Build your own function

With most of the essential theory dealt with in the previous article, this article provides practical experience. Here you will get some practice building your own, custom function. Along the way, we'll also explain some useful details of dealing with functions.

Prerequisites: Basic computer literacy, a basic understanding of HTML and CSS, JavaScript first steps, Functions — reusable blocks of code.
Objective: To provide some practice in building a custom function, and explain a few more useful associated details.

Active learning: Let's build a function

The custom function we are going to build will be called displayMessage(). It will display a custom message box on a web page and will act as a customized replacement for a browser's built-in alert() function. We've seen this before, but let's just refresh our memories. Type the following in your browser's JavaScript console, on any page you like:

js

alert("This is a message");

The alert function takes a single argument — the string that is displayed in the alert box. Try varying the string to change the message.

The alert function is limited: you can alter the message, but you can't easily vary anything else, such as the color, icon, or anything else. We'll build one that will prove to be more fun.

Note: This example should work in all modern browsers fine, but the styling might look a bit funny in slightly older browsers. We'd recommend you do this exercise in a modern browser like Firefox, Opera, or Chrome.

The basic function

To begin with, let's put together a basic function.

Note: For function naming conventions, you should follow the same rules as variable naming conventions. This is fine, as you can tell them apart — function names appear with parentheses after them, and variables don't.

  1. Start by accessing the function-start.html file and making a local copy. You'll see that the HTML is simple — the body contains just a single button. We've also provided some basic CSS to style the custom message box, and an empty <script> element to put our JavaScript in.
  2. Next, add the following inside the <script> element:

    js

    function displayMessage() {
      ...
    }
    
    We start off with the keyword function, which means we are defining a function. This is followed by the name we want to give to our function, a set of parentheses, and a set of curly braces. Any parameters we want to give to our function go inside the parentheses, and the code that runs when we call the function goes inside the curly braces.
  3. Finally, add the following code inside the curly braces:

    js

    const body = document.body;
    
    const panel = document.createElement("div");
    panel.setAttribute("class", "msgBox");
    body.appendChild(panel);
    
    const msg = document.createElement("p");
    msg.textContent = "This is a message box";
    panel.appendChild(msg);
    
    const closeBtn = document.createElement("button");
    closeBtn.textContent = "x";
    panel.appendChild(closeBtn);
    
    closeBtn.addEventListener("click", () =>
      panel.parentNode.removeChild(panel)
    );
    

This is quite a lot of code to go through, so we'll walk you through it bit by bit.

The first line selects the <body> element by using the DOM API to get the body property of the global document object, and assigning that to a constant called body, so we can do things to it later on:

js

const body = document.body;

The next section uses a DOM API function called document.createElement() to create a <div> element and store a reference to it in a constant called panel. This element will be the outer container of our message box.

We then use yet another DOM API function called Element.setAttribute() to set a class attribute on our panel with a value of msgBox. This is to make it easier to style the element — if you look at the CSS on the page, you'll see that we are using a .msgBox class selector to style the message box and its contents.

Finally, we call a DOM function called Node.appendChild() on the body constant we stored earlier, which nests one element inside the other as a child of it. We specify the panel <div> as the child we want to append inside the <body> element. We need to do this as the element we created won't just appear on the page on its own — we need to specify where to put it.

js

const panel = document.createElement("div");
panel.setAttribute("class", "msgBox");
body.appendChild(panel);

The next two sections make use of the same createElement() and appendChild() functions we've already seen to create two new elements — a <p> and a <button> — and insert them in the page as children of the panel <div>. We use their Node.textContent property — which represents the text content of an element — to insert a message inside the paragraph, and an "x" inside the button. This button will be what needs to be clicked/activated when the user wants to close the message box.

js

const msg = document.createElement("p");
msg.textContent = "This is a message box";
panel.appendChild(msg);

const closeBtn = document.createElement("button");
closeBtn.textContent = "x";
panel.appendChild(closeBtn);

Finally, we call addEventListener() to add a function that will be called when the user clicks the "close" button. The code will delete the whole panel from the page — to close the message box.

Briefly, the addEventListener() method is provided by the button (or in fact, any element on the page) that can be passed a function and the name of an event. In this case, the name of the event is 'click', meaning that when the user clicks the button, the function will run. You'll learn a lot more about events in our events article. The line inside the function uses the Node.removeChild() DOM API function to specify that we want to remove a specific child element of the HTML element — in this case, the panel <div>.

js

closeBtn.addEventListener("click", () => panel.parentNode.removeChild(panel));

Basically, this whole block of code is generating a block of HTML that looks like so, and inserting it into the page:

html

<div class="msgBox">
  <p>This is a message box</p>
  <button>x</button>
</div>

That was a lot of code to work through — don't worry too much if you don't remember exactly how every bit of it works right now! The main part we want to focus on here is the function's structure and usage, but we wanted to show something interesting for this example.

Calling the function

You've now got your function definition written into your <script> element just fine, but it will do nothing as it stands.

  1. Try including the following line below your function to call it:

    js

    displayMessage();
    
    This line invokes the function, making it run immediately. When you save your code and reload it in the browser, you'll see the little message box appear immediately, only once. We are only calling it once, after all.
  2. Now open your browser developer tools on the example page, go to the JavaScript console and type the line again there, you'll see it appear again! So this is fun — we now have a reusable function that we can call any time we like. But we probably want it to appear in response to user and system actions. In a real application, such a message box would probably be called in response to new data being available, or an error having occurred, or the user trying to delete their profile ("are you sure about this?"), or the user adding a new contact and the operation completing successfully, etc. In this demo, we'll get the message box to appear when the user clicks the button.
  3. Delete the previous line you added.
  4. Next, we'll select the button and store a reference to it in a constant. Add the following line to your code, above the function definition:

    js

    const btn = document.querySelector("button");
    
  5. Finally, add the following line below the previous one:

    js

    btn.addEventListener("click", displayMessage);
    
    In a similar way to our closeBtn's click event handler, here we are calling some code in response to a button being clicked. But in this case, instead of calling an anonymous function containing some code, we are calling our displayMessage() function by name.
  6. Try saving and refreshing the page — now you should see the message box appear when you click the button.

You might be wondering why we haven't included the parentheses after the function name. This is because we don't want to call the function immediately — only after the button has been clicked. If you try changing the line to

js

btn.addEventListener("click", displayMessage());

and saving and reloading, you'll see that the message box appears without the button being clicked! The parentheses in this context are sometimes called the "function invocation operator". You only use them when you want to run the function immediately in the current scope. In the same respect, the code inside the anonymous function is not run immediately, as it is inside the function scope.

If you tried the last experiment, make sure to undo the last change before carrying on.

Improving the function with parameters

As it stands, the function is still not very useful — we don't want to just show the same default message every time. Let's improve our function by adding some parameters, allowing us to call it with some different options.

  1. First of all, update the first line of the function:

    js

    function displayMessage() {
    
    to this:

    js

    function displayMessage(msgText, msgType) {
    
    Now when we call the function, we can provide two variable values inside the parentheses to specify the message to display in the message box, and the type of message it is.
  2. To make use of the first parameter, update the following line inside your function:

    js

    msg.textContent = "This is a message box";
    
    to

    js

    msg.textContent = msgText;
    
  3. Last but not least, you now need to update your function call to include some updated message text. Change the following line:

    js

    btn.addEventListener("click", displayMessage);
    
    to this block:

    js

    btn.addEventListener("click", () =>
      displayMessage("Woo, this is a different message!")
    );
    
    If we want to specify parameters inside parentheses for the function we are calling, then we can't call it directly — we need to put it inside an anonymous function so that it isn't in the immediate scope and therefore isn't called immediately. Now it will not be called until the button is clicked.
  4. Reload and try the code again and you'll see that it still works just fine, except that now you can also vary the message inside the parameter to get different messages displayed in the box!

A more complex parameter

On to the next parameter. This one is going to involve slightly more work — we are going to set it so that depending on what the msgType parameter is set to, the function will display a different icon and a different background color.

  1. First of all, download the icons needed for this exercise (warning and chat) from GitHub. Save them in a new folder called icons in the same location as your HTML file.

    Note: The warning and chat icons were originally found on iconfinder.com, and designed by Nazarrudin Ansyari — Thanks! (The actual icon pages were since moved or removed.)

  2. Next, find the CSS inside your HTML file. We'll make a few changes to make way for the icons. First, update the .msgBox width from:

    css

    width: 200px;
    
    to

    css

    width: 242px;
    
  3. Next, add the following lines inside the .msgBox p { } rule:

    css

    padding-left: 82px;
    background-position: 25px center;
    background-repeat: no-repeat;
    
  4. Now we need to add code to our displayMessage() function to handle displaying the icons. Add the following block just above the closing curly brace (}) of your function:

    js

    if (msgType === "warning") {
      msg.style.backgroundImage = "url(icons/warning.png)";
      panel.style.backgroundColor = "red";
    } else if (msgType === "chat") {
      msg.style.backgroundImage = "url(icons/chat.png)";
      panel.style.backgroundColor = "aqua";
    } else {
      msg.style.paddingLeft = "20px";
    }
    
    Here, if the msgType parameter is set as 'warning', the warning icon is displayed and the panel's background color is set to red. If it is set to 'chat', the chat icon is displayed and the panel's background color is set to aqua blue. If the msgType parameter is not set at all (or to something different), then the else { } part of the code comes into play, and the paragraph is given default padding and no icon, with no background panel color set either. This provides a default state if no msgType parameter is provided, meaning that it is an optional parameter!
  5. Let's test out our updated function, try updating the displayMessage() call from this:

    js

    displayMessage("Woo, this is a different message!");
    
    to one of these:

    js

    displayMessage("Your inbox is almost full — delete some mails", "warning");
    displayMessage("Brian: Hi there, how are you today?", "chat");
    
    You can see how useful our (now not so) little function is becoming.

Note: If you have trouble getting the example to work, feel free to check your code against the finished version on GitHub (see it running live also), or ask us for help.

Test your skills!

You've reached the end of this article, but can you remember the most important information? You can find some further tests to verify that you've retained this information before you move on — see Test your skills: Functions. These tests require skills that are covered in the next article, so you might want to read that first before trying the test.

Conclusion

Congratulations on reaching the end! This article took you through the entire process of building up a practical custom function, which with a bit more work could be transplanted into a real project. In the next article, we'll wrap up functions by explaining another essential related concept — return values.