辅导SECJ 1023编程、Programming程序讲解、辅导C++语言编程 辅导R语言编程|讲解数据库SQL

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SCHOOL OF COMPUTING
UNIVERSITI TEKNOLOGI MALAYSIA
SESSION 2020/2021 SEMESTER 1
Code & Subject : SECJ 1023 – Programming Technique II
Week 3 Lab Tutorial
Introduction to Classes and Objects
Duration: 8.30am – 12.00pm (including submission)
Exercise Material
• The tasks to be completed are stated on this document
• You will be using your preferred IDE to write your program
Pair Programming
• You will be adopting the “Pair Programming” strategy do this tutorial
• Members for each pair are assigned automatically using the break-out session
• Each pair must ensure to switch role (navigator and driver) periodically
Plagiarism Warning
• You are allowed to refer to any resources
• You are allowed to have discussions with others during the exercise session
• However, you and your partner must do the tutorial on your own
• Any kind of plagiarism (e.g. copying and pasting code by any means) would lead your
submission dismissed. This applies to both parties, students that copy other’s code and
student that give their code to others.
Deliverable Item
• Write your name and your pair’s name at the top of every program
• Submit only the three sets of source code you have created
• Zip the folder and upload via e-learning
• Only one member from each pair needs to perform the submission.
Questions
1. Consider the declaration given in Program 3.1:
//Program 2.4
class Pet {
private:
string name;
int age;
public:
void setName (string n);
void setAge (int a);
string getName ()
{ return name; }
int getAge()
{ return age; }
void print() const;
};
a. In your main program, write a C++ statement that instantiates an object rabbit of type
Pet.
b. Set the pet’s name to Buttons and the pet’s age to 3, respectively.
c. The setName and setAge functions are not inline. Write the code to define these two
functions.
d. Write the definition of the member function print that prints the contents of name and
age.
e. Write a C++ statement that prints the values of the member variables of the object
rabbit.
f. Complete Program 3.1 then compile and execute it.
g. Next separate your program into application, specification and implementation files
respectively.
2. Write a class named Cone that finds the baseArea and volume of a conical structure.
The class’ private data are radius and height.
a. Create four class functions that performs the following actions:
i. Read the two private data
ii. Calculate the value for baseArea, according to the following equation:
baseArea = PI * radius * radius
iii. Calculate the value for volume, based on the following equation:
volume = (1/3) * baseArea * height
iv. Display the two private data, baseArea, as well as volume.
b. Write the main () function that performs the following tasks:
i. Declare an object from Cone class, called cn1
ii. Call the four functions using the sequence in a(i) to a(iv) above.
3. A counter variable is normally used in a program to keep track of the current count value.
Create your own counter data type which is able to perform common counter operations
such as increment (by one) the counter value. It is also able to set the counter to a specific value
and to retrieve the counter value. The minimum value the counter can attain is zero, while the
maximum value attained is stored in attribute maxValue. The class should have the following
private members (attributes):
Attribute Description
int count The counter value
int maxValue The maximum counter value
The class should also have the following member functions (methods):
Attribute Description
Increment Increments the counter
Decrement Decrement the counter
setCount Sets the counter value
setMaxVal Sets the maximum value
getCount Returns the count
getMaxValue Returns the maximum value
In the main program, test the workability of your member functions by first setting an initial
value to the counter. Display this value before proceeding. Then test other functions by
randomly incrementing and decrementing the object’s value. Be sure to keep track of your
actions. At the same time, you should also make sure that your minimum value should not be
less than zero. Once this is reached, you will not be allowed to do further decrements.
Consequently, the maximum value should also be maintained. The user should always ensure
that the current value does not exceed the maximum value. If this happens no more increments
will be allowed. Display appropriate comments for these two cases. Finally, when there are no
more increments or decrements to do, you should print the final value or set of the operations.
For purposes of reusability, separate the driver, specification and implementation file.
[[ends]]

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