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Assignment 4 Binary Search Trees and Linked Lists

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CSCI 2270 – Data Structures and Algorithms

Assignment 4

Binary Search Trees and Linked Lists
An online movie service needs help keeping track of their stock. You should help them by developing a
program that stores the movies in a Binary Search Tree (BST) ordered by the first letter in the movie
title, and then a singly linked list for each node in the BST that includes the information for the movie.
For each of the movies in the store’s inventory, the following information is kept:
– IMDB ranking
– Title

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CSCI 2270 – Data Structures and Algorithms

Assignment 4

Binary Search Trees and Linked Lists
An online movie service needs help keeping track of their stock. You should help them by developing a
program that stores the movies in a Binary Search Tree (BST) ordered by the first letter in the movie
title, and then a singly linked list for each node in the BST that includes the information for the movie.
For each of the movies in the store’s inventory, the following information is kept:
– IMDB ranking
– Title
– Year released
– Quantity in stock
Your program will have a menu similar to the previous assignment from which the user could select
options. In this assignment, your menu needs to include options for finding a movie, renting a movie,
printing the inventory, deleting a movie, and quitting the program.
Your program needs to incorporate the following functionality. These are not menu options, see
Appendix A for the specific menu options.
Insert all the movies in the tree.
When the user starts the program they will pass it the name of the text file that contains all movie
information. Each line in the file shows the IMDB ranking, title, year released, and quantity in stock. Your
program needs to handle that command line argument, open the file, and read all movie data in the file.
From this data, build the BST ordered by the first letter in the movie title. For each of the nodes in the
BST, there should be a sorted singly linked list of the actual movie data. Note: the nodes should be added
to the BST and Linked Lists in the order they are read in. The name of the file that contains the movie
data is Assignment4Movies.txt.
Find a movie.
When the user selects this option from the menu, they should be prompted for the name of the movie.
Your program should then search the tree and singly linked lists and display all information for that
movie. If the movie is not found, your program should display, “Movie not found.”
Rent a movie.
When the user selects this option from the menu, they should be prompted for the name of the movie.
If the movie is found in your data structure, your program should update the Quantity in stock property
of the movie and display the new information about the movie.
If the movie is not found, your program should display, “Movie not found.” When the quantity reaches
0, the movie should be deleted from the singly linked list. If that was the only node in the singly linked
list, the node should also be deleted from the BST for that letter.
Print the entire inventory.
When the user selects this option from the menu, your program should display all movie titles and the
quantity available in sorted order by title. Refer to the lecture notes as well as the text book on in-order
tree traversal, and linked list traversals, for more information.
Delete a movie.
When the user selects this option, they should be prompted for the title of the movie to delete. Your
code should then search the tree for the first letter of that movie, and then search the singly linked list
for the title. If the title is found, delete it from the singly linked list. If it was the only title for that letter
in the BST, you also need to delete the node in the BST and re-assign the parent and child pointers to
bypass the deleted node, and free the memory assigned to the node. If the movie is not found in the
search process, print “Movie not found” and do not attempt to delete. A movie node should also be
deleted when its quantity goes to 0.
Count movies in the tree.
When the user selects this option, your program should traverse the tree and singly linked lists and
count the total movie nodes in the tree and print the count.
Quit the program.
When the user selects this option, your program should delete the nodes in the tree and exit the
program.
When the user selects quit, the destructor for the MovieTree class should be called and in the
destructor, all of the nodes in the tree and singly linked lists should be deleted. You need to use a
postorder tree traversal for the delete or you will get segmentation fault errors.
Use the cout statements in Appendix A to set the order of the menu options.
Implementation details
Your BST should be implemented in a class. You are provided with a MovieTree.hpp file on Moodle that
includes the class prototype for this assignment. You need to implement the class functionality in a
corresponding MovieTree.cpp file and Assignment4.cpp file. Do not modify the MovieTree.hpp file. Use
the Assignment 4 Submit link on Moodle to submit your work.
What does a BST of Linked Lists look like
Here’s a diagram to help you visualize the data structure you need to build for this assignment. The BST
nodes are marked with individual letters as the key for the node. Each BST node then contains a pointer
to a singly linked list for the titles that start with that letter. Titles in the linked list need to be in sorted
order, ascending.
Appendix A – cout statements
Display menu
cout << “======Main Menu======” << endl;
cout << “1. Find a movie” << endl;
cout << “2. Rent a movie” << endl;
cout << “3. Print the inventory” << endl;
cout << “4. Delete a movie” << endl;
cout << “5. Count the movies” << endl;
cout << “6. Quit” << endl;
Find a movie
cout << “Enter title:” << endl;
Display found movie information
cout << “Movie Info:” << endl;
cout << “===========” << endl;
cout << “Ranking:” << foundMovie->ranking << endl;
cout << “Title:” << foundMovie->title << endl;
cout << “Year:” << foundMovie->year << endl;
cout << “Quantity:” << foundMovie->quantity << endl;
If movie not found
cout << “Movie not found.” << endl;
Rent a movie
//If movie is in stock
cout << “Movie has been rented.” << endl;
cout << “Movie Info:” << endl;
cout << “===========” << endl;
cout << “Ranking:” << foundMovie->ranking << endl;
cout << “Title:” << foundMovie->title << endl;
cout << “Year:” << foundMovie->year << endl;
cout << “Quantity:” << foundMovie->quantity << endl;
//If movie not found in tree
cout << “Movie not found.” << endl;
Print the inventory
//For all movies in tree
cout<<“Movie: “<<node->title<<” “<<node->quantity<<endl;
Count movies in the tree
cout<<“Tree contains: “<<mt.countMovieNodes()<<” movies.” << endl;
Delete movie
cout << “Enter title:” << endl;
//If movie not found in tree
cout << “Movie not found.” << endl;
Delete all nodes in the tree
//For all movies in tree
cout<<“Deleting: “<<node->title<<endl;
Quit
cout << “Goodbye!” << endl;

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