Source installation#
Prerequisites#
-
OS
-
ROS
- ROS 2 Humble
For ROS 2 system dependencies, refer to REP-2000.
- Git
- Registering SSH keys to GitHub is preferable.
sudo apt-get -y update
sudo apt-get -y install git
Note: If you wish to use ROS 2 Galactic on Ubuntu 20.04, refer to installation instruction from galactic branch, but be aware that Galactic version of Autoware might not have the latest features.
How to set up a development environment#
-
Clone
autowarefoundation/autoware
and move to the directory.git clone https://github.com/autowarefoundation/autoware.git cd autoware
-
If you are installing Autoware for the first time, you can automatically install the dependencies by using the provided Ansible script.
./setup-dev-env.sh
If you encounter any build issues, please consult the Troubleshooting section for assistance.
Info
Before installing NVIDIA libraries, please ensure that you have reviewed and agreed to the licenses.
Note
The following items will be automatically installed. If the ansible script doesn't work or if you already have different versions of dependent libraries installed, please install the following items manually.
- Install Ansible
- Install Build Tools
- Install Dev Tools
- Install gdown
- Install geographiclib
- Install pacmod
- Install the RMW Implementation
- Install ROS 2
- Install ROS 2 Dev Tools
- Install Nvidia CUDA
- Install Nvidia cuDNN and TensorRT
- Install the Autoware RViz Theme (only affects Autoware RViz)
- Download the Artifacts (for perception inference)
How to set up a workspace#
If you prefer a graphical user interface (GUI) over the command line for launching and managing your simulations, refer to the Using Autoware Build GUI
section at the end of this document for a step-by-step guide.
-
Create the
src
directory and clone repositories into it.Autoware uses vcstool to construct workspaces.
cd autoware mkdir src vcs import src < autoware.repos
-
Install dependent ROS packages.
Autoware requires some ROS 2 packages in addition to the core components. The tool
rosdep
allows an automatic search and installation of such dependencies. You might need to runrosdep update
beforerosdep install
.source /opt/ros/humble/setup.bash # Make sure all previously installed ros-$ROS_DISTRO-* packages are upgraded to their latest version sudo apt update && sudo apt upgrade rosdep update rosdep install -y --from-paths src --ignore-src --rosdistro $ROS_DISTRO
-
Install and set up ccache to speed up consecutive builds. (optional but highly recommended)
-
Build the workspace.
Autoware uses colcon to build workspaces. For more advanced options, refer to the documentation.
colcon build --symlink-install --cmake-args -DCMAKE_BUILD_TYPE=Release
If there is any build issue, refer to Troubleshooting.
-
Follow the steps in Network Configuration before running Autoware.
-
Apply the settings recommended in Console settings for ROS 2 for a better development experience. (optional)
How to update a workspace#
-
Update the
.repos
file.cd autoware git pull <remote> <your branch>
<remote>
is usuallygit@github.com:autowarefoundation/autoware.git
-
Update the repositories.
vcs import src < autoware.repos vcs pull src
For Git users:
vcs import
is similar togit checkout
.- Note that it doesn't pull from the remote.
vcs pull
is similar togit pull
.- Note that it doesn't switch branches.
For more information, refer to the official documentation.
It might be the case that dependencies imported via
vcs import
have been moved/removed. VCStool does not currently handle those cases, so if builds fail aftervcs import
, cleaning and re-importing all dependencies may be necessary:rm -rf src/* vcs import src < autoware.repos
-
Install dependent ROS packages.
source /opt/ros/humble/setup.bash # Make sure all previously installed ros-$ROS_DISTRO-* packages are upgraded to their latest version sudo apt update && sudo apt upgrade rosdep update rosdep install -y --from-paths src --ignore-src --rosdistro $ROS_DISTRO
-
Build the workspace.
colcon build --symlink-install --cmake-args -DCMAKE_BUILD_TYPE=Release
Using Autoware Build GUI#
In addition to the traditional command-line methods of building Autoware packages, developers and users can leverage the Autoware Build GUI for a more streamlined and user-friendly experience. This GUI application simplifies the process of building and managing Autoware packages.
Integration with Autoware source installation#
When using the Autoware Build GUI in conjunction with the traditional source installation process:
- Initial Setup: Follow the standard Autoware source installation guide to set up your environment and workspace.
- Using the GUI: Once the initial setup is complete, you can use the Autoware Build GUI to manage subsequent builds and package updates.
This integration offers a more accessible approach to building and managing Autoware packages, catering to both new users and experienced developers.
Getting started with Autoware Build GUI#
- Installation: Ensure you have installed the Autoware Build GUI. Installation instructions.
- Launching the App: Once installed, launch the Autoware Build GUI.
- Setting Up: Set the path to your Autoware folder within the GUI.
-
Building Packages: Select the Autoware packages you wish to build and manage the build process through the GUI.
4.1. Build Configuration: Choose from a list of default build configurations, or select the packages you wish to build manually.
4.2. Build Options: Choose which build type you wish to use, with ability to specify additional build options.
-
Save and Load: Save your build configurations for future use, or load a previously saved configuration if you don't wish to build all packages or use one of the default configurations provided.
- Updating Workspace: Update your Autoware workspace's packages to the latest version using the GUI or adding Calibration tools to the workspace.