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Background: As part of a larger assignment I need to make a C# library accessible to unmanaged C++ and C code. In an attempt to answer this question myself I have been learning C++/CLI the past few days/ weeks.

There seems to be a number of different ways to achieve using a C# dll from unmanaged C++ and C. Some of the answers in brief appear to be: using Interlope services, Using .com. and regasm, Using PInvoke (which appears to go from C# to C++ only), and using IJW in the C++/CLR (which appears to be Interlope services). I am thinking it would be best to set up a library that is perhaps a CLR wrapper that uses IJW to call my C# dll on the behalf of native C++ and C code.

Specifics: I need to pass values of string as well as int to a C# dll from c++ code, and return void.

Relevance: Many companies have many excuses to mix and match C++, C and C#. Performance: unmanaged code is usually faster, interfaces: Managed interfaces are generally easier to maintain, deploy, and are often easier on the eyes, Managers tell us too. Legacy code forces us too. It was there (Like the mountain that we climbed). While examples of how to call a C++ library from C# are abundant. Examples of how to call C# libraries from C++ code are difficult to find via Googling especially if you want to see updated 4.0+ code.

Software: C#, C++/CLR, C++, C, Visual Studio 2010, and .NET 4.0

Question details: OK multi-part question:

  1. Is there an advantage to using com objects? Or the PInvoke? Or some other method? (I feel like the learning curve here will be just as steep, even though I do find more information on the topic in Google Land. IJW seems to promise what I want it to do. Should I give up on looking for an IJW solution and focus on this instead?) (Advantage/ disadvantage?)

  2. Am I correct in imagining that there is a solution where I write a wrapper that that utilizes IJW in the C++/CLR? Where can I find more information on this topic, and don’t say I didn’t Google enough/ or look at MSDN without telling me where you saw it there. (I think I prefer this option, in the effort to write clear and simple code.)

  3. A narrowing of question scope: I feel that my true issue and need is answering the smaller question that follows: How do I set up a C++/CLR library that an unmanaged C++ file can use within visual studio. I think that if I could simply instantiate a managed C++ class in unmanaged C++ code, then I might be able work out the rest (interfacing and wrapping etc.). I expect that my main folly is in trying to set up references/#includes etc. within Visual Studio, thought clearly I could have other misconceptions. Perhaps the answer to this whole thing could be just a link to a tutorial or instructions that help me with this.

Research: I have Googled and Binged over and over with some success. I have found many links that show you how to use an unmanaged library from C# code. And I will admit that there have been some links that show how to do it using com objects. Not many results were targeted at VS 2010.

References: I have read over and over many posts. I have tried to work through the most relevant ones. Some seem tantalizingly close to the answer, but I just can’t seem to get them to work. I suspect that the thing that I am missing is tantalizingly small, such as misusing the keyword ref, or missing a #include or using statement, or a misuse of namespace, or not actually using the IJW feature properly, or missing a setting that VS needs to handle the compilation correctly, etc. So you wonder, why not include the code? Well I feel like I am not at a place where I understand and expect the code I have to work. I want to be in a place where I understand it, when I get there maybe then I'll need help fixing it. I'll randomly include two of the links but I am not permitted to show them all at my current Hitpoint level.


This calls code from managed and unmanaged code in both directions going from C++ to Visual Basic and back via C++CLR, and of course I am interested in C#.: http://www.codeproject.com/Articles/9903/Calling-Managed-Code-from-Unmanaged-Code-and-vice

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See if this link helps –  lstern Nov 8 '12 at 17:18
You are on the wrong track with this, you can directly call C# methods from C++/CLI code without any special interop requirements. You use "C++ Interop" (not IJW, that's old) only to have C++/CLI code call native code. COM is good the other way around. Which one to use has a great deal to do with who's in charge. If your EXE is managed then things get simple since the CLR is already loaded and initialized. If your EXE is native then something must be done to load the CLR so you can run managed code. Like COM. –  Hans Passant Nov 8 '12 at 18:32
Istern- Thank you. I am aware of WCF as a possible IPC solution but I would like to go a more direct way: One where the C# class can be instantiated from C++. –  amalgamate Nov 8 '12 at 19:26
Hans- I know I "can directly call C# methods from C++/CLI code without any special interop requirements." I have code that I have written that can do that. My sticking point is calling that C++/CLI code from a native C++ Eventually I will need to make calls from C as well. –  amalgamate Nov 8 '12 at 19:43
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3 Answers 3

You can do this fairly easily.

  1. Create an .h/.cpp combo
  2. Enable /clr on the newly create .cpp file. (CPP -> Right click -> Properties)
  3. Set the search path for "additional #using directories" to point towards your C# dll.


void NativeWrapMethod();


#using <mscorlib.dll>
#using <MyNet.dll>

using namespace MyNetNameSpace;

void NativeWrapMethod()
    MyNetNameSpace::MyManagedClass::Method(); // static method

That's the basics of using a C# lib from C++\CLI with native code. (Just reference Native.h where needed, and call the function.)

Using C# code with managed C++\CLI code is roughly the same.

There is a lot of misinformation on this subject, so, hopefully this saves someone a lot of hassle. :)

I've done this in: VS2010 - VS2012 (It probably works in VS2008 too.)

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I second the misinformation comment. And Thank you for your post. ... removed some of my comment. I just realized I misread your post. I think I am and was really close to getting this to work all allong based on your post. I'll take a look soon to see if I can figure out where I am going astray... ps: +1 ya (still), but am too green. –  amalgamate Nov 21 '12 at 18:46
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up vote 1 down vote accepted

I found something that at least begins to answer my own question. The following two links have wmv files from Microsoft that demonstrate using a C# class in unmanaged C++.

This first one uses a COM object and regasm: http://msdn.microsoft.com/en-us/vstudio/bb892741.

This second one uses the features of C++/CLI to wrap the C# class: http://msdn.microsoft.com/en-us/vstudio/bb892742. I have been able to instantiate a c# class from managed code and retrieve a string as in the video. It has been very helpful but it only answers 2/3rds of my question as I want to instantiate a class with a string perimeter into a c# class. As a proof of concept I altered the code presented in the example for the following method, and achieved this goal. Of course I also added a altered the {public string PickDate(string Name)} method to do something with the name string to prove to myself that it worked.

wchar_t * DatePickerClient::pick(std::wstring nme)
    IntPtr temp(ref);// system int pointer from a native int
    String ^date;// tracking handle to a string (managed)
    String ^name;// tracking handle to a string (managed)
    name = gcnew String(nme.c_str());
    wchar_t *ret;// pointer to a c++ string
    GCHandle gch;// garbage collector handle
    DatePicker::DatePicker ^obj;// reference the c# object with tracking handle(^)
    gch = static_cast<GCHandle>(temp);// converted from the int pointer 
    obj = static_cast<DatePicker::DatePicker ^>(gch.Target);
    date = obj->PickDate(name);
    ret = new wchar_t[date->Length +1];
    interior_ptr<const wchar_t> p1 = PtrToStringChars(date);// clr pointer that acts like pointer
    pin_ptr<const wchar_t> p2 = p1;// pin the pointer to a location as clr pointers move around in memory but c++ does not know about that.
    wcscpy_s(ret, date->Length +1, p2);
    return ret;

Part of my question was: What is better? From what I have read in many many efforts to research the answer is that COM objects are considered easier to use, and using a wrapper instead allows for greater control. In some cases using a wrapper can (but not always) reduce the size of the thunk, as COM objects automatically have a standard size footprint and wrappers are only as big as they need to be.

The thunk (as I have used above) refers to the space time and resources used in between C# and C++ in the case of the COM object, and in between C++/CLI and native C++ in the case of coding-using a C++/CLI Wrapper. So another part of my answer should include a warning that crossing the thunk boundary more than absolutely necessary is bad practice, accessing the thunk boundary inside a loop is not recommended, and that it is possible to set up a wrapper incorrectly so that it double thunks (crosses the boundary twice where only one thunk is called for) without the code seeming to be incorrect to a novice like me.

Two notes about the wmv's. First: some footage is reused in both, don't be fooled. At first they seem the same but they do cover different topics. Second, there are some bonus features such as marshalling that are now a part of the CLI that are not covered in the wmv's.


Note there is a consequence for your installs, your c++ wrapper will not be found by the CLR. You will have to either confirm that the c++ application installs in any/every directory that uses it, or add the library (which will then need to be strongly named) to the GAC at install time. This also means that with either case in development you will likely have to copy the library to each directory where applications call it.

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You're going to need to do a lot of error checking, but the basic order be to do the following:

System::Reflection::Assembly ^theAssembly = 

Get the type from the assembly:

Type ^theType = theAssembly->GetType(theObjectName);

Create an instance of the type:

Object ^theObject = System::Activator::CreateInstance(theType);

Get the method info:

System::Reflection::MethodInfo ^theMethodInfo = theType->GetMethod(theMethodName);

Invoke the method:

// use nullptr for second arg, if not args are needed for the method.
Object theReturnedObj = hpMethodInfo->Invoke(theObject, nullptr);  
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