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In a generic abstract base class I'm storing a couple of expressions used for ordering:

public Expression<Func<T, string>> OrderByString { get; set; }
public Expression<Func<T, int>> OrderByInt { get; set; }

The get used later on in the generic base class:

if (OrderByString != null)
    results = results.OrderBy(OrderByString);
else if (OrderByInt != null)
    results = results.OrderBy(OrderByInt);

Finally one of them will get set in the deriving concrete class's constructer:

this.OrderByString = c => c.CustomerID;

I don't like the fact that I need to have separate expressions based on the property type I want to OrderBy. ToString won't work on the property's because LINQ to Entities doesn't support it. What I'm after is a way of storing an expression that picks any of the properties to order on regardless of type.

If I try something a little more generic such as:

public Expression<Func<T, object>> Order { get; set; }

Unable to cast the type 'System.Int32' to type 'System.Object'. LINQ to Entities only supports casting Entity Data Model primitive types.

Additionally if I try a slight hack this also doesn't work:

public Expression<Func<T, string>> Order { get; set; }
this.Order = c => c.OrderID.ToString();

LINQ to Entities does not recognize the method 'System.String ToString()' method, and this method cannot be translated into a store expression.

share|improve this question
Long shot: Have you tried Expression<Func<T, object>> ? – Mikael Östberg Oct 12 '11 at 8:46
Thanks for the suggestion. I did try this but forgot to mention it. Now updated the question. – Dan Revell Oct 12 '11 at 14:17
You don't want to order by the string form anyway: 22 comes before 3 – David B Oct 12 '11 at 14:55
up vote 5 down vote accepted

Sounds like you want a way to pile up a bunch of Ordering in a list somewhere and apply it. But you can't because each Expression has its own type, which is checked by the compiler when calling OrderBy. You must have those two types when calling OrderBy, but you must have one type to put in the same list.

Hide that second type behind an interface.

public interface IOrderer<T>
    IOrderedQueryable<T> ApplyOrderBy(IQueryable<T> source);
    IOrderedQueryable<T> ApplyOrderByDescending(IQueryable<T> source);
    IOrderedQueryable<T> ApplyThenBy(IOrderedQueryable<T> source);
    IOrderedQueryable<T> ApplyThenByDescending(IOrderedQueryable<T> source);

public class Orderer<T, U> : IOrderer<T>
    private Expression<Func<T, U>> _orderExpr;
    public Orderer(Expression<Func<T, U>> orderExpr) { _orderExpr = orderExpr; }

    public IOrderedQueryable<T> ApplyOrderBy(IQueryable<T> source)
    { return source.OrderBy(_orderExpr); }
    public IOrderedQueryable<T> ApplyOrderByDescending(IQueryable<T> source)
    { return source.OrderByDescending(_orderExpr); }
    public IOrderedQueryable<T> ApplyThenBy(IOrderedQueryable<T> source)
    { return source.ThenBy(_orderExpr); }
    public IOrderedQueryable<T> ApplyThenByDescending(IOrderedQueryable<T> source)
    { return source.ThenByDescending(_orderExpr); }

public class OrderCoordinator<T>
    public List<IOrderer<T>> Orders { get; set; }

    public OrderCoordinator() { Orders = new List<IOrderer<T>>(); }

    //note, did not return IOrderedQueryable to support ability to return with empty Orders
    public IQueryable<T> ApplyOrders(IQueryable<T> source)
        foreach (IOrderer<T> orderer in Orders)
            source = orderer.ApplyOrderBy(source);
        return source;

public class Customer
    public string Name { get; set; }
    public int FavNumber { get; set; }

public class Tester
    public void Test()
        OrderCoordinator<Customer> coord = new OrderCoordinator<Customer>();
        coord.Orders.Add(new Orderer<Customer, string>(c => c.Name));
        coord.Orders.Add(new Orderer<Customer, int>(c => c.FavNumber));

        IQueryable<Customer> query = Enumerable.Empty<Customer>().AsQueryable();

        query = coord.ApplyOrders(query);

        string result = query.Expression.ToString();

In the debugger:

result = "OrderingDemo.Customer[].OrderBy(c => c.Name).OrderBy(c => c.FavNumber)"

So in your case, instead of this property:

 public Expression<Func<T, U>> Order { get; set; } 

use this property

 public IOrderer<T> Order { get; set; } 
share|improve this answer

This is easy to do if you use the DynamicLinq library found at NuGet.org. This allows you to write queries like;

db.People.Where("Id == 8");
db.People.OrderBy("Created ASC");

That way you can save or pass in your where clauses as strings. No fuss, no muss.


share|improve this answer

Consider using methods instead of properties.

public abstract IEnumerable<T> ApplyOrdering( IEnumerable<T> q );


public override IEnumerable<T> ApplyOrdering( IEnumerable<T> q )
  return q.OrderBy( c => c.CustomerID );
share|improve this answer
The base class itself does the ordering, I don't ever hold an instance of it that I can call into. This is because it's a WCF operation. For example in a derived class for type Customer a WCF call will call list. List is implemented in this base class and will use the OrderBy that is set in the constructor of the Customer definition. The idea being that for all types, Product, Customer, Order I don't need to reimplement the list method and all the associated filtering. – Dan Revell Oct 12 '11 at 11:58

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