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I like David's answer, but I thought I'd be pedantic. The question says, "Once it is compiled" - which suggests that both expressions have been compiled. How could they both compile, but with one being converted to a delegate and one to an expression tree? It's a tricky one - you have to use another feature of anonymous methods; the only one which isn't shared by lambda expressions. If you specify an anonymous method without specifying a parameter list at all it is compatible with any delegate type returning void and without any ref/out parameters. Armed with this knowledge, we should be able to construct two overloads to make the expressions completely unambiguous but very different.

But disaster strikes! At least with C# 3.0, you can't convert a lambda expression with a block body into an expression - nor can you convert a lambda expression with an assignment in the body (even if it is used as the return value). This may change with C# 4.0 and .NET 4.0, which allow more to be expressed in an expression tree. So in other words, with the examples MojoFilter happened to give, the two will almost always be converted to the same thing. (More details in a minute.)

We can use the delegate parameters trick if we change the bodies a little bit though:

using System;
using System.Linq.Expressions;

public class Test
{
    static void Main()
    {
        int x = 0;
        Foo( () => x );
        Foo( delegate { return x; } );
    }

    static void Foo(Func<int, int> action)
    {
        Console.WriteLine("I suspect the anonymous method...");
    }

    static void Foo(Expression<Func<int>> func)
    {
        Console.WriteLine("I suspect the lambda expression...");
    }
}

But wait! We can differentiate between the two even without using expression trees, if we're cunning enough. The example below uses the overload resolution rules (and the anonymous delegate matching trick)...

using System;
using System.Linq.Expressions;

public class Base
{
    public void Foo(Action action)
    {
        Console.WriteLine("I suspect the lambda expression...");
    }
}

public class Derived : Base
{
    public void Foo(Action<int> action)
    {
        Console.WriteLine("I suspect the anonymous method...");
    }
}

class Test
{
    static void Main()
    {
        Derived d = new Derived();
        int x = 0;
        d.Foo( () => { x = 0; } );
        d.Foo( delegate { x = 0; } );
    }
}

You know what the worst bit is? I've gone to all this trouble to be evil

Ouch. Remember kids, but as the question already has an accepted answerevery time you overload a methods from a base class, I doubt anyone will actually ever read this..a little kitten starts crying.:(
show/hide this revision's text 1

I like David's answer, but I thought I'd be pedantic. The question says, "Once it is compiled" - which suggests that both expressions have been compiled. How could they both compile, but with one being converted to a delegate and one to an expression tree? It's a tricky one - you have to use another feature of anonymous methods; the only one which isn't shared by lambda expressions. If you specify an anonymous method without specifying a parameter list at all it is compatible with any delegate type returning void and without any ref/out parameters. Armed with this knowledge, we should be able to construct two overloads to make the expressions completely unambiguous but very different.

But disaster strikes! At least with C# 3.0, you can't convert a lambda expression with a block body into an expression - nor can you convert a lambda expression with an assignment in the body (even if it is used as the return value). This may change with C# 4.0 and .NET 4.0, which allow more to be expressed in an expression tree. So in other words, with the examples MojoFilter happened to give, the two will almost always be converted to the same thing. (More details in a minute.)

We can use the delegate parameters trick if we change the bodies a little bit though:

using System;
using System.Linq.Expressions;

public class Test
{
    static void Main()
    {
        int x = 0;
        Foo( () => x );
        Foo( delegate { return x; } );
    }

    static void Foo(Func<int, int> action)
    {
        Console.WriteLine("I suspect the anonymous method...");
    }

    static void Foo(Expression<Func<int>> func)
    {
        Console.WriteLine("I suspect the lambda expression...");
    }
}

But wait! We can differentiate between the two even without using expression trees, if we're cunning enough. The example below uses the overload resolution rules (and the anonymous delegate matching trick)...

using System;
using System.Linq.Expressions;

public class Base
{
    public void Foo(Action action)
    {
        Console.WriteLine("I suspect the lambda expression...");
    }
}

public class Derived : Base
{
    public void Foo(Action<int> action)
    {
        Console.WriteLine("I suspect the anonymous method...");
    }
}

class Test
{
    static void Main()
    {
        Derived d = new Derived();
        int x = 0;
        d.Foo( () => { x = 0; } );
        d.Foo( delegate { x = 0; } );
    }
}

You know what the worst bit is? I've gone to all this trouble to be evil, but as the question already has an accepted answer, I doubt anyone will actually ever read this... :(