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282 lines
5.1 KiB
C++
282 lines
5.1 KiB
C++
Program to perform various operation on a vector using operator overloading
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This Program deals with the basic operation like
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Addition(+),
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Subtraction(-), Dot Product, Cross Product etc. on Two 3-D vectors.
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#include "Vector.cpp"
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void main()
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{
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system("cls");
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Vector A,B,C;
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int k,ch;
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char choice = 'y';
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do
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{
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if(choice == 'y' || choice == 'Y')
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{
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cout<<"
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INPUT VECTOR
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";
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cout<<"
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ENTER THE FIRST VECTOR.
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";
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A.GetData();
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cout<<"
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ENTER THE SECOND VECTOR.
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";
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B.GetData();
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}
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system("cls");
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cout<<"
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PROGRAM FOR VECTOR OPERATIONS.
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";
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cout<<"
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First Vector(A)= "<<A<<" Second Vector(B)= "<<B<<"
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";
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cout<<" 1.Addition Of Two Vectors.
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";
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cout<<" 2.Subtraction Of Two Vectors.
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";
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cout<<" 3.Multiplication Of A Vector With The Scalar.
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";
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cout<<" 4.Cross Product Of Two Vectors.
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";
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cout<<" 5.Scalar(or Dot) Product Of Two Vectors.
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";
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cout<<" 6.Negative Of Vectors.
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";
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cout<<" 7.Exit
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";
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cout<<"
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Enter The Choice. ";
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cin>>ch;
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switch(ch)
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{
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case 1:
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cout<<"
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ADDITION OF TWO VECTORS.
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";
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C = A + B;
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cout<<"
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The Value Of A+B Is: "<<C;
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break;
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case 2:
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cout<<"
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SUBTRACTION OF TWO VECTORS.
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";
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C = A - B;
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cout<<"
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The Value Of A-B Is: "<<C;
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break;
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case 3:
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cout<<"
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MULTIPLICATION OF A VECTOR WITH A SCALAR.
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";
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cout<<"
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Enter The Value Of The Scalar: ";
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cin>>k;
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C = A * k;
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cout<<"
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The Value Of Ak Is (k Is the Scaler): "<<C;
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C = k * B;
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cout<<"
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The Value Of kB Is (k Is the Scaler): "<<C;
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break;
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case 4:
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cout<<"
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CROSS PRODUCT OF TWO VECTORS.
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";
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C = A * B;
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cout<<"
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The Value Of A*B(Cross Product) Is: "<<C;
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break;
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case 5:
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cout<<"
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SCALAR(OR DOT) PRODUCT OF TWO VECTORS.
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";
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A.DotProd(B);
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break;
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case 6:
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cout<<"
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NEGATIVE OF A VECTOR.
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";
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C = -A;
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cout<<"The Value Of -A Is: "<<C;
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C = -B;
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cout<<"
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The Value Of -B Is: "<<C;
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break;
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case 7:
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return;
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default:
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cout<<"
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WRONG CHOICE.
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";
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break;
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getch();
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}
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cout<<"
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DO YOU WANT TO ENTER A NEW VECTOR (y/n): ";
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cin>>choice;
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system("cls");
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}while(1);
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}
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//////////////////////////////////////////////////////////////////////
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/////////////////////////////////////////////////////////////////////
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//VECTOR.CPP
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#include"Vector.h"
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Vector::Vector():x(0),y(0),z(0)
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{
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//cout<<"This Is A Default Constructor.";
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}
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Vector Vector::operator +(const Vector &v)const //Addition
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{
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Vector res;
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res.x = x + v.x;
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res.y = y + v.y;
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res.z = z + v.z;
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return res;
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}
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Vector Vector::operator -(const Vector &v)const //Subtraction
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{
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Vector res;
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res.x = x - v.x;
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res.y = y - v.y;
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res.z = z - v.z;
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return res;
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}
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Vector Vector::operator *(const int k)const //Multiplication By Scalar
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{
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Vector res;
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res.x = k * x;
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res.y = k * y;
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res.z = k * z;
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return res;
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}
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void Vector::GetData() //Input The Vector
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{
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cout<<"
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Enter The Value Of x : ";
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cin>>x;
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cout<<"
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Enter The Value Of y : ";
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cin>>y;
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cout<<"
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Enter The Value Of z : ";
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cin>>z;
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}
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Vector operator *(int k,const Vector &v)
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{
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return v * k;
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}
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Vector Vector::operator -()const //Negative Of A Vector
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{
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Vector res;
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res.x = -x;
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res.y = -y;
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res.z = -z;
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return res;
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}
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Vector Vector::operator *(const Vector &v)const //Cross (or Vector)
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Product
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{
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Vector res;
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res.x = (y * v.z) - (z * v.y);
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res.y = (z * v.x) - (x * v.z);
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res.z = (x * v.y) - (y * v.x);
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return res;
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}
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void Vector::DotProd(Vector v2) //Dot(Or Scalar) Product
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{
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int v1v2;
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v1v2 = (x * v2.x)+(y * v2.y)+(z * v2.z);
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cout<<"
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The Value Of A.B Is: "<<v1v2;
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}
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ostream & Vector::Show(ostream & out)const
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{
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if((x<0) && (y<0) && (z<0))
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out<<x<<"I"<<y<<"J"<<z<<"K";
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if((x<0) && (y<0) && (z>=0))
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out<<x<<"I"<<y<<"J+"<<z<<"K";
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if((x<0) && (y>=0) && (z<0))
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out<<x<<"I+"<<y<<"J"<<z<<"K";
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if((x<0) && (y>=0) && (z>=0))
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out<<x<<"I+"<<y<<"J+"<<z<<"K";
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if((x>=0) && (y<0) && (z<0))
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out<<x<<"I"<<y<<"J"<<z<<"K";
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if((x>=0) && (y<0) && (z>=0))
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out<<x<<"I"<<y<<"J+"<<z<<"K";
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if((x>=0) && (y>=0) && (z<0))
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out<<x<<"I+"<<y<<"J"<<z<<"K";
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if((x>=0) && (y>=0) && (z>=0))
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out<<x<<"I+"<<y<<"J+"<<z<<"K";
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return out;
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}
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////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////
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// VECTOR.H
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#include<iostream>
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#include<conio.h>
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#include<stdlib.h>
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using namespace std;
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class Vector
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{
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private:
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int x,y,z;
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public:
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Vector(int,int,int);
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Vector();
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void GetData();
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Vector operator+(const Vector &v)const;
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Vector operator-(const Vector &v)const;
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Vector operator*(const int k)const; //Multiplication by Scalar
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Vector operator*(const Vector &v)const; //Cross Product
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Vector operator-()const; //Negative Of A Scaler
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void DotProd(Vector); //Dot Product
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ostream & Show(ostream & out)const;
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friend Vector operator*(const int k,const Vector &v);
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friend ostream & operator<<(ostream & out,const Vector &v)
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{
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v.Show(out);
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return out;
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}
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};
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