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Added Circular Doubly Linked List in the datastructures section (#6565)
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package com.thealgorithms.datastructures.lists;
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/**
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* This class is a circular doubly linked list implementation. In a circular
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* doubly linked list,
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* the last node points back to the first node and the first node points back to
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* the last node,
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* creating a circular chain in both directions.
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*
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* This implementation includes basic operations such as appending elements to
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* the end,
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* removing elements from a specified position, and converting the list to a
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* string representation.
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*
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* @param <E> the type of elements held in this list
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*/
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public class CircularDoublyLinkedList<E> {
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static final class Node<E> {
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Node<E> next;
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Node<E> prev;
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E value;
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private Node(E value, Node<E> next, Node<E> prev) {
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this.value = value;
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this.next = next;
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this.prev = prev;
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}
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}
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private int size;
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Node<E> head = null;
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/**
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* Initializes a new circular doubly linked list. A dummy head node is used for
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* simplicity,
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* pointing initially to itself to ensure the list is never empty.
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*/
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public CircularDoublyLinkedList() {
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head = new Node<>(null, null, null);
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head.next = head;
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head.prev = head;
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size = 0;
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}
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/**
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* Returns the current size of the list.
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*
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* @return the number of elements in the list
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*/
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public int getSize() {
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return size;
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}
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/**
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* Appends a new element to the end of the list. Throws a NullPointerException
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* if
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* a null value is provided.
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*
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* @param value the value to append to the list
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* @throws NullPointerException if the value is null
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*/
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public void append(E value) {
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if (value == null) {
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throw new NullPointerException("Cannot add null element to the list");
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}
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Node<E> newNode = new Node<>(value, head, head.prev);
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head.prev.next = newNode;
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head.prev = newNode;
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size++;
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}
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/**
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* Returns a string representation of the list in the format "[ element1,
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* element2, ... ]".
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* An empty list is represented as "[]".
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*
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* @return the string representation of the list
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*/
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public String toString() {
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if (size == 0) {
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return "[]";
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}
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StringBuilder sb = new StringBuilder("[ ");
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Node<E> current = head.next;
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while (current != head) {
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sb.append(current.value);
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if (current.next != head) {
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sb.append(", ");
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}
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current = current.next;
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}
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sb.append(" ]");
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return sb.toString();
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}
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/**
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* Removes and returns the element at the specified position in the list.
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* Throws an IndexOutOfBoundsException if the position is invalid.
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*
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* @param pos the position of the element to remove
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* @return the value of the removed element - pop operation
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* @throws IndexOutOfBoundsException if the position is out of range
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*/
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public E remove(int pos) {
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if (pos >= size || pos < 0) {
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throw new IndexOutOfBoundsException("Position out of bounds");
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}
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Node<E> current = head.next;
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for (int i = 0; i < pos; i++) {
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current = current.next;
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}
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current.prev.next = current.next;
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current.next.prev = current.prev;
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E removedValue = current.value;
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size--;
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return removedValue;
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}
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}
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@@ -0,0 +1,120 @@
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package com.thealgorithms.datastructures.lists;
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import static org.junit.jupiter.api.Assertions.assertEquals;
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import static org.junit.jupiter.api.Assertions.assertThrows;
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import org.junit.jupiter.api.BeforeEach;
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import org.junit.jupiter.api.Test;
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public class CircularDoublyLinkedListTest {
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private CircularDoublyLinkedList<Integer> list;
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@BeforeEach
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public void setUp() {
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list = new CircularDoublyLinkedList<>();
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}
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@Test
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public void testInitialSize() {
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assertEquals(0, list.getSize(), "Initial size should be 0.");
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}
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@Test
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public void testAppendAndSize() {
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list.append(10);
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list.append(20);
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list.append(30);
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assertEquals(3, list.getSize(), "Size after appends should be 3.");
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assertEquals("[ 10, 20, 30 ]", list.toString(), "List content should match appended values.");
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}
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@Test
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public void testRemove() {
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list.append(10);
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list.append(20);
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list.append(30);
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int removed = list.remove(1);
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assertEquals(20, removed, "Removed element at index 1 should be 20.");
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assertEquals("[ 10, 30 ]", list.toString(), "List content should reflect removal.");
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assertEquals(2, list.getSize(), "Size after removal should be 2.");
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removed = list.remove(0);
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assertEquals(10, removed, "Removed element at index 0 should be 10.");
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assertEquals("[ 30 ]", list.toString(), "List content should reflect second removal.");
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assertEquals(1, list.getSize(), "Size after second removal should be 1.");
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}
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@Test
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public void testRemoveInvalidIndex() {
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list.append(10);
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list.append(20);
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assertThrows(IndexOutOfBoundsException.class, () -> list.remove(2), "Removing at invalid index 2 should throw exception.");
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assertThrows(IndexOutOfBoundsException.class, () -> list.remove(-1), "Removing at negative index should throw exception.");
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}
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@Test
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public void testToStringEmpty() {
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assertEquals("[]", list.toString(), "Empty list should display as [].");
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}
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@Test
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public void testSingleElement() {
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list.append(10);
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assertEquals(1, list.getSize(), "Size after adding single element should be 1.");
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assertEquals("[ 10 ]", list.toString(), "Single element list string should be formatted correctly.");
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int removed = list.remove(0);
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assertEquals(10, removed, "Removed element should be the one appended.");
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assertEquals("[]", list.toString(), "List should be empty after removing last element.");
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assertEquals(0, list.getSize(), "Size after removing last element should be 0.");
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}
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@Test
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public void testNullAppend() {
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assertThrows(NullPointerException.class, () -> list.append(null), "Appending null should throw NullPointerException.");
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}
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@Test
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public void testRemoveLastPosition() {
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list.append(10);
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list.append(20);
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list.append(30);
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int removed = list.remove(list.getSize() - 1);
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assertEquals(30, removed, "Last element removed should be 30.");
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assertEquals(2, list.getSize(), "Size should decrease after removing last element.");
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}
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@Test
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public void testRemoveFromEmptyThrows() {
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assertThrows(IndexOutOfBoundsException.class, () -> list.remove(0), "Remove from empty list should throw.");
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}
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@Test
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public void testRepeatedAppendAndRemove() {
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for (int i = 0; i < 100; i++) {
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list.append(i);
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}
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assertEquals(100, list.getSize());
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for (int i = 99; i >= 0; i--) {
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int removed = list.remove(i);
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assertEquals(i, removed, "Removed element should match appended value.");
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}
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assertEquals(0, list.getSize(), "List should be empty after all removes.");
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}
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@Test
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public void testToStringAfterMultipleRemoves() {
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list.append(1);
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list.append(2);
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list.append(3);
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list.remove(2);
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list.remove(0);
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assertEquals("[ 2 ]", list.toString(), "ToString should correctly represent remaining elements.");
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}
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}
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