Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I want to box a value without using whatever .NET language's built-in support for that.

That is, given an enum value I want an reference type object that represents that value and its type.

This is a subgoal of being able to pass enum values from late binding pure C++ code, a possible solution of that, so, I'm not looking for how to use e.g. C# boxing (that's easy, and irrelevant in so many ways).

The following code yields ...

c:\projects\test\csharp\hello\main.cs(6,26): error CS0122: 'System.Reflection.RuntimeFieldInfo' is inaccessible due to its protection level

However, using the more documented FieldInfo class, which is what the signature of MakeTypedReference requires, I get an exception saying that the argument isn't RuntimeFieldInfo.

The unsuccessful code, experimental, C#:

using System.Windows.Forms;
using Type = System.Type;
using TypedReference = System.TypedReference;
using MethodInfo = System.Reflection.MethodInfo;
using FieldInfo = System.Reflection.FieldInfo;
using RuntimeFieldInfo = System.Reflection.RuntimeFieldInfo;

namespace hello
{
    class Startup
    {
        static void Main( string[] args )
        {
            Type        stringType      = typeof( string );
            Type        messageBoxType  = typeof( MessageBox );
            Type        mbButtonsType   = typeof( MessageBoxButtons );
            Type        mbIconType      = typeof( MessageBoxIcon );
            Type[]      argTypes        = { stringType, stringType, mbButtonsType };// }, mbIconType };
            MethodInfo  showMethod      = messageBoxType.GetMethod( "Show", argTypes );

//          object      mbOkBtn         = (object) (MessageBoxButtons) (0);
            TypedReference tr           = TypedReference.MakeTypedReference(
                mbButtonsType,
                new RuntimeFieldInfo[]{ mbIconType.GetField( "OK" ) }
                );
            object      mbOkBtn         = TypedReference.ToObject( tr );

            object[]    mbArgs          = { "Hello, world!", "Reflect-app:", mbOkBtn };

            showMethod.Invoke( null, mbArgs );
        }
    }
}

An answer that helps making the above code "work" would be very nice.

An answer that points out another way to achieve boxing (perhaps the above is completely and utterly wrong? - it's just experimental) would also be very nice! :-)

EDIT: Clarification: essentially I'm after the same as C# (object)v yields. I have tried the enum ToObject method, but unfortunately while that presumably works OK within .NET, on the C++ side I just get back the 32-bit integer value. The problem on the C++ side is that passing an integer as third arg of e.g. MessageBox.Show just fails, presumably because the default binder on the .NET side doesn't convert it to enum type, so I suspect a reference object of suitable type is needed for actual argument.

share|improve this question
2  
I am puzzled by your namespace aliases –  Dynami Le Savard Oct 25 '10 at 3:15
    
To get it to compile, just change new RuntimeFieldInfo[] to new [] and delete the using RuntimeFieldInfo -- unfortunately that won't help because the result of GetField() doesn't work in the MakeTypedReference function. :( –  Gabe Oct 25 '10 at 3:17
    
It's not clear what you want to do. You are trying to write code in C# to box values, yet you don't want C# code to do the boxing? It makes no sense to me. –  Gabe Oct 25 '10 at 3:25
    
@Gabe: it's necessary to use a concrete language to explore things. :-) The language doesn't matter. –  Cheers and hth. - Alf Oct 25 '10 at 3:30
    
Alf: You should post the C++ code that isn't working, because you should be able to pass an integer to any function expecting an enum. C# is strict about converting between enums and ints, but the CLR mostly doesn't care. –  Gabe Oct 25 '10 at 3:47

3 Answers 3

I'm not sure exactly what sort of boxing you want, but if you want a TypedReference, just use __makeref() in C#. Here's a working version of your program:

using System.Windows.Forms;
using System;
using MethodInfo = System.Reflection.MethodInfo;

namespace hello
{
    class Startup
    {
        static void Main(string[] args)
        {
            Type stringType = typeof(string);
            Type messageBoxType = typeof(MessageBox);
            Type mbButtonsType = typeof(MessageBoxButtons);
            Type[] argTypes = { stringType, stringType, mbButtonsType };
            MethodInfo showMethod = messageBoxType.GetMethod("Show", argTypes);

            var OkBtn = MessageBoxButtons.OK;
            TypedReference tr = __makeref(OkBtn);
            object mbOkBtn = TypedReference.ToObject(tr);

            object[] mbArgs = { "Hello, world!", "Reflect-app:", mbOkBtn };

            showMethod.Invoke(null, mbArgs);
        }
    }
}
share|improve this answer
    
+1 for teaching me something new! :-) However it's still an intrinsic, isn't it? I'll try to delve into it, but I'm really after some language-independent way that I can use from a pure not-.NET not-C++/CLI pure standard C++ program. It is for learning purposes. Hence the upvote, I learned! :-) Thanks, –  Cheers and hth. - Alf Oct 25 '10 at 3:40

You may be looking for the hidden keyword '__makeref' rather than TypedReference.MakeTypedReference

var v = MessageBoxButtons.OK;
var tr = __makeref(v);
var obj = TypedReference.ToObject(tr);
var s = obj.ToString();

//  s = "OK"
share|improve this answer
    
+1 for teaching me something new. :-) see my comment to @Gabe. –  Cheers and hth. - Alf Oct 25 '10 at 3:42

Any routine that can take something of type Object could be used to store value types, without employing the Framework's boxing support, by creating a single-element array for each value-type instance to be stored, and storing a reference to that. Compilers could support things like Debug.Print which need to accept a variable number of arbitrary-type parameters by having a special declaration which would request that the compiler pass a System.Array[], each element of which would be a single-element array that wrapped a single parameter without regard for whether it was a class type or value type. If such support existed, it would be possible for the Debug.Print routine to know the storage-location type of each parameter as well as the type of the object instance therein (e.g. in code like

Cat Meowser = new SiameseCat();
Animal Ralph = new PersianCat();
IPettable Mindy = new MixedBreedCat();
Debug.Print("{0:T} {1:T} {2:T}", Meowser, Ralph, Mindy);

the Debug.Print routine would receive a System.Array[3] holding references to a Cat[1], an Animal[1], and an IPettable[1].

Note that without boxing support, structures that implement interfaces could not be inherently cast directly to interface references; this would sometimes be a limitation, but imposing that limitation could make it possible for value types to define conversions to and from interface types. If desired, a compiler could auto-define a class type for each struct type that implements an interface and define conversions between the struct type and that interface type. Such a thing effectively happens with the type system except that the reference type associated with each value type is generated at run-time rather than by the compiler.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.