public static ChartSymbol ReadFrom(ArcXmlReader reader) { try { ChartSymbol chartSymbol = new ChartSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": chartSymbol.Antialiasing = Convert.ToBoolean(value); break; case "maxsize": chartSymbol.MaxSize = Convert.ToInt32(value); break; case "maxvalue": chartSymbol.MaxValue = Convert.ToInt32(value); break; case "minsize": chartSymbol.MinSize = Convert.ToInt32(value); break; case "minvalue": chartSymbol.MinValue = Convert.ToInt32(value); break; case "mode": chartSymbol.Mode = (ChartSymbolMode)ArcXmlEnumConverter.ToEnum(typeof(ChartSymbolMode), value); break; case "outline": chartSymbol.Outline = ColorConverter.ToColor(value); break; case "shadow": chartSymbol.Shadow = ColorConverter.ToColor(value); break; case "size": chartSymbol.Size = Convert.ToInt32(value); break; case "sizefield": chartSymbol.SizeField = value; break; case "transparency": chartSymbol.Transparency = Convert.ToDouble(value); break; case "width": chartSymbol.Width = Convert.ToInt32(value); break; } } } reader.MoveToElement(); } return(chartSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static CallOutMarkerSymbol ReadFrom(ArcXmlReader reader) { try { CallOutMarkerSymbol callOutMarkerSymbol = new CallOutMarkerSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": callOutMarkerSymbol.Antialiasing = Convert.ToBoolean(value); break; case "backcolor": callOutMarkerSymbol.BackColor = ColorConverter.ToColor(value); break; case "boundarycolor": callOutMarkerSymbol.BoundaryColor = ColorConverter.ToColor(value); break; case "font": callOutMarkerSymbol.Font = value; break; case "fontcolor": callOutMarkerSymbol.FontColor = ColorConverter.ToColor(value); break; case "fontsize": callOutMarkerSymbol.FontSize = Convert.ToInt32(value); break; case "fontstyle": callOutMarkerSymbol.FontStyle = (FontStyle)ArcXmlEnumConverter.ToEnum(typeof(FontStyle), value); break; case "glowing": callOutMarkerSymbol.Glowing = ColorConverter.ToColor(value); break; case "interval": callOutMarkerSymbol.Interval = Convert.ToInt32(value); break; case "outline": callOutMarkerSymbol.Outline = ColorConverter.ToColor(value); break; case "shadow": callOutMarkerSymbol.Shadow = ColorConverter.ToColor(value); break; case "transparency": callOutMarkerSymbol.Transparency = Convert.ToDouble(value); break; } } } reader.MoveToElement(); } return(callOutMarkerSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
private static Coordinate[] ReadCoordsFrom(ArcXmlReader reader) { try { Coordinate[] coordinates = new Coordinate[0]; if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == "COORDS")) { if (reader.NodeType == XmlNodeType.Text) { string[] coords = reader.ReadContentAsString().Split(reader.TupleSeparator); coordinates = new Coordinate[coords.Length]; for (int i = 0; i < coords.Length; ++i) { string[] c = coords[i].Split(reader.CoordinateSeparator); coordinates[i] = new Coordinate(Convert.ToDouble(c[0]), Convert.ToDouble(c[1])); } } reader.Read(); } } return(coordinates); } catch (Exception ex) { throw new ArcXmlException("Could not read COORDS element.", ex); } }
public static ServiceInfo ReadFrom(ArcXmlReader reader) { try { ServiceInfo serviceInfo = new ServiceInfo(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Environment.XmlName: serviceInfo.Environment = Environment.ReadFrom(reader); break; case Properties.XmlName: serviceInfo.Properties = Properties.ReadFrom(reader); break; case LayoutInfo.XmlName: serviceInfo.LayoutInfo = LayoutInfo.ReadFrom(reader); break; case DataFrameInfo.XmlName: if (serviceInfo.DataFrameInfos == null) { serviceInfo.DataFrameInfos = new DataFrameInfoList(); } serviceInfo.DataFrameInfos.Add(DataFrameInfo.ReadFrom(reader)); break; case LayerInfo.XmlName: if (serviceInfo.LayerInfos == null) { serviceInfo.LayerInfos = new LayerInfoList(); } serviceInfo.LayerInfos.Add(LayerInfo.ReadFrom(reader)); break; } } reader.Read(); } } return(serviceInfo); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static DataFrameInfo ReadFrom(ArcXmlReader reader) { try { DataFrameInfo dataFrameInfo = new DataFrameInfo(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "default": dataFrameInfo.Default = Convert.ToBoolean(value); break; case "name": dataFrameInfo.Name = value; break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Properties.XmlName: dataFrameInfo.Properties = Properties.ReadFrom(reader); break; case LayerInfo.XmlName: dataFrameInfo.LayerInfos.Add(LayerInfo.ReadFrom(reader)); break; } } reader.Read(); } } return(dataFrameInfo); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static ValueMapRenderer ReadFrom(ArcXmlReader reader) { try { ValueMapRenderer valueMapRenderer = new ValueMapRenderer(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "lookupfield": valueMapRenderer.LookupField = value; break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Exact.XmlName: valueMapRenderer.Classifications.Add(Exact.ReadFrom(reader)); break; case Other.XmlName: valueMapRenderer.Classifications.Add(Other.ReadFrom(reader)); break; case Range.XmlName: valueMapRenderer.Classifications.Add(Range.ReadFrom(reader)); break; } } reader.Read(); } } return(valueMapRenderer); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static SimplePolygonSymbol ReadFrom(ArcXmlReader reader) { try { SimplePolygonSymbol simplePolygonSymbol = new SimplePolygonSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": simplePolygonSymbol.Antialiasing = Convert.ToBoolean(value); break; case "boundary": simplePolygonSymbol.Boundary = Convert.ToBoolean(value); break; case "boundarycaptype": simplePolygonSymbol.BoundaryCapType = (CapType)ArcXmlEnumConverter.ToEnum(typeof(CapType), value); break; case "boundarycolor": simplePolygonSymbol.BoundaryColor = Color.FromArgb(simplePolygonSymbol.BoundaryColor.A, ColorConverter.ToColor(value)); break; case "boundaryjointype": simplePolygonSymbol.BoundaryJoinType = (JoinType)ArcXmlEnumConverter.ToEnum(typeof(JoinType), value); break; case "boundarytype": simplePolygonSymbol.BoundaryType = (LineType)ArcXmlEnumConverter.ToEnum(typeof(LineType), value); break; case "boundarywidth": simplePolygonSymbol.BoundaryWidth = Convert.ToInt32(value); break; case "fillcolor": simplePolygonSymbol.FillColor = Color.FromArgb(simplePolygonSymbol.FillColor.A, ColorConverter.ToColor(value)); break; case "fillinterval": simplePolygonSymbol.FillInterval = Convert.ToInt32(value); break; case "filltype": simplePolygonSymbol.FillType = (FillType)ArcXmlEnumConverter.ToEnum(typeof(FillType), value); break; case "overlap": simplePolygonSymbol.Overlap = Convert.ToBoolean(value); break; case "transparency": simplePolygonSymbol.Transparency = Convert.ToDouble(value); break; } } } reader.MoveToElement(); } return(simplePolygonSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static ShieldSymbol ReadFrom(ArcXmlReader reader) { try { ShieldSymbol shieldSymbol = new ShieldSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": shieldSymbol.Antialiasing = Convert.ToBoolean(value); break; case "bottomcolor": shieldSymbol.BottomColor = ColorConverter.ToColor(value); break; case "font": shieldSymbol.Font = value; break; case "fontcolor": shieldSymbol.FontColor = ColorConverter.ToColor(value); break; case "fontsize": shieldSymbol.FontSize = Convert.ToInt32(value); break; case "fontstyle": shieldSymbol.FontStyle = (FontStyle)ArcXmlEnumConverter.ToEnum(typeof(FontStyle), value); break; case "labelmode": shieldSymbol.LabelMode = (ShieldLabelMode)ArcXmlEnumConverter.ToEnum(typeof(ShieldLabelMode), value); break; case "middlecolor": shieldSymbol.MiddleColor = ColorConverter.ToColor(value); break; case "minsize": shieldSymbol.MinSize = Convert.ToInt32(value); break; case "shadow": shieldSymbol.Shadow = ColorConverter.ToColor(value); break; case "topcolor": shieldSymbol.TopColor = ColorConverter.ToColor(value); break; case "transparency": shieldSymbol.Transparency = Convert.ToDouble(value); break; } } } reader.MoveToElement(); } return(shieldSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Error ReadFrom(ArcXmlReader reader) { try { Error error = new Error(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "machine": error.Machine = value; break; case "processid": error.ProcessID = Convert.ToInt32(value); break; case "threadid": error.ThreadID = Convert.ToInt32(value); break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Text) { error.Text = reader.Value; } reader.Read(); } } return(error); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Bands ReadFrom(ArcXmlReader reader) { try { Bands bands = new Bands(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "rasterid": bands.RasterID = value; break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Band.XmlName: bands.Add(Band.ReadFrom(reader)); break; } } reader.Read(); } } return(bands); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static LayoutInfo ReadFrom(ArcXmlReader reader) { try { LayoutInfo layoutInfo = new LayoutInfo(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "pageunits": layoutInfo.PageUnits = (PageUnits)ArcXmlEnumConverter.ToEnum(typeof(PageUnits), value); break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case "ENVELOPE": layoutInfo.Envelope = EnvelopeSerializer.ReadFrom(reader); break; } } reader.Read(); } } return layoutInfo; } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static FieldValue ReadFrom(ArcXmlReader reader) { try { FieldValue fieldValue = new FieldValue(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "valuestring": fieldValue.ValueString = value; break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case "POINT": fieldValue.Point = (IPoint)GeometrySerializer.ReadFrom(reader); break; } } reader.Read(); } } return(fieldValue); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static TocGroup ReadFrom(ArcXmlReader reader) { try { TocGroup tocGroup = new TocGroup(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "heading": tocGroup.Heading = value; break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case TocClass.XmlName: tocGroup.Add(TocClass.ReadFrom(reader)); break; } } reader.Read(); } } return tocGroup; } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Extension ReadFrom(ArcXmlReader reader) { try { Extension extension = new Extension(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "type": extension.Type = (ExtensionType)ArcXmlEnumConverter.ToEnum(typeof(ExtensionType), value); break; } } } reader.MoveToElement(); } if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case GcStyle.XmlName: extension.GcStyle = GcStyle.ReadFrom(reader); break; } } reader.Read(); } } return(extension); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Envelope ReadFrom(ArcXmlReader reader) { try { double minx = Double.NaN; double miny = Double.NaN; double maxx = Double.NaN; double maxy = Double.NaN; if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "minx": minx = Convert.ToDouble(value); break; case "miny": miny = Convert.ToDouble(value); break; case "maxx": maxx = Convert.ToDouble(value); break; case "maxy": maxy = Convert.ToDouble(value); break; } } } reader.MoveToElement(); } if (Double.IsNaN(minx) || Double.IsNaN(minx) || Double.IsNaN(minx) || Double.IsNaN(minx)) { return(new Envelope()); } else { return(new Envelope(new Coordinate(minx, miny), new Coordinate(maxx, maxy))); } } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException("Could not read ENVELOPE element.", ex); } } }
public static HashLineSymbol ReadFrom(ArcXmlReader reader) { try { HashLineSymbol hashLineSymbol = new HashLineSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": hashLineSymbol.Antialiasing = Convert.ToBoolean(value); break; case "color": hashLineSymbol.Color = ColorConverter.ToColor(value); break; case "interval": hashLineSymbol.Interval = Convert.ToInt32(value); break; case "linethickness": hashLineSymbol.LineThickness = Convert.ToInt32(value); break; case "tickthickness": hashLineSymbol.TickThickness = Convert.ToInt32(value); break; case "overlap": hashLineSymbol.Overlap = Convert.ToBoolean(value); break; case "transparency": hashLineSymbol.Transparency = Convert.ToDouble(value); break; case "type": hashLineSymbol.Type = (HashLineType)ArcXmlEnumConverter.ToEnum(typeof(HashLineType), value); break; case "width": hashLineSymbol.Width = Convert.ToInt32(value); break; } } } reader.MoveToElement(); } return(hashLineSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static SimpleMarkerSymbol ReadFrom(ArcXmlReader reader) { try { SimpleMarkerSymbol simpleMarkerSymbol = new SimpleMarkerSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": simpleMarkerSymbol.Antialiasing = Convert.ToBoolean(value); break; case "color": simpleMarkerSymbol.Color = ColorConverter.ToColor(value); break; case "outline": simpleMarkerSymbol.Outline = ColorConverter.ToColor(value); break; case "overlap": simpleMarkerSymbol.Overlap = Convert.ToBoolean(value); break; case "shadow": simpleMarkerSymbol.Shadow = ColorConverter.ToColor(value); break; case "transparency": simpleMarkerSymbol.Transparency = Convert.ToDouble(value); break; case "type": simpleMarkerSymbol.Type = (MarkerType)ArcXmlEnumConverter.ToEnum(typeof(MarkerType), value); break; case "usecentroid": simpleMarkerSymbol.UseCentroid = Convert.ToBoolean(value); break; case "width": simpleMarkerSymbol.Width = Convert.ToInt32(value); break; } } } reader.MoveToElement(); } return(simpleMarkerSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Properties ReadFrom(ArcXmlReader reader) { try { Properties properties = new Properties(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Background.XmlName: properties.Background = Background.ReadFrom(reader); break; case "ENVELOPE": properties.Envelope = EnvelopeSerializer.ReadFrom(reader); break; case FeatureCoordSys.XmlName: properties.FeatureCoordSys = FeatureCoordSys.ReadFrom(reader); break; case FilterCoordSys.XmlName: properties.FilterCoordSys = FilterCoordSys.ReadFrom(reader); break; case ImageGeneralization.XmlName: properties.ImageGeneralization = ImageGeneralization.ReadFrom(reader); break; case ImageSize.XmlName: properties.ImageSize = ImageSize.ReadFrom(reader); break; case MapUnits.XmlName: properties.MapUnits = MapUnits.ReadFrom(reader); break; case Output.XmlName: properties.Output = Output.ReadFrom(reader); break; } } reader.Read(); } } return(properties); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Project ReadFrom(ArcXmlReader reader) { try { Project project = new Project(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case "ENVELOPE": project.Envelopes.Add(EnvelopeSerializer.ReadFrom(reader)); break; case "MULTIPOINT": IMultiPoint multiPoint = (IMultiPoint)GeometrySerializer.ReadFrom(reader); IGeometry shape = multiPoint.Count == 1 ? (IGeometry)multiPoint[0] : (IGeometry)multiPoint; project.Shapes.Add(shape); break; case "POLYLINE": case "POLYGON": project.Shapes.Add(GeometrySerializer.ReadFrom(reader)); break; } } reader.Read(); } } return(project); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static RasterRange ReadFrom(ArcXmlReader reader) { try { RasterRange rasterRange = new RasterRange(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "color": rasterRange.Color = ColorConverter.ToColor(value); break; case "equality": rasterRange.Equality = (RangeEquality)ArcXmlEnumConverter.ToEnum(typeof(RangeEquality), value); break; case "label": rasterRange.Label = value; break; case "lower": rasterRange.Lower = Convert.ToDouble(value); break; case "transparency": rasterRange.Transparency = Convert.ToDouble(value); break; case "upper": rasterRange.Upper = Convert.ToDouble(value); break; } } } reader.MoveToElement(); } return(rasterRange); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static GroupRenderer ReadFrom(ArcXmlReader reader) { try { GroupRenderer groupRenderer = new GroupRenderer(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case GroupRenderer.XmlName: groupRenderer.Add(GroupRenderer.ReadFrom(reader)); break; case ScaleDependentRenderer.XmlName: groupRenderer.Add(ScaleDependentRenderer.ReadFrom(reader)); break; case SimpleLabelRenderer.XmlName: groupRenderer.Add(SimpleLabelRenderer.ReadFrom(reader)); break; case SimpleRenderer.XmlName: groupRenderer.Add(SimpleRenderer.ReadFrom(reader)); break; case ValueMapLabelRenderer.XmlName: groupRenderer.Add(ValueMapLabelRenderer.ReadFrom(reader)); break; case ValueMapRenderer.XmlName: groupRenderer.Add(ValueMapRenderer.ReadFrom(reader)); break; } } reader.Read(); } } return(groupRenderer); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static ImageSize ReadFrom(ArcXmlReader reader) { try { ImageSize imageSize = new ImageSize(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "height": imageSize.Height = Convert.ToInt32(value); break; case "width": imageSize.Width = Convert.ToInt32(value); break; case "dpi": imageSize.Dpi = Convert.ToInt32(value); break; case "printheight": imageSize.PrintHeight = Convert.ToInt32(value); break; case "printwidth": imageSize.PrintWidth = Convert.ToInt32(value); break; case "scalesymbols": imageSize.ScaleSymbols = Convert.ToBoolean(value); break; } } } reader.MoveToElement(); } return(imageSize); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static GradientFillSymbol ReadFrom(ArcXmlReader reader) { try { GradientFillSymbol gradientFillSymbol = new GradientFillSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": gradientFillSymbol.Antialiasing = Convert.ToBoolean(value); break; case "finishcolor": gradientFillSymbol.FinishColor = ColorConverter.ToColor(value); break; case "overlap": gradientFillSymbol.Overlap = Convert.ToBoolean(value); break; case "startcolor": gradientFillSymbol.StartColor = ColorConverter.ToColor(value); break; case "transparency": gradientFillSymbol.Transparency = Convert.ToDouble(value); break; case "type": gradientFillSymbol.Type = (GradientFillType)ArcXmlEnumConverter.ToEnum(typeof(GradientFillType), value); break; } } } reader.MoveToElement(); } return(gradientFillSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Query ReadFrom(ArcXmlReader reader) { try { Query query = new Query(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "accuracy": query.Accuracy = Convert.ToDouble(value); break; case "featurelimit": query.FeatureLimit = Convert.ToInt32(value); break; case "joinexpression": query.JoinExpression = value; break; case "jointables": query.JoinTables = value; break; case "subfields": query.Subfields = value; break; case "where": query.Where = value; break; } } } reader.MoveToElement(); } return(query); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static IMultiPoint ReadMultiPointFrom(ArcXmlReader reader) { try { List <IPoint> points = new List <IPoint>(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == "MULTIPOINT")) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case "POINT": points.Add(ReadPointFrom(reader)); break; case "COORDS": Coordinate[] coordinates = ReadCoordsFrom(reader); foreach (Coordinate c in coordinates) { points.Add(new Point(c)); } break; } } reader.Read(); } } return(new MultiPoint(points.ToArray())); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException("Could not read MULTIPOINT element.", ex); } } }
public static RasterFillSymbol ReadFrom(ArcXmlReader reader) { try { RasterFillSymbol rasterFillSymbol = new RasterFillSymbol(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "antialiasing": rasterFillSymbol.Antialiasing = Convert.ToBoolean(value); break; case "image": rasterFillSymbol.Image = value; break; case "overlap": rasterFillSymbol.Overlap = Convert.ToBoolean(value); break; case "transparency": rasterFillSymbol.Transparency = Convert.ToDouble(value); break; case "url": rasterFillSymbol.Url = value; break; } } } reader.MoveToElement(); } return(rasterFillSymbol); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Environment ReadFrom(ArcXmlReader reader) { try { Environment environment = new Environment(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case Capabilities.XmlName: environment.Capabilities = Capabilities.ReadFrom(reader); break; case ImageLimit.XmlName: environment.ImageLimit = ImageLimit.ReadFrom(reader); break; case Locale.XmlName: environment.Locale = Locale.ReadFrom(reader); break; case Screen.XmlName: environment.Screen = Screen.ReadFrom(reader); break; case Separators.XmlName: environment.Separators = Separators.ReadFrom(reader); break; } } reader.Read(); } } return(environment); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static SimpleRenderer ReadFrom(ArcXmlReader reader) { try { SimpleRenderer simpleRenderer = new SimpleRenderer(); if (!reader.IsEmptyElement) { reader.Read(); while (!(reader.NodeType == XmlNodeType.EndElement && reader.Name == XmlName)) { if (reader.NodeType == XmlNodeType.Element) { switch (reader.Name) { case HashLineSymbol.XmlName: simpleRenderer.Symbol = HashLineSymbol.ReadFrom(reader); break; case SimpleLineSymbol.XmlName: simpleRenderer.Symbol = SimpleLineSymbol.ReadFrom(reader); break; case SimpleMarkerSymbol.XmlName: simpleRenderer.Symbol = SimpleMarkerSymbol.ReadFrom(reader); break; case SimplePolygonSymbol.XmlName: simpleRenderer.Symbol = SimplePolygonSymbol.ReadFrom(reader); break; case TrueTypeMarkerSymbol.XmlName: simpleRenderer.Symbol = TrueTypeMarkerSymbol.ReadFrom(reader); break; } } reader.Read(); } } return(simpleRenderer); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Output ReadFrom(ArcXmlReader reader) { try { Output output = new Output(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "file": output.File = value; break; case "height": output.Height = Convert.ToInt32(value); break; case "url": output.Url = value; break; case "width": output.Width = Convert.ToInt32(value); break; case "type": output.Type = (ImageType)ArcXmlEnumConverter.ToEnum(typeof(ImageType), value); break; } } } reader.MoveToElement(); } return(output); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }
public static Separators ReadFrom(ArcXmlReader reader) { try { Separators separators = new Separators(); if (reader.HasAttributes) { while (reader.MoveToNextAttribute()) { string value = reader.ReadContentAsString(); if (value.Length > 0) { switch (reader.Name) { case "cs": separators.CoordinateSeparator = value[0]; reader.CoordinateSeparator = new char[] { separators.CoordinateSeparator }; break; case "ts": separators.TupleSeparator = value[0]; reader.TupleSeparator = new char[] { separators.TupleSeparator }; break; } } } reader.MoveToElement(); } return(separators); } catch (Exception ex) { if (ex is ArcXmlException) { throw ex; } else { throw new ArcXmlException(String.Format("Could not read {0} element.", XmlName), ex); } } }