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amin 2024-06-26 02:39:03 +01:00 committed by zanninso
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29
subjects/java/checkpoints/double-linkedlist/ExerciseRunner.java Normal file
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public class ExerciseRunner {
public static void main(String[] args) {
LinkedList list = new DoubleLinkedList();
// Add elements to the list
list.add(1);
list.add(2);
list.add(3);
// Access elements by index
System.out.println("Element at index 0: " + list.at(0)); // Expected output: 1
System.out.println("Element at index 1: " + list.at(1)); // Expected output: 2
System.out.println("Element at index 2: " + list.at(2)); // Expected output: 3
list.add(4);
// Access elements by index
System.out.println("Element at index 0: " + list.at(0)); // Expected output: 1
System.out.println("Element at index 1: " + list.at(1)); // Expected output: 2
System.out.println("Element at index 2: " + list.at(2)); // Expected output: 3
System.out.println("Element at index 3: " + list.at(3)); // Expected output: 4
// Remove an element by index
list.remove(1);
list.remove(2);
System.out.println("List size : " + list.size()); // Expected output: 2
System.out.println("Element at index 1 after removal: " + list.at(1)); // Expected output: 3
}
}

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subjects/java/checkpoints/double-linkedlist/LinkedList.java Normal file
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public interface LinkedList {
int at(int index);
void add(int value);
void remove(int index);
int size();
}

144
subjects/java/checkpoints/double-linkedlist/README.md Normal file
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## Double Linked List
### Instructions
Create a doubly linked list data structure that implements the following methods:
- `at(int index)`: to access an element by its index.
- `add(int value)`: to add an element at the end of the list.
- `remove(int index)`: to remove an element by its index.
- `size()`: to get the size of the list.
Define these methods in an interface called `LinkedList`, and implement this interface in a class that you will create. Additionally, add private methods `next(Node node)` and `prev(Node node)` in your class that will be used in the other methods. These methods should print the messages "Go to next node" and "Go to previous node" each time they are called, respectively.
### Explanation
A doubly linked list is a linear data structure where each element is a separate object called a node. Each node contains three fields:
- `value`: stores the data.
- `next`: stores a reference to the next node in the list.
- `prev`: stores a reference to the previous node in the list.
The first node is called the head of the list and the last node is always null. The list allows for efficient insertion and deletion of elements. However, accessing an element by its index requires traversing the list from the head to the desired position.
### Given Interface
```java
public interface LinkedList {
int at(int index);
void add(int value);
void remove(int index);
int size();
}
```
### Expected Class
```java
public class DoubleLinkedList implements LinkedList {
private Node head;
private Node tail;
private class Node {
int value;
Node next;
Node prev;
Node(int value) {
this.value = value;
this.next = null;
this.prev = null;
}
}
@Override
public int at(int index) {
// Implementation for accessing an element by its index
}
@Override
public void add(int value) {
// Implementation for adding an element at the end of the list
}
@Override
public void remove(int index) {
// Implementation for removing an element by its index
}
@Override
public int size() {
// Implementation for getting the size of the list
}
private Node next(Node node) {
// Print the message "Go to next node"
System.out.println("Go to next node");
return node.next;
}
private Node prev(Node node) {
// Print the message "Go to previous node"
System.out.println("Go to previous node");
return node.prev;
}
}
```
### Usage
Here is a possible ExerciseRunner.java to test your class:
```java
public class ExerciseRunner {
public static void main(String[] args) {
LinkedList list = new DoubleLinkedList();
// Add elements to the list
list.add(1);
list.add(2);
list.add(3);
// Access elements by index
System.out.println("Element at index 0: " + list.at(0)); // Expected output: 1
System.out.println("Element at index 1: " + list.at(1)); // Expected output: 2
System.out.println("Element at index 2: " + list.at(2)); // Expected output: 3
list.add(4);
// Access elements by index
System.out.println("Element at index 0: " + list.at(0)); // Expected output: 1
System.out.println("Element at index 1: " + list.at(1)); // Expected output: 2
System.out.println("Element at index 2: " + list.at(2)); // Expected output: 3
System.out.println("Element at index 3: " + list.at(3)); // Expected output: 4
// Remove an element by index
list.remove(1);
list.remove(2);
System.out.println("List size : " + list.size()); // Expected output: 2
System.out.println("Element at index 1 after removal: " + list.at(1)); // Expected output: 3
}
}
```
### Expected Output
```java
$ javac *.java -d build
$ java -cp build ExerciseRunner
Element at index 0: 1
Go to next node
Element at index 1: 2
Element at index 2: 3
Element at index 0: 1
Go to next node
Element at index 1: 2
Go to previous node
Element at index 2: 3
Element at index 3: 4
Go to next node
List size : 2
Element at index 1 after removal: 3
$
```