package Maths;
public class ADTFraction {
public static void main(String[] args) {
// TODO code application logic here
ADTFraction f1 = new ADTFraction(3, 5);
f1.display();
ADTFraction f2 = new ADTFraction(7, 8);
f2.display();
ADTFraction f3 = f1.plus(f2);
f3.display();
ADTFraction f4 = f1.times(f2);
f4.display();
ADTFraction f5 = f1.times(4);
f5.display();
}
private int n; //numerator
private int d; //denomenator
public ADTFraction() {
this.n = 0;
this.d = 1;
}
public ADTFraction(int a, int b) {//parameter constructor
if (b != 0) {
this.n = a;
this.d = b;
} else {
this.n = 0;
this.d = 1;
System.out.println("denomerator cannot be 0,default values assinged");
}
}
public void set(int a, int b) {//set numerator and denomenator
if (b != 0) {
this.n = a;
this.d = b;
} else {
this.n = 0;
this.d = 1;
System.out.println("denomerator cannot be 0,default values assinged");
}
}
//add two fractions
public ADTFraction plus(ADTFraction x) {
int num, den;
num = this.d * x.n + this.n * x.d;
den = this.d * x.d;
ADTFraction f = new ADTFraction(num, den);
return f;
}
public ADTFraction times(int a) {//multiply fraction by a number
int num, den;
num = this.n * a;
den = this.d;
ADTFraction f1 = new ADTFraction(num, den);
return f1;
}
public ADTFraction times(ADTFraction x) {//multiply two fractions
int num, dem;
num = this.n * x.n;
dem = this.d * x.d;
ADTFraction f3 = new ADTFraction(num, dem);
return f3;
}
//reciprocal of a fraction
public ADTFraction reciprocal() {
ADTFraction f1 = new ADTFraction(this.d, this.n);
return f1;
}
//numerical value of a fraction
public float value() {
return (float) this.n / this.d;
}
//display the fraction in the format n/d
public void display() {
System.out.println(this.n + "/" + this.d);
}
}
ADTFraction
A
T
