Over the last two lessons, we've learned the basics of how arrays work and how we can look inside them. We also learned about off-by-one errors - and there will be plenty more reminders about OBOEs throughout this section (mostly when we make an error in our code) because they are so common.
In this lesson, we'll learn about some of the most common array methods. In the process, we'll make an important distinction because some methods mutate the arrays they are called on while some don't. When we mutate an array, it is permanently changed.
Let's look at an example of a method that mutates an array versus one that doesn't. We'll start by returning to
Array.prototype.push(). Yes, we've already learned this method - however, it's so important that it's worth reviewing it. It's also a key example of a method that mutates the array it's called on. These kinds of methods are also known as destructive methods because they change the receiver (the thing the method is called on).
> let array = [1,2,3]; > array.push(4); 4 > array; [1,2,3,4]
As we can see in this example,
array has been mutated. We don't save the return value of the array in another variable and there wouldn't be much point, anyway - the return isn't even the array. It's the length of the array.
Let's compare this to the
Array.prototype.concat() method, which is a non-destructive method.
> const originalArray = [1,2,3]; > const modifiedArray = originalArray.concat(4); > originalArray; [1,2,3] > modifiedArray; [1,2,3,4]
First, note that we used
const here instead of
let. This is because
originalArray isn't being modified when we call
Array.prototype.concat() on it. This method returns a new array. The value of this new array is the original array plus the arguments passed into
Array.prototype.concat(). In this case, it's doing the same thing as if we just used
Array.prototype.push(), right? So what's the difference?
Well, it's a pretty big deal that our original array isn't modified. What if we want to use the original array for another operation later? It would be better to use
Array.prototype.concat(). Also, we really need to make sure we store the return of
Array.prototype.concat() in a variable (because it won't be saved otherwise) while we don't need to do so with
There's also a whole school of thought that we should never modify arrays or other objects - only create new ones. This is a central concept of a programming style called functional programming which we will learn about once we reach the React course.
For now, we aren't making distinctions about one being better or worse. It's just important to know both of these methods - and to know which methods mutate the array they are called on and which don't.
In the last lesson, we learned how to use bracket notation to see the value of an array. For example:
> let array = [1,2,3]; > array; 1
We can also use bracket notation to modify elements in an array:
> let array = [1,2,3] > array = "We just modified the array at position zero."; > array; ["We just modified the array at position zero.",2,3];
In this example, we assigned a new value to
"We just modified the array at position zero."
Modifying elements in arrays like this is super useful. Make a mental note of this now so you can add this to your JS toolbox right away.
As you can probably guess, you can reassign elements in an array even if it's a
const. If an array is a
const, it's only the array itself that can't be reassigned.
We can also use bracket notation to add an element to an array. Be careful, though - it's not as effective as using
Array.prototype.push() or other methods. Here's why:
> let array = [1,2,3]; > array = 4; 4 > array; [1, 2, 3, , , 4]
In the example above, we assign the number
array at an index of
5. There is no index at
> array[array.length] = 4;
Since the length of an array would be one element past the final element in the current array, this works correctly. It's a convoluted approach to adding an element in an array, though, and you'll probably never see it in the real world. As always, though, it's good to see the flexibility and power of each tool we have in our toolbox.
Okay, the difference between these two methods is confusing - and don't worry... lots of developers feel this way.
Array.prototype.unshift() to add an element to the beginning of an array. It's like
Array.prototype.push(), except for the beginning of the array instead of the end.
Here's an example:
> let numberArray = [2,3,4]; > numberArray.unshift(1); > numberArray; [1,2,3,4]
On the other hand,
Array.prototype.shift() removes the first element of the array:
> let numberArray = [2,3,4]; > numberArray.shift(); > numberArray; [3,4]
Yes, the common sentiment out there is that this is backwards and confusing. When you shift something over, shouldn't that mean adding something to the beginning because we are shifting over what's already there? And when you unshift it, shouldn't that mean taking something away from the beginning?
Nope, it's the opposite. The best way to remember how
Array.prototype.unshift() work is that their effect seems counter-intuitive to how they are named. There is actually a good reason they are named this way - it's based on binary shifting. That's not something you need to look up, though, unless you are curious to learn about something completely tangential.
Also, it's worth noting - both of these methods are destructive. They change the receiver.
Here's an easy one to remember! Don't want to push something onto the end of an array? Pop it off.
Array.prototype.pop() removes the last element of an array:
> let arrayToPop = [1,2,3,4]; > arrayToPop.pop(); 4 > arrayToPop; [1,2,3]
A couple of things to note here. One, this method is destructive. Secondly, when we call this method, the return is the value of the element that was popped. Pay close attention here! Sometimes we'll want to do something with this value.
In this section, we'll work on some projects where we want to do things to different characters in a string. This means turning a string into an array. Once we are done doing all the things, we may want the final thingy to once again be stringy. That's where
Array.prototype.join() comes in. It will take an array and turn it into a string. We can also pass in a separator as an argument. The examples below should make this clear:
> const epicodus = ["e","p","i","c"]; > const epic = epicodus.join(); > epic; "e,p,i,c" > const epicWithoutCommas = epicodus.join(""); > epicWithoutCommas; "epic" > const reallyEpic = epicodus.join("..."); > reallyEpic; "e...p...i...c"
If we call
Array.prototype.join() without arguments, the array will be turned into a string with commas as separators between each element from the array. That's usually not what we'll want. More commonly, we'll want to do away with the commas, which means passing in
"" as an argument. This just means the separator should be no spaces. If we passed in
" ", the separator between each element would be a space. We can pass anything we want as a separator - especially if we want to be really epic and add
... between each character.
Note that this isn't a destructive method - so we need to save the return value to a variable.
We'll cover one more common array method. We can use
Array.prototype.slice() to literally slice off parts of an array. It's kind of like
Array.prototype.pop() mixed together in one, but more flexible and powerful.
We can pass in one or two arguments. We have to slice from the beginning of the array - and we can optionally slice from the end.
The first argument denotes the index we should slice up to:
> const fruits = ["rambutan", "durian", "kiwi", "guava", "mangosteen"]; > const slicedFruits = fruits.slice(2); > slicedFruits; ["kiwi", "guava", "mangosteen"]
Here, we are slicing everything up to but not including an index of 2 - so everything before
"kiwi". Note that
Array.prototype.slice() isn't destructive and we have to save its return (a sliced copy of the array) in a variable. That's probably for the best - too much slicing and dicing going on!
Now let's slice our fruits a different way - and also remove some fruits from the end of our array.
> const dicedFruits = fruits.slice(1,3); ["durian", "kiwi"]
We are slicing up to an index of 1 - so
"rambutan" gets sliced off. Then we are slicing everything past and including an index of 3. So the second argument handles things a little differently than the first because the slicing starts when the index is reached, not after. Be careful or you might slice more fruits than your codebase can handle.
This is just the tip of the iceberg in terms of what we can do with arrays. There are a lot of other array methods - and later in this section we'll learn how to use looping to really enhance what we can do with arrays. We'll also learn some other powerful array methods throughout the remainder of the program.
To see a list of array methods, check the Mozilla array documentation. Scroll down the page a bit and you'll see a list of methods in the left-hand pane. You don't need to memorize them - after all, that's what documentation is for. However, take some time to acquaint yourself with the methods available. All the methods we've covered in this lesson are on that list.
Array.prototype.push(): Push elements to the end of an array.
Array.prototype.concat(): Concatenate elements to the end of an array. Similar to
Array.prototype.push()except it doesn't modify the original array.
Array.prototype.unshift(): Add an element to the beginning of an array.
Array.prototype.shift(): Remove an element from the beginning of an array.
Array.prototype.pop(): Remove an element from the end of an array.
Array.prototype.join(): Turn an array into a string. You can pass an optional separator in as an argument.
""is a common separator.
Array.prototype.slice(): Slice elements from the beginning and (optionally) the end of an array.
> let array = [1,2,3]; > array = "We just modified the array at position zero."; > array; ["We just modified the array at position zero.",2,3]
See the list of array methods in the left-hand pane of the Mozilla array documentation.
Lesson 5 of 34
Last updated October 12, 2021