void IPersistable.Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Value: { object obj2 = null; if (m_parameterDef.Value.IsExpression) { obj2 = Value; } writer.Write(obj2); break; } case MemberName.Omit: { object obj = null; if (m_parameterDef.Omit.IsExpression && IsOmitAssined) { obj = Omit; } writer.Write(obj); break; } default: Global.Tracer.Assert(condition: false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Map: writer.WriteReference(m_map); break; case MemberName.StartValue: writer.Write(m_startValue); break; case MemberName.EndValue: writer.Write(m_endValue); break; case MemberName.ExprHostID: writer.Write(m_exprHostID); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.RowCount: writer.Write(m_rowCount); break; case MemberName.ColumnCount: writer.Write(m_columnCount); break; case MemberName.Navigation: writer.Write(m_navigation); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(MapPolygon.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.UseCustomPolygonTemplate: writer.Write(this.m_useCustomPolygonTemplate); break; case MemberName.MapPolygonTemplate: writer.Write(this.m_mapPolygonTemplate); break; case MemberName.UseCustomPointTemplate: writer.Write(this.m_useCustomCenterPointTemplate); break; case MemberName.MapPointTemplate: writer.Write(this.m_mapCenterPointTemplate); break; default: Global.Tracer.Assert(false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Type: writer.Write(m_type); break; case MemberName.PointerCap: writer.Write(m_pointerCap); break; case MemberName.NeedleStyle: writer.Write(m_needleStyle); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.ParametersLayoutNumberOfColumns: writer.Write(NumberOfColumns); break; case MemberName.ParametersLayoutNumberOfRows: writer.Write(NumberOfRows); break; case MemberName.ParametersLayoutCellDefinitions: writer.Write(CellDefinitions); break; default: Global.Tracer.Assert(condition: false, "Unexpected RIF Member for ParametersGridLayout"); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(Gauge.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.BackFrame: writer.Write(this.m_backFrame); break; case MemberName.ClipContent: writer.Write(this.m_clipContent); break; case MemberName.TopImage: writer.Write(this.m_topImage); break; case MemberName.AspectRatio: writer.Write(this.m_aspectRatio); break; default: Global.Tracer.Assert(false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(OpenXmlBorderPropertiesModel.GetDeclaration()); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Color: writer.Write(this.Color); break; case MemberName.Width: writer.Write(this._widthInEighthPoints); break; case MemberName.Style: writer.Write((byte)this.Style); break; default: WordOpenXmlUtils.FailSerializable(); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(SortHierarchyStructure.m_declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.SortInfo: writer.Write(this.SortInfo); break; case MemberName.SortIndex: writer.Write(this.SortIndex); break; case MemberName.SortTree: writer.Write(this.SortTree); break; default: Global.Tracer.Assert(false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Grouping: writer.Write(m_grouping); break; case MemberName.Expression: writer.Write(m_expression); break; case MemberName.HierarchyRoot: writer.Write(m_hierarchyRoot); break; case MemberName.HierarchyObjs: writer.Write(m_hierarchyObjs); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Hidden: writer.Write(m_hidden); break; case MemberName.Toggle: writer.Write(m_toggle); break; case MemberName.RecursiveReceiver: writer.Write(m_recursiveReceiver); break; case MemberName.ToggleSender: writer.WriteReference(m_toggleSender); break; case MemberName.RecursiveMember: writer.WriteReference(m_recursiveMember); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.BulbOffset: writer.Write(m_bulbOffset); break; case MemberName.BulbSize: writer.Write(m_bulbSize); break; case MemberName.ThermometerStyle: writer.Write(m_thermometerStyle); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.MapPolygonTemplate: writer.Write(m_mapPolygonTemplate); break; case MemberName.MapPolygonRules: writer.Write(m_mapPolygonRules); break; case MemberName.MapPointTemplate: writer.Write(m_mapCenterPointTemplate); break; case MemberName.MapPointRules: writer.Write(m_mapCenterPointRules); break; case MemberName.MapPolygons: writer.Write(m_mapPolygons); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(Max.m_declaration); IScalabilityCache scalabilityCache = writer.PersistenceHelper as IScalabilityCache; while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.ExpressionType: writer.WriteEnum((int)this.m_expressionType); break; case MemberName.CurrentMax: writer.Write(this.m_currentMax); break; case MemberName.Comparer: { int value = scalabilityCache.StoreStaticReference(this.m_comparer); writer.Write(value); break; } default: Global.Tracer.Assert(false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(LinearScale.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.GaugePointers: writer.Write(this.m_gaugePointers); break; case MemberName.StartMargin: writer.Write(this.m_startMargin); break; case MemberName.EndMargin: writer.Write(this.m_endMargin); break; case MemberName.Position: writer.Write(this.m_position); break; default: Global.Tracer.Assert(false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(DataRegionInstance.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.ID: Global.Tracer.Assert(null != this.m_dataRegionDef, "(null != m_dataRegionDef)"); writer.WriteGlobalReference(this.m_dataRegionDef); break; case MemberName.DataSetIndexInCollection: writer.Write7BitEncodedInt(this.m_dataSetIndexInCollection); break; case MemberName.RowMembers: writer.Write(this.m_rowMembers); break; case MemberName.ColumnMembers: writer.Write(this.m_columnMembers); break; case MemberName.Cells2: writer.Write(this.m_cells); break; default: Global.Tracer.Assert(false); break; } } }
public virtual void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_declaration); IScalabilityCache scalabilityCache = writer.PersistenceHelper as IScalabilityCache; while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.OdpContext: { int value = scalabilityCache.StoreStaticReference(m_odpContext); writer.Write(value); break; } case MemberName.ObjectType: writer.WriteEnum((int)m_objectType); break; case MemberName.Depth: writer.Write(m_depth); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(MapSpatialDataSet.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.DataSetName: writer.Write(this.m_dataSetName); break; case MemberName.SpatialField: writer.Write(this.m_spatialField); break; case MemberName.MapFieldNames: writer.Write(this.m_mapFieldNames); break; default: Global.Tracer.Assert(false); break; } } }
void IPersistable.Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.ActionDefinition: writer.Write(base.ActionDef); break; case MemberName.Actions: { ActionInstance[] array = new ActionInstance[base.Actions.Count]; for (int i = 0; i < array.Length; i++) { array[i] = base.Actions[i].Instance; } writer.Write(array); break; } case MemberName.ImageMapAreas: writer.WriteRIFList(ImageMapAreaInstances.InternalList); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Hidden: writer.Write(m_hidden); break; case MemberName.Interval: writer.Write(m_interval); break; case MemberName.ShowLabels: writer.Write(m_showLabels); break; case MemberName.LabelPosition: writer.Write(m_labelPosition); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(PointerImage.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.HueColor: writer.Write(this.m_hueColor); break; case MemberName.Transparency: writer.Write(this.m_transparency); break; case MemberName.OffsetX: writer.Write(this.m_offsetX); break; case MemberName.OffsetY: writer.Write(this.m_offsetY); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Children: writer.Write(m_children); break; case MemberName.Indexes: writer.Write(m_indexesLeftToRight); break; case MemberName.HorizontalPadding: writer.Write(m_rightPadding); break; case MemberName.DefPadding: writer.Write(m_definitionRightPadding); break; case MemberName.VerticalPadding: writer.Write(m_bottomPadding); break; default: RSTrace.RenderingTracer.Assert(condition: false, string.Empty); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(RecordRow.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.RecordFields: writer.Write(this.m_recordFields); break; case MemberName.IsAggregateRow: writer.Write(this.m_isAggregateRow); break; case MemberName.AggregationFieldCount: writer.Write(this.m_aggregationFieldCount); break; default: Global.Tracer.Assert(false); break; } } }
public virtual void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(BaseGaugeImage.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.GaugePanel: writer.WriteReference(this.m_gaugePanel); break; case MemberName.Source: writer.Write(this.m_source); break; case MemberName.Value: writer.Write(this.m_value); break; case MemberName.MIMEType: writer.Write(this.m_MIMEType); break; case MemberName.TransparentColor: writer.Write(this.m_transparentColor); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(MapLineRules.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Map: writer.WriteReference(this.m_map); break; case MemberName.MapSizeRule: writer.Write(this.m_mapSizeRule); break; case MemberName.MapColorRule: writer.Write(this.m_mapColorRule); break; default: Global.Tracer.Assert(false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(HeaderFooterReferences.GetDeclaration()); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Header: writer.Write(this.Header); break; case MemberName.Footer: writer.Write(this.Footer); break; case MemberName.FirstPageHeader: writer.Write(this.FirstPageHeader); break; case MemberName.FirstPageFooter: writer.Write(this.FirstPageFooter); break; default: WordOpenXmlUtils.FailSerializable(); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Top: writer.Write(m_top); break; case MemberName.Left: writer.Write(m_left); break; case MemberName.Height: writer.Write(m_height); break; case MemberName.Width: writer.Write(m_width); break; case MemberName.Chart: writer.WriteReference(m_chart); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.NonComputedReportItems: writer.Write(m_nonComputedReportItems); break; case MemberName.ComputedReportItems: writer.Write(m_computedReportItems); break; case MemberName.SortedReportItems: writer.Write(m_sortedReportItemList); break; case MemberName.ROMIndexMap: writer.WriteListOfPrimitives(m_romIndexMap); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Serialize(IntermediateFormatWriter writer) { base.Serialize(writer); writer.RegisterDeclaration(GaugeImage.m_Declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Source: writer.Write(this.m_source); break; case MemberName.Value: writer.Write(this.m_value); break; case MemberName.TransparentColor: writer.Write(this.m_transparentColor); break; default: Global.Tracer.Assert(false); break; } } }
public void Serialize(IntermediateFormatWriter writer) { writer.RegisterDeclaration(m_declaration); while (writer.NextMember()) { switch (writer.CurrentMember.MemberName) { case MemberName.Item: writer.Write(Item); break; case MemberName.Priority: writer.Write(Priority); break; case MemberName.ID: writer.Write(Id.Value); break; default: Global.Tracer.Assert(condition: false); break; } } }