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I'm trying to convert an IQueryable object to a DataTable. Here's an example of a query that I would like to convert to a DataTable:

var query = DbContext.SomeObjectSet.Select(x => new { PropertyName1 = x.ColumnName1, PropertyName2 = x.ColumnName2 });

Please note the anonymous object that is created in the Select method and the names of the properties:

new { PropertyName1 = x.ColumnName1, PropertyName2 = x.ColumnName2 }

After Googling this issue, I came across the following code that converts an IQueryable object to a DataTable:

public static DataTable EntityToDatatable(this IQueryable result)
{
    ObjectQuery query = (result as ObjectQuery);

    ObjectContext context = query.Context;

    EntityConnection entityCon = (context.Connection as EntityConnection);

    using (SqlConnection sqlCon = new SqlConnection(entityCon.StoreConnection.ConnectionString))
    {
        using (SqlCommand cmd = new SqlCommand(query.ToTraceString(), sqlCon))
        {
            foreach (var param in query.Parameters)
            {
                cmd.Parameters.AddWithValue(param.Name, param.Value);

            }

            using (SqlDataAdapter dataAdapter = new SqlDataAdapter(cmd))
            {
                using (DataTable dataTable = new DataTable())
                {
                    dataAdapter.Fill(dataTable);

                    return dataTable;

                }

            }

        }

    }

}

The code above "works" and the SQL statement from the ToTraceString() method is as follows:

SELECT [Extent1].[ColumnName1] AS [ColumnName1], [Extent1].[ColumnName2] AS [ColumnName2] FROM [dbo].[TableName] AS [Extent1]

Problem: The column names of the SQL statement (i.e. columnName1 and columnName2) do not correspond to the names of the properties of the objects (i.e. PropertyName1 and PropertyName2) that would be materialized if a ToList() or AsEnumerable() method was called on the query. This wouldn't be so bad if the SQL statement columns were in the same order as the anonymous object properties...but, this is not always the case. Somewhere (I guess inside of the IQueryable object) there must be a mapping between the SQL statement column names and the resulting anonymous object property names.

Does anyone know how to get at this mapping?

share|improve this question
    
Why would you want to store the results in a DataTable? –  Eranga Aug 23 '12 at 4:01
    
@Eranga Good question! Well, for most intents and purposes converting an IQueryable object to a DataTable is pointless. However, I have created a pivot class which pivots DataTables. I have already created a pivot class that works on IEnumerables, but it relies quite heavily on reflection. I think that I can get better performance using datatables. –  HydroPowerDeveloper Aug 23 '12 at 4:11
    
Reasonable use case :) –  Eranga Aug 23 '12 at 4:18

1 Answer 1

up vote 2 down vote accepted

I've managed to find a solution to my problem:

First, you need the following code (from How does Entity Framework manage mapping query result to anonymous type?) which maps the positions of my anonymous object properties to the SQL statement column position:

public static Int32[] GetPropertyPositions(this ObjectQuery query)
{
    // get private ObjectQueryState ObjectQuery._state; 
    // of actual type internal class 
    //      System.Data.Objects.ELinq.ELinqQueryState 

    Object queryState = GetProperty(query, "QueryState");
    AssertNonNullAndOfType(queryState, "System.Data.Objects.ELinq.ELinqQueryState");

    // get protected ObjectQueryExecutionPlan ObjectQueryState._cachedPlan; 
    // of actual type internal sealed class 
    //      System.Data.Objects.Internal.ObjectQueryExecutionPlan 
    Object plan = GetField(queryState, "_cachedPlan");
    AssertNonNullAndOfType(plan, "System.Data.Objects.Internal.ObjectQueryExecutionPlan");

    // get internal readonly DbCommandDefinition ObjectQueryExecutionPlan.CommandDefinition; 
    // of actual type internal sealed class 
    //      System.Data.EntityClient.EntityCommandDefinition 
    Object commandDefinition = GetField(plan, "CommandDefinition");
    AssertNonNullAndOfType(commandDefinition, "System.Data.EntityClient.EntityCommandDefinition");

    // get private readonly IColumnMapGenerator EntityCommandDefinition._columnMapGenerator; 
    // of actual type private sealed class 
    //      System.Data.EntityClient.EntityCommandDefinition.ConstantColumnMapGenerator 
    Object columnMapGenerator = GetField(commandDefinition, "_columnMapGenerator");
    AssertNonNullAndOfType(columnMapGenerator, "System.Data.EntityClient.EntityCommandDefinition+ConstantColumnMapGenerator");

    // get private readonly ColumnMap ConstantColumnMapGenerator._columnMap; 
    // of actual type internal class 
    //      System.Data.Query.InternalTrees.SimpleCollectionColumnMap 
    Object columnMap = GetField(columnMapGenerator, "_columnMap");
    AssertNonNullAndOfType(columnMap, "System.Data.Query.InternalTrees.SimpleCollectionColumnMap");

    // get internal ColumnMap CollectionColumnMap.Element; 
    // of actual type internal class 
    //      System.Data.Query.InternalTrees.RecordColumnMap 
    Object columnMapElement = GetProperty(columnMap, "Element");
    AssertNonNullAndOfType(columnMapElement, "System.Data.Query.InternalTrees.RecordColumnMap");

    // get internal ColumnMap[] StructuredColumnMap.Properties; 
    // array of internal abstract class 
    //      System.Data.Query.InternalTrees.ColumnMap 
    Array columnMapProperties = GetProperty(columnMapElement, "Properties") as Array;
    AssertNonNullAndOfType(columnMapProperties, "System.Data.Query.InternalTrees.ColumnMap[]");

    Int32 n = columnMapProperties.Length;

    Int32[] propertyPositions = new Int32[n];

    for (Int32 i = 0; i < n; ++i)
    {
        // get value at index i in array 
        // of actual type internal class 
        //      System.Data.Query.InternalTrees.ScalarColumnMap 
        Object column = columnMapProperties.GetValue(i);
        AssertNonNullAndOfType(column, "System.Data.Query.InternalTrees.ScalarColumnMap");

        //string colName = (string)GetProp(column, "Name"); 
        // can be used for more advanced bingings 

        // get internal int ScalarColumnMap.ColumnPos; 
        Object columnPositionOfAProperty = GetProperty(column, "ColumnPos");
        AssertNonNullAndOfType(columnPositionOfAProperty, "System.Int32");

        propertyPositions[i] = (int)columnPositionOfAProperty;

    }

    return propertyPositions;

}

static object GetProperty(object obj, string propName)
{
    PropertyInfo prop = obj.GetType().GetProperty(propName, BindingFlags.NonPublic | BindingFlags.Instance);
    if (prop == null) throw EFChangedException();
    return prop.GetValue(obj, new object[0]);

}

static object GetField(object obj, string fieldName)
{
    FieldInfo field = obj.GetType().GetField(fieldName, BindingFlags.NonPublic | BindingFlags.Instance);
    if (field == null) throw EFChangedException();
    return field.GetValue(obj);

}

static void AssertNonNullAndOfType(object obj, string fullName)
{
    if (obj == null) throw EFChangedException();
    string typeFullName = obj.GetType().FullName;
    if (typeFullName != fullName) throw EFChangedException();

}

static InvalidOperationException EFChangedException()
{
    return new InvalidOperationException("Entity Framework internals has changed, please review and fix reflection code");

}

Then I can modify the EntityToDatatable method as follows:

public static DataTable EntityToDatatable(this IQueryable query)
{
    SqlConnection sqlConnection = null;
    SqlCommand sqlCommand = null;
    SqlDataAdapter sqlDataAdapter = null;
    DataTable dataTable = null;

    try
    {
        ObjectQuery objectQuery = (query as ObjectQuery);

        ObjectContext objectContext = objectQuery.Context;

        EntityConnection entityConnection = (objectContext.Connection as EntityConnection);

        sqlConnection = new SqlConnection(entityConnection.StoreConnection.ConnectionString);

        sqlCommand = new SqlCommand(objectQuery.ToTraceString(), sqlConnection);

        foreach (var parameter in objectQuery.Parameters)
        {
            sqlCommand.Parameters.AddWithValue(parameter.Name, parameter.Value);

        }

        sqlDataAdapter = new SqlDataAdapter(sqlCommand);

        dataTable = new DataTable();

        sqlDataAdapter.Fill(dataTable);

        // Get the mapping between the object property position and 
        // the SQL statment column position.
        Int32[] propertyPositions = objectQuery.GetPropertyPositions();

        // Create a column name to column position (ordinal) lookup.
        Dictionary<String, Int32> mapColumnNameToColumnPosition = new Dictionary<string, int>();

        // Populate the lookup.
        for (Int32 i = 0; i < propertyPositions.Length; ++i)
        {
            mapColumnNameToColumnPosition.Add(dataTable.Columns[propertyPositions[i]].ColumnName, i);

        }

        // Get the object's property information.
        PropertyInfo[] pi = query.GetType().GetGenericArguments()[0].GetProperties();

        // Iterate through the lookup and change the position of the datatable columns.
        // The order of the datatable columns will now correspond to the order of the object
        // properties.
        foreach (var map in mapColumnNameToColumnPosition)
        {
            // Change the column position.
            dataTable.Columns[map.Key].SetOrdinal(map.Value);

            // Change the column name.
            dataTable.Columns[map.Key].ColumnName = pi[map.Value].Name;

        }

        return dataTable;

    }
    catch (Exception ex)
    {
        // Something went wrong and we're going to raise an exception...we
        // might as well dispose of the datatable if it exists because it's
        // not going to be used.
        if (dataTable != null) dataTable.Dispose();

        throw new Exception("IQueryable to DataTable conversion error.", ex);

    }
    finally
    {
        // Do some cleanup on objects that are no longer needed.

        if (sqlDataAdapter != null) sqlDataAdapter.Dispose();

        if (sqlCommand != null) sqlCommand.Dispose();

        if (sqlConnection != null) sqlConnection.Dispose();

    }

}
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