I want to get a dll's directory (or file) path from within its code. (not the program's .exe file path)

I've tried a few methods I've found:
GetCurrentDir - gets the current directory path.
GetModuleFileName - gets the executable's path.

So how can i find out in which dll the code is in ?
I'm looking for something similar to C#'s Assembly.GetExecutingAssembly

10 Answers 10


You can use the GetModuleHandleEx function and get the handle to a static function in your DLL. You'll find more information here.

After that you can use GetModuleFileName to get the path from the handle you just obtained. More information on that call is here.

A complete example:

char path[MAX_PATH];

        (LPCSTR) &functionInThisDll, &hm) == 0)
    int ret = GetLastError();
    fprintf(stderr, "GetModuleHandle failed, error = %d\n", ret);
    // Return or however you want to handle an error.
if (GetModuleFileName(hm, path, sizeof(path)) == 0)
    int ret = GetLastError();
    fprintf(stderr, "GetModuleFileName failed, error = %d\n", ret);
    // Return or however you want to handle an error.

// The path variable should now contain the full filepath for this DLL.
  • This technique worked perfectly for me. The accepted answer using __ImageBase caused my dll to crash during initialization with VC11. Just linking in the code referencing __ImageBase caused some CRT or ATL initialization code to crash with 0xC0000005. Oct 23 '12 at 14:51
  • 2
    It is interesting to note that the lpModuleName in the presence of the GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS flag might not only be the local function. It might be also the address of a (local) static variable. Jan 23 '13 at 22:22
  • +1; great answer (just made use of it); superior to the accepted one.
    – Bathsheba
    Aug 20 '13 at 14:20
  • 3
    PathRemoveFileSpec is also your friend.
    – zar
    Jan 30 '14 at 14:46
  • 1
    Worked for me on a win32 dll on Windows 10 64 bit but I also had use wchar_t instead of char and wchar_t full_file_path[MAX_PATH]; and cast to (LPCWSTR)&functionInThisDll rather than (LPCSTR) &functionInThisDll
    – Noctiluque
    May 6 '20 at 10:27


TCHAR   DllPath[MAX_PATH] = {0};
GetModuleFileName((HINSTANCE)&__ImageBase, DllPath, _countof(DllPath));
  • 3
    Any comments about future compatibility of __ImageBase variable?
    – Ajay
    Aug 3 '11 at 9:31
  • __ ImageBase is variable of type IMAGE_DOS_HEADER, and this is coming first in the PE (portable executable format). It's a windows structure and is available only under Windows. In my opinion is safe to use and will not be changed in the future. An alternative will be GetModuleHandle but needs dll name. Aug 3 '11 at 9:40
  • I just read about this global variable. I am aware about PE headers, but didn't know about this. Thanks!
    – Ajay
    Aug 3 '11 at 9:46
  • 1
    It is used in MS sample code, so should be safe. For example, see msdn.microsoft.com/en-us/library/windows/desktop/… Dec 3 '14 at 2:54
  • 2
    Why donť you just use what you get in DllMain instead of __ImageBase?
    – Pyjong
    Oct 28 '16 at 15:14

GetModuleFileName() works fine from inside the DLL's codes. Just be sure NOT to set the first parameter to NULL, as that will get the filename of the calling process. You need to specify the DLL's actual module instance instead. You get that as an input parameter in the DLL's DllEntryPoint() function, just save it to a variable somewhere for later use when needed.

  • 2
    GetModuleHandle will give you the same handle as the input parameter to DllEntryMain. Apr 21 '16 at 9:24
  • This seems the simplest answer, and it works too. Agnel means DllMain() btw, instead of DllEntryMain(). May 11 '17 at 12:39

Try GetModuleFileName function.


For Delphi users:

SysUtils.GetModuleName(hInstance);              //Works; hInstance is a special global variable
SysUtils.GetModuleName(0);                      //Fails; returns the name of the host exe process
SysUtils.GetModuleName(GetModuleFilename(nil)); //Fails; returns the name of the host exe process

In case your Delphi doesn't have SysUtils.GetModuleName, it is declared as:

function GetModuleName(Module: HMODULE): string;
   modName: array[0..32767] of Char; //MAX_PATH is for a single filename; paths can be up to 32767 in NTFS - or longer.
      Retrieves the fully qualified path for the file that contains the specified module. 
      The module must have been loaded by the current process.
   SetString(Result, modName, GetModuleFileName(Module, modName, Length(modName)));

Provided you implemented the following dll entry point: (usually dllmain.cpp)

                   DWORD  ul_reason_for_call,
                   LPVOID lpReserved

You can simply do:

switch (ul_reason_for_call)
    TCHAR dllFilePath[512 + 1] = { 0 };
    GetModuleFileNameA(hModule, dllFilePath, 512)
case DLL_THREAD_ATTACH: break;

dllFilePath will then contain the path to where the current dll code was loaded. In this case hModule is passed by the process loading the dll.


Here's a Unicode, revised version of the top voted answer:

CStringW thisDllDirPath()
    CStringW thisPath = L"";
    WCHAR path[MAX_PATH];
    HMODULE hm;
                            (LPWSTR) &thisDllDirPath, &hm ) )
        GetModuleFileNameW( hm, path, MAX_PATH );
        PathRemoveFileSpecW( path );
        thisPath = CStringW( path );
        if( !thisPath.IsEmpty() && 
            thisPath.GetAt( thisPath.GetLength()-1 ) != '\\' ) 
            thisPath += L"\\";
    else if( _DEBUG ) std::wcout << L"GetModuleHandle Error: " << GetLastError() << std::endl;
    if( _DEBUG ) std::wcout << L"thisDllDirPath: [" << CStringW::PCXSTR( thisPath ) << L"]" << std::endl;       
    return thisPath;

I wanted to achieve something similar, except wanted to make similar function into one .dll - but then you cannot use __ImageBase, since it's specific to that .dll where function is located. I've even tried to override using approach

GetDllPath( HMODULE hDll = (HMODULE) __ImageBase)

But that did not work our either. (For some reason returns application path after that.)

Then I've figured out - why I don't use VirtualQuery, and use function pointer and get HMODULE from there. But again - how to get function pointer of caller ?

And now it gets back to call stack determination - I won't bother you with all dirty details, just follow links of referred links.

Here is whole code snapshot:

//  Originated from: https://sourceforge.net/projects/diagnostic/
//  Similar to windows API function, captures N frames of current call stack.
//  Unlike windows API function, works with managed and native functions.
int CaptureStackBackTrace2( 
    int FramesToSkip,                   //[in] frames to skip, 0 - capture everything.
    int nFrames,                        //[in] frames to capture.
    PVOID* BackTrace                    //[out] filled callstack with total size nFrames - FramesToSkip
#ifdef _WIN64
    CONTEXT ContextRecord;

    UINT iFrame;
    for (iFrame = 0; iFrame < (UINT)nFrames; iFrame++)
        DWORD64 ImageBase;
        PRUNTIME_FUNCTION pFunctionEntry = RtlLookupFunctionEntry(ContextRecord.Rip, &ImageBase, NULL);

        if (pFunctionEntry == NULL)
            if (iFrame != -1)
                iFrame--;           // Eat last as it's not valid.

        PVOID HandlerData;
        DWORD64 EstablisherFrame;
        RtlVirtualUnwind(0 /*UNW_FLAG_NHANDLER*/,

        if(FramesToSkip > (int)iFrame)

        BackTrace[iFrame - FramesToSkip] = (PVOID)ContextRecord.Rip;
    //  This approach was taken from StackInfoManager.cpp / FillStackInfo
    //  http://www.codeproject.com/Articles/11221/Easy-Detection-of-Memory-Leaks
    //  - slightly simplified the function itself.
    int regEBP;
    __asm mov regEBP, ebp;

    long *pFrame = (long*)regEBP;               // pointer to current function frame
    void* pNextInstruction;
    int iFrame = 0;

    // Using __try/_catch is faster than using ReadProcessMemory or VirtualProtect.
    // We return whatever frames we have collected so far after exception was encountered.
    __try {
        for (; iFrame < nFrames; iFrame++)
            pNextInstruction = (void*)(*(pFrame + 1));

            if (!pNextInstruction)     // Last frame

            if (FramesToSkip > iFrame)

            BackTrace[iFrame - FramesToSkip] = pNextInstruction;
            pFrame = (long*)(*pFrame);

#endif //_WIN64
    iFrame -= FramesToSkip;
    if(iFrame < 0)
        iFrame = 0;

    return iFrame;
} //CaptureStackBackTrace2

//  Gets .dll full path or only directory.
CStringW GetDllPath( bool bPathOnly /* = false */ )
    void* pfunc = &GetDllPath;
    wchar_t path[MAX_PATH] = { 0 };
    HMODULE hdll;

    CaptureStackBackTrace2(1, 2, &pfunc);

    // Get the base address of the module that holds the current function
    VirtualQuery(pfunc, &info, sizeof(MEMORY_BASIC_INFORMATION));

    // MEMORY_BASIC_INFORMATION::AllocationBase corresponds to HMODULE
    hdll = (HMODULE)info.AllocationBase;

    // Get the dll filename
    if ( !GetModuleFileName( hdll, path, MAX_PATH ) )
        return L"";

    if ( bPathOnly )
        wchar_t* p = wcsrchr( path, '\\' );
        if ( p )
            *p = 0;

    return path;
} //GetDllPath
  • Next to the error-prone stacktrace function, you return 'path' in GetDllPath(), which is local array, so destroyed upon return. This will crash. Just using GetModuleFileName() with the DLL handle as passed in DllMain() (described above) works in 3 lines of code. May 11 '17 at 12:38
  • Use my code sample only if you want to place GetDllPath into shared dll and use it from other dlls. Simpler approach would be to write GetDllPath for each dll separately, but then you will have multiple copies of same function or same source code is included from multiple dlls - this is a solution as well of course. May 11 '17 at 20:54
  • But 'path' is created on the stack, and as soon as GetDllPath() returns this variable will disappear. So using the string is bound to crash, right? Aug 24 '17 at 8:27
  • 1
    Function itself creates copy of string to caller. Should not crash in theory. Aug 24 '17 at 14:29
  • I see 'wchar_t path', so it's on the stack. Then 'return path' which returns a pointer to a stack item. But indeed, I see an implicit CStringW as the return type, which probably makes the copy. Sorry for the confusion. Aug 30 '17 at 9:18

Imho, Remy Lebau’s answer is the best, but lacks like all other answers to render the directory of the DLL. I quote the original question: “I want to get a dll's directory (or file) path from within its code. (not the program's .exe file path).”

As Remy and Jean-Marc Volle pointed out, the DLL entry function DllMain usually contained in dllmain.cpp provides the handle to the DLL. This handle is often necessary, so it will be saved in a global variable hMod. I also add variables of type std::wstring to store the fully qualified name and the parent path of the DLL.

std::wstring PathAndName;
std::wstring OnlyPath;
BOOL APIENTRY DllMain( HMODULE hModule, DWORD ul_reason_for_call, LPVOID lpReserved)
  switch (ul_reason_for_call)
  hMod = hModule;
  const int BUFSIZE = 4096;
  wchar_t buffer[BUFSIZE];
  if (::GetModuleFileNameW(hMod, buffer, BUFSIZE - 1) <= 0)
    return TRUE;

  PathAndName = buffer;

  size_t found = PathAndName.find_last_of(L"/\\");
  OnlyPath = PathAndName.substr(0, found);

  return TRUE;

These global variables can be used inside the DLL.

HMODULE hmod = GetCurrentModule();
TCHAR szPath[MAX_PATH + 1] = 0;
DWORD dwLen = GetModuleFileHName(hmod, szPath, MAX_PATH);
  • 3
    This is going to give you the path the exe that loaded the dll, not the dll itself. Oct 23 '12 at 14:52

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