#include #include #include //for the functions time and localtime using namespace std; class date { public: //Declarations for the data members: int year; int month; //in the range 1 to 12 inclusive int day; //in the range 1 to 31 inclusive //Declarations for the member functions: void print() const; //const member function void next(int n); //non-const member function void next(); }; int main() { //Output the date of Independence Day. const date independenceDay {1776, 7, 4}; //year, month, day independenceDay.print(); cout << " is Independence Day.\n"; //Ask the operating system for the current date and time. const time_t t {time(nullptr)}; const tm *const p {localtime(&t)}; //Output today's date. const date today {p->tm_year + 1900, p->tm_mon + 1, p->tm_mday}; today.print(); cout << " is today.\n"; //Output tomorrow's date. date tomorrow {today}; //Call the "copy constructor". tomorrow.next(); //Advance one day. tomorrow.print(); cout << " is tomorrow.\n"; //Output the date that is one week from today. date nextWeek {today}; //Call the "copy constructor". nextWeek.next(7); nextWeek.print(); cout << " is next week.\n"; return EXIT_SUCCESS; } const int date_length[] { 0, //dummy, so that January will have subscript 1 31, //January 28, //February. Pretend there are no leap years. 31, //March 30, //April 31, //May 30, //June 31, //July 31, //August 30, //September 31, //October 30, //November 31 //December }; void date::print() const //This member function can't change the date object. { cout << month << "/" << day << "/" << year; } void date::next(int n) //This member function can change the date object. { for (int i {0}; i < n; ++i) { next(); //Call the other next function, the one with no argument } } void date::next() //Move this date object one day into the future. { if (day < date_length[month]) { ++day; } else { day = 1; //Advance into the next month. if (month < 12) { ++month; } else { month = 1; //Advance into the next year. ++year; } } }