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||<:> '''Topic''' ||<:> '''1911[[BR]]Computing 1''' ||<:> '''1921[[BR]]Computing 2''' ||<:> '''1917[[BR]]Higher Computing 1''' ||<:> '''1927[[BR]]Data Structures[[BR]]and Algorithms'''||<:> '''2911[[BR]]Design in Computing'''||
|| Intro to labs || (./) week 0 || || (./) week 0 || ||
||<:> '''Topic''' ||<:> '''1911[[BR]]Computing 1''' ||<:> '''1921[[BR]]Computing 2''' ||<:> '''1917[[BR]]Higher Computing 1''' ||<:> '''1927[[BR]]Data Structures[[BR]]and Algorithms'''||<:> '''2911[[BR]]Design in[[BR]]Computing'''||
|| [[#Introtolabs Intro to labs]] || (./) week 0 || || (./) week 0 || ||
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~-[[:Teaching/12WeekSyllabus:12 week semester home]]-~ [[Anchor(Introtolabs)]]
==== Intro to labs ====
==== Compiling - gcc and/or eclipse ====
==== Problem Solving - topdown, systematic ====
==== Problem Solving - abstraction ====
==== if/then/else, chained ifs, while loops, function calls ====
==== primative types ====
==== typecasting ====
==== pointers ====
==== pass by reference/pass by value ====
==== arrays ====
==== arrays 2D+ ====
==== strings (basic) ====
==== strings (advanced) - subtle problems with terminating byte ====
==== pointer arithmetic (brief) ====
==== structure of memory ====
==== dynamic memory allocation ====
==== stack frames ====
==== stack overflow security ====
==== recursion (intro) ====
==== linked lists ====
==== adts (intro) ====
==== trees (intro building traversing) ====
==== graphs (intro using adjacency matrix) ====
==== adts (using, constructing) ====
==== stacks, queues ====
==== recursion ====
==== time and space complexity ====
==== big oh notation ====
==== analysing complexity (a priori) ====
==== analysing complexity (a postori) ====

Core Computing Syllabus

Topic

1911BRComputing 1

1921BRComputing 2

1917BRHigher Computing 1

1927BRData StructuresBRand Algorithms

2911BRDesign inBRComputing

#Introtolabs Intro to labs

(./) week 0

(./) week 0

Compiling BR gcc and/or eclipse

(./)

(./)

Problem SolvingBRtopdown, systematic

(./)

(./)

Problem SolvingBRabstraction

(./)

(./)

if/then/else, chained ifs, while loops, function calls

(./)

(./)

primative types

(./)

(./)

typecasting

(./)

(./)

pointers

(./)

(./)

pass by reference/pass by value

(./)

(./)

arrays

(./)

(./)

arrays 2D+

(./)

(./)

strings (basic)

(./)

(./)

strings (advanced) BR subtle problems with terminating byte

(./)

(./)

pointer arithmetic (brief)

(./)

(./)

structure of memory

(./)

(./)

dynamic memory allocation

(./)

(./)

stack frames

(./)

(./)

stack overflow security

(./)

(./)

recursion (intro)

(./)

(./)

linked lists

(./)

(./)

adts (intro)

(./)

(./)

trees (intro building traversing)

(./)

(./)

graphs (intro using adjacency matrix)

(./)

(./)

adts (using, constructing)

(./)

stacks, queues

(./)

recursion

(./)

time and space complexity

(./)

big oh notation

(./)

analysing complexity (a priori)

(./)

analysing complexity (a postori)

(./)

big oh notation

(./)

bfs dfs search

(./)

trees and tree algorithms

(./)

self balancing trees

(./)

graphs and graph algorithms

(./)

c99 extensions

(./)

(./)

for, switch

(./)

(./)

intro to unstructured commands

(./)

(./)

style

(./)

(./)

(./)

(./)

documentation

(./)

(./)

(./)

(./)

unit testing

(./)

(./)

(./)

(./)

systematic debugging

(./)

(./)

(./)

(./)

programming in groups

(./)

(./)

(./)

(./)

Anchor(Introtolabs)

Intro to labs

Compiling - gcc and/or eclipse

Problem Solving - topdown, systematic

Problem Solving - abstraction

if/then/else, chained ifs, while loops, function calls

primative types

typecasting

pointers

pass by reference/pass by value

arrays

arrays 2D+

strings (basic)

strings (advanced) - subtle problems with terminating byte

pointer arithmetic (brief)

structure of memory

dynamic memory allocation

stack frames

stack overflow security

recursion (intro)

linked lists

adts (intro)

trees (intro building traversing)

graphs (intro using adjacency matrix)

adts (using, constructing)

stacks, queues

recursion

time and space complexity

big oh notation

analysing complexity (a priori)

analysing complexity (a postori)