Skele (Classic)

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Skele is an architectural framework that assists building data-driven apps with React or React Native. It is extremely well-suited for creating highly dynamic UIs, that are driven by back-end systems (like Content Management Systems).

It uses redux for managing the state of the application. All great tools around the redux eco-system can be leveraged, because Skele builds on top of it.

Immutable data structures are used to represent the application state. This allows for a substantially more efficient shouldComponentUpdate implementation compared to react-redux. Immutable's implementation also allows for more efficient (space and time-wise) changes to the application state. This makes the framework well suited for mobile application use.

The documentation of Skele's API is available here.

Note on Transitioning from Girders Elements

Please follow this manual.

Installation

npm install --save @skele/classic

or

yarn add @skele/classic

Also, you will need to add react, redux and react-dom / react-native to your project's dependencies.

Polyfills

Some necessary polyfills will need to be provided too. One options is to add babel-polyfill to your project's dependencies and import it at the top of the entry point to your app.

Another option is to import only the specific polyfills the framework requires. On the web, you will need regenerator-runtime. If you are building an Android app with React Native, you will need a few core-js modules:

import 'core-js/modules/es6.object.set-prototype-of'
import 'core-js/modules/es6.symbol'

Overview

A Skele app, in rough terms, works by

  • mapping a well defined data structure (a single tree of polymorphic elements) to an user interface
  • having a well defined way how to get data from the "outside world" into that tree
  • having a well defined way how to change that data structure based on user interaction
  • having a way how to affect the outside world

Overview Diagram

Application State

The app keeps a central application state (in a redux store) with the following characteristics:

  • it is a well defined polymorphic tree
  • each node in the tree is an element, essentially an object tagged by a kind property
  • Each node / element contains all the essential information necessary to construct a user interface.

Example:

{
  "kind": "__app",
  "entryPoint": {
    "kind": "vertical-container",
    "children": [
      {
        "kind": "teaser",
        "imageUrl": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg"
        "title": "Sherlock Holmes"
      },
      {
        "kind": ["teaser", "small"],
        "imageUrl": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg",
        "imageUrlSmall": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock-small.jpg"
        "title": "Another Sherlock Holmes Teaser"
      }
    ]
  }
}

The Element's Kind

The kind property of an element:

  • serves as a tag; data objects of the same "type" are tagged with the same kind
  • determines which properties are inside that element
  • determines which (if any) sub-elements are there

The kind can be a simple string. E.g.

{
  "kind": "teaser",
  "imageUrl": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg"
  "title": "Sherlock Holmes"
}

I the he above example, the element is of the kind teaser. Elements of the kind teaser have the properties imageUrl and title.

Element kind specialization is supported as well. Specialized kinds are represented using array notation:

{
  "kind": ["teaser", "small"],
  "imageUrl": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg",
  "imageUrlSmall": "http://spyhollywood.com/wp-content/uploads/2016/06/sherlock-small.jpg"
  "title": "Sherlock Holmes"
}

In the above example, the the element is of the kind ['teaser', 'small']. This kind is a specialization of the kind ['teaser'].

Note that the kinds 'teaser' and ['teaser'] are equivalent. The array form is the canonical representation.

There is one rule that is followed when using specializations: Elements of a more specialized kind must contain all the properties that are required for the more general kind.

Following this rule, ['teaser', 'small'], being a specialization of ['teaser'] must contain all the properties that are required for ['teaser']. It therefore provides the imageUrl property (required for ['teaser']), but it adds an imageUrlSmall property as well.

This is a requirement that enables forward compatibility of the data feeds / APIs. As the backend can evolves, it sends more specialized forms of older elements. The clients (usually mobile apps with an update process over which we have no precise control) with an older version of the app can still correctly interpret the newer data feeds.

This is enabled by the Element UI Resolution process described below.

UI

The UI of an element can be any React Component that takes three props: element, dispatch and uiFor.

  • The element is an immutable.js structure representing the data model (sub-tree) of the specific element in the application state
  • The dispatch is the standard redux dispatcher for dispatching actions
  • The uiFor property is a function that is used to render the UI of sub-elements.

We register the UI for an element by using:

ui.register(<element-kind>, <element>)

Following the example we used so far, we can define the UI for the element of kind teaser the following way:

ui.register('teaser', ({ element }) => (
  <View>
    <Image source={{ uri: element.get('imageUrl') }} />
    <Text>{element.get('title')}</Text>
  </View>
))

The code essentially states: whenever an element of the kind teaser needs to be presented, use the following component to materialize the UI for it.

Rendering of sub - elements

An element (such as the __app in the example we are running with) can have one or more children that are also elements. When rendering such an element one must take care to render its children properly.

This is done via the uiFor property passed to the element's UI:

ui.register('__app', ({ element, uiFor }) => (
  <div id="app">{uiFor('entryPoint')}</div>
))

Here we are specifying the UI for our top-level element (root element). The __app has an entryPoint property which is an element of any kind. By invoking uiFor('entryPoint') we are asking Skele to produce the UI for the element under the property entryPoint for us.

uiFor can be used to render a list of elements as well:

ui.register('vertical-container', ({ element, uiFor }) => (
  <div class="vertical-container">{uiFor('children')}</div>
))

Here, we are registering the UI for the element of kind vertical-container from our example. This element has a children property, which is a list of elements (of varying kind). By invoking uiFor on this property we are asking Skele to render the ui for all the elements in this list, using the appropriate UI for each of those elements.

uiFor can also be called with a a key-path:

ui.register('__app', ({ uiFor }) => (
  <div class="app">{uiFor(['entryPoint', 'children', 0])}</div>
))

Here, in the UI for __app, we are are asking Skele to render the UI for the first element of the children of entryPoint of the current element.

UI Resolution

Whenever Skele encounters a request to present a UI for some element

  1. it will try to find the UI using the requested element first
  2. if it doesn't find an UI, it will try with a more general kind
  3. if it doesn't find a UI for it, it will try with an even more general kind
  4. and so on, until an UI is found or there are no more general kinds to be derived from the current one.

Given the kind ['teaser', 'small', 'new'], the following statement holds true:

[] --  is more general kind of --> ['teaser']  --
   --> is more general kind of --> ['teaser', 'small'] --
   --> is more general kind of --> ['teaser', 'small', 'new']

So the resolution will

  1. first look for an UI for ['teaser', 'small', 'new']
  2. if not found, it will look for an UI for ['teaser', 'small']
  3. if not found, it will look for an UI for ['teaser']
  4. if not found, it will look for an UI for [] (the empty kind)

Dispatching Actions

An action is just a string identifying what needs to be performed on the state. When one triggers an action, one can also supply additional parameters (payload) to the action that will be provided later on to the update.

The dispatch prop is used to dispatch an action. Actions can be

  • local - meaning that the action will be handled by an updater for the element from which it was dispatched
  • global - meaning that the action will be handled by an updater for the action that is either registered for the element from which the action was dispatched, or some of its parents

Global actions are identified by starting dot in the action type (for now, might change in near future).

Update

Updates are registered in a similar way ui is registered, by using the element kind.

update.register(<element-kind>, <update-definitions>)

Here is an example:

update.register(['article'], elementRegistry => {
  elementRegistry.register('TOGGLE_BOOKMARK', (element, action) =>
    element.set('bookmarked', element.get('bookmarked'))
  )
  elementRegistry.register('.LOAD', (element, action) =>
    element.set('data', action.payload.data)
  )
})

In this example, for the article element we register two updates:

  • a local update, in case TOGGLE_BOOKMARK is dispatch only from the article element, we change the bookmarked flag
  • a global update, in case .LOAD is dispatch from the article element or any of its children

Read

Reads are a standardaized way to bring data into you app. Most prominent use-case is fetching data from the back-end systems.

Reads are started by preparing the endpoint from where the data is going to be fetched

To kick-off a read, you create an element with the following structure, on the place where you want the data to be attached:

{
  "kind": ["__read", "container", "teasers"],
  "uri": "http://www.mocky.io/v2/588333b52800006a31cbd4b9"
}

This read element, is being resolved, because the frame-work contains a default element registered for the kind __read. It doesn't render any UI. This element dispatches a special action and changes the kind to ["__load", "conatiner", "teasers"].

Again, there is a default element, registered for __load. It renders a loading spinner on the screen. It also disaptches a special action, that will perfrom the actuall fetching of the data. If the data is fetched successfully, then the data will be stored in the node which initiated the read, overriding all the existing attributes. Assuming the server response is the following JSON:

{
  "kind": ["container", "teasers"],
  "children": [
    {
      "kind":[
         "teaser",
         "image"
      ],
      "imageUrl":"http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg",
      "title":"Sherlock Holmes"
    },
    {
      "kind":[
         "teaser",
         "image"
      ],
      "imageUrl":"http://img15.deviantart.net/6ee0/i/2010/286/2/2/dr__watson_by_elenutza-d30o87s.png",
      "title":"Dr. Watson"
    }
  ]
}

This will essentially transform the data to:

{
  "kind": ["container", "teasers"],
  "children": [
    {
      "kind":[
         "teaser",
         "image"
      ],
      "imageUrl":"http://spyhollywood.com/wp-content/uploads/2016/06/sherlock.jpg",
      "title":"Sherlock Holmes"
    },
    {
      "kind":[
         "teaser",
         "image"
      ],
      "imageUrl":"http://img15.deviantart.net/6ee0/i/2010/286/2/2/dr__watson_by_elenutza-d30o87s.png",
      "title":"Dr. Watson"
    }
  ]
}

In case error happens, the kind is transormed to ["__error", "container", "teasers"] and some meta information about the error is stored. The system has an element registered for the kind with __error that presents this information.

The elements registered with kinds __load and __error, are good examples for customiziable elemetns, that you will most probably over-ride with a more specific element kind. When that is done, you need to preserve the behaviour for the process to still continue to work.

Engine

The Engine is your App.js. You use it to bootstrap an app based on Skele. It is a React Component that you pass the initState prop:

const initState = {
  kind: ['app', 'teasers'],
  content: {
    kind: ['__read', 'container', 'teasers'],
    uri: 'http://www.mocky.io/v2/588333b52800006a31cbd4b9'
  }
}

// main render
<Engine initState={initState} />

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