You're reading the documentation for an older, but still supported, version of ROS 2. For information on the latest version, please have a look at Jazzy.
Using colcon
to build packages
Goal: Build a ROS 2 workspace with colcon
.
Tutorial level: Beginner
Time: 20 minutes
This is a brief tutorial on how to create and build a ROS 2 workspace with colcon
.
It is a practical tutorial and not designed to replace the core documentation.
Background
colcon
is an iteration on the ROS build tools catkin_make
, catkin_make_isolated
, catkin_tools
and ament_tools
.
For more information on the design of colcon see this document.
The source code can be found in the colcon GitHub organization.
Prerequisites
Install colcon
sudo apt install python3-colcon-common-extensions
python3 -m pip install colcon-common-extensions
pip install -U colcon-common-extensions
Install ROS 2
To build the samples, you will need to install ROS 2.
Follow the installation instructions.
Attention
If installing from deb packages, this tutorial requires the desktop installation.
Basics
A ROS workspace is a directory with a particular structure.
Commonly there is a src
subdirectory.
Inside that subdirectory is where the source code of ROS packages will be located.
Typically the directory starts otherwise empty.
colcon does out of source builds.
By default it will create the following directories as peers of the src
directory:
The
build
directory will be where intermediate files are stored. For each package a subfolder will be created in which e.g. CMake is being invoked.The
install
directory is where each package will be installed to. By default each package will be installed into a separate subdirectory.The
log
directory contains various logging information about each colcon invocation.
Note
Compared to catkin there is no devel
directory.
Create a workspace
First, create a directory (ros2_ws
) to contain our workspace:
mkdir -p ~/ros2_ws/src
cd ~/ros2_ws
mkdir -p ~/ros2_ws/src
cd ~/ros2_ws
md \dev\ros2_ws\src
cd \dev\ros2_ws
At this point the workspace contains a single empty directory src
:
.
└── src
1 directory, 0 files
Add some sources
Let’s clone the examples repository into the src
directory of the workspace:
git clone https://github.com/ros2/examples src/examples -b humble
Now the workspace should have the source code to the ROS 2 examples:
.
└── src
└── examples
├── CONTRIBUTING.md
├── LICENSE
├── rclcpp
├── rclpy
└── README.md
4 directories, 3 files
Source an underlay
It is important that we have sourced the environment for an existing ROS 2 installation that will provide our workspace with the necessary build dependencies for the example packages. This is achieved by sourcing the setup script provided by a binary installation or a source installation, ie. another colcon workspace (see Installation). We call this environment an underlay.
Our workspace, ros2_ws
, will be an overlay on top of the existing ROS 2 installation.
In general, it is recommended to use an overlay when you plan to iterate on a small number of packages, rather than putting all of your packages into the same workspace.
Build the workspace
Attention
To build packages on Windows you need to be in a Visual Studio environment, see Building the ROS 2 Code for more details.
In the root of the workspace, run colcon build
.
Since build types such as ament_cmake
do not support the concept of the devel
space and require the package to be installed, colcon supports the option --symlink-install
.
This allows the installed files to be changed by changing the files in the source
space (e.g. Python files or other non-compiled resources) for faster iteration.
colcon build --symlink-install
colcon build --symlink-install
colcon build --symlink-install --merge-install
Windows doesn’t allow long paths, so merge-install
will combine all the paths into the install
directory.
After the build is finished, we should see the build
, install
, and log
directories:
.
├── build
├── install
├── log
└── src
4 directories, 0 files
Run tests
To run tests for the packages we just built, run the following:
colcon test
colcon test
Remember to use a x64 Native Tools Command Prompt for VS 2019
for executing the following command, as we are going to build a workspace.
colcon test --merge-install
You also need to specify --merge-install
here since we used it for building above.
Source the environment
When colcon has completed building successfully, the output will be in the install
directory.
Before you can use any of the installed executables or libraries, you will need to add them to your path and library paths.
colcon will have generated bash/bat files in the install
directory to help set up the environment.
These files will add all of the required elements to your path and library paths as well as provide any bash or shell commands exported by packages.
source install/setup.bash
. install/setup.bash
call install\setup.bat
Or with Powershell:
install\setup.ps1
Try a demo
With the environment sourced, we can run executables built by colcon. Let’s run a subscriber node from the examples:
ros2 run examples_rclcpp_minimal_subscriber subscriber_member_function
In another terminal, let’s run a publisher node (don’t forget to source the setup script):
ros2 run examples_rclcpp_minimal_publisher publisher_member_function
You should see messages from the publisher and subscriber with numbers incrementing.
Create your own package
colcon uses the package.xml
specification defined in REP 149 (format 2 is also supported).
colcon supports multiple build types.
The recommended build types are ament_cmake
and ament_python
.
Also supported are pure cmake
packages.
An example of an ament_python
build is the ament_index_python package , where the setup.py is the primary entry point for building.
A package such as demo_nodes_cpp uses the ament_cmake
build type, and uses CMake as the build tool.
For convenience, you can use the tool ros2 pkg create
to create a new package based on a template.
Note
For catkin
users, this is the equivalent of catkin_create_package
.
Setup colcon_cd
The command colcon_cd
allows you to quickly change the current working directory of your shell to the directory of a package.
As an example colcon_cd some_ros_package
would quickly bring you to the directory ~/ros2_ws/src/some_ros_package
.
echo "source /usr/share/colcon_cd/function/colcon_cd.sh" >> ~/.bashrc
echo "export _colcon_cd_root=/opt/ros/humble/" >> ~/.bashrc
echo "source /usr/local/share/colcon_cd/function/colcon_cd.sh" >> ~/.bashrc
echo "export _colcon_cd_root=~/ros2_install" >> ~/.bashrc
Not yet available
Depending on the way you installed colcon_cd
and where your workspace is, the instructions above may vary, please refer to the documentation for more details.
To undo this in Linux and macOS, locate your system’s shell startup script and remove the appended source and export commands.
Setup colcon
tab completion
The colcon
command supports command completion for bash and bash-like shells.
The colcon-argcomplete
package must be installed, and some setup may be required to make it work.
Tips
If you do not want to build a specific package place an empty file named
COLCON_IGNORE
in the directory and it will not be indexed.If you want to avoid configuring and building tests in CMake packages you can pass:
--cmake-args -DBUILD_TESTING=0
.If you want to run a single particular test from a package:
colcon test --packages-select YOUR_PKG_NAME --ctest-args -R YOUR_TEST_IN_PKG
Setup colcon
mixins
Various command line options are tedious to write and/or difficult to remember.
For example, to change the CMake build type to debug, you normally use:
colcon build --cmake-args -DCMAKE_BUILD_TYPE=Debug
To make common command line options easier to invoke this repository makes these “shortcuts” available.
To install the default colcon mixins, run the following:
colcon mixin add default https://raw.githubusercontent.com/colcon/colcon-mixin-repository/master/index.yaml
colcon mixin update default
Then, try out using the debug
mixin:
colcon build --mixin debug
For more details, see the colcon mixin repository.