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Introduction to Functions in JavaScript

Learning Goals

  • Writing and calling JavaScript functions
  • Understand arguments and parameters
  • Learn what a return value is in JavaScript

Introduction

In this lesson, we'll introduce functions and cover how to create and execute them. There are no tests, but be sure to follow along with the examples.

Getting Started

To start, fork and clone this lesson into your local environment. Since this lesson doesn't have a "Fork" button, you'll need to click the GitHub "octocat" button at the top of the page to open the lesson's repo in GitHub, then click the fork button in the upper right corner.

Fork Button

Once the lesson has been forked, clone it to your local environment, navigate into the lesson directory in the terminal, then run code . to open the files in Visual Studio Code. (If you are using a different text editor, the command will be different.) You will be writing your code in the index.js file, and running it by entering node index.js in the terminal.

Writing and Calling JavaScript Functions

So far, our programs have consisted of writing individual lines of code directly into a REPL. This is a great way to test out JavaScript functionality and to get a feel for how it handles different values and operations, but it's not super extensible. What if, for example, we wanted to log "Hello, world!" a bunch of times? We could write the statement out repeatedly:

console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");
console.log("Hello, world!");

But that quickly gets tiresome, and it's easy to see how even small programs would come to rival War and Peace in length.

The good news is, there's a better way! We can use a function!

Functions are ways of giving instructions to the JavaScript interpreter that can be reused over and over again by calling the function. Functions are the basic building blocks of programming in many languages (although they aren't always called functions), serving both to store the instructions for how to perform a certain task, and to help organize the code in our programs. By using functions — and giving them meaningful names — we can make our code easier to read, debug and maintain.

In JavaScript, functions are written with the function keyword:

function doNothing() {}

As you can see, when we declare a function, we start with the function keyword, followed by a name for the function (in this case, doNothing), followed by a pair of parentheses. Next comes a pair of curly braces, which contains the code to be executed when the function is called. In this case, the function, as its name implies, doesn't do much. Copy the function into index.js and then execute it by running node index.js in the terminal.

...

Anything happen? No? Good! This isn't surprising because even though we declared the function, we didn't give it any instructions. (Conventionally, a function that does nothing is called a "noop" (pronounced "no op") — sometimes they come in handy!)

Let's declare another function and this time give it something to do. As mentioned above, we put the code that we want to be executed when our function is called inside the curly braces — this is called the function body.

function sayHello() {
  console.log("Hello!");
}

Here we have a function called sayHello; its body reads console.log('Hello!');. Add this function to index.js and then execute it again.

What happened this time? Still nothing? That's because the code above is just the function declaration. So far, all we have done is define the function. In order to actually execute the code in the function body, we have to call it. To call the function, we simply type the name of the function followed by ().

Add the following to index.js, after the function declaration:

sayHello();

Now when you execute the code, you should see Hello! printed in the terminal!

Note: We've just learned that, in order for the code in a function to be executed, the function must be called. Any time you're trying out code, either in a REPL or in your local environment, you'll need to add the function call, as we did above, before executing the code. For labs, however, you will generally not need to do this yourself. The tests will take care of it for you.

Saying hello

Let's write a function to say hello to Guadalupe — be sure to follow along!

function sayHelloToGuadalupe() {
  console.log("Hello, Guadalupe!");
}

Run this code and see what you get. Don't forget to include the function call!

Now what if we want to say hello to Liz? Well, we could write another function and add it to index.js:

function sayHelloToLiz() {
  console.log("Hello, Liz!");
}

When we can call it, we should see Hello, Liz! written out in the terminal.

Okay, now we're going to say hello to Samip — you know the drill!

function sayHelloToSamip() {
  console.log("Hello, Samip!");
}

Now let's call all three!

sayHelloToGuadalupe();
sayHelloToLiz();
sayHelloToSamip();

We can stack all three of these calls in index.js and, when we execute the code, we should see all three messages output in the terminal.

While these functions are undoubtedly useful, they're only useful if we only talk to Guadalupe, Liz, and Samip. Every time we want to greet someone new (or use a greeting other than "Hello," for that matter), we need to define a new function.

What if there was some way to take what's similar about these functions — the fact that they all call console.log() with "Hello," a name, and an exclamation point — and substitute what's different (the name) as we go?

Turns out, we can! We can use something called an argument to pass information to a function.

Understand arguments and parameters

Arguments give us a way to pass information into a function to make our functions more flexible. We pass the argument at the time that we call the function, by including it inside the parentheses after the name of the function:

function doSomething(thing) {
  console.log(thing);
}

doSomething("anything"); // passing the argument 'anything' into our function

Try this out with a few different arguments. You'll see that whatever value we pass in when we call the function is what the function logs. Pretty cool, right?

We can easily extend this to our "say hello to" example; by using an argument, we no longer need a separate function for each person we want to say hello to:

function sayHelloTo(firstName) {
  console.log(`Hello, ${firstName}!`);
}

sayHelloTo("Guadalupe"); // "Hello, Guadalupe!"
sayHelloTo("Jane"); // "Hello, Jane!"
sayHelloTo("R2-D2"); // "Hello, R2-D2!"
sayHelloTo(1); // "Hello, 1!"

// ^ Note that in the above, JavaScript coerces the number 1 to the string "1"

In the example above, you may have noticed that there's also something inside the parentheses in the function declaration: function sayHelloTo(firstName). This is called the parameter, in this case firstName. A parameter is a placeholder that stores whatever value gets passed in as an argument. For example, when we run the function call sayHelloTo('Guadalupe'), the value of the argument, 'Guadalupe', gets stored in the parameter firstName. Then, inside the function body, we access that value by using the parameter name, interpolate it into the string, and log the string to the terminal.

Essentially, the arguments are the actual values that we pass to the function, and the parameters are the named references where we store those passed-in values. An argument can be any JavaScript expression — any piece of JavaScript code that evaluates to a value — from something as simple as 5 or 'Avi' to something as complex as an entire function.

Defining a parameter in our function declaration ensures that the argument gets stored as a local, function-level variable that's available anywhere in the function body. We access the value simply by using the name of the parameter that it's stored in.

Note that we can only access parameters within the body of the function. Try adding console.log(firstName) to the end of the index.js and running the code. You should see a ReferenceError telling you that firstName is not defined. This relates to a very important concept in JavaScript, variable scope.

Variable Scope

Variables in JavaScript exist within a particular scope. For example, if a variable is defined in a function — whether it's defined as a parameter or inside the body of the function — it can only be accessed inside that function.

Variables can also be declared in the global scope, i.e., outside of any function. These variables will be accessible (and can potentially be overwritten) everywhere within the program. As a general rule, it is best to avoid global variables as much as possible because they can lead to bugs that can be difficult to track down. Using local variables instead makes it easier to keep track of the values of your variables and makes your code easier to debug and maintain.

The topic of scope in JavaScript is quite complex. You will learn more about it, and its implications, later in the course.

Saying something new

What if we want our function to say something other than "Hello"? Well, we can move the greeting to a parameter as well:

function say(greeting, firstName) {
  console.log(`${greeting}, ${firstName}!`);
}

Add the above to your index.js file along with the function call say("Goodbye", "Julio");. When you run the code you should see "Goodbye, Julio!" written out to the terminal.

Order of Arguments

What if we reversed the order of our arguments? Try this function call:

say("Julio", "hello");

You should now see "Julio, hello!" in the terminal. It looks like the name is now stored in the greeting parameter and the greeting is stored in the name variable. We can verify that by adding a couple more console.log()s:

function say(greeting, firstName) {
  console.log("firstName: ", firstName);
  console.log("greeting: ", greeting);
  console.log(`${greeting}, ${firstName}!`);
}

When you run this using the function call above, you should see this:

firstName:  hello
greeting:  Julio
Julio, hello!

You've just illustrated an important point: the parameter names only have meaning to us, the programmer; JavaScript assigns values to parameters based solely on the order of the arguments that are passed.

Return Values in JavaScript

These functions we've been coding are pretty cool, but they don't actually do a whole lot — mostly they just print things to the terminal. We've seen how we can make them a little bit more dynamic with arguments, but how do we make them do something for us? For example, we might want to create a function add() that allows us to add together two numbers. Enter the following in index.js:

function add(x, y) {
  return x + y;
}

When we return inside a function, we're giving that value back to the world outside the function. Let's add the function call add(1, 2) and run the code. Wait — nothing happened! What's going on here? Well, our function is returning the value of the sum x + y but we can't see that because we aren't doing anything with it. So let's use our handy developer tool, console.log(), to see what it's returning. Rerun the code after modifying your function call as follows:

console.log(add(1, 2));

See that? We got 3 back! What if we pass 80 and 9000 as our arguments instead? Whoa! We got 9080!

Let's unpack what's happening here. We're calling our add() function, passing in two numbers as the arguments. The function is returning the value of the sum of the two arguments, and we're logging that result in the terminal so we can see it. The difference between this and what we were doing before — having the function itself log something to the terminal — may seem subtle, but it's actually quite important. Let's look at another example. Be sure to follow along.

Let's rewrite our say() function from above so that now instead of console.log()-ing what it says, it returns it.

function say(greeting, firstName) {
  return `${greeting}, ${firstName}!`;
}

Now when we call console.log(say("Hello", "Liz")); we'll see Hello, Liz!, just as we did before. But what if we try logging the result of calling the original version of the function:

function say(greeting, firstName) {
  console.log(`${greeting}, ${firstName}!`);
}

Now console.log(say("Hello", "Liz")); will result in the following:

Hello, Liz!
undefined

The first line comes from the console.log() inside the function body, and the second line comes from logging the result of the function call. What this shows us is that this version of our function does not have a return value! This is because a console.log() doesn't return anything — it just writes something out for the developer to see. In JavaScript, in order to have our function return a value, we need to use the return keyword.

We can also see this if we go back to our add() function, and remove the return keyword:

function add(x, y) {
  x + y;
}

Now if you call the function and log the results:

console.log(add(1, 2));

you'll see that the function has no return value. Our function is doing the addition but we can't do anything with the result, which makes it pretty useless. Be sure to add the return keyword back in.

Setting up your function to return a value means that value is available to be used elsewhere in your program. So how might we use the return value of our add() function? Let's say we're creating a simple calculator function. A high-level outline of how it could work might be:

  1. the calculator function asks the user to enter two numbers they want to be added together,
  2. the values are stored into variables (num1 and num2, perhaps),
  3. the function then calls the add() function, passing num1 and num2 as arguments,
  4. the add() function returns the sum
  5. the calculator function returns a message to the user telling them what the sum is.

Note what's happening in step 3: our calculator function is calling our add function. This is an important thing to know about functions: they can be called by other functions! Eventually we'll want our calculator to do more than just add. Rather than build one very long function that contains code for adding, subtracting, multiplying, etc., we can encapsulate the code for each operator into its own function and call them.

The code that calls the add() function and creates the message might look something like this:

const sum = add(num1, num2);
const message = `The sum of your numbers is: ${sum}.`;

Or, equivalently:

const message = `The sum of your numbers is: ${add(num1, num2)}.`;

The message could then be written out to the screen.

One Last Point About return

There's one additional thing it's important to know about return. If we wanted to both return and log a string in our say() function, we might try writing:

function say(greeting, firstName) {
  return `${greeting}, ${firstName}!`;
  console.log("I was called!");
}

Let's call the function and log the result:

console.log(say("Howdy", "partner"));

When you run that code, the return value is logged, but the console.log() inside the function body does not execute!

This is because return ends the execution inside the function. Nothing after the line with the return will be executed.

Top Tip: Take a look at the above code in index.js. Depending on which text editor you're using, you may see that the line with the console.log() is "grayed out." This is the text editor giving you a hint that that line of code is unreachable.

To both log and return like we want to, we can switch the order around:

function say(greeting, firstName) {
  console.log("I was called!");
  return `${greeting}, ${firstName}!`;
}

Now if we rerun the code, we should see the output of both console.log()s.

Your turn!

Try rewriting some of the functions that we've written in this lesson to get used to the difference between return-ing and printing (console.log()-ing) to the terminal. Try writing a function of your own that returns something.

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