Programming Assignment 2:

Implement and Test the sequence Class Using a Fixed-Sized Array (Chapter 3)

The Assignment:

You will implement and test the sequence class using an array to store the sequence's items.

Purposes:

Ensure that you can write a small class that uses an array as a private member variable.

Familiarize yourself with the sequence container class (which may also be part of future assignments).

Give us a chance to evaluate your programming skills on a small class.

Before Starting:

Read all of Chapter 3.

Due Date:

Wednesday, Feb 20, 2019 before midnight. If you have problems, late work will be accepted before Thursday with no penalties. Late work may be submitted on Friday or Saturday with 5% penalty per day. No work will be accepted after Saturday.

How to Turn In:

Files to be submitted: source code (*.cpp, *.cxx, *.h)  and the text file (a *.txt file or *.pdf file) showing the running output result. Please don't send your excutable files. Please submit your files to ds.zhu.ccny@gmail.com, with the subject line "CSc212 Assignment 2".

Files that you must write and turn in:

1. sequence1.h: The header file for the sequence class. Actually, you don't have to write much of this file. Just start with our version and add your name and other information at the top. Also, decide on appropriate private member variables, an declare these in the sequence class definition at the bottom o the header file If some of your member functions are implemented as inline functions, then you may put those implementations in this file too.
2. sequence1.cxx: The implementation file for this first sequence class. You will write all of this file, which will have the implementations of all the sequence's member functions.

Other files that you may find helpful:

1. sequence_test.cxx: A simple interactive test program.
2. sequence_exam.cxx: A non-interactive test program that will be used to grade the correctness of your sequence class.

The sequence Class Using a Fixed-Sized Array
Discussion of the Assignment

Start by declaring the sequence's private member variables in sequence.h. Then write the invariant of your ADT at the top of sequence1.cxx. The invariant describes precisely how all of your private member variables are used. All of the member functions (except for the constructor) may count on the invariant being true when the member function is activated. And all of the member functions are responsible for ensuring that the invariant is true when the function returns.

As always, do your work in small pieces. For example, my first version of the sequence had only a constructor, start, insert, advance, and current. My other member functions started out as stubs.

Use the interactive test program and a debugger to track down errors in your implementation. If you have an error, do not start making changes until you have identified the cause of the error.

The ability to initialize and use a static member constant within the class definition is a relatively new feature. If you have an older compiler that does not support static const members, then you may use

enum {CAPACITY = 30};

instead of

static const size_type CAPACITY = 30;

After  this definition, the name bag::CAPACITY is defined to have the integer value 30. Although this is not the intended use of an enum definition, the result is the same as using a static member constant (see more discussions at page 99 in the textbook).