What is the difference between creating a MFC DLL from Visual Studio wizard and creating C++ Console Application and changing the configuration type to DLL instead of .exe?
You can surely figure out how to change a console application to dll type, but it's recommended to use the non-MFC DLL project template.
One major difference between a non-MFC and a MFC Extension DLL is that it would allow sharing resources like dialog templates or bitmaps to MFC appliactions by calling
// MFC extension DLL one-time initialization
AfxInitExtensionModule(PROJNAMEDLL, hInstance);
// Insert this DLL into the resource chain
new CDynLinkLibrary(Dll3DLL);
in DllMain(). Other benefits are that you can use MFC (CObject-derived) classes that sit in the dll and that the MFC Extension DLL can share the memory address space with the calling instance, meaning that two apps loading the same extension DLL will only share the code but won't interfere with allocated data.
Note that you need the "shared MFC DLL" project setting to use extension DLLs. Linking MFC statically into your project won't work. So extension DLLs aim at sharing code among different apps that run simultaneously, for example, but only use the code memory once. This way of code reuse was one intention at least when extension DLLs were introduced, but in the real world different apps tend to use different versions (dll hell, side-by-side). Speaking of:
One good use of an extension DLL is to customize an app (branding, localisation) just by installing differend versions of a dll.
Further reading: https://learn.microsoft.com/en-us/cpp/build/extension-dlls
According to Creating an MFC DLL Project it states:
An MFC DLL is a binary file that acts as a shared library of functions that can be used simultaneously by multiple applications. The easiest way to create an MFC DLL project is to use the MFC DLL Wizard.
This article Kinds of DLLs also states:
Using Visual Studio, you can build Win32 DLLs in C or C++ that do not
use the Microsoft Foundation Class (MFC) library. You can create a
non-MFC DLL project with the Win32 Application Wizard.
The MFC library itself is available, in either static link libraries
or in a number of DLLs, with the MFC DLL Wizard. If your DLL is using
MFC, Visual Studio supports three different DLL development scenarios ...
I believe the above explains the difference:
One version of the DLL exposes the MFC library.
One version does not.
That is my understanding.
Other related article: Create C/C++ DLLs in Visual Studio
An MFC DLL is a dynamic library that uses MFC components and the MFC runtime. This means that an MFC dynamic library usually requires the MFC support libraries along with the MFC runtime. To compile an MFC DLL requires the MFC include files and the MFC directives.
When you use the Visual Studio Wizard to create an MFC DLL all the compiler, linker, and other settings and options needed to create an MFC DLL are all generated for you along with an MFC DLL stub.
A Console Application is an application that uses the C++ Runtime from a console window.
When you use the Visual Studio Wizard to create a Console Application all the compiler, linker, and other settings and options to create a Console Application are all generated for you with a Console Application stub which is typically a Hello World type of application with a main() that contains a printf().
The source code for a DLL has required structure for a DLL main entry point that is different from the required structure for a Console Application main entry point. See the Microsoft article DllMain entry point which has this example source code:
BOOL WINAPI DllMain(
HINSTANCE hinstDLL, // handle to DLL module
DWORD fdwReason, // reason for calling function
LPVOID lpReserved ) // reserved
{
// Perform actions based on the reason for calling.
switch( fdwReason )
{
case DLL_PROCESS_ATTACH:
// Initialize once for each new process.
// Return FALSE to fail DLL load.
break;
case DLL_THREAD_ATTACH:
// Do thread-specific initialization.
break;
case DLL_THREAD_DETACH:
// Do thread-specific cleanup.
break;
case DLL_PROCESS_DETACH:
// Perform any necessary cleanup.
break;
}
return TRUE; // Successful DLL_PROCESS_ATTACH.
}
So the differences between an MFC DLL and a Console Application involves a number of areas:
the structure of the source code
the include files used in the compile
the libraries used in the link
the options used in the compile
the options used in the link
Changing the configuration type does not modify the source code or include files specified in the source code. Nor does changing the configuration type change all of the necessary compiler and linker options and property settings that need to be changed.
See this Microsoft article, DLLs and Visual C++ run-time library behavior, that discusses the structure of DLLs and their run time behavior which provides an idea as to the differences between an EXE and a DLL.
An Application (executable) is a module that can be run. It contains one entrypoint, the main() (console) or WinMain() (windows GUI) function. A running instance of an executable is called a "process" in Win32.
A DLL is a library, intended for use by other applications. It is loaded at runtime - "dynamically", hence the name. DLLs contain no main entrypoint, instead they "export" functions or even classes and data. Lacking a main entrypoint, DLLs cannot be run stand-alone, instead they are "loaded into a process's (application's) address-space". The process can use their exported items. It is a good way to implement commonly used operations, for example a company's "development environment" or "foundation" - SDKs are typically implemented as DLLs.
MFC is a C++ library containing GUI (and other) classes and functions, largely (but not exclusively) wrapping Win32 objects. An application or DLL can be using the MFC library, or not.
As for your question, creating a console application and then changing it to DLL makes no sense. The Wizard will create a main() function, which you will have to manually remove. And finally you will have what, a normal DLL... You can simply create a DLL from the start, whether it will be using MFC or not.
EDIT:
According to the documentation from Microsoft:
Each process provides the resources needed to execute a program. A process has a virtual address space, executable code, open handles to system objects, a security context, a unique process identifier, environment variables, a priority class, minimum and maximum working set sizes, and at least one thread of execution. Each process is started with a single thread, often called the primary thread, but can create additional threads from any of its threads.
So yes, processes need to contain at least one thread - terminating the primary thread also terminates the process. Furthermore, an executable must contain an entry point, it's what the primary thread will execute and return a value to the system. It's actually impossible to build an executable without a main()/WinMain() function, it will generate Linker Error LNK1561:
entry point must be defined
The linker did not find an entry point, the initial function to call in your executable. By default, the linker looks for a main or wmain function for a console app, a WinMain or wWinMain function for a Windows app, or DllMain for a DLL that requires initialization. You can specify another function by using the /ENTRY linker option.
As for DLLs, the term dynamic "linking" is indeed used by MS, however only to highlight the differences to static linking (what most developers consider linking). It's not linking in the usual way, ie resolving externals, changing symbol names to addresses, performing fixups and the like. A DLL has no unresolved externals and the so called "linking" means just locating exported items from the loaded DLLs (in the case of using an import library they are also assigned to local functions) - the linker is not involved in the procedure. Further information here.
Therefore I don't think that there was something "slightly wrong" in what I had posted above, and certainly not "literally everything".
As for whether my answer should be considered useful or not, I think I was right to suggest not creating an executable and changing it to a dll. An MFC DLL is a DLL "based on" (using) the MFC library - this was clear in my first post. The OP didn't ask about MFC extension DLLs particularly.
MFC projects provide enhanced support for satellite dlls which generally helps in creating localized application with multiple resources. Those dlls are called as Saltellite dlls. When program is executed, MFC automatically loads the localized resource based on environment.
If MFC does not find any satellite DLLs, it uses whatever resources are contained in the application itself. I want to know if there is any configuration setting or any other way which can help stopping MFC to load any resource specific dll.
I know that MFC tries to load resource dlls and some other initialization stuff at entry point by calling method InitInstance(). If I do not call InitInstance method, I am observing MFC does not try to load any resource specific dll. Not sure if this is right way or is there Microsoft suggested way?
I have an MFC .exe application, and I created another project for a DLL with MFC dynamically linked to it.
Now, when I import that DLL through LoadLibrary, it crashes my application, because when the importing is done, the DLL calls AfxWinInit().
Should the DLL call AfxWinInit()? How do I avoid it? Or is something else wrong?
In your MFC application WinMain() calls AfxWinMain(). The AfxWinInit() is called at the beginning of AfxWinMain(). So the initialization is done by framework for you. There is no need to initialize it again.
MFC DLLs provide their own entry point, so you're not supposed to write one yourself. If you plan to write a DLL with MFC support, I'd suggest you start with a fresh MFC DLL created by the app wizard and then move your code there.
For MFC applications that load extension DLLs, use AfxLoadLibrary instead of LoadLibrary.
I got the VC++ source code of a dll for a USB device project, which the deadline is close. Right now I have to call this usb dll from another VB program. But the source code is based on the template "MFC Extension DLL", which can´t be called by VB. On the other hand, "Regular DLL with MFC statically linked" can be called by programs written in Visual Basic.
Is there a way, with the least effort of modification of the source code, to be able to call this dll directly from VB?
I tried to modify the project´s configuration properties/Use of MFC to Use MFC in a Static Library. But there is build error.
Now I am modifying the source code based on the new template "Regular DLL with MFC", but there is a lot of problems. For example, I don´t know whether I can use AFX_EXTENSION_MODULE in my new dll code.
Your problem is likely due to not implementing a CWinApp derived object which provides services that the MFC classes in the DLL rely upon. Probably you can just bung one in and it will work.
See here for more information:
http://msdn.microsoft.com/en-US/library/h5f7ck28(v=VS.80).aspx
I have a CWinApp-based application that is built as a DLL that is loaded by another 3rd party application as a plugin. My app exposes an exported StartPlugin() method that creates a CDialog derived dialog. This exported function is somehow called by the 3rd party application. I'd like to be able to run my DLL outside of the 3rd party application so I can test and play around with UI stuff (not for unit testing).
How can I create a test harness that will allow me to run my dll code? I'm not sure how the main application launches my dll plugin, but I'm speculating that it's creating a User-Interface thread? So would I just need to create a simple exe that can somehow load my dll and create a new thread or something. Any links to tutorials or articles that explain something like this.
Use the Visual Studio wizard to create a MFC application, probably Dialog based. Have a button on the dialog to run your plugin. In the button code do a LoadLibrary with the name of your DLL, then call GetProcAddress to get a pointer to the StartPlugin function. Then you can call StartPlugin.