@webcodesk/react-app-framework-demo v2.0.28

React Application Framework for Webcodesk

Installation

yarn add @webcodesk/react-app-framework

or

npm install @webcodesk/react-app-framework

Philosophy and usage

When the amount of the Redux boilerplate code become critical, we lose the high-level understanding of our app. As our app grows, a perception which container is responsible for specific data becomes increasingly difficult. We have to jump back and forth between files to understand the data flow in the particular use-case.

Although, it turns out that the behavior of Redux apps can be decoupled from components, containers, or plain functions - places where we usually keep business logic - and can be contained and described entirely using event flows.

Such a flow can be described using JSON, and our UI can directly be driven by its description.

It does not mean that describing the logic in JSON format is more comfortable to write than any boilerplate code. Although, this approach let me built Webcodesk - a tool that makes JSON configurations on the fly and reduces the boilerplate code to zero.

The best way to explain something is to provide an example. The example below is a simple proof of concept I have put together to show you how you can use the event flow description instead of writing Redux code.

Let's take a look at two different implementations of a simple use-case where the user enters its name into the input field in the form, and the header panel on the page displays greeting text with the entered name.

Both implementations use pre-created and reusable React components: Form and TitlePanel.

import React from 'react';
import PropTypes from 'prop-types';

const rootStyle = {
  width: '150px',
  height: '150px',
  display: 'flex',
  flexDirection: 'column',
  justifyContent: 'center',
  alignItems: 'center',
};

const inputStyle = {
  padding: '5px',
  borderRadius: '4px',
  border: '1px solid #cccccc',
};

const buttonStyle = {
  padding: '5px',
  borderRadius: '4px',
};

/*
  Input form for the user name
 */

class Form extends React.Component {
  static propTypes = {
    // send the entered name
    onClick: PropTypes.func,
  };

  handleClick = (e) => {
    if (e) {
      e.stopPropagation();
      e.preventDefault();
    }
    this.props.onClick(this.inputElement.value);
  };

  render () {
    return (
      <form onSubmit={this.handleClick}>
        <div style={rootStyle}>
          <div style={{ margin: '1em 0 1em 0' }}>
            <input
              ref={me => this.inputElement = me}
              type="text"
              placeholder="Enter your name"
              style={inputStyle}
            />
          </div>
          <div>
            <button
              type="submit"
              onClick={this.handleClick}
              style={buttonStyle}
            >
              Click
            </button>
          </div>
        </div>
      </form>
    );
  }
}

export default Form;

import React from 'react';
import PropTypes from 'prop-types';
/*
  Panel with title
 */
class TitlePanel extends React.Component {
  static propTypes = {
    // simple title text
    title: PropTypes.string,
  };

  render () {
    const { title } = this.props;
    return (
      <h1 style={{ textAlign: 'center' }}>
        {title || 'Empty Title'}
      </h1>
    );
  }
}

export default TitlePanel;

Example with Redux

The first implementation is a classic way to create a single page Web application with Redux.

If you don't want to create files and write code, get the source code of the example from simple_example_redux

Bootstrap the project with create-react-app:

npx create-react-app simple-example-1

Install Redux dependencies:

yarn add redux react-redux

Add Form and TitlePanel source code files into the components folder.

Here is the initial project's file structure including Form and TitlePanel components files:

public/
src/
    components/
        Form.js
        TitlePanel.js
    App.js
    index.js
    index.css
    ....

First of all, we have to create a Redux store and wrap the root component with the Provider component imported from react-redux.

import React from 'react';
import ReactDOM from 'react-dom';
import { createStore } from 'redux';
import { Provider } from 'react-redux';
import './index.css';
import rootReducer from './reducers';
import App from './App';

const store = createStore(rootReducer);

ReactDOM.render(
  <Provider store={store}>
    <App />
  </Provider>,
  document.getElementById('root')
)

Then we should create the index file with the root reducer in reducers folder in the src directory.

export default (state = {}, action) => {
  switch (action.type) {
    case 'MAKE_GREETING_TEXT':
      return {
        ...state,
        greetingText: action.greetingText,
      };
    default:
      return state;
  }
};

Add index.js actions file in the actions folder inside the src directory:

export const makeGreetingText = userName => ({
  type: 'MAKE_GREETING_TEXT',
  greetingText: `Hello, ${userName}!`
});

Create the containers folder in the src directory, and create there two files FormContainer.js and TitleFormat.js.

Wrap the Form component into its container:

import { connect } from 'react-redux';
import { makeGreetingText } from '../actions';
import Form from '../components/Form';

const mapDispatchToProps = (dispatch, ownProps) => ({
  onClick: (userName) => dispatch(makeGreetingText(userName))
});

export default connect(
  null,
  mapDispatchToProps
)(Form);

Wrap the TitlePanel component too:

import { connect } from 'react-redux';
import TitlePanel from '../components/TitlePanel';

const mapStateToProps = (state, ownProps) => ({
  title: state.greetingText,
});

export default connect(
  mapStateToProps,
)(TitlePanel);

Finally, add the containers into the App component:

import React, { Component } from 'react';
import TitlePanelContainer from './containers/TitlePanelContainer';
import FormContainer from './containers/FormContainer';

class App extends Component {
  render() {
    return (
      <div style={{display: 'flex', alignItems: 'center', justifyContent: 'center', width: '100%', height: '500px', flexDirection: 'column'}}>
        <TitlePanelContainer />
        <FormContainer />
      </div>
    );
  }
}

export default App;

Now you can run the dev server and try application:

yarn start

Example with React App Framework

The second example uses create-react-app to bootstrap the project, but with the modified react-scripts.

If you don't want to create files and write code, get the source code of the example from simple-example-react-app-framework

Bootstrap the project with the command:

npx create-react-app --scripts-version @webcodesk/react-scripts simple-example-2

The structure of the source code, in this case, is a bit different from what create-react-app generated before.

File structure:

public/
src/
    app/
    etc/
    usr/
    index.css
    index.js

Where:

• app - a directory that react-app-framework uses for component index files, Redux storage config, page and routes configuration.
• etc - a directory with configuration files for Webcodesk, we don't use it now, because we are going to do everything manually.
• usr - a directory, where we keep our source code.

Add Form and TitlePanel source code into the components folder in src/usr directory.

src/
    usr/
        components/
            Form.js
            TitlePanel.js

First, we should add our components into index files in the app directory.

Go to the src/app/indices/userComponents/usr directory and create there the components folder:

src/app/indices/userComponents/usr/components

Then create the index.js file inside this folder, and add the following lines:

import Form from 'usr/components/Form';
import TitlePanel from 'usr/components/TitlePanel';

export default { Form, TitlePanel };

Then add import into the index file in the parent directory (src/app/indices/userComponents/usr):

import components from './components';
export default {components};

Doing this we set up index files that tell react-app-framework where the React components are.

Now we should add components into the main page. There is already a configuration for the main page in the src/app/schema/pages folder.

Open the main.js file there and add the following code into it:

export default {
  type: '_div',
  props: {
    style: {
      width: '100%',
      height: '500px',
      display: 'flex',
      flexDirection: 'column',
      alignItems: 'center',
      justifyContent: 'center',
    }
  },
  children: [
    {
      type: 'usr.components.TitlePanel',
      instance: 'titlePanel',
    },
    {
      type: 'usr.components.Form',
      instance: 'form',
    }
  ]
};

This code tells to create a div element with two children: usr.components.TitlePanel and usr.components.Form

Please note, that we specify kind of the full path to each component in the type field. Also, there is an instance field that used to indicate the instance of the React component in the application.

Think of the component's instance as an object initialized in the memory. There may be multiple instances of the React component with different names.

However, for now, remember the instances names because we use them in the flow configuration.

Once we've changed the page config, we should create a function that is responsible for making greeting text.

Create the actions.js file in the src/usr/api folder and add the following code there:

export const makeGreetingText = (userName, {stateByDispatch, history}) => (dispatch) => {
  if (stateByDispatch) {
    const { props } = stateByDispatch;
    const newProps = {...props, greeting: userName ? `Hello, ${userName} !!!` : 'Hello, Noname !!!'};
    dispatch({props: newProps});
  }
};

As you might notice, the function is a chained function. This is done intentionally because the framework recognizes only such syntax of the function.

Another feature of the function is a dispatch argument in the second function in the chain. The dispatch is a callback method which is injected by the framework during the function execution.

The argument of the callback is the object with keys that serve as names for output payloads.

Remember the name of the greeting key in the dispatch - we use it in the flow configuration.

The function in react-app-framework is considered as a decoupled and independent component too. That's why we have to add the function into index files in the src/app directory in order the framework finds the function.

Go to the src/app/userFunctions/usr directory and create there new api folder. Then create the index.js file inside:

import { makeGreetingText } from 'usr/api/actions';
export default {makeGreetingText}

And import this file in the index.js file in the parent directory (src/app/userFunctions/usr):

import api from './api';
export default {api};

There is no requirements for the structure of index files, but we are using nested folders for indexes to show how it should be in the real application when there are a lot of components.

It's time to add the last piece of the application - a flow.

The flow is a description that shows how components, functions, and pages are connected in the application.

You can think about the flow as the configuration of a use-case that should be implemented.

You may have a lot of use-cases in the real-world application. However, feel free to create any amount of the different flows in the application. Even though you have to implement almost equal data flows with slightly different scenarios, and with the same elements, react-app-framework reconciles all flows in one big flow where equal parts are merged. Many separate flows that describe different use cases give you the ability to easily modify different parts of overall application logic.

Find the start.js file in src/app/schema/flows directory. This is a sample flow config which we should replace with our configuration.

Replace the file content with the following code:

export default [{
  type: 'component',
  props: { 'componentName': 'usr.components.Form', 'componentInstance': 'form' },
  events: [{
    name: 'onClick',
    targets: [{
      type: 'userFunction',
      props: { 'functionName': 'usr.api.makeGreetingText' },
      events: [{
        name: 'greeting',
        targets: [{
          type: 'component',
          props: {
            componentName: 'usr.components.TitlePanel',
            componentInstance: 'titlePanel'
          }
        }]
      }]
    }]
  }]
}];

Where:

• type - the type of the section in the flow chain. It can be component or userFunction

• props - the arbitrary information about the section.

For example, there are componentName, componentInstance in case of the section has component type.

• events - the list of events that fire in the component instance or in function during the flow execution.

When the section is component the events are taken from the PropTypes descriptions in the compoent's source code. However, in the case of userFunction the events are any of dispatch mentioned in the function source code.

• name - the event name by component's function property or dispatch name.

• targets - a list of the component instances or functions that receive data produced by the parent event.

Please note, component's events and function's dispatches produce only the first argument. The second argument is the helper object with the state of the component instance and React Router history.

Once we've added all configurations, we can start the development server:

yarn start

Conclusion

There are no advantages of using react-app-framework because you should add configurations in different files manually, that leads to the same jumping back and forth between files as in the case of creating Redux actions, constants, reducers, etc.

But...

There is Webcodesk - a visual tool that uses react-app-framework to build Web applications. Webcodesk creates all the necessary configs in the project automatically. The only thing you have to do is to drag and drop components into the pages and draw visual flow in the flow editor.

License

MIT License

Copyright (c) 2019 Oleksandr (Alex) Pustovalov