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Creating a launch file
Goal: Create a launch file to run a complex ROS 2 system.
Tutorial level: Intermediate
Time: 10 minutes
Contents
Prerequisites
This tutorial uses the rqt_graph and turtlesim packages.
You will also need to use a text editor of your preference.
As always, don’t forget to source ROS 2 in every new terminal you open.
Background
The launch system in ROS 2 is responsible for helping the user describe the configuration of their system and then execute it as described. The configuration of the system includes what programs to run, where to run them, what arguments to pass them, and ROS-specific conventions which make it easy to reuse components throughout the system by giving them each a different configuration. It is also responsible for monitoring the state of the processes launched, and reporting and/or reacting to changes in the state of those processes.
Launch files written in Python, XML, or YAML can start and stop different nodes as well as trigger and act on various events.
See Using Python, XML, and YAML for ROS 2 Launch Files for a description of the different formats.
The package providing this framework is launch_ros
, which uses the non-ROS-specific launch
framework underneath.
The design document details the goal of the design of ROS 2’s launch system (not all functionality is currently available).
Tasks
2 Write the launch file
Let’s put together a ROS 2 launch file using the turtlesim
package and its executables.
As mentioned above, this can either be in Python, XML, or YAML.
Copy and paste the complete code into the launch/turtlesim_mimic_launch.py
file:
from launch import LaunchDescription
from launch_ros.actions import Node
def generate_launch_description():
return LaunchDescription([
Node(
package='turtlesim',
namespace='turtlesim1',
executable='turtlesim_node',
name='sim'
),
Node(
package='turtlesim',
namespace='turtlesim2',
executable='turtlesim_node',
name='sim'
),
Node(
package='turtlesim',
executable='mimic',
name='mimic',
remappings=[
('/input/pose', '/turtlesim1/turtle1/pose'),
('/output/cmd_vel', '/turtlesim2/turtle1/cmd_vel'),
]
)
])
Copy and paste the complete code into the launch/turtlesim_mimic_launch.xml
file:
<launch>
<node pkg="turtlesim" exec="turtlesim_node" name="sim" namespace="turtlesim1"/>
<node pkg="turtlesim" exec="turtlesim_node" name="sim" namespace="turtlesim2"/>
<node pkg="turtlesim" exec="mimic" name="mimic">
<remap from="/input/pose" to="/turtlesim1/turtle1/pose"/>
<remap from="/output/cmd_vel" to="/turtlesim2/turtle1/cmd_vel"/>
</node>
</launch>
Copy and paste the complete code into the launch/turtlesim_mimic_launch.yaml
file:
launch:
- node:
pkg: "turtlesim"
exec: "turtlesim_node"
name: "sim"
namespace: "turtlesim1"
- node:
pkg: "turtlesim"
exec: "turtlesim_node"
name: "sim"
namespace: "turtlesim2"
- node:
pkg: "turtlesim"
exec: "mimic"
name: "mimic"
remap:
-
from: "/input/pose"
to: "/turtlesim1/turtle1/pose"
-
from: "/output/cmd_vel"
to: "/turtlesim2/turtle1/cmd_vel"
2.1 Examine the launch file
All of the launch files above are launching a system of three nodes, all from the turtlesim
package.
The goal of the system is to launch two turtlesim windows, and have one turtle mimic the movements of the other.
When launching the two turtlesim nodes, the only difference between them is their namespace values. Unique namespaces allow the system to start two nodes without node name or topic name conflicts. Both turtles in this system receive commands over the same topic and publish their pose over the same topic. With unique namespaces, messages meant for different turtles can be distinguished.
The final node is also from the turtlesim
package, but a different executable: mimic
.
This node has added configuration details in the form of remappings.
mimic
’s /input/pose
topic is remapped to /turtlesim1/turtle1/pose
and it’s /output/cmd_vel
topic to /turtlesim2/turtle1/cmd_vel
.
This means mimic
will subscribe to /turtlesim1/sim
’s pose topic and republish it for /turtlesim2/sim
’s velocity command topic to subscribe to.
In other words, turtlesim2
will mimic turtlesim1
’s movements.
These import statements pull in some Python launch
modules.
from launch import LaunchDescription
from launch_ros.actions import Node
Next, the launch description itself begins:
def generate_launch_description():
return LaunchDescription([
])
The first two actions in the launch description launch the two turtlesim windows:
Node(
package='turtlesim',
namespace='turtlesim1',
executable='turtlesim_node',
name='sim'
),
Node(
package='turtlesim',
namespace='turtlesim2',
executable='turtlesim_node',
name='sim'
),
The final action launches the mimic node with the remaps:
Node(
package='turtlesim',
executable='mimic',
name='mimic',
remappings=[
('/input/pose', '/turtlesim1/turtle1/pose'),
('/output/cmd_vel', '/turtlesim2/turtle1/cmd_vel'),
]
)
The first two actions launch the two turtlesim windows:
<node pkg="turtlesim" exec="turtlesim_node" name="sim" namespace="turtlesim1"/>
<node pkg="turtlesim" exec="turtlesim_node" name="sim" namespace="turtlesim2"/>
The final action launches the mimic node with the remaps:
<node pkg="turtlesim" exec="mimic" name="mimic">
<remap from="/input/pose" to="/turtlesim1/turtle1/pose"/>
<remap from="/output/cmd_vel" to="/turtlesim2/turtle1/cmd_vel"/>
</node>
The first two actions launch the two turtlesim windows:
- node:
pkg: "turtlesim"
exec: "turtlesim_node"
name: "sim"
namespace: "turtlesim1"
- node:
pkg: "turtlesim"
exec: "turtlesim_node"
name: "sim"
namespace: "turtlesim2"
The final action launches the mimic node with the remaps:
- node:
pkg: "turtlesim"
exec: "mimic"
name: "mimic"
remap:
-
from: "/input/pose"
to: "/turtlesim1/turtle1/pose"
-
from: "/output/cmd_vel"
to: "/turtlesim2/turtle1/cmd_vel"
3 ros2 launch
To run the launch file created above, enter into the directory you created earlier and run the following command:
cd launch
ros2 launch turtlesim_mimic_launch.py
cd launch
ros2 launch turtlesim_mimic_launch.xml
cd launch
ros2 launch turtlesim_mimic_launch.yaml
Nota
It is possible to launch a launch file directly (as we do above), or provided by a package. When it is provided by a package, the syntax is:
ros2 launch <package_name> <launch_file_name>
You learned about creating packages in Creating a package.
Nota
For packages with launch files, it is a good idea to add an exec_depend
dependency on the ros2launch
package in your package’s package.xml
:
<exec_depend>ros2launch</exec_depend>
This helps make sure that the ros2 launch
command is available after building your package.
It also ensures that all launch file formats are recognized.
Two turtlesim windows will open, and you will see the following [INFO]
messages telling you which nodes your launch file has started:
[INFO] [launch]: Default logging verbosity is set to INFO
[INFO] [turtlesim_node-1]: process started with pid [11714]
[INFO] [turtlesim_node-2]: process started with pid [11715]
[INFO] [mimic-3]: process started with pid [11716]
To see the system in action, open a new terminal and run the ros2 topic pub
command on the /turtlesim1/turtle1/cmd_vel
topic to get the first turtle moving:
ros2 topic pub -r 1 /turtlesim1/turtle1/cmd_vel geometry_msgs/msg/Twist "{linear: {x: 2.0, y: 0.0, z: 0.0}, angular: {x: 0.0, y: 0.0, z: -1.8}}"
You will see both turtles following the same path.
4 Introspect the system with rqt_graph
While the system is still running, open a new terminal and run rqt_graph
to get a better idea of the relationship between the nodes in your launch file.
Run the command:
rqt_graph
A hidden node (the ros2 topic pub
command you ran) is publishing data to the /turtlesim1/turtle1/cmd_vel
topic on the left, which the /turtlesim1/sim
node is subscribed to.
The rest of the graph shows what was described earlier: mimic
is subscribed to /turtlesim1/sim
’s pose topic, and publishes to /turtlesim2/sim
’s velocity command topic.