The basic usage pattern of feature-u is to:

  1. Choose the Aspects that you will need, based on your selected frameworks (i.e. your run-time stack). This extends the aspect properties accepted by the Feature object (for example: Feature.reducer for redux, or Feature.logic for redux-logic).

    Typically these Aspects are packaged separately in NPM, although you can create your own Aspects (if needed).

  2. Organize your app into features.

    • Each feature should be located in it's own directory.

    • How you break your app up into features will take some time and thought. There are many ways to approach this from a design perspective.

    • Each feature will promote it's aspect content through a Feature object (using createFeature()).

  3. Your mainline starts the app by invoking launchApp(), passing all Aspects and Features.

Easy Peasy!!

Directory Structure

Here is a sample directory structure of an app that uses feature-u:

  app.js              ... launches app using launchApp()

    index.js          ... accumulate/promote all Feature objects (within the app)

    featureA/         ... a feature (within the app)
      feature.js      ... promotes featureA object using createFeature()
      index.js        ... redirect parent dir import to our feature reference

    featureB/         ... another feature

  util/               ... common utilities used across all features

Each feature is located in it's own directory, containing it's aspects (actions, reducers, components, routes, logic, etc.).

Feature Object

Each feature promotes it's aspect content through a Feature object (using createFeature()).


import {createFeature}  from 'feature-u';
import reducer          from './state';
import logic            from './logic';
import route            from './route';
import appWillStart     from './appWillStart';
import appDidStart      from './appDidStart';

export default createFeature({
  name:     'featureA',
  enabled:  true,

  fassets: {
    define: {
      'api.openA':  () => ... implementation omitted,
      'api.closeA': () => ... implementation omitted,



We will fill in more detail a bit later, but for now notice that the feature is conveying reducers, logic modules, routes, and does some type of initialization (appWillStart/appDidStart). It also promotes something called fassets (feature assets - the Public Face of a feature) with openA() and closeA() functions which will be publicly promoted to other features.

Note: Feature directory imports are redirected to our feature object reference ... for example:


// redirect parent dir import to our feature reference
export {default} from './feature';

Feature Accumulation

All features are accumulated through a single es6 module, allowing them to be pulled in through a single array import.


import featureA  from './featureA';
import featureB  from './featureB';

// promote ALL our features through a single import (accumulated in an array)
export default [

Note: While this represents a complete list of all our features, some of them may be disabled (i.e. logically removed) ... see: Feature Enablement.


In feature-u the application mainline is very simple and generic. There is no real app-specific code in it ... not even any global initialization! That is because each feature can inject their own app-specific constructs!! The mainline merely accumulates the Aspects and Features, and starts the app by invoking launchApp():


import ReactDOM              from 'react-dom';
import {launchApp}           from 'feature-u';
import {createRouteAspect}   from 'feature-router';
import {createReducerAspect} from 'feature-redux';
import {createLogicAspect}   from 'feature-redux-logic';
import features              from './features';

// launch our app, exposing the Fassets object (facilitating cross-feature communication)
export default launchApp({           // *4*

  aspects: [                         // *1*
    createRouteAspect(),   // Feature Routes ... extending: Feature.route
    createReducerAspect(), // redux          ... extending: Feature.reducer
    createLogicAspect(),   // redux-logic    ... extending: Feature.logic

  features,                          // *2*

  registerRootAppElm(rootAppElm) {   // *3*

Here are some important points of interest (match the numbers to *n* in the code above):

  1. the supplied Aspects (pulled from separate npm packages) reflect the frameworks of our run-time stack (in our example redux, redux-logic, and feature-router) and extend the acceptable Feature properties (Feature.reducer, Feature.logic, and Feature.route respectively) ... see: Extendable aspects

  2. all of our app features are supplied (accumulated from the features/ directory)

  3. a registerRootAppElm() callback is used to catalog the supplied rootAppElm to the specific React platform in use. Because this registration is accomplished by your app-specific code, feature-u can operate in any of the React platforms, such as: react-web, react-native, and expo ... see: React Registration

  4. as a bit of a preview, the return value of launchApp() is a Fassets object, which promotes the accumulated Public Face of all features, and is exported to provide Cross Feature Communication ... here is what the fassets looks like (for this example):

    fassets: {
      api: {

Hopefully this gives you a basic feel of how feature-u operates. The subsequent sections will develop a more thorough understanding!

Real Example

Want to see a real feature-u app?

eatery-nod is the application where feature-u was conceived. It is a react-native expo mobile app, and is one of my sandbox applications that I use to test frameworks. I like to develop apps that I can use, but have enough real-world requirements to make it interesting.

eatery-nod randomly selects a "date night" restaurant from a pool of favorites. My wife and I have a steady "date night", and we are always indecisive on which of our favorite restaurants to frequent :-) So eatery-nod provides the spinning wheel!

results matching ""

    No results matching ""