        // Reset Settings Based on Current Settings
        public async void ResetValues(string settingsValue)
        {
            // ***  Check to ensure the densitysettings are set.  If not, show a warning and deactivate tool.
            if (HighSetting == 0 || MediumSetting == 0 || LowSetting == 0 || TargetSetting == 0)
            {
                ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("An empty setting value exists. All settings are required to use this tool.", "Warning!");
                // ** End if there are not complete settings
                return;
            }
            // else proceed with confirming a reset is desired.
            else
            {
                if (settingsValue == "current")
                {
                    // Prompt for confirmation, and if answer is no, return.
                    var result = ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("Reset all values to CURRENT settings?", "RESET VALUES", MessageBoxButton.OKCancel, MessageBoxImage.Asterisk);
                    // Return if cancel value is chosen
                    if (Convert.ToString(result) == "Cancel")
                    {
                        return;
                    }
                }

                else if (settingsValue == "default")
                {
                    // Prompt for confirmation, and if answer is no, return.
                    var result = ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("Reset all values to DEFAULT settings?", "RESET VALUES", MessageBoxButton.OKCancel, MessageBoxImage.Asterisk);
                    // Return if cancel value is chosen
                    if (Convert.ToString(result) == "Cancel")
                    {
                        return;
                    }
                }
            }

            FeatureLayer CrowdLayer = MapView.Active.Map.Layers.First(layer => layer.Name.Equals("CrowdPlanning")) as FeatureLayer;

            if (CrowdLayer == null)
            {
                ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("CrowdPlanning Layer is not found");
                return;
            }
            ArcGIS.Core.Data.Table CrowdTable = await QueuedTask.Run(() => CrowdLayer.GetTable());

            var editOperation = new EditOperation();

            editOperation.Callback(context =>
            {
                QueryFilter QF = new QueryFilter
                {
                    WhereClause = "LOW > 0"
                };

                RowCursor CrowdRow = CrowdTable.Search(QF, false);

                while (CrowdRow.MoveNext())
                {
                    using (Row currentRow = CrowdRow.Current)
                    {
                        var squarefeetValue = currentRow["Shape_Area"];
                        long squarefeetValueLong;
                        squarefeetValueLong = Convert.ToInt64(squarefeetValue);

                        if (settingsValue == "current")
                        {
                            currentRow["High"]          = (squarefeetValueLong / HighSetting);
                            currentRow["Medium"]        = (squarefeetValueLong / MediumSetting);
                            currentRow["Low"]           = (squarefeetValueLong / LowSetting);
                            currentRow["TargetSetting"] = TargetSetting;
                            currentRow["HighSetting"]   = HighSetting;
                            currentRow["MediumSetting"] = MediumSetting;
                            currentRow["LowSetting"]    = LowSetting;
                        }

                        else if (settingsValue == "default")
                        {
                            currentRow["High"]          = squarefeetValueLong / 2.5;
                            currentRow["Medium"]        = squarefeetValueLong / 4.5;
                            currentRow["Low"]           = squarefeetValueLong / 10;
                            currentRow["TargetSetting"] = TargetSetting;
                            currentRow["HighSetting"]   = 2.5;
                            currentRow["MediumSetting"] = 4.5;
                            currentRow["LowSetting"]    = 10;
                        }

                        // Store the values
                        currentRow.Store();

                        // Has to be called after the store too.
                        context.Invalidate(currentRow);
                    }
                }
                CrowdTable.Dispose();
                // close the editOperation.Callback(context
            }, CrowdTable);

            await editOperation.ExecuteAsync();

            GetTotalValues();
        }
Exemplo n.º 12
0
        public async Task SubmitExecute()
        {
            ValidationSubmitError = null;

            List <string> validationSubmitErrors = new List <string>();

            string aoi = null;

            if (_selectedAOILayer != null)
            {
                if (_selectedAOILayer is FeatureLayer)
                {
                    FeatureLayer lyr = _selectedAOILayer as FeatureLayer;

                    int featureCount = await QueuedTask.Run(() => { return(lyr.GetFeatureClass().GetCount()); });

                    if (featureCount == 0)
                    {
                        validationSubmitErrors.Add("AOI is empty.");
                    }
                    else
                    {
                        aoi = await Ag_Analytics_Module.GetGeoJSONFromFeatureLayer(lyr);
                    }
                }
                else if (_selectedAOILayer is RasterLayer)
                {
                    RasterLayer lyr            = _selectedAOILayer as RasterLayer;
                    string      default_path   = Path.GetDirectoryName(Project.Current.URI);
                    string      timestamp      = DateTime.Now.ToString("yyyyMMddHHmmss");
                    string      rasterFileName = "AOI_Raster_" + timestamp + ".tif";
                    string      outputRaster   = Path.Combine(default_path, rasterFileName);
                    var         parameters     = Geoprocessing.MakeValueArray(lyr.Name, outputRaster, "", "", "", false, false, "", false, false, "TIFF");
                    IGPResult   result         = await Geoprocessing.ExecuteToolAsync("management.CopyRaster", parameters, null, null, null, GPExecuteToolFlags.None);

                    aoi = outputRaster;
                }
            }
            else
            {
                validationSubmitErrors.Add("AOI parameter must be selected.");
            }

            string        selectedBands  = null;
            List <string> _selectedBands = new List <string>();

            foreach (var band in _bands)
            {
                if (band.Check_Status == true)
                {
                    _selectedBands.Add(band.Band_Name);
                }
            }
            if (_selectedBands.Count > 0)
            {
                selectedBands = JsonConvert.SerializeObject(_selectedBands);
            }
            else
            {
                validationSubmitErrors.Add("Bands must be selected");
            }

            //satellite: _selectedSatellite
            int    _showLatestValue = _showLatest ? 1 : 0;
            string startDate        = String.Format("{0:M/d/yyyy}", _startDate);
            string endDate          = String.Format("{0:M/d/yyyy}", _endDate);

            if (!_showLatest)
            {
                if (DateTime.Compare(_startDate, _endDate) >= 0)
                {
                    validationSubmitErrors.Add("Start Date must be earlier than End Date.");
                }
            }

            if (_downloadPath == null || string.IsNullOrEmpty(_downloadPath))
            {
                validationSubmitErrors.Add("Download path must be selected.");
            }
            else
            {
                if (!Directory.Exists(_downloadPath))
                {
                    validationSubmitErrors.Add("Download path doesn't exsist.");
                }
            }

            SpatialReference outputSpatialReference = null;

            if (selectedSpatialReference == null)
            {
                outputSpatialReference = await QueuedTask.Run(() => { return(_selectedAOILayer.GetSpatialReference()); });
            }
            else
            {
                outputSpatialReference = selectedSpatialReference;
            }

            if (outputSpatialReference.IsGeographic && _cellSize > 1)
            {
                validationSubmitErrors.Add("Resolution must be < 1 in geographic coordinate system(ex:0.0001)");
            }
            else if (outputSpatialReference.IsProjected && _cellSize < 1)
            {
                validationSubmitErrors.Add("Resolution must be > 1 in projected coordinate system(ex:10)");
            }

            if (validationSubmitErrors.Count > 0)
            {
                ValidationSubmitError = string.Join("\n", validationSubmitErrors);
                return;
            }
            if (validationInputError != null)
            {
                return;
            }

            //ProgressDialog progressDialog = new ProgressDialog("Please wait for result response...");
            //progressDialog.Show();
            int byweekValue      = _checkbyweek ? 1 : 0;
            int filterValue      = _checkfilter ? 1 : 0;
            int qafilterValue    = _checkqafilter ? 1 : 0;
            int flattendataValue = _checkflattendata ? 1 : 0;

            SubmitButtonEnabled = false;
            ResultBoxVisible    = "Hidden";
            ProgressVisible     = "Visible";
            ProgressMessage     = "Request Calling...";
            DateTime started_datetime = DateTime.Now;

            SubmitStartedTime  = started_datetime.ToString();
            ResultErrorMessage = "";

            IRestResponse apiResponse = await BackgroundTask.Run <IRestResponse>(() =>
            {
                var client     = new RestClient("https://ag-analytics.azure-api.net/hls-service/");
                client.Timeout = -1;
                var request    = new RestRequest(Method.POST);

                //request.AlwaysMultipartFormData = true;
                //request.AddHeader("Content-Type", "application/x-www-form-urlencoded");

                if (_selectedAOILayer is FeatureLayer)
                {
                    request.AddParameter("aoi", aoi);
                }
                else if (_selectedAOILayer is RasterLayer)
                {
                    request.AddFile("aoi", aoi);
                }

                request.AddParameter("Band", selectedBands);
                request.AddParameter("satellite", _selectedSatellite);

                request.AddParameter("showlatest", _showLatestValue);
                request.AddParameter("Startdate", startDate);
                request.AddParameter("Enddate", endDate);

                request.AddParameter("resolution", _cellSize);
                request.AddParameter("displaynormalvalues", _displaynormalvalues);
                request.AddParameter("qacloudperc", _qacloudperc);

                request.AddParameter("byweek", byweekValue);
                request.AddParameter("filter", filterValue);
                request.AddParameter("qafilter", qafilterValue);
                request.AddParameter("flatten_data", flattendataValue);

                request.AddParameter("projection", outputSpatialReference.Wkt);

                // these parameter options no need on ArcGIS pro
                request.AddParameter("legendtype", "Relative");
                request.AddParameter("statistics", 0);  // set always 0
                request.AddParameter("return_tif", 1);  // set always 1

                SubmitAOI                 = aoi;
                SubmitBand                = selectedBands;
                SubmitSatellite           = _selectedSatellite;
                SubmitShowLatest          = _showLatestValue.ToString();
                SubmitStartDate           = startDate;
                SubmitEndDate             = endDate;
                SubmitResolution          = _cellSize.ToString();
                SubmitDisplayNormalValues = _displaynormalvalues.ToString();
                SubmitQacloudperc         = _qacloudperc.ToString();
                SubmitByWeek              = byweekValue.ToString();
                SubmitFilter              = filterValue.ToString();
                SubmitQaFilter            = qafilterValue.ToString();
                SubmitFlattenData         = flattendataValue.ToString();
                SubmitProjection          = outputSpatialReference.Wkt;
                SubmitDownloadFolder      = _downloadPath;

                IRestResponse response = client.Execute(request);

                return(response);
            }, BackgroundProgressor.None);

            if (File.Exists(aoi))
            {
                string   default_path  = Path.GetDirectoryName(Project.Current.URI);
                string   filesToDelete = Path.GetFileNameWithoutExtension(aoi) + ".*";
                string[] fileList      = Directory.GetFiles(default_path, filesToDelete);
                foreach (string file in fileList)
                {
                    File.Delete(file);
                }
            }

            if (!apiResponse.IsSuccessful)
            {
                //ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show(response.ErrorMessage);
                //ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("Failed Result. Please try again.");
                ResultErrorMessage += "Response Error\n";
                ResultErrorMessage += apiResponse.ErrorMessage;

                DisplayFailed(started_datetime);

                return;
            }

            dynamic jsonData = JsonConvert.DeserializeObject <dynamic>(apiResponse.Content);

            ProgressMessage = "Downloading tif files...";
            try
            {
                foreach (dynamic item in jsonData)
                {
                    string filename = item.download_url;
                    await ExportFile(_downloadPath, filename);
                }
            }
            catch (Exception e)
            {
                //ArcGIS.Desktop.Framework.Dialogs.MessageBox.Show("HLS API Error. Please try again.");
                ResultErrorMessage += "Download Error\n";
                ResultErrorMessage += e.Message;

                DisplayFailed(started_datetime);

                return;
            }

            //progressDialog.Hide();
            ProgressVisible = "Hidden";
            ProgressMessage = "";
            DateTime ended_datetime = DateTime.Now;

            CompletedTime = ended_datetime.ToString();
            int seconds = (int)(ended_datetime.Subtract(started_datetime).TotalSeconds);

            ElapsedTime = seconds.ToString() + "  Seconds";

            ResultBoxBGColor   = "#3a593a";
            ResultBoxImage     = "pack://application:,,,/ArcGIS.Desktop.Resources;component/Images/DataReviewerLifecycleVerified32.png";
            ResultBoxMessage   = "Completed";
            ResultErrorMessage = "There are no errors or warnings.";

            ResultBoxVisible    = "Visible";
            SubmitButtonEnabled = true;
        }
Exemplo n.º 13
0
 public Task <ReadOnlyObservableCollection <Bookmark> > GetProjectBookmarksAsync()
 {
     //Get the collection of bookmarks for the project.
     return(QueuedTask.Run(() => Project.Current.GetBookmarks()));
 }
        private async Task AddPointsAsync()
        {
            try
            {
                // this doesn't work in real time because the layers are added asynchronously late
                var pointsLayer = MapView.Active.Map.GetLayersAsFlattenedList().Where((l) => l.Name == Module1.PointFcName).FirstOrDefault();
                if (pointsLayer == null)
                {
                    throw new Exception($@"Unable to find {Module1.PointFcName} Layer");
                }

                var polyLayer = MapView.Active.Map.GetLayersAsFlattenedList().Where((l) => l.Name == Module1.PolyFcName).FirstOrDefault();
                if (polyLayer == null)
                {
                    throw new Exception($@"Unable to find {Module1.PolyFcName} Layer");
                }

                await QueuedTask.Run(() =>
                {
                    // make 5 points
                    var centerPt = MapView.Active.Extent.Center;
                    List <MapPoint> mapPoints = new List <MapPoint>();
                    for (int pnt = 0; pnt < 5; pnt++)
                    {
                        mapPoints.Add(GeometryEngine.Instance.Move(centerPt, pnt * 150.0, pnt * 150.0) as MapPoint);
                    }
                    var editOp = new EditOperation
                    {
                        Name = "1. edit operation"
                    };
                    int iMap = 0;
                    foreach (var mp in mapPoints)
                    {
                        var attributes = new Dictionary <string, object>
                        {
                            { "Shape", mp.Clone() },
                            { "Description", $@"Map point: {++iMap}" }
                        };
                        editOp.Create(pointsLayer, attributes);
                    }
                    var result1 = editOp.Execute();
                    if (result1 != true || editOp.IsSucceeded != true)
                    {
                        throw new Exception($@"Edit 1 failed: {editOp.ErrorMessage}");
                    }
                    MessageBox.Show("1. edit operation complete");

                    editOp = new EditOperation
                    {
                        Name = "2. edit operation"
                    };
                    foreach (var mp in mapPoints)
                    {
                        var attributes = new Dictionary <string, object>
                        {
                            { "Shape", GeometryEngine.Instance.Buffer(mp, 50.0) },
                            { "Description", $@"Polygon: {iMap--}" }
                        };
                        editOp.Create(polyLayer, attributes);
                    }
                    //Execute the operations
                    var result2 = editOp.Execute();
                    if (result2 != true || editOp.IsSucceeded != true)
                    {
                        throw new Exception($@"Edit 2 failed: {editOp.ErrorMessage}");
                    }
                    MessageBox.Show("2. edit operation complete");
                });
            }
            catch (Exception ex)
            {
                MessageBox.Show($@"Error: {ex.ToString()}");
            }
        }
        protected override async void OnClick()
        {
            // make sure there's an OID from a created feature
            if (Module1.MultipatchOID == -1)
            {
                return;
            }

            if (MapView.Active?.Map == null)
            {
                return;
            }

            // find layer
            var member = MapView.Active.Map.GetLayersAsFlattenedList().FirstOrDefault(l => l.Name == "MultipatchWithTextureSimple") as FeatureLayer;

            if (member == null)
            {
                return;
            }


            // create the textures
            esriTextureCompressionType compressionType = esriTextureCompressionType.CompressionJPEG;

            byte[] brickImageBuffer     = GetBufferImage("pack://application:,,,/MultipatchBuilderEx;component/Textures/Brick.jpg", compressionType);
            var    brickTextureResource = new TextureResource(new JPEGTexture(brickImageBuffer));

            BasicMaterial brickMaterialTexture = new BasicMaterial();

            brickMaterialTexture.TextureResource = brickTextureResource;

            byte[] blocksImageBuffer     = GetBufferImage("pack://application:,,,/MultipatchBuilderEx;component/Textures/Retaining_Blocks.jpg", compressionType);
            var    blocksTextureResource = new TextureResource(new JPEGTexture(blocksImageBuffer));

            BasicMaterial blockskMaterialTexture = new BasicMaterial();

            blockskMaterialTexture.TextureResource = blocksTextureResource;

            byte[] waterImageBuffer     = GetBufferImage("pack://application:,,,/MultipatchBuilderEx;component/Textures/water.jpg", compressionType);
            var    waterTextureResource = new TextureResource(new JPEGTexture(waterImageBuffer));

            BasicMaterial waterMaterialTexture = new BasicMaterial();

            waterMaterialTexture.TextureResource = waterTextureResource;

            // set up a set of TextureCoordinates - these determine how the texture is draped over a face
            //  In this scenario we will use the same textureCoordinates for each face
            var textureCoords = new List <Coordinate2D>()
            {
                new Coordinate2D(0, 0),
                new Coordinate2D(1, 0),
                new Coordinate2D(1, -1),
                new Coordinate2D(0, 0),
                new Coordinate2D(1, -1),
                new Coordinate2D(0, -1),
            };

            bool result = await QueuedTask.Run(() =>
            {
                // get the multipatch shape using the Inspector
                var insp = new Inspector();
                insp.Load(member, Module1.MultipatchOID);
                var origMultipatch = insp.Shape as Multipatch;

                // create a builder
                var mpb = new ArcGIS.Core.Geometry.MultipatchBuilderEx(origMultipatch);

                // apply the texture materials to the patches
                var patches = mpb.Patches;

                patches[0].Material        = brickMaterialTexture;
                patches[0].TextureCoords2D = textureCoords;

                patches[1].Material        = blockskMaterialTexture;
                patches[1].TextureCoords2D = textureCoords;

                patches[2].Material        = brickMaterialTexture;
                patches[2].TextureCoords2D = textureCoords;

                patches[3].Material        = waterMaterialTexture;
                patches[3].TextureCoords2D = textureCoords;

                patches[4].Material        = blockskMaterialTexture;
                patches[4].TextureCoords2D = textureCoords;

                patches[5].Material        = waterMaterialTexture;
                patches[5].TextureCoords2D = textureCoords;

                // use this method to determine patches which contain the specified texture
                //var texture = mpb.QueryPatchIndicesWithTexture(brickTextureResource);

                // get the modified multipatch geometry
                var newMultipatch = mpb.ToGeometry() as Multipatch;

                // modify operation
                var modifyOp  = new EditOperation();
                modifyOp.Name = "Apply textures to multipatch";
                modifyOp.Modify(member, Module1.MultipatchOID, newMultipatch);

                if (modifyOp.Execute())
                {
                    return(true);
                }

                return(false);
            });
        }
Exemplo n.º 16
0
        /// <summary>
        /// Run the rotate selected junctions
        /// </summary>
        /// <param name="rotation">Rotation Angle</param>
        private void RotateSelectedJunctions(double rotation)
        {
            if (MapView.Active != null)
            {
                // Get the Network Diagram Layer
                DiagramLayer diagramLayer = GetDiagramLayerFromMap(MapView.Active.Map);
                if (diagramLayer != null)
                {
                    QueuedTask.Run(() =>
                    {
                        // Get the Network Diagram
                        NetworkDiagram diagram = diagramLayer.GetNetworkDiagram();
                        if (diagram != null)
                        {
                            try
                            {
                                List <long> junctionObjectIDs = new List <long>();

                                // get the selection by Layer
                                SelectionSet selection = MapView.Active.Map.GetSelection();

                                // Get the selection only for junctions
                                foreach (var v in selection.ToDictionary())
                                {
                                    FeatureLayer featureLayer = v.Key as FeatureLayer;
                                    if (featureLayer != null)
                                    {
                                        if (featureLayer.ShapeType != esriGeometryType.esriGeometryPoint)
                                        {
                                            continue;
                                        }

                                        junctionObjectIDs.AddRange(v.Value);
                                    }
                                }

                                // if no junction selected, work on all diagram junctions
                                DiagramElementQueryResult result;
                                if (junctionObjectIDs.Count == 0)
                                {
                                    DiagramElementQueryByElementTypes query = new DiagramElementQueryByElementTypes
                                    {
                                        QueryDiagramContainerElement = false,
                                        QueryDiagramEdgeElement      = false,
                                        QueryDiagramJunctionElement  = true
                                    };

                                    result = diagram.QueryDiagramElements(query);
                                }
                                else
                                {
                                    DiagramElementQueryByObjectIDs query = new DiagramElementQueryByObjectIDs
                                    {
                                        AddConnected      = false,
                                        AddContents       = false,
                                        JunctionObjectIDs = junctionObjectIDs
                                    };

                                    result = diagram.QueryDiagramElements(query);
                                }

                                List <DiagramJunctionElement> junctionsToSave = new List <DiagramJunctionElement>();

                                // Set the new Rotation Value
                                foreach (var junction in result.DiagramJunctionElements)
                                {
                                    if (_isRelative)
                                    {
                                        junction.Rotation += rotation;
                                    }
                                    else
                                    {
                                        junction.Rotation = rotation;
                                    }

                                    junctionsToSave.Add(junction);
                                }

                                // Save junctions if needed
                                if (junctionsToSave.Count() > 0)
                                {
                                    NetworkDiagramSubset nds = new NetworkDiagramSubset
                                    {
                                        DiagramEdgeElements      = null,
                                        DiagramContainerElements = null,
                                        DiagramJunctionElements  = junctionsToSave
                                    };

                                    diagram.SaveLayout(nds, true);

                                    MapView.Active.Redraw(true);

                                    // re set the selection
                                    if (selection.Count > 0)
                                    {
                                        MapView.Active.Map.SetSelection(selection, SelectionCombinationMethod.New);
                                    }
                                }
                            }
                            catch (GeodatabaseException e)
                            {
                                MessageBox.Show(e.Message, "Failed to Rotate Junctions ");
                            }
                        }
                    });
                }
            }
        }
Exemplo n.º 17
0
        /// <summary>
        /// Asynchrnously start the visual magnitude analysis.
        /// </summary>
        public async void StartAnalysis()
        {
            if (!ValidateInputLayers())
            {
                return;
            }
            outputFolder = CreateOutputDirectory(outputFolderName);
            if (File.Exists(outputFolder + "/" + SettingsManager.Instance.CurrentSettings.OutputFilename))
            {
                System.Windows.MessageBoxResult messageResult = MessageBox.Show("The output file already exists and will be overwritten. Continue?", "File exists!", System.Windows.MessageBoxButton.OKCancel, System.Windows.MessageBoxImage.Warning);
                if (messageResult == System.Windows.MessageBoxResult.OK)
                {
                    GarbageHelper.Instance.AddGarbage(outputFolder + "/" + SettingsManager.Instance.CurrentSettings.OutputFilename);
                    GarbageHelper.Instance.CleanUp();
                }
                else
                {
                    return;
                }
            }

            if (File.Exists(outputFolder + "/" + tmpRasterName))
            {
                GarbageHelper.Instance.AddGarbage(outputFolder + "/" + tmpRasterName);
                GarbageHelper.Instance.CleanUp();
            }

            ///most tasks have to run on MCT thread
            await QueuedTask.Run(async() => {
                outputFolder = CreateOutputDirectory(outputFolderName);
                FileSystemDatastore outputDataStore = CreateNewDatastore();

                //get viewpoints
                Raster raster         = SettingsManager.Instance.SelectedDemLayer.GetRaster();
                Projection projection = new Projection(raster, outputFolder); //make the detection automatic
                try {
                    if (await projection.CalculateViewpoints(SettingsManager.Instance.SelectedViewpointLayer) == false)
                    {
                        MessageBox.Show("Invalid viewpoint layer type.\nOnly points, lines and polylines are supported.", "Error", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Error);
                        return;
                    }
                } catch (Exception) {
                    if (!SettingsManager.Instance.CurrentSettings.OffsetGlobal)
                    {
                        MessageBox.Show("Invalid viewpoint data. Do the viewpoints have OFFSET column specified?", "Error", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Error);
                    }
                    else if (SettingsManager.Instance.CurrentSettings.WeightedViewpoints)
                    {
                        MessageBox.Show("Invalid viewpoint data. Do the viewpoints have WEIGHT column specified?", "Error", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Error);
                    }
                    else
                    {
                        MessageBox.Show("Invalid viewpoint data.", "Error", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Error);
                    }
                    return;
                }

                GeoMap elevationMap = CreateElevationMap(raster);

                //initialize work manager
                WorkManager workManager    = new WorkManager(SettingsManager.Instance.CurrentSettings.WorkerThreads);
                int invalidViewpointsCount = 0;
                foreach (SpatialUtils.ViewpointProps viewpoint in projection)
                {
                    if (viewpoint.Y < 0 || viewpoint.X < 0)
                    {
                        invalidViewpointsCount++;
                    }
                    else
                    {
                        if (SettingsManager.Instance.CurrentSettings.OffsetGlobal)
                        {
                            viewpoint.ElevationOffset = SettingsManager.Instance.CurrentSettings.AltOffset;
                        }
                        workManager.AddWork(viewpoint);
                    }
                }
                if (invalidViewpointsCount > 0)
                {
                    string message = invalidViewpointsCount.ToString()
                                     + (invalidViewpointsCount == 1
                            ? " viewpoint was invalid or failed to process."
                            : " viewpoints were invalid or failed to process.");
                    MessageBox.Show(message, "Ignored viewpoints", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Warning);
                }

                //wait for the calculation of the visual magnitude for all viewpoints to finish
                var watch = System.Diagnostics.Stopwatch.StartNew();
                workManager.StartWorking(ref elevationMap);
                WorkManager.AutoEvent.WaitOne();
                GeoMap result = workManager.GetResult();
                MessageBox.Show("Computation finished\n------------\nTime: " + watch.ElapsedMilliseconds / 1000 + " seconds\nViewpoints: " + projection.GetViewpointsCount(), "Finished", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Information);

                //save and display the result
                try {
                    WriteToRaster(raster, outputDataStore, result);
                } catch (Exception) {
                    MessageBox.Show("Cannot write data to raster.", "Error", System.Windows.MessageBoxButton.OK, System.Windows.MessageBoxImage.Error);
                }

                LayerFactory.Instance.CreateLayer(new Uri(Path.Combine(outputFolder, SettingsManager.Instance.CurrentSettings.OutputFilename)),
                                                  MapView.Active.Map);

                //clean up temporary files
                GarbageHelper.Instance.CleanUp();
            });
        }
        public void RunApplyTextTool()
        {
            QueuedTask.Run(() =>
            {
                // Take the currently selected text and update it as needed
                // get the first graphics layer in the map's collection of graphics layers
                var graphicsLayer = MapView.Active.Map.GetLayersAsFlattenedList()
                                    .OfType <ArcGIS.Desktop.Mapping.GraphicsLayer>().FirstOrDefault();
                if (graphicsLayer == null)
                {
                    return;
                }

                var selectedGraphicLayers = MapView.Active.GetSelectedLayers().OfType <GraphicsLayer>();
                if (selectedGraphicLayers.Count() == 0)
                { //nothing selected. So clear the selected graphic layer.
                    SelectedGraphicsLayerTOC = null;
                    MessageBox.Show("No graphic layer selected.", "Select layer");
                    return;
                }

                SelectedGraphicsLayerTOC = selectedGraphicLayers.FirstOrDefault();
                var selectedElements     = graphicsLayer.GetSelectedElements().
                                           OfType <GraphicElement>().Where(elem => elem.GetGraphic() is CIMTextGraphic || elem.GetGraphic() is CIMParagraphTextGraphic);

                if (selectedElements.Count() == 0)
                { //nothing selected. So clear the selected graphic layer.
                    MessageBox.Show("No Text or Paragraph Text workflow graphics selected.", "Select graphics");
                    return;
                }

                // Get the editbox or the dockpane textbox value
                string txtBoxString      = null;
                string queryTxtBoxString = null;
                if (Module1.Current.blnDockpaneOpenStatus == false)
                {
                    // Use values in the edit boxes
                    txtBoxString      = Module1.Current.TextValueEditBox.Text;
                    queryTxtBoxString = Module1.Current.QueryValueEditBox.Text;
                    if (txtBoxString == null || txtBoxString == "")
                    {
                        txtBoxString = "    Default Text";
                    }
                    else
                    {
                        txtBoxString = "   " + txtBoxString;
                    }
                    if (queryTxtBoxString != null && queryTxtBoxString != "")
                    {
                        txtBoxString = txtBoxString + "\r\n    " + queryTxtBoxString;
                    }
                }
                if (Module1.Current.blnDockpaneOpenStatus == true)
                {
                    _dockpane         = FrameworkApplication.DockPaneManager.Find("GraphicTools_TextPane") as TextPaneViewModel;
                    txtBoxString      = _dockpane.TxtBoxDoc;
                    queryTxtBoxString = _dockpane.QueryTxtBoxDoc;
                    if (txtBoxString == null || txtBoxString == "")
                    {
                        txtBoxString = "    Default Text";
                    }
                    else
                    {
                        txtBoxString = "   " + txtBoxString;
                    }
                    if (queryTxtBoxString != null && queryTxtBoxString != "")
                    {
                        txtBoxString = txtBoxString + "\r\n    " + queryTxtBoxString;
                    }
                }

                foreach (var elem in selectedElements)
                {
                    // Get the CIMTextGraphic of the current text graphic and update it with contents of text box
                    if (elem.GetGraphic() is CIMTextGraphic)
                    {
                        var newCIMGraphic  = elem.GetGraphic() as CIMTextGraphic;
                        newCIMGraphic.Text = txtBoxString;
                        elem.SetGraphic(newCIMGraphic);
                    }
                    // Get the CIMParagraphTextGraphic of the current text graphic and update it with contents of text box
                    if (elem.GetGraphic() is CIMParagraphTextGraphic)
                    {
                        var newCIMGraphic  = elem.GetGraphic() as CIMParagraphTextGraphic;
                        newCIMGraphic.Text = txtBoxString;
                        elem.SetGraphic(newCIMGraphic);
                    }
                }

                SelectedGraphicsLayerTOC.ClearSelection();
            });
        }
Exemplo n.º 19
0
        /// <summary>
        /// Called when a sketch is completed.
        /// </summary>
        protected override async Task <bool> OnSketchCompleteAsync(ArcGIS.Core.Geometry.Geometry geometry)
        {
            List <PopupContent> popupContent = await QueuedTask.Run(() =>
            {
                //Get the features that intersect the sketch geometry.
                var mapPoint = geometry as MapPoint;
                var sb       = new StringBuilder();

                sb.AppendLine(string.Format("OnSketchCompleteAsync X: {0}", mapPoint.X));
                sb.Append(string.Format("Y: {0}", mapPoint.Y));
                if (mapPoint.HasZ)
                {
                    sb.AppendLine();
                    sb.Append(string.Format("Z: {0}", mapPoint.Z));
                }
                MessageBox.Show(sb.ToString());

                var result = ActiveMapView.GetFeatures(geometry);

                //For each feature in the result create a new instance of our custom pop-up content class.
                List <PopupContent> popups = new List <PopupContent>();
                foreach (var kvp in result)
                {
                    //kvp.Value.ForEach(id => popups.Add(new DynamicPopupContent(kvp.Key, id)));
                    //kvp.Value.ForEach(id => popups.Add(new PopupContent(new Uri("https://www.google.com/webhp?ie=UTF-8&rct=j"), "xxxx")));
                    //popups.Add(new PopupContent("<b>This text is bold.</b>", "Custom tooltip from HTML string"));

                    var layer = kvp.Key as BasicFeatureLayer;
                    if (layer == null)
                    {
                        continue;
                    }
                    var fields   = layer.GetFieldDescriptions().Where(f => f.Name == "DI_JI_HAO");
                    var tableDef = layer.GetTable().GetDefinition();
                    var oidField = tableDef.GetObjectIDField();
                    foreach (var id in kvp.Value)
                    {
                        //获取地级编号
                        //DI_JI_HAO
                        var qf = new QueryFilter()
                        {
                            WhereClause = $"{oidField} = {id}", SubFields = string.Join(",", fields.Select(f => f.Name))
                        };
                        var rows = layer.Search(qf);
                        if (!rows.MoveNext())
                        {
                            continue;
                        }
                        using (var row = rows.Current)
                        {
                            foreach (var field in fields)
                            {
                                var val = row[field.Name];
                                if (field.Name == "DI_JI_HAO")
                                {
                                    PopupContent pc = new PopupContent(new Uri("http://59.42.105.34:5001/client/?id=" + val), "林业");
                                    popups.Add(pc);
                                }
                            }
                        }
                    }
                }

                //Flash the features that intersected the sketch geometry.
                ActiveMapView.FlashFeature(result);

                //return the collection of pop-up content object.
                return(popups);
            });

            var height             = System.Windows.SystemParameters.WorkArea.Height / 2;
            var width              = System.Windows.SystemParameters.WorkArea.Width / 2;
            var topLeftCornerPoint = new System.Windows.Point(0, 0);
            var popupDef           = new PopupDefinition()
            {
                Append   = true,                                  // if true new record is appended to existing (if any)
                Dockable = true,                                  // if true popup is dockable - if false Append is not applicable
                Position = topLeftCornerPoint,                    // Position of top left corner of the popup (in pixels)
                Size     = new System.Windows.Size(width, height) // size of the popup (in pixels)
            };

            //Show the custom pop-up with the custom commands and the default pop-up commands.
            ActiveMapView.ShowCustomPopup(popupContent, null, true, popupDef);
            return(true);
        }
        public void UpdateColor(string colorValue)
        {
            // Update Status Color for Selected Point and Polygon Graphics
            QueuedTask.Run(() =>
            {
                // Take the currently selected text and update it as needed
                // get the first graphics layer in the map's collection of graphics layers
                var graphicsLayer = MapView.Active.Map.GetLayersAsFlattenedList()
                                    .OfType <ArcGIS.Desktop.Mapping.GraphicsLayer>().FirstOrDefault();
                if (graphicsLayer == null)
                {
                    return;
                }

                var selectedGraphicLayers = MapView.Active.GetSelectedLayers().OfType <GraphicsLayer>();
                if (selectedGraphicLayers.Count() == 0)
                { //nothing selected. So clear the selected graphic layer.
                    SelectedGraphicsLayerTOC = null;
                    MessageBox.Show("No graphic layer selected.", "Select layer");
                    return;
                }

                SelectedGraphicsLayerTOC = selectedGraphicLayers.FirstOrDefault();
                var selectedElements     = graphicsLayer.GetSelectedElements().
                                           OfType <GraphicElement>().Where(elem => elem.GetGraphic() is CIMPolygonGraphic || elem.GetGraphic() is CIMPointGraphic);

                if (selectedElements.Count() == 0)
                { //nothing selected. So clear the selected graphic layer.
                    MessageBox.Show("No point or polygon workflow graphics selected.", "Select graphics");
                    return;
                }

                CIMColor myColor = null;
                switch (colorValue)
                {
                case "red":
                    myColor = CIMColor.CreateRGBColor(255, 0, 0, 40);
                    break;

                case "yellow":
                    myColor = CIMColor.CreateRGBColor(255, 255, 0, 40);
                    break;

                case "green":
                    myColor = CIMColor.CreateRGBColor(0, 255, 0, 40);
                    break;
                }

                foreach (var elem in selectedElements)
                {
                    // Get the CIM Graphic and update it
                    if (elem.GetGraphic() is CIMPolygonGraphic)
                    {
                        var newCIMGraphic           = elem.GetGraphic() as CIMPolygonGraphic;
                        CIMPolygonSymbol polySymbol = SymbolFactory.Instance.ConstructPolygonSymbol(myColor);    //  (CIMColor.CreateRGBColor(CreateRGBColor(0, 255, 0, 50));
                        newCIMGraphic.Symbol        = polySymbol.MakeSymbolReference();
                        elem.SetGraphic(newCIMGraphic);
                    }

                    if (elem.GetGraphic() is CIMPointGraphic)
                    {
                        var newCIMGraphic          = elem.GetGraphic() as CIMPointGraphic;
                        CIMPointSymbol pointSymbol = SymbolFactory.Instance.ConstructPointSymbol(myColor);    //  (CIMColor.CreateRGBColor(CreateRGBColor(0, 255, 0, 50));
                        newCIMGraphic.Symbol       = pointSymbol.MakeSymbolReference();
                        elem.SetGraphic(newCIMGraphic);
                    }
                }
            });
        }
        private async Task ExecuteVisibilityRLOS()
        {
            try
            {
                var surfaceSR = await GetSpatialReferenceFromLayer(SelectedSurfaceName);

                if (surfaceSR == null || !surfaceSR.IsProjected)
                {
                    MessageBox.Show(VisibilityLibrary.Properties.Resources.RLOSUserPrompt, VisibilityLibrary.Properties.Resources.RLOSUserPromptCaption);
                    return;
                }

                await FeatureClassHelper.CreateLayer(ObserversLayerName, "POINT", true, true);

                // add fields for observer offset

                await FeatureClassHelper.AddFieldToLayer(ObserversLayerName, VisibilityLibrary.Properties.Resources.OffsetFieldName, "DOUBLE");

                await FeatureClassHelper.AddFieldToLayer(ObserversLayerName, VisibilityLibrary.Properties.Resources.OffsetWithZFieldName, "DOUBLE");

                // add observer points to feature layer

                await FeatureClassHelper.CreatingFeatures(ObserversLayerName, ObserverAddInPoints, GetAsMapZUnits(surfaceSR, ObserverOffset.Value));

                // update with surface information

                await FeatureClassHelper.AddSurfaceInformation(ObserversLayerName, SelectedSurfaceName, VisibilityLibrary.Properties.Resources.ZFieldName);

                // Visibility

                var observerOffsetInMapZUnits     = GetAsMapZUnits(surfaceSR, ObserverOffset.Value);
                var surfaceOffsetInMapZUnits      = GetAsMapZUnits(surfaceSR, SurfaceOffset);
                var minDistanceInMapUnits         = GetAsMapUnits(surfaceSR, MinDistance);
                var maxDistanceInMapUnits         = GetAsMapUnits(surfaceSR, MaxDistance);
                var horizontalStartAngleInDegrees = GetAngularDistanceFromTo(AngularUnitType, AngularTypes.DEGREES, LeftHorizontalFOV);
                var horizontalEndAngleInDegrees   = GetAngularDistanceFromTo(AngularUnitType, AngularTypes.DEGREES, RightHorizontalFOV);
                var verticalUpperAngleInDegrees   = GetAngularDistanceFromTo(AngularUnitType, AngularTypes.DEGREES, TopVerticalFOV);
                var verticalLowerAngleInDegrees   = GetAngularDistanceFromTo(AngularUnitType, AngularTypes.DEGREES, BottomVerticalFOV);

                await FeatureClassHelper.UpdateShapeWithZ(ObserversLayerName, VisibilityLibrary.Properties.Resources.ZFieldName, observerOffsetInMapZUnits);

                string maskFeatureClassName = CoreModule.CurrentProject.DefaultGeodatabasePath + "\\" + RLOSMaskLayerName;

                await CreateMask(RLOSMaskLayerName, maxDistanceInMapUnits, surfaceSR);

                var environments    = Geoprocessing.MakeEnvironmentArray(mask: maskFeatureClassName, overwriteoutput: true);
                var rlosOutputLayer = CoreModule.CurrentProject.DefaultGeodatabasePath + "\\" + RLOSOutputLayerName;

                await FeatureClassHelper.CreateVisibility(SelectedSurfaceName, ObserversLayerName,
                                                          rlosOutputLayer,
                                                          observerOffsetInMapZUnits, surfaceOffsetInMapZUnits,
                                                          minDistanceInMapUnits, maxDistanceInMapUnits,
                                                          horizontalStartAngleInDegrees, horizontalEndAngleInDegrees,
                                                          verticalUpperAngleInDegrees, verticalLowerAngleInDegrees,
                                                          ShowNonVisibleData,
                                                          environments,
                                                          false);

                var rlosConvertedPolygonsLayer = CoreModule.CurrentProject.DefaultGeodatabasePath + "\\" + RLOSConvertedPolygonsLayerName;

                await FeatureClassHelper.IntersectOutput(rlosOutputLayer, rlosConvertedPolygonsLayer, false, "Value");

                await FeatureClassHelper.CreateUniqueValueRenderer(GetLayerFromMapByName(RLOSConvertedPolygonsLayerName) as FeatureLayer, ShowNonVisibleData, RLOSConvertedPolygonsLayerName);

                // Eventually we will add the new layers to a new group layer for each run
                // Currently not working in current release of Pro.
                // From Roshan Herbert - I just spoke with the Dev who wrote the MoveLayer method. Apparently this a known issue.
                //                       We have bug to fix this and plan to fix it in the next release.
                List <Layer> layerList = new List <Layer>();
                layerList.Add(GetLayerFromMapByName(ObserversLayerName));
                //layerList.Add(GetLayerFromMapByName(RLOSConvertedPolygonsLayerName));

                //string groupName = "RLOS Group";
                //if (executionCounter > 0)
                //    groupName = string.Format("{0}_{1}", groupName, executionCounter.ToString());

                //await FeatureClassHelper.CreateGroupLayer(layerList, groupName);

                // for now we are not resetting after a run of the tool
                //await Reset(true);

                // Get the extent of the output layer and zoom to extent
                var layer = GetLayerFromMapByName(RLOSConvertedPolygonsLayerName);
                if (layer != null)
                {
                    var envelope = await QueuedTask.Run(() => layer.QueryExtent());
                    await ZoomToExtent(envelope);
                }

                executionCounter++;
            }
            catch (Exception ex)
            {
                Debug.Print(ex.Message);
            }
        }
Exemplo n.º 22
0
 /// <summary>
 /// In order to illustrate that Geodatabase calls have to be made on the MCT
 /// </summary>
 /// <returns></returns>
 public async Task RowUpdateAttachmentAsync()
 {
     await QueuedTask.Run(() => MainMethodCode());
 }
        /// <summary>
        /// Create polyline features from graphics and add to table
        /// </summary>
        /// <param name="graphicsList">List of graphics to add to table</param>
        /// <returns></returns>
        private static async Task CreateFeatures(List <Graphic> graphicsList, bool isKML)
        {
            RowBuffer rowBuffer = null;
            bool      isLine    = false;

            try
            {
                await QueuedTask.Run(() =>
                {
                    var layer = MapView.Active.GetSelectedLayers()[0];
                    if (layer is FeatureLayer)
                    {
                        var featureLayer = layer as FeatureLayer;

                        using (var table = featureLayer.GetTable())
                        {
                            TableDefinition definition = table.GetDefinition();
                            int shapeIndex             = definition.FindField("Shape");

                            string graphicsType;
                            foreach (Graphic graphic in graphicsList)
                            {
                                rowBuffer = table.CreateRowBuffer();

                                if (graphic.Geometry is Polyline)
                                {
                                    PolylineBuilder pb    = new PolylineBuilder(graphic.Geometry as Polyline);
                                    pb.HasZ               = false;
                                    rowBuffer[shapeIndex] = pb.ToGeometry();
                                    isLine = true;

                                    // Only add attributes for Esri format

                                    // Add attributes
                                    graphicsType = graphic.p.GetType().ToString().Replace("ProAppDistanceAndDirectionModule.", "");
                                    switch (graphicsType)
                                    {
                                    case "LineAttributes":
                                        {
                                            try
                                            {
                                                // Add attributes
                                                rowBuffer[definition.FindField("Distance")]  = ((LineAttributes)graphic.p)._distance;
                                                rowBuffer[definition.FindField("DistUnit")]  = ((LineAttributes)graphic.p).distanceunit;
                                                rowBuffer[definition.FindField("Angle")]     = ((LineAttributes)graphic.p).angle;
                                                rowBuffer[definition.FindField("AngleUnit")] = ((LineAttributes)graphic.p).angleunit;
                                                rowBuffer[definition.FindField("OriginX")]   = ((LineAttributes)graphic.p).originx;
                                                rowBuffer[definition.FindField("OriginY")]   = ((LineAttributes)graphic.p).originy;
                                                rowBuffer[definition.FindField("DestX")]     = ((LineAttributes)graphic.p).destinationx;
                                                rowBuffer[definition.FindField("DestY")]     = ((LineAttributes)graphic.p).destinationy;
                                                break;
                                            }
                                            // Catch exception likely due to missing fields
                                            // Just skip attempting to write to fields
                                            catch
                                            {
                                                break;
                                            }
                                        }

                                    case "RangeAttributes":
                                        {
                                            try
                                            {
                                                rowBuffer[definition.FindField("Rings")]    = ((RangeAttributes)graphic.p).numRings;
                                                rowBuffer[definition.FindField("Distance")] = ((RangeAttributes)graphic.p).distance;
                                                rowBuffer[definition.FindField("DistUnit")] = ((RangeAttributes)graphic.p).distanceunit;
                                                rowBuffer[definition.FindField("Radials")]  = ((RangeAttributes)graphic.p).numRadials;
                                                rowBuffer[definition.FindField("CenterX")]  = ((RangeAttributes)graphic.p).centerx;
                                                rowBuffer[definition.FindField("CenterY")]  = ((RangeAttributes)graphic.p).centery;
                                                break;
                                            }
                                            catch
                                            {
                                                break;
                                            }
                                        }
                                    }
                                }
                                else if (graphic.Geometry is Polygon)
                                {
                                    rowBuffer[shapeIndex] = new PolygonBuilder(graphic.Geometry as Polygon).ToGeometry();

                                    // Only add attributes for Esri format

                                    // Add attributes
                                    graphicsType = graphic.p.GetType().ToString().Replace("ProAppDistanceAndDirectionModule.", "");
                                    switch (graphicsType)
                                    {
                                    case "CircleAttributes":
                                        {
                                            try
                                            {
                                                rowBuffer[definition.FindField("Distance")] = ((CircleAttributes)graphic.p).distance;
                                                rowBuffer[definition.FindField("DistUnit")] = ((CircleAttributes)graphic.p).distanceunit;
                                                rowBuffer[definition.FindField("DistType")] = ((CircleAttributes)graphic.p).circletype;
                                                rowBuffer[definition.FindField("CenterX")]  = ((CircleAttributes)graphic.p).centerx;
                                                rowBuffer[definition.FindField("CenterY")]  = ((CircleAttributes)graphic.p).centery;
                                                break;
                                            }
                                            catch (Exception e)
                                            {
                                                break;
                                            }
                                        }

                                    case "EllipseAttributes":
                                        try
                                        {
                                            rowBuffer[definition.FindField("Minor")]     = ((EllipseAttributes)graphic.p).minorAxis;
                                            rowBuffer[definition.FindField("Major")]     = ((EllipseAttributes)graphic.p).majorAxis;
                                            rowBuffer[definition.FindField("DistUnit")]  = ((EllipseAttributes)graphic.p).distanceunit;
                                            rowBuffer[definition.FindField("CenterX")]   = ((EllipseAttributes)graphic.p).centerx;
                                            rowBuffer[definition.FindField("CenterY")]   = ((EllipseAttributes)graphic.p).centery;
                                            rowBuffer[definition.FindField("Angle")]     = ((EllipseAttributes)graphic.p).angle;
                                            rowBuffer[definition.FindField("AngleUnit")] = ((EllipseAttributes)graphic.p).angleunit;
                                            break;
                                        }
                                        catch
                                        {
                                            break;
                                        }
                                    }
                                }

                                Row row = table.CreateRow(rowBuffer);
                            }
                        }

                        //Get simple renderer from feature layer
                        CIMSimpleRenderer currentRenderer = featureLayer.GetRenderer() as CIMSimpleRenderer;
                        CIMSymbolReference sybmol         = currentRenderer.Symbol;

                        var outline = SymbolFactory.Instance.ConstructStroke(ColorFactory.Instance.RedRGB, 1.0, SimpleLineStyle.Solid);
                        CIMSymbol s;
                        if (isLine)
                        {
                            s = SymbolFactory.Instance.ConstructLineSymbol(outline);
                        }
                        else
                        {
                            s = SymbolFactory.Instance.ConstructPolygonSymbol(ColorFactory.Instance.RedRGB, SimpleFillStyle.Null, outline);
                        }
                        CIMSymbolReference symbolRef = new CIMSymbolReference()
                        {
                            Symbol = s
                        };
                        currentRenderer.Symbol = symbolRef;

                        featureLayer.SetRenderer(currentRenderer);
                    }
                });
            }
            catch (GeodatabaseException exObj)
            {
                Console.WriteLine(exObj);
                throw;
            }
            finally
            {
                if (rowBuffer != null)
                {
                    rowBuffer.Dispose();
                }
            }
        }
Exemplo n.º 24
0
 private void MakeDisplayUnitAsDefault()
 {
     MessageBox.Show("Make Default");
     QueuedTask.Run(() => { DisplayUnitFormats.Instance.SetDefaultProjectUnitFormat(this._displayUnitFormat); });
 }
Exemplo n.º 25
0
        async public void snippets_ProjectItems()
        {
            #region Reference layout project items

            //A layout project item is an item that appears in the Layouts folder in the Catalog pane

            //Reference all the layout project items
            IEnumerable <LayoutProjectItem> layouts = Project.Current.GetItems <LayoutProjectItem>();

            //Or reference a specific layout project item by name
            LayoutProjectItem layoutItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("MyLayout"));
            #endregion

            #region Open a layout project item in a new view
            //A layout project item may be in a project but it may not be open in a view and/or active
            //First get the layout associated with the layout project item
            Layout layout = layoutItem.GetLayout();
            //Open a new pane
            ILayoutPane iNewLayoutPane = await ProApp.Panes.CreateLayoutPaneAsync(layout);

            #endregion

            #region Activate an already open layout view
            //A layout view may exist but it may not be active

            //Iterate through each pane in the application and check to see if the layout is already open and if so, activate it
            foreach (var pane in ProApp.Panes)
            {
                var layoutPane = pane as ILayoutPane;
                if (layoutPane == null) //if not a layout view, continue to the next pane
                {
                    continue;
                }
                if (layoutPane.LayoutView.Layout == layout) //if there is a match, activate the view
                {
                    (layoutPane as Pane).Activate();
                    return;
                }
            }
            #endregion



            #region Reference the active layout view
            //First check to see if the current, active view is a layout view.  If it is, use it
            LayoutView activeLayoutView = LayoutView.Active;
            if (activeLayoutView != null)
            {
                // use activeLayoutView
            }
            #endregion



            #region Create a new, basic layout and open it
            //Create a new layout project item layout in the project
            Layout newLayout = await QueuedTask.Run <Layout>(() =>
            {
                newLayout = LayoutFactory.Instance.CreateLayout(8.5, 11, LinearUnit.Inches);
                newLayout.SetName("New 8.5x11 Layout");
                return(newLayout);
            });

            //Open new layout on the GUI thread
            await ProApp.Panes.CreateLayoutPaneAsync(newLayout);

            #endregion



            #region Create a new layout using a modified CIM and open it
            //Create a new layout project item layout in the project
            Layout newCIMLayout = await QueuedTask.Run <Layout>(() =>
            {
                //Set up a CIM page
                CIMPage newPage = new CIMPage
                {
                    //required parameters
                    Width  = 8.5,
                    Height = 11,
                    Units  = LinearUnit.Inches,

                    //optional rulers
                    ShowRulers            = true,
                    SmallestRulerDivision = 0.5,

                    //optional guides
                    ShowGuides = true
                };
                CIMGuide guide1 = new CIMGuide
                {
                    Position    = 1,
                    Orientation = Orientation.Vertical
                };
                CIMGuide guide2 = new CIMGuide
                {
                    Position    = 6.5,
                    Orientation = Orientation.Vertical
                };
                CIMGuide guide3 = new CIMGuide
                {
                    Position    = 1,
                    Orientation = Orientation.Horizontal
                };
                CIMGuide guide4 = new CIMGuide
                {
                    Position    = 10,
                    Orientation = Orientation.Horizontal
                };

                List <CIMGuide> guideList = new List <CIMGuide>
                {
                    guide1,
                    guide2,
                    guide3,
                    guide4
                };
                newPage.Guides = guideList.ToArray();

                //Create a new page
                newCIMLayout = LayoutFactory.Instance.CreateLayout(newPage);
                newCIMLayout.SetName("New 8.5x11 Layout");
                return(newCIMLayout);
            });

            //Open new layout on the GUI thread
            await ProApp.Panes.CreateLayoutPaneAsync(newCIMLayout);

            #endregion



            #region Import a pagx into a project
            //Create a layout project item from importing a pagx file
            IProjectItem pagx = ItemFactory.Instance.Create(@"C:\Temp\Layout.pagx") as IProjectItem;
            Project.Current.AddItem(pagx);
            #endregion


            #region Remove a layout project item
            //Remove a layout from the project completely
            Project.Current.RemoveItem(layoutItem);
            #endregion
        }
Exemplo n.º 26
0
        public async Task MedataExamples()
        {
            string sourceXMLMetadataAsString = string.Empty;


            #region Item: Get its IMetadata interface

            Item      gdbItem         = ItemFactory.Instance.Create(@"C:\projectAlpha\GDBs\regionFive.gdb");
            IMetadata gdbMetadataItem = gdbItem as IMetadata;

            #endregion

            #region Item: Get an item's metadata: GetXML

            string gdbXMLMetadataXmlAsString = string.Empty;
            gdbXMLMetadataXmlAsString = await QueuedTask.Run(() => gdbMetadataItem.GetXml());

            //check metadata was returned
            if (!string.IsNullOrEmpty(gdbXMLMetadataXmlAsString))
            {
                //use the metadata
            }

            #endregion

            IMetadata featureClassMetadataItem = null;

            #region Item: Set the metadata of an item: SetXML

            await QueuedTask.Run(() =>
            {
                var xml = System.IO.File.ReadAllText(@"E:\Data\Metadata\MetadataForFeatClass.xml");
                //Will throw InvalidOperationException if the metadata cannot be changed
                //so check "CanEdit" first
                if (featureClassMetadataItem.CanEdit())
                {
                    featureClassMetadataItem.SetXml(xml);
                }
            });


            #endregion

            IMetadata metadataItemToCheck = null;

            #region Item: Check the metadata can be edited: CanEdit

            bool canEdit1;
            //Call CanEdit before calling SetXml
            await QueuedTask.Run(() => canEdit1 = metadataItemToCheck.CanEdit());

            #endregion

            IMetadata metadataItemToSync = null;

            #region Item: Updates metadata with the current properties of the item: Synchronize

            string syncedMetadataXml = string.Empty;
            await QueuedTask.Run(() => syncedMetadataXml = metadataItemToSync.Synchronize());

            #endregion

            IMetadata metadataCopyFrom   = null;
            IMetadata metadataItemImport = null;
            #region Item: Copy metadata from the source item's metadata: CopyMetadataFromItem

            Item featureClassItem = ItemFactory.Instance.Create(@"C:\projectAlpha\GDBs\regionFive.gdb\SourceFeatureClass");
            await QueuedTask.Run(() => metadataItemImport.CopyMetadataFromItem(featureClassItem));

            #endregion

            //Item gdbItem = ItemFactory.Instance.Create(@"C:\projectAlpha\GDBs\regionFive.gdb");

            #region Item: Updates metadata with the imported metadata - the input path can be the path to an item with metadata, or a URI to a XML file: ImportMetadata

            // the input path can be the path to an item with metadata, or a URI to an XML file
            IMetadata metadataItemImport1 = null;
            await QueuedTask.Run(() => metadataItemImport1.ImportMetadata(@"E:\YellowStone.gdb\MyDataset\MyFeatureClass", MDImportExportOption.esriCurrentMetadataStyle));

            #endregion

            IMetadata metadataItemImport2 = null;

            #region Item: Updates metadata with the imported metadata: ImportMetadata

            // the input path can be the path to an item with metadata, or a URI to an XML file

            await QueuedTask.Run(() => metadataItemImport2.ImportMetadata(@"E:\YellowStone.gdb\MyDataset\MyFeatureClass", MDImportExportOption.esriCustomizedStyleSheet, @"E:\StyleSheets\Import\MyImportStyleSheet.xslt"));

            #endregion

            IMetadata metadataItemExport1 = null;

            #region Item: export the metadata of the currently selected item: ExportMetadata

            await QueuedTask.Run(() => metadataItemExport1.ExportMetadata(@"E:\Temp\OutputXML.xml", MDImportExportOption.esriCurrentMetadataStyle, MDExportRemovalOption.esriExportExactCopy));

            #endregion

            IMetadata metadataItemExport2 = null;

            #region Item: export the metadata of the currently selected item: ExportMetadata

            await QueuedTask.Run(() => metadataItemExport2.ExportMetadata(@"E:\Temp\OutputXML.xml", MDImportExportOption.esriCustomizedStyleSheet, MDExportRemovalOption.esriExportExactCopy, @"E:\StyleSheets\Export\MyExportStyleSheet.xslt"));

            #endregion

            IMetadata metadataItemToSaveAsXML = null;

            #region Item: Save the metadata of the current item as XML: SaveMetadataAsXML

            await QueuedTask.Run(() => metadataItemToSaveAsXML.SaveMetadataAsXML(@"E:\Temp\OutputXML.xml", MDSaveAsXMLOption.esriExactCopy));

            #endregion

            IMetadata metadataItemToSaveAsHTML = null;

            #region Item: Save the metadata of the current item as HTML: SaveMetadataAsHTML

            await QueuedTask.Run(() => metadataItemToSaveAsHTML.SaveMetadataAsHTML(@"E:\Temp\OutputHTML.htm", MDSaveAsHTMLOption.esriCurrentMetadataStyle));

            #endregion

            IMetadata metadataItemToSaveAsUsingCustomXSLT = null;

            #region Item: Save the metadata of the current item using customized XSLT: SaveMetadataAsUsingCustomXSLT

            await QueuedTask.Run(() => metadataItemToSaveAsUsingCustomXSLT.SaveMetadataAsUsingCustomXSLT(@"E:\Data\Metadata\CustomXSLT.xsl", @"E:\Temp\OutputXMLCustom.xml"));

            #endregion

            #region Item: Upgrade the metadata of the current item: UpgradeMetadata

            var fgdcItem = ItemFactory.Instance.Create(@"C:\projectAlpha\GDBs\testData.gdb");
            await QueuedTask.Run(() => fgdcItem.UpgradeMetadata(MDUpgradeOption.esriUpgradeFgdcCsdgm));

            #endregion
        }
Exemplo n.º 27
0
        public void snippets_UpdateElements()
        {
            double x = 0;
            double y = 0;

            #region Update Text Element properties

            // Reference a layoutitem in a project by name
            LayoutProjectItem layoutItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("MyLayout"));
            if (layoutItem != null)
            {
                QueuedTask.Run(() =>
                {
                    // Reference and load the layout associated with the layout item
                    Layout layout = layoutItem.GetLayout();
                    if (layout != null)
                    {
                        // Reference a text element by name
                        TextElement txtElm = layout.FindElement("MyTextElement") as TextElement;
                        if (txtElm != null)
                        {
                            // Change placement properties
                            txtElm.SetAnchor(Anchor.CenterPoint);
                            txtElm.SetX(x);
                            txtElm.SetY(y);

                            // Change TextProperties
                            TextProperties txtProperties = new TextProperties("Hello world", "Times New Roman", 48, "Regular");
                            txtElm.SetTextProperties(txtProperties);
                        }
                    }
                });
            }
            #endregion

            #region Update a picture element

            QueuedTask.Run(() =>
            {
                // Reference and load the layout associated with the layout item
                Layout layout = layoutItem.GetLayout();
                if (layout != null)
                {
                    // Reference a picture element by name
                    PictureElement picElm = layout.FindElement("MyPicture") as PictureElement;
                    // Change the path to a new source
                    if (picElm != null)
                    {
                        picElm.SetSourcePath(@"D:\MyData\Pics\somePic.jpg");
                    }
                }
            });
            #endregion

            #region Update a map surround

            QueuedTask.Run(() =>
            {
                // Reference and load the layout associated with the layout item
                Layout layout = layoutItem.GetLayout();
                if (layout != null)
                {
                    // Reference a scale bar element by name
                    MapSurround scaleBar = layout.FindElement("MyScaleBar") as MapSurround;

                    // Reference a map frame element by name
                    MapFrame mf = layout.FindElement("MyMapFrame") as MapFrame;

                    if ((scaleBar != null) && (mf != null))
                    {
                        //Set the scale bar to the newly referenced map frame
                        scaleBar.SetMapFrame(mf);
                    }
                }
            });
            #endregion

            #region Lock an element

            // The Locked property is displayed in the TOC as a lock symbol next to each element.
            // If locked the element can't be selected in the layout using the graphic
            // selection tools.

            QueuedTask.Run(() =>
            {
                // Reference and load the layout associated with the layout item
                Layout layout = layoutItem.GetLayout();
                if (layout != null)
                {
                    //Reference an element by name
                    Element element = layout.FindElement("MyElement");
                    if (element != null)
                    {
                        // Modify the Locked property via the CIM
                        CIMElement CIMElement = element.GetDefinition() as CIMElement;
                        CIMElement.Locked     = true;
                        element.SetDefinition(CIMElement);
                    }
                }
            });

            #endregion

            #region Update an elements transparency

            QueuedTask.Run(() =>
            {
                // Reference and load the layout associated with the layout item
                Layout layout = layoutItem.GetLayout();
                if (layout != null)
                {
                    // Reference a element by name
                    GraphicElement graphicElement = layout.FindElement("MyElement") as GraphicElement;
                    if (graphicElement != null)
                    {
                        // Modify the Transparency property that exists only in the CIMGraphic class.
                        CIMGraphic CIMGraphic   = graphicElement.Graphic as CIMGraphic;
                        CIMGraphic.Transparency = 50; // mark it 50% transparent
                        graphicElement.SetGraphic(CIMGraphic);
                    }
                }
            });
            #endregion

            double xOffset = 0;
            double yOffset = 0;
            #region Clone an element

            QueuedTask.Run(() =>
            {
                // Reference and load the layout associated with the layout item
                Layout layout = layoutItem.GetLayout();
                if (layout != null)
                {
                    // Reference a element by name
                    GraphicElement graphicElement = layout.FindElement("MyElement") as GraphicElement;
                    if (graphicElement != null)
                    {
                        // clone and set the new x,y
                        GraphicElement cloneElement = graphicElement.Clone("Clone");
                        cloneElement.SetX(cloneElement.GetX() + xOffset);
                        cloneElement.SetY(cloneElement.GetY() + yOffset);
                    }
                }
            });
            #endregion
        }
Exemplo n.º 28
0
        public async void ContentSnippets2()
        {
            #region Create new project using Pro's default settings
            //Get Pro's default project settings.
            var defaultProjectSettings = Project.GetDefaultProjectSettings();
            //Create a new project using the default project settings
            await Project.CreateAsync(defaultProjectSettings);

            #endregion

            #region New project using a custom template file
            //Settings used to create a new project
            CreateProjectSettings projectSettings = new CreateProjectSettings()
            {
                //Sets the project's name
                Name = "New Project",
                //Path where new project will be stored in
                LocationPath = @"C:\Data\NewProject",
                //Sets the project template that will be used to create the new project
                TemplatePath = @"C:\Data\MyProject1\CustomTemplate.aptx"
            };
            //Create the new project
            await Project.CreateAsync(projectSettings);

            #endregion

            #region Create project using template available with ArcGIS Pro
            //Settings used to create a new project
            CreateProjectSettings proTemplateSettings = new CreateProjectSettings()
            {
                //Sets the project's name
                Name = "New Project",
                //Path where new project will be stored in
                LocationPath = @"C:\Data\NewProject",
                //Select which Pro template you like to use
                TemplateType = TemplateType.Catalog
                               //TemplateType = TemplateType.LocalScene
                               //TemplateType = TemplateType.GlobalScene
                               //TemplateType = TemplateType.Map
            };
            //Create the new project
            await Project.CreateAsync(proTemplateSettings);

            #endregion

            #region Open project
            //Opens an existing project or project package
            await Project.OpenAsync(@"C:\Data\MyProject1\MyProject1.aprx");

            #endregion

            #region Current project
            //Gets the current project
            var project = Project.Current;
            #endregion

            #region Get location of current project
            //Gets the location of the current project; that is, the path to the current project file (*.aprx)
            string projectPath = Project.Current.URI;
            #endregion

            #region Get the project's default gdb path
            var projGDBPath = Project.Current.DefaultGeodatabasePath;
            #endregion

            #region Save project
            //Saves the project
            await Project.Current.SaveAsync();

            #endregion

            #region SaveAs project
            //Saves a copy of the current project file (*.aprx) to the specified location with the specified file name,
            //then opens the new project file
            await Project.Current.SaveAsAsync(@"C:\Data\MyProject1\MyNewProject1.aprx");

            #endregion

            #region Close project
            //A project cannot be closed using the ArcGIS Pro API.
            //A project is only closed when another project is opened, a new one is created, or the application is shutdown.
            #endregion

            #region Adds item to the current project
            //Adding a folder connection
            string folderPath = "@C:\\myDataFolder";
            var    folder     = await QueuedTask.Run(() => {
                //Create the folder connection project item
                var item = ItemFactory.Instance.Create(folderPath) as IProjectItem;
                //If it is succesfully added to the project, return it otherwise null
                return(Project.Current.AddItem(item) ? item as FolderConnectionProjectItem : null);
            });

            //Adding a Geodatabase:
            string gdbPath       = "@C:\\myDataFolder\\myData.gdb";
            var    newlyAddedGDB = await QueuedTask.Run(() => {
                //Create the File GDB project item
                var item = ItemFactory.Instance.Create(gdbPath) as IProjectItem;
                //If it is succesfully added to the project, return it otherwise null
                return(Project.Current.AddItem(item) ? item as GDBProjectItem : null);
            });

            #endregion

            #region How to add a new map to a project
            await QueuedTask.Run(() =>
            {
                //Note: see also MapFactory in ArcGIS.Desktop.Mapping
                var map = MapFactory.Instance.CreateMap("New Map", MapType.Map, MapViewingMode.Map, Basemap.Oceans);
                ProApp.Panes.CreateMapPaneAsync(map);
            });

            #endregion

            #region Check if project needs to be saved
            //The project's dirty state indicates changes made to the project have not yet been saved.
            bool isProjectDirty = Project.Current.IsDirty;
            #endregion

            #region Get all the project items
            IEnumerable <Item> allProjectItems = Project.Current.GetItems <Item>();
            foreach (var pi in allProjectItems)
            {
                //Do Something
            }
            #endregion

            #region Gets all the "MapProjectItems"
            IEnumerable <MapProjectItem> newMapItemsContainer = project.GetItems <MapProjectItem>();

            await QueuedTask.Run(() =>
            {
                foreach (var mp in newMapItemsContainer)
                {
                    //Do Something with the map. For Example:
                    Map myMap = mp.GetMap();
                }
            });

            #endregion

            #region Gets a specific "MapProjectItem"
            MapProjectItem mapProjItem = Project.Current.GetItems <MapProjectItem>().FirstOrDefault(item => item.Name.Equals("EuropeMap"));
            #endregion

            #region Gets all the "StyleProjectItems"
            IEnumerable <StyleProjectItem> newStyleItemsContainer = null;
            newStyleItemsContainer = Project.Current.GetItems <StyleProjectItem>();
            foreach (var styleItem in newStyleItemsContainer)
            {
                //Do Something with the style.
            }
            #endregion

            #region Gets a specific "StyleProjectItem"
            var container = Project.Current.GetItems <StyleProjectItem>();
            StyleProjectItem testStyle = container.FirstOrDefault(style => (style.Name == "ArcGIS 3D"));
            StyleItem        cone      = null;
            if (testStyle != null)
            {
                cone = testStyle.LookupItem(StyleItemType.PointSymbol, "Cone_Volume_3");
            }
            #endregion

            #region Gets all the "GDBProjectItems"
            IEnumerable <GDBProjectItem> newGDBItemsContainer = null;
            newGDBItemsContainer = Project.Current.GetItems <GDBProjectItem>();
            foreach (var GDBItem in newGDBItemsContainer)
            {
                //Do Something with the GDB.
            }
            #endregion

            #region Gets a specific "GDBProjectItem"
            GDBProjectItem GDBProjItem = Project.Current.GetItems <GDBProjectItem>().FirstOrDefault(item => item.Name.Equals("myGDB"));
            #endregion

            #region Gets all the "ServerConnectionProjectItem"
            IEnumerable <ServerConnectionProjectItem> newServerConnections = null;
            newServerConnections = project.GetItems <ServerConnectionProjectItem>();
            foreach (var serverItem in newServerConnections)
            {
                //Do Something with the server connection.
            }
            #endregion

            #region Gets a specific "ServerConnectionProjectItem"
            ServerConnectionProjectItem serverProjItem = Project.Current.GetItems <ServerConnectionProjectItem>().FirstOrDefault(item => item.Name.Equals("myServer"));
            #endregion

            #region Gets all folder connections in a project
            //Gets all the folder connections in the current project
            var projectFolders = Project.Current.GetItems <FolderConnectionProjectItem>();
            foreach (var FolderItem in projectFolders)
            {
                //Do Something with the Folder connection.
            }
            #endregion

            #region Gets a specific folder connection
            //Gets a specific folder connection in the current project
            FolderConnectionProjectItem myProjectFolder = Project.Current.GetItems <FolderConnectionProjectItem>().FirstOrDefault(folderPI => folderPI.Name.Equals("myDataFolder"));
            #endregion

            #region Remove a specific folder connection
            // Remove a folder connection from a project; the folder stored on the local disk or the network is not deleted
            FolderConnectionProjectItem folderToRemove = Project.Current.GetItems <FolderConnectionProjectItem>().FirstOrDefault(myfolder => myfolder.Name.Equals("PlantSpecies"));
            if (folderToRemove != null)
            {
                Project.Current.RemoveItem(folderToRemove as IProjectItem);
            }
            #endregion

            #region Gets a specific "LayoutProjectItem"
            LayoutProjectItem layoutProjItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("myLayout"));
            #endregion

            #region Gets all layouts in a project:
            //Gets all the layouts in the current project
            var projectLayouts = Project.Current.GetItems <LayoutProjectItem>();
            foreach (var layoutItem in projectLayouts)
            {
                //Do Something with the layout
            }
            #endregion

            #region Gets a specific "GeoprocessingProjectItem"
            GeoprocessingProjectItem GPProjItem = Project.Current.GetItems <GeoprocessingProjectItem>().FirstOrDefault(item => item.Name.Equals("myToolbox"));
            #endregion

            #region Gets all GeoprocessingProjectItems in a project:
            //Gets all the GeoprocessingProjectItem in the current project
            var GPItems = Project.Current.GetItems <GeoprocessingProjectItem>();
            foreach (var tbx in GPItems)
            {
                //Do Something with the toolbox
            }
            #endregion

            #region Search project for a specific item
            List <Item> _mxd = new List <Item>();
            //Gets all the folder connections in the current project
            var allFoldersItem = Project.Current.GetItems <FolderConnectionProjectItem>();
            if (allFoldersItem != null)
            {
                //iterate through all the FolderConnectionProjectItems found
                foreach (var folderItem in allFoldersItem)
                {
                    //Search for mxd files in that folder connection and add it to the List<T>
                    //Note:ArcGIS Pro automatically creates and dynamically updates a searchable index as you build and work with projects.
                    //Items are indexed when they are added to a project.
                    //The first time a folder or database is indexed, indexing may take a while if it contains a large number of items.
                    //While the index is being created, searches will not return any results.
                    _mxd.AddRange(folderItem.GetItems());
                }
            }
            #endregion

            #region Get the Default Project Folder

            var defaultProjectPath = System.IO.Path.Combine(
                System.Environment.GetFolderPath(
                    Environment.SpecialFolder.MyDocuments),
                @"ArcGIS\Projects");

            #endregion
        }
Exemplo n.º 29
0
        public void snippets_Export()
        {
            #region Export a map frame

            // Reference a layoutitem in a project by name
            LayoutProjectItem layoutItem = Project.Current.GetItems <LayoutProjectItem>().FirstOrDefault(item => item.Name.Equals("MyLayout"));
            if (layoutItem != null)
            {
                QueuedTask.Run(() =>
                {
                    // get the layout
                    Layout layout = layoutItem.GetLayout();
                    if (layout == null)
                    {
                        return;
                    }

                    // get the map frame
                    MapFrame mf = layout.FindElement("MyMapFrame") as MapFrame;

                    if (mf != null)
                    {
                        // Create BMP format with appropriate settings
                        BMPFormat BMP = new BMPFormat()
                        {
                            HasWorldFile   = true,
                            Resolution     = 300,
                            OutputFileName = @"C:\temp\MapFrame.bmp"
                        };
                        if (BMP.ValidateOutputFilePath())
                        {
                            mf.Export(BMP);
                        }

                        // emf, eps, gif, jpeg, pdf, png, svg, tga, tiff formats are also available for export
                    }
                });
            }

            #endregion

            #region Export the active Mapview
            QueuedTask.Run(() =>
            {
                MapView activeMapView = MapView.Active;
                if (activeMapView != null)
                {
                    //Create BMP format with appropriate settings
                    BMPFormat bmp = new BMPFormat()
                    {
                        Resolution     = 300,
                        Height         = 500,
                        Width          = 800,
                        HasWorldFile   = true,
                        OutputFileName = @"C:\temp\MapView.bmp"
                    };

                    //Export active map view
                    if (bmp.ValidateOutputFilePath())
                    {
                        activeMapView.Export(bmp);
                    }

                    // emf, eps, gif, jpeg, pdf, png, svg, tga, tiff formats also available for export
                }
            });
            #endregion
        }
Exemplo n.º 30
0
        private async void OnSelectionChanged(MapSelectionChangedEventArgs obj)
        {
            if (MapView.Active.Map != null && obj.Selection.Count == 1)
            {
                var fl = obj.Selection.FirstOrDefault().Key as FeatureLayer;
                if (fl == null || fl.SelectionCount != 1 || fl.ShapeType != esriGeometryType.esriGeometryPoint)
                {
                    return;
                }

                var pointd = await QueuedTask.Run(() =>
                {
                    try
                    {
                        var SelectedOID = fl.GetSelection().GetObjectIDs().FirstOrDefault();
                        if (SelectedOID < 0)
                        {
                            return(string.Empty);
                        }

                        var SelectedLayer = fl as BasicFeatureLayer;

                        var oidField = SelectedLayer.GetTable().GetDefinition().GetObjectIDField();
                        var qf       = new ArcGIS.Core.Data.QueryFilter()
                        {
                            WhereClause = string.Format("{0} = {1}", oidField, SelectedOID)
                        };
                        var cursor = SelectedLayer.Search(qf);
                        Row row    = null;

                        if (cursor.MoveNext())
                        {
                            row = cursor.Current;
                        }

                        if (row == null)
                        {
                            return(string.Empty);
                        }

                        var fields = row.GetFields();
                        lock (_lock)
                        {
                            foreach (ArcGIS.Core.Data.Field field in fields)
                            {
                                if (field.FieldType == FieldType.Geometry)
                                {
                                    // have mappoint here
                                    var val = row[field.Name];
                                    if (val is MapPoint)
                                    {
                                        var temp = val as MapPoint;
                                        // project to WGS1984
                                        proCoordGetter.Point = temp;
                                        proCoordGetter.Project(4326);
                                        return(string.Format("{0:0.0####} {1:0.0####}", proCoordGetter.Point.Y, proCoordGetter.Point.X));
                                    }
                                    break;
                                }
                            }
                        }
                    }
                    catch (Exception ex)
                    {
                    }

                    return(string.Empty);
                });

                if (!string.IsNullOrWhiteSpace(pointd))
                {
                    InputCoordinate = pointd;
                }
            }
        }