java language
2 upvotes guaranteed
You need to complete part I to be able to do part II. You should however handle each part as if it was a separate question(i.e. you should not modify Part I after finishing with it; rather create a copy of that part and use it to create Part II. This is needed so that you can finally submit both parts!
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Various flying objects can be described as follows:
− An Airplane class, which has the following
attributes: a brand (String type), price (double type)
and horse power (int type).
**
− A Helicopter is an Airplane
that additionally has the following: a number of cylinders (int
type), a creation
year (int type), and a passenger capacity (int type).
− A Quadcopter, is a Helicopter
that additionally has the following: max flying speed (int type),
which indicates its maximum moving speed.
− A Multirotor is a Helicopter
that additionally has the following: number of rotors (int type),
which indicates its number of rotors/blades that it has.
− A UAV (Unmanned aerial vehicle / Drone) class
has the following attributes: weight (double type), and price
(double type).
− An AgriculturalDrone (which is used for crop
production) is UAV that additionally has the
following: brand (Sting type), and carry capacity (int type).
− A MAV (Micro Air Vehicle), is a miniature
UAV that has a size restriction (and can be as
small as few centimeters. It has the following: model (String type)
and size (double type).
Part I:
1. Write the implementation of the above-mentioned classes using inheritance and according to the specifications and requirements given below:
• You must have 5 different Java packages for the classes. The first package will include the Airplane class. The second package will include the Helicopter, and the Quadcopter classes. The third package will include the Multirotor class. The fourth package will include UAV class, and the last package will include the AgriculturalDrone and MAV classes.
• For each of the classes, you must have at least three constructors, a default constructor, a parametrized constructor (which will accept enough parameters to initialize ALL the attributes of the created object from this class) and a copy constructor. For instance, the parametrized constructor of the Quadcopter class must accept 7 parameters to initialize the brand, the price, the horse power, the number of cylinders, the creation year, the passenger capacity, and the maximum flying speed.
• An object creation using the default constructor must trigger the default constructor of its ancestor classes, while creation using parametrized constructors must trigger the parametrized constructors of the ancestors.
• For each of the classes, you must include at least the
following methods: accessors, mutators, toString() and equals()
methods (notice that you are always overriding the last two
methods).
− The toString() method must return clear
description and information of the object (i.e “This Agricultural
Drone is manufactured by Agridrones. It weights 340 pounds, and
costs 98000$. It can carry up to 25 Kg....).
− The equals() method must first verify if the passed object (to compare to) is null and if it is of a different type than the calling object. The method would clearly return false if any of these conditions is true; otherwise the comparison of the attributes is conducted to see if the two objects are actually equal. Two objects are equal if the values of all their attributes are equal.
• For all classes you must use the appropriate access rights,
which allow most ease of use/access without compromising security.
Do not use most restrictive rights unless they make sense!
• When accessing attributes from a base class, you must take full
advantage of the permitted rights. For instance, if you can
directly access an attribute by name from a base class, then you
must do so instead of calling a public method from that base class
to access the attribute.
2. Write a driver program (that contains the main() method) that would utilize all of your classes. The driver class can be in a separate package or in any of the already existing four packages. In the main() method you must:
• Create various objects from the 7 classes, and display all their information (you must take advantage of the toString() method).
• Test the equality of some of the created objects using the equals() method.
• Create an array of 15 to 20 these flying objects
(HINT: Do you need to add something else to the
classes described above? If so; go ahead with that!) and fill that
array with
various objects from these classes (each class must have at least
one entry in that array).
• Trace(search) that array to find the two objects that have the
least expensive price (that is least expensive and second least
expensive). Display all information of these two objects
along with their location (index) in the array.
Part II-----------------------
For the requirements of this part, you need to modify your implementation from Part I as follows:
1. The classes from Part I must now have the most restrictive
(secure/protective) access rights to their attributes. Adjust your
implementation from Part I accordingly, and comment on the decision
about using restricted access (i.e. what are the trade-offs).
2. In the driver program of this part, you need to add to the one
from part I, another static method (added it above the main()
method), called copyFlyingObjects. The method will take as input an
array of these objects (the array can be of any size) and returns a
copy of that array. That is to say, the method needs to create an
array of the same length as the passed array, copies all objects
from the passed array to a new array, then returns the new array.
Your copy of the objects must use the copy constructors of the
different listed classes. However, do NOT attempt to find the
object type inside the copy constructors and Do NOT use
clone().
3. In the driver program, create an array of 15 to 20 objects (must
have at least one from each of the classes), then call the
copyFlyingObjects() method to create a copy of the that array.
4. Display the contents of both arrays, then add some comments
indicating whether or not the coping is correct. If not; you need
to explain why it has not been successful or as you might have
expected.
You can see code in below google drive link:
https://drive.google.com/open?id=1IjSEa5l-Wi58myrz8E2SWCbLlUCZJMJZ
java language 2 upvotes guaranteed You need to complete part I to be able to do...