• Build a for loop.
• Build a while loop.
• Explain the purpose of a loop.
• Understand when to use each type of loop.

In an earlier lesson, we learned about repetition statements — statements that allow us to break out of the default sequence and repeat a section of code multiple times. We also learned about two of JavaScript's repetition constructs: the while loop and the do...while loop. In this lesson we will learn about a third: the for loop.

Let's say we have a bunch of gifts to wrap. They all happen to be the same size and shape, so for every gift, we need to cut a similarly sized piece of wrapping paper, fold it up over the edges of the gift, tape it together, and add a nice little card. Then we set the wrapped gift aside and move on to the next gift.

In programming terms, we can think of our collection of gifts as an Array and the act of wrapping them as a function. For example:

const gifts = ["teddy bear", "drone", "doll"];

function wrapGift(gift) {
  console.log(`Wrapped ${gift} and added a bow!`);
}

We could then call wrapGift() on each gift individually:

wrapGift(gifts[0]);
wrapGift(gifts[1]);
wrapGift(gifts[2]);

However, this isn't very efficient or extensible. It's a lot of repetitive code to write out, and if we had more gifts we'd have to write a whole new line for each.

This is where loops come in handy! With a loop, we can just write the repeated action once and perform the action on every item in the collection.

This is a code-along, so follow along with the instructions in each section. There are tests to make sure you're coding your solutions correctly. If you haven't already, fork and clone this lab into your local environment. Navigate into its directory in the terminal, then run code . to open the files in Visual Studio Code.

Of the loops in JavaScript, the for loop is the most common. The for loop is made up of four statements in the following structure:

for ([initialization]; [condition]; [iteration]) {
  [loop body]
}

• Initialization
  • Typically used to initialize a counter variable.
• Condition
  • An expression evaluated before each pass through the loop. If this expression evaluates to true, the statements in the loop body are executed. If the expression evaluates to false, the loop exits.
• Iteration
  • An expression executed at the end of each iteration. Typically, this will involve incrementing or decrementing a counter, bringing the loop ever closer to completion.
• Loop body
  • Code that runs on each pass through the loop.

Usage: Use a for loop when you know how many times you want the loop to run (for example, when you're looping through elements in an array).

Let's take a look at an example and get some practice using the Node debugger. Enter the code below into the index.js file.

Note: You can, of course, copy/paste the code rather than typing it in yourself, but we recommend typing it in for now. The act of typing code develops muscle memory and helps your brain understand and internalize the syntax.

for (let age = 30; age < 40; age++) {
  console.log(`I'm ${age} years old. Happy birthday to me!`);
  debugger;
}

In the above code, let age = 30 is the initialization: we're creating a variable, age, that we'll use in the next three phases of the loop. Notice that we use let instead of const because we need to increment the value of age.

The condition for the above loop is age < 40, or, in other words, "Run the code in the loop body until age is NOT less than 40." As long as the condition evaluates to true, the code in the loop body is executed, the value of age is incremented, and the condition is reevaluated. As soon as the condition evaluates to false, the loop ends.

The iteration is age++, which increments the value of age by 1 after every pass through the loop. We initialized age as 30, and it retains that value during the first pass through the loop. At the end of the first pass, we increment age to 31, check whether the condition still holds true, and, since it does, run the loop body again with age as 31. After that second loop, we increment age to 32, and so on.

The loop body is the set of statements that we want to run when the condition evaluates to true.

Let's take a look at what's happening in our loop using debugger. Run node inspect index.js in the terminal to start the debugger. You should see the following:

Now run cont at the debug prompt to start executing the loop and advance to the breakpoint. It should look like this:

Note, in the first line, that the message has been logged and that age is equal to 30. To verify that, enter repl at the debug prompt to open the REPL, then enter age. You should see 30 output. Now type Ctrl-C to exit the repl, and enter cont at the debug prompt to advance to the next iteration of the loop. You should see the following:

Note that the logged output now shows that age is 31. You can continue to step through the iterations by running cont at the debug prompt. At any point you can verify the value of age by entering the REPL and typing age at the prompt, then exit the REPL to continue stepping through. When you're done, enter .exit or Ctrl-C twice to exit the debugger.

Now let's remove debugger; from our code and execute it by running node index.js. You should see the following:

The for loop is often used to iterate over every element in an array. Let's rewrite our gift-wrapping action above as a for loop. Enter the following code into index.js:

const gifts = ["teddy bear", "drone", "doll"];

function wrapGifts(gifts) {
  for (let i = 0; i < gifts.length; i++) {
    console.log(`Wrapped ${gifts[i]} and added a bow!`);
    debugger;
  }

  return gifts;
}

wrapGifts(gifts);

We started our counter, i, at 0 because arrays have zero-based indexes. Our condition states that we should run the code in the loop body while i is less than gifts.length (3 in the above example). Our iteration, i++, increments our counter by 1 at the end of each pass through the loop.

Run node inspect index.js in the terminal to enter the debugger, and cont at the debug prompt to advance to the breakpoint. You should see Wrapped teddy bear and added a bow! logged. In our loop body, we reference gifts[i]. Since i starts out as 0, during the first pass through the loop gifts[i] is gifts[0], which is 'teddy bear'. Continue stepping through the loop by entering cont at thedebug prompt and remember you can enter the REPL at any point to check the values of our variables, i and gifts[i].

When you're done, remove the debugger and execute the code by running node index.js. You should see the following logged to the terminal:

Wrapped teddy bear and added a bow!
Wrapped drone and added a bow!
Wrapped doll and added a bow!

In the previous section, the wrapGifts() function allowed us to take any array of gifts and loop over them, logging our own message. Let's practice that with a slightly different idea. To complement our gift wrapping function, your task is to create a thank you card creator.

Note: Recall the difference between logging and returning values from a function. When we log information we are simply outputting text to a terminal or console. When we return data from a function we will be able to reference and use that information elsewhere because the data is being passed out of the function.

In index.js, build a function named writeCards() that accepts two arguments: an array of string names, and an event name. Create a for loop with a counter that starts at 0 and increments at the end of each loop. The for loop should stop once it has iterated over the length of the array.

As with our previous wrapGifts() function, you will create a custom message for each name inside the loop. Unlike that example, however, instead of simply logging the messages to the console, you will collect them in a new array and return this array at the end of the function. (Refer back to the Array Methods lesson if you need a refresher on how we can add an element to an array.) The overall process should be:

1. create a new, empty array to hold the messages;
2. iterate through the input array and, inside the loop, build out the 'thank you' message for each name using string interpolation, then add that message to the new array you created;
3. after the loop finishes and all of the messages have been added to the new array, return the new array.

Here is an example of what a call to the writeCards() function might look like:

writeCards(["Charlie", "Samip", "Ali"], "birthday");

If we were to call the function using this function call, it should produce the following array as the return value:

[
  "Thank you, Charlie, for the wonderful birthday gift!",
  "Thank you, Samip, for the wonderful birthday gift!",
  "Thank you, Ali, for the wonderful birthday gift!",
];

Top Tip: The debugger isn't just for debugging code — you can also use it to help you write your function! Try building the structure of the loop, putting the debugger inside the loop body. Even before you start writing the code, you can enter the debugger's REPL and try out code until you figure out how to create the message and add it to an array. Once it's working in the REPL, transfer the code to index.js, exit the debugger, and run the tests.

Recall from the earlier lesson that the while loop is similar to a for loop, repeating an action in a loop based on a condition. Both will continue to loop until that condition evaluates to false. Unlike for, while only requires condition and loop statements:

while ([condition]) {
  [loop body]
}

The initialization and iteration statements of the for loop have not disappeared, though. In fact, we could rewrite our original for loop gift wrapping example using a while loop and achieve the exact same result:

const gifts = ["teddy bear", "drone", "doll"];

function wrapGifts(gifts) {
  let i = 0; // the initialization moves OUTSIDE the body of the loop!
  while (i < gifts.length) {
    console.log(`Wrapped ${gifts[i]} and added a bow!`);
    i++; // the iteration moves INSIDE the body of the loop!
  }

  return gifts;
}

wrapGifts(gifts);
// LOG: Wrapped teddy bear and added a bow!
// LOG: Wrapped drone and added a bow!
// LOG: Wrapped doll and added a bow!
// => ["teddy bear", "drone", "doll"]

Notice that we've just moved the initialization and iteration statements — declaring the i variable outside the loop, and incrementing it inside the loop.

CAUTION: When using while loops, it is easy to forget to involve iteration. Leaving iteration out can result in a condition that always evaluates to true, causing an infinite loop!

Using a while loop enables us to check conditions that aren't based on a counter. Take a look at the following pseudocode for an example of how we could use while in a program for planting a garden:

function plantGarden() {
  let keepWorking = true;
  while (keepWorking) {
    chooseSeedLocation();
    plantSeed();
    waterSeed();
    keepWorking = checkForMoreSeeds();
  }
}

We can imagine that while we have seeds, we take the same steps over and over: choose a location for a seed; plant it; water it. Then, check if there are more seeds. If not, do not keep working.

JavaScript, like many programming languages, provides a variety of looping options. Loops like for and while are actually just slight variations of the same process. By providing a variety, we as programmers have a larger vocabulary to work with.

Often, you will see while loops simply being used as an alternative to for loops:

let countup = 0;
while (countup < 10) {
  console.log(countup++);
}

This is perfectly fine as an alternative way to describe:

for (let countup = 0; countup < 10; countup++) {
  console.log(countup);
}

If you're feeling a bit lost about when to use a for vs. a while loop, take a deep breath. Most of the time, a regular for loop will suffice. It's by far the most common looping construct in JavaScript. A general heuristic for choosing which loop to use is to first try a for loop. If that doesn't serve your purposes, then go ahead and try a while loop. Also, remember that you can always refer to the documentation on these loops at any time.

Just don't forget: with while, make sure you are updating the condition on each loop so that the loop eventually terminates!

To get more acquainted with while, your task is to write a function, countDown, that takes in any positive integer and, starting from that number, counts down to zero using console.log(). Note that this means that running countDown(10); would actually log 11 times:

10
9
8
7
6
5
4
3
2
1
0

Remember the workflow:

1. Install the dependencies using npm install.
2. Run the tests using npm test.
3. Read the errors; vocalize what they're asking you to do.
4. Write code; repeat steps 2 and 3 often until a test passes.
5. Repeat as needed for the remaining tests.

After some time programming in JavaScript, writing a for loop will come as naturally to you as wrapping one gift after another. Just as you slowly become comfortable using different words and vocabulary to better express yourself, you will become more acquainted with concepts like for and while until you are able to discern the nuanced differences in usage between them.

• Codecademy
  • for loop
  • while loop
• MDN
  • for loop
  • while loop
  • Loops and iteration