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日期:2021-03-26 10:06

ADS2 2021 1 Assessed Exercise 2

Algorithms and Data Structures (ADS2)

Assessed Exercise 2

This exercise is for submission using Moodle and counts for 10% of the total assessment

mark for this course.

This exercise is worth a total of 30 points.

The deadline for submission is Friday 26 March 2021 at 4:30pm.

Exercise

This exercise has two parts. The first involves implementing in Java the Dynamic Set abstract

data type using two different data structures. The second involves running an empirical study

to compare the performance of each implementation.

Submission

Submit the Java sources of your implementations and a short (max 3 pages) report describing

what you have done in each part of the exercise. Your report should include a heading stating

your full name and matriculation number and clear instructions on how to run your code.

Please make sure the report is in pdf format and your sources are not password protected.

Part 1

The Dynamic Set is an abstract data type (ADT) that can store distinct elements, without any

particular order. There are five main operations in the ADT:

? ADD(S,x): add element x to S, if it is not present already

? REMOVE(S,x): remove element x from S, if it is present

? IS-ELEMENT(S,x): check whether element x is in set S

? SET-EMPTY(S): check whether set S has no elements

? SET-SIZE(S): return the number of elements of set S

Additionally, the Dynamic Set ADT defines the following set-theoretical operations:

? UNION(S,T): return the union of sets S and T

? INTERSECTION (S,T): return the intersection of sets S and T

? DIFFERENCE(S,T): returns the difference of sets S and T

? SUBSET(S,T): check whether set S is a subset of set T

Implement in Java the Dynamic Set ADT defined above using

a) a doubly linked list and [9]

b) a binary search tree. [9]

Observe that the ADT implementation should use Java Generics (see Lab 3) and operations

should be in the form s.add(x), s.remove(x), etc. Explain in the report your

implementation, noting the running time (using big Oh notation) of each operation in both

implementations. Note you can use a self-balancing binary tree but no extra marks will be

awarded. Also, you are not allowed to rely on Java library classes in your implementation.

ADS2 2021 2 Assessed Exercise 2

c) Suppose your implementation based on a doubly linked list maintains the list sorted.

Explain in the report what are the implications of such implementation choice on the

complexity of operations ADD and IS-ELEMENT? [2]

d) A naive implementation of operation UNION(S,T) in the implementation based on

BST consists in taking all elements of BST S one by one, and insert them into BST T.

Describe in the report an implementation with a better running time. Use big Oh

notation to indicate running times. [5]

Part 2

a) Compare the two implementations of the Dynamic Set ADT by carrying out the

following empirical study. First, populate (an initially empty) set S with all the

elements from dataset int20k.txt provided on Moodle under Lab/Files. Then,

generate 100 random numbers in the interval [0, 49999]. Finally, for each random

number x record the time taken to execute IS-ELEMENT(S,x). What is the average

running time of IS-ELEMENT over 100 calls in the two implementations of the ADT?

Comment and explain your findings. [3]

b) What is the output of SET-SIZE(S)? [1]

c) What is the height of the BST implementing set S [1]


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