Ejemplo n.º 1
0
        /// <summary>
        /// Create a single multi-point feature that is comprised of 20 points.
        /// </summary>
        /// <param name="multiPointLayer">Multi-point geometry feature layer used to add the multi-point feature.</param>
        /// <returns></returns>
        private void constructSampleMultiPoints(FeatureLayer multiPointFeatureLayer)
        {
            // create a random number generator
            var randomGenerator = new Random();

            //var areaOfInterest = await MappingModule.ActiveMapView.GetExtentAsync();

            // get the feature class and its definition

            // start an edit operation to create new (random) multi-point feature
            var createOperation = EditingModule.CreateEditOperation();

            createOperation.Name = "Generate multi-point";

            //create a list to hold the 20 coordinates of the multi-point feature
            IList <Coordinate> coordinateList = new List <Coordinate>(20);

            for (int i = 0; i < 20; i++)
            {
                // add the random coordinate to the list
                // use random.NextCoordinate()
            }

            // execute the operation

            // save the edits
        }
Ejemplo n.º 2
0
        /// <summary>
        /// Create random sample points in the extent of the spatial reference
        /// </summary>
        /// <param name="pointLayer">Point geometry feature layer used to the generate the points.</param>
        /// <returns></returns>
        private void constructSamplePoints(FeatureLayer pointFeatureLayer)
        {
            // create a random number generator
            var randomGenerator = new Random();

            // the database and geometry interactions are considered fine-grained and must be executed on
            // the main CIM thread
            //return QueuingTaskFactory.StartNew(() =>
            //{

            //Envelope areaOfInterest  = MappingModule.ActiveMapView.GetExtentAsync().Result;

            // get the feature class and its definition

            // start an edit operation to create new (random) point features
            var createOperation = EditingModule.CreateEditOperation();

            createOperation.Name = "Generate points";

            // create 20 new point geometries and queue them for creation
            for (int i = 0; i < 20; i++)
            {
                // use random.NextCoordinate in the construction of the MapPoint

                // queue feature creation
                //createOperation.Create(pointLayer, newMapPoint);
            }

            // execute the operation

            // save the edits
            //return EditingModule.SaveEditsAsync().Result;
            //});
        }
Ejemplo n.º 3
0
        /// <summary>
        /// Create sample polygon feature using the point geometries from the multi-point feature using the
        /// ConvexHull method provided by the GeometryEngine.
        /// </summary>
        /// <param name="polygonLayer">Polygon geometry feature layer used to add the new feature.</param>
        /// <param name="lineLayer">The polyline feature layer containing the features used to construct the polygon.</param>
        /// <returns></returns>
        private void constructSamplePolygon(FeatureLayer polygonLayer, FeatureLayer lineLayer)
        {
            // execute the fine grained API calls on the CIM main thread
            //return QueuingTaskFactory.StartNew(() =>
            //{
            // get the feature classes and their definitions
            // get the underlying feature class for each layer
            var polygonFeatureClass = polygonLayer.GetTableAsync().Result as FeatureClass;
            var lineFeatureClass    = lineLayer.GetTableAsync().Result as FeatureClass;
            FeatureClassDefinition polygonDefinition  = null;
            FeatureClassDefinition polylineDefinition = null;

            // construct a cursor to retrieve the line features
            var lineCursor = lineFeatureClass.Search(null, false);

            // set up the edit operation for the feature creation
            var createOperation = EditingModule.CreateEditOperation();

            createOperation.Name = "Create polygons";

            // construct the polygon geometry from the convex hull of the combined polyline features
            // by contructing a convex hull
            // HINT:  GeometryEngine.ConvexHull
            List <CoordinateCollection> combinedCoordinates = new List <CoordinateCollection>();

            while (lineCursor.MoveNext())
            {
                // TODO
                // add the feature geometry into the overall list of coordinate collections
                // retrieve the first feature
                //var lineFeature = ... use the current property of the cursor

                // add the coordinate collection of the current geometry into our overall list of collections
                //var polylineGeometry = lineFeature.Shape as Polyline;
                //combinedCoordinates.AddRange ... Hint: we want the part collection of the polyline
            }

            // TODO
            //construct a polygon geometry from the convex hull of the polyline
            //constructed from the list of coordinate collections combined from all the polylines
            //var polyLine = new Polyline(..., lineFeatureClass.SpatialReference)
            //var geom = GeometryEngine.ConvexHull(...
            //var newPolygon = Polygon.Clone(...

            // TODO
            // specify the create edit operation

            // TODO
            // execute the operation

            // TODO
            // save the edits
            //return EditingModule.SaveEditsAsync();
            //});
        }
Ejemplo n.º 4
0
        /// <summary>
        /// Create sample polyline feature using the geometries from the point feature layer.
        /// </summary>
        /// <param name="polylineLayer">Polyline geometry feature layer used to add the new features.</param>
        /// <param name="pointLayer">The geometries from the point layer are used as vertices for the new line features.</param>
        /// <returns></returns>
        private Task <bool> constructSamplePolylines(FeatureLayer polylineLayer, FeatureLayer pointLayer)
        {
            // execute the fine grained API calls on the CIM main thread
            return(QueuingTaskFactory.StartNew(() =>
            {
                // get the underlying feature class for each layer
                var polylineFeatureClass = polylineLayer.GetTableAsync().Result as FeatureClass;
                var pointFeatureClass = pointLayer.GetTableAsync().Result as FeatureClass;

                // construct a cursor for all point features, since we want all feature there is no
                // QueryFilter required
                var pointCursor = pointFeatureClass.Search(null, false);

                // retrieve the feature class schema information for the feature classes
                var polylineDefinition = polylineFeatureClass.Definition as FeatureClassDefinition;
                var pointDefinition = pointFeatureClass.Definition as FeatureClassDefinition;

                // initialize a counter variable
                int pointCounter = 0;
                // initialize a list to hold 5 coordinates that are used as vertices for the polyline
                var lineCoordinates = new List <Coordinate>(5);

                // set up the edit operation for the feature creation
                var createOperation = EditingModule.CreateEditOperation();
                createOperation.Name = "Create polylines";

                // loop through the point features
                while (pointCursor.MoveNext())
                {
                    pointCounter++;

                    var pointFeature = pointCursor.Current as Feature;
                    // add the feature point geometry as a coordinate into the vertex list of the line
                    // - ensure that the projection of the point geometry is converted to match the spatial reference of the line
                    lineCoordinates.Add(((MapPoint)GeometryEngine.Project(pointFeature.Shape, polylineDefinition.SpatialReference)).Coordinate);

                    // for every 5 geometries, construct a new polyline and queue a feature create
                    if (pointCounter % 5 == 0)
                    {
                        var newPolyline = new Polyline(lineCoordinates, polylineDefinition.SpatialReference);
                        createOperation.Create(polylineLayer, newPolyline);
                        lineCoordinates = new List <Coordinate>(5);
                    }
                }

                // execute the edit (create) operation
                var t = createOperation.ExecuteAsync().Result;

                // save the edits
                return EditingModule.SaveEditsAsync();
            }));
        }
Ejemplo n.º 5
0
        /// <summary>
        /// Create random sample points in the extent of the spatial reference
        /// </summary>
        /// <param name="pointLayer">Point geometry feature layer used to the generate the points.</param>
        /// <returns>Task of bool</returns>
        private Task <bool> constructSamplePoints(FeatureLayer pointLayer)
        {
            // create a random number generator
            var randomGenerator = new Random();

            // the database and geometry interactions are considered fine-grained and must be executed on
            // the main CIM thread
            return(QueuingTaskFactory.StartNew(() =>
            {
                // get the feature class associated with the layer
                var featureClass = pointLayer.GetTableAsync().Result as FeatureClass;
                // retrieve the class definition of the point feature class
                var classDefinition = featureClass.Definition as FeatureClassDefinition;

                // store the spatial reference as its own variable
                SpatialReference spatialReference = featureClass.SpatialReference;

                // define an area of interest. Random points are generated in the allowed
                // confines of the allow extent range
                var areaOfInterest = MappingModule.ActiveMapView.GetExtentAsync().Result;

                // start an edit operation to create new (random) point features
                var createOperation = EditingModule.CreateEditOperation();
                createOperation.Name = "Generate points";

                // create 20 new point geometries and queue them for creation
                for (int i = 0; i < 20; i++)
                {
                    MapPoint newMapPoint = null;

                    // generate either 2D or 3D geometries
                    if (classDefinition.HasZ)
                    {
                        newMapPoint = new MapPoint(randomGenerator.NextCoordinate(areaOfInterest, true), spatialReference);
                    }
                    else
                    {
                        newMapPoint = new MapPoint(randomGenerator.NextCoordinate(areaOfInterest, false), spatialReference);
                    }

                    // queue feature creation
                    createOperation.Create(pointLayer, newMapPoint);
                }

                // execute the edit (feature creation) operation
                var t = createOperation.ExecuteAsync().Result;
                return EditingModule.SaveEditsAsync().Result;
            }));
        }
        /// <summary>
        /// This is a basic FinishSketch method which illustrates the process of using the sketch geometry for a cut.
        /// 1. look at all layers in the active map
        /// for each layer:
        ///   2. Use the sketch geometry to perform a spatial query (Crosses)
        ///   3. Use the found features and use them to set up a cut operation
        ///   4. Create edit operation
        ///   5. Execute the edit operation
        ///      ! edits are not saved !
        ///
        /// </summary>
        /// <returns>Task of bool</returns>
        protected override async Task <bool> OnFinishSketch(Geometry geometry, Dictionary <string, object> attributes)
        {
            // use all layers of the active map to perform the cut
            foreach (var layer in ActiveMap.Layers)
            {
                // intialize a list of ObjectIDs that need to be cut
                List <long> cutOiDs = new List <long>();

                Table fc = await layer.getFeatureClass();

                // on a separate thread
                await QueuingTaskFactory.StartNew(() =>
                {
                    // find the features crossed by the sketch geometry
                    RowCursor rc = fc.Search(geometry, SpatialRelationship.Crosses);
                    // add the feature IDs into our prepared list
                    while (rc.MoveNext())
                    {
                        cutOiDs.Add(rc.Current.ObjectID);
                    }
                });

                // no features 'crossed' by the sketched line
                if (!cutOiDs.Any())
                {
                    continue;
                }

                // create an edit operation for the cut
                EditOperation op = EditingModule.CreateEditOperation();
                op.Name                   = string.Format("Cut {0}", layer.Name);
                op.ProgressMessage        = "Working...";
                op.CancelMessage          = "Operation canceled";
                op.ErrorMessage           = "Error cutting features";
                op.SelectModifiedFeatures = false;
                op.SelectNewFeatures      = false;

                // for each of the found features set up a cut method inside our edit operation
                // for multiple ObjectIDs the cuts with will be stacked into one operation
                foreach (var oid in cutOiDs)
                {
                    op.Cut(layer, oid, geometry);
                }
                await op.ExecuteAsync();
            }

            //execute the operation
            return(true);
        }
Ejemplo n.º 7
0
        /// <summary>
        /// Create a single multi-point feature that is comprised of 20 points.
        /// </summary>
        /// <param name="multiPointLayer">Multi-point geometry feature layer used to add the multi-point feature.</param>
        /// <returns></returns>
        private async Task constructSampleMultiPoints(FeatureLayer multiPointLayer)
        {
            // get the feature class associated with the layer
            var featureClass = await multiPointLayer.GetTableAsync() as FeatureClass;

            // create a random number generator
            var randomGenerator = new Random();

            // the database and geometry interactions are considered fine-grained and need to be executed on
            // a separate thread
            await QueuingTaskFactory.StartNew(async() =>
            {
                // store the spatial reference as its own variable
                var spatialReference = featureClass.SpatialReference;

                // define an area of interest. Random points are generated in the allowed
                // confines of the allow extent range
                var areaOfInterest = await MappingModule.ActiveMapView.GetExtentAsync();

                // start an edit operation to create new (random) multi-point feature
                var createOperation  = EditingModule.CreateEditOperation();
                createOperation.Name = "Generate multi-point";

                // retrieve the class definition of the point feature class
                var classDefinition = featureClass.Definition as FeatureClassDefinition;

                // create a list to hold the 20 coordinates of the multi-point feature
                IList <Coordinate> coordinateList = new List <Coordinate>(20);

                for (int i = 0; i < 20; i++)
                {
                    // generate either 2D or 3D geometries
                    if (classDefinition.HasZ)
                    {
                        coordinateList.Add(randomGenerator.NextCoordinate(areaOfInterest, true));
                    }
                    else
                    {
                        coordinateList.Add(randomGenerator.NextCoordinate(areaOfInterest, false));
                    }
                }

                // create and execute the feature creation operation
                createOperation.Create(multiPointLayer, new MultiPoint(coordinateList, classDefinition.SpatialReference));
                await createOperation.ExecuteAsync();
            });
        }
Ejemplo n.º 8
0
        /// <summary>
        /// Create sample polygon feature using the point geometries from the multi-point feature using the
        /// ConvexHull method provided by the GeometryEngine.
        /// </summary>
        /// <param name="polygonLayer">Polygon geometry feature layer used to add the new feature.</param>
        /// <param name="lineLayer">The polyline feature layer containing the features used to construct the polygon.</param>
        /// <returns></returns>
        private Task <bool> constructSamplePolygon(FeatureLayer polygonLayer, FeatureLayer lineLayer)
        {
            // execute the fine grained API calls on the CIM main thread
            return(QueuingTaskFactory.StartNew(() =>
            {
                // get the underlying feature class for each layer
                var polygonFeatureClass = polygonLayer.GetTableAsync().Result as FeatureClass;
                var lineFeatureClass = lineLayer.GetTableAsync().Result as FeatureClass;

                // construct a cursor to retrieve the line features
                var lineCursor = lineFeatureClass.Search(null, false);

                // retrieve the feature class schema information for the feature class
                var polygonDefinition = polygonFeatureClass.Definition as FeatureClassDefinition;
                var polylineDefinition = lineFeatureClass.Definition as FeatureClassDefinition;

                // set up the edit operation for the feature creation
                var createOperation = EditingModule.CreateEditOperation();
                createOperation.Name = "Create polygons";

                List <CoordinateCollection> combinedCoordinates = new List <CoordinateCollection>();

                while (lineCursor.MoveNext())
                {
                    // retrieve the first feature
                    var lineFeature = lineCursor.Current as Feature;

                    // add the coordinate collection of the current geometry into our overall list of collections
                    var polylineGeometry = lineFeature.Shape as Polyline;
                    combinedCoordinates.AddRange(polylineGeometry.Paths);
                }

                // use the ConvexHull method from the GeometryEngine to construct the polygon geometry
                var newPolygon = Polygon.Clone(GeometryEngine.ConvexHull(new Polyline(combinedCoordinates,
                                                                                      lineFeatureClass.SpatialReference))) as Polygon;

                // queue the polygon creation
                createOperation.Create(polygonLayer, newPolygon);

                // execute the edit (polygon create) operation
                var t = createOperation.ExecuteAsync().Result;

                // save the edits
                return EditingModule.SaveEditsAsync();
            }));
        }
Ejemplo n.º 9
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        public async static Task <bool> AddAndFlashGeometryAsync(this FeatureLayer targetFeatureLayer, Geometry GeometryToAdd)
        {
            var targetFeatureClass = await targetFeatureLayer.GetTableAsync() as FeatureClass;

            FeatureClassDefinition targetClassDefinition = null;
            Feature newFeature = null;

            var editOperation = EditingModule.CreateEditOperation();

            editOperation.Name = "Flash closest geometry";

            editOperation.Callback(context =>
            {
                targetClassDefinition = targetFeatureClass.Definition as FeatureClassDefinition;

                var targetGeometry = GeometryEngine.Project(GeometryToAdd, targetClassDefinition.SpatialReference);

                if (GeometryToAdd.GeometryType != targetClassDefinition.ShapeType)
                {
                    return;
                }

                var featureBuffer = targetFeatureClass.CreateRowBuffer();
                newFeature        = targetFeatureClass.CreateRow(featureBuffer) as Feature;

                newFeature.Shape = targetGeometry;
                newFeature.Store();

                context.invalidate(newFeature);
            }, targetFeatureClass);



            MappingModule.ActiveMapView.FlashFeature(targetFeatureLayer, Convert.ToInt32(newFeature.ObjectID));

            return(true);
        }
Ejemplo n.º 10
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        /// <summary>
        /// Based on the type of edit event, a corresponding message is stored in the comment field of the feature class and the attribute
        /// modification is stored as an operation in undo/redo stack
        /// </summary>
        /// <param name="editEventArgs">The EditEventArgs object is passed to the EditEvent subscription and contains information about the current
        /// adds, modifies, and deletes of the features.</param>
        /// <returns></returns>
        private static async Task TrackEditEvents(EditEventArgs editEventArgs)
        {
            // let's deal with the create events first
            foreach (var mapMember in editEventArgs.Creates)
            {
                // TODO
                // for each featuer layer containing creates
                // the layer that contains the creates

                // TODO
                // find the field described by the COMMENT_FIELD_NAME const
                Table table             = null;
                int   commentFieldIndex = -1;

                // prepare the comment to enter for the feature
                string comment = String.Format("Created @ {0:G}", DateTime.Now);

                // set up the edit operation to make the changes
                var editOperation = EditingModule.CreateEditOperation();
                editOperation.Name = "Add 'created' comment.";

                KeyValuePair <MapMember, IReadOnlyCollection <long> > member = mapMember;

                editOperation.Callback(async context =>
                {
                    foreach (long featureOID in member.Value)
                    {
                        // for each feature OID retrieve the feature
                        // TODO: get the fields from the table in order to prepare the WhereClause
                        Row currentRow = await table.GetRowByIDAsync(featureOID);

                        if (currentRow == null)
                        {
                            continue;
                        }

                        // if we have the comment field index
                        if (commentFieldIndex != -1)
                        {
                            // add the comment into the comment attribute field
                            currentRow[commentFieldIndex] = comment;
                            try
                            {
                                currentRow.Store();
                                _editFlags.Add("create_" + featureOID);
                            }
                            catch (GeodatabaseRowException rowException)
                            {
                                System.Diagnostics.Debug.WriteLine(rowException.Message);
                            }
                            finally
                            {
                                context.invalidate(currentRow);
                            }
                        }
                    }
                }, table);

                // don't await the edit operation
                editOperation.ExecuteAsync();
            }

            foreach (var mapMember in editEventArgs.Modifies)
            {
                var    featureLayer = mapMember.Key as FeatureLayer;
                string comment      = String.Format("Changed @ {0:G}", DateTime.Now);
                Table  table        = await featureLayer.GetTableAsync();

                if (mapMember.Value.Count > 0)
                {
                    var editOperation = EditingModule.CreateEditOperation();
                    editOperation.Name = "Add 'changed' comment.";

                    KeyValuePair <MapMember, IReadOnlyCollection <long> > member = mapMember;

                    editOperation.Callback(context =>
                    {
                        foreach (long featureOID in member.Value)
                        {
                            // check who triggered the event...this is to avoid infinite loops based on self-triggered
                            // edit operations
                            // if there is an existing modify operation for current feature id,
                            // abort the operation and continue to the next feature
                            if (_editFlags.Contains("modify_" + featureOID.ToString()))
                            {
                                _editFlags.Remove("modify_" + featureOID.ToString());
                                continue;
                            }

                            // if there is an existing create operation for current feature id,
                            // abort the operation and continue to the next feature
                            if (_editFlags.Contains("create_" + featureOID.ToString()))
                            {
                                //editOperation.Abort();
                                _editFlags.Remove("create_" + featureOID.ToString());
                                continue;
                            }

                            // find the name of the ObjectID field
                            string oidFieldName = "OBJECTID";

                            var tableDefinition = table.Definition as TableDefinition;
                            if (tableDefinition != null)
                            {
                                oidFieldName = tableDefinition.ObjectIDField;
                            }


                            var queryFilter = new QueryFilter
                            {
                                WhereClause = string.Format("{0} = {1}", oidFieldName, featureOID.ToString())
                            };
                            var rc = table.Search(queryFilter, false);
                            var commentFieldIndex = rc.FindField(COMMENT_FIELD_NAME);

                            while (rc.MoveNext())
                            {
                                if (commentFieldIndex != -1)
                                {
                                    rc.Current[commentFieldIndex] = comment;
                                    try
                                    {
                                        rc.Current.Store();
                                        _editFlags.Add("modify_" + featureOID.ToString());
                                    }
                                    catch (GeodatabaseRowException rowException)
                                    {
                                        System.Diagnostics.Debug.WriteLine(rowException.Message);
                                    }
                                    finally
                                    {
                                        context.invalidate(rc.Current);
                                    }
                                }
                            }
                        }
                    }, table);

                    // don't await the edit operation
                    editOperation.ExecuteAsync();
                }
            }
        }
Ejemplo n.º 11
0
        protected async Task <bool> ExecuteCut(EditingTemplate template, Geometry geometry, Dictionary <string, object> attributes)
        {
            if (template == null)
            {
                return(false);
            }
            if (geometry == null)
            {
                return(false);
            }

            // create an edit operation
            EditOperation op = EditingModule.CreateEditOperation();

            op.Name                   = "Cut Elements";
            op.ProgressMessage        = "Working...";
            op.CancelMessage          = "Operation canceled.";
            op.ErrorMessage           = "Error cutting polygons";
            op.SelectModifiedFeatures = false;
            op.SelectNewFeatures      = false;

            // get the feature class associated with the layer
            Table fc = await template.Layer.GetTableAsync();

            // initialize a list of ObjectIDs that need to be cut
            var cutOIDs = new List <long>();

            // on a separate thread
            await QueuingTaskFactory.StartNew(async() =>
            {
                // TODO
                // find the features crossed by the sketch geometry
                RowCursor rc = await fc.SearchAsync(geometry, SpatialRelationship.Crosses);

                // add the feature IDs into our prepared list
                while (rc.MoveNext())
                {
                    var feature = rc.Current as Feature;

                    if (feature == null)
                    {
                        break;
                    }

                    if (feature.Shape != null)
                    {
                        // we are interested in the intersection points
                        // in case there is only one intersection then the sketch geometry doesn't enter and leave the
                        // base geometry and the cut operation won't work.
                        Geometry intersectionGeometry = GeometryEngine.Intersection(feature.Shape, geometry, GeometryDimension.esriGeometry0Dimension);
                        if (intersectionGeometry is MultiPoint)
                        {
                            //var intersectionPoints = intersectionGeometry as MultiPoint;
                            //// we are only interested in feature IDs where the count of intersection points is larger than 1
                            //// i.e., at least one entry and one exit
                            //if (intersectionPoints.Coordinates.Count > 1)
                            //{
                            //    // add the current feature to the overall list of features to cut
                            //    cutOIDs.Add(rc.Current.ObjectID);
                            //}
                        }
                    }
                }
            });

            // add the elements to cut into the edit operation
            op.Cut(template.Layer, cutOIDs, geometry);

            //execute the operation
            bool operationResult = await op.ExecuteAsync();


            return(operationResult);
        }
Ejemplo n.º 12
0
        // TODO: change the method declaration to return Task of bool
        private void constructSamplePolylines(FeatureLayer polylineLayer, FeatureLayer pointLayer)
        {
            // TODO
            // execute the fine grained API calls on the CIM main thread
            //return QueuingTaskFactory.StartNew(() => {
            // get the feature classes and their definitions
            // get the underlying feature class for each layer
            var polylineFeatureClass = polylineLayer.GetTableAsync().Result as FeatureClass;
            var pointFeatureClass    = pointLayer.GetTableAsync().Result as FeatureClass;

            FeatureClassDefinition polylineDefinition = null;
            FeatureClassDefinition pointDefinition    = null;

            // construct a cursor for all point features, since we want all feature there is no
            // QueryFilter required
            var pointCursor = pointFeatureClass.Search(null, false);

            // set up the edit operation for the feature creation
            var createOperation = EditingModule.CreateEditOperation();

            createOperation.Name = "Create polylines";

            // initialize a counter variable
            int pointCounter = 0;
            // initialize a list to hold 5 coordinates that are used as vertices for the polyline
            var lineCoordinates = new List <Coordinate>(5);

            // with the first 20 points create polylines with 5 vertices each
            // be aware that the spatial reference between point geometries and line geometries is different
            // HINT: use GeometryEngine.Project

            // loop through the point features
            while (pointCursor.MoveNext())
            {
                pointCounter++;

                // TODO
                // add the feature point geometry as a coordinate into the vertex list of the line
                //var pointFeature = ... use the current property of the cursor

                // - ensure that the projection of the point geometry is converted to match the spatial reference of the line
                //MapPoint pt = GeometryEngine.Project(pointFeature.Shape, polylineDefinition.SpatialReference) as MapPoint;
                //lineCoordinates.Add(pt.Coordinate);

                // for every 5 geometries, construct a new polyline and queue a feature create
                if (pointCounter % 5 == 0)
                {
                    var newPolyline = new Polyline(lineCoordinates, polylineDefinition.SpatialReference);
                    createOperation.Create(polylineLayer, newPolyline);
                    lineCoordinates = new List <Coordinate>(5);
                }
            }

            // TODO
            // execute the edit (create) operation
            //HINT use createOperation.... execute async

            // TODO
            // save the edits
            //return EditingModule.SaveEditsAsync();
            //});
        }