COSC 350 - Fall 2021

Course Information

• Instructor: Dr. Aaron Garrett (garrettal@wofford.edu)
• Class Meeting (Olin 213): MWF 10:30a-11:20a
• Office Hours (Olin 204E): MWF 2:00p-4:00p; TR 11:00a-12:00p
• Textbook: None, but LearnCPP is one of many free resources available online
• Required Software Mimir Classroom (available in bookstore)
• Final Exam: See the Registrar’s page

Catalog Description

An introduction to the formal study of data structures, such as arrays, stacks, queues, lists, and trees, along with algorithm design and analysis of efficiency.

Prerequisite: COSC 235 with a minimum grade of C.

Goals

• Understand abstraction and how it helps to control complexity
• Understand the concept of an abstract data type (ADT) and how to implement custom ADTs
• Understand how to use and implement common CS data structures
• Understand how memory is managed within a C++ program
• Understand how to use arrays, structures, and pointers to implement ADTs
• Understand tradeoffs among various implementations for a given interface
• Understand recursion and be able to use it to solve problems
• Understand the concepts of algorithmic complexity and “Big O” notation
• Be able to determine the time complexity of an algorithm
• Be familiar with commonly used algorithms for interacting with data structures
• Be able to implement ADTs in C++
• Be proficient with the C++ programming language

Grades

Your grade in the course will be based on a combination of assignments, projects, and exams.

Assignments

Assignments are short exercises that reinforce the core concepts.

Projects

Projects are more complex problems that require a combination of concepts.

Exams

Exams are timed assessments of conceptual understanding.

Homeworks

Homeworks are ungraded (but recommended) practice with the course material.

Artifact	Points
Assignments	200
Projects	400
Midterm Exam	200
Final Exam	200
Total	1000

Note that the final exam is comprehensive and very applied. Success on it requires that students have practiced throughout the term, and completing the assignments and projects are the best way to practice. If the score on the final exam is greater than the score on the midterm exam, the final exam score will be used in place of the midterm exam for final grade calculations.

The usual grading scale will be applied to the accumulated points: 93–100: A, 90–92: A-, 87–89: B+, 83–86: B, 80–82: B-, 77–79: C+, 73–76: C, 70–72: C-, 60–69: D, 0–59: F.

Policies

Attendance

You are expected to attend class meetings and come to class prepared. That includes having completed assigned readings, problem sets, and tutorials.

You are expected to dedicate your attention to what is going on in class and to participate fully in classroom activities, including discussions. No laptops or tablets are to be used in class unless being used for a classroom exercise. (Notes may be taken using a device if needed as an approved accommodation.)

Refer to the General Policy Regarding Attendance in the Wofford College Student Handbook. The policy makes you responsible for catching up on missed classes. If you must be absent for class, please email me in advance to let me know.

Make-up exams are not available. If you have a legitimate, excused absence during the midterm exam, then you must make it up during the final exam period.

Assignment Deadlines

Late assignments will not be accepted without a legitimate excuse. All assignments are expected to be submitted by 11:55p ET on the posted deadline.

Academic Integrity

The Honor Code requires faculty, staff, and students to maintain a high standard of individual honor and integrity. While I may specify some assignments as collaborative, work represented as your own must be your own. If you have any doubt about what is appropriate for a given assignment, you should contact me for clarification.

Accommodations

If you have a disability that requires assistance or accommodation, or if you have questions related to any accommodations for testing, note takers, readers, etc., please contact Dean Beth Wallace by telephone at (864) 597-4371 or in person by visiting the Hugh R. Black Infirmary. You must arrange accommodations during the first week of classes.

Tentative Schedule

Generally, assignments are due on Wednesdays and projects are due on Fridays.

This YouTube series might be helpful for basic C++ language understanding. And this YouTube series focuses on data structures. Both have individual videos linked below.

Meeting		Topics	LearnCPP	YouTube	In Class	Lab	Graded
Sep	1	preprocessor, compiler	Chapter 0	https://youtu.be/3tIqpEmWMLI; https://youtu.be/H4s55GgAg0I	H00	L01
	3	data types, main function	Chapter 1 and 4	https://youtu.be/zB9RI8_wExo	H01	L02	A00
	8	control structures	Chapter C	https://youtu.be/qEgCT87KOfc; https://youtu.be/_1AwR-un4Hk	Q01	L03
	10	I/O	Chapter 18	https://youtu.be/ruf_pj2hGpw; https://youtu.be/XJhIJ6J5obY	H02	L04	A01
	13	functions	Chapter 2	https://youtu.be/V9zuox47zr0	H03	L05
	15	functions (parameter passing)	Chapter 7	https://youtu.be/IzoFn3dfsPA; https://youtu.be/3cm0VckC8q0	Q02	L06
	17	enumerations, strings	Chapter S	https://youtu.be/x55jfOd5PEE; https://youtu.be/ijIxcB9qjaU	H04	L07	A02
	20				H05
	22	arrays	Chapter 6	https://youtu.be/Hw42GkHPyvk; https://youtu.be/ENDaJi08jCU; https://youtu.be/gNgUMA_Ur0U	Q03	L08	P01
	24	searching, sorting			H06	L09	A03
	27	structs	Chapter S	https://youtu.be/fLgTtaqqJp0	H07	L10
	29	classes	Chapter 8	https://youtu.be/2BP8NhxjrO0; https://youtu.be/Ks97R1knQDY	Q04	L11
Oct	1	classes	Chapter 8	https://youtu.be/3dHBFBw13E0	H08	L12	A04
	4	memory management		https://youtu.be/wJ1L2nSIV1s	H09	L13
	6	pointers	Chapter 6	https://youtu.be/DTxHyVn0ODg; https://youtu.be/NUZdUSqsCs4; https://youtu.be/FXhALMsHwEY; https://youtu.be/D8cWquReFqw	Q05	L14
	8	classes with dynamic memory	Chapter 8, 9	https://youtu.be/FXhALMsHwEY; https://youtu.be/D8cWquReFqw	H10	L15	A05
	11			https://youtu.be/Z_hPJ_EhceI;https://youtu.be/BvR1Pgzzr38
	13			https://youtu.be/BvR1Pgzzr38; https://youtu.be/BvR1Pgzzr38; https://youtu.be/PocJ5jXv8No			P02
	15	Midterm Review
	18	Midterm Exam
	20	Midterm Exam
	25	algorithm analysis		https://www.youtube.com/playlist?list=PL8671F220EC32A00E	H11	L16
	27	recursion	Chapter 7	https://youtu.be/kS_gr2_-ws8; https://youtu.be/v4cd1O4zkGw	H12	L17
	29	sorting revisited		https://youtu.be/KEEKn7Me-ms; https://youtu.be/oKndim5-G94	Q06	L18
Nov	1	linked lists		https://www.youtube.com/playlist?list=PL2_aWCzGMAwKedT2KfDMB9YA5DgASZb3U	H13	L19
	3	ADTs		https://youtu.be/92S4zgXN17o	H14	L20
	5	List ADT (unordered)		https://youtu.be/NobHlGUjV3g; https://youtu.be/vcQIFT79_50	Q07	L21	A06
	8	List ADT (ordered)			H15	L22
	10				H16		P03
	12	Stack ADT		https://youtu.be/F1F2imiOJfk; https://youtu.be/XuCbpw6Bj1U	Q08	L23	A07
	15	Queue ADT			H17	L24
	17	tree terminology		https://youtu.be/qH6yxkw0u78	H18	L25
	19	Binary Search Tree ADT		https://youtu.be/pYT9F8_LFTM	Q09	L26	A08
	29	Heap ADT		https://youtu.be/t0Cq6tVNRBA	H19	L27
Dec	1	Map ADT		https://youtu.be/shs0KM3wKv8	H20	L28
	3	C++ STL			Q10	L29	A09
	6	Graph ADT				L30
	8						P04
	10	Final Exam review					A10

Note: This syllabus is subject to change with notice.