When compiling the code below with cl /c /clr /W4 the compiler says

warning C4793: 'Interface::'vcall'{0}'' : function compiled as native

So the pragma does not seem to have any effect.. Is there a way to fix this? Or is this a bug (the pragma does work with a non-template class)? Can this warning safely be disabled?

#pragma unmanaged

struct Interface
  virtual void Foo() = 0;

template< class T >
struct UsesFunPtr

void DoIt()
  UsesFunPtr< Interface > a;

#pragma managed

Update: if I remove the last line the warning goes away - so following ComicSansMs' answer: when exactly is at the time of definition for the template? Can anyone explain why the last line, after which no code follows, still affects the code before it?


Big revision, since (in the comments) the poster explains why &T:Foo; was not an issue.

The origins of this warning are somewhat stupidly complex.

After investigation we find the following from Microsoft, which ComicSansMS also posted:

When a template function is instantiated, the pragma state at the time of definition for the template determines if it is managed or unmanaged.

This is for a function template, not for a class template as you are using.

In fact, this function template instantion is relevant in a circumspect way. But the peculiar way this warning behaves has to do with the compilation process.

The compiler is actually generating managed code for calling and using the UsesFunPtr ctor when you end the file it with #pragma managed. It gives a warning that there's some unmanaged code in it. Here's an in-depth analysis of why.

Thunks are basically wrapper functions around certain vtable calls; Wikipedia has a decent article on the subject. The reason you are generating a thunk is because you are taking the address of a function (&T::Foo).

If the last line of your file is this:

#pragma unmanaged 

it will stop complaining, even if you have mixed managed and unmanaged code in that object. It is because of a disconnect between the front-end and back-end that "confuses" things: it will compile that code I spoke of above with the last #pragma command.

If you'll notice, this warning is not a compile-time warning. It comes after the compile, when it says "Generating code..." If you revise your DoIt() function like so:

void DoIt()
  long a;
  long long b;
  b = 4;
  a = b;
  UsesFunPtr< Interface > d;

You will get a warning about truncation during "Compiling x.cpp", then it will move to the code generation phase (Generating code...), where it will give the warning this question is about.

The compiler is the front-end which parses, etc. and creates a sort-of intermediate binary format, kind of like Java bytecode. The code generator is the back-end which creates the actual output on the target platform from this bytecode (Windows x86 in this case).

Optimizations aren't made until the back-end gets hold of the code. A thunk is a form of optimization, thus, it is the code generator (that takes semi-compiled IL code) that makes the warning, and not the compiler. It is not an optimization that can be turned off in any way I know of, because it is sort of a standard practice.

It is the compiler, however, that instantiates that template; the back-end just sees a complete class and is told to make sense of it.

There is a difference when compiling managed C++/CLI. Sometimes the compiler is able to use what's known as link-time code generation. When this happens, the linker is the one to call the back-end; when it isn't possible (for various reasons), it goes through the generic process of compiling (front end->back end->linker).

A #pragma is passed into the IL in the order it is received. This seems to indicate that the function support code for UsesFunPtr is actually "appended to the end," after the #pragma managed has happened. So even though your code is in an unmanaged space, the code generator sees:

  1. Unmanaged
  2. Object definition, use
  3. Managed
  4. Additional support code for the classes that you didn't write and can't see that has to do with interfacing with other object files: creating and copying vtables, etc. etc. etc.

The generator has no way to differentiate if you meant that UsesFunPtr ctor, or even class, to be completely managed or unmanaged code, because the IL it gets doesn't really connect the two. It sees a function that creates it that is unmanaged (by pragma), and support functions that work on it and produce thunks in managed space (by pragma). It can't tell the connection. Since you put that #pragma there, it is just continuing with the last #pragma it saw. The generated support code is managed.

You'll notice that if you put #pragma unmanaged at the very end, even if there's managed code that mixes the templates, you won't get that warning. This is because it is compiling that code as unmanaged and thus thunks aren't an issue.

How to sum this all up? #pragma managed at the end causes a miscommunication (or would it be a wrong assumption?) between the front end and the back end, and the back end complains about it.

Wee, that was a fun one!

  • I agree the prgama stuff might be a bug, but I'm pretty sure there is nothing wrong with &T::Foo. Ok, it doesn't do anything, but the syntax is valid and the purpose here is to demostrate the problem. The actual code is std::bind( &T::Foo, instanceOfT ) which is again perfectly valid and results in a callable function object. No compiler bug there. – stijn Mar 22 '12 at 9:28
  • @stijn Ha, you did just what I suggested, used std::bind, in your real code. It would have helped to know this. In that case, to fix this, I would submit a bug report to Microsoft. It is pretty cool how fast they fix it. For instance, related fix: connect.microsoft.com/VisualStudio/feedback/details/122489/… . I will revise my answer. – std''OrgnlDave Mar 22 '12 at 17:13

Quoting from MSDN:

When a template function is instantiated, the pragma state at the time of definition for the template determines if it is managed or unmanaged.

So the #pragma unmanaged needs to be active for the definition of DoIt. If that's already the case, it might be a bug.

Theoretically it is safe to disable this warning, as it simply informs you that the function is compiled as native code despite the /clr switch. If it is acceptable to lose that information, feel free to disable it.

  • 1
    the code snippet posted is exactly what I'm feeding the compiler so the pragma should be as active as it can be :] – stijn Mar 13 '12 at 15:33
  • 1
    A template function is different from a template class. – std''OrgnlDave Mar 22 '12 at 17:50

Some #pragmas, e.g. #pragma warning(...) for some warnings, have global effect. That means the compiler takes it into account only after the whole include tree and the source file has been parsed. Thus it might be that the managed/unmanaged pragma has been implemented in some hackish way under the hood like having the actual switch be separate from the warning or the pragma being global in itself.

I'd suggest that, since the last pragma is 'managed', then all of your code has been compiled managed, except what MSVC absolutely had to compile unmanaged, which in this case looks like the referenced pure_call function (Foo() = 0) that terminates your program.

I usually ignore MSVC as long as my program runs correctly.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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