Difference between revisions of "CMake"
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== Using CMake to build Inkscape == | == Using CMake to build Inkscape == | ||
Experience with Scribus '''strongly''' suggests using an "out of source"build arrangement. E.g. | Experience with Scribus '''strongly''' suggests using an "out of source" build arrangement. E.g. | ||
mkdir build | |||
cd build | |||
mkdir | cmake /path/to/inkscape | ||
cd | make | ||
cmake /path/to/inkscape | make install <span style="color:gray"># only if you want to install the distribution</span> | ||
make | <code>/path/to/inkscape</code> is the root directory of your Inkscape checkout (or the folder to where you extracted the source when working with an official source tarball). | ||
</ | |||
/path/to/inkscape is the folder where you | |||
References: | References: | ||
[http://docs.scribus.net/index.php?lang=en&page=install4 Installing Scribus with Cmake] <br /> | [http://docs.scribus.net/index.php?lang=en&page=install4 Installing Scribus with Cmake] <br /> | ||
[http://docs.scribus.net/index.php?lang=en&page=install5 Installing with CMake on OSX] | [http://docs.scribus.net/index.php?lang=en&page=install5 Installing with CMake on OSX] | ||
=== Using CMake with Ninja to build Inkscape === | |||
Another option for building with CMake is to use it in combination with [https://ninja-build.org/ Ninja] which is a small build system with a focus on speed and replaces GNU Make. | |||
Usage of Ninja will significantly speed up incremental rebuilds (i.e. if only few code files need to be re-compiled) as the build systems overhead is greatly reduced and scanning dependencies is almost instantaneous. | |||
After following the instructions on the website to get Ninja the procedure is almost identical (only changes necessary highlighted in red): | |||
mkdir build | |||
cd build | |||
cmake /path/to/inkscape <span style="color:red">-G Ninja</span> | |||
<span style="color:red">ninja</span> | |||
<span style="color:red">ninja</span> install <span style="color:gray"># only if you want to install the distribution</span> | |||
== Using CMake to run tests == | == Using CMake to run tests == | ||
Revision as of 20:32, 14 February 2017
CMake will replace Autotools as our build system for Inkscape 0.92 onwards!
Cmake is a cross-platform build system know to work on all major platforms we support (*nix, Windows, OSX).
CMake is an extensible, open-source system that has many powerful features. Those features include:
- Supports complex, large build environments. CMake has been proven in several large projects (KDE, ParaView, SecondLife, Scribus)
- Generates native build files (e.g., makefiles on Unix; workspaces/projects on MS Visual C++). Therefore, standard tools can be used on any platform/compiler configuration.
- Powerful system introspection abilities including the ability to find installed include files, libraries and executables. Also the ability to test the compiler for supported features.
- Integrated testing system called CTest.
- Integrated packaging system called CPack.
- Easy integration with CDash and Dart dashboard servers.
- Powerful scripting language with simple syntax.
- Supports in-place and out-of-place builds. Multiple compilation trees are possible from a single source tree.
- Can be easily extended to add new features.
- CMake is open source, under a liberal BSD license.
- CMake operates with a cache designed to be interfaced with a graphical editor. The cache provides optional interaction to conditionally control the build process.
- Ability to create Mac OSX Frameworks and Application Bundles.
- Supports adding complex custom rules to the build.
How you can help
We have completed the building of the CMakeLists.txt for almost everything needed. We are now working on get the build to compile properly. See below Testing/Using to help.
There is a separate CMake Tasks page with things that are left to do w.r.t. cmake building of Inkscape.
SIMPLE CmakeLists.txt
SET(libavoid_SRC connector.cpp geometry.cpp graph.cpp makepath.cpp polyutil.cpp region.cpp router.cpp shape.cpp static.cpp timer.cpp vertices.cpp visibility.cpp )
SIMPLE with single sub-directory Cmakelists.txt
SET(libavoid_SRC
connector.cpp
geometry.cpp
graph.cpp
makepath.cpp
polyutil.cpp
region.cpp
router.cpp
shape.cpp
static.cpp
timer.cpp
vertices.cpp
visibility.cpp
#Add our subdirectory sourcelist Var
${libavoid_parameter_SRC}
)
# this adds a single sub-directory
ADD_SUBDIRECTORY(parameter)
Using CMake to build Inkscape
Experience with Scribus strongly suggests using an "out of source" build arrangement. E.g.
mkdir build
cd build
cmake /path/to/inkscape
make
make install # only if you want to install the distribution
/path/to/inkscape is the root directory of your Inkscape checkout (or the folder to where you extracted the source when working with an official source tarball).
References:
Installing Scribus with Cmake
Installing with CMake on OSX
Using CMake with Ninja to build Inkscape
Another option for building with CMake is to use it in combination with Ninja which is a small build system with a focus on speed and replaces GNU Make.
Usage of Ninja will significantly speed up incremental rebuilds (i.e. if only few code files need to be re-compiled) as the build systems overhead is greatly reduced and scanning dependencies is almost instantaneous.
After following the instructions on the website to get Ninja the procedure is almost identical (only changes necessary highlighted in red):
mkdir build cd build cmake /path/to/inkscape -G Ninja ninja ninja install # only if you want to install the distribution
Using CMake to run tests
First, install Google Test framework by running download-gtest.sh in the main directory of inkscape source:
cd /path/to/inkscape bash download-gtest.sh
Then, toggle the CMake config var "WITH_GTEST" to ON, e.g. by editing CMakeCache.txt, or by passing "-DWITH_GTEST=ON" to cmake. Don't forget to re-run cmake after the configuration change:
cd /path/to/buildinkscape # modify CMakeCache.txt cmake ../inkscape
Finally, run "make check" from same directory to run the tests:
make check
Configuring your build further
It is possible to change some more options of the build, e.g. whether to compile against GTK2 or GTK3 libraries. If you fiddle a lot with this, you may want to install the interactive cmake configuration tool "ccmake", like so:
sudo apt-get install cmake-curses-gui ccmake ../inkscape # In buildinkscape folder
The ccmake utility will have features to re-run cmake for you before exiting.
For example you can use CMAKE_INSTALL_PREFIX Path in which "make install" installs Inkscape and allow handle multiple Inkscape instalations.
Press enter on the line to edit.
Press again to save, when all your changes are done press c to configure, exit help and press g to generate.
After this you exit ccmake and can finish with make.
adding options to cmake
you can specify some variable on cmake invokation. i.e.
cmake .. -G "MinGW Makefiles" -DCMAKE_BUILD_TYPE=Debug
Useful CMake configuration variables include
- CMAKE_BUILD_TYPE: Either Release or Debug (a string).
- WITH_GTK3_EXPERIMENTAL: ON/OFF. Toggle between GTK2 or GTK3 ui toolkit.
- CMAKE_INSTALL_PREFIX: Path in which "make install" installs Inkscape.