Instrument Control for QPS Optics Lab
General rules
Please use initials and kebab case when opening a branch. For example if your name is John Doe, name your branch jd-branch-name.
Python Environments with uv — Lab Repo Guide (Written by Claude AI)
Installing uv
uv is a modern Python package and environment manager — much faster than pip and handles everything in one tool (environments, dependencies, Python versions). Install it with:
macOS / Linux:
curl -LsSf https://astral.sh/uv/install.sh | sh
Windows:
powershell -ExecutionPolicy ByPass -c "irm https://astral.sh/uv/install.sh | iex"
After installing, restart your terminal and verify it worked:
uv --version
If you have other Python installations on your machine
If you installed Python previously (via python.org, brew, conda, pyenv, etc.), those installations still exist and your terminal may default to one of them. This is fine — uv does not conflict with them. However, to avoid confusion:
- Do not use
pip installglobally anymore. It installs packages into your system Python, which creates a mess over time. Useuv addinside a project instead (see below). - Check what Python your terminal defaults to at any time with
which pythonorpython --version. This tells you what runs when you typepythonwithout usinguv. uvmanages its own Python versions independently. When you pin a project to Python 3.12,uvwill download and use that version for the project regardless of what Python is installed system-wide. You don't need to uninstall anything.
If you want to see all Python versions uv knows about:
uv python list
Philosophy
Each project subfolder gets its own fully isolated environment — its own packages, its own Python version. Nothing bleeds between projects.
You always stay at the repo root for Git operations and use --project to point uv at the right subfolder. This way git push, git pull, and git status always work from one place.
INSTRUMENT-CONTROL/
├── .gitignore
├── README.md
├── your-project-folder/
│ ├── pyproject.toml ← declares your dependencies (commit this)
│ ├── uv.lock ← locks exact versions (commit this)
│ ├── .python-version ← pins the Python version (commit this)
│ └── .venv/ ← the actual environment (gitignore this)
└── ptis-analysis/
├── pyproject.toml
├── uv.lock
├── .python-version
└── .venv/
Which Python version to use
Use Python 3.12 for all new projects.
Python 3.9 reached end-of-life in October 2025 and no longer receives security patches. Python 3.12 is fully supported by the entire scientific stack (numpy, scipy, matplotlib, pyvisa, etc.) and has meaningful performance improvements. Avoid the absolute latest release (e.g. 3.14) as some libraries take a few months to catch up.
Pick one version and stick to it across all projects unless you have a specific reason not to — it makes debugging much simpler.
Setting up a new project
From the repo root, run:
uv init --python 3.12 your-project-folder
This creates the following inside your-project-folder/:
pyproject.toml— the project's metadata and dependency listuv.lock— a locked snapshot of the full dependency tree (including sub-dependencies).python-version— a one-line file that just says3.12
The .venv/ folder doesn't exist yet — it gets created the first time you add a package or run something.
Adding packages
uv --project your-project-folder add numpy matplotlib scipy
This does three things at once: updates pyproject.toml with the new dependencies, resolves the full dependency tree into uv.lock, and installs everything into .venv/. You never need to manually pip install anything.
Running a script
uv --project your-project-folder run python your-project-folder/measure.py
uv run automatically uses the project's environment — no need to activate anything first for one-off script runs.
Running Jupyter
First add Jupyter to the project:
uv --project your-project-folder add jupyter
Then activate the environment and launch:
source your-project-folder/.venv/bin/activate
jupyter lab
You need to activate here (rather than use uv run) because Jupyter is an interactive session, not a one-off command. After activating, your terminal prompt will change to show (.venv) — this means all python, jupyter, and other commands will use the project's environment until you run deactivate.
Create or open any .ipynb file inside your-project-folder/ and it will have access to all the project's packages. Before committing notebooks, clear the outputs (Kernel → Restart & Clear Output) to keep your Git diffs clean.
Checking the Python version
To confirm which Python a project is using:
uv --project your-project-folder run python --version
# or just read the pin file directly:
cat your-project-folder/.python-version
To change it:
uv --project your-project-folder python pin 3.12
The full daily workflow
# Pull latest changes
git pull
# Add a new package
uv --project your-project-folder add pyvisa
# Run your script
uv --project your-project-folder run python your-project-folder/measure.py
# Commit the updated dependency files
git add your-project-folder/pyproject.toml your-project-folder/uv.lock
git commit -m "add pyvisa dependency"
git push
Syncing after a clone or pull
The .venv/ folder is gitignored, so it doesn't exist on a fresh clone. uv sync recreates it from uv.lock:
uv --project your-project-folder sync
You need this in two situations:
- Fresh clone on a new machine —
.venv/doesn't exist yet - After a
git pullwhere someone else added a dependency — your.venv/is now out of date
If you're the one adding packages with uv add, you never need to sync — it handles installation automatically.
Mental model:
uv.lockis the source of truth that lives in Git..venv/is a local build of it.uv sync= "rebuild.venv/fromuv.lock."
Why .venv/ is not committed
.venv/ contains compiled binaries and symlinks built specifically for your OS and CPU. If you pushed it and pulled it on a different machine, it simply wouldn't work. It's also hundreds of MB — Git isn't designed for that.
pyproject.toml and uv.lock together are everything needed to recreate the exact same environment anywhere:
| File | Commit? | Why |
|---|---|---|
pyproject.toml |
✅ Yes | Declares your dependencies |
uv.lock |
✅ Yes | Locks exact versions — guarantees reproducibility |
.python-version |
✅ Yes | Pins the Python version |
.venv/ |
❌ No | Local build artifact — regenerated from the above |
Quick reference
| Task | Command |
|---|---|
| Create new project | uv init --python 3.12 <project> |
| Add a package | uv --project <project> add <package> |
| Run a script | uv --project <project> run python <script> |
| Activate interactively | source <project>/.venv/bin/activate |
| Deactivate | deactivate |
| Sync after clone/pull | uv --project <project> sync |
| Check Python version | uv --project <project> run python --version |
| Pin Python version | uv --project <project> python pin 3.12 |
| List available Pythons | uv python list |
.gitignore — Only read this if you are setting up a new repo
The .gitignore file tells Git which files to never track. It lives at the repo root and covers all subfolders. You only need to set this up once per repo.
Why you need it
Without a .gitignore, Git will try to track everything — including .venv/, which contains thousands of compiled files you never want in version control (see above). VS Code's source control badge will show thousands of "changes" that aren't really changes, making it impossible to see what's actually going on.
The .gitignore for this repo
Create a file called .gitignore at the repo root (next to your project folders, not inside them) with this content:
# uv environments
**/.venv/
.uv-cache/
# Python
__pycache__/
*.py[cod]
*.pyo
*.pyd
# Jupyter
.ipynb_checkpoints/
**/.ipynb_checkpoints/
# OS files
.DS_Store
Thumbs.db
# Editor
.vscode/settings.json
.idea/
*.swp
*.swo
# Measurement data (uncomment if needed)
# *.csv
# *.dat
# *.hdf5
# *.h5
The **/.venv/ pattern uses a wildcard so it catches .venv/ inside any subfolder automatically — you don't need to update it when you add a new project.
Committing the .gitignore
Yes, the .gitignore itself should be committed:
git add .gitignore
git commit -m "add .gitignore"
It's not sensitive or machine-specific — committing it means any collaborator or future clone automatically gets the same rules.
If Git is already tracking .venv/
If you set up the .gitignore after Git already started tracking .venv/, the file won't be automatically un-tracked — .gitignore only prevents new files from being added. To fix this:
git rm -r --cached your-project-folder/.venv/
git commit -m "untrack .venv"
The --cached flag removes it from Git tracking only — the actual folder stays on disk and your environment keeps working.