I'm trying to implement CI with Github Actions to a repository. In the workflow, I would like to run a test script using pytest. However, the test script and the script it is testing had a rospy dependency, although the dependency is not vital to the test, where it is publishing the result of certain calculation (node.Publisher is mocked using pytest).
I'm still new to ROS and I am a bit confused about what I need to install. Do I need to install the whole ROS library for the test or do I only need to install rospy? What is the best way to install the package and add it to the path in Github Actions?
I tried sudo apt-get install -y python-rospy, but the package is not detected by python with ImportError: No module named rospy.
I am running the test in Ubuntu 18.04.
Thank you in advance
Related
I have made a ROS workspace and inside a package.
I did catkin_make and everything is working well.
I would like to give this package (or should I give the entire workspace?) to another person.
I am thinking to give him a zip file of the files and folders (it contains launch files, python scripts, rviz files etc) so I am expecting he will unzip it in his machine
I would like he can run the launch files without problems
What is what he needs to do for this? (of course he will have ROS installed, that is no problem)
I am thinking perhaps he should do source devel/setup.bash but is this enough?
When sharing a workspace with somebody only the source space src has to be shared. It should contain all our packages with their launch files (*.launch), Python (*.py) and C++ nodes (*.cpp, *.hpp), YAML configuration files (*.yaml), RViz configurations (*.rviz), robot descriptions (*.urdf, *.xacro) and describe how each node should be compiled in a CMakeLists.txt. Additionally you are supposed to keep track of all the Debian packages you install inside the package.xml file of each package.
If for some obscure reason there are things that I have to do that can't be accommodated in the standard installation instructions given above, I will actually write a bash script that performs these steps for me and add it either to the package itself or the workspace. This way I can automate also more complex steps such as installing OpenCV or modifying the .bashrc. Here a small example of what such a minimal script (I generally name them install_dependencies.sh) might look like:
#!/bin/bash
# Get current workspace
WS_DIR="$(dirname "$(dirname "$(readlink -fm "$0")")")"
# Check if script is run as root '$ sudo ...'
if ["$EUID" -ne 0]
then
echo "Error: This script has to be run as root '$ sudo ./install_dependencies.sh'
exit 1
fi
echo "Installing dependencies..."
# Modify .bashrc
echo "- Modifying '~/.bashrc'..."
echo "source ${WS_DIR}/devel/setup.bash" >> ~/.bashrc
echo ""
echo "Dependencies installed."
If for some reason even that is not possible I make always sure to document it properly either in a Markdown *.md read-me either in a /doc folder inside your package, in the read-me.md inside the base folder of your repository or inside the root folder of your workspace.
The receiver then only has to
Create a new workspace
Copy or clone the package files to its src folder
Install all the Debian package dependencies listed in the package.xml files with $ rosdep install
(If any: Execute the bash scripts I created by hand $ sudo ./install_dependencies.sh or perform the steps given in the documentation)
Build the workspace with $ catkin_make or $ catkin build from catkin-tools
Source the current environment variables with $ source devel/setup.bash
Make sure that the Python nodes are executable either by $ chmod +x <filename> or right-clicking the corresponding Python nodes (located in src or scripts of your package), selecting Properties/Permissions and enabling Allow executing file as program.
Run the desired Python or C++ nodes ($ rosrun <package_name> <executable_name>) and launch files ($ roslaunch <package_name> <launch_file_name>)
It is up to you to share the code as a compressed file, in form of a Git repository or a more advanced way (see below) but I will introduce some best practices in the following paragraphs that will pay off in the long run with larger packages.
Sharing a package or sharing a workspace?
One can either share a single package or an entire workspace. I personally think that most of the time one should share the entire workspace instead of the package alone even if you only cloned the other packages from a public Github repo. This might save the receiver a lot of headache e.g. when checking out the wrong branch.
Version control with Git
Arguably the best way to arrange your packages is by using Git. I'd actually make a repository for every package you create (if a couple of packages are virtually inseparable you can also bundled them to a single Git repo or better use metapackages). Then create an additional repository for your workspace and include your own packages and packages from other sources as submodules. This allows your code to be modular and re-usable: You can share only a package or the entire workspace!
As a first step I always add a .gitignore file to each package repository which excludes *.pyc files and another one to the workspace repository that ignores the build, devel and install folders.
You can add a particular repository as submodule to your workspace Git repository by opening a console inside the src folder of your workspace repository and typing
$ git submodule add -b <branch_name> <git_url_to_package> <optional_directory_rename>
Note that you can actually track a particular branch of a repository that you include as a submodule. In case you need a submodule at some point follow this guide.
If you share the workspace repository with someone they will have to have access to each individual submodule repository and they will have to not only pull the repository but also update the submodules with
$ git clone --recurse-submodules <git_url_to_workspace_repository>
and potentially update them to the latest commit with
$ git submodule update --remote
After these two steps they should have a full version of the repository with submodules and they should be able to progress with the steps listed in the section above.
1.1 Unit-testing and continuous integration
Before sharing a repository you will have to verify that everything is working correctly. This can take a decent amount of time, in particular if the code base is large and you are modifying it frequently. In the ideal case you would have to install it on a brand new machine or inside a virtual box in order to make sure that the set-up works which would take quite some time. This is where unit testing comes into play: For every class and function you program you will write a test. This way you can simply run these tests and make sure everything is working correctly. Generally these unit tests will be performed automatically and the working branches merged continuously. Generally the test routines are written with the libraries Boost::Test (C++), GoogleTest (generally used in ROS with C++), unittest (for Python) and QtTest (for GUIs). For ROS launch files there is additionally rostest. How this can be done in ROS is described here and here.
ROSjects
If you do not even want the person you are sending the code to to go through the hassle to set it up you might consider sending them a ROSject. A ROSject is an online virtual ROS environment (by the guys behind The Construct, the main source of ROS courses and of ROS tutorials on Youtube) that can be created and shared very easily from your existing Git repository as can be seen here. The simulation runs entirely in the cloud on a virtual machine. This way the potential of failure is very low but it is not a choice if your code is supposed to run on hardware and not only in simulation.
Docker
If your installation procedure is complex you might as well use a container such as a Docker.
More information about using Docker in combination with ROS can be found here. The Docker container might introduce though a bit of overhead and it is probably no choice for code which should have real-time priority in combination with a real-time patched operating system.
Debian or snap package
Another way of sending somebody a ROS package is by packing it into a Debian or snap package. This process takes a while and is in particular favourable if you want to give your code to a large number of users that should use the code out of the box. Instructions on how this can be done for Debian packages can be found here and here, while a guide for snap can be found here.
I'm setting up a CDK project that have some lambdas in Javascript and Python, I'm trying to figure out what's the best way to build these functions as I would normally pass the build command like this:
// Install dependencies, build and run cdk synth
commands: [
'npm ci',
'npm run build',
'npx cdk synth'
]
or
buildCommand: 'npm run build'
The only thing I can think of is to create a build.sh file inside each lambda, for the ones in JS I'd add npm run build and for the ones in Python pip install -r requirements.txt but I don't really know if this is a good practice and if there's a better way to accomplish this.
What you need is a Bundling docker container. You can
either configure the bundling yourself using the bundling option for Code.fromAsset()
or use the PythonFunction and NodejsFunction constructs which provide standard bundling for Python and Node.js, respectively.
This AWS Blog post gives some more examples for bundling.
I'm trying to deploy an angular project using Jenkins. In the window bash, I used the command npm install and npm run ng -- build to install packages and to build the project. Later when I try to host using http-server it throws an error like 'http-server' is not recognized as an internal or external command, and it clearly shows it is not supporting any Angular-related commands in it. Suggest me anyway to solve this. Thanks in advance
I have the following deb files after following the answers from this and this.
OpenCV-4.0.1-x86_64-dev.deb
OpenCV-4.0.1-x86_64-libs.deb
OpenCV-4.0.1-x86_64-scripts.deb
OpenCV-4.0.1-x86_64.tar.gz
OpenCV-4.0.1-x86_64.tar.Z
I have generated them after turning on CPACK_BINARY=ONhowever I do not know the build order in order to successfully build OpenCV. How do I properly install them?
You should also get a shell script, mine is called OpenCV-unknown-aarch64.sh, yours will probably be called OpenCV-4.0.1-x86_64.sh
Then to install I just go to the folder with the deb files and run ./OpenCV-unknown-aarch64.sh
I am trying to install a project from github using phpunit. The project uses composer to install the dependencies.
When I run ant to build the project, I get a simple error message, but I would like to access more complete logs of ant. Is it accessible ?
Best,
Mehdi
See:
http://ant.apache.org/manual/running.html
For example using:
-verbose, -v
is quite popular to see what ANT does and how it does resolve dependencies.
Sebastian