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On recent linux distributions, FreeCAD is generally easy to build, since all dependencies are usually provided by the package manager. It basically involves 3 steps:


 * 1) Getting the FreeCAD source code
 * 2) Getting the dependencies (packages FreeCAD depends upon)
 * 3) Compiling with "cmake . && make"

Below, you'll find detailed explanations of the whole process and particularities you might encounter. If you find anything wrong or out-of-date in the text below (Linux distributions change often), or if you use a distribution which is not listed, please help us correcting it.

Getting the source
Before you can compile FreeCAD, you need the source code. There are 3 ways to get it:

Git
The quickest and best way to get the code is to clone the read-only git repository (you need the git package installed): This will place a copy of the latest version of the FreeCAD source code in a new directory called "free-cad-code". The first time you try connecting to the free-cad.git.sourceforge.net host, you will receive a message asking to authenticate the sourceforge SSH key, which is normally safe to accept (you can check their SSH keys on the sourceforge website if you are not sure)

Github
There is an always up to date FreeCAD repository on Github: github.com/FreeCAD/FreeCAD_sf_master

Source package
Alternatively you can download a source package, but they could be already quite old so it's always better to get the latest sources via git or github. Depending on your distribution, there are several ways to obtain a source package:


 * Official FreeCAD source packages (distribution-independent): https://sourceforge.net/projects/free-cad/files/FreeCAD%20Source/
 * Debian: http://packages.debian.org/source/sid/freecad
 * Ubuntu: http://packages.ubuntu.com/source/precise/freecad

Getting the dependencies
To compile FreeCAD under Linux you have to install all libraries mentioned in Third Party Libraries first. On recent distributions, this is generally just a matter of installing a couple of packages:

Debian and Ubuntu
On Debian-based systems (Debian, Ubuntu, Mint, etc...) it is quite easy to get all needed dependencies installed. Most of the libraries are available via apt-get or synaptic package manager. Below are listed all packgages you need to install. Note that if you don't use the most recent version of your distribution, some of the packages below might be missing from your repositories. In that case, look in the Older and non-conventional distributions section below. Additional instruction for libcoin80-dev Debian wheezy-backports, unstable, testing, Ubuntu 13.10 and forward

Optionally you can also install these extra packages:

Fedora
You need the following packages: And optionally: Building FreeCAD with coin3 is still more hassle on Fedora, since only coin2 is provided in the official repos, but if you wish so anyway, you can avoid to rebuild all the coin3 / soqt / pivy suite by installing coin3-ready packages from http://www.zultron.com/rpm-repo/

Fedora 20
Install the "free" and "nonfree" Fedora repositories:

Now, install the required packages:

Create a symbolic link so that cmake will find the Coin/Inventor files:

Download the tarball for SoQt-1.5.0-10:

Compile SoQt:

Download, build and install pivy:

Skip to Compile FreeCAD

Gentoo
You need the following packages to build FreeCAD: Since latest opencascade is not available, you might want to compile opencascade too, hence the following additional libaries are needed:

OpenSUSE
You need the following packages: For FreeCAD 0.14 stable and 0.15 unstable you need to add Eigen3 and swig libraries, that don't seem to be in standard repos. You can get them with one-click install here: Also, note that Eigen3 Library from Factory Education was causing problems sometimes, so use the one from KDE 4.8 Extra repo

Older and non-conventional distributions
On other distributions, we have very few feedback from users, so it might be harder to find the required packages. Try first locating the required libraries mentioned in Third Party Libraries. Beware that some of them might have a slightly different package name in your distribution (such as name, libname, name-dev, name-devel, etc...).

You also need the GNU gcc compiler version equal or above 3.0.0. g++ is also needed because FreeCAD is completely written in C++. During the compilation some Python scripts get executed. So the Python interpreter has to work properly. To avoid any linker problems during the build process it is also a good idea to have the library paths either in your LD_LIBRARY_PATH variable or in your ld.so.conf file. This is normally already the case in recent distributions.

For more details have also a look to README.Linux in your sources.

Below is additional help for a couple of libraries that might not be present in your distribution repositories

Eigen 3
The Eigen3 library is now required by the Sketcher module. This library is only available starting from Ubuntu 11.10 repositories. For prior Ubuntu releases, you can either download it from here and install it manually, or add the FreeCAD Daily Builds PPA to your software sources before installing it through one of the means listed below.

OpenCASCADE community edition (OCE)
OpenCasCade has recently been forked into a Community edition, which is much, much easier to build. FreeCAD can use any version installed on your system, either the "official" edition or the community edition. The OCE website contains detailed build instructions.

OpenCASCADE official version
Note: You are advised to use the OpenCasCade community edition above, which is easier to build, but this one works too.

Not all Linux distributions have an official OpenCASCADE package in their repositories. You have to check yourself for your distribution if one is available. At least from Debian Lenny and Ubuntu Intrepid on an official .deb package is provided. For older Debian or Ubuntu releases you may get unofficial packages from here. To build your own private .deb packages follow these steps: Alternatively, you can download and compile the latest version from opencascade.org:

Install the package normally, be aware that the installer is a java program that requires the official java runtime edition from Sun (package name: sun-java6-jre), not the open-source java (gij) that is bundled with Ubuntu. Install it if needed: Be careful, if you use gij java with other things like a browser plugin, they won't work anymore. If the installer doesn't work, try: Once the package is installed, go into the "ros" directory inside the opencascade dir, and do Now you can build. Go back to the ros folder and do: It will take a long time, maybe several hours.

When it is done, just install by doing The library files will be copied into /usr/local/lib which is fine because there they will be found automatically by any program. Alternatively, you can also do which will do the same as make install but create an entry in your package management system so you can easily uninstall later. Now clean up the enormous temporary compilation files by doing Possible error 1: If you are using OCC version 6.2, it is likely that the compiler will stop right after the beginning of the "make" operation. If it happens, edit the "configure" script, locate the CXXFLAGS="$CXXFLAGS " statement, and replace it by CXXFLAGS="$CXXFLAGS -ffriend-injection -fpermissive". Then do the configure step again.

Possible error 2: Possibly several modules (WOKSH, WOKLibs, TKWOKTcl, TKViewerTest and TKDraw) will complain that they couldn't find the tcl/tk headers. In that case, since the option is not offered in the configure script, you will have to edit manually the makefile of each of those modules: Go into adm/make and into each of the bad modules folders. Edit the Makefile, and locate the lines CSF_TclLibs_INCLUDES = -I/usr/include and CSF_TclTkLibs_INCLUDES = -I/usr/include and add /tcl8.4 and /tk8.4 to it so they read: CSF_TclLibs_INCLUDES = -I/usr/include/tcl8.4 and CSF_TclTkLibs_INCLUDES = -I/usr/include/tk8.4

SoQt
The SoQt library must be compiled against Qt4, which is the case in most recent distributions. But at the time of writing this article there were only SoQt4 packages for Debian itself available but not for all Ubuntu versions. To get the packages built do the following steps: If you are on a 64bit system, you will probably need to change i386 by amd64.

Pivy
Pivy is not needed to build FreeCAD or to run it, but it is needed for the 2D Drafting module to work. If you are not going to use that module, you won't need pivy. At the time of writing, Pivy is very new and might not have made its way into your distribution repository. If you cannot find Pivy in your distribution's packages repository, you can grab debian/ubuntu packages on the FreeCAD download page:

http://sourceforge.net/projects/free-cad/files/FreeCAD%20Linux/

or compile pivy yourself:

Pivy compilation instructions

Using cMake
cMake is a newer build system which has the big advantage of being common for different target systems (Linux, Windows, MacOSX, etc). FreeCAD is now using the cMake system as its main building system. Compiling with cMake is usually very simple and happens in 2 steps. In the first step, cMake checks that every needed programs and libraries are present on your system and sets up all that's necessary for the subsequent compilation. You are given a few alternatives detailed below, but FreeCAD comes with sensible defaults. The second step is the compiling itself, which produces the FreeCAD executable.

Since FreeCAD is a heavy application, compiling can take a bit of time (about 10 minutes on a fast machine, 30 minutes on a slow one)

In-source building
FreeCAD can be built in-source, which means that all the files resulting from the compilation stay in the same folder as the source code. This is fine if you are just looking at FreeCAD, and want to be able to remove it easily by just deleting that folder. But in case you are planning to compile it often, you are advised to make an out-of-source build, which offers many more advantages. The following commands will compile freecad:

If you installed pivy from source, set the compiler flag to use the correct pivy (via FREECAD_USE_EXTERNAL_PIVY=1). Also, set the build type to debug. (NOTE: the "." and space after the cmake flags are CRITICAL!):

Your FreeCAD executable will then reside in the "bin" folder, and you can launch it with:

Out-of-source build
If you intend to follow the fast evolution of FreeCAD, building in a separate folder is much more convenient. Everytime you update the source code, cMake will then intelligently distinguish which files have changed, and recompile only what is needed. Out-of-source builds are specially handy when using the Git system, because you can easily try other branches without confusing the build system. To build out-of-source, simply create a build directory, distinct from your freecad source folder, and, from the build folder, point cMake to the source folder: The FreeCAD executable will then reside in the "bin" directory (within your freecad-build directory).

Configuration options
There are a number of experimental or unfinished modules you may have to build if you want to work on them. To do so, you need to set the proper options for the configuration phase. Do it either on the command line, passing -D : = options to cMake or using one of the availables gui-frontends (eg for Debian, packages cmake-qt-gui or cmake-curses-gui).

As an example, to configure on the command line with the Assembly module built, issue: Possible options are listed in FreeCAD's root CmakeLists.txt file.

Using autotools
Autotools is in the process of being deprecated in favor of cMake, but at the moment it is still available to build FreeCAD. You must have automake and libtool installed on your system; on Debian/Ubuntu: If you got the sources with git or subversion, then the very first step must be that creates the configure script and more. For the build process itself we provide a configure script. Just type To get everything configured. If you want an overview of all options you can specify, you can type Normally you need none of them - unless you have one of your libraries installed in a really uncommon directory. After configuration has finished, compiling FreeCAD is as simple as If any error occurs while building from sources, please double-check this page and README.Linux file, then you could jump to the Bug Tracker on SourceForge, choose Any for status and click the Browse button to see previous reports on compile problems. After having built FreeCAD successfully, do to install it onto your machine. The default install directory is It will be installed in a FreeCAD folder in your home folder, so you don't need root privileges. Instead of make install, you can also do In this way FreeCAD will be installed by your package management system, so you can uninstall it easily later. But since all of FreeCAD installation resides into one single directory, just removing the FreeCAD directory is a valid way to uninstall too.

Qt designer plugin
If you want to develop Qt stuff for FreeCAD, you'll need the Qt Designer plugin that provides all custom widgets of FreeCAD. Go to So far we don't provide a makefile -- but calling creates it. Once that's done, calling will create the library libFreeCAD_widgets.so. To make this library known to Qt Designer you have to copy the file to $QTDIR/plugin/designer

Doxygen
If you feel bold enough to dive in the code, you could take advantage to build and consult Doxygen generated FreeCAD's Source documentation

Making a debian package
If you plan to build a Debian package out of the sources you need to install those packages first: To build a package open a console, simply go to the FreeCAD directory and call Once the package is built, you can use lintian to check if the package contains errors lintian your-fresh-new-freecad-package.deb (replace by the name of the package you just created)

Note for 64bit systems
When building FreeCAD for 64-bit there is a known issue with the OpenCASCADE 64-bit package. To get FreeCAD running properly you might need to run the ./configure script with the additional define _OCC64 set: For Debian based systems this workaround is not needed when using the prebuilt package because there the OpenCASCADE package is built to set internally this define. Now you just need to compile FreeCAD the same way as described above.

Automake macros
The configure script of FreeCAD makes use of several automake macros that are sometimes not installed with their packages: bnv_have_qt.m4, coin.m4, and soqt.m4. If needed (error while configuring), google for them and you will find them easily. They are just simple scripts that you need to put in your /usr/share/aclocal folder.

Fedora 13
To build & install FreeCAD on Fedora 13, a few tips and tricks are needed:
 * Install a bunch of required packages, most are available from the Fedora 13 repositories
 * Download and build xerces
 * Download and build OpenCascade. Need to point it to xmu: ./configure --with-xmu-include=/usr/include/X11/Xmu --with-xmu-library=/usr/lib
 * Download and build Pivy. You have to remove 2 references to non existent "SoQtSpaceball.h" from pivy/interfaces/soqt.i Commenting out those two lines allow the build & install to work.
 * Configure Freecad. You will need to point it to a few things: ./configure --with-qt4-include=/usr/include --with-qt4-bin=/usr/lib/qt4/bin --with-occ-lib=/usr/local/lib --with-occ-include=/usr/local/inc --with-xercesc-lib=/usr/local/lib
 * make - hits a problem where the build is breaking because the ldflags for soqt are set to "-LNONE" which made libtool barf. My hackish workaround was to modify /usr/lib/Coin2/conf/soqt-default.cfg so that the ldflags are "" instead of "-LNONE". After this -> success !
 * make install

Ubuntu Lucid
In Ubuntu Lucid, you don't need the qtwebkit-dev, since it is included into qt4-dev.

Automatic build scripts
Here is all what you need for a complete build of FreeCAD. It's a one-script-approach and works on a fresh installed distro. The commands will ask for root password (for installation of packages) and sometime to acknowledge a fingerprint for an external repository server or https-subversion repository. This scripts should run on 32 and 64 bit versions. They are written for distinct version, but are also likely to run on a later version with or without minor changes.

If you have such a script for your preferred distro, please send it! We will incorporate it into this article.

Note that this script starts by adding the FreeCAD Daily Builds PPA repository so it can proceed with the Eigen3 library (libeigen3-dev) installation. If you already have this library installed on your system, you can remove the first line.

OpenSUSE 12.2
No external Repositories are needed to compile FreeCAD 0.13 with this release. However, there is an imcompatability with python3-devel which needs to be removed. FreeCAD can be compiled from GIT similar to in OpenSUSE 12.2 Since you are using git, next time you wish to compile you do not have to clone everything, just pull from git and compile once more

OpenSUSE 12.1
For FreeCAD 0.13 unstable you need to add Eigen3 and swig libraries, that don't seem to be in standard repos. You can get them with one-click install here:

Eigen3: http://software.opensuse.org/search?q=eigen3&baseproject=openSUSE%3A12.1&lang=en&exclude_debug=true

swig: http://software.opensuse.org/search?q=swig&baseproject=openSUSE%3A12.1&lang=en&exclude_debug=true Since you are using git, next time you wish to compile you do not have to clone everything, just pull from git and compile once more

OpenSuse 11.2
This script is not working at the moment because:
 * libXerces-c-devel seams to be disappeared ....

Updating the source code
FreeCAD development happens fast, everyday or so there are bug fixes or new features. The cmake systems allows you to intelligently update the source code, and only recompile what has changed, making subsequent compilations very fast. Updating the source code with git or subversion is very easy: Move into the appropriate build directory and run cmake again (as cmake updates the version number data for the Help menu, ...about FreeCAD), however you do not need to add the path to source code after "cmake", just a space and a dot: