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(I'm using Microsoft Visual Studio 2010 on a Windows 7 64 bit machine)

I have developed a C++ program that is more of a library which became quite complex over time. It does right now work as a simple executeable, but I'd like to convert it into a DLL so the functionality can be accessed by other programs easily.

I'm not at all experienced in working with DLLs, but I want to avoid much additional work and code changes in the process.

I know that I can select the compile target to "DLL", but I have the feeling that alone won't do the job.

  • If I successfully compiled my project into a DLL file, how do I use the functions in it from an executable project?

  • Can I avoid using _dllexport and importing every function per-name?

  • How does one statically link a DLL, and what are the (dis)advantages of this?

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You don't statically link DLLs: the very definition of DLLs is that they are Dynamically Linked Libraries, linked in at runtime. –  Lightness Races in Orbit May 10 '11 at 17:49
Firstly, thanks for your constructive and respectful response :') Secondly, there seems to be a way to use a .lib file for address resolving for the linker, but still use the DLL at runtime –  lamas May 10 '11 at 17:54
when you build the project as a DLL, the IDE will generate both the DLL file for runtime and a LIB file containing exported function resolution information, and that's the one you link against. –  Steve Townsend May 10 '11 at 18:03
C++ + DLL == OWW! (C++ interfaces do not work cleanly across DLLs... usually it's best to expose a C interface from a DLL in order to ensure you don't accidentally screw up the ODR) –  Billy ONeal May 10 '11 at 18:05

4 Answers 4

Honestly, I would take a look at the DLL export docs and pick whatever export method works best for you. In any case, you can simply reference exported functions by name from your client apps, as you would with a static library.

When you build the project as a DLL, the IDE will generate

  1. The DLL file for runtime and
  2. a LIB file containing exported function resolution information - that's the one you link against.

By definition, you cannot statically link a DLL (that's DYNAMIC link library) - instead, you link to a library that exports the functions from the DLL, and then the DLL loads at runtime, either automatically on process start or on demand. It's also possible to load the DLL completely on demand without any static linkage (see LoadLibraryEx etc).

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Since you're using C++ I'm assuming you're exporting classes(?). There's a really good example over on CodeProject which walks you through a few options. The cleanest of which is to use an abstract interface:

A C++ abstract interface (i.e., a C++ class that contains only pure virtual methods and no data members) tries to get the best of both worlds: a compiler independent clean interface to an object, and a convenient object oriented way of method calls. All that is required to do is to provide a header file with an interface declaration and implement a factory function that will return the newly created object instances. Only the factory function has to be declared with the __declspec(dllexport/dllimport) specifier. The interface does not require any additional specifiers.

Example of how the abstract interface example works

You can't statically link to a Dynamic Link Library. If you want to link statically, create a .lib instead.

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  • To use your DLL you have to #include the header file(s) associated with your dll/lib and link with the .lib file that is associated with your .dll

  • You need the _declspec(dllexport)/_declspec(dllimport) to indicate you want to export/import the contents of the dll. This can be easily accomplished as follows

      #define EXPORT_ME __declspec(dllexport)
      #define IMPORT_ME __declspec(dllimport)

in the headers for your dll you simply need to #define FOO_EXPORTS and place the EXPORT


class EXPORT_ME foo2();

void EXPORT_ME foo_funct(foo2 *foo_ptr);

and any file that needs to use the exported items simply needs to call the the methods defined in the foo.hpp header (the default behavior is to import)


      #include "foo.cpp";
foo2 myfoo;
  • As others have said, a lib is statically linked and a dll is dynamically linked. Any referenced elements when linked statically are placed in-line at compile time into your source and generally produce a larger program (as far as file size), while dynamically linked elements are linked in at run-time so the file size is usually smaller. There are many other pros/cons to static vs dynamic - I recommend you follow Doc Browns link for more info
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Switch to gcc under MinGW. Building and linking to a DLL is just as easy as building and linking to a static library. It even handles C++ name mangling transparently (but then the calling program also needs to be compiled with gcc).

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It's nice that GCC does this, but this may not be feasible due to constraints in the working environment. Also, it's probably way more work to switch compiler than to change the build type from EXE to DLL. –  Steve Townsend May 10 '11 at 17:56
@TonyK: -1. Next time when you ask something about MinGW, I will suggest you should switch to Visual C++ - how would you think about that? –  Doc Brown May 10 '11 at 18:06
@Doc: What an extraordinary outburst! I was trying to be helpful. –  TonyK May 10 '11 at 19:31
@TonyK: "Switch to (insert whole other toolset)", when the current stuff can do the job adequately, isn't very helpful to someone that just wants to get stuff done. –  cHao May 10 '11 at 21:07
It's also good advice in general. What more could you want? –  TonyK May 10 '11 at 21:50

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