// This is a part of Chrono. // See README.md and LICENSE.txt for details. //! The local (system) time zone. use oldtime; use {Datelike, Timelike}; use naive::{NaiveDate, NaiveTime, NaiveDateTime}; use {Date, DateTime}; use super::{TimeZone, LocalResult}; use super::fixed::FixedOffset; /// Converts a `time::Tm` struct into the timezone-aware `DateTime`. /// This assumes that `time` is working correctly, i.e. any error is fatal. fn tm_to_datetime(mut tm: oldtime::Tm) -> DateTime { if tm.tm_sec >= 60 { tm.tm_nsec += (tm.tm_sec - 59) * 1_000_000_000; tm.tm_sec = 59; } #[cfg(not(windows))] fn tm_to_naive_date(tm: &oldtime::Tm) -> NaiveDate { // from_yo is more efficient than from_ymd (since it's the internal representation). NaiveDate::from_yo(tm.tm_year + 1900, tm.tm_yday as u32 + 1) } #[cfg(windows)] fn tm_to_naive_date(tm: &oldtime::Tm) -> NaiveDate { // ...but tm_yday is broken in Windows (issue #85) NaiveDate::from_ymd(tm.tm_year + 1900, tm.tm_mon as u32 + 1, tm.tm_mday as u32) } let date = tm_to_naive_date(&tm); let time = NaiveTime::from_hms_nano(tm.tm_hour as u32, tm.tm_min as u32, tm.tm_sec as u32, tm.tm_nsec as u32); let offset = FixedOffset::east(tm.tm_utcoff); DateTime::from_utc(date.and_time(time) - offset, offset) } /// Converts a local `NaiveDateTime` to the `time::Timespec`. fn datetime_to_timespec(d: &NaiveDateTime, local: bool) -> oldtime::Timespec { // well, this exploits an undocumented `Tm::to_timespec` behavior // to get the exact function we want (either `timegm` or `mktime`). // the number 1 is arbitrary but should be non-zero to trigger `mktime`. let tm_utcoff = if local {1} else {0}; let tm = oldtime::Tm { tm_sec: d.second() as i32, tm_min: d.minute() as i32, tm_hour: d.hour() as i32, tm_mday: d.day() as i32, tm_mon: d.month0() as i32, // yes, C is that strange... tm_year: d.year() - 1900, // this doesn't underflow, we know that d is `NaiveDateTime`. tm_wday: 0, // to_local ignores this tm_yday: 0, // and this tm_isdst: -1, tm_utcoff: tm_utcoff, // do not set this, OS APIs are heavily inconsistent in terms of leap second handling tm_nsec: 0, }; tm.to_timespec() } /// The local timescale. This is implemented via the standard `time` crate. /// /// Using the [`TimeZone`](./trait.TimeZone.html) methods /// on the Local struct is the preferred way to construct `DateTime` /// instances. /// /// # Example /// /// ~~~~ /// use chrono::{Local, DateTime, TimeZone}; /// /// let dt: DateTime = Local::now(); /// let dt: DateTime = Local.timestamp(0, 0); /// ~~~~ #[derive(Copy, Clone, Debug)] pub struct Local; impl Local { /// Returns a `Date` which corresponds to the current date. pub fn today() -> Date { Local::now().date() } /// Returns a `DateTime` which corresponds to the current date. #[cfg(not(all(target_arch = "wasm32", feature = "wasmbind")))] pub fn now() -> DateTime { tm_to_datetime(oldtime::now()) } /// Returns a `DateTime` which corresponds to the current date. #[cfg(all(target_arch = "wasm32", feature = "wasmbind"))] pub fn now() -> DateTime { use super::Utc; let now: DateTime = super::Utc::now(); // Workaround missing timezone logic in `time` crate let offset = FixedOffset::west((js_sys::Date::new_0().get_timezone_offset() as i32) * 60); DateTime::from_utc(now.naive_utc(), offset) } } impl TimeZone for Local { type Offset = FixedOffset; fn from_offset(_offset: &FixedOffset) -> Local { Local } // they are easier to define in terms of the finished date and time unlike other offsets fn offset_from_local_date(&self, local: &NaiveDate) -> LocalResult { self.from_local_date(local).map(|date| *date.offset()) } fn offset_from_local_datetime(&self, local: &NaiveDateTime) -> LocalResult { self.from_local_datetime(local).map(|datetime| *datetime.offset()) } fn offset_from_utc_date(&self, utc: &NaiveDate) -> FixedOffset { *self.from_utc_date(utc).offset() } fn offset_from_utc_datetime(&self, utc: &NaiveDateTime) -> FixedOffset { *self.from_utc_datetime(utc).offset() } // override them for avoiding redundant works fn from_local_date(&self, local: &NaiveDate) -> LocalResult> { // this sounds very strange, but required for keeping `TimeZone::ymd` sane. // in the other words, we use the offset at the local midnight // but keep the actual date unaltered (much like `FixedOffset`). let midnight = self.from_local_datetime(&local.and_hms(0, 0, 0)); midnight.map(|datetime| Date::from_utc(*local, *datetime.offset())) } fn from_local_datetime(&self, local: &NaiveDateTime) -> LocalResult> { let timespec = datetime_to_timespec(local, true); // datetime_to_timespec completely ignores leap seconds, so we need to adjust for them let mut tm = oldtime::at(timespec); assert_eq!(tm.tm_nsec, 0); tm.tm_nsec = local.nanosecond() as i32; LocalResult::Single(tm_to_datetime(tm)) } fn from_utc_date(&self, utc: &NaiveDate) -> Date { let midnight = self.from_utc_datetime(&utc.and_hms(0, 0, 0)); Date::from_utc(*utc, *midnight.offset()) } fn from_utc_datetime(&self, utc: &NaiveDateTime) -> DateTime { let timespec = datetime_to_timespec(utc, false); // datetime_to_timespec completely ignores leap seconds, so we need to adjust for them let mut tm = oldtime::at(timespec); assert_eq!(tm.tm_nsec, 0); tm.tm_nsec = utc.nanosecond() as i32; tm_to_datetime(tm) } } #[cfg(test)] mod tests { use Datelike; use offset::TimeZone; use super::Local; #[test] fn test_local_date_sanity_check() { // issue #27 assert_eq!(Local.ymd(2999, 12, 28).day(), 28); } #[test] fn test_leap_second() { // issue #123 let today = Local::today(); let dt = today.and_hms_milli(1, 2, 59, 1000); let timestr = dt.time().to_string(); // the OS API may or may not support the leap second, // but there are only two sensible options. assert!(timestr == "01:02:60" || timestr == "01:03:00", "unexpected timestr {:?}", timestr); let dt = today.and_hms_milli(1, 2, 3, 1234); let timestr = dt.time().to_string(); assert!(timestr == "01:02:03.234" || timestr == "01:02:04.234", "unexpected timestr {:?}", timestr); } }