I'm trying to generate the lib files for freeglut library. I've installed cygwin and according to README file that comes with the library,
Building and Installing the Libraries with Cygwin
=================================================
To build "freeglut" under Cygwin, you have two choices:
- You can build a normal Cygwin library, which depends on Cygwin's X11
libraries. To do this, you can just use the normal autotools incantation:
./configure && make install
- Alternatively, you can build a DLL which does not depend on X11 and links
against the opengl32 DLL. To do this, configure need a few more flags:
./configure CPPFLAGS=-mno-cygwin LDFLAGS=-mno-cygwin --without-x && make install
If you don't have MSVC, Open Watcom or Cygwin
=============================================
But If I run ./configure, I got this error
$ ./configure CPPFLAGS=-mno-cygwin LDFLAGS=-mno-cygwin --without-x && make install
-bash: ./configure: No such file or directory
Is there something I need to install in order to solve this issue? The contents of the folder doesn't have configure. These are the files in the folder
If you need freeglut, you need to install the cygwin package libglut-devel
Looking inside setup.ini you will find its description:
libglut-devel
sdesc: "OpenGL Utility Toolkit library"
ldesc: "freeglut
is a completely OpenSourced alternative to the OpenGL Utility Toolkit
(GLUT) library. GLUT was originally written by Mark Kilgard to support
the sample programs in the second edition OpenGL 'RedBook'. Since
then, GLUT has been used in a wide variety of practical applications
because it is simple, widely available and highly portable. GLUT (and
hence freeglut) allows the user to create and manage windows
containing OpenGL contexts on a wide range of platforms and also read
the mouse, keyboard and joystick functions."
category: X11
In Cygwin a search for g++ shows:
gcc-g++
mingw-gcc-g++
mingw64-x86_64-gcc-g++
What are the differences between these?
Binaries built with Cygwin's gcc-g++ link against cygwin1.dll which is an implementation of the POSIX API for Windows.
mingw64-x86_64-gcc-g++ is instead part of the Mingw-w64 toolchain which builds native Windows applications that do not depend on Cygwin. The mingw-gcc-g++ on your system is probably either a symlink to this, or is the version that produces 32-bit binaries.
You can verify this difference by inspecting the import tables of a "hello world" program built with each using objdump -x hello.exe.
I want to cross compile the Qt libraries (and eventually my application) for a Windows x86_64 target using a Linux x86_64 host machine. I feel like I am close, but I may have a fundamental misunderstanding of some parts of this process.
I began by installing all the mingw packages on my Fedora machine and then modifying the win32-g++ qmake.conf file to fit my environment. However, I seem to be getting stuck with some seemingly obvious configure options for Qt: -platform and -xplatform. Qt documentation says that -platform should be the host machine architecture (where you are compiling) and -xplatform should be the target platform for which you wish to deploy. In my case, I set -platform linux-g++-64 and -xplatform linux-win32-g++ where linux-win32-g++ is my modified win32-g++ configuration.
My problem is that, after executing configure with these options, I see that it invokes my system's compiler instead of the cross compiler (x86_64-w64-mingw32-gcc). If I omit the -xplatform option and set -platform to my target spec (linux-win32-g++), it invokes the cross compiler but then errors when it finds some Unix related functions aren't defined.
Here is some output from my latest attempt: http://pastebin.com/QCpKSNev.
Questions:
When cross-compiling something like Qt for Windows from a Linux host, should the native compiler ever be invoked? That is, during a cross compilation process, shouldn't we use only the cross compiler? I don't see why Qt's configure script tries to invoke my system's native compiler when I specify the -xplatform option.
If I'm using a mingw cross-compiler, when will I have to deal with a specs file? Spec files for GCC are still sort of a mystery to me, so I am wondering if some background here will help me.
In general, beyond specifying a cross compiler in my qmake.conf, what else might I need to consider?
Just use M cross environment (MXE). It takes the pain out of the whole process:
Get it:
$ git clone https://github.com/mxe/mxe.git
Install build dependencies
Build Qt for Windows, its dependencies, and the cross-build tools;
this will take about an hour on a fast machine with decent internet access;
the download is about 500MB:
$ cd mxe && make qt
Go to the directory of your app and add the cross-build tools to the PATH environment variable:
$ export PATH=<mxe root>/usr/bin:$PATH
Run the Qt Makefile generator tool then build:
$ <mxe root>/usr/i686-pc-mingw32/qt/bin/qmake && make
You should find the binary in the ./release directory:
$ wine release/foo.exe
Some notes:
Use the master branch of the MXE repository; it appears to get a lot more love from the development team.
The output is a 32-bit static binary, which will work well on 64-bit Windows.
(This is an update of #Tshepang's answer, as MXE has evolved since his answer)
Building Qt
Rather than using make qt to build Qt, you can use MXE_TARGETS to control your target machine and toolchain (32- or 64-bit). MXE started using .static and .shared as a part of the target name to show which type of lib you want to build.
# The following is the same as `make qt`, see explanation on default settings after the code block.
make qt MXE_TARGETS=i686-w64-mingw32.static # MinGW-w64, 32-bit, static libs
# Other targets you can use:
make qt MXE_TARGETS=x86_64-w64-mingw32.static # MinGW-w64, 64-bit, static libs
make qt MXE_TARGETS=i686-w64-mingw32.shared # MinGW-w64, 32-bit, shared libs
# You can even specify two targets, and they are built in one run:
# (And that's why it is MXE_TARGET**S**, not MXE_TARGET ;)
# MinGW-w64, both 32- and 64-bit, static libs
make qt MXE_TARGETS='i686-w64-mingw32.static x86_64-w64-mingw32.static'
In #Tshepang's original answer, he did not specify an MXE_TARGETS, and the default is used. At the time he wrote his answer, the default was i686-pc-mingw32, now it's i686-w64-mingw32.static. If you explicitly set MXE_TARGETS to i686-w64-mingw32, omitting .static, a warning is printed because this syntax is now deprecated. If you try to set the target to i686-pc-mingw32, it will show an error as MXE has removed support for MinGW.org (i.e. i686-pc-mingw32).
Running qmake
As we changed the MXE_TARGETS, the <mxe root>/usr/i686-pc-mingw32/qt/bin/qmake command will no longer work. Now, what you need to do is:
<mxe root>/usr/<TARGET>/qt/bin/qmake
If you didn't specify MXE_TARGETS, do this:
<mxe root>/usr/i686-w64-mingw32.static/qt/bin/qmake
Update: The new default is now i686-w64-mingw32.static
Another way to cross-compile software for Windows on Linux is the MinGW-w64 toolchain on Archlinux. It is easy to use and maintain, and it provides recent versions of the compiler and many libraries. I personally find it easier than MXE and it seems to adopt newer versions of libraries faster.
First, you will need an arch-based machine (virtual machine or docker container will suffice). It does not have to be Arch Linux, derivatives will do as well. I used Manjaro Linux.
Most of the MinGW-w64 packages are not available at the official Arch repositories, but there is plenty in AUR. The default package manager for Arch (Pacman) does not support installation directly from AUR, so you will need to install and use an AUR wrapper like yay or yaourt. Then installing MinGW-w64 version of Qt5 and Boost libraries is as easy as:
yay -Sy mingw-w64-qt5-base mingw-w64-boost
#yaourt -Sy mingw-w64-qt5-base mingw-w64-qt5-boost #if you use yaourt
This will also install the MinGW-w64 toolchain (mingw-w64-gcc) and other dependencies.
Cross-compiling a Qt project for windows (x64) is then as simple as:
x86_64-w64-mingw32-qmake-qt5
make
To deploy your program you will need to copy corresponding dlls from /usr/x86_64-w64-mingw32/bin/. For example, you will typically need to copy /usr/x86_64-w64-mingw32/lib/qt/plugins/platforms/qwindows.dll to program.exe_dir/platforms/qwindows.dll.
To get a 32bit version you simply need to use i686-w64-mingw32-qmake-qt5 instead. Cmake-based projects work just as easily with x86_64-w64-mingw32-cmake.
This approach worked extremely well for me, was the easiest to set-up, maintain, and extend.
It also goes well with continuous integration services. There are docker images available too.
For example, let's say I want to build QNapi subtitle downloader GUI. I could do it in two steps:
Start the docker container:
sudo docker run -it burningdaylight/mingw-arch:qt /bin/bash
Clone and compile QNapi
git clone --recursive 'https://github.com/QNapi/qnapi.git'
cd qnapi/
x86_64-w64-mingw32-qmake-qt5
make
That's it! In many cases, it will be that easy. Adding your own libraries to the package repository (AUR) is also straightforward. You would need to write a PKBUILD file, which is as intuitive as it can get, see mingw-w64-rapidjson, for example.
Ok I think I've got it figured out.
Based in part on https://github.com/mxe/mxe/blob/master/src/qt.mk and https://www.videolan.org/developers/vlc/contrib/src/qt4/rules.mak
It appears that "initially" when you run configure (with -xtarget, etc.), it configures then runs your "hosts" gcc to build the local binary file ./bin/qmake
./configure -xplatform win32-g++ -device-option CROSS_COMPILE=$cross_prefix_here -nomake examples ...
then you run normal "make" and it builds it for mingw
make
make install
so
yes
only if you need to use something other than msvcrt.dll (its default). Though I have never used anything else so I don't know for certain.
https://stackoverflow.com/a/18792925/32453 lists some configure params.
In order to compile Qt, one must run it's configure script, specifying the host platform with -platform (e.g. -platform linux-g++-64 if you're building on a 64-bit linux with the g++ compiler) and the target platform with -xplatform (e.g. -xplatform win32-g++ if you're cross compiling to windows).
I've also added this flag:
-device-option CROSS_COMPILE=/usr/bin/x86_64-w64-mingw32-
which specifies the prefix of the toolchain I'm using, which will get prepended to 'gcc' or 'g++' in all the makefiles that are building binaries for windows.
Finally, you might get problems while building icd, which apparently is something that is used to add ActiveX support to Qt. You can avoid that by passing the flag -skip qtactiveqt to the configure script. I've got this one out of this bug report: https://bugreports.qt.io/browse/QTBUG-38223
Here's the whole configure command I've used:
cd qt_source_directory
mkdir my_build
cd my_build
../configure \
-release \
-opensource \
-no-compile-examples \
-platform linux-g++-64 \
-xplatform win32-g++ \
-device-option CROSS_COMPILE=/usr/bin/x86_64-w64-mingw32- \
-skip qtactiveqt \
-v
As for yout questions:
1 - Yes. The native compiler will be called in order to build some tools that are needed in the build process. Maybe things like qconfig or qmake, but I'm not entirely sure which tools, exactly.
2 - Sorry. I have no idea what specs files are in the context of compilers =/ . But as far as I know, you wouldn't have to deal with that.
3 - You can specify the cross compiler prefix in the configure command line instead of doing it in the qmake.conf file, as mentioned above. And there's also that problem with idc, whose workaround I've mentioned as well.
I want to build XZ Utils with MSVC++, but xz utils uses a Gnu Autoconf Script. Is there a way to import a whole autoconfed project into MSVC++, then build it? If not, is there a way to run the Gnu Autoconf script for MSVC++, then after that, just take all the source files, as well as config.h, then build it?
FYI XZutils is written in C99 and will not compile under MSVC without massive changes. Just build in MINGW and link to the static lib or dll.
As far as I know, not really. You could try installing MSYS and seeing what the support for cl.exe is like in the configure script:
./configure CC=c:/path/to/cl.exe CXX=c:/path/to/cl.exe
Last time I checked, the support was rather immature, but it could be worth a shot. On the other hand, since xz-utils is written in straight C, what does it matter which compiler you use? Build it with MinGW and link against it with visual studio.
How can I install gcc on a system that have not any c compiler?
this system is a linux base firewall and have not any c compiler.
I guess you a have an appliance running Linux and shell-access, but neither a package manager nor a compiler is installed.
So, you need to cross-compile gcc and the whole toolchain (at least binutils) - this is quite simple, because the ./configure scripts of gcc, binutils, gdb etc. support cross-compiling with the --target= option. So all you have to do is to find out the target architecure (uname helps) and then download, unpack the gcc sources on a linux-host and run ./configure --target=$YOUR_TARGET.
With this, you now can build a cross-compiler gcc - this still runs on your host, but produces binaries for your target (firewall appliances).
This may already be sufficient for you, a typical desktop PC is much faster than a typical appliance, so it may make sense to compile everything you need on the Desktop PC with the cross-compiler and cross-binutils.
But if you really wish to do so, you can now also use your cross-compiler to compile a gcc running on your target (set this as --host= option) and compiling for your target (set this as --target option).
You can find details about allowed host/targets and examples in the gcc documentation: http://gcc.gnu.org/install/specific.html.
It depends on the distribution, if it's based on debian or some other of the big ones you can install gcc through apt-get or similar tool.
If it's a more basic system you need to compile gcc yourself on another computer and copy it over. It will be easiest if you have another computer with the same architecture (i386, arm or x86_64 for example).
I think that you might want to compile it statically also, so that you don't have dependencies on external libraries.
How do you plan to get all the source code needed for GCC loaded onto your machine? Could you mount the ISO image onto this machine and install from there?
Since you are using Endian Firewall, see "Building a development box" at the following link:
http://alumnus.caltech.edu/~igormt/endian/tips.html
If it's a debian based distribution, you can use
sudo apt-get install gcc
Note: maybe you must change "gcc" by a specific version of the debian package.