EE364-lab/lab-0/src/Fraction.java

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public class Fraction {
private int numerator;
private int denominator;
/**
* Contruct a fraction numerator and denominator
* <p>The fraction is reduced to it's minimum from if possible</p>
* @param numerator Numerator
* @param denominator Denominator
*/
public Fraction(int numerator, int denominator){
//This might get in recursive loop
if (isReducible(numerator, denominator)){
Fraction f = reduce(new Fraction(numerator, denominator));
this.numerator = f.numerator;
this.denominator = f.denominator;
}
else{
this.numerator = numerator;
this.denominator = denominator;
}
}
/**
* Default value of fraction is 1 (1/1)
*/
public Fraction(){
this.numerator = 1;
this.denominator = 1;
}
/**
* Reduces a fraction to it's minimum form
* @param oldFraction The fraction to be reduced.
* @return reduced fraction
*/
private Fraction reduce(Fraction oldFraction) {
if (isReducible(oldFraction)){
int gcd = GCD(oldFraction.numerator, oldFraction.denominator);
return new Fraction(oldFraction.numerator/gcd,
oldFraction.denominator/gcd);
}
else return oldFraction;
}
/**
* Find the greatest common divisor of two numbers.
* @param a First value
* @param b Second value
* @return Greatest common divisor as Integer.
*/
private static int GCD(int a, int b){
int gcd = 1;
for (int i = 1; i <= b && i <= a; i++){
if (b % i == 0 && a % i == 0) gcd = i; // i divides a and b
}
return gcd;
}
/**
* Check if the fraction provided is equal in value
* @param fraction The fraction to check
* @return True if the fractions are equal, otherwise false.
*/
public boolean equal(Fraction fraction){
Fraction reducedFraction = reduce(fraction);
if (this.numerator == reducedFraction.numerator &&
this.denominator == reducedFraction.denominator) return true;
return false;
}
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/**
* add two fractions
* @param fraction1
* @param fraction2
* @return added fractions reduced to min form
*/
public static Fraction add(Fraction fraction1, Fraction fraction2){
//new denominator
int mDenominatorResult = fraction1.denominator * fraction2.denominator;
int mNumerator1 = fraction1.numerator * fraction2.denominator;
int mNumerator2 = fraction2.numerator * fraction1.denominator;
//new numerator
int mNumeratorResult = mNumerator1 + mNumerator2;
//
return new Fraction(mNumeratorResult, mDenominatorResult);
}
/**
* subtract two fractions
* @param fraction1
* @param fraction2
* @return subtracted fractions reduced to min form
*/
public static Fraction subtract(Fraction fraction1, Fraction fraction2){
//new denominator
int mDenominatorResult = fraction1.denominator * fraction2.denominator;
int mNumerator1 = fraction1.numerator * fraction2.denominator;
int mNumerator2 = fraction2.numerator * fraction1.denominator;
//new num
int mNumeratorResult = mNumerator1 - mNumerator2;
return new Fraction(mNumeratorResult, mDenominatorResult);
}
/**
* Multiply two fractions and reduce
* @param fraction1
* @param fraction2
* @return fractions
*/
public static Fraction multiply(Fraction fraction1, Fraction fraction2) {
//The constructor already reduces.
return new Fraction(fraction1.numerator * fraction2.numerator,
fraction1.denominator * fraction2.denominator);
}
/**
* Divide two fractions and reduce
* @param fraction1
* @param fraction2
* @return fractions
*/
public static Fraction divide(Fraction fraction1, Fraction fraction2){
return new Fraction(fraction1.numerator * fraction2.denominator,
fraction1.denominator * fraction2.numerator);
}
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/**
* string of the fraction in num/den form
* overrides global toString()
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* @return fraction string
*/
public String toString(){
return String.format("%d/%d", this.numerator, this.denominator);
}
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/**
* returns a string with the decimal value of the fraction
* @param digits precision
* @return decimal string
*/
public String decimal(int digits){
return String.format("%."+digits, (double)this.numerator / this.denominator);
}
/**
* Check if fraction is in simplest terms.
* @param fraction Fraction object
* @return boolean
*/
private boolean isReducible(Fraction fraction){
int gcd = GCD(fraction.numerator, fraction.denominator);
if (gcd == 1) return false;
else return true;
}
/**
* Check if fraction is in simplest terms.
* @param numerator
* @param denominator
* @return boolean
*/
private boolean isReducible(int numerator, int denominator){
int gcd = GCD(numerator, denominator);
if (gcd == 1) return false;
else return true;
}
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}