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Jupyter Live Kernel — Iterative Python via live Jupyter kernel (hamelnb)

Jupyter Live Kernel

Section titled “Jupyter Live Kernel”

Iterative Python via live Jupyter kernel (hamelnb).

Skill metadata

Section titled “Skill metadata”
SourceBundled (installed by default)
Pathskills/data-science/jupyter-live-kernel
Version1.0.0
AuthorHermes Agent
LicenseMIT
Tagsjupyter, notebook, repl, data-science, exploration, iterative

Reference: full SKILL.md

Section titled “Reference: full SKILL.md”

Info The following is the complete skill definition that Hermes loads when this skill is triggered. This is what the agent sees as instructions when the skill is active.

Jupyter Live Kernel (hamelnb)

Section titled “Jupyter Live Kernel (hamelnb)”

Gives you a stateful Python REPL via a live Jupyter kernel. Variables persist across executions. Use this instead of execute_code when you need to build up state incrementally, explore APIs, inspect DataFrames, or iterate on complex code.

When to Use This vs Other Tools

Section titled “When to Use This vs Other Tools”
ToolUse When
This skillIterative exploration, state across steps, data science, ML, “let me try this and check”
execute_codeOne-shot scripts needing hermes tool access (web_search, file ops). Stateless.
terminalShell commands, builds, installs, git, process management

Rule of thumb: If you’d want a Jupyter notebook for the task, use this skill.

Prerequisites

Section titled “Prerequisites”
  1. uv must be installed (check: which uv)
  2. JupyterLab must be installed: uv tool install jupyterlab
  3. A Jupyter server must be running (see Setup below)

Setup

Section titled “Setup”

The hamelnb script location:

SCRIPT="$HOME/.agent-skills/hamelnb/skills/jupyter-live-kernel/scripts/jupyter_live_kernel.py"

If not cloned yet:

git clone https://github.com/hamelsmu/hamelnb.git ~/.agent-skills/hamelnb

Starting JupyterLab

Section titled “Starting JupyterLab”

Check if a server is already running:

uv run "$SCRIPT" servers

If no servers found, start one:

jupyter-lab --no-browser --port=8888 --notebook-dir=$HOME/notebooks \
  --IdentityProvider.token='' --ServerApp.password='' > /tmp/jupyter.log 2>&1 &
sleep 3

Note: Token/password disabled for local agent access. The server runs headless.

Creating a Notebook for REPL Use

Section titled “Creating a Notebook for REPL Use”

If you just need a REPL (no existing notebook), create a minimal notebook file:

mkdir -p ~/notebooks

Write a minimal .ipynb JSON file with one empty code cell, then start a kernel session via the Jupyter REST API:

curl -s -X POST http://127.0.0.1:8888/api/sessions \
  -H "Content-Type: application/json" \
  -d '{"path":"scratch.ipynb","type":"notebook","name":"scratch.ipynb","kernel":{"name":"python3"}}'

Core Workflow

Section titled “Core Workflow”

All commands return structured JSON. Always use --compact to save tokens.

1. Discover servers and notebooks

Section titled “1. Discover servers and notebooks”
uv run "$SCRIPT" servers --compact
uv run "$SCRIPT" notebooks --compact

2. Execute code (primary operation)

Section titled “2. Execute code (primary operation)”
uv run "$SCRIPT" execute --path <notebook.ipynb> --code '<python code>' --compact

State persists across execute calls. Variables, imports, objects all survive.

Multi-line code works with $’…’ quoting:

uv run "$SCRIPT" execute --path scratch.ipynb --code $'import os\nfiles = os.listdir(".")\nprint(f"Found {len(files)} files")' --compact

3. Inspect live variables

Section titled “3. Inspect live variables”
uv run "$SCRIPT" variables --path <notebook.ipynb> list --compact
uv run "$SCRIPT" variables --path <notebook.ipynb> preview --name <varname> --compact

4. Edit notebook cells

Section titled “4. Edit notebook cells”
# View current cells
uv run "$SCRIPT" contents --path <notebook.ipynb> --compact


# Insert a new cell
uv run "$SCRIPT" edit --path <notebook.ipynb> insert \
  --at-index <N> --cell-type code --source '<code>' --compact


# Replace cell source (use cell-id from contents output)
uv run "$SCRIPT" edit --path <notebook.ipynb> replace-source \
  --cell-id <id> --source '<new code>' --compact


# Delete a cell
uv run "$SCRIPT" edit --path <notebook.ipynb> delete --cell-id <id> --compact

5. Verification (restart + run all)

Section titled “5. Verification (restart + run all)”

Only use when the user asks for a clean verification or you need to confirm the notebook runs top-to-bottom:

uv run "$SCRIPT" restart-run-all --path <notebook.ipynb> --save-outputs --compact

Practical Tips from Experience

Section titled “Practical Tips from Experience”

  1. First execution after server start may timeout — the kernel needs a moment to initialize. If you get a timeout, just retry.

  2. The kernel Python is JupyterLab’s Python — packages must be installed in that environment. If you need additional packages, install them into the JupyterLab tool environment first.

  3. —compact flag saves significant tokens — always use it. JSON output can be very verbose without it.

  4. For pure REPL use, create a scratch.ipynb and don’t bother with cell editing. Just use execute repeatedly.

  5. Argument order matters — subcommand flags like --path go BEFORE the sub-subcommand. E.g.: variables --path nb.ipynb list not variables list --path nb.ipynb.

  6. If a session doesn’t exist yet, you need to start one via the REST API (see Setup section). The tool can’t execute without a live kernel session.

  7. Errors are returned as JSON with traceback — read the ename and evalue fields to understand what went wrong.

  8. Occasional websocket timeouts — some operations may timeout on first try, especially after a kernel restart. Retry once before escalating.

Timeout Defaults

Section titled “Timeout Defaults”

The script has a 30-second default timeout per execution. For long-running operations, pass --timeout 120. Use generous timeouts (60+) for initial setup or heavy computation.