Obtenga un tipo de llamada genérico al método en objeto dinámico

Question

Estoy empezando a trabajar con objetos dinámicos en .NET y no puedo averiguar cómo hacer algo.

Tengo una clase que hereda de DynamicoObject, e anularé el método TryNVokEmpember.

e.g.

class MyCustomDynamicClass : DynamicObject
{
    public override bool TryInvokeMember(InvokeMemberBinder binder, object[] args, out object result)
    {
        // I want to know here the type of the generic argument
    }
}

y dentro de ese método Quiero saber el tipo (si corresponde) de los argumentos genéricos en la invocación.

e.g. Si invoco el siguiente código, quiero obtener el valor de System.Boolean y System.int32 dentro del método revisado de mi objeto dinámico

dynamic myObject = new MyCustomDynamicClass();
myObject.SomeMethod<bool>("arg");
myObject.SomeOtherMethod<int>("arg");

Actualmente, si coloco un punto de interrupción dentro del método revisado, puedo obtener el nombre del método que se invoca ("SOMETETHOD" y "TEMPOTETETETHOD", y también los valores de los argumentos, pero no los tipos genéricos).

¿Cómo puedo obtener estos valores?

¡Gracias!

Answer 1

Actually I looked through the hierarchy of the binder and found a property with the needed values in the internal fields of the object.

The problem is that the property isn't exposed because it uses C#-specific code/classes, therefore the properties must be accessed using Reflection.

I found the code in this japanese blog: http://neue.cc/category/programming (I don't read any japanese, therefore I'm not sure if the author actually describes this same issue

Here's the snippet:

var csharpBinder = binder.GetType().GetInterface("Microsoft.CSharp.RuntimeBinder.ICSharpInvokeOrInvokeMemberBinder");
var typeArgs = (csharpBinder.GetProperty("TypeArguments").GetValue(binder, null) as IList<Type>);

typeArgs is a list containing the types of the generic arguments used when invoking the method.

Hope this helps someone else.

Answer 2

A bit of googling and I have quite generic solution for .NET and Mono:

/// <summary>Framework detection and specific implementations.</summary>
public static class FrameworkTools
{
    private static bool _isMono = Type.GetType("Mono.Runtime") != null;

    private static Func<InvokeMemberBinder, IList<Type>> _frameworkTypeArgumentsGetter = null;

    /// <summary>Gets a value indicating whether application is running under mono runtime.</summary>
    public static bool IsMono { get { return _isMono; } }

    static FrameworkTools()
    {
        _frameworkTypeArgumentsGetter = CreateTypeArgumentsGetter();
    }

    private static Func<InvokeMemberBinder, IList<Type>> CreateTypeArgumentsGetter()
    {
        if (IsMono)
        {
            var binderType = typeof(Microsoft.CSharp.RuntimeBinder.RuntimeBinderException).Assembly.GetType("Microsoft.CSharp.RuntimeBinder.CSharpInvokeMemberBinder");

            if (binderType != null)
            {
                ParameterExpression param = Expression.Parameter(typeof(InvokeMemberBinder), "o");

                return Expression.Lambda<Func<InvokeMemberBinder, IList<Type>>>(
                    Expression.TypeAs(
                        Expression.Field(
                            Expression.TypeAs(param, binderType), "typeArguments"),
                        typeof(IList<Type>)), param).Compile();
            }
        }
        else
        {
            var inter = typeof(Microsoft.CSharp.RuntimeBinder.RuntimeBinderException).Assembly.GetType("Microsoft.CSharp.RuntimeBinder.ICSharpInvokeOrInvokeMemberBinder");

            if (inter != null)
            {
                var prop = inter.GetProperty("TypeArguments");

                if (!prop.CanRead)
                    return null;

                var objParm = Expression.Parameter(typeof(InvokeMemberBinder), "o");

                return Expression.Lambda<Func<InvokeMemberBinder, IList<Type>>>(
                    Expression.TypeAs(
                        Expression.Property(
                            Expression.TypeAs(objParm, inter),
                            prop.Name),
                        typeof(IList<Type>)), objParm).Compile();
            }
        }

        return null;
    }

    /// <summary>Extension method allowing to easyly extract generic type arguments from <see cref="InvokeMemberBinder"/>.</summary>
    /// <param name="binder">Binder from which get type arguments.</param>
    /// <returns>List of types passed as generic parameters.</returns>
    public static IList<Type> GetGenericTypeArguments(this InvokeMemberBinder binder)
    {
        // First try to use delegate if exist
        if (_frameworkTypeArgumentsGetter != null)
            return _frameworkTypeArgumentsGetter(binder);

        if (_isMono)
        {
            // In mono this is trivial.

            // First we get field info.
            var field = binder.GetType().GetField("typeArguments", BindingFlags.Instance |
                BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static);

            // If this was a success get and return it's value
            if (field != null)
                return field.GetValue(binder) as IList<Type>;
        }
        else
        {
            // In this case, we need more aerobic :D

            // First, get the interface
            var inter = binder.GetType().GetInterface("Microsoft.CSharp.RuntimeBinder.ICSharpInvokeOrInvokeMemberBinder");

            if (inter != null)
            {
                // Now get property.
                var prop = inter.GetProperty("TypeArguments");

                // If we have a property, return it's value
                if (prop != null)
                    return prop.GetValue(binder, null) as IList<Type>;
            }
        }

        // Sadly return null if failed.
        return null;
    }
}

Have fun. By the way Impromptu is cool, but I can't use it.

Answer 3

The open source framework Dynamitey can call properties that internal/protected/private using the DLR and thus works with Silverlight. But it get's a little tricky with interface explicit members as you have to use the actual full name of the member on the the type, rather than the interface member name. So you can do:

var typeArgs = Dynamic.InvokeGet(binder, "Microsoft.CSharp.RuntimeBinder.ICSharpInvokeOrInvokeMemberBinder.TypeArguments")
     as IList<Type>;