//********************************************************
//
// Assignment 9 - Linked Lists
//
// Name: John Semenuk
//
// Class: C Programming, Spring 2026
//
// Date: April 9, 2026
//
// Description: Program which determines overtime and 
// gross pay for a set of employees with outputs sent 
// to standard output (the screen).
//
// This assignment also adds the employee name, their tax state,
// and calculates the state tax, federal tax, and net pay.   It
// also calculates totals, averages, minimum, and maximum values.
//
// Array and Structure references have all been replaced with
// pointer references to speed up the processing of this code.
// A linked list has been created and deployed to dynamically
// allocate and process employees as needed.
//
// Call by Reference design (using pointers)
//
//********************************************************
 
// necessary header files
#include <stdio.h>
#include <string.h>
#include <ctype.h>   // for char functions
#include <stdlib.h>  // for malloc
 
// define constants
#define STD_HOURS 40.0
#define OT_RATE 1.5
#define MA_TAX_RATE 0.05
#define NH_TAX_RATE 0.0
#define VT_TAX_RATE 0.06
#define CA_TAX_RATE 0.07
#define DEFAULT_TAX_RATE 0.08
#define NAME_SIZE 20
#define TAX_STATE_SIZE 3
#define FED_TAX_RATE 0.25
#define FIRST_NAME_SIZE 10
#define LAST_NAME_SIZE 10
 
// Define a global structure type to store an employee name
struct name
{
    char firstName[FIRST_NAME_SIZE];
    char lastName [LAST_NAME_SIZE];
};
 
// Define a global structure type to pass employee data between functions
struct employee
{
    struct name empName;
    char taxState [TAX_STATE_SIZE];
    long int clockNumber;
    float wageRate;
    float hours;
    float overtimeHrs;
    float grossPay;
    float stateTax;
    float fedTax;
    float netPay;
    struct employee * next;
};
 
// this structure type defines the totals of all floating point items
struct totals
{
    float total_wageRate;
    float total_hours;
    float total_overtimeHrs;
    float total_grossPay;
    float total_stateTax;
    float total_fedTax;
    float total_netPay;
};
 
// this structure type defines the min and max values of all floating
struct min_max
{
    float min_wageRate;
    float min_hours;
    float min_overtimeHrs;
    float min_grossPay;
    float min_stateTax;
    float min_fedTax;
    float min_netPay;
    float max_wageRate;
    float max_hours;
    float max_overtimeHrs;
    float max_grossPay;
    float max_stateTax;
    float max_fedTax;
    float max_netPay;
};
 
// define prototypes here for each function except main
struct employee * getEmpData (void);
int isEmployeeSize (struct employee * head_ptr);
void calcOvertimeHrs (struct employee * head_ptr);
void calcGrossPay (struct employee * head_ptr);
void printHeader (void);
void printEmp (struct employee * head_ptr);
void calcStateTax (struct employee * head_ptr);
void calcFedTax (struct employee * head_ptr);
void calcNetPay (struct employee * head_ptr);
void calcEmployeeTotals (struct employee * head_ptr,
                         struct totals * emp_totals_ptr);
 
void calcEmployeeMinMax (struct employee * head_ptr,
                         struct min_max * emp_minMax_ptr);
 
void printEmpStatistics (struct totals * emp_totals_ptr, 
                         struct min_max * emp_minMax_ptr,
                         int theSize);
 
int main ()
{
 
    struct employee * head_ptr; // always points to first linked list node
    int theSize; // number of employees processed
 
    struct totals employeeTotals  = {0,0,0,0,0,0,0};
    struct totals * emp_totals_ptr = &employeeTotals;
 
    struct min_max employeeMinMax = {0,0,0,0,0,0,0,0,0,0,0,0,0,0};
    struct min_max * emp_minMax_ptr = &employeeMinMax;
 
    head_ptr = getEmpData ();
 
    theSize = isEmployeeSize (head_ptr);
 
    if (theSize <= 0)
    {
        printf("\n\n**** There was no employee input to process ***\n");
    }
 
    else
    {    
        calcOvertimeHrs (head_ptr);
        calcGrossPay (head_ptr); 
        calcStateTax (head_ptr);
        calcFedTax (head_ptr);
        calcNetPay (head_ptr); 
        calcEmployeeTotals (head_ptr, &employeeTotals);
        calcEmployeeMinMax (head_ptr, &employeeMinMax);
        printHeader();
        printEmp (head_ptr); 
        printEmpStatistics (&employeeTotals, &employeeMinMax, theSize);
    }
 
    printf ("\n\n *** End of Program *** \n");
    return (0);
}
 
//**************************************************************
// Function: getEmpData 
// 
// Purpose: Obtains input from user: employee name (first an last), 
//          tax state, clock number, hourly wage, and hours worked
//          in a given week.
//
//          Information in stored in a dynamically created linked
//          list for all employees.
//          
// Parameters: void
// 
// Returns:
//
//    head_ptr - a pointer to the beginning of the dynamically
//               created linked list that contains the initial
//               input for each employee.
//  
//**************************************************************
struct employee * getEmpData (void)
{
    char answer[80];   // user prompt response  
    int more_data = 1; // a flag to indicate if another employee
                      // needs to be processed
    char value;       // the first char of the user prompt response  
 
    struct employee *current_ptr, *head_ptr; // pointer to current node
    head_ptr = (struct employee *) malloc (sizeof(struct employee));
    current_ptr = head_ptr;
  // process while there is still input
    while (more_data)
    {
 
        // read in employee first and last name
        printf ("\nEnter employee first name: ");
        scanf ("%s", current_ptr->empName.firstName);
        printf ("\nEnter employee last name: ");
        scanf ("%s", current_ptr->empName.lastName);
        // read in employee tax state
        printf ("\nEnter employee two character tax state: ");
        scanf ("%s", current_ptr->taxState);
        // read in employee clock number
        printf("\nEnter employee clock number: ");
        scanf("%li", & current_ptr -> clockNumber);
        // read in employee wage rate
        printf("\nEnter employee hourly wage: ");
        scanf("%f", & current_ptr -> wageRate);
        // read in employee hours worked
        printf("\nEnter hours worked this week: ");
        scanf("%f", & current_ptr -> hours);
        // ask user if they would like to add another employee
        printf("\nWould you like to add another employee? (y/n): ");
        scanf("%s", answer);
 
        // check first character for a 'Y' for yes
        // Ask user if they want to add another employee
 
        if ((value = toupper(answer[0])) != 'Y')
        {
           // no more employees to process
           current_ptr->next = (struct employee *) NULL;
           more_data = 0; 
        }
        else // Yes, another employee
        {
           // set the next pointer of the current node to point to the new node
           current_ptr->next = (struct employee *) malloc (sizeof(struct employee));
            // move the current node pointer to the new node
           current_ptr = current_ptr->next;
        }
    }
    return(head_ptr);
}
 
//*************************************************************
// Function: isEmployeeSize
//
// Purpose: Traverses the linked list and keeps a running count
//          on how many employees are currently in our list. 
//
// Parameters:
//
//   head_ptr - pointer to the initial node in our linked list
//
// Returns:
//
//   theSize - the number of employees in our linked list
//
//**************************************************************//*************************************************************
int isEmployeeSize (struct employee * head_ptr)
{
    struct employee * current_ptr; // pointer to current node
    int theSize;                   // number of link list nodes
                                   // (i.e., employees)
 
    theSize = 0; // initialize
    // assume there is no data if the first node does
    // not have an employee name
 
    if (head_ptr->empName.firstName[0] != '\0')
    {
        // traverse through the linked list, keep a running count of nodes
 
        for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
        {  
            ++theSize;   // employee node found, increment
        }
    }
    return (theSize);
}
 
//**************************************************************
// Function: printHeader
// 
// Purpose: Prints the initial table header information.
// 
// Parameters: none
// 
// Returns: void
//  
//**************************************************************
void printHeader (void) 
{ 
    printf ("\n\n*** Pay Calculator ***\n");
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
    printf("\nName                Tax  Clock# Wage   Hours  OT   Gross ");
    printf("  State  Fed      Net");
    printf("\n                   State                           Pay   ");
    printf("  Tax    Tax      Pay");
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
}// printHeader
 
//************************************************************* 
// Function: printEmp 
// 
// Purpose: Prints out all the information for each employee
//          in a nice and orderly table format.
// 
// Parameters: 
//
//   head_ptr - pointer to the beginning of our linked list
// 
// Returns: void
//  
//**************************************************************
void printEmp (struct employee * head_ptr)
{
 
 
     // Used to format the employee name
    char name [FIRST_NAME_SIZE + LAST_NAME_SIZE + 1];
    struct employee * current_ptr;  // pointer to current node
     // traverse through the linked list to process each employee
 
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        strcpy (name, current_ptr->empName.firstName);
        strcat (name, " "); 
        strcat (name, current_ptr->empName.lastName);
        // Print out current employee in the current linked list node
        printf("\n%-20.20s %-2.2s  %06li %5.2f  %4.1f  %4.1f %7.2f %6.2f %7.2f %8.2f",
               name, current_ptr->taxState, current_ptr->clockNumber, 
               current_ptr->wageRate, current_ptr->hours,
               current_ptr->overtimeHrs, current_ptr->grossPay, 
               current_ptr->stateTax, current_ptr->fedTax, 
               current_ptr->netPay);
    }// for
}// printEmp
 
//************************************************************* 
// Function: printEmpStatistics 
// 
// Purpose: Prints out the summary totals and averages of all 
//          floating point value items for all employees
//          that have been processed.  It also prints
//          out the min and max values.
// 
// Parameters: 
//
//   emp_totals_ptr - pointer to a structure containing a running total 
//                    of all employee floating point items
//
//   emp_minMax_ptr - pointer to a structure containing
//                    the minimum and maximum values of all
//                    employee floating point items
//
//   theSize - the total number of employees processed, used 
//             to check for zero or negative divide condition.
// 
// Returns: void
//  
//**************************************************************
void printEmpStatistics (struct totals   * emp_totals_ptr,
                         struct min_max  * emp_minMax_ptr,
                         int theSize)
{
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
 
    printf("\nTotals:                         %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_totals_ptr->total_wageRate,
           emp_totals_ptr->total_hours,
           emp_totals_ptr->total_overtimeHrs,
           emp_totals_ptr->total_grossPay,
           emp_totals_ptr->total_stateTax,
           emp_totals_ptr->total_fedTax,
           emp_totals_ptr->total_netPay);
 
    if (theSize > 0)       
    {
        printf("\nAverages:                       %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
               emp_totals_ptr->total_wageRate/theSize,
               emp_totals_ptr->total_hours/theSize,
               emp_totals_ptr->total_overtimeHrs/theSize,
               emp_totals_ptr->total_grossPay/theSize,
               emp_totals_ptr->total_stateTax/theSize,
               emp_totals_ptr->total_fedTax/theSize,
               emp_totals_ptr->total_netPay/theSize);
    }
 
    printf("\nMinimum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_minMax_ptr->min_wageRate,
           emp_minMax_ptr->min_hours,
           emp_minMax_ptr->min_overtimeHrs,
           emp_minMax_ptr->min_grossPay,
           emp_minMax_ptr->min_stateTax,
           emp_minMax_ptr->min_fedTax,
           emp_minMax_ptr->min_netPay);
 
    printf("\nMaximum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_minMax_ptr->max_wageRate,
           emp_minMax_ptr->max_hours,
           emp_minMax_ptr->max_overtimeHrs,
           emp_minMax_ptr->max_grossPay,
           emp_minMax_ptr->max_stateTax,
           emp_minMax_ptr->max_fedTax,
           emp_minMax_ptr->max_netPay);
 
 
     // print out the total employees process      
    printf ("\n\nThe total employees processed was: %i\n", theSize);
}  
 
//*************************************************************
// Function: calcOvertimeHrs
//
// Purpose: Calculates the overtime hours worked by an employee
//          in a given week for each employee.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the overtime hours gets updated by reference)
//
//**************************************************************
void calcOvertimeHrs (struct employee * head_ptr) // pointer to current node
{
    struct employee * current_ptr;
 
     // traverse through the linked list to calculate overtime hours
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {  
         // Any overtime ?
        if (current_ptr->hours >= STD_HOURS)
            current_ptr->overtimeHrs = current_ptr->hours - STD_HOURS;
        else // no overtime
            current_ptr->overtimeHrs = 0;
    } // for
 
 
} // calcOvertimeHrs
 
//*************************************************************
// Function: calcGrossPay
//
// Purpose: Calculates the gross pay based on the the normal pay
//          and any overtime pay for a given week for each
//          employee.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the gross pay gets updated by reference)
//
//**************************************************************
 
 
void calcGrossPay (struct employee * head_ptr)
{
    float theNormalPay;  // normal pay without any overtime hours
    float theOvertimePay; // overtime pay
    struct employee * current_ptr; // pointer to current node
 
    // traverse through the linked list to calculate gross pay
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
          // calculate normal pay and any overtime pay
        theNormalPay = current_ptr->wageRate * (current_ptr->hours - current_ptr->overtimeHrs);
        theOvertimePay = current_ptr->overtimeHrs * (OT_RATE * current_ptr->wageRate);
 
         // calculate gross pay for employee as normalPay + any overtime pay
        current_ptr->grossPay = theNormalPay + theOvertimePay;
    }
}  // calcGrossPay
 
//*************************************************************
//*************************************************************
// Function: calcStateTax
//
// Purpose: Calculates the State Tax owed based on gross pay
//          for each employee.  State tax rate is based on the 
//          the designated tax state based on where the
//          employee is actually performing the work.  Each
//          state decides their tax rate.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the state tax gets updated by reference)
//
//**************************************************************
 
 
void calcStateTax (struct employee * head_ptr)
{
    struct employee * current_ptr; // pointer to current node
 
     // traverse through the linked list to calculate the state tax
 
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
         // Make sure tax state is all uppercase
 
        if (islower(current_ptr->taxState[0]))
            current_ptr->taxState[0] = toupper(current_ptr->taxState[0]);
        if (islower(current_ptr->taxState[1]))
            current_ptr->taxState[1] = toupper(current_ptr->taxState[1]);
 
        if (strcmp(current_ptr->taxState, "MA") == 0)
            current_ptr->stateTax = current_ptr->grossPay * MA_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "NH") == 0)
            current_ptr->stateTax = current_ptr->grossPay * NH_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "VT") == 0)
            current_ptr->stateTax = current_ptr->grossPay * VT_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "CA") == 0)
            current_ptr->stateTax = current_ptr->grossPay * CA_TAX_RATE;
        else
            current_ptr->stateTax = current_ptr->grossPay * DEFAULT_TAX_RATE;
    } // for
}// calcStateTax
 
//*************************************************************
// Function: calcFedTax
//
// Purpose: Calculates the Federal Tax owed based on the gross 
//          pay for each employee
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the federal tax gets updated by reference)
//
//**************************************************************
 
 
void calcFedTax (struct employee * head_ptr)
{
    struct employee * current_ptr;
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        current_ptr->fedTax = current_ptr->grossPay * FED_TAX_RATE;
    }
}
 
//*************************************************************
void calcNetPay (struct employee * head_ptr)
{
    float theTotalTaxes;
    struct employee * current_ptr;
 
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        theTotalTaxes = current_ptr->stateTax + current_ptr->fedTax;
        current_ptr->netPay = current_ptr->grossPay - theTotalTaxes;
    }
}// calcFedTax
 
//*************************************************************
// Function: calcNetPay
//
// Purpose: Calculates the net pay as the gross pay minus any
//          state and federal taxes owed for each employee.
//          Essentially, their "take home" pay.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the net pay gets updated by reference)
//
//**************************************************************
 
 
 
void calcEmployeeTotals (struct employee * head_ptr,
                         struct totals * emp_totals_ptr)
{
    struct employee * current_ptr;// pointer to current node
 
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        emp_totals_ptr->total_wageRate += current_ptr->wageRate;
        emp_totals_ptr->total_hours += current_ptr->hours;
        emp_totals_ptr->total_overtimeHrs += current_ptr->overtimeHrs;
        emp_totals_ptr->total_grossPay += current_ptr->grossPay;
        emp_totals_ptr->total_stateTax += current_ptr->stateTax;
        emp_totals_ptr->total_fedTax += current_ptr->fedTax;
        emp_totals_ptr->total_netPay += current_ptr->netPay;
    }
}
 
//*************************************************************
void calcEmployeeMinMax (struct employee * head_ptr,
                         struct min_max * emp_minMax_ptr)
{
    struct employee * current_ptr;
    current_ptr = head_ptr;
 
    emp_minMax_ptr->min_wageRate = current_ptr->wageRate; 
    emp_minMax_ptr->min_hours = current_ptr->hours;
    emp_minMax_ptr->min_overtimeHrs = current_ptr->overtimeHrs; 
    emp_minMax_ptr->min_grossPay = current_ptr->grossPay;
    emp_minMax_ptr->min_stateTax = current_ptr->stateTax;
    emp_minMax_ptr->min_fedTax = current_ptr->fedTax;
    emp_minMax_ptr->min_netPay = current_ptr->netPay;
 
    emp_minMax_ptr->max_wageRate = current_ptr->wageRate; 
    emp_minMax_ptr->max_hours = current_ptr->hours;
    emp_minMax_ptr->max_overtimeHrs = current_ptr->overtimeHrs;
    emp_minMax_ptr->max_grossPay = current_ptr->grossPay;
    emp_minMax_ptr->max_stateTax = current_ptr->stateTax;
    emp_minMax_ptr->max_fedTax = current_ptr->fedTax;
    emp_minMax_ptr->max_netPay = current_ptr->netPay;
 
    // traverse the linked list
    // compare the rest of the employees to each other for min and max
 
    current_ptr = current_ptr->next;
    // check if current Wage Rate is the new min and/or max
    for (; current_ptr; current_ptr = current_ptr->next) 
    {
        if (current_ptr->wageRate < emp_minMax_ptr->min_wageRate)
            emp_minMax_ptr->min_wageRate = current_ptr->wageRate;
        if (current_ptr->wageRate > emp_minMax_ptr->max_wageRate)
            emp_minMax_ptr->max_wageRate = current_ptr->wageRate;
         // check if current Hours is the new min and/or max
        if (current_ptr->hours < emp_minMax_ptr->min_hours)
            emp_minMax_ptr->min_hours = current_ptr->hours;
        if (current_ptr->hours > emp_minMax_ptr->max_hours)
            emp_minMax_ptr->max_hours = current_ptr->hours;
         // check if current Overtime Hours is the new min and/or max
        if (current_ptr->overtimeHrs < emp_minMax_ptr->min_overtimeHrs)
            emp_minMax_ptr->min_overtimeHrs = current_ptr->overtimeHrs;
        if (current_ptr->overtimeHrs > emp_minMax_ptr->max_overtimeHrs)
            emp_minMax_ptr->max_overtimeHrs = current_ptr->overtimeHrs;
 
        if (current_ptr->grossPay < emp_minMax_ptr->min_grossPay)
            emp_minMax_ptr->min_grossPay = current_ptr->grossPay;
        if (current_ptr->grossPay > emp_minMax_ptr->max_grossPay)
            emp_minMax_ptr->max_grossPay = current_ptr->grossPay;
        // check if current Gross Pay is the new min and/or max
        if (current_ptr->stateTax < emp_minMax_ptr->min_stateTax)
            emp_minMax_ptr->min_stateTax = current_ptr->stateTax;
        if (current_ptr->stateTax > emp_minMax_ptr->max_stateTax)
            emp_minMax_ptr->max_stateTax = current_ptr->stateTax;
         // check if current State Tax is the new min and/or max
        if (current_ptr->fedTax < emp_minMax_ptr->min_fedTax)
            emp_minMax_ptr->min_fedTax = current_ptr->fedTax;
        if (current_ptr->fedTax > emp_minMax_ptr->max_fedTax)
            emp_minMax_ptr->max_fedTax = current_ptr->fedTax;
         // check if current Net Pay is the new min and/or max
        if (current_ptr->netPay < emp_minMax_ptr->min_netPay)
            emp_minMax_ptr->min_netPay = current_ptr->netPay;
        if (current_ptr->netPay > emp_minMax_ptr->max_netPay)
            emp_minMax_ptr->max_netPay = current_ptr->netPay;
    } //for
} // calcEmployeeMinMax
 
 

//********************************************************
//
// Assignment 9 - Linked Lists
//
// Name: John Semenuk
//
// Class: C Programming, Spring 2026
//
// Date: April 9, 2026
//
// Description: Program which determines overtime and 
// gross pay for a set of employees with outputs sent 
// to standard output (the screen).
//
// This assignment also adds the employee name, their tax state,
// and calculates the state tax, federal tax, and net pay.   It
// also calculates totals, averages, minimum, and maximum values.
//
// Array and Structure references have all been replaced with
// pointer references to speed up the processing of this code.
// A linked list has been created and deployed to dynamically
// allocate and process employees as needed.
//
// Call by Reference design (using pointers)
//
//********************************************************

// necessary header files
#include <stdio.h>
#include <string.h>
#include <ctype.h>   // for char functions
#include <stdlib.h>  // for malloc

// define constants
#define STD_HOURS 40.0
#define OT_RATE 1.5
#define MA_TAX_RATE 0.05
#define NH_TAX_RATE 0.0
#define VT_TAX_RATE 0.06
#define CA_TAX_RATE 0.07
#define DEFAULT_TAX_RATE 0.08
#define NAME_SIZE 20
#define TAX_STATE_SIZE 3
#define FED_TAX_RATE 0.25
#define FIRST_NAME_SIZE 10
#define LAST_NAME_SIZE 10

// Define a global structure type to store an employee name
struct name
{
    char firstName[FIRST_NAME_SIZE];
    char lastName [LAST_NAME_SIZE];
};

// Define a global structure type to pass employee data between functions
struct employee
{
    struct name empName;
    char taxState [TAX_STATE_SIZE];
    long int clockNumber;
    float wageRate;
    float hours;
    float overtimeHrs;
    float grossPay;
    float stateTax;
    float fedTax;
    float netPay;
    struct employee * next;
};

// this structure type defines the totals of all floating point items
struct totals
{
    float total_wageRate;
    float total_hours;
    float total_overtimeHrs;
    float total_grossPay;
    float total_stateTax;
    float total_fedTax;
    float total_netPay;
};

// this structure type defines the min and max values of all floating
struct min_max
{
    float min_wageRate;
    float min_hours;
    float min_overtimeHrs;
    float min_grossPay;
    float min_stateTax;
    float min_fedTax;
    float min_netPay;
    float max_wageRate;
    float max_hours;
    float max_overtimeHrs;
    float max_grossPay;
    float max_stateTax;
    float max_fedTax;
    float max_netPay;
};

// define prototypes here for each function except main
struct employee * getEmpData (void);
int isEmployeeSize (struct employee * head_ptr);
void calcOvertimeHrs (struct employee * head_ptr);
void calcGrossPay (struct employee * head_ptr);
void printHeader (void);
void printEmp (struct employee * head_ptr);
void calcStateTax (struct employee * head_ptr);
void calcFedTax (struct employee * head_ptr);
void calcNetPay (struct employee * head_ptr);
void calcEmployeeTotals (struct employee * head_ptr,
                         struct totals * emp_totals_ptr);
                                 
void calcEmployeeMinMax (struct employee * head_ptr,
                         struct min_max * emp_minMax_ptr);
                                  
void printEmpStatistics (struct totals * emp_totals_ptr, 
                         struct min_max * emp_minMax_ptr,
                         int theSize);

int main ()
{

    struct employee * head_ptr; // always points to first linked list node
    int theSize; // number of employees processed
    
    struct totals employeeTotals  = {0,0,0,0,0,0,0};
    struct totals * emp_totals_ptr = &employeeTotals;
    
    struct min_max employeeMinMax = {0,0,0,0,0,0,0,0,0,0,0,0,0,0};
    struct min_max * emp_minMax_ptr = &employeeMinMax;

    head_ptr = getEmpData ();

    theSize = isEmployeeSize (head_ptr);
    
    if (theSize <= 0)
    {
        printf("\n\n**** There was no employee input to process ***\n");
    }
    
    else
    {    
        calcOvertimeHrs (head_ptr);
        calcGrossPay (head_ptr); 
        calcStateTax (head_ptr);
        calcFedTax (head_ptr);
        calcNetPay (head_ptr); 
        calcEmployeeTotals (head_ptr, &employeeTotals);
        calcEmployeeMinMax (head_ptr, &employeeMinMax);
        printHeader();
        printEmp (head_ptr); 
        printEmpStatistics (&employeeTotals, &employeeMinMax, theSize);
    }
    
    printf ("\n\n *** End of Program *** \n");
    return (0);
}

//**************************************************************
// Function: getEmpData 
// 
// Purpose: Obtains input from user: employee name (first an last), 
//          tax state, clock number, hourly wage, and hours worked
//          in a given week.
//
//          Information in stored in a dynamically created linked
//          list for all employees.
//          
// Parameters: void
// 
// Returns:
//
//    head_ptr - a pointer to the beginning of the dynamically
//               created linked list that contains the initial
//               input for each employee.
//  
//**************************************************************
struct employee * getEmpData (void)
{
    char answer[80];   // user prompt response  
    int more_data = 1; // a flag to indicate if another employee
                      // needs to be processed
    char value;       // the first char of the user prompt response  

    struct employee *current_ptr, *head_ptr; // pointer to current node
    head_ptr = (struct employee *) malloc (sizeof(struct employee));
    current_ptr = head_ptr;
  // process while there is still input
    while (more_data)
    {
        
        // read in employee first and last name
        printf ("\nEnter employee first name: ");
        scanf ("%s", current_ptr->empName.firstName);
        printf ("\nEnter employee last name: ");
        scanf ("%s", current_ptr->empName.lastName);
        // read in employee tax state
        printf ("\nEnter employee two character tax state: ");
        scanf ("%s", current_ptr->taxState);
        // read in employee clock number
        printf("\nEnter employee clock number: ");
        scanf("%li", & current_ptr -> clockNumber);
        // read in employee wage rate
        printf("\nEnter employee hourly wage: ");
        scanf("%f", & current_ptr -> wageRate);
        // read in employee hours worked
        printf("\nEnter hours worked this week: ");
        scanf("%f", & current_ptr -> hours);
        // ask user if they would like to add another employee
        printf("\nWould you like to add another employee? (y/n): ");
        scanf("%s", answer);
        
        // check first character for a 'Y' for yes
        // Ask user if they want to add another employee
 
        if ((value = toupper(answer[0])) != 'Y')
        {
           // no more employees to process
           current_ptr->next = (struct employee *) NULL;
           more_data = 0; 
        }
        else // Yes, another employee
        {
           // set the next pointer of the current node to point to the new node
           current_ptr->next = (struct employee *) malloc (sizeof(struct employee));
            // move the current node pointer to the new node
           current_ptr = current_ptr->next;
        }
    }
    return(head_ptr);
}

//*************************************************************
// Function: isEmployeeSize
//
// Purpose: Traverses the linked list and keeps a running count
//          on how many employees are currently in our list. 
//
// Parameters:
//
//   head_ptr - pointer to the initial node in our linked list
//
// Returns:
//
//   theSize - the number of employees in our linked list
//
//**************************************************************//*************************************************************
int isEmployeeSize (struct employee * head_ptr)
{
    struct employee * current_ptr; // pointer to current node
    int theSize;                   // number of link list nodes
                                   // (i.e., employees)
    
    theSize = 0; // initialize
    // assume there is no data if the first node does
    // not have an employee name
    
    if (head_ptr->empName.firstName[0] != '\0')
    {
        // traverse through the linked list, keep a running count of nodes
        
        for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
        {  
            ++theSize;   // employee node found, increment
        }
    }
    return (theSize);
}

//**************************************************************
// Function: printHeader
// 
// Purpose: Prints the initial table header information.
// 
// Parameters: none
// 
// Returns: void
//  
//**************************************************************
void printHeader (void) 
{ 
    printf ("\n\n*** Pay Calculator ***\n");
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
    printf("\nName                Tax  Clock# Wage   Hours  OT   Gross ");
    printf("  State  Fed      Net");
    printf("\n                   State                           Pay   ");
    printf("  Tax    Tax      Pay");
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
}// printHeader

//************************************************************* 
// Function: printEmp 
// 
// Purpose: Prints out all the information for each employee
//          in a nice and orderly table format.
// 
// Parameters: 
//
//   head_ptr - pointer to the beginning of our linked list
// 
// Returns: void
//  
//**************************************************************
void printEmp (struct employee * head_ptr)
{
    
    
     // Used to format the employee name
    char name [FIRST_NAME_SIZE + LAST_NAME_SIZE + 1];
    struct employee * current_ptr;  // pointer to current node
     // traverse through the linked list to process each employee
    
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        strcpy (name, current_ptr->empName.firstName);
        strcat (name, " "); 
        strcat (name, current_ptr->empName.lastName);
        // Print out current employee in the current linked list node
        printf("\n%-20.20s %-2.2s  %06li %5.2f  %4.1f  %4.1f %7.2f %6.2f %7.2f %8.2f",
               name, current_ptr->taxState, current_ptr->clockNumber, 
               current_ptr->wageRate, current_ptr->hours,
               current_ptr->overtimeHrs, current_ptr->grossPay, 
               current_ptr->stateTax, current_ptr->fedTax, 
               current_ptr->netPay);
    }// for
}// printEmp

//************************************************************* 
// Function: printEmpStatistics 
// 
// Purpose: Prints out the summary totals and averages of all 
//          floating point value items for all employees
//          that have been processed.  It also prints
//          out the min and max values.
// 
// Parameters: 
//
//   emp_totals_ptr - pointer to a structure containing a running total 
//                    of all employee floating point items
//
//   emp_minMax_ptr - pointer to a structure containing
//                    the minimum and maximum values of all
//                    employee floating point items
//
//   theSize - the total number of employees processed, used 
//             to check for zero or negative divide condition.
// 
// Returns: void
//  
//**************************************************************
void printEmpStatistics (struct totals   * emp_totals_ptr,
                         struct min_max  * emp_minMax_ptr,
                         int theSize)
{
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
    
    printf("\nTotals:                         %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_totals_ptr->total_wageRate,
           emp_totals_ptr->total_hours,
           emp_totals_ptr->total_overtimeHrs,
           emp_totals_ptr->total_grossPay,
           emp_totals_ptr->total_stateTax,
           emp_totals_ptr->total_fedTax,
           emp_totals_ptr->total_netPay);
    
    if (theSize > 0)       
    {
        printf("\nAverages:                       %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
               emp_totals_ptr->total_wageRate/theSize,
               emp_totals_ptr->total_hours/theSize,
               emp_totals_ptr->total_overtimeHrs/theSize,
               emp_totals_ptr->total_grossPay/theSize,
               emp_totals_ptr->total_stateTax/theSize,
               emp_totals_ptr->total_fedTax/theSize,
               emp_totals_ptr->total_netPay/theSize);
    }
    
    printf("\nMinimum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_minMax_ptr->min_wageRate,
           emp_minMax_ptr->min_hours,
           emp_minMax_ptr->min_overtimeHrs,
           emp_minMax_ptr->min_grossPay,
           emp_minMax_ptr->min_stateTax,
           emp_minMax_ptr->min_fedTax,
           emp_minMax_ptr->min_netPay);
    
    printf("\nMaximum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
           emp_minMax_ptr->max_wageRate,
           emp_minMax_ptr->max_hours,
           emp_minMax_ptr->max_overtimeHrs,
           emp_minMax_ptr->max_grossPay,
           emp_minMax_ptr->max_stateTax,
           emp_minMax_ptr->max_fedTax,
           emp_minMax_ptr->max_netPay);
     
     
     // print out the total employees process      
    printf ("\n\nThe total employees processed was: %i\n", theSize);
}  

//*************************************************************
// Function: calcOvertimeHrs
//
// Purpose: Calculates the overtime hours worked by an employee
//          in a given week for each employee.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the overtime hours gets updated by reference)
//
//**************************************************************
void calcOvertimeHrs (struct employee * head_ptr) // pointer to current node
{
    struct employee * current_ptr;
    
     // traverse through the linked list to calculate overtime hours
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {  
         // Any overtime ?
        if (current_ptr->hours >= STD_HOURS)
            current_ptr->overtimeHrs = current_ptr->hours - STD_HOURS;
        else // no overtime
            current_ptr->overtimeHrs = 0;
    } // for

	
} // calcOvertimeHrs

//*************************************************************
// Function: calcGrossPay
//
// Purpose: Calculates the gross pay based on the the normal pay
//          and any overtime pay for a given week for each
//          employee.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the gross pay gets updated by reference)
//
//**************************************************************


void calcGrossPay (struct employee * head_ptr)
{
    float theNormalPay;  // normal pay without any overtime hours
    float theOvertimePay; // overtime pay
    struct employee * current_ptr; // pointer to current node
    
    // traverse through the linked list to calculate gross pay
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
          // calculate normal pay and any overtime pay
        theNormalPay = current_ptr->wageRate * (current_ptr->hours - current_ptr->overtimeHrs);
        theOvertimePay = current_ptr->overtimeHrs * (OT_RATE * current_ptr->wageRate);
        
         // calculate gross pay for employee as normalPay + any overtime pay
        current_ptr->grossPay = theNormalPay + theOvertimePay;
    }
}  // calcGrossPay

//*************************************************************
//*************************************************************
// Function: calcStateTax
//
// Purpose: Calculates the State Tax owed based on gross pay
//          for each employee.  State tax rate is based on the 
//          the designated tax state based on where the
//          employee is actually performing the work.  Each
//          state decides their tax rate.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the state tax gets updated by reference)
//
//**************************************************************
 

void calcStateTax (struct employee * head_ptr)
{
    struct employee * current_ptr; // pointer to current node
    
     // traverse through the linked list to calculate the state tax

    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
         // Make sure tax state is all uppercase
        
        if (islower(current_ptr->taxState[0]))
            current_ptr->taxState[0] = toupper(current_ptr->taxState[0]);
        if (islower(current_ptr->taxState[1]))
            current_ptr->taxState[1] = toupper(current_ptr->taxState[1]);
       
        if (strcmp(current_ptr->taxState, "MA") == 0)
            current_ptr->stateTax = current_ptr->grossPay * MA_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "NH") == 0)
            current_ptr->stateTax = current_ptr->grossPay * NH_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "VT") == 0)
            current_ptr->stateTax = current_ptr->grossPay * VT_TAX_RATE;
        else if (strcmp(current_ptr->taxState, "CA") == 0)
            current_ptr->stateTax = current_ptr->grossPay * CA_TAX_RATE;
        else
            current_ptr->stateTax = current_ptr->grossPay * DEFAULT_TAX_RATE;
    } // for
}// calcStateTax

//*************************************************************
// Function: calcFedTax
//
// Purpose: Calculates the Federal Tax owed based on the gross 
//          pay for each employee
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the federal tax gets updated by reference)
//
//**************************************************************


void calcFedTax (struct employee * head_ptr)
{
    struct employee * current_ptr;
    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        current_ptr->fedTax = current_ptr->grossPay * FED_TAX_RATE;
    }
}

//*************************************************************
void calcNetPay (struct employee * head_ptr)
{
    float theTotalTaxes;
    struct employee * current_ptr;

    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        theTotalTaxes = current_ptr->stateTax + current_ptr->fedTax;
        current_ptr->netPay = current_ptr->grossPay - theTotalTaxes;
    }
}// calcFedTax

//*************************************************************
// Function: calcNetPay
//
// Purpose: Calculates the net pay as the gross pay minus any
//          state and federal taxes owed for each employee.
//          Essentially, their "take home" pay.
//
// Parameters:
//
//   head_ptr - pointer to the beginning of our linked list
//
// Returns: void (the net pay gets updated by reference)
//
//**************************************************************



void calcEmployeeTotals (struct employee * head_ptr,
                         struct totals * emp_totals_ptr)
{
    struct employee * current_ptr;// pointer to current node

    for (current_ptr = head_ptr; current_ptr; current_ptr = current_ptr->next)
    {
        emp_totals_ptr->total_wageRate += current_ptr->wageRate;
        emp_totals_ptr->total_hours += current_ptr->hours;
        emp_totals_ptr->total_overtimeHrs += current_ptr->overtimeHrs;
        emp_totals_ptr->total_grossPay += current_ptr->grossPay;
        emp_totals_ptr->total_stateTax += current_ptr->stateTax;
        emp_totals_ptr->total_fedTax += current_ptr->fedTax;
        emp_totals_ptr->total_netPay += current_ptr->netPay;
    }
}

//*************************************************************
void calcEmployeeMinMax (struct employee * head_ptr,
                         struct min_max * emp_minMax_ptr)
{
    struct employee * current_ptr;
    current_ptr = head_ptr;

    emp_minMax_ptr->min_wageRate = current_ptr->wageRate; 
    emp_minMax_ptr->min_hours = current_ptr->hours;
    emp_minMax_ptr->min_overtimeHrs = current_ptr->overtimeHrs; 
    emp_minMax_ptr->min_grossPay = current_ptr->grossPay;
    emp_minMax_ptr->min_stateTax = current_ptr->stateTax;
    emp_minMax_ptr->min_fedTax = current_ptr->fedTax;
    emp_minMax_ptr->min_netPay = current_ptr->netPay;
        
    emp_minMax_ptr->max_wageRate = current_ptr->wageRate; 
    emp_minMax_ptr->max_hours = current_ptr->hours;
    emp_minMax_ptr->max_overtimeHrs = current_ptr->overtimeHrs;
    emp_minMax_ptr->max_grossPay = current_ptr->grossPay;
    emp_minMax_ptr->max_stateTax = current_ptr->stateTax;
    emp_minMax_ptr->max_fedTax = current_ptr->fedTax;
    emp_minMax_ptr->max_netPay = current_ptr->netPay;

    // traverse the linked list
    // compare the rest of the employees to each other for min and max
    
    current_ptr = current_ptr->next;
    // check if current Wage Rate is the new min and/or max
    for (; current_ptr; current_ptr = current_ptr->next) 
    {
        if (current_ptr->wageRate < emp_minMax_ptr->min_wageRate)
            emp_minMax_ptr->min_wageRate = current_ptr->wageRate;
        if (current_ptr->wageRate > emp_minMax_ptr->max_wageRate)
            emp_minMax_ptr->max_wageRate = current_ptr->wageRate;
         // check if current Hours is the new min and/or max
        if (current_ptr->hours < emp_minMax_ptr->min_hours)
            emp_minMax_ptr->min_hours = current_ptr->hours;
        if (current_ptr->hours > emp_minMax_ptr->max_hours)
            emp_minMax_ptr->max_hours = current_ptr->hours;
         // check if current Overtime Hours is the new min and/or max
        if (current_ptr->overtimeHrs < emp_minMax_ptr->min_overtimeHrs)
            emp_minMax_ptr->min_overtimeHrs = current_ptr->overtimeHrs;
        if (current_ptr->overtimeHrs > emp_minMax_ptr->max_overtimeHrs)
            emp_minMax_ptr->max_overtimeHrs = current_ptr->overtimeHrs;
        
        if (current_ptr->grossPay < emp_minMax_ptr->min_grossPay)
            emp_minMax_ptr->min_grossPay = current_ptr->grossPay;
        if (current_ptr->grossPay > emp_minMax_ptr->max_grossPay)
            emp_minMax_ptr->max_grossPay = current_ptr->grossPay;
        // check if current Gross Pay is the new min and/or max
        if (current_ptr->stateTax < emp_minMax_ptr->min_stateTax)
            emp_minMax_ptr->min_stateTax = current_ptr->stateTax;
        if (current_ptr->stateTax > emp_minMax_ptr->max_stateTax)
            emp_minMax_ptr->max_stateTax = current_ptr->stateTax;
         // check if current State Tax is the new min and/or max
        if (current_ptr->fedTax < emp_minMax_ptr->min_fedTax)
            emp_minMax_ptr->min_fedTax = current_ptr->fedTax;
        if (current_ptr->fedTax > emp_minMax_ptr->max_fedTax)
            emp_minMax_ptr->max_fedTax = current_ptr->fedTax;
         // check if current Net Pay is the new min and/or max
        if (current_ptr->netPay < emp_minMax_ptr->min_netPay)
            emp_minMax_ptr->min_netPay = current_ptr->netPay;
        if (current_ptr->netPay > emp_minMax_ptr->max_netPay)
            emp_minMax_ptr->max_netPay = current_ptr->netPay;
    } //for
} // calcEmployeeMinMax



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Connie
Cobol
MA
98401
10.60
51.0
Y
Mary
Apl
NH
526488
9.75
42.5
Y
Frank
Fortran
VT
765349
10.50
37.0
Y
Jeff
Ada
NY
34645
12.25
45
Y
Anton
Pascal
CA
127615
8.35
40.0
N