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Using vector in member function getPoints() shows weird behavior.

After pushing new objects to a vector, previous objects are assigned the new value.

And when the vector is returned I get garbage values.

The vector is not storing or using reference variables.

Can someone explain what's happening.

Thank you.

CODE

#include<iostream>
#include<vector>
#include<math.h>

using namespace std;


class Unit{
public:
    
    double n[2];
    double &x = n[0], &y = n[1];

    Unit(double x=0, double y=0){
        n[0] = x;
        n[1] = y;
    }

    Unit& operator=(const Unit& rhs){
        this->x = rhs.x;
        this->y = rhs.y;
        return *this;
    }
    
    Unit& operator+=(const Unit& rhs){
        this->x += rhs.x;
        this->y += rhs.y;
        return *this;
    }

    Unit operator+(const Unit& rhs){
        return Unit(x+rhs.x, y+rhs.y);
    }
    
    Unit& operator-=(const Unit& rhs){
        this->x -= rhs.x;
        this->y -= rhs.y;
        return *this;
    }
    
    Unit operator-(const Unit& rhs){
        return Unit(x-rhs.x, y-rhs.y);
    }

    Unit& operator*=(const Unit& rhs){
        this->x *= rhs.x;
        this->y *= rhs.y;
        return *this;
    }

    Unit operator*(const Unit& rhs){
        return Unit(x*rhs.x, y*rhs.y);
    }

    Unit operator*=(double rhs){
        this->x *= rhs;
        this->y *= rhs;
        return *this;
    }

    Unit operator*(double rhs){
        return Unit(x*rhs, y*rhs);
    }

    Unit operator/=(const Unit& rhs){
        this->x /= rhs.x;
        this->y /= rhs.y;
        return *this;
    }

    Unit operator/(const Unit& rhs){
        return Unit(x/rhs.x, y/rhs.y);
    }

    Unit operator/=(double rhs){
        this->x /= rhs;
        this->y /= rhs;
        return *this;
    }

    Unit operator/(double rhs){
        return Unit(x/rhs, y/rhs);
    }
    
    double dot(const Unit& rhs){
        return x * rhs.x + y * rhs.y;
    }

    double len2(){
        return dot(*this);
    }

    double len(){
        return sqrt(len2());
    }

    double distance2(const Unit& rhs){
        Unit C = *this - rhs;
        return C.len2();
    }

    double distance(const Unit& rhs){
        return sqrt(distance2(rhs));
    }

    Unit Normalize(){ 
        return *this * 1.0 / len(); 
    }

    Unit Round(){
        return Unit(round(x), round(y));
    }

    Unit Trunc(){
        return Unit(int(x), int(y));
    }

    vector<Unit> getPoints(const Unit& rhs){
        
        vector<Unit> points;
        
        Unit start, end;
        
        if(x < rhs.x){
            
            start = *this;
            end = rhs;
        }
        else{
            
            start = rhs;
            end = *this;
        }
        
        int run = end.x - start.x;
        int rise = end.y - start.y;
        
        double m = ((double) rise) / ((double) run);
        
        double b = start.y - (m * start.y);
        
        for(int i = start.x; i < end.x; ++i){
            
            double y = (m * i) + b;
            
            int rounded = (y > 0.0) ? floor(y + .50) : ceil(y - 0.5);
            
            points.push_back(Unit(i, i));
            cout<<"Expected Output : "<< points[points.size()-1].x << " " << points[points.size()-1].y <<endl;
        }
        
        cout << endl;
        
        for (auto&p : points){
            
            cout<<"Actual Output : "<< p.x << " " << p.y << endl;
        }
        
        return points;
        
    }
};


int main()
{
    Unit a, b(10,10);
    
    auto c = a.getPoints(b);
    
    cout <<endl;
    
    for(auto& d: c){
        
        cout<<"Recieved Output : "<< d.x << " " << d.y << endl;
    }

    return 0;
}

OUTPUT

Expected Output : 0 0
Expected Output : 1 1
Expected Output : 2 2
Expected Output : 3 3
Expected Output : 4 4
Expected Output : 5 5
Expected Output : 6 6
Expected Output : 7 7
Expected Output : 8 8
Expected Output : 9 9

Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9
Actual Output : 9 9

Recieved Output : 2.07386e-317 6.9151e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
Recieved Output : 6.9151e-310 6.95256e-310
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1 Answer 1

4

Your class has reference variables in it.

When you make a copy of the class via the default copy-constructor, the new object's reference variables will refer to the same objects that the source's references referred to. Which in this case will be member variables of the source object.

You probably intended each Unit 's references to refer to the members of that same Unit. To do this you will need to write your own copy-constructor that initializes the references appropriately. (And you should write a move-constructor too).

NB. A better approach would be to not use the reference variables at all. You could use a member function double& x() { return n[0]; } instead.

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