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= CS 170 Web Programming = | = CS 170 Web Programming = |
Revision as of 19:46, 17 May 2021
Basic Information About CS Courses
Note: as of summer 2018, this document contains information about all courses that are required in the CS or IT majors. Other CS courses are not listed here yet.
Contents
Points of Contact
Steve Baker - CS 151, 469, 479
Laci Egri - CS 303, 420
Arash Rafiey - CS 256, 458
Geoff Exoo - CS 456, 471, 473
R.B. Abhyankar - CS 421, 451, 452, 470
Jeff Kinne - CS 170, 202, 260, 499
Rob Sternfeld - CS 101, 201, 457
Prerequisites
CS 151 is prerequisite for - CS 170, 201, 260
CS 170 is prerequisite for - 479
CS 201 is prerequisite for - CS 202, 303, 469, 479
CS 202 is prerequisite for - all 400 level except 469, 479
CS 303 is prerequisite for - CS 420, 421, 457, 458
Math 115 is corequisite for - CS 201
Math 115 is prerequisite for - CS 202, 303
Courses with no prerequisite - CS 151, 256
TODO/Possible New Pages
Items to spin off as standalone videos / tutorials
Editors - vim, emacs, pico, atom. Should be able to edit text files, save changes, make copies.
IDEs - eclipse, MS visual studio. Should be able to create a project, add source files, compile and run, debug.
Debugging - gdb. Should be able to compile with debug information, use gdb to find where seg fault occurs, set breakpoints and look at variable values, step line by line through code.
Unix tools - grep, sed, awk, find, makefiles, unix regular expressions, reading manual and manual organization, pipes, I/O redirection.
Programming Assessment
Catalog Description
Basic C programming and data structures. 5 questions. Must pass with 3 and 2 halves for - passing CS 499 and Cs 685/695/699, getting higher than a C in CS 500, getting a C or higher in CS 202.
Prerequisites
- TODO
Standard Content
C programming, with one program from five different types:
- Simple program that requires a loop or nested loops.
- Program that scans through text a character at a time to do something.
- Linked list traversal.
- Binary tree traversal.
- Bit operations.
Important Assignments and/or Exam Questions
- TODO
Standard resources
CS Programming Assessment Wiki Page
CS Courses Standard Content Pages
- CS 101 Fundamentals of Computing
- CS 151 Introduction to Computer Science
- CS 170 Web Programming
- CS 201 Computer Science I
- CS 202 Computer Science II
- CS 256 Structured Design
- CS 260 Object Oriented Programming
- CS 303 Discrete Structures
- CS 420 Theory of Computing
- CS 421 Formal Methods
- CS 451 Architecture
- CS452 Software Engineering
- CS 456 Systems Programming
- CS 457 Data Base Processing
- CS 458 Algorithms
- CS 469 Unix/Linux Administration and Networking
- CS 470 Programming Languages
- CS 471 Operating Systems
- CS 473 Networking
- CS 479 Web Programming II
- CS 499 Senior Seminar
CS 170 Web Programming
Catalog Description
An introduction to World Wide Web programming methods and scripting languages. Includes Hypertext Markup Language (HTML), Cascading Style Sheets (CSS), Dynamic Hypertext Markup Language (DHTML), JavaScript, and VBScript. Prerequisite - C or better in CS 151.
Prerequisites
- Basic understanding of at least one programming language’s syntax and primary data structures.
- Variables, primitives, and literals
- Functions
- Collections
- Most important skills/knowledge gained:
- Client-server relationship and front-end back-end architecture
- Editors, multi-file projects, code linters, and workflow
- The JavaScript event loop and asynchrony
- The JavaScript prototype and the `this` keyword
- EcmaScript latest additions
- Regular expressions
- Intro to PHP: Hypertext Preprocessor
- Separation of concerns and ideal abstraction
- Build tools and test suites
- Simple back-end in NodeJS
Standard Content
- Using Unix (refresher)
- Client Server relationships
- Understanding Apache as a System Service
- Front-end Back-end Architecture
- HTML and CSS (refresher)
- Document Object Model (DOM tree)
- Code Editors, Linters, and Workflow
- JavaScript Event Loop and Asynchrony
- Events
- setTimeout() and setInterval()
- Promises
- Latest EcmaScript Additions:
- Arrow Functions
- Rest and Spread operators
- .forEach() and .map()
- Binary, octal, hex literals
- Template sting and interpolation
- The JavaScript Prototype
- Objects, prototypes, and new
- The “this” keyword
- Regular Expre ssions
- ES6 classes
- Abstraction techniques and code reuse
- Building web components
- Intro to PHP (Hypertext Preprocessor)
- Build Tools - webpack, gulp (time permitting)
- Testing tools - jasmine, mocha, jest, ava (time permitting)
- Common frameworks (time permitting)
- KnockoutJS
- Vue
- React
Important Assignments and/or Exam Questions
- TODO
Standard resources
- (optional) JavaScript: The Good Parts by Douglas Crockford
- (optional) JavaScript Patterns by Stoyan Stefanov
- Mozilla Developer Network (MDN)
CS 201 Computer Science I
Catalog Description
This course begins with a history of programming languages, then focuses on programming in a particular language. The following topics are covered in some detail: variables, expressions and operators, control structures, simple data types, arrays, classes, and objects. Algorithm design and security issues are also discussed. Prerequisite - C or better in CS 151.
Prerequisites
- TODO
Standard Content
Course Outline
Data formats and number systems (binary, decimal, octal, hex), signed/unsigned, two’s complement, floating point, long, int, short char, C strings C Programming - all keywords and operations C compiler, command-line arguments C library functions - formatted I/O, C strings, I/O with different data formats and number systems Basic data structures - unsorted array, sorted array, linked list, heap, stack, queue, binary search tree. Can do all on paper, do code for some in class and as assignments.
Important Assignments and/or Exam Questions
- TODO
Standard resources
- TODO
Notes
Taking CS 201 and CS 202 Simultaneously If a student requests taking CS 201 and 202 simultaneously to stay on track to graduate on time, the following must be met. At least an A- in CS 151 Number systems (binary, octal, decimal, hex) Firm understanding of programming fundamentals - variables / data types, arrays, control flow, loops, scope, string manipulation, pointers. Ability to write basic programs in C or python - anything that can be done with a few nested control structures (loops, if’s). Review all of tutorialspoint - data structures & algorithms Good understand of the following data structures - unsorted array, sorted array, linked list, stack, queue, hash table, binary search tree. For each can do the following - explain the operations (insert, delete, lookup), run examples on the board, explain the running time of the basic operations Programming assessment - problems 1, 2, 5 correct, get problems 3 and 4 correct possibly with assistance Taking CS 201 and 303 Simultaneously To take CS 303 simultaneously, you must At least a B in CS 151 Meet items b), e), f) from the above list
CS 202 Computer Science II
Catalog Description
This course is a continuation of CS 201. It involves a deeper study of programming languages, but emphasizes programming in a particular language. Topics include algorithm design and analysis, data structures, recursion, threads, network programming, graphics, security, and ethics. Prerequisites - C or better in CS 201.
Prerequisites
- basic programming concepts
- ability to use unix
Standard Content
Course Outline
- Review (2 weeks)
- C Programming - all keywords and operations, libraries and header files
- Data formats and number systems (binary, decimal, octal, hex), signed/unsigned, two’s complement, floating point, long, int, short char, C strings
- I/O with different data formats and number systems
- Basic data structures - unsorted array, sorted array, linked list, heap, stack, queue - code for all in class and as assignments
- Search and sorting - linear and binary search, selection and insertion sort, mergesort, heapsort, quicksort - code for all in class and as assignments
- Asymptotic analysis and running time (1 week) - big O/Omega/Theta, little o/omega, definitions, basic proofs, polynomials / exponentials / logarithms, recursion trees
- Memory organization (1 week) - text, data, heap, stack, malloc, free, pointer arithmetic
- Unix and debugging (1 week) - gdb, grep, sed, awk, find, compiler options, makefiles, unix regular expressions, reading manual and manual organization, pipes, I/O redirection
- Disk organization (1 week) - inodes, superblocks, etc.
- New data structures (4 weeks) - binary search tree (including balanced), hash table, skip list, trie, B tree - code for some in class and as assignments
- Graphs (1 week) - terminology, adjacency matrix, adjacency list, basic algorithms (BFS, DFS, shortest path, minimum spanning tree) - do all algorithms on the board, code for some in class, running time for all
- Classes and objects in C++ (2 weeks) - data abstraction and encapsulation, defining classes, creating objects, inheritance, protection, virtual functions and polymorphism
- The Standard Template Library (1 week)
- Comparison of C++ and other OO Languages (Java, Python, etc.) (1 week)
Learning Outcomes
- C programming and debugging,
- data structures understanding (can explain lookup/insert/delete for each DS, work small examples on paper, know running times) and
- coding (can finish partially complete DS code, write new functions to traverse DS)
Important Assignments and/or Exam Questions
- Programming assessment - must pass with 3 and 2 halves to get a C or better
- Data structures programming, exam/homework question - given prototype for insert/lookup/delete, can give correct code
- Data structures programming, exam/homework question - given prototype for function that should use data structure functions, can give correct code
- C programming play computer, exam question - given any short C program (a few dozen lines, say) and sample input, can trace execution and final output
- Some large project that is interesting - game, etc.
Standard resources
- Introduction to Algorithms by Cormen, Leiserson, Rivest, and Stein
- The C Programming Language by Kernighan and Ritchie
- Online courses/tutorials - MIT course - Practical Programming in C , How to Think Like a Computer Scientist, C++ Version - an online textbook, CS 50: Intro to CS I at Harvard - has videos, lecture notes, Reference on C and C++, The C Programming Language, C Programming Tutorial, Fresh2fresh C Tutorial
CS 256 Structured Design
Catalog Description
An introduction to structured programming and top-down design; applications to a wide variety of practical programming problems.
Prerequisites
- TODO
Standard Content
Course Outline
- TODO
Learning Outcomes
The following are the most important learning outcomes for each of the 8 topics listed in the course outline.
- TODO
Important Assignments and/or Exam Questions
- TODO
Standard resources
- TODO
CS 260 Object Oriented Programming
Catalog Description
Object oriented programming concepts and methods. Includes encapsulation, data abstraction, class development, instantiation, constructors, destructors, inheritance, overloading, polymorphism, libraries, and packages. Prerequisite - C or better in CS 151.
Prerequisites
- TODO
Standard Content
Course Outline
- TODO
Learning Outcomes
The following are the most important learning outcomes for each of the 8 topics listed in the course outline.
- TODO
Important Assignments and/or Exam Questions
- TODO
Standard resources
- TODO
CS 303 Discrete Structures
Catalog Description
This course is an introduction to discrete mathematics for computer science. The course covers the basic topics from set theory (including functions and relations), logic, number theory, counting, graph theory, and discrete probability. It involves a detailed study of proof techniques. Prerequisite - C or better in CS 201.
Prerequisites
- Willingness to work hard.
Standard Content
Course Outline
- Logic: proof tables, existential quantification, universal quantification, proposition, propositional function, De Morgan’s law (R. Ch. 1 - “R.” refers to the Rosen book, see below.)
- Basic set theory: sets, intersection, union, complement, Venn diagram, inclusion-exclusion principle (R. Ch. 2)
- Proof techniques: direct proof, contrapositive proof, proof by contradiction, weak induction, strong induction (P. Part 2 and R. Ch. 5 - “P.” stands for the “Book of Proof”, see below.)
- Counting: permutations, combinations, binomial theorem, identities (e.g. {Pascal’s identity) pigeonhole principle and applications, double counting (R. Ch. 6)
- Discrete probability: sample space, events experiments, outcomes, distributions, conditional probability, random variables, independence, expectation, linearity of expectation (R. Ch. 7)
- Optional topics: Monty Hall problem, 100 prisoners problem, probabilistic method to prove lower bound on Ramsey numbers
- Number theory: modular arithmetic division algorithm, modular exponentiation, primes, sieve or Eratosthenes, gcd, lcm, Euclidean algorithm, Bezout’s theorem, inverses, fundamental theorem of arithmetic, solving linear congruences, affine cipher, RSA (R. Ch. 4)
- Graph theory: basic graph terminology, undirected graphs, bipartite graphs, degree of a vertex, handshaking theorem, matchings, Hall’s marriage theorem (optional) (R. Ch. 10)
Learning Outcomes
- Capable of constructing rigorous mathematical proofs using direct proof, proof by contradiction, induction, etc.
Important Assignments and/or Exam Questions
- What is the decryption function for an affine cipher if the encryption function is c = (15p + 13) mod 26?
- Show that if 7 integers are selected from {1,2,3, ..., 12}, then there must be a pair of these integers with a sum equal to 13. What if only 6 integers are selected rather than 7? Can you still conclude that there must be a pair of these integers with a sum equal to 13?
- A k-regular graph G is one such that deg(v) = k for all v ∈ G. Prove that if G is a k-regular bipartite graph with k > 0 and the bipartition of G is A and B, then |A| = |B|.
- What is the probability of these events when we randomly select a permutation of 1,2,3,4?
- 1 precedes 4
- 4 precedes 1
- 4 precedes 1 and 4 precedes 2
- 4 precedes 1, 4 precedes 2, and 4 precedes 3
- 4 precedes 3 and 2 precedes 1.
- Let Xn be the random variable that equals the number of tails minus the number of heads when n fair coins are flipped. Compute the expected value of Xn. (Hint: Define a set of a random variables and express Xn in terms of these random variables. Then use linearity of expectation. Explain clearly everything you do.)
- Prove by induction that for any positive integer n, the inequality (1 + x)n ≥ 1 + nx holds for all x ∈ R with x > −1.
- Suppose that the domain of the propositional function P(x) consists of the integers −1, 0, and 1. Write out each of these propositions using disjunctions, conjunctions, and negations: (a) ∃xP(x), (b) ∃x¬P(x), (c) ¬∃xP(x), (d) ¬∀xP(x).