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3 Rs of Software Architecture

software architecture pyramid

Software Architecture

After 50+ years of software engineering's existence, we haven't settled on an exact definition of what software architecture is. After all, it is the art in computer science -- persistently evading our most determined of efforts to define it. Even still, it's so vital to the fabric of our industry and applications, that it's impossible to ignore.

Despite our lack of agreement, there are a lot of definitions that can help bring us closer to a formalization of software architecture. Perhaps the most notable of such comes from the IEEE:

"Architecture is the fundamental organization of a system embodied in its components, their relationships to each other, and to the environment, and the principles guiding its design and evolution." [IEEE 1471]

While this definition and others can bring clarity to the elements that make up architecture, it doesn't give us a mental model to use when developing our applications. This project however, aims to give just that. By looking at 3 particular "ilities" (readability, reusability, and refactorability), we can form a hierarchy of architectural attributes that can give us a framework for thinking about our system's code and architecture. It won't give you an architecture per se, but it will guide you in thinking about what architecture works for your application.

What is This Project?

This project is a guide that attempts to analyze 3 "ilities" of software architecture (readability, reusability, and refactorability), and show how we can form better code by thinking through these concepts hierarchically. This project is for any developer of any skill level, but if you are just starting out you will find more value in this than a seasoned practitioner.

The code we will be looking at is a very simple shopping cart application written in JavaScript, which makes use of two major libraries in the ecosystem: React and Redux. JavaScript and the aforementioned tools are by no means the only way to structure any particular application. They happen to be used by a lot of newcomers to the industry, and by many veterans as well, so their frequency of usage makes them a wonderful common language by which to discuss code quality. We will be developing our application one piece at a time and looking at Bad vs. Good versions at each step in 3 R hierarchy. You can find all the code in the src directory, and instructions about how to build this and develop on it are at the bottom of this README.

One more thing to reiterate: this project isn't the only way to look at software, and it certainly can't give you an architecture, but it's something that can hopefully guide your thinking, as it has guided mine.

Without further ado, let's get started!

1. Readability

Readability is the simplest way of assessing code quality and it's the most straightforward to fix. It is the most obvious thing you see right when you open up a piece of code, and it generally consists of:

These aren't the only things to consider, but they are immediate red flags. Fortunately, there are a few easy rules to follow to fix problems associated with those above:

Let's take a look at this first piece of our shopping cart application, to see what bad readability looks like:

// src/1-readable/bad/index.js
import React, { Component } from 'react';

// Inventory
class inv extends Component
{
  constructor()
  {
    super();

    // State
    this.state =
    {
      c: 'usd', // currency
      i: [ // inventory
        {
          product: 'Flashlight',
          img: '/flashlight.jpg',
          desc: "A really great flashlight",
          price: 100,
          id: 1,
          c: 'usd'
        },
        {
          product: 'Tin can',
          img: '/tin_can.jpg',
          desc: "Pretty much what you would expect from a tin can",
          price: 32,
          id: 2,
          c: 'usd'
        },
        {
          product: 'Cardboard Box',
          img: '/cardboard_box.png',
          desc: "It holds things",
          price: 5,
          id: 3,
          c: 'usd'
        }
      ]
    }
  }

  render () {
    return (
      <table style={{width: '100%'}}>
      <tbody>
      <tr>
      <th>
        Product
      </th>

      <th>
        Image
      </th>

      <th>
        Description
      </th>

      <th>
        Price
      </th>
      </tr>
        {this.state.i.map(function(i, idx) {
          return (
            <tr key = {idx}>
              <td>
                {i.product}
              </td>

              <td>
              <img src={i.img} alt=""/>
              </td>

              <td>
              {i.desc}
              </td>

              <td>
                {i.price}
              </td>
            </tr>
          );
        })}
    </tbody>
    </table>
    );
  }
}

export default inv;

There are a number of problems we can see right away:

Let's take a look at how we could improve it:

// src/1-readable/good/index.js
import React, { Component } from 'react';

export default class Inventory extends Component {
  constructor() {
    super();
    this.state = {
      localCurrency: 'usd',
      inventory: {
        1: {
          product: 'Flashlight',
          img: '/flashlight.jpg',
          desc: 'A really great flashlight',
          price: 100,
          currency: 'usd',
        },
        2: {
          product: 'Tin can',
          img: '/tin_can.jpg',
          desc: 'Pretty much what you would expect from a tin can',
          price: 32,
          currency: 'usd',
        },
        3: {
          product: 'Cardboard Box',
          img: '/cardboard_box.png',
          desc: 'It holds things',
          price: 5,
          currency: 'usd',
        },
      },
    };
  }

  render() {
    return (
      <table style={{ width: '100%' }}>
        <tbody>
          <tr>
            <th>
              Product
            </th>

            <th>
              Image
            </th>

            <th>
              Description
            </th>

            <th>
              Price
            </th>
          </tr>
          {Object.keys(this.state.inventory).map(itemId => (
            <tr key={itemId}>
              <td>
                {this.state.inventory[itemId].product}
              </td>

              <td>
                <img src={this.state.inventory[itemId].img} alt="" />
              </td>

              <td>
                {this.state.inventory[itemId].desc}
              </td>

              <td>
                {this.state.inventory[itemId].price}
              </td>
            </tr>
          ))}
        </tbody>
      </table>
    );
  }
}

This improved code now exhibits the following features:

2. Reusability

Reusability is the sole reason you are able to read this code, communicate with strangers online, and even program at all. Reusability allows us to express new ideas with little pieces of the past.

That is why reusability is such an essential concept that should guide your software architecture. We commonly think of reusability in terms of DRY (Don't Repeat Yourself). That is one aspect of it -- don't have duplicate code if you can abstract it properly. Reusability goes beyond that though. It's about making clean, simple APIs that make your fellow progammer say, "Yep, I know exactly what that does!" Reusability makes your code a delight to work with, and it means you can ship features faster.

We will look at our previous example and expand upon it by adding a currency converter to handle our inventory's pricing in multiple countries:

// src/2-reusable/bad/index.js
import React, { Component } from 'react';

export default class Inventory extends Component {
  constructor() {
    super();
    this.state = {
      localCurrency: 'usd',
      inventory: {
        1: {
          product: 'Flashlight',
          img: '/flashlight.jpg',
          desc: 'A really great flashlight',
          price: 100,
          currency: 'usd',
        },
        2: {
          product: 'Tin can',
          img: '/tin_can.jpg',
          desc: 'Pretty much what you would expect from a tin can',
          price: 32,
          currency: 'usd',
        },
        3: {
          product: 'Cardboard Box',
          img: '/cardboard_box.png',
          desc: 'It holds things',
          price: 5,
          currency: 'usd',
        },
      },
    };

    this.currencyConversions = {
      usd: {
        rupee: 66.78,
        yuan: 6.87,
        usd: 1,
      },
    };

    this.currencySymbols = {
      usd: '$',
      rupee: '₹',
      yuan: '元',
    };
  }

  onSelectCurrency(e) {
    this.setState({
      localCurrency: e.target.value,
    });
  }

  convertCurrency(amount, fromCurrency, toCurrency) {
    const convertedCurrency = amount *
      this.currencyConversions[fromCurrency][toCurrency];
    return this.currencySymbols[toCurrency] + convertedCurrency;
  }

  render() {
    return (
      <div>
        <label htmlFor="currencySelector">Currency:</label>
        <select
          className="u-full-width"
          id="currencySelector"
          onChange={this.onSelectCurrency.bind(this)}
          value={this.state.localCurrency}
        >
          <option value="usd">USD</option>
          <option value="rupee">Rupee</option>
          <option value="yuan">Yuan</option>
        </select>
        <table style={{ width: '100%' }}>
          <tbody>
            <tr>
              <th>
                Product
              </th>

              <th>
                Image
              </th>

              <th>
                Description
              </th>

              <th>
                Price
              </th>
            </tr>

            {Object.keys(this.state.inventory).map(itemId => (
              <tr key={itemId}>
                <td>
                  {this.state.inventory[itemId].product}
                </td>

                <td>
                  <img src={this.state.inventory[itemId].img} alt="" />
                </td>

                <td>
                  {this.state.inventory[itemId].desc}
                </td>

                <td>
                  {this.convertCurrency(
                    this.state.inventory[itemId].price,
                    this.state.inventory[itemId].currency,
                    this.state.localCurrency,
                  )}
                </td>
              </tr>
            ))}
          </tbody>
        </table>
      </div>
    );
  }
}

This code works, but merely working is not the point of code. That's why we need to look at this with a stronger lens than just analyzing if it works and it's readable. We have to look if it's reusable. Do you notice any issues?

Think about it!

Alright, there are 3 main issues in the code above:

Every function and module should just do one thing, otherwise it can be very difficult to figure out what is going on when you look at the source code. The Inventory component should just be for displaying an inventory, not converting and selecting currencies. The benefit of making modules and functions do one thing is that they are easier to test and they are easier to reuse. If we wanted to use our Currency Converter in another part of the application, we would have to include the whole Inventory component. That doesn't make sense if we just need to convert currency.

Let's see what this looks like with more reusable components:

// src/2-reusable/good/currency-converter.js
export default class CurrencyConverter {
  constructor(currencyConversions) {
    this.currencyConversions = currencyConversions;
    this.currencySymbols = {
      usd: '$',
      rupee: '₹',
      yuan: '元',
    };
  }

  convert(amount, fromCurrency, toCurrency) {
    const convertedCurreny = amount *
      this.currencyConversions[fromCurrency][toCurrency];
    return this.currencySymbols[toCurrency] + convertedCurreny;
  }
}
// src/2-reusable/good/currency-selector.js

import React, { Component } from 'react';

class CurrencySelector extends Component {
  constructor(props) {
    super();
    this.props = props;
    this.state = {
      localCurrency: props.localCurrency.currency,
    };

    this.setGlobalCurrency = props.setGlobalCurrency;
  }

  onSelectCurrency(e) {
    const currency = e.target.value;

    this.setGlobalCurrency(currency);

    this.setState({
      localCurrency: currency,
    });
  }

  render() {
    return (
      <div>
        <label htmlFor="currencySelector">Currency:</label>
        <select
          className="u-full-width"
          id="currencySelector"
          onChange={this.onSelectCurrency.bind(this)}
          value={this.state.localCurrency}
        >
          <option value="usd">USD</option>
          <option value="rupee">Rupee</option>
          <option value="yuan">Yuan</option>
        </select>
      </div>
    );
  }
}

CurrencySelector.propTypes = {
  setGlobalCurrency: React.PropTypes.func.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
};

export default CurrencySelector;
// src/2-reusable/good/inventory.js

import React, { Component } from 'react';

class Inventory extends Component {
  constructor(props) {
    super();
    this.state = {
      localCurrency: props.localCurrency,
      inventory: props.inventory,
    };

    this.CurrencyConverter = props.currencyConverter;
  }

  componentWillReceiveProps(nextProps) {
    this.setState({
      localCurrency: nextProps.localCurrency,
    });
  }

  render() {
    return (
      <div>
        <table style={{ width: '100%' }}>
          <tbody>
            <tr>
              <th>
                Product
              </th>

              <th>
                Image
              </th>

              <th>
                Description
              </th>

              <th>
                Price
              </th>
            </tr>

            {Object.keys(this.state.inventory).map(itemId => (
              <tr key={itemId}>
                <td>
                  {this.state.inventory[itemId].product}
                </td>

                <td>
                  <img src={this.state.inventory[itemId].img} alt="" />
                </td>

                <td>
                  {this.state.inventory[itemId].desc}
                </td>

                <td>
                  {this.CurrencyConverter.convert(
                    this.state.inventory[itemId].price,
                    this.state.inventory[itemId].currency,
                    this.state.localCurrency,
                  )}
                </td>
              </tr>
            ))}
          </tbody>
        </table>
      </div>
    );
  }
}

Inventory.propTypes = {
  inventory: React.PropTypes.object.isRequired,
  currencyConverter: React.PropTypes.object.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
};

export default Inventory;
// src/2-reusable/good/index.js

import React, { Component } from 'react';
import CurrencyConverter from './currency-converter';
import Inventory from './inventory';
import CurrencySelector from './currency-selector';

export default class ReusableGood extends Component {
  constructor() {
    super();

    this.inventory = {
      1: {
        product: 'Flashlight',
        img: '/flashlight.jpg',
        desc: 'A really great flashlight',
        price: 100,
        currency: 'usd',
      },
      2: {
        product: 'Tin can',
        img: '/tin_can.jpg',
        desc: 'Pretty much what you would expect from a tin can',
        price: 32,
        currency: 'usd',
      },
      3: {
        product: 'Cardboard Box',
        img: '/cardboard_box.png',
        desc: 'It holds things',
        price: 5,
        currency: 'usd',
      },
    };

    // Most likely we would fetch this from an external source if this were a real app
    this.currencyConversions = {
      usd: {
        rupee: 66.78,
        yuan: 6.87,
        usd: 1,
      },
    };

    this.state = {
      localCurrency: 'usd',
    };

    this.setGlobalCurrency = (currency) => {
      this.setState({
        localCurrency: currency,
      });
    };
  }

  render() {
    return (
      <div>
        <CurrencySelector
          setGlobalCurrency={this.setGlobalCurrency}
          localCurrency={this.state.localCurrency}
        />
        <Inventory
          inventory={this.inventory}
          currencyConverter={new CurrencyConverter(this.currencyConversions)}
          localCurrency={this.state.localCurrency}
        />
      </div>
    );
  }
}

This code has improved a great deal. Now we have individual modules for currency selection and conversion. Moreover, we can now provide the inventory data to our Inventory component. That means that we could download the inventory data, for example, and provide it to the Inventory component without ever having to modify its source code. This decoupling is the Dependency Inversion Principle, and it's a powerful way of creating reusable code.

Now, it's time for a bit of caution. Before diving in and making everything reusable, it's important to realize that reusability requires that you have a good API for others to consume. If you don't, then whoever uses your API could be hurt when you go to update it because you realize it wasn't thought out well enough. So, when should code NOT be reusable?

3. Refactorability

Code that is refactorable is code that you can change without fear. It's code that you can deploy on a Friday night, and come back to on Monday morning without any concern that your users encountered runtime errors.

Refactorability is about the system as a whole. It's about how your reusable modules connect together like LEGO pieces. If you change your Employee module and somehow it breaks your Reporting module, then you know you have some refactorability issues. Refactorability is the highest piece of the 3 R hierarchy, and it's the hardest to achieve and maintain. There will always be issues with any human system, and code is no different. However, there are things that we can do to make our code refactorable. So, what are they?

We are using JavaScript, and not a typed alternative such as TypeScript, so we won't be able to see how static types can help. Suffice it to say, when your code has types, such as you see below, you know that nobody can pass incorrect values to your code, which limits the number of possible errors your app can experience:

// We can't get passed arrays, strings, objects, or any type other than a number
function add(a : number, b : number) {
  return a + b;
}

I highly recommend using a statically typed alternative to JavaScript for large applications. Types give you extra confidence beyond what your tests can provide. But types won't help everything, you still need to isolate your side effects and test your code.

You might be wondering, what does it mean to isolate your side effects? And you might be asking what are side effects even?

A side effect is when your function or module modifies data outside the scope of itself. If you are writing data to a disk, changing a global variable, or even printing something to the terminal, you have a side effect. Now, if your program has no side effects at all then it's a black box. Programs are instructions that a computer executes which take data in and produce data out. If there's no data going out, then a program isn't useful. But, for a program to produce data it has to modify something in the world outside itself. For this reason we need side effects, but we also need to isolate them.

Why should we isolate side effects?

How do we isolate side effects? The answer is by making one central place to update global state of our application. There are many great ways to do this for a client-side JavaScript application, but for this project we will use Redux.

We will modify our existing code to incorporate a shopping cart. Let's take a look at this new code and see why it's NOT refactorable:

// src/3-refactorable/bad/inventory.js
import React, { Component } from 'react';

class Inventory extends Component {
  constructor(props) {
    super();
    this.state = {
      localCurrency: props.localCurrency,
      inventory: props.inventory,
    };

    this.CurrencyConverter = props.currencyConverter;
    this.cart = window.cart;
  }

  componentWillReceiveProps(nextProps) {
    this.setState({
      localCurrency: nextProps.localCurrency,
    });
  }

  onAddToCart(itemId) {
    this.cart.push(itemId);
  }

  render() {
    return (
      <div>
        <table style={{ width: '100%' }}>
          <tbody>
            <tr>
              <th>
                Product
              </th>

              <th>
                Image
              </th>

              <th>
                Description
              </th>

              <th>
                Price
              </th>

              <th>
                Cart
              </th>
            </tr>

            {Object.keys(this.state.inventory).map(itemId => (
              <tr key={itemId}>
                <td>
                  {this.state.inventory[itemId].product}
                </td>

                <td>
                  <img src={this.state.inventory[itemId].img} alt="" />
                </td>

                <td>
                  {this.state.inventory[itemId].desc}
                </td>

                <td>
                  {this.CurrencyConverter.convert(
                    this.state.inventory[itemId].price,
                    this.state.inventory[itemId].currency,
                    this.state.localCurrency,
                  )}
                </td>

                <td>
                  <button onClick={() => this.onAddToCart(itemId)}>
                    Add to Cart
                  </button>
                </td>
              </tr>
            ))}
          </tbody>
        </table>
      </div>
    );
  }
}

Inventory.propTypes = {
  inventory: React.PropTypes.object.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
  currencyConverter: React.PropTypes.object.isRequired,
};

export default Inventory;
// src/3-refactorable/bad/cart.js
import React, { Component } from 'react';

class Cart extends Component {
  constructor(props) {
    super();
    this.state = {
      cart: window.cart,
      localCurrency: props.localCurrency,
      inventory: props.inventory,
    };

    // Repeatedly sync global cart to local cart
    this.watcher = window.setInterval(
      () => {
        this.setState({
          cart: window.cart,
        });
      },
      1000,
    );
    this.CurrencyConverter = props.currencyConverter;
  }

  componentWillReceiveProps(nextProps) {
    this.setState({
      localCurrency: nextProps.localCurrency,
    });
  }

  componentWillUnmount() {
    window.clearInterval(this.watcher);
  }

  render() {
    return (
      <div>
        <h2>Cart</h2>
        {this.state.cart.length === 0
          ? <p>Nothing in the cart</p>
          : <table style={{ width: '100%' }}>
              <tbody>
                <tr>
                  <th>
                    Product
                  </th>

                  <th>
                    Price
                  </th>
                </tr>
                {this.state.cart.map((itemId, idx) => (
                  <tr key={idx}>
                    <td>
                      {this.state.inventory[itemId].product}
                    </td>

                    <td>
                      {this.CurrencyConverter.convert(
                        this.state.inventory[itemId].price,
                        this.state.inventory[itemId].currency,
                        this.state.localCurrency,
                      )}
                    </td>
                  </tr>
                ))}
              </tbody>
            </table>}
      </div>
    );
  }
}

Cart.propTypes = {
  inventory: React.PropTypes.object.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
  currencyConverter: React.PropTypes.object.isRequired,
};

export default Cart;

Here we have a new shopping cart module that shows the inventory items currently in the shopping cart. There are two very problematic things in this code, what are they?

Think about it!

The two main issues with the code above are:

Even though our modules are reusable and readable, by writing to global variables we are making our overall system very brittle. Any third-party library that we bring in could overwrite our window.cart with something else and break our app. Furthermore, any module we write can access it and modify it without any safeguards or centralized way of updating.

You might be saying, "Yeah, yeah I would never structure my app like this in the first place." That's great! Remember though, that even though this is exaggerated, the point is that the way the cart is updated and read is not centralized. If instead of using global variables and setInterval you were using a message passing module, that could also make your code hard to understand and refactor at scale because it could be hard to isolate state and figure out how one module might affect another.

We will centralize our state management using Redux. If you haven't used Redux before, check out the tutorial.

Let's see what this more refactorable code looks like:

// src/3-refactorable/good/containers/inventory.js
import React from 'react';
import { connect } from 'react-redux';
import { addToCartAction } from '../actions';

import CurrencyConverter from '../lib/currency-converter';
import Inventory from '../components/inventory';

const InventoryContainer = (
  {
    inventory,
    currencies,
    localCurrency,
    addToCart,
  },
) => (
  <Inventory
    currencyConverter={new CurrencyConverter(currencies)}
    inventory={inventory}
    localCurrency={localCurrency}
    addToCart={productId => addToCart(productId)}
  />
);

InventoryContainer.propTypes = {
  currencies: React.PropTypes.object.isRequired,
  inventory: React.PropTypes.object.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
  addToCart: React.PropTypes.func.isRequired,
};

const mapStateToProps = state => ({
  inventory: state.inventory,
  currencies: state.currencies,
  localCurrency: state.localCurrency,
});

export default connect(mapStateToProps, {
  addToCart: addToCartAction,
})(InventoryContainer);

// src/3-refactorable/good/containers/cart.js
import React from 'react';
import { connect } from 'react-redux';

import CurrencyConverter from '../lib/currency-converter';
import Cart from '../components/cart';

const CartContainer = ({ cart, inventory, currencies, localCurrency }) => (
  <Cart
    cart={cart}
    currencyConverter={new CurrencyConverter(currencies)}
    localCurrency={localCurrency}
    inventory={inventory}
  />
);

CartContainer.propTypes = {
  currencies: React.PropTypes.object.isRequired,
  cart: React.PropTypes.array.isRequired,
  inventory: React.PropTypes.object.isRequired,
  localCurrency: React.PropTypes.string.isRequired,
};

const mapStateToProps = state => ({
  cart: state.cart,
  inventory: state.inventory,
  currencies: state.currencies,
  localCurrency: state.localCurrency,
});

export default connect(mapStateToProps, {})(CartContainer);
// src/3-refactorable/good/actions/index.js
import * as types from '../constants/action-types';

export const addToCartAction = productId => ({
  type: types.ADD_TO_CART,
  productId,
});
// src/3-refactorable/good/reducers/cart.js
import { ADD_TO_CART } from '../constants/action-types';

const initialState = [];

export default (state = initialState, action) => {
  switch (action.type) {
    case ADD_TO_CART:
      return [...state, parseInt(action.productId, 10)];
    default:
      return state;
  }
};

This improved code centralizes our side effects to an action function which takes a productId in and passes it to our reducer which creates an entirely brand-new cart with this product added to it. This new cart is placed in our store, and once that happens all of our components which derive their state from particular pieces of the store will be notified by react-redux of the new data, and they will update their state. React will intelligently re-render each updated component, and that's it!

This flow makes it possible to be sure that the state of your application can only be updated in one way, and that's through the action -> reducer -> store -> component pipeline. There's no global state to modify, no messages to pass and keep track of, and no uncontrolled side effects that our modules can produce. The best part is, we can keep track of the entire state of our application so debugging and QA can become much easier, because we have an exact snapshot in time of our entire application.

One caveat to note: you might not need Redux in this project's example application, but if we were to expand this code it would become easier to use Redux as the state management solution instead of putting everything in the top-level controller index.js. We could have isolated the state of our app there and passed the appropriate data-modifying action functions down through each module. The issue with that is that at scale, we would have a lot of actions to pass down and a lot of data that would live in one massive index.js controller. By committing to a proper centralization of state early, we won't need to change much as our application develops.

The last thing we need to look at is tests. Tests give us confidence that we can change a module and it will still do what it was intended to do. We will look at the tests for the Cart and Inventory components:

// src/test/cart.test.js
import React from 'react';
import { shallow } from 'enzyme';
import Cart from '../src/3-refactorable/good/components/cart';

const props = {
  localCurrency: 'usd',
  cart: [1, 1],
  inventory: {
    1: {
      product: 'Flashlight',
      img: '/flashlight.jpg',
      desc: 'A really great flashlight',
      price: 100,
      currency: 'usd',
    },
  },
  currencyConverter: {
    convert: jest.fn(),
  },
};

it('should render Cart without crashing', () => {
  const cartComponent = shallow(<Cart {...props} />);
  expect(cartComponent);
});

it('should show all cart data in cart table', () => {
  props.currencyConverter.convert = function () {
    return `$${props.inventory[1].price}`;
  };

  const cartComponent = shallow(<Cart {...props} />);
  let tr = cartComponent.find('tr');
  expect(tr.length).toEqual(3);

  props.cart.forEach((item, idx) => {
    let td = cartComponent.find('td');
    let product = td.at(2 * idx);
    let price = td.at(2 * idx + 1);

    expect(product.text()).toEqual(props.inventory[item].product);
    expect(price.text()).toEqual(props.currencyConverter.convert());
  });
});
// src/test/inventory.test.js
import React from 'react';
import { shallow } from 'enzyme';
import Inventory from '../src/3-refactorable/good/components/inventory';

const props = {
  localCurrency: 'usd',
  inventory: {
    1: {
      product: 'Flashlight',
      img: '/flashlight.jpg',
      desc: 'A really great flashlight',
      price: 100,
      currency: 'usd',
    },
  },
  addToCart: jest.fn(),
  changeCurrency: jest.fn(),
  currencyConverter: {
    convert: jest.fn(),
  },
};

it('should render Inventory without crashing', () => {
  const inventoryComponent = shallow(<Inventory {...props} />);
  expect(inventoryComponent);
});

it('should show all inventory data in table', () => {
  props.currencyConverter.convert = function () {
    return `$${props.inventory[1].price}`;
  };

  const inventoryComponent = shallow(<Inventory {...props} />);
  let tr = inventoryComponent.find('tr');
  expect(tr.length).toEqual(2);

  let td = inventoryComponent.find('td');
  let product = td.at(0);
  let image = td.at(1);
  let desc = td.at(2);
  let price = td.at(3);

  expect(product.text()).toEqual('Flashlight');
  expect(image.html()).toEqual('<td><img src="/flashlight.jpg" alt=""/></td>');
  expect(desc.text()).toEqual('A really great flashlight');
  expect(price.text()).toEqual('$100');
});

it('should have Add to Cart button work', () => {
  const inventoryComponent = shallow(<Inventory {...props} />);
  let addToCartBtn = inventoryComponent.find('button').first();
  addToCartBtn.simulate('click');
  expect(props.addToCart).toBeCalled();
});

These tests ensure that the Cart and Inventory components:

Final Thoughts

Software architecture is the stuff that's hard to change, so invest early in a readable, reusable, and refactorable foundation. It will be hard to get there later on. By following the 3 Rs, your users will thank you, your developers will thank you, and you will thank yourself.


Development

Thank you for reading this! If you wish to expand on this project or contribute, run the following commands to install everything you need:

npm install -g create-react-app
npm install
npm run start

Open a browser and see the app running at http://localhost:3000/

Contributing

Thank you for your contributions!

Before opening a friendly Pull Request, make sure you run the following and resolve any errors noted by the linter:

npm run fmt
npm run lint

Finally, change any relevant code examples in this README.md to reflect your changes.

Translation

License

MIT