Lab 1 of 6: Network Attacks
Note!
Submit your assignment to the Dropbox located on the silver tab at the top of this page.
(See the Syllabus section "Due Dates for Assignments & Exams" for due dates.)
iLAB OVERVIEW
Scenario/Summary
In this lab, you will d
Lab 3 of 6: Best and Worst Use of Message
Digest Algorithms (50 points)
Note!
Submit your assignment to the Dropbox located on the silver tab at the top of this page.
(See the Syllabus section "Due Dates for Assignments & Exams" for due dates.)
iLAB OVERV
Chapter 12
Sorting
Objectives
Upon completion you will be able to:
Understand the basic concepts of internal sorts
Discuss the relative efficiency of different sorts
Recognize and discuss selection, insertion and exchange sorts
Data Structures: A Pseud
Chapter 6
Introduction to Trees
Objectives
Upon completion you will be able to:
Understand and use basic tree terminology and concepts
Recognize and define the basic attributes of a binary tree
Process trees using depth-first and breadth-first traversa
Chapter 7
Binary Search Trees
Objectives
Upon completion you will be able to:
Create and implement binary search trees
Understand the operation of the binary search tree ADT
Write application programs using the binary search tree ADT
Design and implem
Chapter 5
List
Objectives
Upon completion you will be able to:
Explain the design, use, and operation of a linear list
Implement a linear list using a linked list structure
Understand the operation of the linear list ADT
Write application programs usi
Abstract Data Type
Data Structures.
Main Notions and Definitions.
Atomic Data
2
Data Structure
A Data Structure is an aggregation of
atomic and composite data into a set with
defined relationships.
Structure means a set of rules that holds
the data toge
Pointers
(Continuation)
1
Data Pointer
A pointer is a programming language
data type whose value refers directly to
("points to") another value stored
elsewhere in the computer memory using
its address. Obtaining the value that a
pointer refers to is cal
Chapter 13
Searching
Objectives
Upon completion you will be able to:
Design and implement sequential searches
Discuss the relative merits of different sequential searches
Design and implement binary searches
Design and implement hash-list searches
Di
STACKS
Linear Lists
A Linear List is a list in which each
element has a unique successor.
In a restricted linear list, addition and
deletion of data are restricted to the ends
of the list.
In a general linear list, addition and
deletion of data are all
Chapter 9
Ch
Heap
Objectives
Upon completion you will be able to:
Define and implement heap structures
Understand the operation and use of the heap ADT
Design and implement selection applications using a heap
Design and implement priority queues using
CIS-305: Data Structures
Fall 2008
1
Organizational Details
Class Meeting:
4:00-6:45pm, Tuesday, Room SCIT215
Instructor: Dr. Igor Aizenberg
Office: Science and Technology Building, 115
Phone (903 334 6654)
e-mail: igor.aizenberg@tamut.edu
Office hours:
W