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ex14_49.h
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ex14_49.h
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/***************************************************************************
* @file date.h
* @author Alan.W
* @date 15-17 JAN 2014
* @remark
***************************************************************************/
//
// Exercise 7.40:
// Choose one of the following abstractions (or an abstraction of your own choosing).
// Determine what data are needed in the class. Provide an appropriate set of constructors.
// Explain your decisions.
//
// Exercise 14.5:
// In exercise 7.40 from § 7.5.1 (p. 291) you wrote a sketch of one of the
// following classes. Decide what, if any, overloaded operators your class
// should provide.
// - = < > <= >= ++ -- << >> == != += -=
// Exercise 14.8:
// Define an output operator for the class you chose in exercise 7.40 from
// § 7.5.1 (p. 291).
//
// Exercise 14.12:
// Define an input operator for the class you used in exercise 7.40 from
// § 7.5.1 (p. 291). Be sure the operator handles input errors.
//
// Exercise 14.15:
// Should the class you chose for exercise 7.40 from § 7.5.1 (p. 291)
// define any of the arithmetic operators? If so, implement them.
// If not, explain why not.
//
// arithmetic operators : all non-members
// + : Date + Size
// - : Date - Size
// - : Date - Date
//
// Exercise 14.17:
// Should the class you chose for exercise 7.40 from § 7.5.1 (p. 291) define
// the equality operators? If so, implement them. If not, explain why not.
//
// Exercise 14.19:
// Should the class you chose for exercise 7.40 from § 7.5.1 (p. 291) define
// the relational operators? If so, implement them. If not, explain why not.
//
// Exercise 14.25:
// Implement any other assignment operators your class should define.
// Explain which types should be used as operands and why.
//
// Exercise 14.49:
// Regardless of whether it is a good idea to do so, define a conversion to bool
// for the class from the previous exercise.
//
#ifndef DATE_H
#define DATE_H
#include <iostream>
#include <vector>
class Date
{
friend bool operator ==(const Date& lhs, const Date& rhs);
friend bool operator < (const Date &lhs, const Date &rhs);
friend bool check(const Date &d);
friend std::ostream& operator <<(std::ostream& os, const Date& d);
public:
typedef std::size_t Size;
// default constructor
Date() = default;
// constructor taking Size as days
explicit Date(Size days);
// constructor taking three Size
Date(Size d, Size m, Size y) : day(d), month(m), year(y) { }
// constructor taking iostream
Date(std::istream &is, std::ostream &os);
// copy constructor
Date(const Date& d);
// move constructor
Date(Date&& d) noexcept;
// copy operator=
Date& operator= (const Date& d);
// move operator=
Date& operator= (Date&& rhs) noexcept;
// destructor -- in this case, user-defined destructor is not nessary.
~Date(){ std::cout << "destroying\n"; }
// members
Size toDays() const; //not implemented yet.
Date& operator +=(Size offset);
Date& operator -=(Size offset);
explicit operator bool() { return (year<4000) ? true : false; }
private:
Size day = 1;
Size month = 1;
Size year = 0;
};
static const Date::Size YtoD_400 = 146097; //365*400 + 400/4 -3 == 146097
static const Date::Size YtoD_100 = 36524; //365*100 + 100/4 -1 == 36524
static const Date::Size YtoD_4 = 1461; //365*4 + 1 == 1461
static const Date::Size YtoD_1 = 365; //365
// normal year
static const std::vector<Date::Size> monthsVec_n =
{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
// leap year
static const std::vector<Date::Size> monthsVec_l =
{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
// non-member operators: << >> - == != < <= > >=
//
std::ostream&
operator <<(std::ostream& os, const Date& d);
std::istream&
operator >>(std::istream& is, Date& d);
int
operator - (const Date& lhs, const Date& rhs);
bool
operator ==(const Date& lhs, const Date& rhs);
bool
operator !=(const Date& lhs, const Date& rhs);
bool
operator < (const Date& lhs, const Date& rhs);
bool
operator <=(const Date& lhs, const Date& rhs);
bool
operator >(const Date& lhs, const Date& rhs);
bool
operator >=(const Date& lhs, const Date& rhs);
Date
operator - (const Date& lhs, Date::Size rhs);
Date
operator +(const Date& lhs, Date::Size rhs);
// utillities:
bool check(const Date &d);
inline bool
isLeapYear(Date::Size y);
// check if the date object passed in is valid
inline bool
check(const Date &d)
{
if(d.month==0 || d.month >12)
return false;
else
{
// month == 1 3 5 7 8 10 12
if(d.month==1 || d.month==3 || d.month==5 || d.month==7 ||
d.month==8 || d.month==10|| d.month==12)
{
if(d.day==0 || d.day > 31) return false;
else
return true;
}
else
{
// month == 4 6 9 11
if(d.month==4 || d.month==6 || d.month==9 || d.month==11)
{
if(d.day==0 || d.day > 30) return false;
else
return true;
}
else
{
// month == 2
if(isLeapYear(d.year))
{
if(d.day==0 || d.day >29) return false;
else
return true;
}
else
{
if(d.day==0 || d.day >28) return false;
else
return true;
}
}
}
}
}
inline bool
isLeapYear(Date::Size y)
{
if (!(y%400))
{
return true;
}
else
{
if(!(y%100))
{
return false;
}
else
return !(y%4);
}
}
#endif // DATE_H