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CS112 Problem Set 3 - Linked Lists, Recursion Solved
1. *Given the following definition of a circular linked list (CLL) class:
public class Node { public String data; public Node next;
public Node(String data, Node next) { this.data = data; this.next = next;
}
}
public class LinkedList {
private Node rear; // pointer to last node of CLL
... }
The class keeps a circular linked list, with a rear pointer to the last node.
Implement the following method in the LinkedList class, to delete the first occurrence of a given item from the linked list. The method returns true if the item is deleted, or false if the item is not found.
public boolean delete(String target) {
/* COMPLETE THIS METHOD */
}
2. * Implement a method in the circular linked list class of problem 1, to add a new item after the first occurrence (from the front) of a specified item. If the item does not exist in the list, the method should return false, otherwise true.
public boolean addAfter(String newItem, String afterItem) {
/* COMPLETE THIS METHOD */
}
3. A doubly linked list (DLL) is a linked list with nodes that point both forward and backward. Here's an example: 3 <--- 5 <--- 7 <--- 1
Here's a DLL node definition:
public class DLLNode { public String data; public DLLNode prev, next;
public DLLNode(String data, DLLNode next, DLLNode prev) { this.data = data; this.next = next; this.prev = prev;
} }
The next of the last node will be null, and the prev of the first node will be null.
Implement a method to move a node (given a pointer to it) to the front of a DLL.
// moves target to front of DLL
public static DLLNode moveToFront(DLLNode front, DLLNode target) {
/** COMPLETE THIS METHOD **/ }
4. With the same DLLNode definition as in the previous problem, implement a method to reverse the sequence of items in a DLL. Your code should NOT create any new nodes - it should simply resequence the original nodes. The method should return the front of the resulting list.
public static DLLNode reverse(DLLNode front) {
/** COMPLETE THIS METHOD **/ }
5. Implement a RECURSIVE method to delete all occurrences of an item from a (non-circular) linked list. Use the Node class definition of problem 1. Return a pointer to the first node in the updated list.
public static Node deleteAll(Node front, String target) {
/* COMPLETE THIS METHOD */
}
6. * Implement a RECURSIVE method to merge two sorted linked lists into a single sorted linked list WITHOUT duplicates. No new nodes must be created: the nodes in the result list are a subset of the nodes in the original lists, rearranged appropriately.
You may assume that the original lists do not have any duplicate items.
For instance:
l1 = 3-9-12-15 l2 = 2-3-6-12
should result in the following:
2-3-6-9-12-15
Assuming a Node class defined like this:
public class Node { public int data; public Node next;
}
Complete the following method:
public static Node merge(Node frontL1, Node frontL2) {
...
}
public class Node { public String data; public Node next;
public Node(String data, Node next) { this.data = data; this.next = next;
}
}
public class LinkedList {
private Node rear; // pointer to last node of CLL
... }
The class keeps a circular linked list, with a rear pointer to the last node.
Implement the following method in the LinkedList class, to delete the first occurrence of a given item from the linked list. The method returns true if the item is deleted, or false if the item is not found.
public boolean delete(String target) {
/* COMPLETE THIS METHOD */
}
2. * Implement a method in the circular linked list class of problem 1, to add a new item after the first occurrence (from the front) of a specified item. If the item does not exist in the list, the method should return false, otherwise true.
public boolean addAfter(String newItem, String afterItem) {
/* COMPLETE THIS METHOD */
}
3. A doubly linked list (DLL) is a linked list with nodes that point both forward and backward. Here's an example: 3 <--- 5 <--- 7 <--- 1
Here's a DLL node definition:
public class DLLNode { public String data; public DLLNode prev, next;
public DLLNode(String data, DLLNode next, DLLNode prev) { this.data = data; this.next = next; this.prev = prev;
} }
The next of the last node will be null, and the prev of the first node will be null.
Implement a method to move a node (given a pointer to it) to the front of a DLL.
// moves target to front of DLL
public static DLLNode moveToFront(DLLNode front, DLLNode target) {
/** COMPLETE THIS METHOD **/ }
4. With the same DLLNode definition as in the previous problem, implement a method to reverse the sequence of items in a DLL. Your code should NOT create any new nodes - it should simply resequence the original nodes. The method should return the front of the resulting list.
public static DLLNode reverse(DLLNode front) {
/** COMPLETE THIS METHOD **/ }
5. Implement a RECURSIVE method to delete all occurrences of an item from a (non-circular) linked list. Use the Node class definition of problem 1. Return a pointer to the first node in the updated list.
public static Node deleteAll(Node front, String target) {
/* COMPLETE THIS METHOD */
}
6. * Implement a RECURSIVE method to merge two sorted linked lists into a single sorted linked list WITHOUT duplicates. No new nodes must be created: the nodes in the result list are a subset of the nodes in the original lists, rearranged appropriately.
You may assume that the original lists do not have any duplicate items.
For instance:
l1 = 3-9-12-15 l2 = 2-3-6-12
should result in the following:
2-3-6-9-12-15
Assuming a Node class defined like this:
public class Node { public int data; public Node next;
}
Complete the following method:
public static Node merge(Node frontL1, Node frontL2) {
...
}
1 file (125.5KB)
