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//! # Chrono-TZ 0.4.1 //! //! `Chrono-TZ` is a library that provides implementors of the //! [`TimeZone`][timezone] trait for [`rust-chrono`][chrono]. The //! impls are generated by a build script using the [`IANA database`][iana] //! and [`zoneinfo_parse`][zoneinfo_parse]. //! //! [chrono]: https://github.com/lifthrasiir/rust-chrono //! [timezone]: https://lifthrasiir.github.io/rust-chrono/chrono/offset/trait.TimeZone.html //! [iana]: http://www.iana.org/time-zones //! [zoneinfo_parse]: https://github.com/rust-datetime/zoneinfo-parse //! //! ## Usage //! //! Put this in your `Cargo.toml`: //! //! ```toml //! [dependencies] //! chrono = "0.4" //! chrono-tz = "0.4" //! ``` //! //! If you want Serde support, specify it like this: //! //! ```toml //! chrono-tz = { version = "0.4", features = ["serde"] } //! ``` //! //! Then you will need to write (in your crate root): //! //! ``` //! extern crate chrono; //! extern crate chrono_tz; //! ``` //! //! ## Examples //! //! Create a time in one timezone and convert it to UTC //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::{TimeZone, Utc}; //! use chrono_tz::US::Pacific; //! //! # fn main() { //! let pacific_time = Pacific.ymd(1990, 5, 6).and_hms(12, 30, 45); //! let utc_time = pacific_time.with_timezone(&Utc); //! assert_eq!(utc_time, Utc.ymd(1990, 5, 6).and_hms(19, 30, 45)); //! # } //! ``` //! //! Create a naive datetime and convert it to a timezone-aware datetime //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::{TimeZone, NaiveDate}; //! use chrono_tz::Africa::Johannesburg; //! //! # fn main() { //! let naive_dt = NaiveDate::from_ymd(2038, 1, 19).and_hms(3, 14, 08); //! let tz_aware = Johannesburg.from_local_datetime(&naive_dt).unwrap(); //! assert_eq!(tz_aware.to_string(), "2038-01-19 03:14:08 SAST"); //! # } //! ``` //! //! London and New York change their clocks on different days in March //! so only have a 4-hour difference on certain days. //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::TimeZone; //! use chrono_tz::Europe::London; //! use chrono_tz::America::New_York; //! //! # fn main() { //! let london_time = London.ymd(2016, 3, 18).and_hms(3, 0, 0); //! let ny_time = london_time.with_timezone(&New_York); //! assert_eq!(ny_time, New_York.ymd(2016, 3, 17).and_hms(23, 0, 0)); //! # } //! ``` //! //! Adding 24 hours across a daylight savings change causes a change //! in local time //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::{TimeZone, Duration}; //! use chrono_tz::Europe::London; //! //! # fn main() { //! let dt = London.ymd(2016, 10, 29).and_hms(12, 0, 0); //! let later = dt + Duration::hours(24); //! assert_eq!(later, London.ymd(2016, 10, 30).and_hms(11, 0, 0)); //! # } //! ``` //! //! And of course you can always convert a local time to a unix timestamp //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::TimeZone; //! use chrono_tz::Asia::Kolkata; //! //! # fn main() { //! let dt = Kolkata.ymd(2000, 1, 1).and_hms(0, 0, 0); //! let timestamp = dt.timestamp(); //! assert_eq!(timestamp, 946665000); //! # } //! ``` //! //! Pretty-printing a string will use the correct abbreviation for the timezone //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::TimeZone; //! use chrono_tz::Europe::London; //! //! # fn main() { //! let dt = London.ymd(2016, 5, 10).and_hms(12, 0, 0); //! assert_eq!(dt.to_string(), "2016-05-10 12:00:00 BST"); //! assert_eq!(dt.to_rfc3339(), "2016-05-10T12:00:00+01:00"); //! # } //! ``` //! //! You can convert a timezone string to a timezone using the FromStr trait //! //! ``` //! # extern crate chrono; //! # extern crate chrono_tz; //! use chrono::TimeZone; //! use chrono_tz::Tz; //! use chrono_tz::UTC; //! //! # fn main() { //! let tz: Tz = "Antarctica/South_Pole".parse().unwrap(); //! let dt = tz.ymd(2016, 10, 22).and_hms(12, 0, 0); //! let utc = dt.with_timezone(&UTC); //! assert_eq!(utc.to_string(), "2016-10-21 23:00:00 UTC"); //! # } //! ``` //! //! If you need to iterate over all variants you can use the TZ_VARIANTS array //! ``` //! use chrono_tz::{TZ_VARIANTS, Tz}; //! assert!(TZ_VARIANTS.iter().any(|v| *v == Tz::UTC)); //! ``` #![cfg_attr(not(feature = "std"), no_std)] #[cfg(feature = "std")] extern crate std as core; extern crate chrono; #[cfg(feature = "serde")] mod serde; mod binary_search; mod directory; mod timezone_impl; mod timezones; pub use directory::*; pub use timezone_impl::{OffsetComponents, OffsetName}; pub use timezones::Tz; pub use timezones::TZ_VARIANTS; #[cfg(test)] mod tests { use super::America::Danmarkshavn; use super::Asia::Dhaka; use super::Australia::Adelaide; use super::Europe::Amsterdam; use super::Europe::Berlin; use super::Europe::London; use super::Europe::Moscow; use super::Europe::Vilnius; use super::Europe::Warsaw; use super::Pacific::Apia; use super::Pacific::Noumea; use super::Pacific::Tahiti; use super::Tz; use super::US::Eastern; use super::UTC; use chrono::{Duration, TimeZone}; #[test] fn london_to_berlin() { let dt = London.ymd(2016, 10, 8).and_hms(17, 0, 0); let converted = dt.with_timezone(&Berlin); let expected = Berlin.ymd(2016, 10, 8).and_hms(18, 0, 0); assert_eq!(converted, expected); } #[test] fn us_eastern_dst_commutativity() { let dt = UTC.ymd(2002, 4, 7).and_hms(7, 0, 0); for days in -420..720 { let dt1 = (dt + Duration::days(days)).with_timezone(&Eastern); let dt2 = dt.with_timezone(&Eastern) + Duration::days(days); assert_eq!(dt1, dt2); } } #[test] fn test_addition_across_dst_boundary() { use chrono::TimeZone; let two_hours = Duration::hours(2); let edt = Eastern.ymd(2019, 11, 3).and_hms(0, 0, 0); let est = edt + two_hours; assert_eq!(edt.to_string(), "2019-11-03 00:00:00 EDT".to_string()); assert_eq!(est.to_string(), "2019-11-03 01:00:00 EST".to_string()); assert_eq!(est.timestamp(), edt.timestamp() + two_hours.num_seconds()); } #[test] fn warsaw_tz_name() { let dt = UTC.ymd(1915, 8, 4).and_hms(22, 35, 59); assert_eq!(dt.with_timezone(&Warsaw).format("%Z").to_string(), "WMT"); let dt = dt + Duration::seconds(1); assert_eq!(dt.with_timezone(&Warsaw).format("%Z").to_string(), "CET"); } #[test] fn vilnius_utc_offset() { let dt = UTC.ymd(1916, 12, 31).and_hms(22, 35, 59).with_timezone(&Vilnius); assert_eq!(dt, Vilnius.ymd(1916, 12, 31).and_hms(23, 59, 59)); let dt = dt + Duration::seconds(1); assert_eq!(dt, Vilnius.ymd(1917, 1, 1).and_hms(0, 11, 36)); } #[test] fn victorian_times() { let dt = UTC.ymd(1847, 12, 1).and_hms(0, 1, 14).with_timezone(&London); assert_eq!(dt, London.ymd(1847, 11, 30).and_hms(23, 59, 59)); let dt = dt + Duration::seconds(1); assert_eq!(dt, London.ymd(1847, 12, 1).and_hms(0, 1, 15)); } #[test] fn london_dst() { let dt = London.ymd(2016, 3, 10).and_hms(5, 0, 0); let later = dt + Duration::days(180); let expected = London.ymd(2016, 9, 6).and_hms(6, 0, 0); assert_eq!(later, expected); } #[test] fn international_date_line_change() { let dt = UTC.ymd(2011, 12, 30).and_hms(9, 59, 59).with_timezone(&Apia); assert_eq!(dt, Apia.ymd(2011, 12, 29).and_hms(23, 59, 59)); let dt = dt + Duration::seconds(1); assert_eq!(dt, Apia.ymd(2011, 12, 31).and_hms(0, 0, 0)); } #[test] fn negative_offset_with_minutes_and_seconds() { let dt = UTC.ymd(1900, 1, 1).and_hms(12, 0, 0).with_timezone(&Danmarkshavn); assert_eq!(dt, Danmarkshavn.ymd(1900, 1, 1).and_hms(10, 45, 20)); } #[test] fn monotonicity() { let mut dt = Noumea.ymd(1800, 1, 1).and_hms(12, 0, 0); for _ in 0..24 * 356 * 400 { let new = dt + Duration::hours(1); assert!(new > dt); assert!(new.with_timezone(&UTC) > dt.with_timezone(&UTC)); dt = new; } } fn test_inverse<T: TimeZone>(tz: T, begin: i32, end: i32) { for y in begin..end { for d in 1..366 { for h in 0..24 { for m in 0..60 { let dt = UTC.yo(y, d).and_hms(h, m, 0); let with_tz = dt.with_timezone(&tz); let utc = with_tz.with_timezone(&UTC); assert_eq!(dt, utc); } } } } } #[test] fn inverse_london() { test_inverse(London, 1989, 1994); } #[test] fn inverse_dhaka() { test_inverse(Dhaka, 1995, 2000); } #[test] fn inverse_apia() { test_inverse(Apia, 2011, 2012); } #[test] fn inverse_tahiti() { test_inverse(Tahiti, 1911, 1914); } #[test] fn string_representation() { let dt = UTC.ymd(2000, 9, 1).and_hms(12, 30, 15).with_timezone(&Adelaide); assert_eq!(dt.to_string(), "2000-09-01 22:00:15 ACST"); assert_eq!(format!("{:?}", dt), "2000-09-01T22:00:15ACST"); assert_eq!(dt.to_rfc3339(), "2000-09-01T22:00:15+09:30"); assert_eq!(format!("{}", dt), "2000-09-01 22:00:15 ACST"); } #[test] fn tahiti() { let dt = UTC.ymd(1912, 10, 1).and_hms(9, 58, 16).with_timezone(&Tahiti); let before = dt - Duration::hours(1); assert_eq!(before, Tahiti.ymd(1912, 9, 30).and_hms(23, 0, 0)); let after = dt + Duration::hours(1); assert_eq!(after, Tahiti.ymd(1912, 10, 1).and_hms(0, 58, 16)); } #[test] fn second_offsets() { let dt = UTC.ymd(1914, 1, 1).and_hms(13, 40, 28).with_timezone(&Amsterdam); assert_eq!(dt.to_string(), "1914-01-01 14:00:00 AMT"); // NOTE: pytz will give a different result here. The actual offset is +00:19:32. // The implementation of RFC3339 formatting in chrono rounds down the // number of minutes, whereas pytz rounds to nearest in cases such as this. // RFC3339 specifies that precision is not required in this case, and that // to retain precision, the time should be converted to a representable // format. // In any case, the actual datetime objects themselves always retain full // precision in this implementation (unlike pytz). It is only (some) string // representations that lack precision. assert_eq!(dt.to_rfc3339(), "1914-01-01T14:00:00+00:19"); } #[test] #[should_panic] fn nonexistent_time() { let _ = London.ymd(2016, 3, 27).and_hms(1, 30, 0); } #[test] #[should_panic] fn nonexistent_time_2() { let _ = London.ymd(2016, 3, 27).and_hms(1, 0, 0); } #[test] fn time_exists() { let _ = London.ymd(2016, 3, 27).and_hms(2, 0, 0); } #[test] #[should_panic] fn ambiguous_time() { let _ = London.ymd(2016, 10, 30).and_hms(1, 0, 0); } #[test] #[should_panic] fn ambiguous_time_2() { let _ = London.ymd(2016, 10, 30).and_hms(1, 30, 0); } #[test] #[should_panic] fn ambiguous_time_3() { let _ = Moscow.ymd(2014, 10, 26).and_hms(1, 30, 0); } #[test] #[should_panic] fn ambiguous_time_4() { let _ = Moscow.ymd(2014, 10, 26).and_hms(1, 0, 0); } #[test] fn unambiguous_time() { let _ = London.ymd(2016, 10, 30).and_hms(2, 0, 0); } #[test] fn unambiguous_time_2() { let _ = Moscow.ymd(2014, 10, 26).and_hms(2, 0, 0); } #[test] fn test_get_name() { assert_eq!(London.name(), "Europe/London"); assert_eq!(Tz::Africa__Abidjan.name(), "Africa/Abidjan"); assert_eq!(Tz::UTC.name(), "UTC"); assert_eq!(Tz::Zulu.name(), "Zulu"); } #[test] fn test_display() { assert_eq!(format!("{}", London), "Europe/London"); assert_eq!(format!("{}", Tz::Africa__Abidjan), "Africa/Abidjan"); assert_eq!(format!("{}", Tz::UTC), "UTC"); assert_eq!(format!("{}", Tz::Zulu), "Zulu"); } #[test] fn test_impl_hash() { #[allow(dead_code)] #[derive(Hash)] struct Foo(Tz); } }