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ISC (Commerce) Class 12 - CISCE Question Bank Solutions for Computer Science (Theory)

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Computer Science (Theory)
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The keyword used by a class to acquire the properties of an interface is:

[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Basic Data Structures (Stack, Queue, Dequeue)

State the principle by which the stack data structure works.

[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Basic Data Structures (Stack, Queue, Dequeue)

A Queue is a linear data structure in which the operations are performed based on FIFO (First In First Out).

Define a class Queue with the following details:

Class name Queue
Data member/instance variable:
dat[ ] array to hold the integer elements
cap stores the maximum capacity of the queue
front to point the index of the front
rear to point the index of the rear
Member functions/methods:
Queue(int max) constructor to initialize the data member cap = max, front = rear = 0 and create the integer array
void add_dat(int v) to add integers from the rear index if possible else display the message(“Queue full”)
int pop_dat( ) to remove and return elements from front, if any, else returns -999
void display() to display elements of the queue

Specify the class Queue giving the details of void add_dat(int) and int pop_dat( ). Assume that the other functions have been defined.

The main( ) function and algorithm need NOT be written.

[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Basic Data Structures (Stack, Queue, Dequeue)
int Toy(int n)
{ return (n<=0)? 1: n%10 + Toy(n/10); }

With reference to the program code given above, what will the function Toy() return when the value of n = 56?

[0.1] Arrays, Strings
Chapter: [0.1] Arrays, Strings
Concept: Structured Data Types - Arrays (Single and Multi-dimensional), Strings

Give one reason, why iteration is better than recursion.

[0.11] Recursion
Chapter: [0.11] Recursion
Concept: Concept of Recursion

Differentiate between direct recursion and indirect recursion.

[0.11] Recursion
Chapter: [0.11] Recursion
Concept: Concept of Recursion

Write the statement in Java to extract the word “MISS” from the word “SUBMISSION”.

[0.1] Arrays, Strings
Chapter: [0.1] Arrays, Strings
Concept: Example Algorithms that Use Structured Data Types (E.G. Searching, Finding Maximum/Minimum, Sorting Techniques, Solving Systems of Linear Equations, Substring, Concatenation, Length, Access to Char in String, Etc.)

What is the output of the statement given below?

System.out.print("FAN" + ("AUTOMATIC".charAt(5) ) );
[0.1] Arrays, Strings
Chapter: [0.1] Arrays, Strings
Concept: Example Algorithms that Use Structured Data Types (E.G. Searching, Finding Maximum/Minimum, Sorting Techniques, Solving Systems of Linear Equations, Substring, Concatenation, Length, Access to Char in String, Etc.)

A class Fibo has been defined to generate the Fibonacci series 0, 1, 1, 2, 3, 5, 8, 13, ……. (Fibonacci series are those in which the sum of the previous two terms is equal to the next term).

Some of the members of the class are given below:

Class name Fibo
Data member/instance variable:
start integer to store the start value
end integer to store the end value
Member functions/methods:
Fibo( ) default constructor
void read( ) to accept the numbers
int fibo(int n) return the nth term of a Fibonacci series using recursive technique
void display( ) displays the Fibonacci series from start to end by invoking the function fibo()

Specify the class Fibo, giving details of the Constructor, void read( ), int fibo(int), and void display( ). Define the main() function to create an object and call the functions accordingly to enable the task.

[0.11] Recursion
Chapter: [0.11] Recursion
Concept: Simple Recursive Functions (e.g. Factorial, GCD, Binary Search, Conversion of Representations of Numbers Between Different Bases)

A class Gcd has been defined to find the Greatest Common Divisor of two integer numbers. Some of the members of the class are given below:

Class name Gcd
Data member/instance variable:
num1 integer to store the first number
num2 integer to store the second number
Member functions/methods:
Gcd( ) default constructor
void accept( ) to accept the numbers
int gcd(int x,int y) return the GCD of the two numbers x and y using recursive technique
void display( ) displays the result with an appropriate message

Specify the class Gcd, giving details of the Constructor, void accept( ), int gcd(int,int), and void display( ). Define the main() function to create an object and call the functions accordingly to enable the task.

[0.11] Recursion
Chapter: [0.11] Recursion
Concept: Simple Recursive Functions (e.g. Factorial, GCD, Binary Search, Conversion of Representations of Numbers Between Different Bases)

A super class Godown has been defined to store the details of the stock of a retail store. Define a subclass Update to store the details of the items purchased with the new rate and update the stock. Some of the members of both the classes are given below:

Class name Godown
Data members/instance variables:
item to store the name of the item
qty to store the quantity of an item in stock
rate to store the unit price of an item
amt to store the net value of the item in stock
Member functions/methods:
Godown(…) parameterized constructor to assign value to the data members
void display( ) to display the stock details

 

Class name Update
Data members/instance variables:
pur_qty to store the purchase quantity
pur_rate to store the unit price of the purchased item
Member functions/methods:
Update(…) parameterized constructor to assign values to the data members of both the classes
void update( ) to update the stock by adding the previous quantity by the purchased quantity and replace the rate of the item if there is a difference in the purchase rate. Also update the current stock value as:
(quantity * unit price)
void display( ) to display the stock details before and after updating

Assume that the super class Godown has been defined. Using the concept of inheritance, specify the class Update giving details of the constructor, void update ( ) and void display( ).

The super class, main function and algorithm need NOT be written.

[0.12] Inheritance and Polymorphism
Chapter: [0.12] Inheritance and Polymorphism
Concept: Member Access in Derived Classes

Convert the following infix notation to postfix notation:

A * (B + C / D ) – E / F 
[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Conversion of Infix to Prefix and Post Fix Notations

Answer the following question on the diagram of a Binary Tree given below:

State the degree of the nodes C and G. Also, state the level of these nodes when the root is at level 0.

[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Recursive Data Structures - Single Linked List (Algorithm and Programming), Binary Trees, Tree Traversals (Conceptual)

Answer the following question on the diagram of a Binary Tree given below:

Write the pre-order and post-order traversal of the above tree structure.

[0.13] Data Structures
Chapter: [0.13] Data Structures
Concept: Recursive Data Structures - Single Linked List (Algorithm and Programming), Binary Trees, Tree Traversals (Conceptual)

The ability of an object to take many forms is known as ______.

[0.12] Inheritance and Polymorphism
Chapter: [0.12] Inheritance and Polymorphism
Concept: Subclass Polymorphism and Dynamic Binding

Design a class Check which checks whether a word is a palindrome or not.

(Palindrome words are those which spell the same from either ends).

Example: MADAM, LEVEL etc.

The details of the members of the class are given below:

Class name Check
Data members/instance variables:
wrd stores a word
len to store the length of the word
Methods/Member functions:
Check( ) default constructor
void acceptword( ) to accept the word
boolean palindrome( ) checks and returns ‘true’ if the word is a palindrome otherwise returns ‘false’
void display( ) displays the word along with an appropriate message

Specify the class Check giving details of the constructor, void acceptword( ), boolean palindrome( ) and void display( ). Define the main( ) function to create an object and call the functions accordingly to enable the task.

[0.1] Arrays, Strings
Chapter: [0.1] Arrays, Strings
Concept: Basic Input/Output Using Scanner and Printer Classes from JDK

Design a class Toggle which toggles a word by converting all upper case alphabets to lower case and vice versa.

Example: The word “mOTivATe” becomes “MotIVatE”

The details of the members of the class are given below:

Class name Toggle
Data members/instance variables:
str stores a word
newstr stores the toggled word
len to store the length of the word
Methods/Member functions:
Toggle( ) default constructor
void readword( ) to accept the word
void toggle( ) converts the upper case alphabets to lower case and all lower case alphabets to upper case and stores it in newstr
void display( ) displays the original word along with the toggled word

Specify the class Toggle giving details of the constructor, void readword( ), void toggle( ) and void display( ). Define the main( ) function to create an object and call the functions accordingly to enable the task.

[0.1] Arrays, Strings
Chapter: [0.1] Arrays, Strings
Concept: Basic Input/Output Using Scanner and Printer Classes from JDK
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