Dataset Fields Collection References (Report Builder and SSRS)
Each dataset in a report contains one Fields collection. The Fields collection is the set of fields specified by the dataset query plus any additional calculated fields that you create. After you create a dataset, the field collection appears in the Report Data pane.
A simple field reference in an expression displays on the design surface as a simple expression. For example, when you drag the field Sales from the Report Data pane to a table cell on the design surface, [Sales] is displayed. This represents the underlying expression =Fields!Sales.Value that is set on the text box Value property. When the report runs, the report processor evaluates this expression and displays the actual data from the data source in the text box in the table cell. For more, see Expressions (Report Builder and SSRS) and Dataset Fields Collection (Report Builder and SSRS).
You can create and modify report definitions (.rdl) in Report Builder and in Report Designer in SQL Server Data Tools. Each authoring environment provides different ways to create, open, and save reports and related items. For more information, see Designing Reports in Report Designer and Report Builder (SSRS) on the Web at microsoft.com.
To display the individual values for a field collection, drag each field to a table detail row and run the report. References from the detail row of a table or list data region display a value for each row in the dataset.
To display summarized values for a field, drag each numeric field to the data area of a matrix. The default aggregate function for the total row is Sum, for example, =Sum(Fields!Sales.Value). You can change the default function in order to calculate different totals. For more information, see Aggregate Functions Reference (Report Builder and SSRS).
To display summarized values for a field collection in a text box directly on the design surface (not part of a data region), you must specify the dataset name as a scope for the aggregate function. For example, for a dataset named SalesData, the following expression specifies the total of all values for the field Sales: =Sum(Fields!Sales,"SalesData").
When you use the Expression dialog box to define a simple field reference, you can select the Fields collection in the Category pane and see the list of available fields in the Field pane. Each field has several properties, including Value and IsMissing. The remaining properties are predefined extended field properties that may be available to the dataset depending on the data source type.
To detect a field value that is null (Nothing in Visual Basic), you can use the function IsNothing. When placed in a text box in a table details row, the following expression tests the field MiddleName and substitutes the text "No Middle Name" when the value is null, and the field value itself when the value is not null:
=IIF(IsNothing(Fields!MiddleName.Value),"No Middle Name",Fields!MiddleName.Value)
By default, items in the Fields collection have two properties: Value and IsMissing. The IsMissing property indicates whether a field that is defined for a dataset at design time is contained in the fields retrieved at run time. For example, your query might call a stored procedure in which the result set varies with an input parameter, or your query might be SELECT * FROM <table> where the table definition changed.
IsMissing detects changes in the dataset schema between design time and run time for any type of data source. IsMissing cannot be used to detect empty members in a multidimensional cube and is not related to the MDX query language concepts of EMPTY and NON EMPTY.
You can test the IsMissing property in custom code to determine if a field is present in the result set. You cannot test for its presence using an expression with a Visual Basic function call such as IIF or SWITCH, because Visual Basic evaluates all parameters in the call to the function, which results in an error when the reference to the missing is evaluated.
To set an expression that controls the visibility of a column that displays a field in a dataset, you must first define a custom code function that returns a Boolean value based on whether the field is missing. For example, the following custom code function returns true if the field is missing and false if the field exists.
Public Function IsFieldMissing(field as Field) as Boolean If (field.IsMissing) Then Return True Else Return False End If End Function
To use this function to control visibility of a column, set the Hidden property of the column to the following expression:
The column is hidden when the field does not exist.
To substitute text that you write in place of the value of a missing field, you must write custom code that returns text you can use in place of a field value when the field is missing. For example, the following custom code function returns the value of the field if the field exists, and the message that you specify as the second parameter if the field does not exist:
Public Function IsFieldMissingThenString(field as Field, strMessage as String) as String If (field.IsMissing) Then Return strMessage Else Return field.Value End If End Function
To use this function in a text box, add the following expression to the Value property:
The text box displays either the field value or the text that you specified.
Extended field properties are additional properties defined on a field by the data processing extension, which is determined by the data source type for the dataset. Extended field properties are predefined or specific to a data source type. For more information, see Extended Field Properties for an Analysis Services Database (SSRS).
If you specify a property that is not supported for that field, the expression evaluates to null (Nothing in Visual Basic). If a data provider does not support extended field properties, or if the field is not found when the query is executed, the value for the property is null (Nothing in Visual Basic) for properties of type String and Object, and zero (0) for properties of type Integer. A data processing extension may take advantage of predefined properties by optimizing queries that include this syntax.