Java Training Course/JT06
Preliminary Class Ratio
As a preparation we implement a Java class which represents fractions and arithmetic operations thereon, but the operations (methods in Java terminology) are all static. They are implemented in a rather straight-forward way, and they are not yet really object-oriented.
Below you will find a skeleton for the code. The task of this session is
- Fill in the bodies of the following methods if necessary.
- Thereby make as much use of other methods as possible.
- Insert proper documentation comments.
- Arrange the methods of the class in alphabetical order (since there are many).
Desired Methods
public Rational abs() { return new Rational((numerator < 0 ? - numerator : numerator), denominator) }
public Rational add(Rational rat2) { ... }
public int compareTo(Rational rat2) { /* return -1, 0, +1 iff this < = > rat2 */ ... }
public Rational divide(Rational rat2) { ... }
public boolean equals(Rational rat2) { return this.compareTo(rat2) == 0; }
public boolean isInteger() { return denominator == 1; }
public int intValue() { return numerator / denominator; }
public Rational max(Rational rat2) { return this.compareTo(rat2) > 0 ? this : rat2 }
public Rational min(Rational rat2) { return this.compareTo(rat2) < 0 ? this : rat2 }
public Rational multiply(Rational rat2) { ... }
public Rational negate() { return new Rational(- numerator, denominator); }
// public Rational reduce() is already implemented below
// public Rational subtract(Rational rat2) is already implemented below
Starting Code
/* Fractions of integers * @(#) $Id$ * 2017-11-07: revised in Bekasi * 2017-09-23, Georg Fischer */ // package name will later go here // imports will later go here /** Class <wm>Ratio represents an integer fraction * together with the arithmetic operations on such Ratios. * The denominator is always > 0. All arithmetic operations * return reduced fractions where GCD(numerator, denominator) = 1. * The methods have name, parameters and return values analogous to methods * of the Java object type BigInteger, see * https://docs.oracle.com/javase/7/docs/api/java/math/BigInteger.html */ public class Ratio { //---------------- // Internal Properties //---------------- /** value above the bar, before the slash */ public int numerator; /** value below the bar, after the slash */ public int denominator; /* Implement the following methods, and make use of basic operations. All Ratio return values should be reduced. Insert proper documentation comments. Always arrange all methods of the class in alphabetical order, since there are many. */ // public static Ratio abs(Ratio rat1) { return new Ratio(); } public static Ratio add(Ratio rat1, Ratio rat2) { return new Ratio(); } // public static int compareTo(Ratio rat1, Ratio rat2) { return 0; } // return -1, 0, +1 iff this < = > rat2 public static Ratio divide(Ratio rat1, Ratio rat2) { return new Ratio(); } // public static boolean equals(Ratio rat1, Ratio rat2) { return rat1.compareTo(rat2) == 0; } // public static boolean isInteger(Ratio rat1) { return false; } // public static int intValue(Ratio rat1) { return 0; } // public static Ratio max(Ratio rat1, Ratio rat2) { return rat1; } // public static Ratio min(Ratio rat1, Ratio rat2) { return rat2; } // public static Ratio multiply(Ratio rat1, Ratio rat2) is already implemented below public static Ratio negate(Ratio rat1) { return new Ratio(); } // public static Ratio reduce(Ratio rat1) is already implemented below public static Ratio subtract(Ratio rat1, Ratio rat2) { return new Ratio(); } //---------------- // Constructors //---------------- /** No-args constructor, creates 1/1 */ public Ratio() { numerator = 1; denominator = 1; } // no-args constructor /** Constructor with numerator, creates a/1 * @param a numerator */ public Ratio(int a) { numerator = a; denominator = 1; } // constructor(int) /** Constructor with numerator and denominator, creates a/b * @param a numerator * @param b denominator */ public Ratio(int a, int b) { numerator = a; denominator = b; } // constructor(int, int) /** Constructor from a String representation, creates a/b * @param str String of the form "a/b" */ public Ratio(String str) { int slashPos = str.indexOf("/"); if (slashPos < 0) { str += "/1"; slashPos = str.length() - 2; } numerator = Integer.parseInt(str.substring(0, slashPos)); denominator = Integer.parseInt(str.substring(slashPos + 1)); } // constructor(String) //---------------- // Internal getters //---------------- /** Gets the numerator * @return the numerator of this Ratio */ private int getNum() { return numerator; } // getNum() /** Gets the denominator * @return the denominator of this Ratio */ private int getDen() { return denominator; } // getDen() //---------------- // Public methods //---------------- /** Returns the greatest common divisor of 2 integers. * @param a 1st integer * @param b 2nd integer * @return gcd(a,b), which is always positive */ public static int gcd(int a, int b) { int result = 0; // not yet implemented return result; } // gcd(int,int) /** Returns the least common multiple of 2 integers. * @param a 1st integer * @param b 2nd integer * @return lcm(a,b) */ public static int lcm(int a, int b) { int result = a * b; if (result < 0) { // absolute, make positive result = - result; } // abs return result / gcd(a, b); } // lcm(int,int) /** Returns the product of one Ratio and a second. * @param rat1 1st Ratio * @param rat2 2nd Ratio * @return (rat1 * rat2) */ public static Ratio multiply(Ratio rat1, Ratio rat2) { return Ratio.reduce(new Ratio ( rat1.numerator * rat2.numerator , rat1.denominator * rat2.denominator) ); } // multiply(Ratio) /** Reduces and normalizes the fraction, that means: *
-
*
- divides the numerator and the denominator by * their greatest common divisor, if that is > 1, *
- makes the denominator always positive, *
- normalizes the denominator to 1 if the numerator is 0. *
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