to create a polynomial object the following file is provided

for some reason when I read in the file :

```
3
3 5
-2 3
1 0
3
-3 5
5 3
-7 1
-2
```

It won't write to the object correctly, for example the first number is how many terms, which is read in correctly the next number, 3, is the coefficient, and the next number, 5, is the exponent.

The numbers read in correctly but won't write to the coeff and expon object. The code not provided here was written by the teacher and is really simple anyway so I won't include it.

```
#include <cstdlib>
#include <iostream>
#include <fstream>
#include <math.h>
#include <string>
using namespace std;
class Term
{
private:
float coeff;
int expon;
public:
Term(); // --- Creates empty Term
Term(float c, int e); // --- Creates Term object with coeff. c
//and expon. e
float getCoeff(void); // --- returns coeff of term
int getExpon(void); // --- returns expon of term
void setCoeff(float c); // --- sets term's coeff. to c
void setExpon(int c); // --- sets term's expon to c
};
class Poly
{
public:
//Constructors
Poly(); // creates empty polynomial
Poly(const Poly &poly); // copy constructor
~Poly(); // destructor free dynamically allocate ptrs.
//Member Functions
void insertTerm(Term t); // inserts Term t into polynomial
//Accessors
int getNumTerms(void); // returns number of terms in array
Term getTerm(int index); // returns term at index
//Mutators
void setNumTerms(int numberOfTerms);
//Overloaded Operators
Poly& operator = (const Poly& rightSide);//overloaded assignment operator
float operator () (float x);
private:
int numTerms; // number of terms in polynomial
int maxItems; // array capacity
Term *terms; // dynamically allocated array of terms
};
//Overloaded Operators for Poly Class
ostream& operator << (ostream& outFile, Poly& op1);
istream& operator >> (istream& inFile, Poly& op1);
Poly operator + (Poly& op1, Poly& op2);
//Functions
void error(string msg = "ERROR\n", int errorCode = 1, bool doExit = true);
int main(int argc, char* argv[])
{
//open file
ifstream inFile;
inFile.open("test1.txt");
if (inFile.fail())
{
cout << "open file error " << argv[argc - 1] << endl;
exit(1);
}
Poly f;
Poly g;
Poly p;
int value (0); // value of x for evaluation
inFile >> f;
inFile >> g;
cout << "F(x) = " << f << endl;
cout << "G(x) = " << g << endl;
// make copies of the polynomials
Poly temp1(f);
Poly temp2(g);
// add polynomials f and g
p = f + g;
cout << "\nP(x) = (F + G)(x) = " << p << endl;
// read in a value for X
inFile >> value;
// evaluate the polynomial
cout << "P(" << value << ") = " << p(value) << endl << endl;
// swap temp1 and temp2 - shouldn't change f & g
Poly temp3(temp2);
temp2 = temp1;
temp1 = temp3;
// Insert a new term 8x^6
temp1.insertTerm(Term(8,6));
cout << "temp1(x) is same as 8x^6 + G(x) or " << temp1 << endl;
cout << "temp2(x) is same as F(x) or " << temp2 << endl;
cout << "temp3(x) is same as G(x) or " << temp3 << endl << endl;
cout << "Original functions were:" << endl;
cout << "F(x) = " << f << endl;
cout << "G(x) = " << g << endl;
inFile.close();
return 0;
}
/***********************************************************************
* overloaded >> operator that reads an entire polynomial into an array
* of Terms in the proper order.
***********************************************************************/
istream& operator >> (istream& inFile, Poly& op1)
{
int numTerms;
int expon;
float coeff;
int i = 0;
//get number of terms
inFile >> numTerms;
if (numTerms < 1)
error("numTerms < 1\n", 2);
else
op1.setNumTerms(numTerms);
//read in terms
while (i < op1.getNumTerms())
{
//get coefficient check for valid term
inFile >> coeff;
if (inFile.fail())
{
error("inFile.fail() -- coeff\n", 3);
exit(1);
}
cerr << op1.getTerm(i).getCoeff() << endl;
op1.getTerm(i).setCoeff(coeff);
cerr << op1.getTerm(i).getCoeff() << endl;
//get exponent and check for valid term
inFile >> expon;
if (inFile.fail())
{
error("inFile.fail() -- expon\n", 4);
exit(2);
}
op1.getTerm(i).setExpon(expon);
i++;
}
i = op1.getNumTerms();
op1.getTerm(i).setCoeff(0);
return inFile;
}
/*****************************************************************************
* error function produces error code
****************************************************************************/
void error(string msg, int errorCode, bool doExit)
{
cout << "*** ERROR ***\n"
<< msg << endl
<< "*** END ERROR ***\n";
if (doExit == true)
exit(errorCode);
```

}

`setCoeff`

, etc.). Good luck! – JaredC Feb 14 '13 at 2:16