Difference between revisions of "CISC181 S2017 Lab6"

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<p style="font-size:40px">[http://nameless.cis.udel.edu/class_data/181_s2017/lab6_grading.pdf Lab #6 rubric]</p>
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==Preliminaries==
 
==Preliminaries==
  
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===FractionTests===
 
===FractionTests===
  
<tt>FractionTests</tt> must have tests that cover every method above, with multiple "normal" and "border" cases as input, including <tt>compareTo()</tt> as implied by <tt>Fraction's</tt> implementation of the <tt>Comparable</tt> interface.  You should also test that denominator = 0 exceptions are also thrown as specified.  Because these will cause your program to end without a special testing framework, you may comment them out in <tt>run()</tt> (see below) as your testing progresses.
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<tt>FractionTests</tt> must have tests that cover every method above, with multiple "normal" and "border" cases as input, including <tt>compareTo()</tt> as implied by <tt>Fraction's</tt> implementation of the <tt>Comparable</tt> interface.  You should also test that denominator = 0 exceptions are also thrown as specified.  If you are not using JUnit, these will cause your program to end, so you may comment them out in <tt>run()</tt> (see below) as your testing progresses.
  
 
Each test method should have the following form: "<tt>void xNTest() { ... }</tt>", such as "<tt>add1Test()</tt>" or "<tt>division2Test()</tt>", etc.  Each test method should make at least one <tt>Fraction</tt> object, set some values, perform an operation or more, and test whether the correct output was obtained.  Write comments to explain *why* each test is useful!
 
Each test method should have the following form: "<tt>void xNTest() { ... }</tt>", such as "<tt>add1Test()</tt>" or "<tt>division2Test()</tt>", etc.  Each test method should make at least one <tt>Fraction</tt> object, set some values, perform an operation or more, and test whether the correct output was obtained.  Write comments to explain *why* each test is useful!
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To declare that a test has been failed, define a new public class called <tt>FractionException</tt> derived from <tt>Exception</tt>.  It should have a constructor that takes a String.  Throw an instance of <tt>FractionException</tt> in test method <tt>xNTest()</tt> constructed with the message string "Failed xNTest()" IF AND ONLY IF A TEST IS FAILED.
 
To declare that a test has been failed, define a new public class called <tt>FractionException</tt> derived from <tt>Exception</tt>.  It should have a constructor that takes a String.  Throw an instance of <tt>FractionException</tt> in test method <tt>xNTest()</tt> constructed with the message string "Failed xNTest()" IF AND ONLY IF A TEST IS FAILED.
  
If you are using JUnit, annotate all of your test functions appropriately. If you are NOT using JUnit, make a <tt>run()</tt> method in <tt>FractionTests</tt> which calls all of your unit test methods.  There should be ''at a minimum'' 20+ tests to get decent coverage of <tt>Fraction's</tt> functionality.
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If you are NOT using JUnit, make a <tt>run()</tt> method in <tt>FractionTests</tt> which calls all of your unit test methods.  If you ARE using JUnit, simply annotate all of your test functions appropriately.  There should be ''at a minimum'' 20+ tests to get decent coverage of <tt>Fraction's</tt> functionality.
  
 
===main()===
 
===main()===

Latest revision as of 09:08, 25 April 2017

Lab #6 rubric

Preliminaries

  • Make a new project with n = 6 (following these instructions)
  • Name your main class "Lab6" (when creating a new module in the instructions above, in the Java class name field)

Instructions

In this lab you will develop a public Fraction class (in Fraction.java) with the arithmetic and output functionality listed below. However, you are also required to use a "test-driven development" approach based on unit testing. Thus, as you start to implement the methods below, you must also create a public FractionTests class (in FractionTests.java) which contains a suite of unit tests (aka methods) to test Fraction thoroughly.

Fraction

Fraction must have two private ints: numerator and denominator. If any arguments to the functions below have denominators with 0 value, you must throw an IllegalArgumentException. Fraction should also implement the Comparable interface. Here are other the public methods that Fraction must implement:

Constructors

  • A two-parameter constructor that initializes the numerator and denominator
  • A one-parameter constructor that takes the numerator and sets the denominator to 1

Operators

  • void add(Fraction F): Add another fraction F to this one
  • void subtract(Fraction F): Subtract another fraction F from this one
  • void multiply(Fraction F): Multiply this fraction by another fraction F
  • void divide(Fraction F): Divide this fraction by another fraction F
  • void pow(int n): Raise this fraction to the nth power

Special

  • void reduce(): Reduces numerator and denominator to lowest terms. For example, "2 / 4" -> "1 / 2", or "10 / 15" -> "2 / 3". You may look up pseudocode for how to reduce factors.
  • String toString(): Returns the fraction as a string, written as "numerator / denominator" -- e.g. "1 / 4", or "3 / 5". It should always be reduced first. If the numerator is 0, just return "0". If the denominator is 1, just return the numerator -- e.g. "5 / 1" -> "5". Also, handle negatives properly! E.g., -3 / -5 should be written as "3 / 5", and 1 / -2 should be written as "-1 / 2".

FractionTests

FractionTests must have tests that cover every method above, with multiple "normal" and "border" cases as input, including compareTo() as implied by Fraction's implementation of the Comparable interface. You should also test that denominator = 0 exceptions are also thrown as specified. If you are not using JUnit, these will cause your program to end, so you may comment them out in run() (see below) as your testing progresses.

Each test method should have the following form: "void xNTest() { ... }", such as "add1Test()" or "division2Test()", etc. Each test method should make at least one Fraction object, set some values, perform an operation or more, and test whether the correct output was obtained. Write comments to explain *why* each test is useful!

To declare that a test has been failed, define a new public class called FractionException derived from Exception. It should have a constructor that takes a String. Throw an instance of FractionException in test method xNTest() constructed with the message string "Failed xNTest()" IF AND ONLY IF A TEST IS FAILED.

If you are NOT using JUnit, make a run() method in FractionTests which calls all of your unit test methods. If you ARE using JUnit, simply annotate all of your test functions appropriately. There should be at a minimum 20+ tests to get decent coverage of Fraction's functionality.

main()

If you are NOT using JUnit, this is what your main() in Lab6.java should contain:

FractionTests fracTests = new FractionTests();
try {
    fracTests.run();
}
catch (FractionException fe) {
    System.out.println(fe.getMessage());
}

If you ARE using JUnit, this is what your main() should contain:

Result result = JUnitCore.runClasses(FractionTests.class);
for (Failure failure : result.getFailures())
  System.out.println(failure.toString());

Submission

Submit your Fraction.java and FractionTests.java on Sakai (be sure to add your name and section number to both). Do NOT submit Lab6.java.