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I had to turn this program in for homework and it's already been graded, got an 80. I'm going back and cleaning up some of the code. At the bottom of my code is the function to overload = operator. For some reason, the cout statement that I've commented out, causes my program to crash, however, when I remove the //s the program runs fine...

Anyone have any ideas why this would be?

#include <iostream>
using namespace std;

class Poly
{
    private:
        int order; //order of the polynomial
        int * coeff;//pointer to array of coeff on the heap

    public:
        Poly();
        Poly(int Order);
        Poly(int Order, int * Coeff);
        ~Poly(){/*cout << "Deconstructor\n";*/};
        Poly(const Poly &rhs);

        //accessors &  mutators
        void set();
        void set(int * Coeff, int Order);
        void Print2();
        void PtrReset();
        int getorder(){return order;};
        int * get()const{return coeff;};

        //Overloaded Operators
        Poly operator+(const Poly &rhs);
        Poly operator-(const Poly &rhs);
        Poly operator*(const int scale);
        Poly operator=(const Poly &rhs);
        Poly operator*(const Poly &rhs);
        const int& operator[](int I)const;
        int& operator[](int I);
        bool operator==(const Poly &rhs);
        int operator( )(int X);
        friend ostream & operator<<(ostream & Out, const Poly &rhs);
        friend istream & operator >>(istream & In, Poly &rhs);
};

int main()
{
    int coeff1[ ] =  {-19,1,-12,3,1};
    int coeff2[ ] = {-19,1,-6,0,0,7,0,-1};

    bool flag;

    Poly P1(4, coeff1);
    Poly P2(7, coeff2);
    Poly P3;
    P3 = P1 + P2;
    cout << "P1 + P2: " << P3;
    P3 = P2 - P1;
    cout << "P2 - P1: " << P3;
    P3 = P1 * 10;
    cout << "P1 * 10: " << P3;
    P3 = P1 * P2;
    cout << "P1 * P2: " << P3;
    flag = (P2 == P2);
    cout << "P2 and P2 are ";
    if (flag)
        cout << "Equal\n";
    else
        cout << "Not Equal\n";
    flag = (P1 == P2);
    cout << "P1 and P2 are ";
    if (flag)
        cout << "Equal\n";
    else
        cout << "Not Equal\n";
    cout << "P1(4) = " << P1(4) << endl;
    cout << "P1: ";
    cout << P1;
    cout << "P2: ";
    cout << P2;
    P1[3] = P2[5];
    cout << "P1(after P1[3] = P2[5]): " << P1;
    P1[3] = P2[4];
    cout << "P1(after P1[3] = P2[4]): " << P1;

    return 0;
}

Poly::Poly()
{
    coeff = (int *) malloc(sizeof(int));
    order = 0;
    *coeff = 0;
    //cout << "Default Constructor\n";
}

Poly::Poly(int Order)
{
    order = Order;
    coeff = new int[order+1];
    for(int i(0); i <= order; i++)
        coeff[i] = 0;
}

Poly::Poly(int Order, int * Coeff)
{
    order = Order;
    coeff = Coeff;
}

Poly::Poly(const Poly &rhs)
{
    order = rhs.order;
    int *temp;
    temp = (int *) malloc((rhs.order + 1) * sizeof(int));
    coeff = (int *) malloc((order + 1) * sizeof(int));
    temp = rhs.coeff;
    for(int i(0); i <= order; i++)
    {
        *coeff = *temp;
        coeff++;
        temp++;
    }
    PtrReset();
}


void Poly::set()
{
    coeff = (int *) malloc((order + 1) * sizeof(int));
    if(coeff == NULL)
    {
        cout << "Error allocating memory!\n";
        exit(1);
    }
    cout << "Begin entering with the non x value, then x^1 coefficient, x^2, etc:\n";
    for(int i(0); i <= order; i++)
    {
        cout << (i+1) << ". ";
        cin >> * coeff;
        coeff++;
    }   
    PtrReset();
}

void Poly::set(int * Coeff, int Order)
{
    order = Order;
    for(int i(0); i <= order; i++)
    {
        *coeff = *Coeff;
        coeff++;
        Coeff++;
    }
    PtrReset();
}


void Poly::Print2()
{
    for(int i(0); i <= order; i++)
    {
        cout << * coeff << " ";
        coeff++;
    }
    cout << endl;
    PtrReset();
}

void Poly::PtrReset()
{
    for(int i(0); i <= order; i++)
        coeff--;
}

Poly Poly::operator+(const Poly &rhs)
{
    int neworder;
    int * newpointer;
    int * temp;
    temp = rhs.coeff;
    if(order >= rhs.order)
    {
        neworder = order;
        newpointer = (int *) malloc((neworder+1) * sizeof(int));
        for(int i(0); i <= rhs.order; i++)
        {
            *newpointer = *coeff + *temp;
            newpointer++;
            coeff++;
            temp++;
        }
        for(int i(0); i < (order - rhs.order); i++)
        {
            *newpointer = *coeff;
            newpointer++;
            coeff++;
        }       
    }
    else
    {
        neworder = rhs.order;
        newpointer = (int *) malloc((neworder+1) * sizeof(int));
        for(int i(0); i <= order; i++)
        {
            *newpointer = *coeff + *temp;
            newpointer++;
            coeff++;
            temp++;
        }
        for(int i(0); i < (rhs.order - order); i++)
        {
            *newpointer = *temp;
            newpointer++;
            temp++;
        }       
    }
    PtrReset();
    for(int i(0); i <= neworder; i++)
        newpointer--;

    return Poly(neworder, newpointer);
}

Poly Poly::operator-(const Poly &rhs)
{
    int neworder;
    int * newpointer;
    int * temp;
    temp = rhs.coeff;
    if(order >= rhs.order)
    {
        neworder = order;
        newpointer = (int *) malloc((neworder+1) * sizeof(int));
        for(int i(0); i <= rhs.order; i++)
        {
            *newpointer = *coeff - *temp;
            newpointer++;
            coeff++;
            temp++;
        }
        for(int i(0); i < (order - rhs.order); i++)
        {
            *newpointer = *coeff;
            newpointer++;
            coeff++;
        }       
    }
    else
    {
        neworder = rhs.order;
        newpointer = (int *) malloc((neworder+1) * sizeof(int));
        for(int i(0); i <= order; i++)
        {
            *newpointer = *coeff - *temp;
            newpointer++;
            coeff++;
            temp++;
        }
        for(int i(0); i < (rhs.order - order); i++)
        {
            *newpointer = 0 - *temp;
            newpointer++;
            temp++;
        }       
    }
    PtrReset();
    for(int i(0); i <= neworder; i++)
        newpointer--;

    return Poly(neworder, newpointer);
}

Poly Poly::operator*(const int scale)
{
    int neworder = order;
    int * temp = new int[order+1];

    for(int i(0); i <= order; i++)
        temp[i] = scale * coeff[i];

    return Poly(neworder, temp);
}
Poly Poly::operator*(const Poly &rhs)
{
    int neworder = order + rhs.order;
    int * newcoeff;
    int * temp;
    temp = rhs.coeff;
    newcoeff = (int *) malloc((neworder + 1) * sizeof(int));
    for(int i(0); i <= neworder; i++)
    {
        *newcoeff = 0;
        newcoeff++;
    }
    for(int i(0); i <= neworder; i++)
        newcoeff--;

    for(int i(0); i <= order; i++)
    {
        for(int j(0); j <= rhs.order; j++)
        {
            *newcoeff += (*coeff * *temp);
            newcoeff++;
            temp++;
        }
        coeff++;
        for(int j(0); j < rhs.order; j++)
            newcoeff--;
        for(int j(0); j <= rhs.order; j++)
            temp--;
    }
    for(int i(0); i <= (neworder - rhs.order); i++)
        newcoeff--;
    PtrReset();

    return Poly(neworder, newcoeff);
}
bool Poly::operator==(const Poly &rhs)
{
    bool test = true;
    int count = 0;
    while(test && (count <= order))
    {
        if(order != rhs.order)
            test = false;
        else if(coeff[count] != rhs.coeff[count])
            test = false;
        count++;
    }


    return test;
}

int Poly::operator()(int X)
{
    int * temp;
    int * temp2;
    temp = (int *) malloc((order + 1) * sizeof(int));
    temp2 = temp;
    for(int i(0); i < order; i++)
        coeff++;
    for(int i(0); i <= order; i++)
    {
        *temp = *coeff;
        temp++;
        coeff--;
    }
    coeff++;
    for(int i(0); i < order; i++)
        temp--;
    for(int i(0); i < order; i++)
    {
        *temp += (X * *temp2);
        temp++;
        *temp2++;
    }
    return *temp2;
}

ostream &operator <<(ostream& out, const Poly &source)
{
    for(int i(source.order); i >= 0; i--)
    {
        if(i == 1)
        {
            if(i == source.order)
                if(source.coeff[i] == 1)
                    out << "X";
                else if(source.coeff[i] == -1)
                    out << "-X";
                else
                    out << source.coeff[i] << "X";
            else if(source.coeff[i] == 1)
                out << " + " << "X";
            else if(source.coeff[i] == -1)
                out << " - " << "X";
            else if(source.coeff[i] > 0)
                out << " + " << source.coeff[i] << "X";
            else if(source.coeff[i] < 0)
                out << " - " << abs(source.coeff[i]) << "X";
        }

        else if(i > 1)
        {   
            if(i == source.order)
                if(source.coeff[i] == 1)
                    out << "X^" << i;
                else if(source.coeff[i] == -1)
                    out << "-X^" << i;
                else
                    out << source.coeff[i] << "X^" << i;
            else if(source.coeff[i] == 1)
                out << " + " << "X^" << i;
            else if(source.coeff[i] == -1)
                out << " - " << "X^" << i;
            else if(source.coeff[i] > 1)
                out << " + " << source.coeff[i] << "X^" << i;
            else if(source.coeff[i] < -1)
                out << " - " << abs(source.coeff[i]) << "X^" << i;
        }
        else
        {
            if(source.coeff[i] > 0)
                out << " + " << source.coeff[i];
            else if(source.coeff[i] < 0)
                out << " - " << abs(source.coeff[i]);
        }
    }
    out << endl;

    return out;
} 
int& Poly::operator[](int I)
{
    if(I > (order + 1) || I < 0)
    {
        cout << "Request to access outside Poly boundaries!" << endl;
        exit(1);
    }
    return coeff[I];
}
const int& Poly::operator[](int I) const
{
    if(I > (order + 1) || I < 0)
    {
        cout << "Request to access outside Poly boundaries!" << endl;
        exit(1);
    }

    return coeff[I];
}
Poly Poly::operator=(const Poly &rhs)
{
    order = rhs.order;

    //cout << "new order = " << rhs.order << endl;  ******HERE*******

    for(int i(0); i <= rhs.order; i++)
        coeff[i] = rhs.coeff[i];
    return Poly(order, coeff);
}
share|improve this question
4  
please include the error message. Does it segfault? Does it print before it crashes? Have you compiled with -g and run it with valgrind or gdb to see what line the crash actually occurs on? –  Ryan Haining Jul 31 '13 at 22:46
1  
You mix new and malloc and never delete them. Operator= should return a non-const reference to *this. Why do you return a temporary object? –  Neil Kirk Jul 31 '13 at 22:49
7  
Too much code. Can't you come up with a smaller version that still exhibits the problem? –  Nikos C. Jul 31 '13 at 22:51
2  
Please try to reduce this to a minimum example that still demonstrates the problem. –  Benjamin Lindley Jul 31 '13 at 22:51
2  
@RyanHaining: Being knowledgeable of one of the most widely used programming tools, even if you don't use it for your own personal work, makes you a better, and even more real programmer. –  Benjamin Lindley Jul 31 '13 at 23:06
show 18 more comments

2 Answers 2

up vote 0 down vote accepted

When I see this, the usual problem behind it is a double free/delete. You're likely calling free on the same pointer twice (or an invalid pointer) which causes everything to get weird and a crash can pretty much happen at any time.

This can also happen when you mix malloc and new. Switch everything to new and see if you still get your crash.

share|improve this answer
2  
how is it a double free when he never free's and deletes. while you shouldn't mix them there is nothing wrong as long as you always free what you malloc and delete what you new. In his case he ALSO mixes new and malloc for the same members which IS a problem –  UpAndAdam Jul 31 '13 at 23:18
add comment

Assignment operator as a member should return a reference to this If it isn't going to then you probably shouldn't be using the assignment operator.

Commented line aside, another immediate problem with your assignment operator is that you are leaking more memory when you manually build up a new coeff array. You are also returning a third object which is NOT what anyone using the assignment operator would ever expect and this is downright DANGEROUS

Poly& Poly::operator=(const Poly &rhs)
{
    order = rhs.order;
    // you should probably initialize coeff here

    //cout << "new order = " << rhs.order << endl;  ******HERE*******

    for(int i(0); i <= rhs.order; i++)
        coeff[i] = rhs.coeff[i];

    //This is wrong return this. see signature fix above
    //return Poly(order, coeff);
    return *this;

}

Secondly instead of manually mucking about with whatever you are doing in your algebraic operators, copy construct FIRST and then modify THAT object.

for example for multiplication:

//member multiplication which still sucks because we are going to copy construct again to return..
Poly Poly::operator*(const int scale)
{
    Poly result(*this);
    // now manipulate your new object and leave THIS this alone

    for(int i(0); i <= result.order; i++)
        result.coeff[i] *= scale;

    return result;
}

Even better if you make this a non member function and then create a member function *=operator and then you can do as Ben and I envisioned

Poly operator*(Poly result, int scale)
{
    return (result *= scale);
}

The major issue as I see is you are wildly leaking memory and never have any bounds protection on it.

share|improve this answer
1  
@greatwolf, thanks for the catch there! –  UpAndAdam Jul 31 '13 at 23:30
    
Your latter code snippet looks like an example of exactly what you told him NOT to do, as it modifies members of this. Actually, a better way to write that would be Poly operator*(Poly result, const int scale) { result *= scale; return result; } –  Ben Voigt Jul 31 '13 at 23:31
    
@BenVoigt Thanks, made a typo and omitted 'result.' in there, and accidentally repasted his old stuff in while fixing something else. I would have done that and was going to, but he doesnt have a *= eihter so i didnt want to jump there... but that's exactly what I would have done. –  UpAndAdam Jul 31 '13 at 23:34
    
I didn't go in to the optimization that we should pass by reference here... and return by reference.. –  UpAndAdam Jul 31 '13 at 23:52
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