/*-- Time.cpp------------------------------------------------------------ This file implements the Time member functions. -------------------------------------------------------------------------*/ #include using namespace std; #include "Time.h" /*** Utility Functions -- Prototypes ***/ int toMilitary(unsigned hours, unsigned minutes, char am_pm); void toStandard(unsigned military, unsigned & hours, unsigned & minutes, char & AMPM); //----- Definition of default constructor Time::Time() : myHours(12), myMinutes(0), myAMorPM('A'), myMilTime(0) { } //----- Definition of explicit-value constructor ----- Time::Time(unsigned initHours, unsigned initMinutes, char initAMPM) { // Check class invariant if (initHours >= 1 && initHours <= 12 && initMinutes >= 0 && initMinutes <= 59 && (initAMPM == 'A' || initAMPM == 'P')) { myHours = initHours; myMinutes = initMinutes; myAMorPM = initAMPM; myMilTime = toMilitary(initHours, initMinutes, initAMPM); } else cerr << "*** Invalid initial values ***\n"; } //----- Definition of getMinutes() unsigned Time::getMinutes() const { return myMinutes; } //----- Definition of getHours() unsigned Time::getHours() const { return myHours; } //----- Definition of getAMPM() unsigned Time::getAMPM() const { return myAMorPM; } //----- Definition of getMilTime() unsigned Time::getMilTime() const { return myMilTime; } //----- Definition of display function ----- void Time::display(ostream & out) const { out << myHours << ':' << (myMinutes < 10 ? "0" : "") << myMinutes << ' ' << myAMorPM << ".M. (" << myMilTime << " mil. time)"; } //----- Definition of read function ----- void Time::read(istream & in) { unsigned hours, // Local variables to hold input values from in so minutes; // they can be checked against the class invariant char am_pm, // before putting them in the data members ch; // To gobble up : and the 'M' in input in >> hours >> ch >> minutes >> am_pm >> ch; // Check the class invariant if (hours >= 1 && hours <= 12 && minutes >= 0 && minutes <= 59 && (am_pm == 'A' || am_pm == 'P')) { myHours = hours; myMinutes = minutes; myAMorPM = am_pm; myMilTime = toMilitary(hours, minutes, am_pm); } else cerr << "*** Invalid input for Time object ***\n"; } //----- Definition of operator<<() ostream & operator<<(ostream & out, const Time & t) { t.display(out); return out; } //----- Definition of operator>>() istream & operator>>(istream & in, Time & t) { t.read(in); return in; } //----- Definition of set function ----- void Time::set(unsigned hours, unsigned minutes, char am_pm) { // Check class invariant if (hours >= 1 && hours <= 12 && minutes >= 0 && minutes <= 59 && (am_pm == 'A' || am_pm == 'P')) { myHours = hours; myMinutes = minutes; myAMorPM = am_pm; myMilTime = toMilitary(hours, minutes, am_pm); } else cerr << "*** Can't set time with these values ***\n"; // Object's data members remain unchanged } //----- Definition of advance function----- void Time::advance(unsigned hours, unsigned minutes) { // Increment the myMilTime member myMilTime += 100 * hours + minutes; // Adjust to proper format unsigned milHours = myMilTime / 100, milMins = myMilTime % 100; milHours += milMins / 60; milMins %= 60; milHours %= 24; myMilTime = 100 * milHours + milMins; // Now set the standard time data members toStandard(myMilTime, myHours, myMinutes, myAMorPM); } /***** Relational operators *****/ bool operator<(const Time & t1, const Time & t2) { return t1.getMilTime() < t2.getMilTime(); } bool operator>(const Time & t1, const Time & t2) { return t1.getMilTime() > t2.getMilTime(); } bool operator==(const Time & t1, const Time & t2) { return t1.getMilTime() == t2.getMilTime(); } bool operator<=(const Time & t1, const Time & t2) { return t1.getMilTime() <= t2.getMilTime(); } bool operator>=(const Time & t1, const Time & t2) { return t1.getMilTime() >= t2.getMilTime(); } //----- Definition of operator!=() ----- bool operator!=(const Time & t1, const Time & t2) { return t1.getMilTime() != t2.getMilTime(); } /*** Utility Functions -- Definitions ***/ int toMilitary(unsigned hours, unsigned minutes, char am_pm) /*------------------------------------------------------------------------- Convert standard time to military time. Precondition: hours, minutes, am_pm satisfy the class invariant. Postcondition: Military time equivalent is returned. -------------------------------------------------------------------------*/ { if (hours == 12) hours = 0; return hours * 100 + minutes + (am_pm == 'P' ? 1200 : 0); } void toStandard(unsigned military, unsigned & hours, unsigned & minutes, char & AMPM) /*------------------------------------------------------------------------- Convert military time to standard time. Receive: military, a time in military format Return: hours, minutes, AMPM -- equivalent standard time -------------------------------------------------------------------------*/ { hours = (military / 100) % 12; if (hours == 0) hours = 12; minutes = military % 100; AMPM = (military / 100) < 12 ? 'A' : 'P'; }