- Build a for loop
- Build a while loop
- Build a do-while loop
- Explain the purpose of a loop
- Explain the difference between each type of loop in JS
Sometimes, we need to do things repeatedly in life - our daily routines, for example. We wake up every morning. We got to work or school repeatedly. We repeatedly decide what to watch next on YouTube/Netflix.
In programming, we also often need to complete tasks repeatedly. Say we wanted
to count from one to five using console.log
. We could write:
console.log(1)
console.log(2)
console.log(3)
console.log(4)
console.log(5)
This logs:
1
2
3
4
5
This works, but it is very repetative. Its also 'hardcoded' - that is to say, it
will only work if we want to log the numbers 1
through 5
. We could instead
make this code a bit more abstract and replace the numbers with a variable,
incrementing the variable after each log:
let num = 1
console.log(num)
num += 1
console.log(num)
num += 1
console.log(num)
num += 1
console.log(num)
num += 1
console.log(num)
This produces the same result as the previous logs, but we now have the ability
to change what number we start counting from. If we assigned num
to 5
at the
beginning, we would get:
5
6
7
8
9
Cool, but we still have an issue - this code is way to repetitive. In fact, abstracting the code made it even more repetitive!
Instead of having to write the same lines over and over, we can use a loop. Loops are used to execute the same block of code a specified number of times.
In this lesson, we'll take a closer look at loops and see how they can clean up and simplify our code. This is a code-along, so follow along with the instructions in each section. There are tests to make sure you are coding your solutions correctly.
Let's imagine we have a bunch of gifts to wrap and want to use code to keep track of the process. The gifts 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 moved onto the next gift.
In programming terms, we can think of the gifts as an array and the act of wrapping them as a function. We could, of course, write the following code:
let 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]);
But if we had more gifts, we'd have to write out more calls to wrapGift()
—
it would probably get tiring after a while.
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.
JavaScript loops come in a few different flavors — namely, for
, while
, and
do-while
. We'll cover each of these kinds of loop below.
Of the loops in JavaScript, the for
loop is the most common. The for
loop is
made up of four statements and has the following structure:
for ([initialization]; [condition]; [iteration]) {
[loopBody];
}
- initialization
- An expression (including assignment expressions) or variable declaration. Typically used to initialize a counter variable. This expression may optionally declare new variables with the let keyword
- Condition
- An expression evaluated before each loop iteration. If this expression evaluates to true, statement is executed
- Iteration
- A statement executed at the end of each iteration. Typically, this will involve incrementing or decrementing a counter, bringing the loop ever closer to its end
- loopBody
- Code which runs on every iteration as long as the condition evaluates to true
Use a
for
loop when you know how many times you want the loop to run (for example, when you have an array of known size).
Going back to the original counting example, we could use a for
loop to count
numbers:
for (let num = 1; num < 6; num += 1) {
console.log(num)
}
The above loop will produce:
1
2
3
4
5
The same results as our initial code! In this loop design, we declare a
variable, let num = 1
, as the initialization. Then, we establish the
condition, that num
is less than 6. The third thing we do is define the
iteration - num += 1
. Combined, these three statements indicate that, starting
at num = 1
, this loop will execute over and over until the condition is no
longer met. After each loop, num
is incremented by 1.
With these configured, all we need to provide inside the loop is a single
console.log(num)
. If we wanted to, we could change the initial value, the
condition and/or the iteration, giving us good abstraction and flexibility.
Let's take a look at another, more complex example. The code below will print the string "Hello World!" 99 times:
// i is set equal to 1
// as long as i is less than 100 execute the code in the loopBody
// - which is print "Hello World"; increment i each time the code in loopBody is executed
for (let i = 1; i < 100; i++) {
console.log("Hello World the " + i + " time");
}
// The above prints:
// Hello World the 1 time
// Hello World the 2 time
// Hello World the 3 time
You'll encounter for
loops again when you learn about iterating through object
literals.
Now, let's revisit our gift wrapping example. Given the following array:
let gifts = ["teddy bear", "drone", "doll"];
If we wanted to write a function that logged a message for each gift in the array, we would need to access each element one after the other. Sounds loopy!
let gifts = ["teddy bear", "drone", "doll"];
for (let i = 0; i < 3; i++) {
console.log(`Wrapped ${gifts[i]} and added a bow!`);
}
The above loop will log:
Wrapped teddy bear and added a bow!
Wrapped drone and added a bow!
Wrapped doll and added a bow!
This isn't exactly what we want. If we added another gift to the array, we
would have a problem. Since the conditional is i < 3
, this loop will only
increment i
from 0
to 1
to 2
and wouldn't log the extra gift. However, if
we change the condition to be based off the length of our array, we'll be in
great shape:
let gifts = ["teddy bear", "drone", "doll", "bike"];
for (let i = 0; i < gifts.length; i++) {
console.log(`Wrapped ${gifts[i]} and added a bow!`);
}
Now, no matter the length of the array, our loop will be able to iterate over every element.
To finally wrap up, we can wrap the loop in a function:
let gifts = ["teddy bear", "drone", "doll"];
function wrapGift(gifts) {
for (let i = 0; i < gifts.length; i++) {
console.log(`Wrapped ${gifts[i]} and added a bow!`);
}
}
wrapGift(gifts)
TODO: Build a function forLoop
. It takes an array as an argument. Start
counting from 0, and, using a for
loop, add a string to the array 25 times.
Your for
loop could look something like this:
for (let i = 0; i < 25; i++) {
// ...
}
We don't want just any string.
- If your
i
value is1
, add the string"I am 1 strange loop."
- If your
i
value is anything else, add the string"I am ${i} strange loops."
Remember flow control with if
and else
? And how do we
interpolate i
?
Once the loop has finished, return the array full of strings.
The while
loop is similar to an if
statement, except that its body will keep
executing until the condition evaluates to false. It has the following
structure:
while ([condition]) {
[loopBody];
}
A
while
loop is often used when we don't know how many times a loop needs to run - that is, the condition is dependent on a dynamic function/return value. However, we can actually write anyfor
loop as awhile
loop if we choose.
Here is our counting example as a while
loop:
let num = 1
while (num < 6) {
console.log(num)
num += 1
}
Notice that in a for
loop, the initialization, condition and iteration
statements are all contained in the loop syntax. In a while
loop, all three
statements still exist, but the initialization is outside the loop and the
iteration is inside. Only the condition is contained in the loop syntax.
One common mistake when writing while
loops - we must always remember to
include the iteration statement (num += 1
). Otherwise, the loop will run
forever!
Here is another example, this time, counting down:
let countdown = 100;
while (countdown > 0) {
console.log(--countdown);
}
In a more complex example, we can see how while
loops are handy when we don't
know exactly how many times we need to loop:
function maybeTrue() {
return Math.random() >= 0.5; // Returns a random number between 0 (inclusive) and 1 (exclusive)
}
// run until `maybeTrue()` returns `false`
// (so the body of the loop might _never_ run!)
while (maybeTrue()) {
console.log("And I ran; I ran so far away!");
}
In this example, maybeTrue()
returns true
50% of the time, and our loop runs
until maybeTrue()
returns false
. We've used a while
loop because we don't
have any specific number to count up or down to in our loop — we just want it to
run until the condition is no longer met. In this example, it is possible the
condition will be met immediately, causing the loop to never run.
TODO: Create a function called whileLoop
in loops.js
. The function
should take a number as an argument. Using a while
loop, count down (using
console.log
) from the passed in number to 0. Then return the string 'done'
.
The do-while
loop is almost exactly the same as the while loop, except for the
fact that the loop's body is executed at least once before the condition is
tested.
The do-while
loop has the following structure:
do {
[loopBody];
} while ([condition]);
You will rarely see do-while
used since very few situations require a loop
that blindly executes at least once. That being said, take a look at the example
below:
let i = 0;
function incrementVariable() {
i = i + 1;
return i;
}
do {
console.log("doo-bee-doo-bee-doo");
} while (incrementVariable() < 5);
Remember how we couldn't be sure with the plain while
loop above that the body
would run using maybeTrue()
? With do
, we can be sure that the body will
run!
TODO: Define a function called doWhileLoop
in loops.js
. The function should take
an integer as an argument. Use the incrementVariable()
function (you can copy it
from this README) in the condition, and console log
"I run once regardless."
while incrementVariable()
returns a number less
than the parameter received. (Your condition might look something like
incrementVariable() < num
.) Remember that it should also console log when
receiving 0 as a parameter because the do-while runs before the condition is
checked.
If seeing all of these new loops all at once is freaking you out, take a deep
breath. Remember, 98% of the time you will want to use a for
loop. A general
heuristic for choosing which loop, is try a for
. If using for
doesn't serve
your purposes, then go ahead and try a different loop. Also remember that you
can always refer to documentation on these loops at any time. After some time
coding in JavaScript, writing a for
loop will come as naturally to you as
wrapping one gift after another.
- Codecademy - For Loop
- MDN - For Loop
- Codecademy - While Loop
- MDN - While Loop
- Codecademy - Do-While Loop
- MDN - Do-While Loop
View Javascript Intro To Looping on Learn.co and start learning to code for free.