Linking to a Library requires MFC80U.LIB - c++

I am trying to compile the SkpWriter example from the latest SketchUp C++ SDK. However, the linker gives me LNK1104 saying that "mfc80u.lib" could not be found since one of the static libraries (Utils.lib) in the SDK depends on some MFC 8 libraries. I am using VS2008 and only mfc90u.lib is available.
Is there a way to use mfc90u.lib in place of mfc80u.lib (anything short of renaming the file)?
Are MFC 8 DLLs and LIBs available for download? (Why should someone using a DLL created with VS2005 also be expected to install VS2005?!!) What are my options here?

Right-click your project, Properties, Linker, Input. In the "Ignore Specific Library" setting put mfc80u.lib. In the "Additional Dependencies" setting add mfc90u.lib
No guarantee that this will work but you got a decent shot at it. Your best bet is to contact the SDK vendor and ask for an update.

Probably you have 2 option:
1. Build your exe in VS2005 and use existing dll.
2. Rebuilt your dll in VS2008 and link with your exe.
MFC6 & MFC9 binary is not compatible, especially CString and CWnd, they are different in VC6 and VC9....

Related

How to compile c++ without needing a [duplicate]

My current preferred C++ environment is the free and largely excellent Microsoft Visual Studio 2005 Express edition. From time to time I have sent release .exe files to other people with pleasing results. However recently I made the disturbing discovery that the pleasing results were based on more luck that I would like. Attempting to run one of these programs on an old (2001 vintage, not scrupulously updated) XP box gave me nothing but a nasty "System cannot run x.exe" (or similar) message.
Some googling revealed that with this toolset, even specifying static linking results in a simple hello-world.exe actually relying on extra .dll files (msvcm80.dll etc.). An incredibly elaborate version scheming system (manifest files anyone?) then will not let the .exe run without exactly the right .dll versions. I don't want or need this stuff, I just want an old fashioned self contained .exe that does nothing but lowest common denominator Win32 operations and runs on any old win32 OS.
Does anyone know if its possible to do what I want to do with my existing toolset ?
Thank you.
For the C-runtime go to the project settings, choose C/C++ then 'Code Generation'. Change the 'runtime library' setting to 'multithreaded' instead of 'multithreaded dll'.
If you are using any other libraries you may need to tell the linker to ignore the dynamically linked CRT explicitly.
My experience in Visual Studio 2010 is that there are two changes needed so as to not need DLL's. From the project property page (right click on the project name in the Solution Explorer window):
Under Configuration Properties --> General, change the "Use of MFC" field to "Use MFC in a Static Library".
Under Configuration Properties --> C/C++ --> Code Generation, change the "Runtime Library" field to "Multi-Threaded (/MT)"
Not sure why both were needed. I used this to remove a dependency on glut32.dll.
Added later: When making these changes to the configurations, you should make them to "All Configurations" --- you can select this at the top of the Properties window. If you make the change to just the Debug configuration, it won't apply to the Release configuration, and vice-versa.
I've had this same dependency problem and I also know that you can include the VS 8.0 DLLs (release only! not debug!---and your program has to be release, too) in a folder of the appropriate name, in the parent folder with your .exe:
How to: Deploy using XCopy (MSDN)
Also note that things are guaranteed to go awry if you need to have C++ and C code in the same statically linked .exe because you will get linker conflicts that can only be resolved by ignoring the correct libXXX.lib and then linking dynamically (DLLs).
Lastly, with a different toolset (VC++ 6.0) things "just work", since Windows 2000 and above have the correct DLLs installed.
In regards Jared's response, having Windows 2000 or better will not necessarily fix the issue at hand. Rob's response does work, however it is possible that this fix introduces security issues, as Windows updates will not be able to patch applications built as such.
In another post, Nick Guerrera suggests packaging the Visual C++ Runtime Redistributable with your applications, which installs quickly, and is independent of Visual Studio.

Do I have to include all these Qt dlls with my application?

I'm totally new in using Qt and I don't know a lot of stuff.
As a test I created a simple application using Visual Studio 2012 and Qt-VS-Add-in based on the newest Qt5.1
After I compiled the application it didn't work for me (gave errors), I searched all over the internet and found a lot of people saying that I have to copy those dlls mentioned below from the directory:
C:\Qt\Qt5.1.0\5.1.0\msvc2012\bin\
DLL's I had to copy to make my application work:
icudt51.dll
icuin51.dll
icuuc51.dll
libEGL.dll
libGLESv2.dll
Qt5Core.dll
Qt5Gui.dll
Qt5Widgets.dll
My problem is the size of these dlls, they're about "37 MB" and my application itself is only "30 KB"! So, those Qt libraries will add at least 37 MB to my application [ Which I don't see it happens with other Qt-based applications I download ]. Is there any solution can make me end up with a single small .exe file?!
And I heard some people saying that I have to also include a dll for Microsoft C++ Compiler, can you explain this for me?
Note: I've come across a lot of questions here on StackOverFlow but I couldn't find anything can help me, so please do not flag this as a duplication because if I found a clear answer I wouldn't post this question!
Any help would be appreciated.
UPDATE: Use windeployqt.exe! It works really well.
http://doc.qt.io/qt-5/windows-deployment.html#the-windows-deployment-tool
The simplest way to use windeployqt is to add the bin directory of
your Qt installation (e.g. ) to the PATH variable and then
run:
windeployqt <path-to-app-binary>
UPDATE: Upon Further testing, windeployqt did not copy over all the MingW dlls for me. (Tested with Qt 5.4 on Windows 10 with MingW 4.9.1). So you need to manually get the last 3 dlls before deploying:
libgcc_s_dw2-1.dll
libstdc++-6.dll
libwinpthread-1.dll
From
C:\Qt\5.4\mingw491_32\bin
I think you may have a few extras in your list... I would double check the docs in the links below...
Here is the definitive documentation on it:
http://doc.qt.io/qt-5/windows-deployment.html
http://doc.qt.io/qt-5/windows-deployment.html#application-dependencies
Size of Qt DLLs
The amazing Qt Libraries can do a lot, but they are kind of big. Some of the older versions of Qt might be a little smaller.
For Qt 4.8 msvc QtCore4.dll is 2.5 MB, and QtGui4.dll is 8.4 MB.
How Windows Resolves Shared Libraries/Dynamic Link Libraries (DLL)
Here is how Windows tracks down a library at runtime:
http://msdn.microsoft.com/en-us/library/windows/desktop/ms682586(v=vs.85).aspx
Single Small EXE
If you statically link, then your EXE should grab the libraries it needs and gets built into a stand alone exe. It still may be dependent on msvc redistributables. See the next section for more info on it. But it now compiles down the .libs that you reference into your EXE and your exe no longer is pointing at other dynamically linked libraries. It does take more time to get your statically linked exe environment setup.
Your exe will certainly get bigger as it now includes the binary information for the libraries that you referenced before.
https://www.google.com/search?q=qt+static+linking
EDIT:
Statically building the exe, means that you aren't using the LGPL version.
means that you have to have your object files easy to access to end users if you are using LGPL.
I think #peppe described it well (see comment below):
Technically, you are allowed to statically link when using Qt under LGPL, even if your application is not using LGPL. The only tricky requirement is keeping the ability for a third party to relink your application against a different Qt version. But you can comply with that easily, f.i. by providing a huge object file (.o) of your application, that only needs to be linked against any Qt version.
http://blog.qt.io/blog/2009/11/30/qt-making-the-right-licensing-decision/
Look at the chart near the bottom. If you are doing the commercial version, then you can statically link, without worrying about the object files.
MSVC Redistributables
Redistributable dependencies have to do with the run-time library linker options.
http://msdn.microsoft.com/en-us/library/aa278396(v=vs.60).aspx
/MD, /ML, /MT, /LD (Use Run-Time Library)
To find these options in the development environment, click Settings on the Project menu. Then click the C/C++ tab, and click Code Generation in the Category box. See the Use Run-Time Library drop-down box.
These two links below talk about some older versions of visual studio, but the reasoning should still stand.
http://www.davidlenihan.com/2008/01/choosing_the_correct_cc_runtim.html
How do I make a fully statically linked .exe with Visual Studio Express 2005?
Hope that helps.
Just open your terminal execute your_qt_installpath/version/compiler/bin/windeployqt.exe YourApplication.exe. It will automatically copy all the required libs and stuff into the folder, where your exe is located and you can just distribute it.
For Windows you need to include qminimal.dll and qwindows.dll, you will have to put them in folder called platforms.
Even if you program is small you still call huge libraries to do the graphical interface. If the size is really important you should do a console project.
PS : You can check all the libraries you really need by opening your exe with the dependency walker.
I found another workaround without recompiling Qt again!
[ This solution may affect application execution time ]
First we need to use UPX to compress each one of Qt Libraries required by our application, they're often the dll's mentioned in the question. However, avoid compressing them too much because you'll notice that your application takes longer time to run.
[ Optional ]: If your application binary is large, you may find it useful to compress it using UPX.
After compressing all binaries, we want to get a single .exe file, so we can use
Enigma Virtual Box [ http://enigmaprotector.com/en/downloads.html ] to merge all .dll files with the main executable and we'll end up with a single tiny .exe file!
I'll just do it like this for now since I'm not able to recompile Qt with my own configurations on my current machine.
it looks to me that Qt5.2 requires fewer dll.
Qt5Core.dll
Qt5Gui.dll
Qt5Widgets.dll
in windows you also need "qwindows.dll" in folder "platforms".
give it a try.
A possibility for reducing the size of the DLLs is by compressing them with UPX as mentioned by Alaa Alrufaie. Another method is to wrap it into an installer (e.g. Inno Setup). The latter one is particularly useful if you want to distribute it to end users). I had a simple application requiring Qt5Core.dll, Qt5Gui.dll, Qt5Widgets.dll and qwindows.dll (in the folder "platforms") taking about 17 MB. After creating a setup file, it shrank to 5 MB.

Compile for distribution on Windows 7 using NetBeans C++

I made a application in Netbeans on windows 7. I want to run it on another system but it seems to have lots of dll's it depends on. The compiler tool kit I am using is MinGW, and the first two missing dll's are form that. I only get one missing dll file per run so it is a lot of back and forth to find them all.
Is there a way to list all the dll's that my executable depends on?
Is there a way to compile it so that it does not depend on so many of them (ie compiles the code into the exe)?
Thanks
From the menu bar, select Menu -> Project Properties. Then in the categories column, expand the node that says Build and select Linker. Then in command line under additional options, add -static-libgcc -static-libstdc++. This will statically link the C and C++ libraries for you. You can also add other libraries with the -static option.
There are tools to help you find dependencies for you, but for windows dlls, I usually just look at MSDN. Here is an SO question that talks about some tools if you want to use them.

Static linking with a Qt project

I've got a Qt project I've built in Visual Studio 2010 Professional. However, when I run it (in either Debug or Release mode) it asks for a few Qt dll's. It works if I supply the dll's and throw them into System32, but my question is, how do I make it so that all libraries are included in the .exe? I have all of the static libraries I need, I just don't know how to make it so that the app doesn't ask the end user for them.
The correct way is to create a setup program that installs the Qt libraries along with your application. Visual Studio comes with a setup project template that you can use to create your own customized installer easily. Static linking is rarely a good option, for numerous reasons.
However, if you insist on static linking, you'll need to recompile the Qt sources with the -static flag.
A walkthrough is available here for Qt 4.
And if you're using the LGPL version of Qt, make sure you've read the answers to this question and appropriate addressed all legal concerns with your deployment.

How do I make a fully statically linked .exe with Visual Studio Express 2005?

My current preferred C++ environment is the free and largely excellent Microsoft Visual Studio 2005 Express edition. From time to time I have sent release .exe files to other people with pleasing results. However recently I made the disturbing discovery that the pleasing results were based on more luck that I would like. Attempting to run one of these programs on an old (2001 vintage, not scrupulously updated) XP box gave me nothing but a nasty "System cannot run x.exe" (or similar) message.
Some googling revealed that with this toolset, even specifying static linking results in a simple hello-world.exe actually relying on extra .dll files (msvcm80.dll etc.). An incredibly elaborate version scheming system (manifest files anyone?) then will not let the .exe run without exactly the right .dll versions. I don't want or need this stuff, I just want an old fashioned self contained .exe that does nothing but lowest common denominator Win32 operations and runs on any old win32 OS.
Does anyone know if its possible to do what I want to do with my existing toolset ?
Thank you.
For the C-runtime go to the project settings, choose C/C++ then 'Code Generation'. Change the 'runtime library' setting to 'multithreaded' instead of 'multithreaded dll'.
If you are using any other libraries you may need to tell the linker to ignore the dynamically linked CRT explicitly.
My experience in Visual Studio 2010 is that there are two changes needed so as to not need DLL's. From the project property page (right click on the project name in the Solution Explorer window):
Under Configuration Properties --> General, change the "Use of MFC" field to "Use MFC in a Static Library".
Under Configuration Properties --> C/C++ --> Code Generation, change the "Runtime Library" field to "Multi-Threaded (/MT)"
Not sure why both were needed. I used this to remove a dependency on glut32.dll.
Added later: When making these changes to the configurations, you should make them to "All Configurations" --- you can select this at the top of the Properties window. If you make the change to just the Debug configuration, it won't apply to the Release configuration, and vice-versa.
I've had this same dependency problem and I also know that you can include the VS 8.0 DLLs (release only! not debug!---and your program has to be release, too) in a folder of the appropriate name, in the parent folder with your .exe:
How to: Deploy using XCopy (MSDN)
Also note that things are guaranteed to go awry if you need to have C++ and C code in the same statically linked .exe because you will get linker conflicts that can only be resolved by ignoring the correct libXXX.lib and then linking dynamically (DLLs).
Lastly, with a different toolset (VC++ 6.0) things "just work", since Windows 2000 and above have the correct DLLs installed.
In regards Jared's response, having Windows 2000 or better will not necessarily fix the issue at hand. Rob's response does work, however it is possible that this fix introduces security issues, as Windows updates will not be able to patch applications built as such.
In another post, Nick Guerrera suggests packaging the Visual C++ Runtime Redistributable with your applications, which installs quickly, and is independent of Visual Studio.