File Compare Program Plan: Main.cpp: Include required header files Inside “main ()” function, Create an object “ifile” for input file stream Create an object “ofile” for output file stream. Create two class templates “q1” and “q2” to hold characters Declare variables “char1” and “char2” Till the end of file, Enqueue a character from file1. Till the end of file, Enqueue a character from file2. Close both the files. Assign “true” to a Boolean variable “status”. Do until both the queue becomes empty, Dequeue a character from 1 st queue “q1”. Dequeue a character from 2 nd queue “q2”. Check if both the characters are not equal. If the condition is true then, assign “false” to the Boolean variable. Check if the status is true, If the condition is true then, print “The files are identical”. If the condition is not true then, print “The files are not identical”. Dynqueue.h: Include required header files. Create template class Declare a class named “Dynqueue”. Inside the class, Inside the “private” access specifier, Create a structure named “QueueNode”. Create an object for the template Create a pointer named “next”. Create two pointers named “front” and “rear”. Declare a variable. Inside “public” access specifier, Declare constructor and destructor. Declare the functions “enqueue ()”, “dequeue ()”, “isEmpty ()”, “isFull ()”, and “clear ()”. Declare template class. Give definition for the constructor. Assign the values. Declare template class. Give definition for the destructor. Call the function “clear ()”. Declare template class. Give function definition for “enqueue ()”. Make the pointer “newNode” as null. Assign “num” to newNode->value. Make newNode->next as null. Check whether the queue is empty using “isEmpty ()” function. If the condition is true then, assign newNode to “front” and “rear”. If the condition is not true then, Assign newNode to rear->next Assign newNode to “rear”. Increment the variable “numItems”. Declare template class. Give function definition for “dequeue ()”. Assign temp pointer as null. Check if the queue is empty using “isEmpty ()” function. If the condition is true then print “The queue is empty”. If the condition is not true then, Assign the value of front to the variable “num”. Make front->next as “temp”. Delete the front value Make temp as front. Decrement the variable “numItems”. Declare template class. Give function definition for “isEmpty ()”. Assign “true” to a Boolean variable Check if “numItems” is true. If the condition is true then assign “false” to the variable. Return the Boolean variable. Declare template class. Give function definition for “clear ()”. Create an object for template. Dequeue values from queue till the queue becomes empty using “while” condition.

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Chapter 18, Problem 11PC

Program Plan Intro

File Compare

Program Plan:

Main.cpp:

Include required header files

Inside “main ()” function,

Create an object “ifile” for input file stream

Create an object “ofile” for output file stream.

Create two class templates “q1” and “q2” to hold characters

Declare variables “char1” and “char2”

Till the end of file,

Enqueue a character from file1.

Till the end of file,

Enqueue a character from file2.

Close both the files.

Assign “true” to a Boolean variable “status”.

Do until both the queue becomes empty,

Dequeue a character from 1^st queue “q1”.

Dequeue a character from 2^nd queue “q2”.

Check if both the characters are not equal.

If the condition is true then, assign “false” to the Boolean variable.

Check if the status is true,

If the condition is true then, print “The files are identical”.

If the condition is not true then, print “The files are not identical”.

Dynqueue.h:

Include required header files.

Create template class

Declare a class named “Dynqueue”. Inside the class,

Inside the “private” access specifier,

Create a structure named “QueueNode”.

Create an object for the template

Create a pointer named “next”.

Create two pointers named “front” and “rear”.

Declare a variable.

Inside “public” access specifier,

Declare constructor and destructor.

Declare the functions “enqueue ()”, “dequeue ()”, “isEmpty ()”, “isFull ()”, and “clear ()”.

Declare template class.

Give definition for the constructor.

Assign the values.

Declare template class.

Give definition for the destructor.

Call the function “clear ()”.

Declare template class.

Give function definition for “enqueue ()”.

Make the pointer “newNode” as null.

Assign “num” to newNode->value.

Make newNode->next as null.

Check whether the queue is empty using “isEmpty ()” function.

If the condition is true then, assign newNode to “front” and “rear”.

If the condition is not true then,

Assign newNode to rear->next

Assign newNode to “rear”.

Increment the variable “numItems”.

Declare template class.

Give function definition for “dequeue ()”.

Assign temp pointer as null.

Check if the queue is empty using “isEmpty ()” function.

If the condition is true then print “The queue is empty”.

If the condition is not true then,

Assign the value of front to the variable “num”.

Make front->next as “temp”.

Delete the front value

Make temp as front.

Decrement the variable “numItems”.

Declare template class.

Give function definition for “isEmpty ()”.

Assign “true” to a Boolean variable

Check if “numItems” is true.

If the condition is true then assign “false” to the variable.

Return the Boolean variable.

Declare template class.

Give function definition for “clear ()”.

Create an object for template.

Dequeue values from queue till the queue becomes empty using “while” condition.

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