Unit 7: ArrayList
Mastering the concept of Java’s ArrayList. AP Exam weighting: 2.5-7.5%.
7.1: ArrayList Intro
- ArrayLists are dynamic, meaning their size can grow or shrink as needed, but arrays are static in size
- Instead of creating a new array of a different size and copying the data from the initial array to the new one, we can use ArrayLists
Arrays | ArrayLists |
---|---|
Fixed Length | Resizable Length |
Fundamental Java feature | Part of a framework |
An object with no methods | Class with many methods |
Not as flexible | Designed to be very flexible |
Can store primitive data | Not designed to store primitives |
Slightly slower than arrays | |
Need an import statement |
In order to use the ArrayList class, the ArrayList class needs to be imported from the java util package. This can be done by writing import java.util.ArrayList at the top of the class file.
import java.util.ArrayList; // Import the ArrayList class
// Declare and initialize an ArrayList of integers
ArrayList<Integer> numbersList = new ArrayList<>();
ArrayList objects are created in the same fashion as other object classes. The primary difference with ArrayLists is that the element type of the ArrayList must be specified using angled bracket <>. In this example, E represents the data type that will be used in the ArrayList. This can be replaced by an object data type:
ArrayList<E> list = new ArrayList<E>();
We can actually declare ArrayLists without specifying the type that will be included in the ArrayList, but specifying the data type is smarter because it allows the compiler to find errors before run time, so its more efficient and easy to spot errors.
ArrayList list = new ArrayList();
Quick lil popcorn hack
Create 2 ArrayLists, 1 called studentName
and 1 called studentAge
public class Student
{
public static void main(String[] args)
{
ArrayList<Integer> StudentAge = new ArrayList<>();
ArrayList<String> StudentName = new ArrayList<>();
}
}
7.2: ArrayList Methods
Learning Objectives
Students will be able to represent collections of related object reference data using ArrayList
objects.
Essential Knowledge
-
Iteration statements provide a means to access all the elements stored within an
ArrayList
. This process is referred to as “traversing theArrayList
.” -
The following
ArrayList
methods, including what they do and when they are used, are part of the Java Quick Reference:int size()
- Returns the count of elements within the list.boolean add(E obj)
- Appends the objectobj
to the end of the list and returnstrue
.void add(int index, E obj)
- Insertsobj
at the specifiedindex
, shifting elements at and above that position to the right (incrementing their indices by 1) and increasing the list’s size by 1.E get(int index)
- Retrieves the element at the givenindex
in the list.E set(int index, E obj)
- Replaces the element at the specifiedindex
withobj
and returns the previous element at that index.E remove(int index)
- Deletes the element at the specifiedindex
, shifting all subsequent elements one index to the left, reducing the list’s size by one, and returning the removed element.
-
Java allows the generic
ArrayList<E>
, where the generic typeE
specifies the type of element. -
When
ArrayList<E>
is specified, the types of the reference parameters and return type when using the methods are typeE
. -
ArrayList<E>
is preferred overArrayList
because it allows the compiler to find errors that would otherwise be found at runtime.
Size of the ArrayList
int size();
: Returns the number of elements in the list.
Consider the following code:
ArrayList<Integer> a1 = new ArrayList<>();
System.out.println(a1.size());
0
Adding Items to an ArrayList
boolean add(E obj);
: Appendsobj
to the end of the list and returns true.void add(int index, E obj)
: Insertsobj
at positionindex
, as long asindex
is within the list’s length. It moves each element in the list 1 index higher and adds 1 to the list’s size.
Consider the following code:
ArrayList<Double> a2 = new ArrayList<>();
a2.add(1.0);
a2.add(2.0);
a2.add(3.0);
a2.add(1, 4.0);
System.out.println(a2);
[1.0, 4.0, 2.0, 3.0]
Let’s Look at an Example
Consider the following code:
ArrayList<String> h = new ArrayList<>();
h.add("Hello");
h.add("Hello");
h.add("HeLLO");
h.add("Hello");
h.add(1, "Hola");
h.add(26.2);
h.add(new String("Hello"));
h.add(false);
Now, consider this code:
ArrayList<String> g = new ArrayList<>();
g.add("Hello");
g.add("Hello");
g.add("HeLLO");
g.add("Hello");
g.add(1, "Hola");
g.add(new String("Hello"));
System.out.println(g);
[Hello, Hola, Hello, HeLLO, Hello, Hello]
Question: Why does this code work?
- The first code does not work because it is defined as a String and you can’t add doubles or booleans to it.
- The second code works because every added obj is a String
Deleting Items from an ArrayList
E remove(int index)
: Removes the element at position index
, and moves the elements at position index + 1
and higher to the left. It also subtracts one from the list’s size. The return value is the element formerly at position index
.
// If you are confused of what list g is, look back at the previous code.
g.remove(3);
String former = g.remove(0);
System.out.println(former);
Hello
Updating Items in an ArrayList
E set(int index, E obj)
: Replaces the element at position index
with obj
and returns the element formerly at position index
.
String helloFormer = g.set(1, "Bonjour");
System.out.println(helloFormer);
System.out.println(g);
Hello
[Hola, Bonjour, Hello, Hello]
Accessing Items in an ArrayList
E get(int index)
Returns the element at position index
in the list.
String hello = g.get(3);
System.out.println(hello);
System.out.println(g);
Hello
[Hola, Bonjour, Hello, Hello]
Passing an ArrayList
as a Method Parameter
The only time that it is wise to use ArrayList
instead of ArrayList<E>
is when it is as a function parameter and it is only using ArrayList<>.get(E)
or ArrayList<>.size()
. Consider the following code:
private void accessOnly(ArrayList myList) {
if (myList.size() > 0) {
System.out.println(myList.get(1)); // Change the index to the one you want to access
} else {
System.out.println("Array is empty");
}
}
ArrayList<Integer> myList = new ArrayList<Integer>();
myList.add(0);
myList.add(1);
myList.add(2);
accessOnly(myList);
1
Returning an ArrayList
from a Method
In order for you to return an ArrayList
, the data type must be specified, and the return type must be the same as the return value. Consider the following code:
private ArrayList<String> returnTheSame() {
ArrayList<String> arr = new ArrayList<String>(); // Initialize the ArrayList
arr.add("Hello");
return arr;
}
ArrayList<String> result = returnTheSame();
System.out.println(result);
[Hello]
Hacks
-
The learning objective is that “Students will be able to represent collections of related object reference data using
ArrayList
objects.” What does this mean to you? -
Answer the following questions:
- Look back at Size of the
ArrayList
. What does the code output and why?- 0 because there no variables in the initialized array so it defaults to 0.
- Look back at Adding items to an
ArrayList
. What does the code output and why? What type of function isvoid
, and what will be the return value?- [1.0, 4.0, 2.0, 3.0] because that was the order in which you added elements to the array. A
void
function is similar to normal functions except it does not return a value after the it executes.
- [1.0, 4.0, 2.0, 3.0] because that was the order in which you added elements to the array. A
- Look back at Example 1. What two lines did we remove? Why?
- the lines that included a double an a boolean because they are not accepted by arraylist because it can only take one type of object.
- If an
ArrayList
is being used as a parameter, what are the only two methods I can use from it? What would happen if I tried to use any other methods?- access methods and methods adding to the list. the ArrayList being passed would change the content or structure
- Look back at Size of the
-
Using the Hack Helper, write code that will:
- Add 2 items to the list.
- Remove an item from the list anywhere of the user’s choice.
- Replace an item anywhere in the list of the user’s choice.
- Get the first and last element of the list, no matter the length.
- Return the items added, removed, replaced, and the list’s size, in one string.
Hack Helper
public class ArrayListMethodsExample {
private String manipulateList() {
ArrayList<String> Hacks = new ArrayList<>();
Hacks.add("Parav");
Hacks.add("Krishiv");
Hacks.add("Shaurya");
Hacks.add("Nikhil");
Scanner scanner = new Scanner(System.in);
System.out.println("Enter the first item to add: ");
String newItem1 = scanner.nextLine();
Hacks.add(newItem1);
System.out.println("Enter the second item to add: ");
String newItem2 = scanner.nextLine();
Hacks.add(newItem2);
System.out.println("Enter the index of the item to remove: ");
int removeIndex = scanner.nextInt();
String removedItem = Hacks.remove(removeIndex);
System.out.println("Enter the index of the item to replace: ");
int replaceIndex = scanner.nextInt();
System.out.println("Enter the new item to replace with: ");
String replacementItem = scanner.next();
String replacedItem = Hacks.set(replaceIndex, replacementItem);
String firstElement = Hacks.get(0);
String lastElement = Hacks.get(Hacks.size() - 1);
StringBuilder result = new StringBuilder();
result.append("Items added: ").append(newItem1).append(", ").append(newItem2).append("\n");
result.append("Item removed: ").append(removedItem).append("\n");
result.append("Item replaced: at index ").append(replaceIndex).append(" with ").append(replacedItem).append("\n");
result.append("List size: ").append(Hacks.size()).append("\n");
result.append("First element: ").append(firstElement).append("\n");
result.append("Last element: ").append(lastElement);
return result.toString();
}
public static void main(String[] args) {
ArrayListMethodsExample example = new ArrayListMethodsExample();
String result = example.manipulateList();
System.out.println(result);
}
}
ArrayListMethodsExample.main(null);
Enter the first item to add:
Enter the second item to add:
Enter the index of the item to remove:
Enter the index of the item to replace:
Enter the new item to replace with:
Items added: Parav, Tapan
Item removed: Shaurya
Item replaced: at index 3 with Parav
List size: 5
First element: Parav
Last element: Tapan
7.3: Traversing Arraylists
Learning Objectives:
-
With an Arraylist you can traverse objects using a for or while loop.
-
Traversing objects is similar to iterating through objects.
Essential Knowledge:
-
Iteration statements can be used to accsess all the elements in an Arraylist. This is called traversing the Arraylist.
-
Deleting elements during a traversal of an Arraylist requires special techniques to avoid skiping elements. This is called traversing the Arraylist.
-
The indicies of an Arraylist start at 0; If you try to use any value lower than 0, you will get an ArrayIndexOutOfBoundsException error
import java.util.ArrayList;
import java.util.List;
public class Main {
public static void main(String[] args) {
ArrayList<String> roster = new ArrayList<>();
roster.add("Hello");
roster.add("World");
roster.add("Java");
int sum = 0;
for (int i = 0; i < roster.size(); i++) {
String element = roster.get(i);
if (element != null) {
sum += element.length();
}
}
System.out.println(sum);
}
}
Main.main(null);
14
Breakdown:
-
We are first declaring a new arraylist and adding a few elements.
-
Next, we set the “sum” variable as 0.
-
We set a for loop to traverse through the arraylist, iterating through all the indices in the arraylist and adding up the lengths of all the values.
-
Lastly, we print it out.
Loop Conditions:
- There are a few diffrent loop conditions you can use to traverse an Arraylist:
First, there are three major parts of a for loop: Initialisation, in which you declare the index, can be modified to change where you want to traverse from.
Boolean condition, in which you declare the stop condition, can be modified in order to change the index you want to stop traversing in.
Update, in which you declare how many indexes to go through, can be modified to skip certain indicies and traverse in a certain direction.
Practice:
Suppose we have an arraylist named grades, and we want to remove the entries that are lower than 70. replace the question marks with code to solve the problem:
import java.util.ArrayList;
import java.util.List;
public class Main {
public static void main(String[] args) {
ArrayList<Integer> grades = new ArrayList<>();
grades.add(68);
grades.add(71);
grades.add(100);
grades.add(80);
for(int i = 0; i < grades.size(); i++ ){
if(grades.get(i)<70){
grades.remove(i);
}
}
System.out.println(grades);
}
}
Main.main(null);
[71, 100, 80]
Using Enhanced For-Loop With Traversing:
-
Using Enhanced for loop is easier to read and write and is also more concise and avoids errors.
-
Indexes are not explicitly used and copies of the current element are made at each iteration.
import java.util.ArrayList;
import java.util.List;
public class Main {
public static void main(String[] args) {
List<String> roster = new ArrayList<>();
roster.add("Hello");
roster.add("World");
roster.add("Java");
// Using an enhanced for loop to iterate through the ArrayList
for (String element : roster) {
System.out.println(element);
}
}
}
Main.main(null)
Hello
World
Java
Common mistakes:
-
Using the Wrong Data Type: Ensure that you declare your ArrayList with the correct data type. Using the wrong data type can lead to type mismatches and errors.
-
Incorrect Indexing: Be cautious when using a standard for loop. Off-by-one errors or accessing elements that don’t exist can lead to runtime exceptions.
-
Modifying the List During Iteration: Modifying an ArrayList (adding or removing elements) while iterating over it can lead to a ConcurrentModificationException. To avoid this, use an Iterator or create a copy of the list if modifications are needed.
-
Not Checking for Null Elements: When using enhanced for loops or iterators, check for null elements if there’s a possibility that your list contains them to avoid NullPointerExceptions.
-
Inefficient Searching: If you need to find a specific element, avoid using a linear search within a loop. Use appropriate methods like contains() or indexOf() to find elements efficiently.
Hacks:
- Create a scenario which requires the use of arraylist traversal and create code to solve it.
- Extra points to creative scenarios
- 90% credit to any working code and scenario
- 80% credit to incomplete code if you provide explanation of it
- -10% deduction for late submition
public class Library {
static class Book {
String title;
String author;
String ISBN;
public Book(String title, String author, String ISBN) {
this.title = title;
this.author = author;
this.ISBN = ISBN;
}
public String toString() {
return "Title: " + title + ", Author: " + author + ", ISBN: " + ISBN;
}
}
ArrayList<Book> books;
public Library() {
books = new ArrayList<>();
}
public void addBook(Book book) {
books.add(book);
}
public void searchBooksByAuthor(String author) {
for (Book book : books) {
if (book.author.equals(author)) {
System.out.println(book);
}
}
}
public static void main(String[] args) {
Library library = new Library();
library.addBook(new Book("Book 1", "Author 1", "1234567890"));
library.addBook(new Book("Book 2", "Author 2", "2345678901"));
library.addBook(new Book("Book 3", "Author 1", "3456789012"));
library.addBook(new Book("Book 4", "Author 2", "4567890123"));
String authorToSearch = "Author 2";
System.out.println("Books by " + authorToSearch + ":");
library.searchBooksByAuthor(authorToSearch);
}
}
Library.main(null);
Books by Author 2:
Title: Book 2, Author: Author 2, ISBN: 2345678901
Title: Book 4, Author: Author 2, ISBN: 4567890123
7.4: Developing Algorithms Using ArrayLists
Learning Objectives
In the context of ArrayList
objects, this module aims to teach the following skills:
a. Iterating through ArrayLists
using for
or while
loops.
b. Iterating through ArrayLists
using enhanced for
loops.
In the realm of algorithms, within the context of specific requirements that demand the utilization of ArrayList
traversals, students will be able to:
- Recognize established algorithms.
- Customize existing algorithms.
- Create new algorithms.
Essential Knowledge
-
Iteration statements provide a means to access all the elements stored within an
ArrayList
. This process is referred to as “traversing theArrayList
.” -
The following methods related to
ArrayLists
, their functions, and appropriate use are covered in the Java Quick Reference:int size()
- Returns the count of elements within the list.boolean add(E obj)
- Appends the objectobj
to the end of the list and returnstrue
.void add(int index, E obj)
- Insertsobj
at the specifiedindex
, shifting elements at and above that position to the right (incrementing their indices by 1) and increasing the list’s size by 1.E get(int index)
- Retrieves the element at the givenindex
in the list.E set(int index, E obj)
- Replaces the element at the specifiedindex
withobj
and returns the previous element at that index.E remove(int index)
- Deletes the element at the specifiedindex
, shifting all subsequent elements one index to the left, reducing the list’s size by one, and returning the removed element.
-
There exist established algorithms for
ArrayLists
that make use of traversals to:- Insert elements.
- Remove elements.
- Apply the same algorithms commonly used with 1D arrays.
Popcorn Hacks:
Before you uncomment the code and run it, guess what the code will do based on what you’ve learned.
- It will find the maximum value in the array
nums
and prints it.
Let’s Look at an Example (Example 1)
public class ArrayListExample {
private double findMax(double[] values) {
double max = values[0];
for (int index = 1; index < values.length; index++) {
if (values[index] > max) {
max = values[index];
}
}
return max;
}
public static void main(String[] args) {
double[] nums = {1.0, 3.0, 2.0, 2.0, 1.0, 69.0, 2.0, 4.0, 6.0, 2.0, 5.0, 10.0};
ArrayListExample example = new ArrayListExample();
double max = example.findMax(nums);
System.out.println("Maximum value: " + max);
}
}
ArrayListExample.main(null);
Maximum value: 69.0
Take a closer look at the findMax()
method. It takes in a list of doubles as parameters. It will then use a for
loop to find the maximum value in the list. Now, using what we know, can we replace the list of doubles with an ArrayList of Doubles? We sure can! Take a look at how we can use ArrayList to do just that:
public class ArrayListExample {
private double findMax(ArrayList<Double> values) {
double max = values.get(0);
for (int index = 1; index < values.size(); index++) {
if (values.get(index) > max) {
max = values.get(index);
}
}
return max;
}
public static void main(String[] args) {
ArrayList<Double> nums = new ArrayList<>();
nums.add(1.0);
nums.add(3.0);
nums.add(2.0);
nums.add(2.0);
nums.add(1.0);
nums.add(69.0);
nums.add(2.0);
nums.add(4.0);
nums.add(6.0);
nums.add(2.0);
nums.add(5.0);
nums.add(10.0);
ArrayListExample example = new ArrayListExample();
double max = example.findMax(nums);
System.out.println("Maximum value: " + max);
}
}
ArrayListExample.main(null);
Maximum value: 69.0
Let’s Look at an Example (Example 2)
Take a look at this code:
public class ArrayListExample {
private int findMin(int[] values) {
int min = Integer.MAX_VALUE;
for (int currentValue : values) {
if (currentValue < min) {
min = currentValue;
}
}
return min;
}
public static void main(String[] args) {
int[] nums = {420, 703, 2034, 582, 1047, 4545};
ArrayListExample example = new ArrayListExample();
int min = example.findMin(nums);
System.out.println("Minimum value: " + min);
}
}
ArrayListExample.main(null);
Minimum value: 420
Now, can we use ArrayLists to make this code better? We sure can! Take a look at the new and improved code that uses ArrayLists:
public class ArrayListExample {
private int findMin(ArrayList<Integer> values) {
int min = Integer.MAX_VALUE;
for (int currentValue : values) {
if (currentValue < min) {
min = currentValue;
}
}
return min;
}
public static void main(String[] args) {
ArrayList<Integer> nums = new ArrayList<>();
nums.add(420);
nums.add(703);
nums.add(2034);
nums.add(582);
nums.add(1047);
nums.add(4545);
ArrayListExample example = new ArrayListExample();
int min = example.findMin(nums);
System.out.println("Minimum value: " + min);
}
}
ArrayListExample.main(null);
Minimum value: 420
Hacks
- Answer the questions:
- Look back at the examples. What’s similar? What’s different?
- the maximum value examples use normal for loops and the first one uses Arrays while the second one uses ArrayLists. The minimum value examples use enhanced for loops and the first one uses Arrays while the second one uses ArrayLists.
- Why do we use
ArrayList
? Why not just regular lists?- we use
ArrayList
in Java to use built-in methods which makes it more flexible and easier to use than regular arrays for managing lists of data.
- we use
- Look back at the examples. What’s similar? What’s different?
- Demonstrate at least two
ArrayList
methods that aren’tArrayList<>.size()
andArrayList<>.get()
.
ArrayList<Integer> nums = new ArrayList<>();
nums.add(420);
nums.remove(0);
- Write the method
findSum()
using the Hack Helper and incorporatingArrayList
.
Hack Helper
public class ArrayListHacks {
private int findSum(ArrayList<Integer> values) {
int sum = 0;
for (int i : values) {
sum = sum + i ;
}
return sum;
}
public static void main(String[] args) {
ArrayList<Integer> nums = new ArrayList<>();
nums.add(23123);
nums.add(12322);
nums.add(32312);
nums.add(12321);
nums.add(32321);
nums.add(12312);
ArrayListHacks hacks = new ArrayListHacks();
int sum = hacks.findSum(nums);
System.out.println("Sum: " + sum);
}
}
ArrayListHacks.main(null);
Sum: 124711
7.5 Searching
Learning Objectives
- Apply sequential/linear search algorithms to search for specific information in array or
arraylist
objects
Essential Knowledge:
- Sequential/linear search alogorithms check each element in order untill the desired value is found or all elementsin the array or
arraylist
have been checked
Search Process
-
Linear searching fits a standard for loop perfectly! We need to specify each element, one at a time, and do not need to track the index after execution
-
Inside the for loop, we retrieve the value from the structure at the specified index and compare it to the searched value
-
If it matches we return the index, otherwise we keep looking!
Searching Linear Structures
Finding information with a computer is something we need to know how to do. Linear search algorithms are BEST used when we do not have any idea about the order of the data and so we need to look at each element to determine if what we are looking for is in fact inside the array or ArrayList
.
When searching, we do need to remember that different data types require comparisons!
- When looking at
int
values, the == operator is the tool to use! - When searching for a
double
value, we need to make sure the value is close enough by doing some math! Object
instances should always use the.equals(otheThing)
method to check for a match!
Searching an ArrayList
of Double
public int where(double magicNumber, ArrayList<Double> realNumbers, double delta)
{
for (int index = 0; index < realNumbers.size(); index++)
{
if (Math.abs(magicNumber - realNumbers.get(index)) < delta)
{
return index;
}
}
return -1;
}
Explanation
The where function searches through a list of numbers to find and return the position of the first number that is very close to a specific target number, known as magicNumber. If no number in the list is close enough to the target number, the function returns -1, indicating that no match was found.
Searching an ArrayList
of book for a String
public int findTheWord(String searchedPhrase, ArrayList<Book> myBooks)
{
for (int index = 0; index < myBooks.size(); index++)
{
Book currentBook = myBooks.get(index);
String currentPhrase = currentBook.getDescription();
if(currentPhrase.equals(searchedPhrase))
{
return index;
}
}
return -1;
}
Explanation
This little code snippet is like a treasure hunt through a collection of books; it’s on a mission to find the one book whose description matches exactly with a special phrase you’re looking for. If it finds the perfect match, it’ll excitedly tell you where it is in the collection, but if not, it’ll sadly let you know with a -1 that the search was a bust.
Questions
Should we use == when looking for an Object?
No, that only will return true if the variable and the element stored at that index point to the same memory, are aliases of each other
Why did we subtract the double values?
To make sure that the lack of preciosin that is inherit in the data type is handled within our code
Why does order sometimes matter?
When searching for a value to remove from a list, if we search forward we have to make sure to adjust the loop control variable, or we might skip what we are looking for when removing!
7.6 Sorting
Learning Objectives
- Apply selection sort and insertion sort algorithms to sort the elements of array or
ArrayList
objects.
Essential Knowledge:
- Selection sort and insertion sort are iterative sorting algorithms that can be used to sort elements in an array or
ArrayList
.
Selection Sort
This is one of the easiest sorts to demonstrate. The selection sort identifies either the maximum or minimum of the compared values and iterates over the structure checking if the item stored at the index matches that condition, if so, it will swap the value stored at that index and continue. This implementation uses a helper method to perform the swap operation since variables can hold only one value at a time!
Example:
// with normal arrays
for (int outerLoop = 0; outerLoop < myDucks.length; outerLoop ++)
{
int minIndex = outerLoop;
for (int inner = outerLoop +1; inner < myDucks.length; inner++)
{
if (myDucks[inner].compareT(myDucks[minIndex]) < 0)
{
minIndex = inner;
}
}
if (minIndex != outerLoop)
{
swapItems(minIndex, outerloop, myDucks);
}
}
// with array lists
for (int outerLoop = 0; outerLoop < myDucks.size(); outerLoop++) {
int minIndex = outerLoop;
for (int inner = outerLoop + 1; inner < myDucks.size(); inner++)
{
if (myDucks.get(inner).compareT(myDucks.get(minIndex)) < 0)
{
minIndex = inner;
}
}
if (minIndex != outerLoop) {
swapItems(minIndex, outerLoop, myDucks);
}
}
/*
This code performs a selection sort on the myDucks ArrayList, ordering its elements based on the compareT method.
During each iteration of the outer loop, it finds the index of the minimum element in the unsorted portion of the list and swaps it with the first element of the unsorted portion.
*/
Insertion Sort Algorithm
The insertion sort is characterized by building a sorted structure as it proceeds. It inserts each value it finds at the appropriate location in the data structure. This is often accomplished by using a while loop as the inner loop.
Example:
for (int outer = 1; outer < randomList.size(); outer++)
{
DebugDuck tested = randomList.get(outer);
int inner = outer -1;
while ( innter >= 0 && tested.compareTo(randomList.get(inner)) < 0)
{
ramdomList.set(inner +1, randomList.get(inner));
inner--;
}
randomList.set(inner +1, tested);
}
// This code arranges a list of DebugDuck objects in order using the insertion sort method,
// by moving through the list and putting each item in its proper place one by one.
7.7: Ethical Issues around Data Collection
Learning Objectives:
- Explaining the risks of privacy from collecting and storing personal data on computer systems.
Essential Knowledge:
- When using the computer, personal privacy is at risk. Programmers should attempt to safeguard personal privacy.
Privacy Protection:
- A simple way to protect privacy is to delete personal user info after done using it.
- Another way is to minimize the amount of data used by the program in order to protect privacy.
- Anonymizing personal data via the object method hashCode() is another way.
Hacks:
- Think of other ways to safeguard user privacy (any other method not listed is fine)
- Encrypting using a completely random string. Cloudflare does something like this. They have 1000 lavalamps and they take 1000 pictures of them per second. They convert the colors from the pixels into strings and use them to hash user data to keep things secure. Instead of lavalamps, you could use something else unpredictable such as the weather at the equator. Its very hard to predict the weather at the equator and you dont know if it will be very hot or reainy. You could collect all the weather data (% of rain, temp, coordinates, etc) and use this to hash user data.
- Extra points to creative solutions
- 90% credit to any solution
- 80% credit to incomplete solution (how did you do that?)
- -10% deduction for late submition
Grading:
- 7.2 Hacks (0.19)
- 7.3 Hacks (0.19)
- 7.4 Hacks (0.19)
- 7.7 Hacks (0.19)
- Popcorn Hacks (0.19)
- Anything else creative or above-and-beyond showing your understanding of ArrayLists (0.05)