Kotlin

Created By: Geoffrey Challen

/ Updated: `2022-10-10`

Welcome back! The rest of the semester is incredibly exciting material. As you begin work on the machine project, we begin building and analyzing new data structures and algorithms. We'll also introduce new bits of Kotlin syntax along the way.

Algorithms and data structures comprise the core *conceptual* concerns of computer science.
Algorithms are how we do things.
Data structures are how we represent things.

The two topics are intertwined. We will implement data structures to support certain algorithms. And we will design algorithms that utilize specific data structure capabilties.

As we proceed, we will spend more time talking about how long certain algorithms take and why—or performing algorithm analysis. To do this we use something called Big-O notation to describe the behavior of algorithms. Let's define those terms:

Algorithm analysis: the determination of the computational complexity of algorithms, that is the amount of time, storage and/or other resources necessary to execute them.

Big-O notation is a mathematical notation that describes the limiting behavior of a function when the argument tends towards a particular value or infinity.

We'll take a very high-level view of Big-O as we get started with algorithm analysis. Let's provide an overview of the different complexity categories that we'll learn to identify, and some of the code features that are associated with them.

To get some practice with algorithm analysis, over the next few lessons we'll be implementing a data structure known as a *list*.
You've already been working with Kotlin's built-in `List`

s, so this will give you
a peek at how they are actually implemented.

Lists store a sequence of elements. We already know how to do that using arrays, and we can build an implementation of lists on top of an array. Let's see how!

OK, this is good start. But so far all we have is a wrapper around an array! That's not particularly interesting.

Indeed, the key difference between an array and list is that the size of the list *can change*.
But doing this using a list that maintains are array internally requires more work.
Let's see how, starting with the `remove`

operation.
(You get to implement `add`

as this lesson's homework.)

Next, let's take a look at our core list functions and see how they perform.
We're going to use our new big-O vocabulary and try to understand the performance of `get`

, `set`

, and `remove`

.

Need more practice? Head over to the practice page.