/snowflake

:snowflake: A React-Native Android iOS Starter App/ BoilerPlate / Example with Redux, RN Router, & Jest with either Parse.com or Hapi server locally or on OpenShift for the backend

Primary LanguageJavaScriptMIT LicenseMIT

NOTES:

Snowflake snowflake

A React-Native starter mobile app, or maybe just an example, or maybe a boilerplate (you decide) for iOS and Android with a single code base.

Join the chat at https://gitter.im/bartonhammond/snowflake ios Build Status andriod Build Status License


Navigation is handled with React Native Router Flux

Using Redux and Immutable, the state of the application is testable with Jest, currently at 80% coverage.

Snowflake supports Hot Reloading of its state. Snowflake uses CI with Bitrise.io and has extensive docs and 45+ min of video demonstating implementation.

Note: Snowflake now (Jan 3, 2016) has a choice of servers, either

  • The original Parse.com or
  • Hapi Server that runs on Openshift and locally.

See https://github.com/bartonhammond/snowflake-hapi-openshift for more information about the OpenShift Hapi server. The setup instructions below describe how to select the server you desire.


Content


Screens

Platform Register Login Profile
iOS ios Profile ios Login ios Register
Android Android Register Android Login Android Profile

Summary

  1. The application runs on both iOS and Android with a single code base
  2. A User can Register, Login, Logout, Reset their Password and modify their Profile
  3. The Forms display messages for help and field validation.
  4. The Forms are protected when fetching.
  5. The Forms display spinner when fetching.
  6. Form submission errors are displayed (see above Login)
  7. All state changes* are actions to the Redux store.
  8. The backend is provided by Parse.com using the Rest API
  9. Every action performed by the UI interfaces with the Redux actions and subsequently to the Redux Store. This reduces the complexity of the JSX Components tremendouslyand makes them easily testable.
  10. Jest Unit Tests cover 86% of the application statements.
  11. Demonstrates how to setup React-Native to perform Jest testing with Babel.
  12. Includes ability to debug Jest unit testswith Chrome
  13. Instructions and videos for continuous integration with Bitrise.io

Quotes

Some quotes from users of Snowflake

Viktor

Just saw the tweets, still watching the vids. It's awesome!! It's really really high quality, I'm truly amazed

John

project is awesome, thank you for providing it!

Eric:

I've been going through snowflake and love what you have done!

Nikos:

wow new videos, nice

Josh

thanks for the thorough videos!

Patrick

just wanna snowflake is awesome

Justin

Congrats - the project is super helpful

Stephen

Thanks so much for this amazing foundation!

Jim

Neat project


Technologies

The following are brief descriptions of the technologies used

React Native enables you to build world-class application experiences on native platforms using a consistent developer experience based on JavaScript and React.

What more can I say? It's a fantastic leap forward in providing the ability to write native applications with Javascript that target both iOS and Android.

This application provides one code base that works on both platforms. It demonstrates Form interactions, Navigation, and use of many other components.

###Jest 81 Unit tests that cover plain objects and JSX components

The de-facto standard for React/Native testing. This app demonstrates how to mock ReactNative, node_modules, classes and to properly test JSX components by programmatically changing the props, and throughly test the applications data state and the actions in conjunction with Redux.

Jest Coverage Analysis

###Redux Redux is a predictable state container for JavaScript apps. It helps you write applications that behave consistently, run in different environments (client, server, and native), and are easy to test.

Before Redux, application state was managed by all the various components in the app. Now, the state is managed in a predictable and consistent manner and it can be tested with Jest and best of all, it is independent of the UI. This is a major advancement in application design!

###Hapi For me, Hapi provided a clear way for defining APIs and managing things clearly. Some folks like Express, I've used Express myself, and I wanted to try Hapi. I'm very satisfied with Hapi. As you may or may not know, WalMart Labs produced Hapi and they've used it in their business.

One of the needs of any application is server side processing. With the ability to run Hapi locally or on OpenShift, I'm able to write my server logic and test it locally. When I'm "happy" I can push the code to OpenShift. The same code runs in both environments.

###Parse.com Focus on creating amazing user experiences and forget complex infrastructure

Using Parse.com as the backend reduces the angst of setting up a server, managing the database, providing security and backups, etc. Their free tier is more then ample to achieve a POC.

While Parse.com was nice to use in starting the Snowflake app, once I needed to write server side code, I chose to look elsewhere. Why? Because, for one, I can't debug the "Cloud Code" locally or remotely. Another, Parse has it's own flavors for HTTP Request and Promises. It just made it difficult to write server side code and work w/ Parse.

I chose OpenShift because I could get a reasonable performing application for free. The Snowflake server (https://github.com/bartonhammond/snowflake-hapi-openshift uses 3 gears with MongoDB and Redis.

###TComb A structured model based approach to declarative forms

*With this library, you simplify form processing incredibly! Write a lot less code, get usability and accessibility for free (automatic labels, inline validation, etc) and no need to update forms when domain model changes. This application demonstrates how to test these forms also!

###Validate.js Validate.js provides a declarative way of validating javascript objects.

Using Validate.js for the Form processing was a breeze! And with the ability to test the validations to the Redux state was very easy!


Setup

git clone https://github.com/bartonhammond/snowflake.git
  • install dependencies
npm install
  • Copy or move src/lib/config.example.js to src/lib/config.js.
    • Note: you must select one of three options for the backend as shown below:
  backend: {
    parse: false,
    hapiLocal: false,
    hapiRemote: true
  },
  • To run Hapi either locally on remotely on OpenShift, update the below src/lib/config.js file:
  HAPI: {
    local: {
      url: 'http://127.0.0.1:5000'
    },
    remote: {
      url: 'https://mysnowflake-bartonhammond.rhcloud.com'
    }
  }

  • If you choose Parse.com, create account and app on Parse.com
    • Copy the Parse.com app keys for APP_ID and REST_API_KEY and update src/lib/config.js
    • Update the Apps Settings -> Authentication
      • Allow username and password-based authentication -> Yes
      • Allow anonymous users -> No
    • Update the Apps Settings -> Email
      • Verify user emails -> Yes

To run:

  • On mac, open XCode and load project
  • For android, react-native run-android assuming you have an emulator or device attached.
  • To run Jest, npm test
  • To debug Jest unit cases, install node_inspector and run npm run test-chrome
  • Enjoy!

Continuous Integration

CI proves to the developer that everything required to build and test the application is well defined and repeatable. Without CI, one would not know, for a fact, that all the required tools and assests are available for everyone to build with. CI gives us developers some "peace of mind" that our build process is repeatable.

The following videos will walk you through setting up CI with BitRise.io


Introduction
  • Video 1/7: https://youtu.be/EYafslJvXz8 Introduction

  • Snowflake is a starter app so all tutorials are basic in nature

  • There are a bizzilion ways of doing any of this - I'm showing one

  • There's a number of CI sites, I chose Bitrise.io

  • There's a general understanding of why to us a CI

  • The build will be done on Bitrise.io - not locally

  • The only goal is to get the build to run on Bitrise.io

  • You can still run applications locally with simulators

Bitrise Overview
iOS XCode Modifications
XCode Certs Provision Profiles App Id
Create iOS App
  • Video 5/7: Bitrise, YML, Profile, P12 Create iOS App
  • Login/Register Bitrise.io
  • Dashboard
  • Add App
  • Authenticate GitHub
  • Select repository, branch
  • Import YML
  • Download Certifications
  • Update KeyChain
  • Save .p12
  • Download Provision
  • Load .p12 and provision to Bitrise.io
  • Setup Secret and Env Vars
  • Build
iOS install
  • Video 6/7: https://youtu.be/nQWXJI0ncns iOS install from email

  • From device, open email app

  • Open letsconnect

  • Follow instructions to load in Safarie

  • Follow prompts and enjoy!

Android Setup
  • Settings -> Docker Image
  • Secret Variables
  • App/build.gradle
  • Setup Secret and Env Vars
  • Import YML
  • Run build
Things not addressed
  • Submission to any store
  • Working with other CIs
  • Complex setups for either ios or andriod
  • Debugging any failures
  • Shiny new things
  • No local builds with Bitrise CLI
  • No local builds with Fastlane
  • No tutorial on all the features of Fastlane

Redux State Management

This section explains a little about what I've learned with Redux and the management of application state.

Without Redux

![Alt text](http://g.gravizo.com/g? digraph G { aize ="4,4"; login [shape=box]; login -> validate [style=bold,label="1"]; login -> restful [style=bold,label="2"]; restful -> parse [style=bold,label="3"]; login -> router [style=bold,label="4"]; router-> new_page [style=bold,label="5"]; } )

A typical app, at least those I've written before, have logic and state scattered all through out. Frameworks help to organize but typically the developer has to know how to "stitch" it together by remembering to update certain state at certain times.

In the above diagram, the Login component is responsible for calling the Validate and making sure the rules are applied and errors are displayed. Then it has to have logic that confirms everything is in the right state, and pass that data to a Restul API to interact, in this case, with Parse.com. When that activity is complete the Router has to be informed and a new_page can be displayed.

This makes testing hard as the logic is partially contained in the Login component itself and the sequence of those events are encapsulated there too!

With Redux

![Alt text](http://g.gravizo.com/g? digraph G { aize ="4,4"; login [shape=box]; login -> Action[style=bold,label="1"]; Action -> Reducer [style=bold,label="2"]; Reducer -> login [style=bold,label="3"]; login -> Action [style=bold,label="4"]; Action -> restful [style=bold,label="5"]; restful -> parse [style=bold,label="6"]; Action -> Reducer [style=bold,label="7"]; Reducer -> new_page [style=bold,label="8"]; } )

What the above diagram depicts is that the logic for login is contained in the Actions and Reducer and can be tested in isolation from the UI. This also makes the UI Component Login much simpler to write as it just renders content based on props that are provided. The props are actually the Reducer Store.

So what is happening in this diagram? Where's the Validation? That would be in step 1. When the user enters characters on the form, they are sent to an action. The action packages them up and sends them to the Reducer. The reducer looks at what Type the Action is and performs the operation, in this case, Validate the parameters.

How does Login respond? Well, it recieves the updated Props - the properties which are the store. It then renders it's output based on those properties. Just straight forward logic - nothing more then checking the properties and display approptiately. At no time does the Login component change any property state.

The responsibility of changing state belongs to the Reducer.

Every time an Action is called, that Action interacts w/ the Reducer. The Reducer does state changes on the State or Store model.

Let's look at a concrete example, Resetting a Password. Now the UI is pretty simple, provide a Text Input for the email entry and a Button to click. Let's further assume that the email has been validated and the user clicks the "Reset Password" button. All that Login does is call an Action function called resetPassword passing the email value.

So don't get too overwhelmed with the following code. You can think of the dispatch calls as meerly as a messaging system. Each dispatch call invokes a function - it just calls a function in a Promise chain.

I want to now look at one specific Action and trace it's path. That action is the dispatch(resetPasswordRequest()); call. That call signals that the "reset password request" processing is starting. We'll look at that next and how it trickles all the way back to the Login ui.

Action.resetPassword

export function resetPassword(email) {
  return dispatch => {
    dispatch(resetPasswordRequest());
    return new Parse().resetPassword({
      email: email
    })
      .then((response) => {
        if (response.status === 200 || response.status === 201) {
          dispatch(loginState());
          dispatch(resetPasswordSuccess());
        } else {
          dispatch(resetPasswordFailure(JSON.parse(response._bodyInit)));
        }
        return response;
      })
      .then((response) => {
        if (response.status === 200 || response.status === 201) {
          dispatch(emitLoggedOut());
        }
      })
      .catch((error) => {
        dispatch(resetPasswordFailure(error));
      });

  };
}

The simple function returns an object with type RESET_PASSWORD_REQUEST. All of the activities performed have this pattern, make a REQUEST and then either have a SUCCESS or a FAILURE.

Now Redux is responsible for taking this returned Action object and passing it to the Reducer. What does the Reducer do with this Action? We'll look at that next.

Action.resetPasswordRequest

export function resetPasswordRequest() {
  return {
    type: RESET_PASSWORD_REQUEST
  };
}

The Reducer is a function with 2 parameters, state and action. What it does is to make modifications to the state depending upon the action. The state is any javascript object you like. This application uses Immutable.js for it's state so to guarantee the state is always immutable.

Notice the switch statement - it's looking at that Action.type value - all Actions have a type value. In our case, the type is RESET_PASSWORD_REQUEST.

So what's happening here. If any request type comes to the Reducer, including RESET_PASSWORD_REQUEST, we change the state by setting the form.isFetching to true and the form.error field to null. The returned new state value has these two fields set.

What happens with that new state? Well Redux makes that state available in the Login component props. And since the props have changed, Login needs to render. Let's look at that next.

Reducer.Action.ResetPasswordRequest snippet

export default function authReducer(state = initialState, action) {
  if (!(state instanceof InitialState)) return initialState.mergeDeep(state);
  switch (action.type) {

  case SESSION_TOKEN_REQUEST:
  case SIGNUP_REQUEST:
  case LOGOUT_REQUEST:
  case LOGIN_REQUEST:
  case RESET_PASSWORD_REQUEST:
      let nextState =  state.setIn(['form', 'isFetching'], true)
        .setIn(['form','error'],null);
    return nextState;
.....

So here in the render component we need to decide if a spinner should be displayed. It should display when the props.isFetching is true. That's the value set above in the Reducer! All the Login render() has to do is check that property and set the UI appropriately.

Login.Header.render snippet

  render() {
    let spinner = <Text> </Text>;
    if (this.props.isFetching) {
      spinner =  <GiftedSpinner/>;
    }

    return (
      <View style={styles.header}>
        <Image style={styles.mark} source={{uri:
                                            'http://i.imgur.com/da4G0Io.png'}}
        />
        {spinner}
      </View>
    );
  }

Hopefully this gives you some insight into how Redux is integrated into the application. In my opinion, this is a huge step in application logic.

If you'd like to read an excellent tutorial on Redux I can't recommend this one enough: http://teropa.info/blog/2015/09/10/full-stack-redux-tutorial.html


Hot Reloading

This video shows Snowflake exporting and importing state from Redux. It demonstrates, with the iOS Simulator, the process of copying the state for import at a later time. After the demo, I walk through the code to clarify how I achieved this. It's assumed you have some familiarity with Redux. Hopefully it helps you gain a better understanding of what Redux provides you!

Snowflake Hot Loading


Faq

Why did you use the RestAPI instead of the (JS-sdk | ParseReact)

I looked at it initially and, imo, it had too much magic. For example, I couldn't see how I was going to isolate my JSX components easily and keep all my "state" in Redux. ParseReact is right there in the middle of your JSX component which would tie me to a very particular vendor and implementation detail. If I decided to later move away from ParseReact I'd have to rewrite a lot of code and tests.

Also, it had this statement

Mutations are dispatched in the manner of Flux Actions, allowing updates to be synchronized between many different components without requiring views to talk to each other

I don't want to deal w/ wrapping my head around Flux Actions and have to monkey-patch or something to get Redux Actions.

In a previous life, I worked with Parse JS SDK and it's based on backbone.js. So I didn't go that direction either, because, again, I didn't want to have another data model to deal with. Plus, at the time I was using it, the SDK was buggy and it was difficult to work with.

With the Parse Rest API, it's simple, can be tested itself from the command line with curl, it's clear, it's succinct and it's easily replaced with something else, an example such as Mongo/Mongoose without much, if any, impact on the code base.

######-barton hammond