STAT 39000: Project 6 — Fall 2021

Sign up for a free GitHub account at https://github.com. If you already have a GitHub account, perfect!

Once complete, type your GitHub username into a markdown cell.

We’ve created a repository for this project at github.com/TheDataMine/f2021-stat39000-project6. You’ll quickly see that the code will be ultra familiar to you. The goal of this question, is to clone the repository to your $HOME directory. Some of you may already be rushing off to your Jupyter Notebook to run the following.

Don’t! Instead, we are going to take the time to setup authentication with GitHub using SSH keys. Don’t worry, it’s way easier than it sounds!

The first step is to create a new SSH key pair on Brown, in your $HOME directory. To do that, simply run the following in a bash cell.

When prompted for a passphrase, just press enter twice without entering a passphrase. If it doesn’t prompt you, it probably already generated your keys! Congratulations! You have your new key pair!

So, what is a key pair, and what does it look like? A key pair is two files on your computer (or in this case, Brown). These files live inside the following directory ~/.ssh. Take a look by running the following in a bash cell.

The first file, id_ed25519 is your private key. It is critical that you do not share this key with anybody, ever. Anybody in possession of this key can login to any system with an associated public key, as you. As such, on a shared system (with lots of users, like Brown), it is critical to assign the correct permissions to this file. Run the following in a bash cell.

This will ensure that you, as the owner of the file, have the ability to both read and write to this file. At the same time, this prevents any other user from being able to read, write, or execute this file (with the exception of a superuser). It is also important get the permissions of files within ~/.ssh correct, as openssh will not work properly otherwise (for safety).

Great! The other file, id_ed25519.pub is your public key. This is the key that is shareable, and that allows a third party to verify that "the user trying to access resource X has the associated private key." First, lets set the correct permissions by running the following in a bash cell.

This will ensure that you, as the owner of the file, have the ability to both read and write to this file. At the same time, everybody else on the system will have read and execute permissions.

Last, but not least run the following to correctly set the permission of the ~/.ssh directory.

Now, take a look at the contents of your public key by running the following in a bash cell.

Not a whole lot to it, right? Great. Copy this file to your clipboard. Now, navigate and login to github.com if you haven’t already. Click on your profile in the upper-right-hand corner of the screen, and then click Settings.

In the left-hand menu, click on SSH and GPG keys.

In the next screen, click on the green button that says New SSH key. Fill in the "Title" field with anything memorable. I like to put a description that tells me where I generated the key (on what computer), for example, "brown.rcac.purdue.edu". That way, I can know if I can delete that key down the road when cleaning things out. In the "Key" field, paste your public key (the output from running the cat command in the previous code block). Finally, click the button that says Add SSH key.

Congratulations! You should now be able to easily authenticate with GitHub from Brown, how cool! To test the connection, run the following in a cell.

If you were successful, it should reply with something like:

Okay, FINALLY, let’s get to the actual task! Clone the repository to your $HOME directory, using SSH rather than HTTPS.

Upon success, you should see a new folder in your $HOME directory, f2021-stat39000-project6.

Take a peek into your freshly cloned repository. You’ll notice a couple of files that you may not recognize. Focus on the pyproject.toml file, and cat it to see the contents.

The pyproject.toml file contains the build system requirements of a given Python project. It can be used with pip or some other package installer to download the exact versions of the exact packages (like pandas, for example) required in order to build and/or run the project!

Typically, when you are working on a project, and you’ve cloned the project, you want to build the exact environment that the developer had set up when developing the project. This way you ensure that you are using the exact same versions of the same packages, so you can expect things to function the same way. This is critical, as the last thing you want to have to deal with is figuring out why your code is not working but the developers or project maintainers is.

There are a variety of popular tools that can be used for dependency management and/or virtual environment management in Python. The most popular are: conda, pipenv, and poetry.

There are pros and cons to each of these tools, and you are free to explore and use what you like. Having used each of these tools exclusively for at least 1 year or more, I have had the fewest issues with poetry.

Poetry was used to create the pyproject.toml file you see in the repository. Poetry is already installed in Brown. See where by running the following in a bash cell.

By default, when creating a virtual environment using poetry, each virtual environment will be saved to $HOME/.cache/pypoetry, while this is not particularly bad, there is a configuration option we can set that will instead store the virtual environment in a projects own directory. This is a nice feature if you are working on a shared compute space as it is explicitly clear where the environment is located, and theoretically, you will have access (as it is a shared space). Let’s set this up. Run the following command.

This will create a config.toml file in $HOME/.config/pypoetry/config.toml that is where your settings are saved.

Finally, let’s setup your own virtual environment to use with your cloned f2021-stat39000-project6 repository. Run the following commands.

This should install all of the dependencies and the virtual environment in $HOME/f2021-stat39000-project6/.venv. To check run the following.

To actually use this virtual environment (rather than our kernel’s Python environment, or the system Python installation), preface python commands with poetry run. For example, let’s say we want to run a script in the package. Instead of running python script.py, we can run poetry run python script.py. Test it out!

We have a file called runme.py in the scripts directory ($HOME/f2021-stat39000-project6/scripts/runme.py). This script just quickly uses our package and prints some info — nothing special. Run the script using the virtual environment.

Now, try to run the following script using our virtual environment: $HOME/f2021-stat39000-project6/scripts/runme2.py. What happens?

It looks like a package wasn’t found, and should be added to our environment (and therefore our pyproject.toml file). Run the following command to install the package to your virtual environment.

Does the pyproject.toml reflect this change? Now try and run the script again — voila!

Read about at least 1 of the 2 git workflows listed here (if you have to choose 1, I prefer the "GitHub flow" style). Describe in words the process you would use to add a function or method to our repo, step by step, in as much detail as you can. I will start for you, with the "GitHub flow" style.