nb-venv-kernels 1.1.31

Jupyterlab extension to detect notebook kernels similarly to how nb_conda_kernel does

nb_venv_kernels

Use Python virtual environments as Jupyter kernels. Discovers and registers kernels from venv, uv, and conda environments in JupyterLab's kernel selector.

Discovered environments appear in JupyterLab's kernel selector.

CLI provides environment listing with status indicators.

Scan for environments directly from JupyterLab's Kernel menu.

Results display in a modal with action indicators.

Features

• Unified kernel discovery - conda, venv, and uv environments in one kernel selector
• Auto-detection - distinguishes uv from venv via pyvenv.cfg
• Smart ordering - current environment first, then conda, uv, venv, system
• Drop-in replacement - replaces nb_conda_kernels while preserving all conda functionality
• Directory scanning - scan project directories to find and register environments
• JupyterLab integration - scan for environments from Kernel menu with results modal
• CLI management - register, unregister, scan, list with color-coded status indicators
• Programmatic API - REST endpoints and Python API for automation (--json flag)
• Zero config - auto-enables on install, works immediately

Built because someone got tired of typing python -m ipykernel install --user --name=... for the 42nd time.

Install

This package should be installed in the environment from which you run Jupyter Notebook or JupyterLab. This might be your base conda environment, but it need not be. For instance, if you have a dedicated jupyter_env environment:

conda activate jupyter_env
pip install nb_venv_kernels

Or install directly with pip/uv if not using conda:

pip install nb_venv_kernels

The extension auto-enables as the default kernel spec manager via jupyter_config.json. If nb_conda_kernels is installed, nb_venv_kernels takes precedence and includes all conda kernel discovery functionality.

Usage

Virtual environments require ipykernel installed to be discoverable. The ipykernel package creates the kernel spec at {env}/share/jupyter/kernels/*/kernel.json.

# In your virtual environment
pip install ipykernel

Scanning for Environments

Scan a directory tree to find and register all venv/uv environments:

nb_venv_kernels scan                      # Scan current directory
nb_venv_kernels scan /path/to/projects    # Scan specific directory
nb_venv_kernels scan --depth 3            # Limit recursion depth (default: 5)

The scan command automatically:

• Finds venv and uv environments by detecting bin/python
• Registers them in the appropriate registry (~/.venv/ or ~/.uv/)
• Cleans up non-existent environments from registries
• Reports conda environments found (they are discovered via conda env list)

Manual Registration

nb_venv_kernels register /path/to/.venv
nb_venv_kernels unregister /path/to/.venv

Listing Environments

The list command shows all environments (conda, uv, venv) with their status:

nb_venv_kernels list

name                      type             exists   kernel   path
--------------------------------------------------------------------------------------------------------------
base                      conda            yes      yes      /opt/conda
my-conda-env              conda (local)    yes      yes      /opt/conda/envs/my-conda-env
my-project                uv               yes      yes      /home/user/my-project/.venv
another-project           venv             yes      no       /home/user/another-project/venv

Environments are sorted by type (conda, uv, venv) then by name. The KERNEL column indicates whether ipykernel is installed. Missing environments and kernels display "no" in red.

Jupyter Configuration

nb_venv_kernels config enable     # Enable VEnvKernelSpecManager
nb_venv_kernels config disable    # Disable VEnvKernelSpecManager
nb_venv_kernels config show       # Show current config status

Registered environments with ipykernel appear in JupyterLab's kernel selector.

Environment Registries

Environments are registered in separate files based on their source:

• venv: ~/.venv/environments.txt
• uv: ~/.uv/environments.txt
• conda: ~/.conda/environments.txt + global environments from conda env list

The register command auto-detects uv environments via pyvenv.cfg and writes to the appropriate registry.

How It Works

flowchart LR
    subgraph CLI
        SCAN[nb_venv_kernels scan]
        REG[nb_venv_kernels register]
    end

    subgraph Registries
        VENV[~/.venv/environments.txt]
        UV[~/.uv/environments.txt]
        CONDA_REG[~/.conda/environments.txt]
    end

    subgraph Auto-Discovery
        CONDA_ENV[conda env list]
        PYVENV[pyvenv.cfg]
    end

    subgraph Discovery
        KSPM[VEnvKernelSpecManager]
        CKSPM[CondaKernelSpecManager]
    end

    SCAN -->|finds envs| VENV
    SCAN -->|finds envs| UV
    REG -->|registers| UV
    PYVENV -.->|detects uv| UV
    VENV --> KSPM
    UV --> KSPM
    CONDA_REG --> CKSPM
    CONDA_ENV --> CKSPM
    CKSPM --> KSPM
    KSPM --> JL[JupyterLab Kernel Selector]

    style SCAN stroke:#10b981,stroke-width:2px
    style REG stroke:#10b981,stroke-width:2px
    style VENV stroke:#10b981,stroke-width:2px
    style UV stroke:#a855f7,stroke-width:2px
    style CONDA_REG stroke:#f59e0b,stroke-width:2px
    style CONDA_ENV stroke:#f59e0b,stroke-width:2px
    style PYVENV stroke:#6b7280,stroke-width:2px
    style KSPM stroke:#3b82f6,stroke-width:3px
    style CKSPM stroke:#f59e0b,stroke-width:2px
    style JL stroke:#0284c7,stroke-width:3px

• Scans {path}/share/jupyter/kernels/*/kernel.json for each registered environment
• Configures kernel to use venv's python directly with VIRTUAL_ENV and PATH environment variables
• Kernel order: current environment first, then conda, uv, venv, system
• Caches results for 60 seconds
• config enable backs up existing config, config disable restores from backup

Configuration

Optional settings in jupyter_server_config.py:

c.VEnvKernelSpecManager.venv_only = True                      # Hide system/conda kernels
c.VEnvKernelSpecManager.env_filter = r"\.tox|\.nox"           # Exclude by pattern
c.VEnvKernelSpecManager.name_format = "{language} [{source} env:{environment}]"  # Default format
c.VEnvKernelSpecManager.scan_depth = 7                        # Default depth for scan command

Display name variables: {language}, {environment}, {source} (uv/venv), {kernel}, {display_name}

Programmatic API

The extension provides REST and Python APIs for integration with tools and automation. See API Documentation for details on:

• REST endpoints - /nb-venv-kernels/environments, /scan, /register, /unregister
• Python API - VEnvKernelSpecManager methods for listing, scanning, and registering environments
• JSON output - CLI commands support --json flag for machine-to-machine communication

flowchart LR
    subgraph Interfaces
        CLI[nb_venv_kernels CLI]
        MENU[JupyterLab Kernel Menu]
    end

    subgraph Server[Jupyter Server]
        REST[REST Endpoints<br>/nb-venv-kernels/*]
    end

    MGR[VEnvKernelSpecManager]

    subgraph Storage
        VENV_REG[~/.venv/environments.txt]
        UV_REG[~/.uv/environments.txt]
    end

    CLI --> MGR
    MENU --> REST
    REST --> MGR
    MGR --> VENV_REG
    MGR --> UV_REG

    style CLI stroke:#10b981,stroke-width:2px
    style MENU stroke:#0284c7,stroke-width:2px
    style REST stroke:#f59e0b,stroke-width:2px
    style MGR stroke:#3b82f6,stroke-width:3px
    style VENV_REG stroke:#10b981,stroke-width:2px
    style UV_REG stroke:#a855f7,stroke-width:2px

CLI calls VEnvKernelSpecManager directly. JupyterLab frontend uses REST endpoints. Both produce identical sorted output.

Uninstall

pip uninstall nb_venv_kernels

After uninstall, nb_conda_kernels (if installed) will resume handling kernel discovery.