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Introduction to JavaScript

Before you start this worksheet make sure you have the latest lab materials:

$ git stash
$ git pull origin master
$ git stash pop

If the VI editor window pops open:

  1. press the Esc key.
  2. type :wq and press the Enter key.

In this chapter we will begin learning about programming in JavaScript. Note that we will only be covering the parts of the language that relate directly to building our dynamic website, there are lots of books that cover the language in more depth.

You will sometimes hear different names used for this language:

  1. JavaScript is the original name when the language was developed by Netscape.
  2. ECMAScript is the name of the language standard developed by ECMA, from the original Javascript implementation.
  3. NodeJS is JavaScript running on a web server using the language intepreter from the Chrome Web Browser.

Basically these are all implementations of the same language but in this chapter we will focus on programming using NodeJS since it offers a more consistent interpreter and you will find it the most useful for your websites. In later chapters we will move JavaScript to the web browser.

This chapter covers the following concepts, all of which should be considered essential.

  1. Node packages
  2. Variables and scope
  3. Data types
  4. Errors and exceptions
  5. Passing parameters on the command line
  6. Functions

NodeJS is based on the JavaScript language which is used extensively in the browser to handle such tasks as form validation and animations. The latest version of the language (known as ECMA6) is not fully supported by the different browsers and, as a result, it is not recommended that you use the more up to date features.

NodeJS is built on Chrome's V8 JavaScript engine which powers the latest version of the Chrome web browser and supports the majority of the latest ECMA6 features. It has been modified to allow it to run on a server.

Because our scripts will run on the server on which we have installed a known version of the ECMA6 runtime, we can guarantee that our scripts will run correctly which means we can focus on teaching the absolute latest programming concepts and features.

Benefits of NodeJS

There are a lot of languages that can be used to write server-side script ranging from Perl, one of the earliest CGI Script languages through PHP, one of most popular languages and through to Java and C#. So why is NodeJS becoming so popular in recent years (and why have I chosen it for this book?

The first, and most obvious answer, is that, as a web developer, you are going to have to learn JavaScript anyway because its the only language that will run natively in a web browser so why not use the same language for both client and server?

The second benefit, and one we will return to in later chapters, is that, unlike other scripting languages which create a new process for each connected user, NodeJS runs a single process shared between all users. Since processes are expensive in computing resources it means that a NodeJS deployment is far more scalable. In chapter 3 we will learn how it handles concurrency through the use of threads.

It is assumed that you can already program in a modern language such as Python or Java and have had exposure to 'old school' JavaScript. This chapter will therefore expose you to some of key new features of the language and their impact on the way you program.

Make sure you have cloned the repository containing the sample code by following the instructions in the previous chapter.

One of the most valuable features of NodeJS is its package manager which allows you to install additional functionality in the form of packages. There are thousands of these to choose from and, in a later chapter, you will be shown how you can publish your own packages.

In the examples in this chapter we will be using a node package called readline-sync to capture user input. The documentation for all published packages can be found on the NPMJS website so open this page and search for the documentation for readline-sync.

1 Working with NodeJS

Now you have an understanding of the code features used in the script it is time to run it. Unlike client-side JavaScript, you don't run NodeJS scripts in a web browser, instead you need to run them using the Terminal.

To run your script you need to run the node command and pass it the name of your script. You don't need to pass the file extension, so these commands are equivalent:

node todo
node todo.js

When the script is running you will be prompted to enter a command. Try adding three items and listing them all. Finally typing exit to return to the shell prompt:

enter command: add bread
adding "bread"
enter command: add butter
adding "butter"
enter command: add cheese
adding "cheese"
list
0. bread
1. butter
3. cheese
exit

1.1 Executing NodeJS Files

There is an alternative way to execute a NodeJS script which works on Linux systems. it works because we have a shebang, otherwise known as a processor directive as the first line of our script. This tells the operating system where to find the command to run the script.

#!/usr/bin/env node

This tells the operating system to use the node command that appears in the environment path variable. You will also need to set the execute flag on the file.

chmod +x todo.js
./todo.js

The last line above tells the OS to run the todo.js file in the current directory.

1.2 Installing Packages

Packages can be installed either locally or globally.

  • Local packages are installed in a node_modules/ directory within the directory containing the NodeJS scripts. This is the way we install most of the modules. These are only available within that directory.
  • Global packages on the other hand are installed system-wide and can be accessed by all the scripts. Normally these need to be installed using root privileges. We will be using global packages in a later chapter.

Open the Terminal and navigate to the nodejs/ directory containing the sample code. If you are using Visual Studio Code you can use File > Open to open the nodejs/ directory then open the Integrated Terminal, accessed from the View menu, this will automatically open in the project root.

Navigate to the exercises/05_intro_js/ directory and then install the package.

$ npm install readline-sync

This will create a new directory called node_modules/ which will contains the scripts from the readline-sync/ package plus any dependencies.

1.3 Listing and Uninstalling Packages

There are two ways to see what packages are currently installed. The quickest is to locate the node_modules/ directory. Alternatively you can use the npm ls subcommand which will print this information to the shell.

$ npm ls
/Users/.../01 Introduction to ECMAScript 6
└── readline-sync@1.4.7

To uninstall a local package you can use the npm uninstall subcommand and pass it the name of the package you want to uninstall, this will uninstall both the named package and any dependencies installed by it.

$ npm uninstall readline-sync

1.4 Useful Modules

Although there are a lot of modules available through the package manager you will only need a few of these to complete the exercises in this book.

  • Request: an HTTP client written in JavaScript, for accessing web resources such as APIs
  • Simple-Storage: a wrapper to store data in the filesystem
  • Mongoose: a MongoDB object modeling tool.
  • FS: a module giving direct access to the host file system, for reading and writing files
  • Sentiment: a module that uses the AFINN-165 wordlist and Emoji Sentiment Ranking to perform sentiment analysis on arbitrary blocks of input text.

2 Variables and Scope

Now we have learned some theory it's time to see this in practice.

Its time to dive into our first example to see the workings of JavaScript in practice. This first example covers a number of important concepts and will show you the key JavaScript syntax. Specifically it covers:

  1. Variables and scope
  2. Strict mode
  3. Importing packages and modules
  4. Conditionals and loops
  5. Strings
  6. Arrays

Load up the todo.js script and reference it as you read through the rest of this section.

2.1 Variables and Scope

If you have ever worked with JavaScript you will have declared variables with the var keyword. This creates a hoisted function-scoped variable which has several issues:

  • The variable is function-scoped meaning that it is only visible inside the enclosing function. This means that if you want to hide this from the rest of your code (considered good practice) you need to keep it inside a function which is tricky to implement.
  • The variable is also hoisted which means that it can be accessed before the line on which it is declared! Effectively all variable declarations are moved to the top of the function block. This can have some nasty side effects.

Until the release of ECMA6, programmers in JavaScript have had to work with these issues but the release of ECMA6 provided two more options and the use of var is now deprecated and should no longer be used.

2.1.1 Block-Level Variables

Now we can declare block-level variables using the let keyword. These behave much like variables in other languages such as Python or Java in that they are only visible in the block they are declared in (such as a loop or branch).

2.1.2 Block-Level Constants

Until ECMA6, you could not declare immutable variables (otherwise known as constants). ECMA introduced the const keyword that can be used to declare block-level constants.

2.1.3 Test Your Understanding

Open the hoisting.js file:

  1. Notice that we try to print the contents of the variable name before it is defined using the var keyword. Try running the script, what happens?
    1. The first time we print the variable it prints undefined, (so it appears that the variable has already been defined).
    2. Then we declare the variable.
    3. Finally the assigned value is printed out.
  2. Now substitute the let keyword to declare the variable and run the script again.
    1. Notice that we now get an error showing the variable has not been defined (the variable is no longer hoisted).
    2. Delete the first console.log() statement to fix this.
  3. Now define the name variable using the const keyword and run the script again.
    1. Notice we get an error TypeError: Assignment to constant variable because we declared name as a constant (it can't be modified).

2.2 Strict Mode

Notice the first line contains a Directive. This is a feature from ECMA5 telling the JavaScript runtime to run the script in strict mode.

'use strict'

This:

  • Prevents the declaration of global variables.
  • Exceptions are thrown rather than the script fail silently.
  • Prevents duplicate property and parameter names (more on this later).

2.3 Importing a Package or Module

Since we will be using the functionality in the readline-sync package it needs to be imported using the require function.

const readline = require('readline-sync')

This can be used to import an installed package (as we are doing here) but can also be used to import other scripts we have created locally (this is covered in a later chapter).

2.4 Conditionals and Loops

Javascript supports a range of branching and looping constructs. They all follow a similar syntax to Java and C++.

2.4.1 Conditionals

JavaScript includes the standard set of conditionals (if, if...else and switch) and the syntax is similar to other modern programming languages. The todo.js script makes use of a number of if statements to identify which option the user has entered, for example:

if (input.indexOf('list') === 0) {
  // the user has chosen the 'list' command.
}

Later in this chapter you will be required to implement a switch conditional. These share the same syntax as most modern languages and require a break command to exit and take an optional default clause.

const name = String(readline.question('your name: ')).trim()
switch(name) {
  case 'John':
    console.log('your name is John')
    break
  case 'Jane':
    console.log('your name is Jane')
    break
  default:
    console.log('unknown name')
}

2.4.2 Loops

Javascript also supports a wide number of loop constructs:

  • for
  • while...do
  • do while

In the todo.js script you can see the run-loop has been implemented using a do...while loop.

do {
  // this is the run loop
} while (input !== 'exit')

It also uses a traditional for loop with loop variable using a syntax similar to C++ and Java. It uses the Array length property to iterate through it.

for (let i=0; i< items.length; i++) {
  /* Here we reference the array index. */
  console.log(`${i}. ${items[i]}`)
}

2.5 Strings

In common with most other programming languages, JavaScript supports strings.

2.5.1 Strings as Objects

In JavaScript, all strings are objects and have a number of useful methods. In the todo.js example there is a line:

const input = String(readline.question('enter command: ')).trim()
  1. The String() function takes the expression entered by the user and turns it into a String object
  2. we remove any whitespace from the beginning and end of the user-entered string by calling the trim() method which is part of the String object.

Later in the script we use another method indexOf() which returns the index of the first instance of the string parameter. This is used in an if statement to see what is at the start of the string.

if (input.indexOf('add ') === 0) {
  // the string starts with 'add '
}

Notice the use of === rather then the standard == equality operator. JavaScript supports both but they work in slightly different ways:

  • === is used for Strict Equality Comparison where the result is only true if both the value and data types match. This is the preferred choice in all situations.
  • == is used for Abstract Equality Comparison and works by automatically converting both values to a common type. This can lead to obscure bugs and so should be avoided.

The script uses a second if statement locate the index of the first space in a string to allow it to be split into two. The substring() method takes a parameter and returns the string after the supplied index. We need to use trim() to remove the space from the start.

const space = input.indexOf(' ')
const item = input.substring(space).trim()

It's worth taking a few moments to learn about some of the useful string methods.

2.5.2 String Concatenation

There are two ways to concatenate (join) strings. Prior to ECMA6 the + operator was used to join string literals and string variables.

const name = 'John Doe'
console.log('my name is '+ name)

ECMA6 introduces the concept of template literals which are string literals allowing embedded expressions. The string literal needs to be encased in backticks rather than quotes and the variables enclosed in ${}. The previous example would look line this.

const name = 'John Doe'
console.log(`my name is ${name}`)

By using template literals your strings become much easier to read and so you should get into the habit of always using these.

2.6 Arrays

Our todo.js script declares an array near the start to hold the items in our todo list. Notice that the array is declared as immutable using the const keyword.

const items = []

Arrays are objects and have a number of built-in methods. Later in the script we use the built-in push() method to add an element to the end of the array. You should take a moment to look through the list of built-in array methods and familiarise yourself with them.

items.push(item)

2.8 Test Your Knowledge

Now you are familiar with the basics of the ECMA6 language its time to put this to the test. Make sure you successfully complete all six tasks before continuing to the next section.

  1. locate the input variable declaration (just inside the do loop)
    • define it as a block-scoped variable by replacing the var with let, what effect does this have? Can you explain why this is the case?
    • modify the script so that it still works (keep the let variable declaration). Hint: think about the variable scope, you will need to move the variable declaration.
    • substitute a constant by substituting const for let, what effect does this have?
  2. the array at the top of the script is defined using var. What happens if you make this immutable (use const)?
  3. Items are added to the array using its push() method.
    • substute the unshift method. How does this change the script?
  4. modify the code to prevent duplicate items being added. You will need to use the Array.indexOf() method.
  5. create a remove option so an item such as cheese can be removed using the syntax remove cheese. You may need to use the Array.splice() method.
  6. The current version is case sensitive. Modify the code so that items are converted to lowercase before being added or searched for. You will need to use the String.toLowerCase() method.
  7. The code currently uses a for loop to print out the contents of the array:
    1. Replace this with the for...in statement.
    2. Replace this with the for...of statement. What are its limitations?
    3. Replace this with the Array.forEach() method.

3 Data Types

JavaScript is a loosely typed language which means you don't declare a data type, it will be automatically determined when a value is assigned. This is sometime referred to as duck typing. There are six primitive data types that you should be familiar with, these are:

  • Number: This is used to represent both floating point and integer values.
  • String: This is used to represent textual data and consists of a set of 16 bit elements with each element occupying a position referenced by an index, with the first character at index 0.
  • Boolean: This represents a boolean state and can have only two possible values, true or false.
  • Null: This represents the intentional absence of a value. It can contain only one value, null.
  • Undefined: This represents a variable that has not been assigned a value.
  • Symbol: This is a token representing a unique ID and are created using the symbol() function. They are new in ECMA6.

4 Errors and Exceptions

When JavaScript executes code errors and exceptions may occur. These may be due to incorrect user input or a broken network connection for example. JavaScript includes a rich set of tools for handling these, based on the Error object.

  1. Errors are serious problems that normally mean the application will terminate
  2. Exceptions on the other hand are problems that can be handled by the program logic and thus prevent the application from terminating. In this task we will be focussing on exception handling.

No matter how good we are at programming, our scripts will contain errors. In JavaScript when an unrecoverable error occurs in your code it throws an Exception. If this is not caught and handled by your script it will terminate the execution of the script and print the error to the console. Obviously this is a bad outcome and to prevent it we can catch the error and handle it gracefully without causing the program to crash.

Open the contact.js script and study it as you cover the following sections.

To help catch any errors, JavaScript uses the try-catch-finally statement. The syntax is very similar to other modern language and looks like this:

try {
  // this line of code might throw an error
} catch(err) {
  // if an error occurs the execution jumps to this block
  // if no error occurs the block is ignored
} finally {
  // this line runs whether or not an error was thrown
  // this block is optional
}
  1. All code that could throw an exception must be in a try{} block.
  2. If an exception is thrown the execution moves to the catch{} block.
    • the error object thrown will be passed as the parameter.

When an error gets thrown it passes an Error object which contains three properties:

  • the name of the error
  • the message passed
  • the stack trace.
    • the stack trace is a list of the method calls that the application was in the middle of when an Exception was thrown and can help identify some of the more insidious errors. You should learn to read and understand what information it contains.