#if __has_include() #include // bundled, debian #else #include // freebsd #endif #if __has_include() #include #else #include #endif #include #include #include #include #include #include #define DATE_LUT_MIN 0 namespace { UInt8 getDayOfWeek(const cctz::civil_day & date) { cctz::weekday day_of_week = cctz::get_weekday(date); switch (day_of_week) { case cctz::weekday::monday: return 1; case cctz::weekday::tuesday: return 2; case cctz::weekday::wednesday: return 3; case cctz::weekday::thursday: return 4; case cctz::weekday::friday: return 5; case cctz::weekday::saturday: return 6; case cctz::weekday::sunday: return 7; default: throw Poco::Exception("Logical error: incorrect week day."); } } } DateLUTImpl::DateLUTImpl(const std::string & time_zone_) : time_zone(time_zone_) { size_t i = 0; time_t start_of_day = DATE_LUT_MIN; cctz::time_zone cctz_time_zone; if (!cctz::load_time_zone(time_zone.data(), &cctz_time_zone)) throw Poco::Exception("Cannot load time zone " + time_zone_); cctz::time_zone::absolute_lookup start_of_epoch_lookup = cctz_time_zone.lookup(std::chrono::system_clock::from_time_t(start_of_day)); offset_at_start_of_epoch = start_of_epoch_lookup.offset; offset_is_whole_number_of_hours_everytime = true; cctz::civil_day date{1970, 1, 1}; do { cctz::time_zone::civil_lookup lookup = cctz_time_zone.lookup(date); start_of_day = std::chrono::system_clock::to_time_t(lookup.pre); /// Ambiguouty is possible. Values & values = lut[i]; values.year = date.year(); values.month = date.month(); values.day_of_month = date.day(); values.day_of_week = getDayOfWeek(date); values.date = start_of_day; if (values.day_of_month == 1) { cctz::civil_month month(date); values.days_in_month = cctz::civil_day(month + 1) - cctz::civil_day(month); } else values.days_in_month = i != 0 ? lut[i - 1].days_in_month : 31; values.time_at_offset_change = 0; values.amount_of_offset_change = 0; if (start_of_day % 3600) offset_is_whole_number_of_hours_everytime = false; /// If UTC offset was changed in previous day. if (i != 0) { auto amount_of_offset_change_at_prev_day = 86400 - (lut[i].date - lut[i - 1].date); if (amount_of_offset_change_at_prev_day) { lut[i - 1].amount_of_offset_change = amount_of_offset_change_at_prev_day; const auto utc_offset_at_beginning_of_day = cctz_time_zone.lookup(std::chrono::system_clock::from_time_t(lut[i - 1].date)).offset; /// Find a time (timestamp offset from beginning of day), /// when UTC offset was changed. Search is performed with 15-minute granularity, assuming it is enough. time_t time_at_offset_change = 900; while (time_at_offset_change < 65536) { auto utc_offset_at_current_time = cctz_time_zone.lookup(std::chrono::system_clock::from_time_t( lut[i - 1].date + time_at_offset_change)).offset; if (utc_offset_at_current_time != utc_offset_at_beginning_of_day) break; time_at_offset_change += 900; } lut[i - 1].time_at_offset_change = time_at_offset_change >= 65536 ? 0 : time_at_offset_change; /* std::cerr << lut[i - 1].year << "-" << int(lut[i - 1].month) << "-" << int(lut[i - 1].day_of_month) << " offset was changed at " << lut[i - 1].time_at_offset_change << " for " << lut[i - 1].amount_of_offset_change << " seconds.\n";*/ } } /// Going to next day. ++date; ++i; } while (start_of_day <= DATE_LUT_MAX && i <= DATE_LUT_MAX_DAY_NUM); /// Fill excessive part of lookup table. This is needed only to simplify handling of overflow cases. while (i < DATE_LUT_SIZE) { lut[i] = lut[0]; ++i; } /// Fill lookup table for years and months. for (size_t day = 0; day < DATE_LUT_SIZE && lut[day].year <= DATE_LUT_MAX_YEAR; ++day) { const Values & values = lut[day]; if (values.day_of_month == 1) { if (values.month == 1) years_lut[values.year - DATE_LUT_MIN_YEAR] = day; years_months_lut[(values.year - DATE_LUT_MIN_YEAR) * 12 + values.month - 1] = day; } } }