I've been trying to create an expression which can project a strongly typed EF Core entity into a dynamic object containing a list which are defined at runtime using a REST API call.

This is what I have so far:

Expression<Func<Message, dynamic>> DynamicFields(IEnumerable<string> fields)
    var xParameter = Expression.Parameter(typeof(Message), "o");
    var xNew = Expression.New(typeof(ExpandoObject));

    var bindings = fields.Select(o => {
        var mi = typeof(Message).GetProperty(o);
        var xOriginal = Expression.Property(xParameter, mi);
        return Expression.Bind(mi, xOriginal);

    var xInit = Expression.MemberInit((dynamic)xNew, bindings);

    return Expression.Lambda<Func<Message, dynamic>>(xInit, xParameter);

It feels like I'm super close, but this bombs out at runtime stating that X property is not a member of ExpandoObject. I've tried changing up the use of the dynamic and ExpandoObject, but nothing seems to work - is this even possible?

If I switch out dyanmic / ExpandoObject for Message, it works just fine, but returns an instance of the Message class with all of its properties at their default values.

Anyone done this before?


  • Why don't you just cast to dynamic, Why are you creating an expression for this? – johnny 5 Sep 7 '18 at 18:25
  • Because I don't know which fields to select until runtime – Stu Ratcliffe Sep 7 '18 at 19:28
  • Basically you want to dynamically filter your property data set – johnny 5 Sep 7 '18 at 19:29
  • Why don't you just pull all the results into a dictionary of key to value, pretty sure the json serializer will create an object out of it by default – johnny 5 Sep 7 '18 at 19:55

It's not possible to project to ExpandoObject / dynamic directly.

But you can project to dynamically created types at runtime. See for instance Microsoft.EntityFrameworkCore.DynamicLinq package - Dynamic Data Classes.

If you install that package form nuget (you can develop similar functionality yourself, but you should basically implement all that part of the package is doing), the method in question can be implemented as follows:

using System.Linq.Dynamic.Core;

static Expression<Func<TSource, dynamic>> DynamicFields<TSource>(IEnumerable<string> fields)
    var source = Expression.Parameter(typeof(TSource), "o");
    var properties = fields
        .Select(f => typeof(TSource).GetProperty(f))
        .Select(p => new DynamicProperty(p.Name, p.PropertyType))
    var resultType = DynamicClassFactory.CreateType(properties, false);
    var bindings = properties.Select(p => Expression.Bind(resultType.GetProperty(p.Name), Expression.Property(source, p.Name)));
    var result = Expression.MemberInit(Expression.New(resultType), bindings);
    return Expression.Lambda<Func<TSource, dynamic>>(result, source);
  • does DynamicClassFactory Create an AnonymousType? – johnny 5 Sep 7 '18 at 19:30
  • 1
    @johnny5 No. Anonymous types are C# compile-time feature. It's creating runtime types (with necessary caching). It's explained in the link - Data classes are created in an in-memory assembly in the current application domain.. The names of the runtime classes it generates are similar to C# generated anonymous types though :) – Ivan Stoev Sep 7 '18 at 19:34
  • 1
    Thanks for the clarification – johnny 5 Sep 7 '18 at 19:50

I have an idea on how to go about this without using Expressions. Apparently, since Reflection in c# is slow as explained further in this Article, I decided to use a library called FastMember to go about getting object properties.


Install FastMember

Run the following command in PackageManagerConsole to install the library.

Install-Package FastMember -Version 1.4.1

Write Function

Our function/method is going to be an Extension Method for any generic type e.g TEntity that must be a class and takes an array of fields as parameter to tell the function which properties of TEntity to return.

using FastMember;
using Dynamic;
using System;
using System.Linq;
using System.Collections.Generic

public static class Utilities
    public static dynamic GetDynamicFields<TEntity>(this TEntity entity, params string[] fields)
        where TEntity : class
        dynamic dynamic = new ExpandoObject();
        // ExpandoObject supports IDictionary so we can extend it like this
        IDictionary<string,object> dictionary = dynamic as IDictionary<string,object>;

        TypeAccessor typeAccessor = TypeAccessor.Create(typeof(TEntity));
        ObjectAccessor accessor = ObjectAccessor.Create(entity);
        IDictionary<string,Member> members = typeAccessor.GetMembers().ToDictionary(x => x.Name);

        for (int i = 0; i < fields.Length; i++)
            if (members.ContainsKey(fields[i]))
                var prop = members[fields[i]];

                if (dictionary.ContainsKey(prop.Name))
                    dictionary[prop.Name] = accessor[prop.Name];
                    dictionary.Add(prop.Name, accessor[prop.Name]);

        return dynamic;

How To Use

Using the method is simple and can be done like so:

Message msg = new Message();
dynamic result = msg.GetDynamicFields("Id","Text");

In c#, dynamic is an example of an ExpandoObject. After looking at the code for ExpandoObject i realized that it implements IDictionary<string,object>. Therefore, this means that we can be able to extend it and add dynamic properties to it at runtime thus making it easier for us.

TestCase Time

Running a test-case on the above method using NUnit, takes approximately 40ms which sounds good enough.

Hope this solution works for you or maybe gives you ideas on how to go about your problem.


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