// Copyright (c) 2017-2020, Mudita Sp. z.o.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#ifndef DATECOMMON_H
#define DATECOMMON_H
#include <module-utils/date/include/date/date.h>
#include <time/time_conversion.hpp>
#include <Utils.hpp>
#include <random>
namespace calendar
{
using Clock = std::chrono::system_clock;
using TimePoint = std::chrono::time_point<Clock>;
using YearMonthDay = date::year_month_day;
using YearMonthDayLast = date::year_month_day_last;
} // namespace calendar
inline constexpr auto max_month_day = 48;
enum class Reminder
{
never = 0xFFFF,
event_time = 0,
five_min_before = 5,
fifteen_min_before = 15,
thirty_min_before = 30,
one_hour_before = 60,
two_hour_before = 120,
one_day_before = 1440,
two_days_before = 2880,
one_week_before = 10080
};
enum class Repeat
{
never,
daily,
weekly,
biweekly,
monthly,
yearly
};
inline constexpr calendar::TimePoint TIME_POINT_INVALID = date::sys_days{date::January / 1 / 1970};
inline constexpr uint32_t yearDigitsNumb = 4, monthDigitsNumb = 2, dayDigitsNumb = 2, HourDigitsNumb = 2,
MinDigitsNumb = 2, SecDigitsNumb = 2;
inline std::tm CreateTmStruct(int year, int month, int day, int hour, int minutes, int seconds)
{
struct tm tm_ret;
tm_ret.tm_isdst = -1;
tm_ret.tm_sec = seconds;
tm_ret.tm_min = minutes;
tm_ret.tm_hour = hour;
tm_ret.tm_mday = day;
tm_ret.tm_mon = month - 1;
tm_ret.tm_year = year - 1900;
return tm_ret;
}
inline time_t GetDiffLocalWithUTCTime()
{
std::tm tm = CreateTmStruct(2000, 1, 1, 0, 0, 0);
std::time_t basetime = std::mktime(&tm);
std::time_t diff;
tm = *std::localtime(&basetime);
tm.tm_isdst = -1;
diff = std::mktime(&tm);
tm = *std::gmtime(&basetime);
tm.tm_isdst = -1;
diff -= std::mktime(&tm);
return diff;
}
inline time_t GetAsUTCTime(int year, int month, int day, int hour = 0, int minutes = 0, int seconds = 0)
{
std::tm tm = CreateTmStruct(year, month, day, hour, minutes, seconds);
std::time_t basetime = std::mktime(&tm);
return basetime + GetDiffLocalWithUTCTime();
}
inline calendar::TimePoint TimePointFromTimeT(const time_t &time)
{
return std::chrono::system_clock::from_time_t(time);
}
inline time_t TimePointToTimeT(const calendar::TimePoint &tp)
{
return std::chrono::system_clock::to_time_t(tp);
}
inline calendar::TimePoint TimePointNow()
{
utils::time::Timestamp timestamp;
return TimePointFromTimeT(timestamp.getTime());
}
inline std::string TimePointToString(const calendar::TimePoint &tp)
{
return date::format("%F %T", std::chrono::time_point_cast<std::chrono::seconds>(tp));
}
inline auto TimePointToHourMinSec(const calendar::TimePoint &tp)
{
auto dp = date::floor<date::days>(tp);
return date::make_time(tp - dp);
}
inline uint32_t TimePointToHour24H(const calendar::TimePoint &tp)
{
auto time = TimePointToTimeT(tp);
utils::time::Timestamp timestamp(time);
auto hour = timestamp.get_date_time_sub_value(utils::time::GetParameters::Hour);
return hour;
}
inline uint32_t TimePointToMinutes(const calendar::TimePoint &tp)
{
auto time = TimePointToTimeT(tp);
utils::time::Timestamp timestamp(time);
auto minute = timestamp.get_date_time_sub_value(utils::time::GetParameters::Minute);
return minute;
}
inline calendar::TimePoint getFirstWeekDay(const calendar::TimePoint &tp)
{
date::year_month_day yearMonthDay = date::year_month_day{date::floor<date::days>(tp)};
auto hourV = TimePointToHour24H(tp);
auto minuteV = TimePointToMinutes(tp);
while (date::weekday{yearMonthDay} != date::mon) {
auto decrementedDay = --yearMonthDay.day();
yearMonthDay = yearMonthDay.year() / yearMonthDay.month() / decrementedDay;
}
auto finalDate = date::sys_days{yearMonthDay.year() / yearMonthDay.month() / yearMonthDay.day()};
auto finalDateTime = finalDate + std::chrono::hours(hourV) + std::chrono::minutes(minuteV);
return finalDateTime;
}
inline std::string TimePointToString(const calendar::TimePoint &tp, date::months months)
{
date::year_month_day yearMonthDay = date::year_month_day{date::floor<date::days>(tp)};
date::year_month_day yearMonthDayLast = yearMonthDay.year() / yearMonthDay.month() / date::last;
calendar::TimePoint timePoint;
if ((static_cast<unsigned>(yearMonthDay.month()) + months.count()) <= 12) {
if (yearMonthDayLast.day() == yearMonthDay.day()) {
yearMonthDayLast = yearMonthDay.year() / (yearMonthDay.month() + months) / date::last;
timePoint = date::sys_days{yearMonthDayLast.year() / yearMonthDayLast.month() / yearMonthDayLast.day()};
}
else {
timePoint = date::sys_days{yearMonthDay.year() / (yearMonthDay.month() + months) / yearMonthDay.day()};
}
}
else {
date::month incrementedMonths = date::month(months.count()) - (date::month(12) - yearMonthDay.month());
yearMonthDay = (yearMonthDay.year() + date::years{1}) / incrementedMonths / yearMonthDay.day();
if (yearMonthDayLast.day() == yearMonthDay.day()) {
yearMonthDayLast = yearMonthDay.year() / incrementedMonths / date::last;
timePoint = date::sys_days{yearMonthDayLast.year() / yearMonthDayLast.month() / yearMonthDayLast.day()};
}
else {
timePoint = date::sys_days{yearMonthDay.year() / yearMonthDay.month() / yearMonthDay.day()};
}
}
return date::format("%F %T", std::chrono::time_point_cast<std::chrono::seconds>(timePoint));
}
inline std::string TimePointToLocalizedDateString(const calendar::TimePoint &tp, const std::string format = "")
{
auto time = TimePointToTimeT(tp);
utils::time::Date timestamp(time);
return timestamp.str(format);
}
inline std::string TimePointToLocalizedTimeString(const calendar::TimePoint &tp, const std::string format = "")
{
auto time = TimePointToTimeT(tp);
utils::time::Time timestamp(time);
return timestamp.str(format);
}
inline calendar::TimePoint TimePointFromString(const char *s1)
{
calendar::TimePoint tp;
std::istringstream(s1) >> date::parse("%F %T", tp);
return tp;
}
inline calendar::YearMonthDay TimePointToYearMonthDay(const calendar::TimePoint &tp)
{
return date::year_month_day{date::floor<date::days>(tp)};
}
inline calendar::TimePoint TimePointFromYearMonthDay(const calendar::YearMonthDay &ymd)
{
return date::sys_days{ymd.year() / ymd.month() / ymd.day()};
}
inline time_t TimePointToMin(const calendar::TimePoint &tp)
{
auto time = TimePointToTimeT(tp);
auto duration = new utils::time::Duration(time);
auto minutes = duration->getMinutes();
return minutes;
}
inline uint32_t TimePointToHour12H(const calendar::TimePoint &tp)
{
auto time = TimePointToTimeT(tp);
utils::time::Timestamp timestamp(time);
auto hour = timestamp.get_date_time_sub_value(utils::time::GetParameters::Hour);
if (hour > 12) {
hour -= 12;
}
return hour;
}
inline std::string TimePointToHourString12H(const calendar::TimePoint &tp)
{
auto hour =
utils::time::Timestamp(TimePointToTimeT(tp)).get_UTC_date_time_sub_value(utils::time::GetParameters::Hour);
auto hour12h = date::make12(std::chrono::hours(hour)).count();
return utils::to_string(hour12h);
}
inline std::string TimePointToHourString24H(const calendar::TimePoint &tp)
{
auto hour =
utils::time::Timestamp(TimePointToTimeT(tp)).get_UTC_date_time_sub_value(utils::time::GetParameters::Hour);
return utils::to_string(hour);
}
inline std::string TimePointToMinutesString(const calendar::TimePoint &tp)
{
auto minute = TimePointToMinutes(tp);
auto minuteString = std::to_string(minute);
if (minute < 10) {
minuteString = "0" + minuteString;
}
return minuteString;
}
// 0: Monday, 1: Tuesday ... 6: Sunday
inline unsigned int WeekdayIndexFromTimePoint(const calendar::TimePoint &tp)
{
auto ymw = date::year_month_weekday{std::chrono::floor<date::days>(tp)};
return ymw.weekday().iso_encoding() - 1;
}
inline std::string createUID()
{
constexpr uint32_t bufferLimit = 16;
char Buffer[bufferLimit];
utils::time::Timestamp timestamp;
std::string UID{timestamp.str("%Y%m%dT%H%M%S")};
UID += '-';
std::random_device rd;
std::mt19937 gen(rd());
std::uniform_int_distribution<> distrib(1, 100);
sprintf(Buffer, "%d", distrib(gen));
UID += Buffer;
return UID;
}
#endif
// DATECOMMON_H