I want to be able to build up an expression dynamically, which is essentially a property selector.

I am trying to use this so I can provide a flexible search UI and then translate the selected search parameters to an Entity Framework query.

I have most of what I need thanks to another library I am using, but am missing the final part which translates my query string parameters to the appropriate expression selector the other library requires.

The library takes an argument of :

Expression<Func<TObject, TPropertyType>>

An example of how this would be coded if baked into an application would be :

Expression<Func<MyObject, int>> expression = x=> x.IntegerProperty;

However, I need to be able to generate this expression dynamically, as the important point is that all I will know is the type of object (MyObject) and the property name as a string value ("IntegerProperty"). The property value will obviously map to an property on the object which could be of any non complex type.

So essentially I think I am wanting to find a way to build up the expression dynamically which specifies the correct object property to return and where the return value is determined by that property type.

psuedo code :

string ObjectPropertyName
Type ObjectType
Type ObjectPropertyType = typeof(ObjectType).GetProperty(ObjectPropertyName).Property

 Expression<Func<[ObjectType], [ObjectPropertyType]>> expression = x=> x.[ObjectPropertyName];

Update :

I have got as far as this

ParameterExpression objectParameter = Expression.Parameter(type, "x");
MemberExpression objectProperty = Expression.Property(objectParameter, "PropertyNameString");
Expression<Func<ObjectType, int>> expression = Expression.Lambda<Func<ObjectType, int>>(objectProperty, objectParameter);

But the problem I have with this is that the return type is not always an int but may be some other type.

  • Do you have ObjectType as a Type or a generic type parameter? How are you going to call the correct version of the method in the library? Feb 11 '16 at 15:12
  • You have the ExpressionBuilder class for these kinds of things, but I think there might be an easier way to solve your problem. Which library is the "other library", and what method you are calling on what class?
    – Tewr
    Feb 11 '16 at 15:18
  • I have ObjectType as a generic type parameter
    – Kramer00
    Feb 11 '16 at 15:28
  • and ObjectPropertyType? Feb 11 '16 at 15:35
  • 1
    There is no problem to build such expression, but I don't see how you'll be able to call the target function w/o having TPropertyType. Note that Expression<Func<TObject, TPropertyType>> cannot be treated as Expression<TObject, object>> and vice versa. You'd better post a reallistic example because we need to develop the whole method call, not just the expression.
    – Ivan Stoev
    Feb 11 '16 at 15:35

Doing what you asked is bit tricky but not impossible. Since the property type is not known until run time so you can not declare the Expression<Func<,>> so it would be done by reflection.

public static class QueryableExtension
    public static object Build<Tobject>(this Tobject source, string propertyName)
        var propInfo = typeof(Tobject).GetProperty(propertyName);

        var parameter = Expression.Parameter(typeof(Tobject), "x");

        var property = Expression.Property(parameter, propInfo);

        var delegateType = typeof(Func<,>)
                           .MakeGenericType(typeof(Tobject), propInfo.PropertyType);

        var lambda = GetExpressionLambdaMethod()
                        .Invoke(null, new object[] { property, new[] { parameter } });

        return lambda;

    public static MethodInfo GetExpressionLambdaMethod()
       return typeof(Expression)
                     .Where(m => m.Name == "Lambda")
                     .Select(m => new
                         Method = m,
                         Params = m.GetParameters(),
                         Args = m.GetGenericArguments()
                     .Where(x => x.Params.Length == 2
                                 && x.Args.Length == 1
                     .Select(x => x.Method)

Usage -

var expression = testObject.Build("YourPropertyName");

Now this will build the Expression you desired with return type of property. But since we don't know about your library but I suggest you to call your library method via reflection and pass the expression wrapped under object.


As I mentioned in the comments, building expression without knowing the property type is easy (even with nested property support):

static LambdaExpression MakeSelector(Type objectType, string path)
    var item = Expression.Parameter(objectType, "item");
    var body = path.Split('.').Aggregate((Expression)item, Expression.PropertyOrField);
    return Expression.Lambda(body, item);

But then you'll need to find a way to call your generic library method - using reflection or dynamic call.


If you have both ObjectType and ObjectPropertyType as generic type parameters, you can use the Expression class to do something like this:

public static Expression<Func<TObject, TPropertyType>> Generate<TObject, TPropertyType>(
    string property_name)
    var parameter = Expression.Parameter(typeof (TObject));

    return Expression.Lambda<Func<TObject, TPropertyType>>(
        Expression.Property(parameter, property_name), parameter);
  • Thanks. I think you have pin pointed my issue for me in that I don't have ObjectPropertyType as a generic type parameter. I would have determine the ObjectTypeProperty from the object type as below: Type ObjectPropertyType = typeof(ObjectType).GetProperty(ObjectPropertyName).Property
    – Kramer00
    Feb 11 '16 at 15:41
  • If have have ObjectPropertyType as a Type, then you need to use reflection to invoke the method in the class library that you have. Can you provide the full signature of the method in the class library? Feb 11 '16 at 15:46
  • @Kramer00 I provided you with details and implementation of how you can do it because it can only be done via reflection. check my answer. Feb 11 '16 at 16:30

There is old intresting library DynamicLinq. May be it will be useful for you. It extends System.Linq.Dynamic to support execution of Lambda expressions defined in a string. With use of DynamicLinq you can do somethink like:

   public class IndexViewModel
      public bool HasPassword { get; set; }
      public string PhoneNumber { get; set; }
      public bool TwoFactor { get; set; }
      public bool BrowserRemembered { get; set; }


    Expression<Func<IndexViewModel, bool>> ex =
    System.Linq.Dynamic.DynamicExpression.ParseLambda<IndexViewModel, bool>("TwoFactor");
        var model = new ReactJs.NET.Models.IndexViewModel() { TwoFactor = true };
        var res = ex.Compile()(model);
        // res == true

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