Java Training Course/JT07
Class Rational
We now leave the conventional programming style of C (and Pascal, BASIC, FORTRAN etc.), and we enter the field of real object-oriented programming. We rewrite the class Ratio from JT06, and we remove the static qualifier from most methods. In the new class Rational the first (implied) parameter is the current object thisin most cases. Instead of:
public static Ratio subtract(Ratio rat1, Ratio rat2) {
return add(rat1, negate(rat2));
} // subtract(Ratio, Ratio)
we write:
public Rational subtract(Rational rat2) {
return this.add(rat2.negate());
} // subtract(Rational)
Desired Methods
Besides the 4 basic arithmetic operations we want to implement some more useful methods. In this session, the following list should be expanded with proper documentation comments and method bodies:
public Rational abs() { ... }
public Rational add(Rational rat2) { ... }
public int compareTo(Rational rat2) { ... }
public Rational divide(Rational rat2) { ... }
public boolean equals(Rational rat2) { ... }
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 subtract(Rational rat2) { ... }
public String toString() { ... }
Starting Code
/* Fractions of integers * @(#) $Id$ * 2017-09-23, Georg Fischer */ // package name will later go here // imports will later go here /** Class <wm>Rational represents an integer fraction * together with the arithmetic operations on such Rationals. * 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 Rational { //---------------- // Internal Properties //---------------- /** value above the bar, before the slash */ private int numerator; /** value below the bar, after the slash */ private int denominator; //---------------- // Constructors //---------------- /** No-args constructor, creates 1/1 */ public Rational() { numerator = 1; denominator = 1; } // no-args constructor /** Constructor with numerator, creates a/1 * @param a numerator */ public Rational(int a) { numerator = a; denominator = 1; } // constructor(int) /** Constructor with numerator and denominator, creates a/b * @param a numerator * @param b denominator */ public Rational(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 Rational(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 Rational */ private int getNum() { return numerator; } // getNum() /** Gets the denominator * @return the denominator of this Rational */ 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) /** Reduces and normalizes the fraction, that means: * <ul> * <li>divides the numerator and the denominator by * their greatest common divisor, if that is > 1,</li> * <li>makes the denominator always positive,</li> * <li>normalizes the denominator to 1 if the numerator is 0.</li> * </ul> */ public Rational reduce() { int common = gcd(numerator, denominator); if (common > 1) { numerator /= common; denominator /= common; } if (numerator == 0) { denominator = 1; } else if (denominator < 0) { numerator = - numerator; denominator = - denominator; } return this; } // reduce() /** Returns the difference between this Rational and a second. * @param rat2 2nd Rational * @return (this - rat2) */ public Rational subtract(Rational rat2) { return this.add(rat2.negate()); } // subtract(Rational) /** Returns this Rational as a String. * @return a String of the form "a/b", or only "a" if b is 1. */ public String toString() { String result = String.valueOf(numerator); if (denominator != 1) { result += "/" + String.valueOf(denominator); } return result; } // toString() //================ /** Test program, shows a series of fixed operations * @param args String array of commandline arguments */ public static void main(String[] args) { int iarg = 1; String str0 = "0/1"; Rational rat0 = new Rational(str0); while (iarg < args.length) { String str1 = args[iarg]; Rational rat1 = new Rational(str1); System.out.println(str0 + " + " + str1 + " = " + rat0.add (rat1).toString()); System.out.println(str0 + " - " + str1 + " = " + rat0.subtract(rat1).toString()); System.out.println(str0 + " * " + str1 + " = " + rat0.multiply(rat1).toString()); System.out.println(str0 + " / " + str1 + " = " + rat0.divide (rat1).toString()); str0 = str1; rat0 = rat1; iarg ++; } // while iarg } // main } // Rational
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