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In my dll there is a method that I want to export.

//Works:

extern "C" __declspec(dllexport)

//Wont work

__declspec(dllexport)

C++ Export:

 extern "C" __declspec(dllexport) int Test();

C# import:

[DllImport("CircleGPU2_32.DLL", EntryPoint = "Test", 
    CallingConvention = CallingConvention.StdCall)]
public static extern int Test();

Why I need the extern "C" ?

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I've added a more detailed explanation of why it's needed, if you're interested. –  greatwolf Dec 16 '11 at 17:04

4 Answers 4

up vote 9 down vote accepted

The main reason is to prevent the C++ name mangler from mangling the name of the function.

Try exporting it without the extern "C" and inspect the resulting DLL in Dependency Walker and you will see a quite different name for the exported function.

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The name can be anything or there is some pattern? What a weird behavior.. Thanks –  Pedro77 Dec 16 '11 at 13:39
    
Yes there is a pattern. The mangling encodes the types of the parameters. But it's implementation specific and changes from compiler to compiler. So if you want binary compatibility you need to avoid that. –  David Heffernan Dec 16 '11 at 13:40
    
Mangling was introduced when function overloading was added to the language. Bjarne wanted to use existing linker tooling which could not support overloading (i.e. multiple different functions having the same name), so mangling was invented. –  David Heffernan Dec 16 '11 at 13:52

This is due to name mangling done by C++.

extern "C" vs no extern "C"

As an example here is what CFF Explorer shows for a dll's export table. The first was built with borland's c++ compiler. The second was built with msvc.

Ordinal     FunctionRVA     Name RVA    Name
00000001    0020E140        0032C2B6    createDevice
00000002    0020E244        0032C2C3    createDeviceEx
0000000D    00328DA4        0032C0C1    @irr@core@IdentityMatrix
0000000E    00328DE4        0032C28A    @irr@video@IdentityMaterial

0000000C    000F9C80        001EE1B6    createDevice
0000000D    000F9CE0        001EE1C3    createDeviceEx
00000001    00207458        001EDDC7    ?IdentityMaterial@video@irr@@3VSMaterial@12@A
00000002    001F55A0        001EDDF5    ?IdentityMatrix@core@irr@@3V?$CMatrix4@M@12@B

The first 2 functions createDevice and createDeviceEx contain the extern "C" signature in its prototype while the others do not. Notice the difference in encoding when C++ mangling is used. The difference actually goes deeper than that.

ABI & Standardization

As explained in the other answers, the C++ standard does not specify an Abstract Binary Interface. That means the vendors that design their tools can pretty much do whatever the heck they want when it comes to how function calls are handled and how overloading works under the hood -- as long as it exhibits the expected behavior as dictated by the standard.

With all these different encoding schemes there's no way another language can have any hope of working with modules compiled with C++. Heck modules compiled with one C++ compiler is unlikely to work with another! Compiler vendors are free to change their encoding between versions at their discretion.

In addition, no common ABI means there's no common expected way to call into these functions/methods. For example, one compiler might pass its arguments on the stack while another compiler might pass it on the register. One might pass arguments left-to-right while another could be reversed. If just one of these aspects don't match exactly between the caller and the callee then your app will crash... that is if you're lucky. Instead of dealing with this, vendors simply say no by forcing a build error with the different encodings.

OTOH, while C doesn't have a standardized ABI either, C is a much simpler language to deal with by comparison. Most C compiler vendors handle function decoration and call mechanism in a similar way. As a result there is a sort of 'de-facto' standard even if an ABI isn't explicitly specified in the standard. With this commonality it makes it much easier for other languages to interface with modules compiled with C.

For example, a __stdcall decoration in a function signature is understood to follow a specific call convention. Arguments are pushed right-to-left and the callee is responsible for cleaning the stack afterwards. __cdecl is similar but it's understood that the caller is responsible for cleaning the stack.

The Bottomline

If the module in question must be interoperable with languages outside of C++, decorating it appropriately and exposing it as a C API is your best bet. Note that you are giving up some flexibility by doing this. In particular, you won't be able to overload those functions since the compiler can no longer generate unique symbols for each overload with name mangling.

If interoperability is not important for the module in question -- it's only going to be used with the same tool it was built with, then omit the extern "C" decoration from your prototypes.

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C doesn't have a standardized ABI. stackoverflow.com/questions/4489012/does-c-have-a-standard-abi –  Charles Bailey Dec 16 '11 at 13:38
    
@Charles doh! I guess you're right. I guess de-facto standard is more fitting here. –  greatwolf Dec 16 '11 at 13:41

The compiler normally decorates your exported names to include information about class and signature. extern "C" tells the compiler not to do that.

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1  
Decoration is a more broad term. The use of extern "C" stops one form of decoration, mangling, but other decoration can still exist. For example stdcall methods are generally decorated with an _ prefix and a @N suffix, where N is the stack size. msdn.microsoft.com/en-us/library/zxk0tw93(v=VS.100).aspx –  David Heffernan Dec 16 '11 at 13:57

I have tried this with a function with 1 parameter and you have to use

[DllImportAttribute("whatever.Dll" ,CallingConvention = CallingConvention.Cdecl)]

for the import in C# to work. Stdcall statement only works (in the presented situation, not in general ) for functions with no parameters and that return void. Tested in vs2012 express edition.

As a side note, the dependency walker can be downloaded from http://www.dependencywalker.com/

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