我正在尝试编写一个Date类来学习C++。
我试图查找一种算法,用于将天数加或减到日期上,其中天从1开始,月份从1开始。这证明非常复杂,而且谷歌搜索没有太多相关信息,
有人知道如何实现这个算法吗?
我正在尝试编写一个Date类来学习C++。
我试图查找一种算法,用于将天数加或减到日期上,其中天从1开始,月份从1开始。这证明非常复杂,而且谷歌搜索没有太多相关信息,
有人知道如何实现这个算法吗?
最简单的方法是编写两个函数,一个将日期转换为给定起始日期后的天数,另一个将其转换回日期。一旦日期以天数表达,就很容易对其加减。
您可以在此处找到算法:http://alcor.concordia.ca/~gpkatch/gdate-algorithm.html
doy
中去掉-1
,让它的范围为[1, 366]
,然后在最后减去719469
而不是719468
来进行补偿。 - Mark Ransom您实际上不需要一个算法(至少不是一个称得上名字的算法),标准库可以完成大部分繁重的工作;日历计算非常棘手。只要您不需要早于1900年的日期,那么:
#include <ctime>
// Adjust date by a number of days +/-
void DatePlusDays( struct tm* date, int days )
{
const time_t ONE_DAY = 24 * 60 * 60 ;
// Seconds since start of epoch
time_t date_seconds = mktime( date ) + (days * ONE_DAY) ;
// Update caller's date
// Use localtime because mktime converts to UTC so may change date
*date = *localtime( &date_seconds ) ; ;
}
使用示例:
#include <iostream>
int main()
{
struct tm date = { 0, 0, 12 } ; // nominal time midday (arbitrary).
int year = 2010 ;
int month = 2 ; // February
int day = 26 ; // 26th
// Set up the date structure
date.tm_year = year - 1900 ;
date.tm_mon = month - 1 ; // note: zero indexed
date.tm_mday = day ; // note: not zero indexed
// Date, less 100 days
DatePlusDays( &date, -100 ) ;
// Show time/date using default formatting
std::cout << asctime( &date ) << std::endl ;
}
我猜这是某种练习,否则你会使用已经提供给你的时间类。
你可以将时间存储为自某个日期以来的毫秒数。然后在调用类的访问器时,添加适当的值并从中转换为日期。
d
是正数。很容易将以下内容扩展到d
为负数的情况。
d
小于365或d
大于等于365。d
小于365:m = 1;
while(d > numberOfDaysInMonth(m, y)) {
d -= numberOfDaysInMonth(m, y);
m++;
}
return date with year = y, month = m, day = d;
d
大于365:while(d >= 365) {
d -= 365;
if(isLeapYear(y)) {
d -= 1;
}
y++;
}
// now use the case where d is less than 365
或者,您可以用儒略日来表示日期,然后仅需将其加到儒略日中并转换为ymd格式即可。
我知道这是一个非常老的问题,但当涉及到日期和时间处理时,它是一个有趣且常见的问题。因此,我想分享一些代码,它可以在不使用C++内置时间功能的情况下计算新日期。
#include <iostream>
#include <string>
using namespace std;
class Date {
public:
Date(size_t year, size_t month, size_t day):m_year(year), m_month(month), m_day(day) {}
~Date() {}
// Add specified number of days to date
Date operator + (size_t days) const;
// Subtract specified number of days from date
Date operator - (size_t days) const;
size_t Year() { return m_year; }
size_t Month() { return m_month; }
size_t Day() { return m_day; }
string DateStr();
private:
// Leap year check
inline bool LeapYear(int year) const
{ return year % 4 == 0 && (year % 100 != 0 || year % 400 == 0); }
// Holds all max days in a general year
static const int MaxDayInMonth[13];
// Private members
size_t m_year;
size_t m_month;
size_t m_day;
};
// Define MaxDayInMonth
const int Date::MaxDayInMonth[13] = {0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
//===========================================================================================
/// Add specified number of days to date
Date Date::operator + (size_t days) const {
// Maximum days in the month
int nMaxDays(MaxDayInMonth[m_month] + (m_month == 2 && LeapYear(m_year) ? 1 : 0));
// Initialize the Year, Month, Days
int nYear(m_year);
int nMonth(m_month);
int nDays(m_day + days);
// Iterate till it becomes a valid day of a month
while (nDays > nMaxDays) {
// Subtract the max number of days of current month
nDays -= nMaxDays;
// Advance to next month
++nMonth;
// Falls on to next year?
if (nMonth > 12) {
nMonth = 1; // January
++nYear; // Next year
}
// Update the max days of the new month
nMaxDays = MaxDayInMonth[nMonth] + (nMonth == 2 && LeapYear(nYear) ? 1 : 0);
}
// Construct date
return Date(nYear, nMonth, nDays);
}
//===========================================================================================
/// Subtract specified number of days from date
Date Date::operator - (size_t days) const {
// Falls within the same month?
if (0 < (m_day - days)) {
return Date(m_year, m_month, m_day - days);
}
// Start from this year
int nYear(m_year);
// Start from specified days and go back to first day of this month
int nDays(days);
nDays -= m_day;
// Start from previous month and check if it falls on to previous year
int nMonth(m_month - 1);
if (nMonth < 1) {
nMonth = 12; // December
--nYear; // Previous year
}
// Maximum days in the current month
int nDaysInMonth = MaxDayInMonth[nMonth] + (nMonth == 2 && LeapYear(nYear) ? 1 : 0);
// Iterate till it becomes a valid day of a month
while (nDays >= 0) {
// Subtract the max number of days of current month
nDays -= nDaysInMonth;
// Falls on to previous month?
if (nDays > 0) {
// Go to previous month
--nMonth;
// Falls on to previous year?
if (nMonth < 1) {
nMonth = 12; // December
--nYear; // Previous year
}
}
// Update the max days of the new month
nDaysInMonth = MaxDayInMonth[nMonth] + (nMonth == 2 && LeapYear(nYear) ? 1 : 0);
}
// Construct date
return Date(nYear, nMonth, (0 < nDays ? nDays : -nDays));
}
//===========================================================================================
/// Get the date string in yyyy/mm/dd format
string Date::DateStr() {
return to_string(m_year)
+ string("/")
+ string(m_month < 10 ? string("0") + to_string(m_month) : to_string(m_month))
+ string("/")
+ string(m_day < 10 ? string("0") + to_string(m_day) : to_string(m_day));
}
int main() {
// Add n days to a date
cout << Date(2017, 6, 25).DateStr() << " + 10 days = "
<< (Date(2017, 6, 25) /* Given Date */ + 10 /* Days to add */).DateStr() << endl;
// Subtract n days from a date
cout << Date(2017, 6, 25).DateStr() << " - 10 days = "
<< (Date(2017, 6, 25) /* Given Date */ - 10 /* Days to subract */).DateStr() << endl;
return 0;
}
Output
2017/06/25 + 10 days = 2017/07/05
2017/06/25 - 10 days = 2017/06/15
尝试使用此函数。它可以正确计算加法或减法。dateTime参数必须采用UTC格式。
tm* dateTimeAdd(const tm* const dateTime, const int& days, const int& hours, const int& mins, const int& secs) {
tm* newTime = new tm;
memcpy(newTime, dateTime, sizeof(tm));
newTime->tm_mday += days;
newTime->tm_hour += hours;
newTime->tm_min += mins;
newTime->tm_sec += secs;
time_t nt_seconds = mktime(newTime) - timezone;
delete newTime;
return gmtime(&nt_seconds);
}
以下是使用示例:
time_t t = time(NULL);
tm* utc = gmtime(&t);
tm* newUtc = dateTimeAdd(utc, -5, 0, 0, 0); //subtract 5 days
一种方法是将日期映射到该日期的儒略日数,进行整数运算,然后再转换回来。
您会发现许多关于儒略函数的资源。
我知道这是一个几乎十年前提出的老问题。但是几天前我在作业中遇到了同样的问题,这里是答案,链接在这里。
// C++ program to find date after adding
// given number of days.
#include<bits/stdc++.h>
using namespace std;
// Return if year is leap year or not.
bool isLeap(int y)
{
if (y%100 != 0 && y%4 == 0 || y %400 == 0)
return true;
return false;
}
// Given a date, returns number of days elapsed
// from the beginning of the current year (1st
// jan).
int offsetDays(int d, int m, int y)
{
int offset = d;
switch (m - 1)
{
case 11:
offset += 30;
case 10:
offset += 31;
case 9:
offset += 30;
case 8:
offset += 31;
case 7:
offset += 31;
case 6:
offset += 30;
case 5:
offset += 31;
case 4:
offset += 30;
case 3:
offset += 31;
case 2:
offset += 28;
case 1:
offset += 31;
}
if (isLeap(y) && m > 2)
offset += 1;
return offset;
}
// Given a year and days elapsed in it, finds
// date by storing results in d and m.
void revoffsetDays(int offset, int y, int *d, int *m)
{
int month[13] = { 0, 31, 28, 31, 30, 31, 30,
31, 31, 30, 31, 30, 31 };
if (isLeap(y))
month[2] = 29;
int i;
for (i = 1; i <= 12; i++)
{
if (offset <= month[i])
break;
offset = offset - month[i];
}
*d = offset;
*m = i;
}
// Add x days to the given date.
void addDays(int d1, int m1, int y1, int x)
{
int offset1 = offsetDays(d1, m1, y1);
int remDays = isLeap(y1)?(366-offset1):(365-offset1);
// y2 is going to store result year and
// offset2 is going to store offset days
// in result year.
int y2, offset2;
if (x <= remDays)
{
y2 = y1;
offset2 = offset1 + x;
}
else
{
// x may store thousands of days.
// We find correct year and offset
// in the year.
x -= remDays;
y2 = y1 + 1;
int y2days = isLeap(y2)?366:365;
while (x >= y2days)
{
x -= y2days;
y2++;
y2days = isLeap(y2)?366:365;
}
offset2 = x;
}
// Find values of day and month from
// offset of result year.
int m2, d2;
revoffsetDays(offset2, y2, &d2, &m2);
cout << "d2 = " << d2 << ", m2 = " << m2
<< ", y2 = " << y2;
}
// Driven Program
int main()
{
int d = 14, m = 3, y = 2015;
int x = 366;
addDays(d, m, y, x);
return 0;
}
不知道这是否有帮助。我正在开发一个调度系统,最初的简单草稿中计算开始日期为到期日期减去提前天数。我使用经过的秒数(自纪元以来)来允许在代码的未来草稿中获得更高的精度。
#include <iostream>
#include <ctime>
int main() {
// lead time in days
int lead_time = 20;
// assign a due_date of (midnight on) 3rd November 2020
tm tm_due_date = { 0, 0, 0, 3, 11, 2020-1900};
// convert due_date to seconds elapsed (since epoch)
time_t tt_due_date = mktime(&tm_due_date);
// subtract lead time seconds
tt_due_date -= 60 * 60 * 24 * lead_time;
// convert back (to local time)
tm *start_date = localtime(&tt_due_date);
// otput the result as something we can readily read
std::cout << asctime(start_date) << "\n";
}