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ADVANTAGES OF LINKED LIST OVER ARRAYS

* Dynamic Array * Ease of Insertion/Deletion

DRAWBACKS OF LINKED LIST

* Random access is not allowed * Extra memory space for a pointer is required with each element of the list * Not cache friendly

ARRAYS LIMITATIONS

* The size of the array is fixed * Insertion of a new element/Deletion of existing element in an array of elements is expensive

CHARACTERISTICS OF GOOD ALGORITHM

1. Input and output should be well-defined. 2. Each step in the algorithm should be clear and definite, and 3. There should be an effective solution to a problem 4. Should be feasible with the available resources 5. An algorithm should have step-by-step directions, which should be independent of any programming code.

BASIC OPERATIONS OF LINKED LIST

Display Insertion Deletion Search

LIST

a collection of an ordered sequence of items

ALGORITHM

a finite set of instruction or procedures, written in order, to solve certain predefined task

LINKED LIST

a linear data structure that includes a series of connected nodes

NON-PRIMITIVE DATA STRUCTURE

a more complicated data structure and is derived from one or more primitive data structures.

DATA STRUCTURE

a storage that is used to store and organize data

DATA TYPE

a way to classify various types of data such as integer, string, etc. which determines the values that can be used to store the corresponding type of data

TIME COMPLEXITY

a way to signify the amount of time needed by the program to run to completion

DATA STRUCTURES

also known as data types

DATA STRUCTURE

an arrangement of data in a computer's memory in such a way that can be access quickly

PRIMITIVE DATA STRUCTURES

are basis for the discussion of a more sophisticated data structure

DATA (in data structures)

are processed by particular operations

ALGORITHM

can be stated as pseudocode

DATA

can exist in different forms; such as numbers and characters/text on pieces of paper, as bits and bytes stored in computer memory

PRIMITIVE DATA STRUCTURE

cannot be decomposed to other data structures

DATA STRUCTURE AND DATA TYPES DIFFERENCE

collection of data types arranged in a specific order

2 PARTS OF NODE

data content pointer field

TYPES OF DATA STRUCTURES

primitive and non primitive

DATA

raw facts stored in a person's mind

Node

record data structure

DATA

represent the overall resource of the organization

Nodes

stores the data and the address of the next node

ENVIRONMENT SPACE

the space necessary to store the environment information needed to start the suspended function

DATA SPACE

the space required to store all constants and variables value

INSTRUCTION SPACE

the space required to store the executable version of the program.

DATA

they are aggregated and summarized in various meaningful ways to form information

INSTRUCTION SPACE

this space is static but differs depending upon the number of lines of code in the program

POINTERS

used to store addresses of a variables

SECOND FUNDAMENTAL CONCERN

what operations will be performed on this data?

3 OPERATIONS OF POINTERS

1. define a pointer variable 2. assign the address of a variable to a pointer 3. locate the value at the address available in the pointer variable

3 SPACE IN ALGORITHM

Instruction Space Data Space Environment Space

TRAVERSAL

The operation of processing each element in the list is known as

HEAD

first node special name

FIRST FUNDAMENTAL CONCERN

how data will be stored

DATA STRUCTURE

is a type of data that can be categorized by its organization and operations that are defined on it

DATA STRUCTURE

is a way of collecting and organizing elements or items of data

ALGORITHM

is not a program, it is the main logic or solution to the problem

ALGORITHM

is said to be effective and fast if it takes a lesser amount of time to perform and consumes less memory space

SPACE COMPLEXITY

is the amount of memory space necessary by the algorithm, during the course of its execution.

LIST

may implement only a subset of the different operations

DATA STRUCTURE

must be seen in a logical concept that must address two fundamental concerns

SPACE COMPLEXITY

must be taken extremely for multi-user systems and in situations where limited memory is available

ALGORITHM

must solve complex problems using the following steps; * define the problem * design the algorithm to solve the problem


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