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Convert Python Notebook to web app and share with others

Project description

Share your notebook as web app / slides / dashboard / report / REST API

Mercury convert notebook to web app

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Mercury is a perfect tool to convert Python notebook to interactive web app / slides / dashboard / report / REST API and share with non-programmers.

  • You define interactive widgets for your notebook with the YAML header.
  • Your users can change the widgets values, execute the notebook and save result (as PDF or html file).
  • You can hide your code to not scare your (non-coding) collaborators.
  • Easily deploy to any server.

Mercury can convert your notebook to:

  • interactive web app
  • interactive slides
  • data dashboard
  • beautiful report
  • REST API (coming soon)

Mercury is dual-licensed. Looking for dedicated support, a commercial-friendly license, and more features? The Mercury Pro is for you. Please see the details at our website.

Documentation

📚 Mercury documentation :books:

Installation

Compatible with Python 3.7 and higher.

Install with pip:

pip install mljar-mercury

Or with conda:

conda install -c conda-forge mljar-mercury

Getting started

Demo notebook

To start with demo notebook please run:

mercury run demo

It will create for you demo.ipynb notebook and run it with Mercury. Please open 127.0.0.1:8000 to check the app running.

Your notebook

To run Mercury with your notebook please execute:

mercury watch my_notebook.ipynb

The watch command will monitor your notebook for changes and will automatically reload them in the Mercury web app.

YAML Example

Notebook with YAML config

The YAML config is added as the first raw cell in the notebook.

notebook with YAML config

Web Application from Notebook

The web app is generated from the notebook. Code is hidden (optional). User can change parameters, execute notebook with the Run button, and save results with the Download button.

Web App from Notebook

💻 Demo

The demos with several example notebooks are running at:

Interactive slides

You can easily do interactive slides from the notebook and serve them with Mercury. Please check the docs. Below is example demo:

Interactive Slides

🛠️ Convert Notebook to web app with YAML

You need to add YAML at the beginning of the notebook to be able to run it as a web application in the Mercury. The YAML configuration should be added as a Raw cell in the notebook. It should start and end with a line containing "---". Below examples of how it should look like in the Jupyter Notebook and Jupyter Lab:

Mercury Raw Cell in Jupyter Notebook Mercury Raw Cell in Jupyter Lab

YAML configuration

Allowed parameters in YAML config:

  • title - string with a title of the notebook. It is used in the app sidebar and the gallery view.
  • author - string with a author name (optional).
  • description - string describing the content of the notebook. It is used in the gallery view.
  • show-code - can be True or False. Default is set to True. It decides if the notebook's code will be displayed or not.
  • show-prompt - can be True or False. Default is set to True. If set to True prompt information will be displayed for each cell in the notebook.
  • share - the comma separated list of users that can see the notebook. Default is set to public which means that all users can see the notebook. It can be set to private which means that only authenticated users can see the notebook. It can be set to the list of users, for example username1, username2, username3, which means that only users with username on the list can see the notebook. The last option is list the groups of users that can see the notebook, for example group1, group2 - all users in the group1 and group2 will be able to see the notebook. You can mix group names and user names in the share parameter. The users and groups should be created in the Admin Panel. The sharing feature is only available to commercial users.
  • output - the type of the resulting notebook. It can be app or slides. The default is set to app.
  • params - the parameters that will be used in the notebook. They will be displayed as interactive widgets in the sidebar. Each parameter should have an unique name that corresponds to the variable name used in the code. Read more about available widgets in params in the documentation.

Define widget with YAML

Available widgets

Widgets in Mercury are text, slider, range, select, checkbox, numeric, file.

Mercury widgets

Widget name is a variable name

Definition of the widget (in params) starts with the widget name. It will correspond to the variable in the code. The name should be a valid Python variable.

Widget input type

To define the widget you need to select the input type. It can be: text, slider, range, select, checkbox, numeric, file.

Widget label

For each input we need to define a label. It will be a text displayed above (or near) the widget.

Widgets documentation 🧰

You can read more about widgets in our documentation.

Output files

You can easily create files in your notebook and allow your users to download them.

The example notebook:

  1. The first RAW cell.
title: My app
description: App with file download
params:
    output_dir:
        output: dir
  1. The next cell should have a variable containing the directory name. The variable should be exactly the same as in YAML. This variable will have assigned a new directory name that will be created for your user during notebook execution. Please remember to define all variables that are interactive in Mercury in one cell, just after the YAML header (that's the only requirement to make it work, but is very important).
output_dir = "example_output_directory"
  1. In the next cells, just produce files to the output_dir:
import os
with open(os.path.join(output_dir, "my_file.txt"), "w") as fout:
    fout.write("This is a test")

In the Mercury application, there will be additional menu in the top with Output files button. Please click there to see your files. Each file in the directory can be downloaded.

Output files in Mercury

Welcome message

There is an option to set a custom welcome message. Like in the example screenshot below.

Mercury Custom Welcome Message

The custom welcome message can be set as Markdown text (with GitHub flavour). To set custom message please create a welcome.md file and include your Markdown text there. When deploying please set the WELCOME environment variable pointing to your file. For example, in Heroku it will be WELCOME=welcome.md. The example repository with welcome message is here. The example demo showing a Data Science Portfolio is here.

If you don't set the welcome message a simple Welcome! will be displayed. We belive that setting welcome message will give you a great opportunity for customization.

Running locally

Serve all notebooks (first option)

To run Mercury with all notebooks in the current directory please just run:

mercury run

It will serve Mercury website at http://127.0.0.1:8000 with all notebooks.

You can change the default 8000 PORT when running the mercury:

mercury run 127.0.0.1:<your-port-here>

Manually add notebooks (second option)

To run Mercury locally just run:

mercury runserver --runworker

The above command will run server and worker (without any notebooks). It will serve Mercury website at http://127.0.0.1:8000. It won't display any notebooks because we didn't add any. Please stop the Mercury server (and worker) for a moment with (Ctrl+C).

Execute the following command to add a notebook to the Mercury database:

mercury add <path_to_notebook>

Please start the Mercury server to see your apps (created from notebooks).

mercury runserver --runworker

Notebook development with automatic refresh

The Mercury watch command is perfect when you create a new notebook and want to see what it will look like as a web app with live changes.

Please run the following command:

mercury watch <path_to_your_notebook>

You can now open the web browser at http://127.0.0.1:8000 and find your notebook. When you change something in the notebook code, markdown, or YAML configuration and save the notebook, then it will be automatically refreshed in the web browser. You can track your changes without manual refreshing of the web app.

Mercury commands

Add

Please use add command to add a notebook to the Mercury. It needs a notebook paath as an argument.

Example:

mercury add notebook.ipynb

Delete

Please use delete command to remove notebook from the Mercury. It needs a notebook path as an argument.

Example:

mercury delete notebook.ipynb

List

Please use list command to display all notebooks in the Mercury.

Example:

mercury list

Running in production

Running in production is easy. There are two ways it can be done:

  • deploy with mercury run command,
  • deploy with docker-compose

Please check our documentation for details.

Running with docker-compose

The docker-compose must be run from the Mercury main directory.

Please copy .env.example file and name it .env file. Please point the NOTEBOOKS_PATH to the directory with your notebooks. All notebooks from that path will be added to the Mercury before the server start. If the requirements.txt file is available in NOTEBOOKS_PATH all packages from there will be installed.

Please remember to change the DJANGO_SUPERUSER_USERNAME and DJANGO_SUPERUSER_PASSWORD.

To generate new SECRET_KEY (recommended), you can use:

python -c 'from django.core.management.utils import get_random_secret_key; \
            print(get_random_secret_key())'

Please leave SERVE_STATIC=False because in the docker-compose configuration static files are served with nginx.

The docker-compose will automatically read environment variables from .env file. To start the Mercury, please run:

docker-compose up --build

To run in detached mode (you can close the terminal) please run:

docker-compose up --build -d

To stop the containers:

docker-compose down

Mercury development

The Mercury project consists of three elements:

  • Frontend is written in TypeScript with React+Redux
  • Server is written in Python with Django
  • Worker is written in Python with Celery

Each element needs a separate terminal during development.

Frontend

The user interface code is in the frontend directory. Run all commands from there. Install dependencies:

yarn install

Run frontend:

yarn start

The frontend is served at http://localhost:3000.

Server

The server code is in the mercury directory. Run all commands from there. Please set the virtual environment first:

virtualenv menv
source menv/bin/activate
pip install -r requirements.txt

Apply migrations:

python manage.py migrate

Run the server in development mode (DEBUG=True):

python manage.py runserver

The server is running at http://127.0.0.1:8000.

Worker

The worker code is in the mercury directory (in the apps/notebooks/tasks.py and apps/tasks/tasks.py files). Please activate first the virtual environment (it is using the same virtual environment as a server):

source menv/bin/activate

Run the worker:

celery -A server worker --loglevel=info -P gevent --concurrency 1 -E

Mercury Pro

Looking for dedicated support, a commercial-friendly license, and more features? The Mercury Pro is for you. Please see the details at our website.

Mercury logo

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