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//********************************************************
//
// Assignment 7 - Structures and Strings
//
// Name: <replace with your name>
//
// Class: C Programming, <replace with Semester and Year>
//
// Date: <replace with the current date>
//
// 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.
//
// Call by Reference design
//
//********************************************************
 
// necessary header files
#include <stdio.h>
#include <string.h>
#include <ctype.h>
 
// define constants
#define SIZE 5
#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 structure type to store an employee name
// ... note how one could easily extend this to other parts
// parts of a name:  Middle, Nickname, Prefix, Suffix, etc.
struct name
{
    char firstName[FIRST_NAME_SIZE];
    char lastName [LAST_NAME_SIZE];
};
 
// Define a structure type to pass employee data between functions
// Note that the structure type is global, but you don't want a variable
// of that type to be global. Best to declare a variable of that type
// in a function like main or another function and pass as needed.
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;
};
 
// this structure type defines the totals of all floating point items
// so they can be totaled and used also to calculate averages
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
// point items so they can be display in our final report
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
void getHours (struct employee employeeData[], int theSize);
void calcOvertimeHrs (struct employee employeeData[], int theSize);
void calcGrossPay (struct employee employeeData[], int theSize);
void printHeader (void);
void printEmp (struct employee employeeData[], int theSize);
void calcStateTax (struct employee employeeData[], int theSize);
void calcFedTax (struct employee employeeData[], int theSize);
void calcNetPay (struct employee employeeData[], int theSize);
struct totals calcEmployeeTotals (struct employee employeeData[],
                                  struct totals employeeTotals,
                                  int theSize);
 
struct min_max calcEmployeeMinMax (struct employee employeeData[],
                                   struct min_max employeeMinMax,
                                   int theSize);
 
void printEmpStatistics (struct totals employeeTotals, 
                         struct min_max employeeMinMax,
                         int theSize);
 
// Add your other function prototypes if needed here
 
int main ()
{
 
    // Set up a local variable to store the employee information
    // Initialize the name, tax state, clock number, and wage rate
    struct employee employeeData[SIZE] = {
        { {"Connie", "Cobol"}, "MA", 98401, 10.60},
        { {"Mary", "Apl"}, "NH", 526488, 9.75 },
        { {"Frank", "Fortran"}, "VT", 765349, 10.50 },
        { {"Jeff", "Ada"}, "NY", 34645, 12.25 },
        { {"Anton", "Pascal"},"CA",127615, 8.35 }
    };
 
    // set up structure to store totals and initialize all to zero
    struct totals employeeTotals  = {0,0,0,0,0,0,0};
 
    // set up structure to store min and max values and initialize all to zero
    struct min_max employeeMinMax = {0,0,0,0,0,0,0,0,0,0,0,0,0,0};
 
    // Call functions as needed to read and calculate information
 
    // Prompt for the number of hours worked by the employee 
    getHours (employeeData, SIZE); 
 
    // Calculate the overtime hours
    calcOvertimeHrs (employeeData, SIZE);
 
    // Calculate the weekly gross pay
    calcGrossPay (employeeData, SIZE); 
 
    // Calculate the state tax                                       
    calcStateTax (employeeData, SIZE);
 
    // Calculate the federal tax                                                   
    calcFedTax (employeeData, SIZE);
 
    // Calculate the net pay after taxes   
    calcNetPay (employeeData, SIZE); 
 
    // Keep a running sum of the employee totals
    // Note:  This remains a Call by Value design
    employeeTotals = calcEmployeeTotals (employeeData, employeeTotals, SIZE);
 
    // Keep a running update of the employee minimum and maximum values
    // Note:  This remains a Call by Value design
    employeeMinMax = calcEmployeeMinMax (employeeData, 
                                         employeeMinMax,
                                         SIZE);
    // Print the column headers
    printHeader();
 
    // print out final information on each employee
    printEmp (employeeData, SIZE); 
 
    // print the totals and averages for all float items
    printEmpStatistics (employeeTotals, employeeMinMax, SIZE);
 
    return (0); // success
 
} // main
 
//**************************************************************
// Function: getHours 
// 
// Purpose: Obtains input from user, the number of hours worked 
//          per employee and updates it in the array of structures
//          for each employee.
// 
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
// 
// Returns: void
//  
//**************************************************************
 
void getHours (struct employee employeeData[], int theSize) 
{ 
 
    int i;  // array and loop index
 
    // read in hours for each employee
    for (i = 0; i < theSize; ++i)
    {
        // Read in hours for employee 
        printf("\nEnter hours worked by emp # %06li: ", employeeData[i].clockNumber); 
        scanf ("%f", &employeeData[i].hours); 
    }
 
} // getHours
 
//**************************************************************
// Function: printHeader
// 
// Purpose: Prints the initial table header information.
// 
// Parameters: none
// 
// Returns: void
//  
//**************************************************************
 
void printHeader (void) 
{ 
 
    printf ("\n\n*** Pay Calculator ***\n");
 
    // print the table header
    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: 
//
//   employeeData - array of struct employee
//   theSize - the array size (i.e., number of employees)
// 
// Returns: void
//  
//**************************************************************
 
void printEmp (struct employee employeeData[], int theSize)
{
 
    int i;  // array and loop index
 
    // used to format the employee name
    char name [FIRST_NAME_SIZE + LAST_NAME_SIZE + 1];
 
    // read in hours for each employee
    for (i = 0; i < theSize; ++i)
    {
        // While you could just print the first and last name in the printf
        // statement that follows, you could also use various C string library
        // functions to format the name exactly the way you want it.  Breaking
        // the name into first and last members additionally gives you some 
        // flexibility in printing.  This also becomes more useful if we decide
        // later to store other parts of a person's name. I really did this just 
        // to show you how to work with some of the common string functions.
        strcpy (name, employeeData[i].empName.firstName);
        strcat (name, " "); // add a space between first and last names
        strcat (name, employeeData[i].empName.lastName);
 
        // Print out a single employee
        printf("\n%-20.20s %-2.2s  %06li %5.2f  %4.1f  %4.1f %7.2f %6.2f %7.2f %8.2f",
                 name, employeeData[i].taxState, employeeData[i].clockNumber, 
                 employeeData[i].wageRate, employeeData[i].hours,
                 employeeData[i].overtimeHrs, employeeData[i].grossPay, 
                 employeeData[i].stateTax, employeeData[i].fedTax, 
                 employeeData[i].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: 
//
//   employeeTotals - a structure containing a running total 
//                    of all employee floating point items 
//   employeeMinMax - a structure containing all 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 employeeTotals, 
                         struct min_max employeeMinMax,
                         int theSize)
{
 
    // print a separator line
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
 
    // print the totals for all the floating point fields
    // TODO-- DONE - replace the zeros below with the correct reference to the 
    //        reference to the member total item
    printf("\nTotals:                         %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
             employeeTotals.total_wageRate,
             employeeTotals.total_hours,
             employeeTotals.total_overtimeHrs,
             employeeTotals.total_grossPay,
             employeeTotals.total_stateTax,
             employeeTotals.total_fedTax,
             employeeTotals.total_netPay);
 
    // make sure you don't divide by zero or a negative number
    if (theSize > 0)       
    {
        // print the averages for all the floating point fields
        // TODO -- DONE- replace the zeros below with the correct reference to the 
        //        the average calculation using with the correct total item
        printf("\nAverages:                       %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
                 employeeTotals.total_wageRate/theSize,
                 employeeTotals.total_hours/theSize,
                 employeeTotals.total_overtimeHrs/theSize,
                 employeeTotals.total_grossPay/theSize,
                 employeeTotals.total_stateTax/theSize,
                 employeeTotals.total_fedTax/theSize,
                 employeeTotals.total_netPay/theSize);
    } // if
 
    // print the min and max values
    // TODO Done- replace the zeros below with the correct reference to the 
    //        to the min member field
    printf("\nMinimum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
              employeeMinMax.min_wageRate,
              employeeMinMax.min_hours,
              employeeMinMax.min_overtimeHrs,
              employeeMinMax.min_grossPay,
              employeeMinMax.min_stateTax,
              employeeMinMax.min_fedTax,
              employeeMinMax.min_netPay);
 
    // TODO Done - replace the zeros below with the correct reference to the 
    //        to the max member field
    printf("\nMaximum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
              employeeMinMax.max_wageRate,
              employeeMinMax.max_hours,
              employeeMinMax.max_overtimeHrs,
              employeeMinMax.max_grossPay,
              employeeMinMax.max_stateTax,
              employeeMinMax.max_fedTax,
              employeeMinMax.max_netPay);
 
}  // printEmpStatistics
 
//*************************************************************
// Function: calcOvertimeHrs
//
// Purpose: Calculates the overtime hours worked by an employee
//          in a given week for each employee.
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************
 
void calcOvertimeHrs (struct employee employeeData[], int theSize)
{
 
    int i;  // array and loop index
 
    // calculate overtime hours for each employee
    for (i = 0; i < theSize; ++i)
    {  
        // Any overtime ?
        if (employeeData[i].hours >= STD_HOURS)
        {
            employeeData[i].overtimeHrs = employeeData[i].hours - STD_HOURS;
        }
        else // no overtime
        {
              employeeData[i].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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************
 
void calcGrossPay (struct employee employeeData[], int theSize)
{
    int i;                // loop and array index
    float theNormalPay;   // normal pay without any overtime hours
    float theOvertimePay; // overtime pay
 
    // calculate grossPay for each employee
    for (i=0; i < theSize; ++i)
    {
        // calculate normal pay and any overtime pay
        theNormalPay = employeeData[i].wageRate * 
                                   (employeeData[i].hours - employeeData[i].overtimeHrs);
        theOvertimePay = employeeData[i].overtimeHrs * 
                                      (OT_RATE * employeeData[i].wageRate);
 
        // calculate gross pay for employee as normalPay + any overtime pay
        employeeData[i].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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************
 
void calcStateTax (struct employee employeeData[], int theSize)
{
 
    int i; // loop and array index
 
    // calculate state tax based on where employee works
    for (i=0; i < theSize; ++i)
    {
        // Make sure tax state is all uppercase
        if (islower(employeeData[i].taxState[0]))
            employeeData[i].taxState[0] = toupper(employeeData[i].taxState[0]);
        if (islower(employeeData[i].taxState[1]))
            employeeData[i].taxState[1] = toupper(employeeData[i].taxState[1]);
 
        // calculate state tax based on where employee resides
        if (strcmp(employeeData[i].taxState, "MA") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * MA_TAX_RATE;
        else if (strcmp(employeeData[i].taxState, "NH") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * NH_TAX_RATE;
 
        // TODO--DONE:  Fix the state tax calculations for VT and CA ... right now
        //        both are set to zero 
        else if (strcmp(employeeData[i].taxState, "VT") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * VT_TAX_RATE;
        else if (strcmp(employeeData[i].taxState, "CA") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * CA_TAX_RATE;
        else
            employeeData[i].stateTax = employeeData[i].grossPay * DEFAULT_TAX_RATE;
    } // for
 
} // calcStateTax
 
//*************************************************************
// Function: calcFedTax
//
// Purpose: Calculates the Federal Tax owed based on the gross 
//          pay for each employee
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************
 
void calcFedTax (struct employee employeeData[], int theSize)
{
 
    int i;  // loop and array index
 
    // calculate the federal tax for each employee
    for (i=0; i < theSize; ++i)
    {
 
        // TODO -- DONE:  Fix the fedTax calculation to be the gross pay
        //        multiplied by the Federal Tax Rate (use constant
        //        provided.)
 
        // Fed Tax is the same for all regardless of state
        employeeData[i].fedTax = employeeData[i].grossPay * FED_TAX_RATE; 
        // Fixed calculation
 
    } // for
 
} // 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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************
 
void calcNetPay (struct employee employeeData[], int theSize)
{
    int i;               // loop and array index
    float theTotalTaxes; // the total state and federal tax
 
    // calculate the take home pay for each employee
    for (i=0; i < theSize; ++i)
    {
        // calculate the total state and federal taxes
        theTotalTaxes = employeeData[i].stateTax + employeeData[i].fedTax;
 
        // TODO--DONE:  Fix the netPay calculation to be the gross pay minus the
        //        the total taxes paid
 
        // calculate the net pay
        employeeData[i].netPay = employeeData[i].grossPay - theTotalTaxes; 
        // Fixed calculation
 
    } // for
 
} // calcNetPay
 
//*************************************************************
// Function: calcEmployeeTotals
//
// Purpose: Performs a running total (sum) of each employee
//          floating point member in the array of structures 
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   employeeTotals - structure containing a running totals 
//                    of all fields above
//   theSize - the array size (i.e., number of employees)
//
// Returns: employeeTotals - updated totals in the updated 
//                           employeeTotals structure
//
//**************************************************************
 
struct totals calcEmployeeTotals (struct employee employeeData[],
                                  struct totals employeeTotals,
                                  int theSize)
{
 
    int i;  // loop and array index
 
    // total up each floating point item for all employees
    for (i = 0; i < theSize; ++i)
    {
        // add current employee data to our running totals
        employeeTotals.total_wageRate += employeeData[i].wageRate;
        employeeTotals.total_hours += employeeData[i].hours;
        employeeTotals.total_overtimeHrs += employeeData[i].overtimeHrs;
        employeeTotals.total_grossPay += employeeData[i].grossPay;
        employeeTotals.total_stateTax += employeeData[i].stateTax;
        employeeTotals.total_fedTax += employeeData[i].fedTax;
        employeeTotals.total_netPay += employeeData[i].netPay;
 
    } // for
 
    return (employeeTotals);
 
} // calcEmployeeTotals
 
//*************************************************************
// Function: calcEmployeeMinMax
//
// Purpose: Accepts various floating point values from an
//          employee and adds to a running update of min
//          and max values
//
// Parameters:
//
//   employeeData   - array of employees (i.e., struct employee)
//   employeeTotals - structure containing a running totals 
//                               of all fields above
//   theSize - the array size (i.e., number of employees)
//
// Returns: employeeMinMax - updated employeeMinMax structure
//
//**************************************************************
 
struct min_max calcEmployeeMinMax (struct employee employeeData[],
                                   struct min_max employeeMinMax,
                                   int theSize)
{
 
    int i;  // array and loop index
 
    // if this is the first set of data items, set 
    // them to the min and max
    employeeMinMax.min_wageRate = employeeData[0].wageRate; 
    employeeMinMax.min_hours = employeeData[0].hours;
    employeeMinMax.min_overtimeHrs = employeeData[0].overtimeHrs; 
    employeeMinMax.min_grossPay = employeeData[0].grossPay;
    employeeMinMax.min_stateTax = employeeData[0].stateTax;
    employeeMinMax.min_fedTax = employeeData[0].fedTax;
    employeeMinMax.min_netPay = employeeData[0].netPay;
 
    // set the max to the first element members
    employeeMinMax.max_wageRate = employeeData[0].wageRate; 
    employeeMinMax.max_hours = employeeData[0].hours;
    employeeMinMax.max_overtimeHrs = employeeData[0].overtimeHrs; 
    employeeMinMax.max_grossPay = employeeData[0].grossPay;
    employeeMinMax.max_stateTax = employeeData[0].stateTax;
    employeeMinMax.max_fedTax = employeeData[0].fedTax;
    employeeMinMax.max_netPay = employeeData[0].netPay;
 
    // compare the rest of the items to each other for min and max
        for (i = 1; i < theSize; ++i)
    {
        // Check and update minimum values
        if (employeeData[i].wageRate < employeeMinMax.min_wageRate)
            employeeMinMax.min_wageRate = employeeData[i].wageRate;
 
        if (employeeData[i].hours < employeeMinMax.min_hours)
            employeeMinMax.min_hours = employeeData[i].hours;
 
        if (employeeData[i].overtimeHrs < employeeMinMax.min_overtimeHrs)
            employeeMinMax.min_overtimeHrs = employeeData[i].overtimeHrs;
 
        if (employeeData[i].grossPay < employeeMinMax.min_grossPay)
            employeeMinMax.min_grossPay = employeeData[i].grossPay;
 
        if (employeeData[i].stateTax < employeeMinMax.min_stateTax)
            employeeMinMax.min_stateTax = employeeData[i].stateTax;
 
        if (employeeData[i].fedTax < employeeMinMax.min_fedTax)
            employeeMinMax.min_fedTax = employeeData[i].fedTax;
 
        if (employeeData[i].netPay < employeeMinMax.min_netPay)
            employeeMinMax.min_netPay = employeeData[i].netPay;
 
        // Check and update maximum values
        if (employeeData[i].wageRate > employeeMinMax.max_wageRate)
            employeeMinMax.max_wageRate = employeeData[i].wageRate;
 
        if (employeeData[i].hours > employeeMinMax.max_hours)
            employeeMinMax.max_hours = employeeData[i].hours;
 
        if (employeeData[i].overtimeHrs > employeeMinMax.max_overtimeHrs)
            employeeMinMax.max_overtimeHrs = employeeData[i].overtimeHrs;
 
        if (employeeData[i].grossPay > employeeMinMax.max_grossPay)
            employeeMinMax.max_grossPay = employeeData[i].grossPay;
 
        if (employeeData[i].stateTax > employeeMinMax.max_stateTax)
            employeeMinMax.max_stateTax = employeeData[i].stateTax;
 
        if (employeeData[i].fedTax > employeeMinMax.max_fedTax)
            employeeMinMax.max_fedTax = employeeData[i].fedTax;
 
        if (employeeData[i].netPay > employeeMinMax.max_netPay)
            employeeMinMax.max_netPay = employeeData[i].netPay;
    } // else if
 
    // return all the updated min and max values to the calling function
    return (employeeMinMax);
 
} // calcEmployeeMinMax

//********************************************************
//
// Assignment 7 - Structures and Strings
//
// Name: <replace with your name>
//
// Class: C Programming, <replace with Semester and Year>
//
// Date: <replace with the current date>
//
// 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.
//
// Call by Reference design
//
//********************************************************

// necessary header files
#include <stdio.h>
#include <string.h>
#include <ctype.h>

// define constants
#define SIZE 5
#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 structure type to store an employee name
// ... note how one could easily extend this to other parts
// parts of a name:  Middle, Nickname, Prefix, Suffix, etc.
struct name
{
    char firstName[FIRST_NAME_SIZE];
    char lastName [LAST_NAME_SIZE];
};

// Define a structure type to pass employee data between functions
// Note that the structure type is global, but you don't want a variable
// of that type to be global. Best to declare a variable of that type
// in a function like main or another function and pass as needed.
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;
};

// this structure type defines the totals of all floating point items
// so they can be totaled and used also to calculate averages
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
// point items so they can be display in our final report
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
void getHours (struct employee employeeData[], int theSize);
void calcOvertimeHrs (struct employee employeeData[], int theSize);
void calcGrossPay (struct employee employeeData[], int theSize);
void printHeader (void);
void printEmp (struct employee employeeData[], int theSize);
void calcStateTax (struct employee employeeData[], int theSize);
void calcFedTax (struct employee employeeData[], int theSize);
void calcNetPay (struct employee employeeData[], int theSize);
struct totals calcEmployeeTotals (struct employee employeeData[],
                                  struct totals employeeTotals,
                                  int theSize);
                                 
struct min_max calcEmployeeMinMax (struct employee employeeData[],
                                   struct min_max employeeMinMax,
                                   int theSize);
                                  
void printEmpStatistics (struct totals employeeTotals, 
                         struct min_max employeeMinMax,
                         int theSize);
                         
// Add your other function prototypes if needed here

int main ()
{
    
    // Set up a local variable to store the employee information
    // Initialize the name, tax state, clock number, and wage rate
    struct employee employeeData[SIZE] = {
        { {"Connie", "Cobol"}, "MA", 98401, 10.60},
        { {"Mary", "Apl"}, "NH", 526488, 9.75 },
        { {"Frank", "Fortran"}, "VT", 765349, 10.50 },
        { {"Jeff", "Ada"}, "NY", 34645, 12.25 },
        { {"Anton", "Pascal"},"CA",127615, 8.35 }
    };
    
    // set up structure to store totals and initialize all to zero
    struct totals employeeTotals  = {0,0,0,0,0,0,0};
    
    // set up structure to store min and max values and initialize all to zero
    struct min_max employeeMinMax = {0,0,0,0,0,0,0,0,0,0,0,0,0,0};

    // Call functions as needed to read and calculate information

    // Prompt for the number of hours worked by the employee 
    getHours (employeeData, SIZE); 

    // Calculate the overtime hours
    calcOvertimeHrs (employeeData, SIZE);
       
    // Calculate the weekly gross pay
    calcGrossPay (employeeData, SIZE); 

    // Calculate the state tax                                       
    calcStateTax (employeeData, SIZE);

    // Calculate the federal tax                                                   
    calcFedTax (employeeData, SIZE);
 
    // Calculate the net pay after taxes   
    calcNetPay (employeeData, SIZE); 
        
    // Keep a running sum of the employee totals
    // Note:  This remains a Call by Value design
    employeeTotals = calcEmployeeTotals (employeeData, employeeTotals, SIZE);
                                             
    // Keep a running update of the employee minimum and maximum values
    // Note:  This remains a Call by Value design
    employeeMinMax = calcEmployeeMinMax (employeeData, 
                                         employeeMinMax,
                                         SIZE);
    // Print the column headers
    printHeader();

    // print out final information on each employee
    printEmp (employeeData, SIZE); 
    
    // print the totals and averages for all float items
    printEmpStatistics (employeeTotals, employeeMinMax, SIZE);

    return (0); // success

} // main

//**************************************************************
// Function: getHours 
// 
// Purpose: Obtains input from user, the number of hours worked 
//          per employee and updates it in the array of structures
//          for each employee.
// 
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
// 
// Returns: void
//  
//**************************************************************

void getHours (struct employee employeeData[], int theSize) 
{ 

    int i;  // array and loop index

    // read in hours for each employee
    for (i = 0; i < theSize; ++i)
    {
        // Read in hours for employee 
        printf("\nEnter hours worked by emp # %06li: ", employeeData[i].clockNumber); 
        scanf ("%f", &employeeData[i].hours); 
    }
    
} // getHours

//**************************************************************
// Function: printHeader
// 
// Purpose: Prints the initial table header information.
// 
// Parameters: none
// 
// Returns: void
//  
//**************************************************************

void printHeader (void) 
{ 

    printf ("\n\n*** Pay Calculator ***\n");

    // print the table header
    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: 
//
//   employeeData - array of struct employee
//   theSize - the array size (i.e., number of employees)
// 
// Returns: void
//  
//**************************************************************

void printEmp (struct employee employeeData[], int theSize)
{
    
    int i;  // array and loop index
    
    // used to format the employee name
    char name [FIRST_NAME_SIZE + LAST_NAME_SIZE + 1];

    // read in hours for each employee
    for (i = 0; i < theSize; ++i)
    {
        // While you could just print the first and last name in the printf
        // statement that follows, you could also use various C string library
        // functions to format the name exactly the way you want it.  Breaking
        // the name into first and last members additionally gives you some 
        // flexibility in printing.  This also becomes more useful if we decide
        // later to store other parts of a person's name. I really did this just 
        // to show you how to work with some of the common string functions.
        strcpy (name, employeeData[i].empName.firstName);
        strcat (name, " "); // add a space between first and last names
        strcat (name, employeeData[i].empName.lastName);
    
        // Print out a single employee
        printf("\n%-20.20s %-2.2s  %06li %5.2f  %4.1f  %4.1f %7.2f %6.2f %7.2f %8.2f",
                 name, employeeData[i].taxState, employeeData[i].clockNumber, 
                 employeeData[i].wageRate, employeeData[i].hours,
                 employeeData[i].overtimeHrs, employeeData[i].grossPay, 
                 employeeData[i].stateTax, employeeData[i].fedTax, 
                 employeeData[i].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: 
//
//   employeeTotals - a structure containing a running total 
//                    of all employee floating point items 
//   employeeMinMax - a structure containing all 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 employeeTotals, 
                         struct min_max employeeMinMax,
                         int theSize)
{
    
    // print a separator line
    printf("\n--------------------------------------------------------------");
    printf("-------------------");
    
    // print the totals for all the floating point fields
    // TODO-- DONE - replace the zeros below with the correct reference to the 
    //        reference to the member total item
    printf("\nTotals:                         %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
             employeeTotals.total_wageRate,
             employeeTotals.total_hours,
             employeeTotals.total_overtimeHrs,
             employeeTotals.total_grossPay,
             employeeTotals.total_stateTax,
             employeeTotals.total_fedTax,
             employeeTotals.total_netPay);
    
    // make sure you don't divide by zero or a negative number
    if (theSize > 0)       
    {
        // print the averages for all the floating point fields
        // TODO -- DONE- replace the zeros below with the correct reference to the 
        //        the average calculation using with the correct total item
        printf("\nAverages:                       %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
                 employeeTotals.total_wageRate/theSize,
                 employeeTotals.total_hours/theSize,
                 employeeTotals.total_overtimeHrs/theSize,
                 employeeTotals.total_grossPay/theSize,
                 employeeTotals.total_stateTax/theSize,
                 employeeTotals.total_fedTax/theSize,
                 employeeTotals.total_netPay/theSize);
    } // if
    
    // print the min and max values
    // TODO Done- replace the zeros below with the correct reference to the 
    //        to the min member field
    printf("\nMinimum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
              employeeMinMax.min_wageRate,
              employeeMinMax.min_hours,
              employeeMinMax.min_overtimeHrs,
              employeeMinMax.min_grossPay,
              employeeMinMax.min_stateTax,
              employeeMinMax.min_fedTax,
              employeeMinMax.min_netPay);
    
    // TODO Done - replace the zeros below with the correct reference to the 
    //        to the max member field
    printf("\nMaximum:                        %5.2f %5.1f %5.1f %7.2f %6.2f %7.2f %8.2f",
              employeeMinMax.max_wageRate,
              employeeMinMax.max_hours,
              employeeMinMax.max_overtimeHrs,
              employeeMinMax.max_grossPay,
              employeeMinMax.max_stateTax,
              employeeMinMax.max_fedTax,
              employeeMinMax.max_netPay);

}  // printEmpStatistics

//*************************************************************
// Function: calcOvertimeHrs
//
// Purpose: Calculates the overtime hours worked by an employee
//          in a given week for each employee.
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************

void calcOvertimeHrs (struct employee employeeData[], int theSize)
{
    
    int i;  // array and loop index

    // calculate overtime hours for each employee
    for (i = 0; i < theSize; ++i)
    {  
        // Any overtime ?
        if (employeeData[i].hours >= STD_HOURS)
        {
            employeeData[i].overtimeHrs = employeeData[i].hours - STD_HOURS;
        }
        else // no overtime
        {
              employeeData[i].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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************

void calcGrossPay (struct employee employeeData[], int theSize)
{
    int i;                // loop and array index
    float theNormalPay;   // normal pay without any overtime hours
    float theOvertimePay; // overtime pay

    // calculate grossPay for each employee
    for (i=0; i < theSize; ++i)
    {
        // calculate normal pay and any overtime pay
        theNormalPay = employeeData[i].wageRate * 
                                   (employeeData[i].hours - employeeData[i].overtimeHrs);
        theOvertimePay = employeeData[i].overtimeHrs * 
                                      (OT_RATE * employeeData[i].wageRate);
  
        // calculate gross pay for employee as normalPay + any overtime pay
        employeeData[i].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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************

void calcStateTax (struct employee employeeData[], int theSize)
{
    
    int i; // loop and array index
    
    // calculate state tax based on where employee works
    for (i=0; i < theSize; ++i)
    {
        // Make sure tax state is all uppercase
        if (islower(employeeData[i].taxState[0]))
            employeeData[i].taxState[0] = toupper(employeeData[i].taxState[0]);
        if (islower(employeeData[i].taxState[1]))
            employeeData[i].taxState[1] = toupper(employeeData[i].taxState[1]);
        
        // calculate state tax based on where employee resides
        if (strcmp(employeeData[i].taxState, "MA") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * MA_TAX_RATE;
        else if (strcmp(employeeData[i].taxState, "NH") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * NH_TAX_RATE;
            
        // TODO--DONE:  Fix the state tax calculations for VT and CA ... right now
        //        both are set to zero 
        else if (strcmp(employeeData[i].taxState, "VT") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * VT_TAX_RATE;
        else if (strcmp(employeeData[i].taxState, "CA") == 0)
            employeeData[i].stateTax = employeeData[i].grossPay * CA_TAX_RATE;
        else
            employeeData[i].stateTax = employeeData[i].grossPay * DEFAULT_TAX_RATE;
    } // for
       
} // calcStateTax

//*************************************************************
// Function: calcFedTax
//
// Purpose: Calculates the Federal Tax owed based on the gross 
//          pay for each employee
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************

void calcFedTax (struct employee employeeData[], int theSize)
{
    
    int i;  // loop and array index
    
    // calculate the federal tax for each employee
    for (i=0; i < theSize; ++i)
    {

        // TODO -- DONE:  Fix the fedTax calculation to be the gross pay
        //        multiplied by the Federal Tax Rate (use constant
        //        provided.)

        // Fed Tax is the same for all regardless of state
        employeeData[i].fedTax = employeeData[i].grossPay * FED_TAX_RATE; 
        // Fixed calculation
        
    } // for
    
} // 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:
//
//   employeeData - array of employees (i.e., struct employee)
//   theSize - the array size (i.e., number of employees)
//
// Returns: void
//
//**************************************************************

void calcNetPay (struct employee employeeData[], int theSize)
{
    int i;               // loop and array index
    float theTotalTaxes; // the total state and federal tax
    
    // calculate the take home pay for each employee
    for (i=0; i < theSize; ++i)
    {
        // calculate the total state and federal taxes
        theTotalTaxes = employeeData[i].stateTax + employeeData[i].fedTax;
    
        // TODO--DONE:  Fix the netPay calculation to be the gross pay minus the
        //        the total taxes paid

        // calculate the net pay
        employeeData[i].netPay = employeeData[i].grossPay - theTotalTaxes; 
        // Fixed calculation

    } // for
    
} // calcNetPay

//*************************************************************
// Function: calcEmployeeTotals
//
// Purpose: Performs a running total (sum) of each employee
//          floating point member in the array of structures 
//
// Parameters:
//
//   employeeData - array of employees (i.e., struct employee)
//   employeeTotals - structure containing a running totals 
//                    of all fields above
//   theSize - the array size (i.e., number of employees)
//
// Returns: employeeTotals - updated totals in the updated 
//                           employeeTotals structure
//
//**************************************************************

struct totals calcEmployeeTotals (struct employee employeeData[],
                                  struct totals employeeTotals,
                                  int theSize)
{
    
    int i;  // loop and array index
    
    // total up each floating point item for all employees
    for (i = 0; i < theSize; ++i)
    {
        // add current employee data to our running totals
        employeeTotals.total_wageRate += employeeData[i].wageRate;
        employeeTotals.total_hours += employeeData[i].hours;
        employeeTotals.total_overtimeHrs += employeeData[i].overtimeHrs;
        employeeTotals.total_grossPay += employeeData[i].grossPay;
        employeeTotals.total_stateTax += employeeData[i].stateTax;
        employeeTotals.total_fedTax += employeeData[i].fedTax;
        employeeTotals.total_netPay += employeeData[i].netPay;
        
    } // for
    
    return (employeeTotals);
    
} // calcEmployeeTotals

//*************************************************************
// Function: calcEmployeeMinMax
//
// Purpose: Accepts various floating point values from an
//          employee and adds to a running update of min
//          and max values
//
// Parameters:
//
//   employeeData   - array of employees (i.e., struct employee)
//   employeeTotals - structure containing a running totals 
//                               of all fields above
//   theSize - the array size (i.e., number of employees)
//
// Returns: employeeMinMax - updated employeeMinMax structure
//
//**************************************************************

struct min_max calcEmployeeMinMax (struct employee employeeData[],
                                   struct min_max employeeMinMax,
                                   int theSize)
{

    int i;  // array and loop index
    
    // if this is the first set of data items, set 
    // them to the min and max
    employeeMinMax.min_wageRate = employeeData[0].wageRate; 
    employeeMinMax.min_hours = employeeData[0].hours;
    employeeMinMax.min_overtimeHrs = employeeData[0].overtimeHrs; 
    employeeMinMax.min_grossPay = employeeData[0].grossPay;
    employeeMinMax.min_stateTax = employeeData[0].stateTax;
    employeeMinMax.min_fedTax = employeeData[0].fedTax;
    employeeMinMax.min_netPay = employeeData[0].netPay;
        
    // set the max to the first element members
    employeeMinMax.max_wageRate = employeeData[0].wageRate; 
    employeeMinMax.max_hours = employeeData[0].hours;
    employeeMinMax.max_overtimeHrs = employeeData[0].overtimeHrs; 
    employeeMinMax.max_grossPay = employeeData[0].grossPay;
    employeeMinMax.max_stateTax = employeeData[0].stateTax;
    employeeMinMax.max_fedTax = employeeData[0].fedTax;
    employeeMinMax.max_netPay = employeeData[0].netPay;
    
    // compare the rest of the items to each other for min and max
        for (i = 1; i < theSize; ++i)
    {
        // Check and update minimum values
        if (employeeData[i].wageRate < employeeMinMax.min_wageRate)
            employeeMinMax.min_wageRate = employeeData[i].wageRate;

        if (employeeData[i].hours < employeeMinMax.min_hours)
            employeeMinMax.min_hours = employeeData[i].hours;

        if (employeeData[i].overtimeHrs < employeeMinMax.min_overtimeHrs)
            employeeMinMax.min_overtimeHrs = employeeData[i].overtimeHrs;

        if (employeeData[i].grossPay < employeeMinMax.min_grossPay)
            employeeMinMax.min_grossPay = employeeData[i].grossPay;

        if (employeeData[i].stateTax < employeeMinMax.min_stateTax)
            employeeMinMax.min_stateTax = employeeData[i].stateTax;

        if (employeeData[i].fedTax < employeeMinMax.min_fedTax)
            employeeMinMax.min_fedTax = employeeData[i].fedTax;

        if (employeeData[i].netPay < employeeMinMax.min_netPay)
            employeeMinMax.min_netPay = employeeData[i].netPay;

        // Check and update maximum values
        if (employeeData[i].wageRate > employeeMinMax.max_wageRate)
            employeeMinMax.max_wageRate = employeeData[i].wageRate;

        if (employeeData[i].hours > employeeMinMax.max_hours)
            employeeMinMax.max_hours = employeeData[i].hours;

        if (employeeData[i].overtimeHrs > employeeMinMax.max_overtimeHrs)
            employeeMinMax.max_overtimeHrs = employeeData[i].overtimeHrs;

        if (employeeData[i].grossPay > employeeMinMax.max_grossPay)
            employeeMinMax.max_grossPay = employeeData[i].grossPay;

        if (employeeData[i].stateTax > employeeMinMax.max_stateTax)
            employeeMinMax.max_stateTax = employeeData[i].stateTax;

        if (employeeData[i].fedTax > employeeMinMax.max_fedTax)
            employeeMinMax.max_fedTax = employeeData[i].fedTax;

        if (employeeData[i].netPay > employeeMinMax.max_netPay)
            employeeMinMax.max_netPay = employeeData[i].netPay;
    } // else if

    // return all the updated min and max values to the calling function
    return (employeeMinMax);

} // calcEmployeeMinMax

Success #stdin #stdout 0s 5304KB

stdin

copy

51.0
42.5
37.0
45.0
40.0

stdout

copy

Enter hours worked by emp # 098401: 
Enter hours worked by emp # 526488: 
Enter hours worked by emp # 765349: 
Enter hours worked by emp # 034645: 
Enter hours worked by emp # 127615: 

*** Pay Calculator ***

---------------------------------------------------------------------------------
Name                Tax  Clock# Wage   Hours  OT   Gross   State  Fed      Net
                   State                           Pay     Tax    Tax      Pay
---------------------------------------------------------------------------------
Connie Cobol         MA  098401 10.60  51.0  11.0  598.90  29.95  149.73   419.23
Mary Apl             NH  526488  9.75  42.5   2.5  426.56   0.00  106.64   319.92
Frank Fortran        VT  765349 10.50  37.0   0.0  388.50  23.31   97.12   268.07
Jeff Ada             NY  034645 12.25  45.0   5.0  581.88  46.55  145.47   389.86
Anton Pascal         CA  127615  8.35  40.0   0.0  334.00  23.38   83.50   227.12
---------------------------------------------------------------------------------
Totals:                         51.45 215.5  18.5 2329.84 123.18  582.46  1624.19
Averages:                       10.29  43.1   3.7  465.97  24.64  116.49   324.84
Minimum:                         8.35  37.0   0.0  334.00   0.00   83.50   227.12
Maximum:                        12.25  51.0  11.0  598.90  46.55  149.73   419.23

https://ideone.com/BoHSPQ

language:

C (gcc 8.3)

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