i'm wondering why linkers can not do their job simply by consulting the information in the actual .dll files that got the actual implementation code ? i mean why linkers still need .lib files to do implicit linking ?

are not the export and relative address tables enough for such linking ?

is there anyway by which one can do implicit linking using only the .dll without the .lib stub/proxy files ?

i thought the windows executable loader would simply do LoadLibrary/LoadLibraryEx calls on behalf of the program (hence the name implicit linking) which is the main difference to explicit linking. if that is true then doing it explicitly without .lib should indicate that it is doable without it implicitly, right ? or i'm just saying non sense?

1 Answer 1


I can think of a a few reasons.

  • Using .lib files mean you can build for a different version of a DLL than you have on your system, provided you just have the correct SDK installed.
  • Compilers & linkers need to support cross-platform compilations - You might be building for a 64-bit target on a 32-bit platform and vice-versa and not have the correct architecture DLL present.
  • .lib files enable you to "hide" certain parts of your implementation - you could have private exports that do not show up in the .lib but are discoverable via GetProcAddress. You can also do ordinal exports in which case they don't have a friendly name exported, but would have a friendly name in the .lib.
  • Native DLL's do not have strong names, so it may be possible to pick up the wrong version of the DLL.
  • And most importantly, this technology was designed in the 1980's. If it were designed today, it'd probably be closer to what you describe - for instance, .NET you just need to reference the target assembly and you have everything you need to use it.

I don't know of any way to do implicit linking solely with the DLL - A quick search revealed several tools, but I haven't used any of them.

In this case, I would create a separate source file with the functions you need to use, and dynamically load the DLL and bind them as needed. For example:

// using global variables and no-error handling for brevity.

typedef void (__stdcall * FooPtr)();
FooPtr pfnFoo = NULL;
INIT_ONCE initOnce;

BOOL CALLBACK BindDLL(PINIT_ONCE initOnce, PVOID parameter, PVOID context)
    theDll = LoadLibrary();
    pfnfoo = GetProcAddress(dll, "Foo");

    return TRUE;

// Export for foo
void Foo()
    // Use one-time init for thread-safe lazy initialization
    InitOnceExecuteOnce(initOnce, BinDll, NULL, NULL)
  • thank you Micael, you've pretty much answered my questions except for one: is there a way to do implicit linking using only the implementation .dll files ? thank you again
    – geeko
    Commented Aug 18, 2009 at 23:12
  • i really appreciate your work Michael. but that code is for explicit linking. would you kindly please write the names of those tools ? or at least the query you used to reach them ?
    – geeko
    Commented Aug 18, 2009 at 23:32
  • The query was just "Create lib from dll", one of the top hits was a project on codeproject.
    – Michael
    Commented Aug 18, 2009 at 23:35
  • after all, it seems i still need to have this .lib file unless i build my own custom linker which directly infer the necessary implicit linking information directly from the actual .dll implementation. thank you in deed Mic :)
    – geeko
    Commented Aug 19, 2009 at 7:21
  • On a side note with this implementation you have a cost, given by the call to a function throughout a function pointer instead of a direct call. Using the stub .lib you don't have this cost (It's also the same cost you have with virtual calls anyway, negligible in most cases but it's there)
    – Emiliano
    Commented Nov 4, 2011 at 10:06

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