public virtual void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.FirstRowIndex: m_firstRowOffset = reader.ReadInt64(); break; case MemberName.DataRegionInstances: m_dataRegionInstances = reader.ReadGenericListOfRIFObjects <IReference <DataRegionInstance> >(); break; case MemberName.SubReportInstances: m_subReportInstances = reader.ReadGenericListOfRIFObjects <IReference <SubReportInstance> >(); break; case MemberName.AggregateValues: m_aggregateValues = reader.ReadGenericListOfRIFObjects <DataAggregateObjResult>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
void IPersistable.Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(ParameterDef.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Prompt: this.m_prompt = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ValidValuesDataSource: this.m_validValuesDataSource = (ParameterDataSource)reader.ReadRIFObject(); break; case MemberName.ValidValuesValueExpression: this.m_validValuesValueExpressions = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; case MemberName.ValidValuesLabelExpression: this.m_validValuesLabelExpressions = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; case MemberName.DefaultValueDataSource: this.m_defaultDataSource = (ParameterDataSource)reader.ReadRIFObject(); break; case MemberName.ExpressionList: this.m_defaultExpressions = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; case MemberName.DependencyList: { List <ParameterDef> list = reader.ReadGenericListOfRIFObjects <ParameterDef>(); if (list != null) { this.m_dependencyList = list; } break; } case MemberName.DependencyRefList: this.m_dependencyList = reader.ReadGenericListOfReferences <ParameterDef>(this); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; case MemberName.ReferenceID: this.m_referenceId = reader.ReadInt32(); 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.NonComputedReportItems: m_nonComputedReportItems = reader.ReadGenericListOfRIFObjects <ReportItem>(); break; case MemberName.ComputedReportItems: m_computedReportItems = reader.ReadGenericListOfRIFObjects <ReportItem>(); break; case MemberName.SortedReportItems: m_sortedReportItemList = reader.ReadGenericListOfRIFObjects <ReportItemIndexer>(); break; case MemberName.ROMIndexMap: m_romIndexMap = reader.ReadListOfPrimitives <int>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(Filter.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Expression: this.m_expression = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Operator: this.m_operator = (Operators)reader.ReadEnum(); break; case MemberName.Values: this.m_values = reader.ReadGenericListOfRIFObjects <ExpressionInfoTypeValuePair>(); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); 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.GaugeScales: m_gaugeScales = reader.ReadGenericListOfRIFObjects <RadialScale>(); break; case MemberName.PivotX: m_pivotX = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.PivotY: m_pivotY = (ExpressionInfo)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(Action.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ActionItemList: this.m_actionItemList = reader.ReadGenericListOfRIFObjects <ActionItem>(); break; case MemberName.StyleClass: this.m_styleClass = (Style)reader.ReadRIFObject(); break; case MemberName.TrackFieldsUsedInValueExpression: this.m_trackFieldsUsedInValueExpression = reader.ReadBoolean(); break; default: Global.Tracer.Assert(false); 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 virtual void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.JoinConditions: m_joinConditions = reader.ReadGenericListOfRIFObjects <JoinCondition>(); break; case MemberName.NaturalJoin: m_naturalJoin = reader.ReadBoolean(); break; case MemberName.RelatedDataSet: m_relatedDataSet = reader.ReadReference <DataSet>(this); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(MapTileLayer.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.ServiceUrl: this.m_serviceUrl = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.TileStyle: this.m_tileStyle = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.UseSecureConnection: this.m_useSecureConnection = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MapTiles: this.m_mapTiles = reader.ReadGenericListOfRIFObjects <MapTile>(); 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.DataSetName: m_dataSetName = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.SpatialField: m_spatialField = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MapFieldNames: m_mapFieldNames = reader.ReadGenericListOfRIFObjects <MapFieldName>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(ReportQuery.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.CommandType: this.m_commandType = (CommandType)reader.ReadEnum(); break; case MemberName.CommandText: this.m_commandText = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.QueryParameters: this.m_queryParameters = reader.ReadGenericListOfRIFObjects <ParameterValue>(); break; case MemberName.Timeout: this.m_timeOut = reader.ReadInt32(); break; default: Global.Tracer.Assert(false, string.Empty); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.MapPolygonTemplate: m_mapPolygonTemplate = (MapPolygonTemplate)reader.ReadRIFObject(); break; case MemberName.MapPolygonRules: m_mapPolygonRules = (MapPolygonRules)reader.ReadRIFObject(); break; case MemberName.MapPointTemplate: m_mapCenterPointTemplate = (MapPointTemplate)reader.ReadRIFObject(); break; case MemberName.MapPointRules: m_mapCenterPointRules = (MapPointRules)reader.ReadRIFObject(); break; case MemberName.MapPolygons: m_mapPolygons = reader.ReadGenericListOfRIFObjects <MapPolygon>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(MapLineLayer.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.MapLineTemplate: this.m_mapLineTemplate = (MapLineTemplate)reader.ReadRIFObject(); break; case MemberName.MapLineRules: this.m_mapLineRules = (MapLineRules)reader.ReadRIFObject(); break; case MemberName.MapLines: this.m_mapLines = reader.ReadGenericListOfRIFObjects <MapLine>(); 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.GaugePointers: m_gaugePointers = reader.ReadGenericListOfRIFObjects <RadialPointer>(); break; case MemberName.Radius: m_radius = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.StartAngle: m_startAngle = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.SweepAngle: m_sweepAngle = (ExpressionInfo)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.GaugePointers: m_gaugePointers = reader.ReadGenericListOfRIFObjects <LinearPointer>(); break; case MemberName.StartMargin: m_startMargin = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.EndMargin: m_endMargin = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Position: m_position = (ExpressionInfo)reader.ReadRIFObject(); break; default: Global.Tracer.Assert(condition: 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 void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.AggregatesSpanGroupFilter: m_aggregatesSpanGroupFilter = reader.ReadBoolean(); break; case MemberName.AggregatesOfAggregates: m_aggregatesOfAggregates = (BucketedDataAggregateInfos)reader.ReadRIFObject(); break; case MemberName.PostSortAggregatesOfAggregates: m_postSortAggregatesOfAggregates = (BucketedDataAggregateInfos)reader.ReadRIFObject(); break; case MemberName.RunningValuesOfAggregates: m_runningValuesOfAggregates = reader.ReadGenericListOfRIFObjects <RunningValueInfo>(); break; case MemberName.ScopeID: m_scopeID = reader.ReadInt32(); break; case MemberName.HasAggregatesToUpdateAtRowScope: m_hasAggregatesToUpdateAtRowScope = reader.ReadBoolean(); break; case MemberName.IsDecomposable: m_isDecomposable = reader.ReadBoolean(); break; case MemberName.DataSet: m_dataSet = reader.ReadReference <DataSet>(this); break; case MemberName.JoinInfo: m_joinInfo = (JoinInfo)reader.ReadRIFObject(); break; case MemberName.DataPipelineID: m_dataPipelineID = reader.ReadInt32(); break; case MemberName.GroupingFieldIndicesForServerAggregates: m_groupingFieldIndicesForServerAggregates = reader.ReadListOfPrimitives <int>(); 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.Source: m_source = (Microsoft.ReportingServices.OnDemandReportRendering.Image.SourceType)reader.ReadEnum(); break; case MemberName.Value: m_value = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MIMEType: m_MIMEType = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Sizing: m_sizing = (Microsoft.ReportingServices.OnDemandReportRendering.Image.Sizings)reader.ReadEnum(); break; case MemberName.Action: m_action = (Action)reader.ReadRIFObject(); break; case MemberName.Tag: { ExpressionInfo expressionInfo = (ExpressionInfo)reader.ReadRIFObject(); if (expressionInfo != null) { m_tags = new List <ExpressionInfo>(1) { expressionInfo }; } break; } case MemberName.Tags: m_tags = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; case MemberName.EmbeddingMode: m_embeddingMode = (Microsoft.ReportingServices.OnDemandReportRendering.Image.EmbeddingModes)reader.ReadEnum(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(ChartLegendCustomItem.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Name: this.m_name = reader.ReadString(); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; case MemberName.Action: this.m_action = (Action)reader.ReadRIFObject(); break; case MemberName.Marker: this.m_marker = (ChartMarker)reader.ReadRIFObject(); break; case MemberName.Separator: this.m_separator = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.SeparatorColor: this.m_separatorColor = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ToolTip: this.m_toolTip = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ChartLegendCustomItemCells: this.m_chartLegendCustomItemCells = reader.ReadGenericListOfRIFObjects <ChartLegendCustomItemCell>(); break; case MemberName.ID: this.m_id = reader.ReadInt32(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(GetSpecificDeclaration()); while (reader.NextMember()) { MemberName memberName = reader.CurrentMember.MemberName; if (memberName == MemberName.Buckets) { m_buckets = reader.ReadGenericListOfRIFObjects <AggregateBucket <T> >(); } else { Global.Tracer.Assert(condition: false); } } }
public virtual void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(JoinInfo.m_Declaration); while (reader.NextMember()) { MemberName memberName = reader.CurrentMember.MemberName; if (memberName == MemberName.Relationships) { this.m_relationships = reader.ReadGenericListOfRIFObjects <IdcRelationship>(); } else { Global.Tracer.Assert(false); } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { MemberName memberName = reader.CurrentMember.MemberName; if (memberName == MemberName.MapMarkers) { m_mapMarkers = reader.ReadGenericListOfRIFObjects <MapMarker>(); } else { Global.Tracer.Assert(condition: false); } } }
public virtual void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { MemberName memberName = reader.CurrentMember.MemberName; if (memberName == MemberName.TopLevelScopeInstances) { m_topLevelScopeInstances = reader.ReadGenericListOfRIFObjects <IReference <ScopeInstance> >(); } else { Global.Tracer.Assert(condition: false); } } reader.ResolveReferences(); }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(ActionItem.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.HyperLinkURL: this.m_hyperLinkURL = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.DrillthroughReportName: this.m_drillthroughReportName = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.DrillthroughParameters: this.m_drillthroughParameters = reader.ReadGenericListOfRIFObjects <ParameterValue>(); break; case MemberName.DrillthroughBookmarkLink: this.m_drillthroughBookmarkLink = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.BookmarkLink: this.m_bookmarkLink = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.Label: this.m_label = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.ExprHostID: this.m_exprHostID = reader.ReadInt32(); break; case MemberName.Index: this.m_computedIndex = reader.ReadInt32(); break; default: Global.Tracer.Assert(false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(GetSpecificDeclaration()); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Aggregates: m_aggregates = reader.ReadGenericListOfRIFObjects <T>(); break; case MemberName.Level: m_level = reader.ReadInt32(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(SharedDataSetQuery.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.QueryParameters: this.m_queryParameters = reader.ReadGenericListOfRIFObjects <ParameterValue>(); break; case MemberName.OriginalSharedDataSetReference: this.m_originalSharedDataSetReference = reader.ReadString(); break; default: Global.Tracer.Assert(false, string.Empty); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.StyleAttributes: m_styleAttributes = reader.ReadStringRIFObjectDictionary <AttributeInfo>(); break; case MemberName.ExpressionList: m_expressionList = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; default: Global.Tracer.Assert(condition: false); break; } } }
public void Deserialize(IntermediateFormatReader reader) { reader.RegisterDeclaration(RdlFunctionInfo.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.RdlFunctionType: this.m_functionType = (RdlFunctionType)reader.ReadEnum(); break; case MemberName.Expressions: this.m_simpleExpressions = reader.ReadGenericListOfRIFObjects <ExpressionInfo>(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(MapShapefile.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.Source: this.m_source = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MapFieldNames: this.m_mapFieldNames = reader.ReadGenericListOfRIFObjects <MapFieldName>(); break; default: Global.Tracer.Assert(false); break; } } }
public override void Deserialize(IntermediateFormatReader reader) { base.Deserialize(reader); reader.RegisterDeclaration(MapElementView.m_Declaration); while (reader.NextMember()) { switch (reader.CurrentMember.MemberName) { case MemberName.LayerName: this.m_layerName = (ExpressionInfo)reader.ReadRIFObject(); break; case MemberName.MapBindingFieldPairs: this.m_mapBindingFieldPairs = reader.ReadGenericListOfRIFObjects <MapBindingFieldPair>(); break; default: Global.Tracer.Assert(false); break; } } }