I'd like to be able to generate a compiled expression to set a property, given the lambda expression that provides the "get" method for a property.

Here's what I'm looking for:

public Action<int> CreateSetter<T>(Expression<Func<T, int>> getter)
    // returns a compiled action using the details of the getter expression tree, or null
    // if the write property is not defined.

I'm still trying to understand the various types of Expression classes, so if you can point me in the right direction that would be great.

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    Don't you mean Action<T, int>? Also, we could make int a type parameter too. – Ani Jan 4 '11 at 17:35
  • Ani, yes you're right - I meant Action<T, int> and int will of course be a generic parameter too. – Alex Jan 4 '11 at 20:07

Using @Ani's answer as a starting point, you can use the following to generate a compiled expression.

public void CreateSetterFromGetter()
    Action<Person, int> ageSetter = InitializeSet((Person p) => p.Age);
    Action<Person, string> nameSetter = InitializeSet((Person p) => p.Name);

    Person p1 = new Person();
    ageSetter(p1, 29);
    nameSetter(p1, "John");

    Assert.IsTrue(p1.Name == "John");
    Assert.IsTrue(p1.Age == 29);

public class Person { public int Age { get; set; } public string Name { get; set; } }

public static Action<TContainer, TProperty> InitializeSet<TContainer, TProperty>(Expression<Func<TContainer, TProperty>> getter)
    PropertyInfo propertyInfo = (getter.Body as MemberExpression).Member as PropertyInfo;

    ParameterExpression instance = Expression.Parameter(typeof(TContainer), "instance");
    ParameterExpression parameter = Expression.Parameter(typeof(TProperty), "param");

    return Expression.Lambda<Action<TContainer, TProperty>>(
        Expression.Call(instance, propertyInfo.GetSetMethod(), parameter),
        new ParameterExpression[] { instance, parameter }).Compile();

You should cache the compiled expression to keep it handy for multiple uses.

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  • Entirely true, but I'm not sure an expression is the best route here. But the example is a good one (for illustration). – Marc Gravell Jan 4 '11 at 19:10
  • I'm marking this as the answer as it uses the Expression classes as the solution, which is what I was looking for. Thanks Adam – Alex Jan 4 '11 at 20:26

You could of course walk the expression-tree and then use Delegate.CreateDelegate to create the appropriate Action<,>. It's quite simple, except for all of the validation-checks (I'm unsure if I've covered everything):

I'm no expression-tree expert, but I don't think building an expression-tree and then calling Compile is possible here since expression-trees can't contain assignment statements, as far as I know. (EDIT: Apparently, these have been added in .NET 4. It's a hard-to-find feature since the C# compiler doesn't seem to be able to build them from lambdas).

public static Action<TContaining, TProperty>
    CreateSetter<TContaining, TProperty>
    (Expression<Func<TContaining, TProperty>> getter)
    if (getter == null)
        throw new ArgumentNullException("getter");

    var memberEx = getter.Body as MemberExpression;

    if (memberEx == null)
        throw new ArgumentException("Body is not a member-expression.");

    var property = memberEx.Member as PropertyInfo;

    if (property == null)
        throw new ArgumentException("Member is not a property.");

        throw new ArgumentException("Property is not writable.");

    return (Action<TContaining, TProperty>)
           Delegate.CreateDelegate(typeof(Action<TContaining, TProperty>),


public class Person { public int Age { get; set; } }


static void Main(string[] args)
    var setter = CreateSetter((Person p) => p.Age);
    var person = new Person();
    setter(person, 25);

    Console.WriteLine(person.Age); // 25     

Do note that this creates an open instance delegate, meaning that it's not bound to any particular instance of TContaining. It's simple to modify it to be bound to a specific instance; you'll have to pass a TContaining as well to the method and then use a different overload of Delegate.CreateDelegate. The signature of the method would then look something like:

public static Action<TProperty> CreateSetter<TContaining, TProperty>
        (Expression<Func<TContaining, TProperty>> getter, TContaining obj)
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    Not sure, but I think they added assignments in .net 4. But the setter should already have the correct signature, so it's not necessary. – CodesInChaos Jan 4 '11 at 18:03
  • 2
    Yes, assignment is in 4.0 - but you really don't need it here; Delegate.CreateDelegate is ideal. +1 – Marc Gravell Jan 4 '11 at 18:11
  • @CodeInChaos, @Marc Gravell: Thanks, that was news to me. – Ani Jan 4 '11 at 18:24
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    great answer too. Thanks. @Marc, why is Delegate.CreateDelegate better than Expression.Lambda? – Alex Jan 4 '11 at 20:27
  • @Ani "Apparently, these have been added in .NET 4. It's a hard-to-find feature since the C# compiler doesn't seem to be able to build them from lambdas)." int x; new Expression<Action>(() => x = 5); - I believe this builds an assignment from a lambda, but I haven't actually checked this. – Timothy Shields Apr 20 '13 at 6:53

Pointers only I'm afraid (I'm not at a pc) - but;

  • the lambda's .Body will most likely be MemberExpression
  • do a safe cast (as etc) and access the .Member
  • since you belive this a property, this should be a PropertyInfo, so test/cast etc
  • from a PropertyInfo, call GetSetMethod() to get the corresponding MethodInfo
  • use Delegate.CreateDelegate to get that as a delegate (passing the action type)
  • finally, cast the Delegate returned onto the expected delegate type
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