handout #2
CSE143—Computer Programming II
Programming Assignment #1
due: Thursday, 6/28/18, 9 pm
In this programming assignment you will
practice using arrays and classes. You
are to implement a class called LetterInventory that can be used to keep track
of an inventory of letters of the alphabet.
The constructor for the class takes a String and computes how many of
each letter are in the String. This is
the information the object keeps track of (how many a’s, how many b’s,
etc). It ignores the case of the letters
and ignores anything that is not an alphabetic character (e.g., it ignores
punctuation characters, digits and anything else that is not a letter).
Your
class should have the following public methods.
Method |
Description |
LetterInventory(String
data) |
Constructs
an inventory (a count) of the alphabetic letters in the given string,
ignoring the case of letters and ignoring any non-alphabetic characters. |
int
get(char letter) |
Returns
a count of how many of this letter are in the inventory. Letter might be lowercase or uppercase
(your method shouldn’t care). If a
nonalphabetic character is passed, your method should throw an IllegalArgumentException. |
void
set(char letter, int value) |
Sets
the count for the given letter to the given value. Letter might be lowercase or
uppercase. If a nonalphabetic
character is passed or if value is negative, your method should throw an IllegalArgumentException |
int
size() |
Returns
the sum of all of the counts in this inventory. This operation should be “fast” in that it
should store the size rather than having to compute it each time this method
is called. |
boolean
isEmpty() |
Returns
true if this inventory is empty (all counts are 0). This operation should be fast in that it
should not need to examine each of the 26 counts when it is called. |
String
toString() |
Returns
a String representation of the inventory with the letters all in lowercase
and in sorted order and surrounded by square brackets. The number of occurrences of each letter
should match its count in the inventory.
For example, an inventory of 4 a’s, 1 b, 1 l and 1 m would be
represented as “[aaaablm]”. |
LetterInventory
add(LetterInventory other) |
Constructs
and returns a new LetterInventory object that represents the sum of this
letter inventory and the other given LetterInventory. The counts for each letter should be added
together. The two LetterInventory
objects being added together (this and other) should not be changed by this
method |
LetterInventory
subtract(LetterInventory other) |
Constructs
and returns a new LetterInventory object that represents the result of
subtracting the other inventory from this inventory (i.e., subtracting the
counts in the other inventory from this object’s counts). If any resulting count would be negative,
your method should return null. The
two LetterInventory objects being subtracted (this and other) should not be
changed by this method |
Below is an
example of how the add method would be called.
LetterInventory inventory1 = new LetterInventory("George W. Bush");
LetterInventory inventory2 = new LetterInventory("Hillary Clinton");
LetterInventory sum = inventory1.add(inventory2);
The first inventory would correspond to [beegghorsuw],
the second would correspond to [achiilllnnorty] and the third would correspond
to [abceegghhiilllnnoorrstuwy].
You should implement this class with an
array of 26 counters (one for each letter) along with any other data fields you
find that you need. Remember, though,
that we want to minimize the number of data fields when possible. You might be tempted to implement the add
method by calling the toString method or otherwise building a String to pass to
the LetterInventory constructor, but you are not allowed to use that approach
because it would be inefficient for inventories with large character counts. You should introduce a class constant for the
value 26 to add to readability.
You will need to know certain things about
the properties of letters and type char.
There is a section about type char in chapter 4 of the textbook. One of the most important ideas is that the
values of type char have corresponding integer values. There is a character with value 0, a
character with value 1, a character with value 2 and so on. You can compare different values of type char
using less-than and greater-than tests, as in:
if (ch >= 'a') {
...
}
All of the lowercase letters appear grouped
together in type char ('a' is followed by 'b' followed by 'c', and so on) and
all of the uppercase letters appear grouped together in type char ('A' followed
by 'B' followed by 'C' and so on).
Because of this, you can compute a letter’s displacement (or distance)
from the letter 'a' with an expression like the following (this expression
assumes the variable letter is of type char and stores a lowercase letter):
letter - 'a'
Going in the other direction, if you know
a character’s integer equivalent, you can cast the result to char to get the
character. For example, suppose that you
want to get the letter that is 8 away from 'a'.
You could say:
char result = (char) ('a' + 8);
This assigns the variable result the value
'i'.
As in these examples, you should write
your code in terms of displacement from a fixed letter like 'a' rather than
including the specific integer value of a character like 'a'.
You probably want to look at the String
and Character classes for useful methods (e.g., there is a toLowerCase method
in each). You will have to pay attention
to whether a method is static or not.
The String methods are mostly instance methods because Strings are
objects. The Character methods are all
static because char is a primitive type.
For example, assuming you have a variable called s that is a String, you
can turn it to lowercase by saying:
s = s.toLowerCase();
This is a call on an instance method where
you put the name of the object first.
But char values are not objects and the toLowerCase method in the
Character class is a static method. So
assuming you have a variable called ch that is of type char, you'd turn it to
lowercase by saying:
ch = Character.toLowerCase(ch);
You can read about String operations on
pages 161—167 of the textbook.
In terms of correctness, your class must
provide all of the functionality described above and must satisfy all of the
constraints mentioned in this writeup.
In terms of style, we will be grading on your use of comments, good
variable names, consistent indentation, minimal data fields and good coding
style to implement these operations. Remember
to check the General Style Deductions to see our specific style expectations
for this assignment.
The ArrayIntList class discussed in
lecture provides a good example of the kind of documentation we expect you to
include. You do not have to use the
pre/post format, but you must include the equivalent information, including
exactly what type of exception is thrown if a precondition is violated. Remember to mention all important behavior
that a client would want to know about.
You should name your file LetterInventory.java
and you should turn it in electronically from the “Homework” tab on the class
web page.
Development
Strategy
One
of the most important techniques for software professionals is to develop code
in stages rather than trying to write it all at once (the technical term is iterative enhancement or stepwise refinement). It is also important to be able to test the
correctness of your solution at each different stage.
We have noticed that many 143 students do
not develop their code in stages and do not have a good idea of how to test
their solutions. As a result, for this
assignment we will provide you with a development strategy and some testing
code. We aren’t going to provide exhaustive
testing code, but we’ll give you some good examples of the kind of testing code
we want you to write.
We are suggesting that you develop the
program in three stages:
1. In this stage we
want to test constructing a LetterInventory and examining it’s contents. So the methods we will implement are the
constructor, the size method, the isEmpty method, the get method, and the
toString method. Even within this stage
you can develop the methods slowly.
First do the constructor and size methods. Then add the isEmpty method. Then add the get method. Then add the toString method. The testing program will test them in this
order, so it will be possible to implement them one at a time.
2. It this stage we
want to add the set method to the class that allows the client to change the
number of occurrences of an individual letter.
The testing program will verify that other methods work properly in
conjunction with set (the get, isEmpty, size, and toString methods).
3. In this stage we
want to include the add and subtract methods.
You should write the add method first and make sure it works. The testing program first tests add, so don’t
worry that the tests on subtract fail initially.
We will be providing testing code for each
of these three stages and for this program only you are allowed to discuss how
to write testing code with other students.
Discussing testing with other students is not allowed on future
assignments, so take advantage of this! Keep
in mind that the tests are not guaranteed to be exhaustive. They are meant to be examples of the kinds of
tests you should perform.