public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.DataSetName: m_dataSetName = reader.ReadString(); break; case MemberName.Key: { string item = reader.ReadString(); m_keyFields = new List <string>(1); m_keyFields.Add(item); break; } case MemberName.Label: m_label = reader.ReadString(); break; case MemberName.KeyFields: m_keyFields = reader.ReadListOfPrimitives <string>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(HeaderFooterReferences.GetDeclaration()); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Header: this.Header = reader.ReadString(); break; case MemberName.Footer: this.Footer = reader.ReadString(); break; case MemberName.FirstPageHeader: this.FirstPageHeader = reader.ReadString(); break; case MemberName.FirstPageFooter: this.FirstPageFooter = reader.ReadString(); break; default: WordOpenXmlUtils.FailSerializable(); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(ImageInfo.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.StreamName: this.m_streamName = reader.ReadString(); break; case MemberName.MIMEType: this.m_mimeType = reader.ReadString(); break; case MemberName.ErrorOccurred: this.m_errorOccurred = reader.ReadBoolean(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(MapField.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Map: this.m_map = reader.ReadReference <Map>(this); break; case MemberName.Name: this.m_name = reader.ReadString(); break; case MemberName.Value: this.m_value = reader.ReadString(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Map: m_map = reader.ReadReference <Map>(this); break; case MemberName.Name: m_name = reader.ReadString(); break; case MemberName.TileData: m_tileData = reader.ReadString(); break; case MemberName.MIMEType: m_mIMEType = reader.ReadString(); break; case MemberName.ExprHostID: m_exprHostID = reader.ReadInt32(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(LookupInfo.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ResultExpr: this.m_resultExpr = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.DataSetName: this.m_dataSetName = reader.ReadString(); break; case MemberName.SourceExpr: this.m_sourceExpr = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.IsMultiValue: if (reader.ReadBoolean()) { this.m_lookupType = LookupType.LookupSet; } else { this.m_lookupType = LookupType.Lookup; } break; case MemberName.DestinationIndexInCollection: this.m_destinationIndexInCollection = reader.ReadInt32(); break; case MemberName.Name: this.m_name = reader.ReadString(); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; case MemberName.DataSetIndexInCollection: this.m_dataSetIndexInCollection = reader.ReadInt32(); break; case MemberName.LookupType: this.m_lookupType = (LookupType)reader.ReadEnum(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(TextRun.m_declaration); IScalabilityCache scalabilityCache = reader.PersistenceHelper as IScalabilityCache; while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Text: this.m_text = reader.ReadString(); break; case MemberName.Style: this.m_styles = reader.ReadByteVariantHashtable <Dictionary <byte, object> >(); break; case MemberName.ToolTip: this.m_toolTip = reader.ReadString(); break; case MemberName.MarkupType: this.m_markup = (byte?)(object)(reader.ReadVariant() as byte?); break; case MemberName.Actions: this.m_hyperlinks = reader.ReadListOfPrimitives <string>(); break; case MemberName.UniqueName: this.m_uniqueName = reader.ReadString(); break; case MemberName.Source: this.m_source = (AspNetCore.ReportingServices.OnDemandReportRendering.TextRun)scalabilityCache.FetchStaticReference(reader.ReadInt32()); break; case MemberName.Indexes: this.m_splitIndices = reader.ReadListOfPrimitives <int>(); break; case MemberName.Offset: this.m_startCharacterOffset = reader.ReadInt32(); break; case MemberName.Key: this.m_fontKey = reader.ReadString(); break; default: RSTrace.RenderingTracer.Assert(false, string.Empty); break; } } }
void IPersistable.Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Shape: m_shape = (ImageMapArea.ImageMapAreaShape)reader.ReadEnum(); break; case MemberName.Coordinates: m_coordinates = reader.ReadSingleArray(); break; case MemberName.ToolTip: m_toolTip = reader.ReadString(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Hidden: m_hidden = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Toggle: m_toggle = reader.ReadString(); break; case MemberName.RecursiveReceiver: m_recursiveReceiver = reader.ReadBoolean(); break; case MemberName.ToggleSender: m_toggleSender = reader.ReadReference <TextBox>(this); break; case MemberName.RecursiveMember: m_recursiveMember = reader.ReadReference <TablixMember>(this); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Name: m_name = reader.ReadString(); break; case MemberName.Text: m_text = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Angle: m_angle = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.TextShadowOffset: m_textShadowOffset = (ExpressionInfo)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Value: m_odpParameter.SetValues(reader.ReadVariantArray()); break; case MemberName.Label: m_odpParameter.SetLabels(reader.ReadStringArray()); break; case MemberName.IsMultiValue: m_odpParameter.SetIsMultiValue(reader.ReadBoolean()); break; case MemberName.Prompt: m_odpParameter.SetPrompt(reader.ReadString()); break; case MemberName.IsUserSupplied: m_odpParameter.SetIsUserSupplied(reader.ReadBoolean()); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(Variable.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Name: this.m_name = reader.ReadString(); break; case MemberName.Value: this.m_value = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.DataType: this.m_constantDataType = (DataType)reader.ReadEnum(); break; case MemberName.SequenceID: this.m_sequenceID = reader.ReadInt32(); break; case MemberName.Writable: this.m_writable = reader.ReadBoolean(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ParameterCellColumnIndex: ColumnIndex = reader.ReadInt32(); break; case MemberName.ParameterCellRowIndex: RowIndex = reader.ReadInt32(); break; case MemberName.ParameterName: ParameterName = reader.ReadString(); break; default: Global.Tracer.Assert(condition: false, "Unexpected RIF Member for ParametersGridCellDefinition"); break; } } }
public virtual void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(MapSpatialElement.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Map: this.m_map = reader.ReadReference <Map>(this); break; case MemberName.MapVectorLayer: this.m_mapVectorLayer = reader.ReadReference <MapVectorLayer>(this); break; case MemberName.VectorData: this.m_vectorData = reader.ReadString(); break; case MemberName.MapFields: this.m_mapFields = reader.ReadGenericListOfRIFObjects <MapField>(); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Map: m_map = reader.ReadReference <Map>(this); break; case MemberName.Name: m_name = reader.ReadString(); break; case MemberName.DataType: m_dataType = (MapDataType)reader.ReadEnum(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(OpenXmlBorderPropertiesModel.GetDeclaration()); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Color: this.Color = reader.ReadString(); break; case MemberName.Width: this._widthInEighthPoints = reader.ReadInt32(); break; case MemberName.Style: this.Style = (BorderStyle)reader.ReadByte(); break; default: WordOpenXmlUtils.FailSerializable(); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Size: m_size = reader.ReadString(); break; case MemberName.SizeValue: m_sizeValue = reader.ReadDouble(); break; case MemberName.CellContents: m_cellContents = (ReportItem)reader.ReadRIFObject(); break; case MemberName.AltCellContents: m_altCellContents = (ReportItem)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ChartMembers: m_chartMembers = reader.ReadListOfRIFObjects <ChartMemberList>(); break; case MemberName.DataElementName: m_dataElementName = reader.ReadString(); break; case MemberName.DataElementOutput: m_dataElementOutput = (DataElementOutputTypes)reader.ReadEnum(); break; case MemberName.Label: m_labelExpression = (ExpressionInfo)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(TablixRow.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Height: this.m_height = reader.ReadString(); break; case MemberName.HeightValue: this.m_heightValue = reader.ReadDouble(); break; case MemberName.TablixCells: this.m_cells = reader.ReadListOfRIFObjects <TablixCellList>(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(ReportInstance.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.NoRows: this.m_noRows = reader.ReadBoolean(); break; case MemberName.Language: this.m_language = reader.ReadString(); break; case MemberName.Variables: this.m_variables = reader.ReadVariantArray(); break; case MemberName.SerializableVariables: this.m_variables = reader.ReadSerializableArray(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(RunningValueInfo.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Scope: this.m_scope = reader.ReadString(); break; case MemberName.TotalGroupingExpressionCount: this.m_totalGroupingExpressionCount = reader.ReadInt32(); break; case MemberName.IsScopedInEvaluationScope: this.m_isScopedInEvaluationScope = reader.ReadBoolean(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(MapVectorLayer.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.MapDataRegionName: this.m_mapDataRegionName = reader.ReadString(); break; case MemberName.MapBindingFieldPairs: this.m_mapBindingFieldPairs = reader.ReadGenericListOfRIFObjects <MapBindingFieldPair>(); break; case MemberName.MapFieldDefinitions: this.m_mapFieldDefinitions = reader.ReadGenericListOfRIFObjects <MapFieldDefinition>(); break; case MemberName.MapSpatialData: this.m_mapSpatialData = (MapSpatialData)reader.ReadRIFObject(); break; case MemberName.ExprHostMapMemberID: this.m_exprHostMapMemberID = reader.ReadInt32(); break; case MemberName.ID: this.m_ID = reader.ReadInt32(); break; case MemberName.DataElementName: this.m_dataElementName = reader.ReadString(); break; case MemberName.DataElementOutput: this.m_dataElementOutput = (DataElementOutputTypes)reader.ReadEnum(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Action: m_action = (Action)reader.ReadRIFObject(); break; case MemberName.ID: m_id = reader.ReadInt32(); break; case MemberName.Hidden: m_hidden = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.OffsetX: m_offsetX = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.OffsetY: m_offsetY = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Label: m_label = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ToolTip: m_toolTip = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MapVectorLayer: m_mapVectorLayer = reader.ReadReference <MapVectorLayer>(this); break; case MemberName.DataElementLabel: m_dataElementLabel = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.DataElementName: m_dataElementName = reader.ReadString(); break; case MemberName.DataElementOutput: m_dataElementOutput = (DataElementOutputTypes)reader.ReadEnum(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.DataPointValues: m_dataPointValues = (ChartDataPointValues)reader.ReadRIFObject(); break; case MemberName.DataLabel: m_dataLabel = (ChartDataLabel)reader.ReadRIFObject(); break; case MemberName.Action: m_action = (Action)reader.ReadRIFObject(); break; case MemberName.StyleClass: m_styleClass = (Style)reader.ReadRIFObject(); break; case MemberName.DataElementName: m_dataElementName = reader.ReadString(); break; case MemberName.DataElementOutput: m_dataElementOutput = (DataElementOutputTypes)reader.ReadEnum(); break; case MemberName.CustomProperties: m_customProperties = reader.ReadListOfRIFObjects <DataValueList>(); break; case MemberName.Marker: m_marker = (ChartMarker)reader.ReadRIFObject(); break; case MemberName.AxisLabel: m_axisLabel = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ChartItemInLegend: m_itemInLegend = (ChartItemInLegend)reader.ReadRIFObject(); break; case MemberName.ToolTip: m_toolTip = (ExpressionInfo)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(OpenXmlTableRowPropertiesModel.GetDeclaration()); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.RowHeight: this._height = reader.ReadSingle(); break; case MemberName.LeftIndent: this._rowIndent = reader.ReadSingle(); break; case MemberName.ExactRowHeight: this._exactRowHeight = reader.ReadBoolean(); break; case MemberName.IgnoreRowHeight: this._ignoreRowHeight = reader.ReadBoolean(); break; case MemberName.TopPadding: this._maxPaddingTop = reader.ReadSingle(); break; case MemberName.BottomPadding: this._maxPaddingBottom = reader.ReadSingle(); break; case MemberName.TopBorder: this._borderTop = (OpenXmlBorderPropertiesModel)reader.ReadRIFObject(); break; case MemberName.BottomBorder: this._borderBottom = (OpenXmlBorderPropertiesModel)reader.ReadRIFObject(); break; case MemberName.LeftBorder: this._borderLeft = (OpenXmlBorderPropertiesModel)reader.ReadRIFObject(); break; case MemberName.RightBorder: this._borderRight = (OpenXmlBorderPropertiesModel)reader.ReadRIFObject(); break; case MemberName.Color: this._bgColor = reader.ReadString(); break; default: WordOpenXmlUtils.FailSerializable(); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(TextRun.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Value: this.m_value = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ToolTip: this.m_toolTip = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Style: this.m_styleClass = (Style)reader.ReadRIFObject(); break; case MemberName.Label: this.m_label = reader.ReadString(); break; case MemberName.MarkupType: this.m_markupType = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Action: this.m_action = (Action)reader.ReadRIFObject(); break; case MemberName.DataType: this.m_constantDataType = (DataType)reader.ReadEnum(); break; case MemberName.IndexInCollection: this.m_indexInCollection = reader.ReadInt32(); break; case MemberName.Paragraph: this.m_paragraph = reader.ReadReference <Paragraph>(this); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; case MemberName.ValueReferenced: this.m_valueReferenced = reader.ReadBoolean(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(RecordSetInfo.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ReaderExtensionsSupported: this.m_readerExtensionsSupported = reader.ReadBoolean(); break; case MemberName.FieldPropertyNames: this.m_fieldPropertyNames = reader.ReadListOfRIFObjects <RecordSetPropertyNamesList>(); break; case MemberName.CompareOptions: this.m_compareOptions = (CompareOptions)reader.ReadEnum(); break; case MemberName.FieldNames: this.m_fieldNames = reader.ReadStringArray(); break; case MemberName.CommandText: this.m_commandText = reader.ReadString(); break; case MemberName.RewrittenCommandText: this.m_rewrittenCommandText = reader.ReadString(); break; case MemberName.CultureName: this.m_cultureName = reader.ReadString(); break; case MemberName.ExecutionTime: this.m_executionTime = reader.ReadDateTime(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_declaration); IScalabilityCache scalabilityCache = reader.PersistenceHelper as IScalabilityCache; while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ReportObjectModel: { int id2 = reader.ReadInt32(); m_reportOM = (ObjectModelImpl)scalabilityCache.FetchStaticReference(id2); break; } case MemberName.Value: m_value = reader.ReadVariant(); break; case MemberName.IsAggregateField: m_isAggregationField = reader.ReadBoolean(); break; case MemberName.AggregationFieldChecked: m_aggregationFieldChecked = reader.ReadBoolean(); break; case MemberName.FieldStatus: m_fieldStatus = (DataFieldStatus)reader.ReadEnum(); break; case MemberName.Message: m_exceptionMessage = reader.ReadString(); break; case MemberName.Properties: m_properties = reader.ReadStringObjectHashtable <Hashtable>(); break; case MemberName.FieldDef: { int id = reader.ReadInt32(); m_fieldDef = (Microsoft.ReportingServices.ReportIntermediateFormat.Field)scalabilityCache.FetchStaticReference(id); break; } case MemberName.UsedInExpression: m_usedInExpression = reader.ReadBoolean(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public static ReportSize ReadReportSize(IntermediateFormatReader reader) { string text = reader.ReadString(); if (text != null) { return(new ReportSize(text)); } return(null); }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.DefinitionUniqueName: m_definitionUniqueName = reader.ReadString(); break; case MemberName.ReportPath: m_reportPath = reader.ReadString(); break; case MemberName.ParametersFromCatalog: m_parametersFromCatalog = reader.ReadListOfRIFObjects <ParameterInfoCollection>(); break; case MemberName.RetrievalFailed: m_retrievalFailed = reader.ReadBoolean(); break; case MemberName.Description: m_description = reader.ReadString(); break; case MemberName.OriginalCatalogPath: m_originalCatalogPath = reader.ReadString(); break; default: Global.Tracer.Assert(condition: false); break; } } if (m_originalCatalogPath == null) { m_originalCatalogPath = m_reportPath; } }