Description
Problem 1. (10 points) Explain in a readme file (just .txt file) how to compile and execute
your codes, and what is the expected output of your codes when tested. It should be detailed
enough so that whoever grades your codes can understand what you were doing with your
code clearly and should be able to reproduce your tests following what you wrote in it.
Problem 2. (10 points) Section 1.6. Modify ImprovedFibonacci on pages 9–10 as instructed below. Name your modified class SubsetOutputFib, and place it in a file named
Fibonacci.java.
Let fn denote the n-th Fibonacci number. The SubsetOutputFib will accept two integer
values as command line input, assign the first one to be (meaning begin) and the second
one to en (meaning end), and print out only those Fibonacci numbers from fbe to fen. For
example, if the two command line arguments are given as 4 and 7 in this order, then the
output should be:
4: 3
5: 5
6: 8 *
7: 13
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Make sure that you do the error checking whether both be and en are positive integers, and
be ≤ en.
Problem 3. (10 points) Section 1.10, Exercise 1.13 on page 24. Modify the ImprovedFibonacci
on pages 9–10 (not the modified version in Problem 2). Place the modified ImprovedFibonacci
implementation in the same file as Problem 2 (Fibonacci.java).
Problem 4. (20 points) Section 2.1, Exercise 2.1 on page 44, Section 2.2, Exercise 2.3 on
page 46, and Section 2.6, Exercise 2.13 on page 68. Work in a file Vehicle.java.
Use the following types for the fields: int for current speed, int for current direction in
degrees (consider straight north as 0 degrees and the degree increments clockwise up to 359
degrees, thus for example, straight east is 90 degrees, straight south 180 degrees, and straight
west 270 degrees), and String for owner name.
For Exercise 2.3, use int for both of the vehicle ID number fields. The static field for the
next vehicle ID number should be simply incremented by one each time a vehicle instance is
created.
Problem 5. (10 points) Section 2.4, Exercise 2.5 on page 50. Write the main method within
a new class named VehicleTestP4. Create 5 vehicles and print their field values. To do
so, create the vehicles (using the default constructor since you have not implemented any
constructor of your own yet), set the values using the accessor (setter) methods that you
implemented in Exercise 2.13 in the previous problem, and use the getter methods to print
their field values.
Problem 6. (10 points) Section 2.5, Exercise 2.7 on page 54, and Section 2.6, Exercise 2.9 on
page 58. You will continue working on your Vehicle class from Problem 4, but the modified
main needs to be in a different class, named VehicleTest since in the new main, you will
now create the five vehicles using the constructor you added to the Vehicle class. Keep both
VehicleTestP4 and VehicleTest in the same file Vehicle.java. From now on, whenever you
add new functionalities to Vehicle, you will add the test code for the new functionalities in
the main method of VehicleTest.
Problem 7. (10 points) Section 2.6, Exercise 2.10 on page 60. Add test code of your
toString method in the main method of VehicleTest.
Problem 8. (10 points) Section 2.6, Exercise 2.15 on page 68. Add test code of those
methods in the main method of VehicleTest.
Problem 9. (10 points) Section 2.8, Exercise 2.17 on page 71. Add test code of those
methods in the main method of VehicleTest.
Have fun!
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