Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am calling an externally provided COM DLL for which I have generated a COM interop wrapper. For the sake of argument, let's call the interface I want to call IEnumFoo.

IEnumFoo has the typical COM enumerator pattern:

   ULONG        celt,
   IFoo**       rgelt,
   ULONG*       pceltFetched

where the first parameter is the number of desired results, the second parameter is a buffer to which results are written, and the last parameter describes the number of results actually written.

When I choose "Add Reference" and point Visual Studio at this DLL, it generates a COM Interop Assembly with the following signature:

void Next(uint, out IFoo, out uint)

This only allows the .NET code to request a single object at a time, which can add a significant amount of overhead to using these APIs.

Is there some mechanism I can use to generate a version of Next which would allow me to provide more IFoo "slots" above which would make the marshaler happy? (I'm not averse to editing the IL in the interop assembly by hand :) )

share|improve this question
add comment

3 Answers 3

up vote 3 down vote accepted

The proper signature for this would be like so:

void Next(
    uint celt,
    [Out, MarshalAs(UnmanagedType.LPArray, SizeParamIndex=0)] IFoo[] rgelt,
    out uint pceltFetched);

According to MSDN, at least, there's no mechanism to generate this automatically. Even if the original IDL for the interface had length_is applied to rgelt, that information is lost in the typelib. So you'll need to edit the interop assembly manually.

One other option is to define this particular interface entirely by hand in your main assembly, and simply ignore the generated interop version. Remember that when doing casts on RCWs, any interface with a matching GUID (i.e. the one for which QueryInterface is successful) will work, so you can actually have several different managed interfaces that present differing views of the same COM interface.

share|improve this answer
I would definitely go for editing the IL as redefining one interface amongst many in a typelib can be a daunting task because of the cross references "snowball effect". You may end up redefining the whole library. Note a tool such as mono cecil (mono-project.com/Cecil) is very useful for tweaking a compiled assembly. –  Simon Mourier Mar 7 at 7:42
Looks like that'll work :) (Same comment about the "Remember:" though -- that assumes I know what I'm doing :P) –  Billy ONeal Mar 7 at 9:33
add comment

Not answer to your question but a suggestion to try a different approach. I'd create a C++/CLI wrapper to enumerate through the COM interface in unmanaged code (thus avoiding the marshaling overhead) and then build a managed List or other container in which you return your objects.

This is almost guaranteed to be easier than hand-tweaking the IL of the interop assembly and you can debug it easily, too. The unmanaged C++ code will be fairly simple, just like the managed wrapper around that.

share|improve this answer
Writing a shim around this library in C++/CLI is infeasible at this time. (Though it is something to consider in the future) –  Billy ONeal Mar 7 at 3:21
@BillyONeal You don't have to do it for the entire library - you can write it just for the enumerators. You'd only need to pass the object instance, the enumerator and then the wrapper would return a managed list. For all other tasks you can still use the generated interop assembly. –  xxbbcc Mar 7 at 3:24
Ok, that's interesting (+1). Still want to look for a solution that avoids C++/CLI but that's an option. (Need to figure out how to create a .NET COM RCW from C++/CLI :) if I go that route too) –  Billy ONeal Mar 7 at 3:27
add comment

If the object implementing this interface is native, then just redefine the interface in your code as it should be, making sure to use the same ComImport and Guid attributes on the interface. Then take the object and cast to your interface. You can call through that interface just fine.

Remember: interop assemblies aren't magic, you can always define an interface manually.

share|improve this answer
That "Remember:" clause assumes the reader has any real understanding of how the interop works. Which this poster does not :) Thanks! –  Billy ONeal Mar 7 at 9:32
Or it can be the basis of new understanding. ;-) –  Jason Malinowski Mar 7 at 14:52
add comment

Your Answer


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.