ROS-Industrial Fanuc meta-package. See the ROS wiki page for more information.
The fanuc_experimental repository contains additional packages.
Branch naming follows the ROS distribution they are compatible with. -devel
branches may be unstable. Releases are made from the distribution branches (hydro
, indigo
, kinetic
).
Older releases may be found in the Github mirror of the old ROS-Industrial subversion repository.
All provided MoveIt configurations were moved to the moveit_cfgs subdirectory in #322. These packages can be used as-if they were still located in the root of the repository. Catkin will still be able to locate them.
The packages in this repository are community supported.
This means they do not get support from the OEM, nor from the ROS-Industrial consortia directly (see also the support level
badge at the top of this page).
Maintenance and development is on a best-effort basis and depends on volunteers.
If you are looking for official support, ask your local Fanuc branch office for their version of the ROS 1 fanuc driver.
Binary packages are available for ROS Kinetic, but not all packages have been released.
For installation on newer ROS versions, refer to the Building section below.
The following packages have been released (as of 2019-10-09):
fanuc_driver
fanuc_resources
fanuc_*_support
)They can be installed using apt
(on Ubuntu and Debian).
The other packages (MoveIt configurations and plugins) can be built from sources (see the Building section below).
To install fanuc_m10ia_support
on Ubuntu Xenial for ROS Kinetic (after having followed the normal ROS Kinetic installation tutorial):
sudo apt install ros-kinetic-fanuc-m10ia-support
This would install ros-kinetic-fanuc-resources
and ros-kinetic-fanuc-driver
as well (and all their dependencies).
Building the packages on newer (or older) versions of ROS is in most cases possible and supported. For example: building the packages in this repository on Ubuntu Bionic/ROS Melodic or Ubuntu Focal/ROS Noetic systems is supported. This will require creating a Catkin workspace, cloning this repository, installing all required dependencies and finally building the workspace.
It is recommended to use catkin_tools instead of the default catkin when building ROS workspaces. catkin_tools
provides a number of benefits over regular catkin_make
and will be used in the instructions below. All packages can be built using catkin_make
however: use catkin_make
in place of catkin build
where appropriate.
The following instructions assume that a Catkin workspace has been created at $HOME/catkin_ws
and that the source space is at $HOME/catkin_ws/src
. Update paths appropriately if they are different on the build machine.
These instructions build the melodic-devel
branch on a ROS Melodic system:
# change to the root of the Catkin workspace
$ cd $HOME/catkin_ws
# retrieve the latest development version of fanuc. If you'd rather
# use the latest released version, replace 'melodic-devel' with 'kinetic'
# NOTE: 'melodic-devel' is compatible with ROS Noetic. 'kinetic' may not be
$ git clone -b melodic-devel https://github.com/ros-industrial/fanuc.git src/fanuc
# check build dependencies. Note: this may install additional packages,
# depending on the software installed on the machine
$ rosdep update
# be sure to change 'melodic' to whichever ROS release you are using
$ rosdep install --from-paths src/ --ignore-src --rosdistro melodic
# build the workspace (using catkin_tools)
$ catkin build
Finally, activate the workspace to get access to the packages just built:
$ source $HOME/catkin_ws/devel/setup.bash
At this point all packages should be usable (ie: roslaunch
should be able to auto-complete package names starting with fanuc_..
). In case the workspace contains additional packages (ie: not from this repository), those should also still be available.
Refer to Working With ROS-Industrial Robot Support Packages for information on how to use the files provided by the robot support and MoveIt configuration packages. See also the other pages on the ROS wiki.
Refer to the tutorials for information on installation and configuration of the controller-specific software components.
The author of these packages is not affiliated with FANUC Corporation in any way. All trademarks and registered trademarks are property of their respective owners, and company, product and service names mentioned in this readme or appearing in source code or other artefacts in this repository are used for identification purposes only. Use of these names does not imply endorsement by FANUC Corporation.