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Development

Prerequisites

  • Git
  • node.js. We recommend using node.js v10.x, but all versions starting from v6 should work. Upgrading and managing node versions can be easily done using nvm or its Windows alternatives.
  • npm v6.x and up (which ships by default with node.js v10.x) to ensure that the package-lock.json file is used and updated correctly.
  • A Unix shell, to run the Bash commands given in these contribution guidelines. If you use Windows, you do not have a Unix shell automatically installed; you may want to use a Unix emulator such as Cygwin or an SSH client (setup instructions).

Step 1: Clone the dash-bio repo and install its dependencies

Clone the project from this GitHub repository using the following command:

git clone https://github.com/plotly/dash-bio.git
cd dash-bio
npm install

You will need to have Python installed and the Python variable added to your PATH.

Step 2: Develop

Development of a component for this repository is composed of two parts: the component itself, and a sample application that showcases the capabilities of your component and how it interacts with Dash.

Components

Components can either be created using React, or they can be written in pure Python. React components are written in src/lib/components before being compiled into Python components that are in the dash_bio folder. Python components are written in dash_bio/component_factory/ and must be imported in dash_bio/__init__.py.

Installing new npm packages

If developing a new component based on a React library, please ensure that you have already installed the correct versions of the pre-existing dependencies by running npm ci. Then, add the package to package.json and run npm i to add it to the package-lock.json file.

Naming components

Components, regardless of whether they are written using React or Python, need to be named in upper camel case. This is incredibly important due to the amount of parsing we perform in our testing suite and app deployments.

Demo applications

Dash Bio demo apps follow a standardized template and showcase the properties of the component and possible use-cases with sample datasets. The assets and layout_helper.py modules in the common subdirectory include the base CSS styling for demo apps and helper functions to generate the layout and callback structure to run the demo as a standalone Dash app. These should be added to your demo app directory to ensure that the layout and structure of your app is consistent when deployed to the Dash Gallery. See Setup below for more details on using layout_helper.py within your demo application.

Setup

In the tests/dashbio_demos/common subdirectory, you will find the minimal project structure for a Dash Bio demo app. This includes the following files:

  • app.py: This contains your Python app code with the demo component. The app.py in this case contains a basic outline of the code required for a Dash Bio sample app, but it can be modified or replaced as necessary for a particular component or demo app. If you are using this template, please note the following:
  • layout() should return whatever you would have in your app.layout. Due to the way the CSS is set up for each application, it is advisable to create a container div that will house your application, e.g.,
def layout():
  return html.Div(id='my-component-container', children=[
      "A sample component",
      dash_bio.MyComponent(id='my-component'),
      html.Div(id='my-component-output'),
  ])
  • callbacks(app) should contain all of the callbacks in the application and not return anything, e.g.,
def callbacks(app):
  @app.callback(
      Output('my-component-output', 'children'),
      [Input('my-component', 'someProperty')]
  )
  def update_output(property):
      return "Value: {}".format(str(property))
  • requirements.txt: A text file which includes all the Python dependencies that need to be installed in order to run the app.
  • layout_helper.py: A Python module with helper functions to generate the template app layout and callback structure for a Dash Bio gallery app.
  • data: A directory that can contain sample datasets.
  • assets: A directory which can contain custom CSS, JS, favicon, or styling assets. Dash will automatically serve all of the files that are included in this folder.
  • Procfile: Procfile is a required text file that declares which commands should be run by the server on startup like starting your app's web server, scheduling jobs and running background processes. For Dash Bio demo apps, it can remain unmodified.

Testing

Test out your application by going to the repository's root directory and running

python tests/dashbio_demos/{YOUR_DEMO_APP}/app.py

Then navigate to localhost:8050 in your web browser.

You will need to quit the Python application and rerun it if you have made changes to the Python file itself, or have recently rebuilt/reinstalled the Dash Bio package. To see updated CSS changes, you can simply reload the webpage in your browser, or enable hot-reloading with Dash Dev Tools.

CSS

All custom CSS stylesheets should go in the assets/ folder. Please create a stylesheet with a filename specific to your component. In addition, all ids and class names in your application should be prefixed by the name of your component (this is done so that the stylesheet for one application doesn't accidentally affect another application).

Please note that the header on your application is part of the page; therefore, if you want to make a container div for your application as mentioned in the Setup subsection, please account for an extra height of 100px that is taken up by the header when you are specifying the height of the container.

Final touches

In the tests/dashbio_demos/images/ subfolder, please include a PNG file named pic_{your component name in snake case}.png.

In your demo app file, please include the following functions:

  • description() is responsible for the text that shows up on hovering over your application in the gallery page. It should return a short string with a description of the component, e.g.,
def description():
   return "Display bioinformatics data with this component."
  • header_colors() controls the appearance of the header for your application. It should return a dictionary with any or all of the specified keys bg_color (string), font_color (string), and light_logo (boolean). Please change the background color from default, and try to choose one that isn't used for another application, e.g.,
def header_colors():
   return {
       'bg_color': 'rgb(255, 0, 0)',
       'font_color': 'rgb(255, 255, 255)',
       'light_logo': True
   }

Please lint any additions to Python code with pylint and/or flake8.

Commit each changeset corresponding to a conceptual entity. Write commit messages at the imperative (e.g., "Document workflow"). Each commit is small; a pull request typically consists of a few commits.

Step 3: Run tests locally

To run integration tests locally on, say, Google Chrome:

python -m venv venv
. venv/bin/activate
pip install -r tests/requirements.txt
pip install dash[testing] #if you use zsh run: pip install dash\[testing\]
pip install -e . #if pytest fails try: pip3 install dash-bio
pytest tests/integration #for testing all apps
pytest tests/integration/test_yourNewApp #for testing only one app

Do not worry if you get errors running this last command. You will have to download a Chrome driver (Linux:chromium), install it, and add it to your PATH. Follow what the error messages point to (this will be platform-specific).

To write more integration tests, please read this tutorial.

To run the suite of unit tests:

pytest tests/unit #for unit testing python components
python tests/unit/unit_test_data_setup.py
npm run test

Step 4: Rebuild the package if necessary

If you have made changes to the JS code, then you need to rebuild the package:

npm run build:all

The auto-generated Python files will reflect your updates to the logic. If, instead, you have made changes to the layout, you do not need to rebuild the package.

Step 5: Submit a pull request (PR)

Fill out the description template in the GitHub interface. Please include a link to the original JavaScript component if your PR is porting a React component to Dash Bio, and any relevant details or sample datasets that might help with testing the component and demo app.

Deployment

Deployment is done from the master branch only.

Step 1: Initialize the app on the playground server

Log into your account on dash-playground.plotly.host and create a new application. The name of the application should consist of the component name in lowercase, with words separated by dashes (-). The deployment server will provide a remote repository URL that will contain the app. Add it to the list of remotes by running git remote add [app name]-test [deployment server git URL].

Step 2: Edit and commit app-specific files

Step 2a: Edit the Procfile

Edit the Procfile at the root of the repository to say web: gunicorn app:server.

Step 2b: Commit the changes

Commit the Procfile and other changes, but do not push to the dash-bio repo !

Step 3: Push to the playground server

Run git subtree push --prefix tests/dashbio_demos/[app directory] [app name]-test master. This will deploy the app on the playground server. Check that it works by visiting the URL that is displayed in the console. Try out a few of the callbacks to make sure that they are working.

Step 4: Initialize the app on the dash-gallery server and push to it

Log into the developers account on dash-gallery.plotly.host and follow the same instructions as in Step 1, but give this remote a different name (e.g. by running git remote add gallery [deployment server git URL]). Then, run git subtree push --prefix tests/dashbio_demos/[app directory] gallery master.

Step 5: Undo the app-specific commit

Run git log to find the ID of the commit prior to the one that you just made to change the Procfile. Then, reset your local branch to this commit so that the app.py app still deploys and runs normally. You can do this by running git reset --hard [commit ID].

Step 6: Ensure that your branch is even with master

Since you've reverted the change, running git diff should return nothing.