CSI 3334: Data structures, Fall 2014


Data structures and the algorithms that operate on them are the keys to making efficient software. They are also very interesting. This course will cover data structures in a way that exercises your problem-solving skills. These problem-solving skills are what you will need to be a successful programmer, scientist, engineer, or mathematician.

This course covers:

This is a difficult course. My recommendation is to attend lectures, study hard, start projects early, and seek help from the professor when you need it.

Practical information

Lectures are from 11:00 AM to 12:15 AM in Rogers 106 on Tuesday, Thursday. You may use the general labs on the first floor of Rogers, though there is no lab component of the course.

My office is in the Rogers Engineering and Computer Science building, and office hours are listed on my home page. I am glad to talk to students during and outside of office hours. If you can't come to my office hour, please make an appointment for another time, or just stop by.

The TA for this course is Qiaoli Hu. The TA will assist in grading assignments but not in lecturing, assignments, or projects. Please talk with Dr. Hamerly for any assistance.


Here is a schedule of the material we will cover:

Week Dates topic reading Tuesday Thursday
1 Aug 25-31 Overview, C++ review 1.1-1.6; syllabus, submission guidelines, using the shell, style guidelines Project 0 assigned
2 Sep 1-7 Algorithm analysis 2 Homework 0 assigned; Project 1 assigned
3 Sep 8-14 Algorithm analysis Homework 1 assigned
4 Sep 15-21 ADTs, lists, stacks, queues 3.1-3.3, 3.6, 3.7 Project 2 assigned
5 Sep 22-28 Trees 4 Homework 2 assigned
6 Sep 29-Oct 5 Trees Project 3 assigned
7 Oct 6-12 Heaps 6 Homework 3 assigned
8 Oct 13-19 Heaps Project 4 assigned Midterm exam
9 Oct 20-26 Hashing 5
10 Oct 27-Nov 2 Hashing Project 5 assigned
11 Nov 3-9 Sorting 7 (skip 7.4) Homework 4 assigned
12 Nov 10-16 Sorting, Graphs 9.1-9.5
13 Nov 17-23 Graphs Project 6 assigned
14 Nov 24-30 Graphs Homework 5 assigned Thanksgiving
15 Dec 1-7 Disjoint set, Algorithm design 8, 10 Last day of class

The final exam will be Friday, December 12th, 2:00-4:00 PM. The latest university finals information is available here.

Textbooks & resources

Required text: we will be using Mark Weiss' textbook Data Structures and Algorithm Analysis in C++ (4th Edition). An older edition might be okay, but you are responsible in case there are differences between the editions. You can purchase this book from the Baylor bookstore or amazon, among other places.

Further online resources:


Grades will be assigned based on this breakdown:

Important: Each project not completed by the end of the semester will result in a drop of one letter grade. For example, if you would have received a 'B', but you did not complete two of the projects, then your letter grade will be a 'D'.

Different projects and assignments will have different point values. Points are not comparable across assignments; each graded homework/project/exam/etc. will have an associated weight which determines how it factors into your grade.

In-class exams are closed-book. The final will be comprehensive.

Homework is due at the beginning of class; homework turned in after it has been collected but before the end of class will receive a 20% penalty. Homework will not be accepted after class on the due date.

Final letter grades will be assigned at the discretion of the instructor, but here is a minimum guideline for letter grades:
F < 60 ≤ D- < 62 ≤ D < 67 ≤ D+ < 70 ≤ C- < 72 ≤ C < 78 ≤ C+ < 72 ≤ C < 78 ≤ C+ < 80 ≤ B- < 82 ≤ B < 88 ≤ B+ < 90 ≤ A- < 92 ≤ A


Academic honesty

I take academic honesty very seriously. Many studies, including one by Sheilah Maramark and Mindi Barth Maline have suggested that "some students cheat because of ignorance, uncertainty, or confusion regarding what behaviors constitute dishonesty" (Maramark and Maline, Issues in Education: Academic Dishonesty Among College Students, U.S. Department of Education, Office of Research, August 1993, page 5). In an effort to reduce misunderstandings, here is a minimal list of activities that will be considered cheating in this class:

Copyright © 2014 Greg Hamerly, with some content taken from a syllabus by Jeff Donahoo.
Computer Science Department
Baylor University

This page was last updated October 13, 2014 at 14:49 (America/Chicago)

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