COMP 352 – Assignment 3 Binary Tree Expression Calculator

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Question 1
A company is involved in shipping large number of containers at a dock. Containers are classified into three
categories:
Category 1: containers need to be accessed by their indices: lookup, set, add and remove from Category 1.
Category 2: containers need to be add and remove before or after certain position including the first and last
position of the Category 2.
Category 3: containers need to be add and remove in a sorted alphabetical order of their destination and any
new added container need to follow that order of the Category 3.
From the three linear ADTs: List, Positional and Sequence covered in class. discuss which ADT to choose and
its underlying implementation for the above containers’ categories.
Question 2
a) Draw a single binary tree that gave the following traversals:
Inorder: C O P Y R I G H T A B L E
Postorder: C P O R G I T H B A E L Y
b) Assume that the binary tree from part (a) of this question is stored in an array-list as a complete binary tree
as discussed in class. Specify the contents of such an array-list for this tree.
Question 3
a) Given a tree T, where n is the number of nodes of T.
Give an algorithm for computing the depths of all the nodes of a tree T. What is the complexity of your algorithm
in terms of Big-O?
b) We say that a node in a binary search tree is full if it has both a left and a right child.
Write an algorithm called Count-Full-Nodes(t) that takes a binary search tree rooted at node t, and returns
the number of full nodes in the tree. What is the complexity of your solution?
Question 4
a) Draw the min-heap that results from the bottom-up heap construction algorithm on the following list of
values:
20, 12, 35, 19, 7, 10, 15, 24, 16, 39, 5, 19, 11, 3, 27.
Starting from the bottom layer, use the values from left to right as specified above. Show immediate steps and
the final tree representing the min-heap. Afterwards perform the operation removeMin 6 times and show the
resulting min-heap after each step.
COMP 352 – Winter 2020
Assignment 3 – page 2 of 3
b) Create again a min-heap using the list of values from the above part (a) of this question but this time you
have to insert these values step by step using the order from left to right (i.e. insert 20, then insert 12, then
35, etc.) as shown in the above question. Show the tree after each step and the final tree representing the
min-heap.
Note: You must submit the answers to all the questions above. However, only one or more questions, possibly
chosen at random, will be corrected and will be evaluated to the full 50 marks.
Programming Questions (50 marks):
In class, we discussed evaluating arithmetic expressions using a binary tree, this binary tree has leaves that are
associated with variables or constants, and whose internal nodes are associated with one of the operators: +,-,*
and /. You can assume parentheses are well-matched, and the only binary operations allowed are +, -, *, and /.
In this programming assignment, you will design, using pseudo code, and implementation in Java code, a new
version of arithmetic calculators that uses expression trees. Your solution should perform the following:
1. read valid arithmetic expressions (parentheses are well-matched), where each expression is in a single
line. Each arithmetic expression with operands (variables and/or constants) and operators.
2. then convert it to an arithmetic expression in a binary tree structure, where each, internal node
represents an operator, and its subtrees represent operands. All operators are binary, so every operator
has both a left and a right operand. Leaf nodes represent either integers or variables.
3. use a node in an expression tree. Nodes could be, a leaf node just contains a value (integer or variable);
or an internal node has an operator and two Nodes representing its operands.
4. if the expression contains operand variables, it should prompt the user with those variables to set their
values in order to evaluate the expressions.
a) Briefly explain the time and space complexity for the binary tree arithmetic expressions calculator. You
can write your explanation in a separate file.
b) Provide test logs for at least 10 different and sufficiently complex arithmetic expressions that use any of +,
-, *, and / operators (including parentheses) in varying combinations, and operand both as variables and
constants.
you are required to submit:
i. the pseudo code.
ii. a fully commented Java source files (.java files), and the explanation text file.
iii. and your experimental results.
Important Notes
The programming part can be done in groups of two students maximum.
For the Java programs, you must submit the source(.java) files. The solutions to all the questions should
be zipped together into one .zip or .tar.gz file and submitted the EAS folder/ Moodle Dropbox. You must
upload at most one file (even if working in a team, here is what you need to do:
1) Create one zip file, containing the necessary files (.java, .doc, .html, etc.). Please name your file following
this convention:
If the work is done by 1 student: Your file should be called a#_studentID, where # is the number of the
assignment studentID is your student ID number.
COMP 352 – Winter 2020
Assignment 3 – page 3 of 3
If the work is done by 2 students: The zip file should be called a#_studentID1_studentID2, where # is the
number of the assignment, and studentID1 and studentID2 are the ID numbers of each student.
2) If working in a group, only one of the team members can submit the programming part. Do not upload 2
copies.
Important: for the programming part of the assignment, a demo is required (please refer to the courser outline
for full details). The marker will inform you about the demo times. Please notice that failing to demo your
assignment will result in zero mark regardless of your submission. If working in a team, both members of
the team must be present during the demo.
Submission:
• The written questions part must be done individually and uploaded to “theory assignment 3” via
EAS/ Moodle, name your file A3_studentID. pdf, where studentID is your ID number. For this
third assignment, student 123456 would submit a file named A3_123456.pdf. All your answers to
written questions must be in PDF (no scans of handwriting) or text formats only. Please be concise
and brief (about ¼ of a page for each question).
• The programming part must be done in a team of 2 students max, For the Java programs, you
must submit the source files together with the compiled files. The solutions to all the programming
questions should be zipped together into one .zip or .tar.gz, name your file A3_studentID1,
studentID2. zip, where studentID1, studentID2, are the IDs of the three students who did the
programming part together, uploaded to “Programming assignment 3” via EAS/Moodle.
Note: Assignment not submitted by the due date and in the correct format/ folder will
not be graded – NO EXCEPTIONS!!!!