emerge is a tool to build the KDE sources and its third-party requirements on MS Windows. It is the easy way to build KDE on MS Windows.
Create a directory if possible in your harddrive's root e.g. C:\kderoot or D:\kderoot (You will need this PATH later). This directory will contain the whole kde installation later. We will refer to it as KDEROOT.
|It is a good idea to keep this path as short as possible, e.g. just "C:\K", as too long paths may cause trouble while building some complex packages.|
|Be sure that you neither have the msys/bin nor the cygwin/bin in your path. If so you have to definitely remove it from the path. The applications gimp, inkscape and graphviz have also been reported to be a problem when in the %PATH%.|
The emerge tool is written in Python, so you first need to install the Python 3.5 Interpreter. The python installation directory will be added to the PATH later by KDEROOT\etc\kdesettings.ini. Some packages also need Python 2.7.
|If you intend to build 32 bit binaries on a 64 bit system, it may be a good idea to install 32 bit version(s) of Python. Alternatively, see #Building_for_32_bit_on_a_64_bit_machine, below.|
|This git client is essentially just needed for the initial installation. Later, emerge will use its own git client for checking out all KDE source code. You can find it in KDEROOT\dev-utils\git\bin. It will be used by emerge even if you have another git executable installed.|
Get the emerge tool via git with the following commands:
git clone git://anongit.kde.org/emerge.git
git clone http://anongit.kde.org/emerge.git
git clone firstname.lastname@example.org:emerge.git
It is a good idea to read through all comments in that file, carefully. What you will definitely have to configure, is the path to Python.
Currently emerge supports both the MinGW and MS Visual C++ (msvc) compilers:
The MinGW compiler can simply be installed via emerge (and emerge will do so, automatically as soon as it is needed). All you have to do is set the KDECOMPILER variable in KDEROOT\etc\kdesettings.ini. In fact, at the time of this writing, using MinGW is the default option.
At the time of this writing (early 2016, Qt 5.5.1), if you want to compile all of Qt, including QtWebEngine, your only choice of compiler will be Visual Studio 2013, not earlier, not later. The express version will be good enough for this purpose. In your kdesettings.ini, set KDECompiler as appropriate.
In order to compile the Qt5 qtbase package with MinGW, you will also need to install the Microsoft DirectX SDK, and set the environment variable DXSDK_DIR environment variable accordingly.
Alternatively, you can disable the use of DirectX in qt, by adding -opengl desktop to the configure parameters in Qt. (TODO: How exactly?). However, this means your Qt binaries will require an OpenGL 2.1 capable graphics card.
To use emerge you need to start a Powershell window, point that to KDEROOT\emerge and run the initalization script. For example:
C: cd KDEROOT\emerge ". .\kdeenv.ps1"
Alternatively, you can also run the kdeenv.bat script in the same directory in a traditional Windows command prompt.
This tells emerge about your environment settings (e.g. paths). It will load your configuration from KDEROOT\etc\kdesettings.ini. It should not give any error messages, otherwise emerge will not work as expected. The output should look similar to this one (of course with your paths):
PS C:\kderoot\emerge>.\kdeenv.ps1 KDEROOT : r:\ KDECOMPILER : mingw-w64 KDESVNDIR : s:\ KDEGITDIR : q:\ DOWNLOADDIR : t:\ PYTHONPATH : C:\python34 PS C:\kderoot\emerge>
Note: There is a short path option in kdesettings which you will need if you want to build Qt in a directory that has a pathlength of more then around 5 characters. This problem is due to limitations of the command line length and the Qt build system.
Next, if you have configured your kdesettings.ini to use svn+ssh for your subversion checkout, then you need to run:
plink <your-svn-username>@svn.kde.org plink <your-kde-username>@git.kde.org
This will prompt you to accept the fingerprint of the server, otherwise svn will hang forever when trying to download from the server.
You are now ready to start building KDE, it is recommended to do so progressively, relying on emerge to automatically resolve the required dependencies at each set step:
You will now have successfully installed a base KDE system and can now install other KDE modules as required.
|It is strongly recommended you do not choose to manually install any of the utilities and libraries yourself, as you may install the wrong version and cause installation failures. Instead allow emerge to resolve the dependencies for you.|
Every time you want to update or install a package, you should first update your emerge checkout (simply run emerge --update emerge) to ensure you are using the latest package recipies.
emerge --update packagename
emerge --noclean packagename
Below are some command-line options commonly used with emerge. A complete list of options is available by running emerge --help.
|Command line switch||Command line argument||Description|
|--help||Print usage information.|
|--print-installable||List packages available for installation.|
|--print-installed||List installed packages.|
|-v||EMERGE_VERBOSE||This option sets the verbosity level. Currently the highest verbosity level is 3 (-v -v -v). A verbosity level of 0 should give no output and equals to -q. You can set EMERGE_VERBOSE=3 instead in the environment of the commandline or within your kdesettings.ini file.|
|--offline||This option suppresses the update step of the local tree - which needs some time. Be aware though that you have to have existing sources already if you want to use this option.|
|-t||EMERGE_BUILDTESTS||This option enables or disables KDE4 buildtests for KDE modules. Other packages will not change. Use EMERGE_BUILDTESTS=True or =False.|
|--print-targets||This option will display all "targets" a certain package has. Normally targets are fixed releases or different branches. They are defined in the portage file.|
|--target=TARGET||This sets a specific target for this package. If not added, the default target is used, which can be checked by looking at the output of --print-targets.|
|-i||This option ignores that a package is already installed. It builds it completely new, but keeps the dependencies.|
|--update||This option ignores that a package is already installed but doesn't cleanup an already existing build directory. Thus you will only rebuild files that have changed since the last build.|
The instructions as given above will install the development version of KDE (master in most git repositories), if you wish to install a particular stable branch then you should change the branch of emerge to the specific branch of that release.
emerge has several branches which contain specific package versions. E.g. if you want to build the 4.13 branch of KDE (or one of the 4.13 releases) you should checkout the kde-4.13 branch of emerge; in the master branch, you can find the KDE Frameworks 5. TODO: Any mechanism for switching between KF5 releases?
To view all branches, use the following command:
git branch -a
To change the branch of emerge, do the following:
cd emerge && git checkout kde-4.13
At the moment, only the master branch is actively maintained, so you will likely experience problems (outdated package urls etc.) on the other branches. If you really, really need to work with a historic version of KDE, and you cannot get it to work using emerge, one alternative may be to set up a compilation environment using the KDE on Windows installer. There also exists a snapshot of a 32bit MinGW based emerge installation of KDE 4.10: https://sourceforge.net/projects/rkwardextras/files/Archive/Windows/Development/ .
Even more historic instructions:
If you do not have any special requirements over than setting up a KF5 environment on Windows for testing, reliably and quickly, you may be interested in some pre-built snapshots. Note that it is still a good idea to have at least a basic understanding of the steps outlined, above, including the setup requirements.
PS> Start-Process powershell -Verb runAs
Then, once you get an administrative powershell, run:
This should let scripts run
There's got to be a better, global way to fix this issue just like in the above case, but a work-around is to go to the containing folder in Windows Explorer, Right click on the .exe file, click properties, go to the permissions tab, say "edit" permissions, and set it to Read & Execute "Allow" for everyone.
The author of this blurb had to do this for the following programs: wget (wget.exe) 7zip (7za.exe)
If you build 32bit binaries with emerge on a 64bit system you need to link boost-python against a 32bit python library. In case your standard python installation is 64bit though, you can specify the python installation by adding a file emerge-boost-config.jam in the %KDEROOT%\etc directory to build boost in a specific way, with the following contents:
# --------------------- # Python configuration. # --------------------- # Configure specific Python version. using python : 3.2 : C:\\Python32_x86 ;
This way boost-python would be using the headers & libraries from C:\\Python32_x86 instead of the default one. Please remember that for mingw compilers you must regenerate the import library for the python dll (also for the mingw 64bit compiler):
R:\> emerge pexports R:\> pexports C:\Python32_x86\python32.dll > C:\Python32_x86\libs\python32.def
NOTE: In case you generate the import library for the 64bit compiler, add the following line to the file python32.def:
Py_InitModule4 = Py_InitModule4_64
For both compilers you should now run:
dlltool -d C:\Python32_x86\libs\python32.def -l C:\Python32_x86\libs\libpython32.dll.a
Now you should be able to do emerge -i boost-python-src without errors.
Emerge can be thought of as performing many of the functions of automated tools like cmake, but in a flexible Python scripting framework. The benefit of this is that new libraries with idiosyncratic installation procedures, conflicting library and header installation names, and complex rules for building on different setups can be generated automatically, and all directory management should be taken care of without the user's input.
The primary logic for the program is contained in the /bin folder of the Git repository. The script emerge.py serves as the entry point to the system; it runs appropriate code according to the command line arguments. The basic command emerge packageName performs the five most important actions --fetch, --unpack, --compile, --install, and --qmerge. The definition for each of these steps is defined using a flexible system called Portage, after the Gentoo package management system. The basic goals are:
1. Fetch action retrieves either a binary or the source code for the package.
2. Unpack action installs the source code in a source folder and applies KDE-specific patches.
3. Compile action runs package-dependent configure make steps.
4. Install action installs the headers and compiled library and executable outputs.
5. Qmerge action does something, but what?
Emerge also offers functionality to document dependency trees, create patches to upload tweaks and fixes, and update and clean existing installs.
The actual commands for fetching, unpacking etc. are defined by three increasingly specialized levels of logic. The first level is the code in the /bin folder and determines the overall order, steps should be taken, reading environment variables to configure the build environment and compiler set by kdeenv.bat, and parsing the directory tree.
The second set of logic is found in the /bin/BuildSystem, /bin/Package, /bin/Packager, and /bin/Source folders. This is used to determine general procedures for different classes of packages. For example, the "Source" folder contains the logic for running the --fetch step for compressed files, git repositories, SVN, and so on. The "Package" system contains logic for libraries that need to be configured with e.g. CMake, QMake, or internal make systems.
The final set of logic is at the per-package level. This is what is contained in the /portage/ directory. Emerge is able to automatically search through the Portage folders to find the name of the package you specify. This is where dependencies, special build configurations and special commands are set up. Individual patch files and different version configuration information is also stored here. It is relatively straightforward to add a new package to Portage, especially if the package itself can be downloaded and installed with CMake using minimal configuration.
A good way to prepare a package for wider distribution is to create a simple CMakeLists.txt it. You can format the addition of this file as a patch, and create a Portage script which merges the patch into the public code repository.
Emerge is a tool that can build the different parts of KDE and its dependencies under Windows. We created this tool to automate and simplify the build process under Windows. We try to build all packages that we offer in the KDE installer with emerge. That has some advantages for us:
Before emerge it was quite some work to set a system up for development. There were some quirks, which were documented in some mailing lists, but you had to remember them or you ran into an already solved problem again, etc. Now to get a development machine you need a Windows computer, need to install Python and Git and do the emerge checkout. Then execute emerge to build what you want to build. This is easy for developers coming from Windows to KDE, and also for KDE developers coming to Windows.
With emerge you can build the whole software stack (low-level libs, Qt, kdelibs, things above that) with only one command. You can start that build, and some hours later you can check if it worked, or if something broke. So we can spot problems easier and earlier. We can also start with a "naked" Windows computer without any other installed software and bootstrap kde on it. That ensures, that no hidden dependencies on some pieces of software sneak in, because then the builds on a "naked" computer would break and show the problem.
We can test the same emerge build description for a package on different Windows versions/computers before we do binary releases. People can also add build descriptions for new packages to the Subversion repository.
This emerge tool was inspired by the Gentoo emerge tool.