You guys have got to be sick of these C++ noobs coming in here asking for homework help but thats what Im going to have to do because I am totally lost....I was following pretty good till we got to overloading and passing things polymorphicly

Anyway the point of this homework assignment is to take an already created payrole program that sends information up polymorphically depending on the position of the employee. We are supposed to modify it to contain a birthdate variable in the employee class and have a date passed from the main program to the employee class for each employee and if this month is their birthday it's supposed to give them a $100 bonus. Well I can't even get it to pass the date all the way to employee without getting some weird linking error. I have no idea how to fix them. I hear they are caused when I have a function that doesn't get called or something like that...not sure if thats what I'm doing or not but here is the code im working with. I apologize in advanced for how much im going to give you but being that the complier doesn't tell me where exactly im doing something wrong I have to post everything to be sure i can get a straight answer...


HEADERS
BasePlusCommissionEmployee.h

#ifndef BASEPLUS_H
#define BASEPLUS_H

#include "CommissionEmployee.h" // CommissionEmployee class definition
#include "Date.h"

class BasePlusCommissionEmployee : public CommissionEmployee 
{
public:
   BasePlusCommissionEmployee( const string &, const string &,
      const string &, Date & , double = 0.0, double = 0.0, double = 0.0 );// add date values here

   void setBaseSalary( double ); // set base salary
   double getBaseSalary() const; // return base salary

   // keyword virtual signals intent to override
   virtual double earnings() const; // calculate earnings
   virtual void print() const; // print BasePlusCommissionEmployee object
private:
   double baseSalary; // base salary per week
}; // end class BasePlusCommissionEmployee

#endif // BASEPLUS_H

CommissionEmployee.h

// Fig. 13.19: CommissionEmployee.h
// CommissionEmployee class derived from Employee.
#ifndef COMMISSION_H
#define COMMISSION_H

#include "Employee.h" // Employee class definition

class CommissionEmployee : public Employee 
{
public:
   CommissionEmployee( const string &, const string &,
      const string &, Date &, double = 0.0, double = 0.0 );// add date values here

   void setCommissionRate( double ); // set commission rate
   double getCommissionRate() const; // return commission rate

   void setGrossSales( double ); // set gross sales amount
   double getGrossSales() const; // return gross sales amount

   // keyword virtual signals intent to override
   virtual double earnings() const; // calculate earnings
   virtual void print() const; // print CommissionEmployee object
private:
   double grossSales; // gross weekly sales
   double commissionRate; // commission percentage
}; // end class CommissionEmployee

#endif // COMMISSION_H

Date.h

// Fig. 11.12: Date.h
// Date class definition.
#ifndef DATE_H
#define DATE_H

#include <iostream>
using std::ostream;

class Date
{
   friend ostream &operator<<( ostream &, const Date & );
public:
   Date( int m = 1, int d = 1, int y = 1900 ); // default constructor
   Date( Date &);
   void setDate( int, int, int ); // set month, day, year
   Date &operator++(); // prefix increment operator
   Date operator++( int ); // postfix increment operator
   const Date &operator+=( int ); // add days, modify object
   bool leapYear( int ) const; // is date in a leap year?
   bool endOfMonth( int ) const; // is date at the end of month?
private:
   int month;
   int day;
   int year;

   static const int days[]; // array of days per month
   void helpIncrement(); // utility function for incrementing date
}; // end class Date

#endif

Employee.h

// Fig. 13.13: Employee.h
// Employee abstract base class.
#ifndef EMPLOYEE_H
#define EMPLOYEE_H

#include <string> // C++ standard string class
using std::string;

#include "Date.h"
class Employee 
{
public:
   Employee( const string &, const string &, const string &, Date & );

   void setFirstName( const string & ); // set first name
   string getFirstName() const; // return first name

   void setLastName( const string & ); // set last name
   string getLastName() const; // return last name

   void setSocialSecurityNumber( const string & ); // set SSN
   string getSocialSecurityNumber() const; // return SSN

   void setBirthDate(Date &);

   // pure virtual function makes Employee abstract base class
   virtual double earnings() const = 0; // pure virtual
   virtual void print() const; // virtual
private:
   string firstName;
   string lastName;
   string socialSecurityNumber;
   Date &birthDate;
}; // end class Employee

#endif // EMPLOYEE_H

HourlyEmployee.h

// Fig. 13.17: HourlyEmployee.h
// HourlyEmployee class definition.
#ifndef HOURLY_H
#define HOURLY_H

#include "Employee.h" // Employee class definition

class HourlyEmployee : public Employee 
{
public:
   HourlyEmployee( const string &, const string &, 
      const string &, Date &, double = 0.0, double = 0.0);// add date values here
   
   void setWage( double ); // set hourly wage
   double getWage() const; // return hourly wage

   void setHours( double ); // set hours worked
   double getHours() const; // return hours worked

   // keyword virtual signals intent to override
   virtual double earnings() const; // calculate earnings
   virtual void print() const; // print HourlyEmployee object
private:
   double wage; // wage per hour
   double hours; // hours worked for week
}; // end class HourlyEmployee

#endif // HOURLY_H

SalariedEmployee.h

// Fig. 13.15: SalariedEmployee.h
// SalariedEmployee class derived from Employee.
#ifndef SALARIED_H
#define SALARIED_H

#include "Employee.h" // Employee class definition

#include <string> // C++ standard string class
using std::string;
class SalariedEmployee : public Employee 
{
public:
   SalariedEmployee( const string &, const string &, 
      const string &, Date &, double = 0.0);// add date values here

   void setWeeklySalary( double ); // set weekly salary
   double getWeeklySalary() const; // return weekly salary

   // keyword virtual signals intent to override
   virtual double earnings() const; // calculate earnings
   virtual void print() const; // print SalariedEmployee object
private:
   double weeklySalary; // salary per week
}; // end class SalariedEmployee

#endif // SALARIED_H

SOURCE FILES

BasePlusCommissionEmployee.cpp

// Fig. 13.22: BasePlusCommissionEmployee.cpp
// BasePlusCommissionEmployee member-function definitions.
#include <iostream>
using std::cout;

// BasePlusCommissionEmployee class definition
#include "BasePlusCommissionEmployee.h"

// constructor 
BasePlusCommissionEmployee::BasePlusCommissionEmployee( 
   const string &first, const string &last, const string &ssn, Date &d, 
   double sales, double rate, double salary )// add date values here
   : CommissionEmployee( first, last, ssn, d, sales, rate )  
{
   setBaseSalary( salary ); // validate and store base salary
} // end BasePlusCommissionEmployee constructor

// set base salary
void BasePlusCommissionEmployee::setBaseSalary( double salary )
{ 
   baseSalary = ( ( salary < 0.0 ) ? 0.0 : salary ); 
} // end function setBaseSalary

// return base salary
double BasePlusCommissionEmployee::getBaseSalary() const
{ 
    return baseSalary; 
} // end function getBaseSalary

// calculate earnings;
// override pure virtual function earnings in Employee
double BasePlusCommissionEmployee::earnings() const
{ 
    return getBaseSalary() + CommissionEmployee::earnings(); 
} // end function earnings

// print BasePlusCommissionEmployee's information 
void BasePlusCommissionEmployee::print() const
{
   cout << "base-salaried ";
   CommissionEmployee::print(); // code reuse
   cout << "; base salary: " << getBaseSalary();
} // end function print

CommissionEmployee.h

// Fig. 13.19: CommissionEmployee.h
// CommissionEmployee class derived from Employee.
#ifndef COMMISSION_H
#define COMMISSION_H

#include "Employee.h" // Employee class definition

class CommissionEmployee : public Employee 
{
public:
   CommissionEmployee( const string &, const string &,
      const string &, Date &, double = 0.0, double = 0.0 );// add date values here

   void setCommissionRate( double ); // set commission rate
   double getCommissionRate() const; // return commission rate

   void setGrossSales( double ); // set gross sales amount
   double getGrossSales() const; // return gross sales amount

   // keyword virtual signals intent to override
   virtual double earnings() const; // calculate earnings
   virtual void print() const; // print CommissionEmployee object
private:
   double grossSales; // gross weekly sales
   double commissionRate; // commission percentage
}; // end class CommissionEmployee

#endif // COMMISSION_H

Date.cpp

// Fig. 11.13: Date.cpp
// Date class member-function definitions.
#include <iostream>
#include "Date.h"

// initialize static member at file scope; one classwide copy
const int Date::days[] = 
   { 0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };

// Date constructor
Date::Date( int m, int d, int y ) 
{ 
   setDate( m, d, y ); 
} // end Date constructor


// set month, day and year
void Date::setDate( int mm, int dd, int yy )
{
   month = ( mm >= 1 && mm <= 12 ) ? mm : 1;
   year = ( yy >= 1900 && yy <= 2100 ) ? yy : 1900;

   // test for a leap year
   if ( month == 2 && leapYear( year ) )
      day = ( dd >= 1 && dd <= 29 ) ? dd : 1;
   else
      day = ( dd >= 1 && dd <= days[ month ] ) ? dd : 1;
} // end function setDate

// overloaded prefix increment operator 
Date &Date::operator++()
{
   helpIncrement(); // increment date
   return *this; // reference return to create an lvalue
} // end function operator++

// overloaded postfix increment operator; note that the  
// dummy integer parameter does not have a parameter name
Date Date::operator++( int )
{
   Date temp = *this; // hold current state of object
   helpIncrement(); 

   // return unincremented, saved, temporary object
   return temp; // value return; not a reference return
} // end function operator++

// add specified number of days to date
const Date &Date::operator+=( int additionalDays )
{
   for ( int i = 0; i < additionalDays; i++ )
      helpIncrement();

   return *this; // enables cascading
} // end function operator+=

// if the year is a leap year, return true; otherwise, return false
bool Date::leapYear( int testYear ) const
{
   if ( testYear % 400 == 0 || 
      ( testYear % 100 != 0 && testYear % 4 == 0 ) )
      return true; // a leap year
   else
      return false; // not a leap year
} // end function leapYear

// determine whether the day is the last day of the month
bool Date::endOfMonth( int testDay ) const
{
   if ( month == 2 && leapYear( year ) )
      return testDay == 29; // last day of Feb. in leap year
   else
      return testDay == days[ month ];
} // end function endOfMonth

// function to help increment the date
void Date::helpIncrement()
{
   // day is not end of month
   if ( !endOfMonth( day ) )
      day++; // increment day
   else 
      if ( month < 12 ) // day is end of month and month < 12
      {
         month++; // increment month
         day = 1; // first day of new month
      } // end if
      else // last day of year
      {
         year++; // increment year
         month = 1; // first month of new year
         day = 1; // first day of new month
      } // end else
} // end function helpIncrement

// overloaded output operator
ostream &operator<<( ostream &output, const Date &d )
{
   static char *monthName[ 13 ] = { "", "January", "February",
      "March", "April", "May", "June", "July", "August",
      "September", "October", "November", "December" };
   output << monthName[ d.month ] << ' ' << d.day << ", " << d.year;
   return output; // enables cascading
} // end function operator<<

Employee.cpp

// Fig. 13.14: Employee.cpp
// Abstract-base-class Employee member-function definitions.
// Note: No definitions are given for pure virtual functions.
#include <iostream>
using std::cout;

#include "Employee.h" // Employee class definition
#include "Date.h"

// constructor
Employee::Employee( const string &first, const string &last,
   const string &ssn, Date &d )
   : firstName( first ), lastName( last ), socialSecurityNumber( ssn ), birthDate( d )
{
    
   // empty body 
} // end Employee constructor

// set first name
void Employee::setFirstName( const string &first ) 
{ 
   firstName = first;  
} // end function setFirstName

// return first name
string Employee::getFirstName() const 
{ 
   return firstName;  
} // end function getFirstName

// set last name
void Employee::setLastName( const string &last )
{
   lastName = last;   
} // end function setLastName

// return last name
string Employee::getLastName() const
{
   return lastName;   
} // end function getLastName

// set social security number
void Employee::setSocialSecurityNumber( const string &ssn )
{
   socialSecurityNumber = ssn; // should validate
} // end function setSocialSecurityNumber

// return social security number
string Employee::getSocialSecurityNumber() const
{
   return socialSecurityNumber;   
} // end function getSocialSecurityNumber

void Employee::setBirthDate(Date &d)
{
    birthDate = d;    
};

// print Employee's information (virtual, but not pure virtual)
void Employee::print() const
{ 
   cout << getFirstName() << ' ' << getLastName() 
      << "\nsocial security number: " << getSocialSecurityNumber()
      << "\nBirthday: " << &birthDate;
} // end function print

HourlyEmployee.cpp

// Fig. 13.18: HourlyEmployee.cpp
// HourlyEmployee class member-function definitions.
#include <iostream>
using std::cout;

#include "HourlyEmployee.h" // HourlyEmployee class definition
#include "Date.h"

// constructor
HourlyEmployee::HourlyEmployee( const string &first, const string &last, 
   const string &ssn, Date &d, double hourlyWage, double hoursWorked )// add date values here
   : Employee( first, last, ssn, d )   
{
   setWage( hourlyWage ); // validate hourly wage
   setHours( hoursWorked ); // validate hours worked
} // end HourlyEmployee constructor

// set wage
void HourlyEmployee::setWage( double hourlyWage ) 
{ 
   wage = ( hourlyWage < 0.0 ? 0.0 : hourlyWage ); 
} // end function setWage

// return wage
double HourlyEmployee::getWage() const
{
   return wage;
} // end function getWage

// set hours worked
void HourlyEmployee::setHours( double hoursWorked )
{ 
   hours = ( ( ( hoursWorked >= 0.0 ) && ( hoursWorked <= 168.0 ) ) ?
      hoursWorked : 0.0 );
} // end function setHours

// return hours worked
double HourlyEmployee::getHours() const
{
   return hours;
} // end function getHours

// calculate earnings;
// override pure virtual function earnings in Employee
double HourlyEmployee::earnings() const 
{ 
   if ( getHours() <= 40 ) // no overtime
      return getWage() * getHours();
   else               
      return 40 * getWage() + ( ( getHours() - 40 ) * getWage() * 1.5 );
} // end function earnings

// print HourlyEmployee's information 
void HourlyEmployee::print() const
{
   cout << "hourly employee: ";
   Employee::print(); // code reuse
   cout << "\nhourly wage: " << getWage() << 
      "; hours worked: " << getHours();
} // end function print

SalariedEmployee.cpp

// Fig. 13.16: SalariedEmployee.cpp
// SalariedEmployee class member-function definitions.
#include <iostream>
using std::cout;

#include "SalariedEmployee.h" // SalariedEmployee class definition
#include "Date.h"

// constructor 
SalariedEmployee::SalariedEmployee( const string &first, 
   const string &last, const string &ssn, Date &d, double salary )// add date values here
   : Employee( first, last, ssn, d )
{ 
   setWeeklySalary( salary ); 
} // end SalariedEmployee constructor

// set salary
void SalariedEmployee::setWeeklySalary( double salary )
{ 
   weeklySalary = ( salary < 0.0 ) ? 0.0 : salary; 
} // end function setWeeklySalary

// return salary
double SalariedEmployee::getWeeklySalary() const
{
   return weeklySalary;
} // end function getWeeklySalary

// calculate earnings; 
// override pure virtual function earnings in Employee
double SalariedEmployee::earnings() const 
{ 
   return getWeeklySalary(); 
} // end function earnings

// print SalariedEmployee's information 
void SalariedEmployee::print() const
{
   cout << "salaried employee: ";
   Employee::print(); // reuse abstract base-class print function
   cout << "\nweekly salary: " << getWeeklySalary();
} // end function print

fig13_23.cpp

// Fig. 13.23: fig13_23.cpp
// Processing Employee derived-class objects individually 
// and polymorphically using dynamic binding.
#include <iostream>
using std::cout;
using std::endl;
using std::fixed;

#include <iomanip>
using std::setprecision;
  
#include <vector>
using std::vector;

// include definitions of classes in Employee hierarchy
#include "Employee.h"
#include "SalariedEmployee.h" 
#include "HourlyEmployee.h"
#include "CommissionEmployee.h"  
#include "BasePlusCommissionEmployee.h"
#include "Date.h"

void virtualViaPointer( const Employee * const ); // prototype
void virtualViaReference( const Employee & ); // prototype

int main()
{
Date JSmith(2,14,1976);
Date KPrice(12,16,1981);
Date SJones(11,06,1987);
Date BLewis(10,10,1981);
   
Date currentDate(10,3,2006);
// set floating-point output formatting
   cout << fixed << setprecision( 2 );

   // create derived-class objects
   SalariedEmployee salariedEmployee( 
      "John", "Smith", "111-11-1111", JSmith, 800 );// add date values here
   HourlyEmployee hourlyEmployee( 
      "Karen", "Price", "222-22-2222", KPrice, 16.75, 40 );// add date values here
   CommissionEmployee commissionEmployee( 
      "Sue", "Jones", "333-33-3333", SJones, 10000, .06 );// add date values here
   BasePlusCommissionEmployee basePlusCommissionEmployee( 
      "Bob", "Lewis", "444-44-4444", BLewis, 5000, .04, 300 );// add date values here
   
   cout << JSmith << "\n\n" 
        << KPrice << "\n\n"
        << SJones << "\n\n"
        << BLewis;

   // output each Employee’s information and earnings using static binding
   salariedEmployee.print();
   cout << "\nearned $" << salariedEmployee.earnings() << "\n\n";
   hourlyEmployee.print(); 
   cout << "\nearned $" << hourlyEmployee.earnings() << "\n\n";
   commissionEmployee.print();
   cout << "\nearned $" << commissionEmployee.earnings() << "\n\n";
   basePlusCommissionEmployee.print();
   cout << "\nearned $" << basePlusCommissionEmployee.earnings() 
      << "\n\n";

   // create vector of four base-class pointers
   vector < Employee * > employees( 4 );

   // initialize vector with Employees
   employees[ 0 ] = &salariedEmployee;
   employees[ 1 ] = &hourlyEmployee;
   employees[ 2 ] = &commissionEmployee;
   employees[ 3 ] = &basePlusCommissionEmployee;

   cout << "Employees processed polymorphically via dynamic binding:\n\n";

   // call virtualViaPointer to print each Employee's information
   // and earnings using dynamic binding
   cout << "Virtual function calls made off base-class pointers:\n\n";

   for ( size_t i = 0; i < employees.size(); i++ )
      virtualViaPointer( employees[ i ] );

   // call virtualViaReference to print each Employee's information 
   // and earnings using dynamic binding
   cout << "Virtual function calls made off base-class references:\n\n";

   for ( size_t i = 0; i < employees.size(); i++ )    
      virtualViaReference( *employees[ i ] ); // note dereferencing

   return 0;
} // end main

// call Employee virtual functions print and earnings off a 
// base-class pointer using dynamic binding
void virtualViaPointer( const Employee * const baseClassPtr )
{
   baseClassPtr->print();
   cout << "\nearned $" << baseClassPtr->earnings() << "\n\n";
} // end function virtualViaPointer

// call Employee virtual functions print and earnings off a 
// base-class reference using dynamic binding
void virtualViaReference( const Employee &baseClassRef )
{
   baseClassRef.print();
   cout << "\nearned $" << baseClassRef.earnings() << "\n\n";
} // end function virtualViaReference

Again i'm sorry for the monsterious amount of code but I didn't know what else to do. I'm falling way behind in this class and I'm getting really frustrated. I'm usually good at understanding programs...

Anyway here is the build log when i try to compile that:

------ Build started: Project: homework13_12, Configuration: Debug Win32 ------
Compiling...
SalariedEmployee.cpp
HourlyEmployee.cpp
fig13_23.cpp
Employee.cpp
Date.cpp
CommissionEmployee.cpp
BasePlusCommissionEmployee.cpp
Generating Code...
Linking...
Date.obj : error LNK2028: unresolved token (0A00028C) "public: __thiscall Date::Date(class Date &)" (??0Date@@$$FQAE@AAV0@@Z) referenced in function "public: class Date __thiscall Date::operator++(int)" (??EDate@@$$FQAE?AV0@H@Z)
Date.obj : error LNK2019: unresolved external symbol "public: __thiscall Date::Date(class Date &)" (??0Date@@$$FQAE@AAV0@@Z) referenced in function "public: class Date __thiscall Date::operator++(int)" (??EDate@@$$FQAE?AV0@H@Z)
G:\C++\homework\homework13_12_2\Debug\homework13_12.exe : fatal error LNK1120: 2 unresolved externals
Build log was saved at "file://g:\C++\homework\homework13_12_2\homework13_12_2\Debug\BuildLog.htm"
homework13_12 - 3 error(s), 0 warning(s)
========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========

Please help if you can.

Recommended Answers

All 3 Replies

>> Date.obj : error LNK2028: unresolved token (0A00028C) "public: __thiscall Date::Date(class Date &)" (??0Date@@$$FQAE@AAV0@@Z)

The above error (and similar other ones) is telling you that you forgot to code one of the Date constructors. If you look in Date.h you will find that it has two constructurs -- but in Date.cpp only one of them was coded. You need to implement the missing one.

Wow that could not have been more simple! *smacks head* thanks a lot! Now I just gotta get the rest of the program working...

Member Avatar for iamthwee

Ha ha, how many header files you got there kiddo. Looks a bit like overkill to me.

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