Computer Science City College of New York
  CSc21200 Data Structures, Fall 2016

Programming Assignment 3:  Revise the sequence Class to Use a Dynamic Array (Chapter 4)

Modified from projects of Chapter  4  at
of Data Structures and Other Objects Using C++  by Michael Main and Walter Savitch

The Assignment:
You will implement and test a revised sequence class that uses a dynamic array to store the items.
Ensure that you can write a small class that uses a dynamic array as a private member variable.
Before Starting:
Read all of Chapter 4 (textbook or slides).
Due Date:
Wednesday, Oct 12, 2016. If you have problems, late work will be accepted on Friday with no penalties. Late work may be submitted on Saturday with 5% penalty per day. No work will be accepted after Saturday.
How to Turn In:
Please submit homeworks using this link. On the upload page, you can select the file(s) you want to submit (multiple files can be selected by pressing down CTRL key while selecting the files). Then enter your last name and the last 4 digit of your student ID (from CUNYfirst, NOT your SSN!!!). Once successfully submitted, it will show a page with RECEIPT NUMBER, save that number or that page because you will need it to retrieve your grade for that assignment. You can submit your assignment as many times as you want before the deadline, only the latest one will be graded.

To retrieve your grade for an assignment (after I finish grading it), please go to the download page here, select the assignment, enter the receipt number for that assignment, your last name and your last 4 digit of your student ID. The page will then download a TXT file which contain your graded submission.
Files that you must write and turn in (Please do not turn in other files!!):
  1. sequence2.h: The header file for the new 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. If some of your member functions are implemented as inline functions, then you may put those implementations in this file too. By the way, you might want to compare this header file with your first sequence header file (sequence1.h) . The new version no longer has a CAPACITY constant because the items are stored in a dynamic array that grows as needed. But there is a DEFAULT_CAPACITY constant, which provides the initial size of the array for a sequence created by the default constructor.
  2. sequence2.cxx: The implementation file for the new 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 (but you do not need to turn in):
  1. sequence_test.cxx: This is in fact the same interactive test program that you used with the earlier sequence. If you want to use it with the new sequence, then copy it to your directory and open it with your editor. Then change the statement

  2. #include "sequence1.h"
    #include "sequence2.h"

    And change the statement
    using namespace main_savitch_3
    using namespace main_savitch_4

  3. seq_ex2.cxx: A non-interactive test program that will be used to grade the correctness of your new sequence class. If you use MinGW, please use seq_ex2_MinGW.cxx

The sequence Class Using a Dynamic Array
Discussion of the Assignment

Your sequence class for this assignment will differ from the your previous sequence in the following ways: Start by declaring the new sequence's private member variables in sequence2.h. This should include the dynamic array (which is declared as a pointer to a value_type). You will also need two size_type variables to keep track of the number of items in the sequence and the total size of the dynamic array. After you've declared your member variables, write an invariant for the top of sequence2.cxx.

Many of the features of this class are similar to the bag class from Section 4.3, so start by thoroughly reading Section 4.3 and pay attention to new features such as how the sequence differs from a bag (see page 119). Also the implementation of some of the functions are almost the same as in Part 1. Once again, 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 the 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 (for example, Visual C++ 6.0) that does not support static const members, then you may use


instead of

static const size_type DEFAULT_CAPACITY = 30;

After  this definition, the name bag::DEFAULT_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).

When a member functions needs to increase the size of the dynamic array, it is a good idea to increase that size by at least 10% (rather than by just one item).

The sequence Class Using a Dynamic Array
*Optional Part of the Assignment (for extra 10% points )

You may wish to provide some additional useful member functions, such as
(1) Operators + and +=.. For + operator, x+y contains all the items of x, followed by all the items in y. The statement x += y appends all the items in y to the end of what's already in x.
(2) Operator []. For a sequence x, we would like to be able to refer to the individual items using the usual C++ notation for arrays. For example, if x has three items, then we want to be able to write x[0], x[1] and x[2] to access these three items. The use of the square brackets is called the subscript operator. The subscript operator may be overloaded as a member function, with the prototype shown here as part of the sequence class:

class sequence
    value_type operator[](size_type index) const;

The only parameter is the index of the item we want to retrieve. The implementation of this member function should check that the index is valid, and then return the specified item.

Feng HU ( ), 2016