How to: Implement CopyToDataTable<T> Where the Generic Type T Is Not a DataRow
The DataTable object is often used for data binding. The CopyToDataTable method takes the results of a query and copies the data into a DataTable, which can then be used for data binding. The CopyToDataTable methods, however, only operate on an IEnumerable<T> source where the generic parameter T is of type DataRow. Although this is useful, it does not allow tables to be created from a sequence of scalar types, from queries that project anonymous types, or from queries that perform table joins.
This topic describes how to implement two custom CopyToDataTable<T> extension methods that accept a generic parameter T of a type other than DataRow. The logic to create a DataTable from an IEnumerable<T> source is contained in the ObjectShredder<T> class, which is then wrapped in two overloaded CopyToDataTable<T> extension methods. The Shred method of the ObjectShredder<T> class returns the filled DataTable and accepts three input parameters: an IEnumerable<T> source, a DataTable, and a LoadOption enumeration. The initial schema of the returned DataTable is based on the schema of the type T. If an existing table is provided as input, the schema must be consistent with the schema of the type T. Each public property and field of the type T is converted to a DataColumn in the returned table. If the source sequence contains a type derived from T, the returned table schema is expanded for any additional public properties or fields.
For examples of using the custom CopyToDataTable<T> methods, see Creating a DataTable From a Query (LINQ to DataSet).
To implement the custom CopyToDataTable<T> methods in your application
Implement the ObjectShredder<T> class to create a DataTable from an IEnumerable<T> source:
Public Class ObjectShredder(Of T) ' Fields Private _fi As FieldInfo() Private _ordinalMap As Dictionary(Of String, Integer) Private _pi As PropertyInfo() Private _type As Type ' Constructor Public Sub New() Me._type = GetType(T) Me._fi = Me._type.GetFields Me._pi = Me._type.GetProperties Me._ordinalMap = New Dictionary(Of String, Integer) End Sub Public Function ShredObject(ByVal table As DataTable, ByVal instance As T) As Object() Dim fi As FieldInfo() = Me._fi Dim pi As PropertyInfo() = Me._pi If (Not instance.GetType Is GetType(T)) Then ' If the instance is derived from T, extend the table schema ' and get the properties and fields. Me.ExtendTable(table, instance.GetType) fi = instance.GetType.GetFields pi = instance.GetType.GetProperties End If ' Add the property and field values of the instance to an array. Dim values As Object() = New Object(table.Columns.Count - 1) {} Dim f As FieldInfo For Each f In fi values(Me._ordinalMap.Item(f.Name)) = f.GetValue(instance) Next Dim p As PropertyInfo For Each p In pi values(Me._ordinalMap.Item(p.Name)) = p.GetValue(instance, Nothing) Next ' Return the property and field values of the instance. Return values End Function ' Summary: Loads a DataTable from a sequence of objects. ' source parameter: The sequence of objects to load into the DataTable.</param> ' table parameter: The input table. The schema of the table must match that ' the type T. If the table is null, a new table is created ' with a schema created from the public properties and fields ' of the type T. ' options parameter: Specifies how values from the source sequence will be applied to ' existing rows in the table. ' Returns: A DataTable created from the source sequence. Public Function Shred(ByVal source As IEnumerable(Of T), ByVal table As DataTable, ByVal options As LoadOption?) As DataTable ' Load the table from the scalar sequence if T is a primitive type. If GetType(T).IsPrimitive Then Return Me.ShredPrimitive(source, table, options) End If ' Create a new table if the input table is null. If (table Is Nothing) Then table = New DataTable(GetType(T).Name) End If ' Initialize the ordinal map and extend the table schema based on type T. table = Me.ExtendTable(table, GetType(T)) ' Enumerate the source sequence and load the object values into rows. table.BeginLoadData() Using e As IEnumerator(Of T) = source.GetEnumerator Do While e.MoveNext If options.HasValue Then table.LoadDataRow(Me.ShredObject(table, e.Current), options.Value) Else table.LoadDataRow(Me.ShredObject(table, e.Current), True) End If Loop End Using table.EndLoadData() ' Return the table. Return table End Function Public Function ShredPrimitive(ByVal source As IEnumerable(Of T), ByVal table As DataTable, ByVal options As LoadOption?) As DataTable ' Create a new table if the input table is null. If (table Is Nothing) Then table = New DataTable(GetType(T).Name) End If If Not table.Columns.Contains("Value") Then table.Columns.Add("Value", GetType(T)) End If ' Enumerate the source sequence and load the scalar values into rows. table.BeginLoadData() Using e As IEnumerator(Of T) = source.GetEnumerator Dim values As Object() = New Object(table.Columns.Count - 1) {} Do While e.MoveNext values(table.Columns.Item("Value").Ordinal) = e.Current If options.HasValue Then table.LoadDataRow(values, options.Value) Else table.LoadDataRow(values, True) End If Loop End Using table.EndLoadData() ' Return the table. Return table End Function Public Function ExtendTable(ByVal table As DataTable, ByVal type As Type) As DataTable ' Extend the table schema if the input table was null or if the value ' in the sequence is derived from type T. Dim f As FieldInfo Dim p As PropertyInfo For Each f In type.GetFields If Not Me._ordinalMap.ContainsKey(f.Name) Then Dim dc As DataColumn ' Add the field as a column in the table if it doesn't exist ' already. dc = IIf(table.Columns.Contains(f.Name), table.Columns.Item(f.Name), table.Columns.Add(f.Name, f.FieldType)) ' Add the field to the ordinal map. Me._ordinalMap.Add(f.Name, dc.Ordinal) End If Next For Each p In type.GetProperties If Not Me._ordinalMap.ContainsKey(p.Name) Then ' Add the property as a column in the table if it doesn't exist ' already. Dim dc As DataColumn dc = IIf(table.Columns.Contains(p.Name), table.Columns.Item(p.Name), table.Columns.Add(p.Name, p.PropertyType)) ' Add the property to the ordinal map. Me._ordinalMap.Add(p.Name, dc.Ordinal) End If Next ' Return the table. Return table End Function End Classpublic class ObjectShredder<T> { private System.Reflection.FieldInfo[] _fi; private System.Reflection.PropertyInfo[] _pi; private System.Collections.Generic.Dictionary<string, int> _ordinalMap; private System.Type _type; // ObjectShredder constructor. public ObjectShredder() { _type = typeof(T); _fi = _type.GetFields(); _pi = _type.GetProperties(); _ordinalMap = new Dictionary<string, int>(); } /// <summary> /// Loads a DataTable from a sequence of objects. /// </summary> /// <param name="source">The sequence of objects to load into the DataTable.</param> /// <param name="table">The input table. The schema of the table must match that /// the type T. If the table is null, a new table is created with a schema /// created from the public properties and fields of the type T.</param> /// <param name="options">Specifies how values from the source sequence will be applied to /// existing rows in the table.</param> /// <returns>A DataTable created from the source sequence.</returns> public DataTable Shred(IEnumerable<T> source, DataTable table, LoadOption? options) { // Load the table from the scalar sequence if T is a primitive type. if (typeof(T).IsPrimitive) { return ShredPrimitive(source, table, options); } // Create a new table if the input table is null. if (table == null) { table = new DataTable(typeof(T).Name); } // Initialize the ordinal map and extend the table schema based on type T. table = ExtendTable(table, typeof(T)); // Enumerate the source sequence and load the object values into rows. table.BeginLoadData(); using (IEnumerator<T> e = source.GetEnumerator()) { while (e.MoveNext()) { if (options != null) { table.LoadDataRow(ShredObject(table, e.Current), (LoadOption)options); } else { table.LoadDataRow(ShredObject(table, e.Current), true); } } } table.EndLoadData(); // Return the table. return table; } public DataTable ShredPrimitive(IEnumerable<T> source, DataTable table, LoadOption? options) { // Create a new table if the input table is null. if (table == null) { table = new DataTable(typeof(T).Name); } if (!table.Columns.Contains("Value")) { table.Columns.Add("Value", typeof(T)); } // Enumerate the source sequence and load the scalar values into rows. table.BeginLoadData(); using (IEnumerator<T> e = source.GetEnumerator()) { Object[] values = new object[table.Columns.Count]; while (e.MoveNext()) { values[table.Columns["Value"].Ordinal] = e.Current; if (options != null) { table.LoadDataRow(values, (LoadOption)options); } else { table.LoadDataRow(values, true); } } } table.EndLoadData(); // Return the table. return table; } public object[] ShredObject(DataTable table, T instance) { FieldInfo[] fi = _fi; PropertyInfo[] pi = _pi; if (instance.GetType() != typeof(T)) { // If the instance is derived from T, extend the table schema // and get the properties and fields. ExtendTable(table, instance.GetType()); fi = instance.GetType().GetFields(); pi = instance.GetType().GetProperties(); } // Add the property and field values of the instance to an array. Object[] values = new object[table.Columns.Count]; foreach (FieldInfo f in fi) { values[_ordinalMap[f.Name]] = f.GetValue(instance); } foreach (PropertyInfo p in pi) { values[_ordinalMap[p.Name]] = p.GetValue(instance, null); } // Return the property and field values of the instance. return values; } public DataTable ExtendTable(DataTable table, Type type) { // Extend the table schema if the input table was null or if the value // in the sequence is derived from type T. foreach (FieldInfo f in type.GetFields()) { if (!_ordinalMap.ContainsKey(f.Name)) { // Add the field as a column in the table if it doesn't exist // already. DataColumn dc = table.Columns.Contains(f.Name) ? table.Columns[f.Name] : table.Columns.Add(f.Name, f.FieldType); // Add the field to the ordinal map. _ordinalMap.Add(f.Name, dc.Ordinal); } } foreach (PropertyInfo p in type.GetProperties()) { if (!_ordinalMap.ContainsKey(p.Name)) { // Add the property as a column in the table if it doesn't exist // already. DataColumn dc = table.Columns.Contains(p.Name) ? table.Columns[p.Name] : table.Columns.Add(p.Name, p.PropertyType); // Add the property to the ordinal map. _ordinalMap.Add(p.Name, dc.Ordinal); } } // Return the table. return table; } }Implement the custom CopyToDataTable<T> extension methods in a class:
Public Module CustomLINQtoDataSetMethods <Extension()> _ Public Function CopyToDataTable(Of T)(ByVal source As IEnumerable(Of T)) As DataTable Return New ObjectShredder(Of T)().Shred(source, Nothing, Nothing) End Function <Extension()> _ Public Function CopyToDataTable(Of T)(ByVal source As IEnumerable(Of T), ByVal table As DataTable, ByVal options As LoadOption?) As DataTable Return New ObjectShredder(Of T)().Shred(source, table, options) End Function End Modulepublic static class CustomLINQtoDataSetMethods { public static DataTable CopyToDataTable<T>(this IEnumerable<T> source) { return new ObjectShredder<T>().Shred(source, null, null); } public static DataTable CopyToDataTable<T>(this IEnumerable<T> source, DataTable table, LoadOption? options) { return new ObjectShredder<T>().Shred(source, table, options); } }Add the ObjectShredder<T> class and CopyToDataTable<T> extension methods to your application.
Module Module1 Sub Main() ' Your application code using CopyToDataTable<T>. End Sub End Module Public Module CustomLINQtoDataSetMethods … End Module Public Class ObjectShredder(Of T) … End Class
class Program
{
static void Main(string[] args)
{
// Your application code using CopyToDataTable<T>.
}
}
public static class CustomLINQtoDataSetMethods
{
…
}
public class ObjectShredder<T>
{
…
}
See Also
Concepts
Creating a DataTable From a Query (LINQ to DataSet)