< Calligra Revision as of 18:40, 21 March 2014 (view source)Yue2 (talk | contribs) (→Preparation)← Older edit Revision as of 19:07, 21 March 2014 (view source) Yue2 (talk | contribs) (→Automated Approach)Newer edit → Line 21: Line 21: = Preparation = = Preparation = == Automated Approach == == Automated Approach == −First you should have windows 7 or later installed. If you're a unix user and don't want to setup a vm manually, here is a sample packer template for unattend installation of Windows 7 SP1 x64 in virtualbox:+First you should have windows 7 or later installed. +If you're a unix user and don't want to setup a vm manually, here is a sample packer template for unattend installation of Windows 7 SP1 x64 in virtualbox: <pre> <pre> git clone https://github.com/philacs/calligra-windows-dev-env-setup.git git clone https://github.com/philacs/calligra-windows-dev-env-setup.git cd calligra-windows-dev-env-setup cd calligra-windows-dev-env-setup </pre> </pre> −copy the Windows 7 iso into the folder, modify <pre>res/Autounattend.xml</pre> to include your ProductKey and Edtion, modify <pre>win7x64.json</pre> to add custom provisioners. Install packer following [http://www.packer.io/intro/getting-started/setup.html], make sure your computer connected to the Internet so it can download needed softwares, then+copy the Windows 7 iso into the folder, modify <code>res/Autounattend.xml</code> to include your ProductKey and Edtion, modify <code>win7x64.json</code> to add custom provisioners. Install packer following [http://www.packer.io/intro/getting-started/setup.html this link], make sure your computer connected to the Internet so it can download needed softwares, then <pre> <pre> packer build win7x64.json packer build win7x64.json </pre> </pre> −And finally an vmdk file and ovf file will be generated, install the vm in virtualbox by importing the ovf.+Then an vmdk file and ovf file will be generated, install the vm in virtualbox by importing the ovf. +Now in windows command line execute following to download and install kde windows build dependencies. The installation is automated including reboot handling. +<pre> +start http://boxstarter.org/package/chocolatey,cmake,git,python.x86,VisualStudio2012WDX +</pre> + +Now use following script to install kde components needed to build calligra +TODO == Manual Approach == == Manual Approach == Revision as of 19:07, 21 March 2014 Note These instructions are a work in progress, being based on the Linux Build instructions, there are some sections which need updating. These instructions are for the Windows operating systems. See also: Building Krita on Windows, the easy way BuildKritaOnWindows Nightly Builds Developing With... Pages about compiling KDE software for Windows kde's git infrastructure manual KDE and Git for developers git crash course Note: the 4.7 branch of emerge is no longer usable. Use the 4.8 or master branch. Those branches need Python 3.x. You also need 7za.exe instead of 7z.exe in the path. Contents 1 Preparation 1.1 Automated Approach 1.2 Manual Approach 1.2.1 Install Dependencies 1.2.2 Setup Directories 1.3 Getting the source code 2 Build Calligra 3 Running Calligra applications 4 Updating the already built software 5 Executing unit tests 6 CMake Build Options 7 Resources 8 Possible issues 8.1 Calligra apps don't start Preparation Automated Approach First you should have windows 7 or later installed. If you're a unix user and don't want to setup a vm manually, here is a sample packer template for unattend installation of Windows 7 SP1 x64 in virtualbox: git clone https://github.com/philacs/calligra-windows-dev-env-setup.git cd calligra-windows-dev-env-setup copy the Windows 7 iso into the folder, modify res/Autounattend.xml to include your ProductKey and Edtion, modify win7x64.json to add custom provisioners. Install packer following this link, make sure your computer connected to the Internet so it can download needed softwares, then packer build win7x64.json Then an vmdk file and ovf file will be generated, install the vm in virtualbox by importing the ovf. Now in windows command line execute following to download and install kde windows build dependencies. The installation is automated including reboot handling. start http://boxstarter.org/package/chocolatey,cmake,git,python.x86,VisualStudio2012WDX Now use following script to install kde components needed to build calligra TODO Manual Approach Install Dependencies Before you begin, you will need to have a minimal set of software installed on your PC: Python 3.2 (x86, not 64-bit) Git Microsoft Windows SDK 7.1 (Windows 7 with .NET Framework 4) First you will need to make sure that you have Git installed on your PC in order to be able to clone the KDE Windows emerge repository. Be sure to switch to the kde-4.8 branch. git clone git://anongit.kde.org/emerge.git cd emerge git checkout kde-4.8 mkdir ..\etc copy kdesettings-example.bat ..\etc\kdesettings.bat You will need to make the following changes to etc/kdesettings.bat: Update KDEROOT Set KDECOMPILER=msvc2010 Update WINDOWSSDKDIR to point to your installation of the Windows SDK Set EMERGE_USE_SHORT_PATH=1 Set PYTHONPATH (default assumes in Program Files) Set EMERGE_SOURCEONLY=True One you have done this, you should navigate to the emerge directory and call kdeenv This sets up the development environment that you will need to use in order to build the KDE libraries, their dependencies and Calligra. In order to install the bare minimum set up of KDE libraries, you will need to run a series of calls to emerge, which will take some time: emerge qt emerge kdelibs emerge kde-runtime Users familiar with development on Linux platforms may also wish to install another couple of libraries emerge coreutils emerge grep There are some additional optional libraries that can be used by Calligra, again emerge is used to install them: emerge lcms2 emerge eigen2 emerge boost emerge okular (only needed to build a calligra plugin for okular) emerge exiv2 emerge soprano emerge librdf-src Depending on your requirements, there are some additional libraries that may be useful emerge libwpd // Wordperfect document support emerge libwpg // Wordperfect graphics support Setup Directories Here is recommendation of a directory structure: C:\kderoot KDE on Windows root directory From your %USERPROFILE% directory (assuming you will be the only local user) kde4\src\ source code kde4\build\calligra directory that Calligra will be built in kde4\inst\ directory that Calligra will be installed in The build directory is needed because you cannot build Calligra inside the source directory; the source and build directory have to be separated. You can create this structure by opening a command prompt (cmd.exe) and typing: cd %USERPROFILE% mkdir kde4 mkdir kde4\build mkdir kde4\build\calligra mkdir kde4\inst mkdir kde4\src Getting the source code As Windows support is still being improved, it is recommended that you use the development version. If you require stability, it is recommended that you take advantage of the nightly builds. The latest development version of Calligra is 3.1.0 Alpha; developers always refer to it as to Master. Once tested and released, it will become the new current stable version 3.1. To retrieve the source code from Git you have to use the following setup: Add the following text to %USERPROFILE%\.gitconfig: [url "git://anongit.kde.org/"] insteadOf = kde: [url "ssh://[email protected]/"] pushInsteadOf = kde: [core] autocrlf=false Then execute $ git clone kde:calligra By using the kde: prefix, read access will automatically happen over Git, and authenticated SSH is only required for pushes. Note that pushing your changes will only work if you have a KDE developer identity (https://identity.kde.org/register.php). This will create a 'calligra' subdirectory with the complete source tree. Build Calligra From your home directory, navigate to the build\calliga subdirectory and execute cmake to configure the project for building with the following lines: cd kde4\build\calligra # with versions <= 2.6 cmake -DCMAKE_INSTALL_PREFIX=..\..\inst ..\..\src\calligra -DCMAKE_BUILD_TYPE=%EMERGE_BUILDTYPE% -G "NMake Makefiles JOM" -DTINY=off -DBUILD_active=off -DBUILD_mobile=off -DBUILD_kexi=off # with versions >= 2.7 cmake -DCMAKE_INSTALL_PREFIX=..\..\inst ..\..\src\calligra -DCMAKE_BUILD_TYPE=%EMERGE_BUILDTYPE% -G "NMake Makefiles JOM" -DBUILD_kexi=off Here we are telling cmake that: We want to install Calligra into ~/kde4/inst The source files are located at ~/kde4/src/calligra We are building to the same type (RelWithDebInfo / Debug) as used to build the Qt and KDE libraries, by reading the value of EMERGE_BUILDTYPE We are selectively disabling some portions of the build with the -DBUILD_xxxx=on|off commands. 'active' and 'mobile' are not applicable to the desktop build, while flow and kexi (at the time of writing) were still undergoing testing on the platform. Note You can selectively build applications by using the -DBUILD_application=off command to disable building of those you do not want. If you have a full cmake install, you can use the cmake-gui application to let you make changes to the configuration. Then, to build Calligra, type: jom Note jom is a multi-core port of nmake. By default it uses all of the cores on the machine, buy you can specify the number to use with the -j# parameter. e.g. jom -j2 would force it to use 2 processes This will take a while, once it has completed, type this command to install the software: jom install Please follow the Running Calligra Applications instructions before trying to run an application. Running Calligra applications There are two options to make the Calligra applications available for running. Option 1: Being able to run Calligra applications from the command line. If you have installed Calligra in a different prefix than KDElibs (which was recommended in this document), you may want to set the following environment variable: set KDEDIRS=\path\to\install;%KDEDIRS% set PATH=\path\to\install\bin;%PATH% set KDEHOME=\path\to\a\config\dir And then you need to execute: kbuildsycoca4 For example for the recommended directory structure: set KDEDIRS=%USERPROFILE%\kde4\inst;%KDEDIRS% set PATH=%USERPROFILE%\kde4\inst\bin;%PATH% set KDEHOME=%USERPROFILE%\kde4\.kde Here we are setting KDEHOME to be saved Option 2: Being able to run Calligra applications from the menu or by clicking on desktop icons. Instead of using KDEDIRS, you can add these lines to $HOME/.kde/share/config/kdeglobals file using text editor: [Directories] prefixes=%USERPROFILE%\kde4\inst And then you need to execute: update-mime-database %KDEROOT%\share\mime kbuildsycoca4 --noincremental The advantage of this is that KDE4 will always look for the services where Calligra is installed. Updating the already built software If the source code has been checked out, it is possible to update the source code with newly added changes and build again. Usually only changing parts will be built, so this operation would be faster than building the source code from scratch. Type: cd %USERPROFILE%\kde4\src\calligra git pull --rebase cd %USERPROFILE%\kde4\build\calligra jom jom install Executing unit tests To be able to execute unit tests, you need to explicitely enable them in the build configuration. To do so, set the KDE4_BUILD_TESTS variable to "ON", either by issuing the command in the build directory: cd $HOME/kde4/build/calligra cmake -DKDE4_BUILD_TESTS=ON . Or you can run cmake-gui in the buld directory and set KDE4_BUILD_TESTS to "on". It is then recommended that before running the tests, you first execute jom install You can then run the test by executing: jom test or individually in the tests directories. CMake Build Options When you enter your build directory, you can type "cmake-gui ." to see many build options, e.g. you can turn off compilation of apps you don't want - you can save time when compiling. Here is list for Krita related options: HAVE_MEMORY_LEAK_TRACKER [On/Off] - You can turn on compilation of the tool in krita which detects memory leak. If you want to help debug Krita memory usage, it is useful. Otherwise you just slow down your Krita. HAVE_BACKTRACE_SUPPORT [On/Off] - It is related to the memory leak tool. If you activate, you will be able to see code path which leads to memory leak. Resources Useful hints for who wants to hack on Calligra opengtl debugging, or turning it off Status of Calligra build on Windows (msvc 2008, mingw) Possible issues Calligra apps don't start If the Calligra applications do not start properly, or you see the window flash up then disappear, then you need to check the Running Calligra Applications section earlier and make sure you've run update-mime-database and kbuildsycoca4. You can get some additional insight by installing DebugView, which will let you see warnings and error messages reported by the programs. This is available on Microsoft Technet. The sources for the WIX-based installer for Calligra on Windows are at https://gitorious.org/calligra-installer-for-windows Retrieved from "https://community.kde.org/index.php?title=Calligra/Building_Calligra_on_Windows&oldid=36995" Content is available under Creative Commons License SA 4.0 unless otherwise noted.