Nod is a JupyterLab extension for inserting a notebook anywhere in a running Python program, allowing you to write and debug your program while interacting with its state. Nod is like a breakpoint with a notebook inside. From anywhere in your program, just add notebook() and run it. When the program execution reaches notebook(), the program will pause, and a JupyterLab session will start with the variables available at that line. The code within the function that calls notebook() will be converted to a notebook and will open automatically. Make edits, rerun code, inspect the output, and at the end, you can send your changes back to your source file with a button at the top of the notebook.
pip install jupyterif you don't have Jupyter already installed.pip install --user nodpy && nod --install-kernel- Call the
notebook()function somewhere in your program. (See Usage for an example). - Run your python program with
nod <command to execute your python script>
Interested in using Nod? Try it out for 3-6 weeks and chat with me about it! Participants recieve a gift card of $50-$100 (depending on how much time we chat for). All the details are in the Sign Up Form.
My name is Eric Rawn. I'm a PhD Student at UC Berkeley. To build the best system I can (and do some research along the way), I want to see how folks are using Nod in their own work, and I'd really love your insight! If you decide to participate, the extension will log some usage data locally on your machine, which you'll send to me manually at the end of the study. We'll have a few conversations about your experience with the extension and the kind of work you do.
If you have any questions at all, send me an email at erawn@berkeley.edu, and feel free to send this page to anyone you think might be interested! Thanks so much!
In a Python file call notebook() anywhere:
#myfile.py
from nodpy import notebook
def f():
x = 1
notebook()
f()then run the python program with nod <command>:
nod python -m myfileand you'll see a Jupyter editor with the current state of your program when you called notebook():
Notice above that we haven't executed x = 1 yet, but x is in our kernel state, because we had defined it before we called notebook(). Any variable you would be able to reference in your Python program at the notebook() call will be available in your Jupyter session.
Nod converts everything in the current function body to edit. By default, empty lines are converted to cell breaks, and markdown cells are converted to comments (e.g. ##, ###).
The left panel navigates up and down your callstack---your notebook state will switch automatically to the variables at that place in the program. You'll notice three buttons at the top of the left panel:
Sends any text changes made in the notebook back to your source files. By default, the notebook is converted to light format (see Config for more options.)
Restarts your original python program by re-executing the <command>from yournod <command>command line invocation, and updates the Jupyter editor to match. If you want to make changes directly to your source file and pull them to your Nod Jupyter session, just press "Restart without Saving" at the prompt when you restart.
Quits the current Nod kernel. By default, your python program will continue to run from notebook()until it exits itself. If you would like to signal the program instead, see how_exit.
To save values to put into the Notebook state later, call nodLog(var,var,...):
from nodpy import notebook, nodLog
def f():
for i in range(10):
nodLog(i)
notebook()
f()and you'll see a list in your Nod Session appear on the Nod Log panel on the right:
Click the
button to put that value into the notebook state.
Variables passed to NodLog must be able to deepcopy
Important: JupyterHub users will need to manually place a config file to activate the extension. See the JupyterHub Installation Tutorial below
JupyterHub users (and anyone else who doesn't want a new Jupyter window to spawn for every Nod session) can use -e or -existing in their nod call:
nod -e python -m module
and the session will appear in the left panel under "Sessions":
Press "Connect" to open the session in Jupyterlab.
JupyterLab can't open files located outside of its home directory or any subdirectories, so make sure you call nod -e <cmd> in a directory you can see in the JupyterLab file navigator.
To configure module-level settings for Nod, call nodConfig() at the entry point for your Python program. Options are:
-
filter: (default ['<CWD>/**']) list of paths (as strings) to include in the trace filter. Accepts *, ?, and [] as wildcards
-
fmt: (default 'light') notebook conversion format. Options: "light", "percent"
-
how_exit: (default 'continue') how the Nod session should be exited from the notebook. "continue" returns to let the program finish, and "exit" will stop the program. Options: 'continue', 'exit'
-
dangerously_bypass_readonly: (default 'false') Once the code in associated with one stack frame in a Nod Session is edited, the others become read-only by default to prevent reaching a confusing state. Set to true to remove this safeguard, if you know what you're doing.
In the directory you call nod <cmd> in, a ./nod/ folder will be created to store the current notebooks (/nod/connection/) and previous ones (/nod/archive/), so you should be able to recover any notebooks in there (including notebook checkpoints), as long as they were saved (you pressed CTRL+S in Jupyterlab).
Run jupyter server extension list in a terminal in JupyterHub. If you don't see nodpy, you'll need to manually place
a json file named nodpy.json with this content:
{
"ServerApp": {
"jpserver_extensions": {
"nodpy": true
}
}
}
inside of your jupyter config directory.
To find this path, run jupyter --config-dir. You should see a path which ends in a .jupyter folder (if you don't, run jupyter --paths and find the config folder which ends in .jupyter).
Inside that .jupyter config folder, make a new folder called jupyter_server_config.d if one doesn't exist, and place the nodpy.json file in there. The final path should look like <user>/.jupyter/jupyter_server_config.d/nodpy.json.
Run jupyter server extension list again and you should see nodpy in the list now.
Now restart your Jupyter Server. You can usually do this by going to File -> Hub Control Panel and pressing Stop My Server, then Start My Server.
This is still a work in progress. Please make an issue if you are trying to get Nod working in a JupyterHub enviornment and I'll do my best to help.


