Two weeks, 100 pts
This is NOT a team project. No late submission will be accepted.
Receive 5 bonus points if turn in the complete work without errors at least one day before deadline.
Receive an F for this course if any academic dishonesty occurs
The purpose of this assignment is to implement priority queues.
Your main task is to implement two priority queues. All two implementations should implement the provided PriorityQueue interface (include implements PriorityQueue in your Java code), which means they should work with priorities of type double and there are no corresponding items attached to the priorities. Your implementations should be as fsollows:
· A class ThreeHeap that implements a min-heap where each non-leaf node has 3 children. You should still use a contiguous portion of an array to store the conceptual complete tree. We suggest you make a copy of BinaryHeap class (discussed in class) and make changes as necessary.
· A class DWayHeap that implements a d-heap where d is the number of children for non- leaf nodes. Your class should implement the same priority queue interface and it should use a contiguous array portion as in your first implementation. It should include an empty constructor and additional constructor that takes d as an argument, work correctly for any d greater than or equal to 2, and use d as the number of children for nodes.
Put your two implementations in two separate Java files, ThreeHeap.java and DWayHeap.java.
Your priority queues should allow duplicates. That is, two or more copies of the same value should be allowed to exist in the heap at the same time. For example, if you call deleteMin and you have {3.0, 3.0, 6.0, 7.0} in the heap, it would just return one of the 3.0 values, then on the next deleteMin it would return the other 3.0. It does not matter “which” 3.0 is returned first.
According to our definition of priority queue, what must be guaranteed is that both 3.0 values will be returned before a 6.0 or 7.0 is returned, and that the 6.0 would be returned before the 7.0.
Your implementations should automatically grow as necessary. (If interested, you may also have them shrink when appropriate; this is optional.) For any arrays, you should start with a small array (say, 10 elements) and resize to use an array twice as large whenever the array becomes full, copying over the elements in the smaller array. Do the copying with a for loop rather than any Java library methods (even though using the library is how one would normally do it). You may use the length field of an array as needed.
Be sure to test your solutions thoroughly. For instance, you may generate 1000 random numbers, insert them into a priority queue, and keep deleteMin() as long as the priority queue is not empty. Part of the grading will involve thorough testing including any difficult cases. For this assignment, we will be grading more strictly for things like style and efficiency.
The questions include comparing the actual run-time of your implementations. We would expect the reports to be at least a couple of pages long, quite possibly longer to have room for relevant graphs or tables.
Submit a report.pdf file, answering the questions below:
1. (4pts) List any difficulties you have during implementation. Did you start this assignment early?
2. (2pts) What is the worst case asymptotic running time of isEmpty, size, insert, findMin, and deleteMin operations on all your 3-heap implementations? For this analysis you should ignore the cost of growing the array. That is, assume that you have enough space when you are inserting a value.
3. (2pts) Which of your two implementations would you recommend to someone who needs to use a heap? Why is that one preferred? Are there any conditions under which you might suggest using your other implementations?
4. (2pts) Briefly discuss how you went about testing your two heap implementations. Feel free to refer to your testing files, which you should submit.
If your program does not compile, you receive zero points for that program. Additional deductions:
1. (5 points) Your code does not follow the style guide discussed in class/textbook.
2. (30 points) Your code does not have author name, date, purpose of this program,
comments on the variables and methods, etc.
Zip the entire project and submit the ZIP to isidore, where you should include:
· ThreeHeap.java
· DWayHeap.java
· Any additional Java files needed, if any.
· The Java files you used to test your implementations.
· report.pdf for bonus points, containing answers to Questions in 2.2.
· PriorityQueue.java (offered at isidore/Assignments)
· EmptyPQException.java (offered at isidore/Assignments)
You must not change PriorityQueue.java and EmptyPQException.java. Your implementations must work with the code as provided to you.
code:
/** * This exception signifies an invalid access on an empty heap. */ public class EmptyPQException extends RuntimeException { // assign a version number for serializable class private static final long serialVersionUID = 1L; /** * Empty constructor */ public EmptyPQException() { } /** * Constructor that takes message as parameter * * @param message * the error message */ public EmptyPQException(String message) { super(message); } }/** * Base interface for priority queue implementations for doubles. Throw * exceptions as appropriate. */ public interface PriorityQueue { /** * Returns true if priority queue has no elements * * @return true if the priority queue has no elements */ public boolean isEmpty(); /** * Returns the number of elements in this priority queue. * * @return the number of elements in this priority queue. */ public int size(); /** * Returns the minimum element in the priority queue * * @return the minimum element * @throws EmptyPQException * if priority queue contains no elements */ public double findMin(); /** * Inserts a new element into the priority queue. Duplicate values ARE * allowed. * * @param x * element to be inserted into the priority queue. */ public void insert(double x); /** * Removes and returns the minimum element from the priority queue. * * @return the minimum element * @throws EmptyPQException * if priority queue contains no elements */ public double deleteMin(); /** * Resets the priority queue to appear as not containing any elements. */ public void makeEmpty();