chrono/lib.rs
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//! # Chrono: Date and Time for Rust
//!
//! Chrono aims to provide all functionality needed to do correct operations on dates and times in
//! the [proleptic Gregorian calendar]:
//!
//! * The [`DateTime`] type is timezone-aware by default, with separate timezone-naive types.
//! * Operations that may produce an invalid or ambiguous date and time return `Option` or
//! [`MappedLocalTime`].
//! * Configurable parsing and formatting with a `strftime` inspired date and time formatting
//! syntax.
//! * The [`Local`] timezone works with the current timezone of the OS.
//! * Types and operations are implemented to be reasonably efficient.
//!
//! Timezone data is not shipped with chrono by default to limit binary sizes. Use the companion
//! crate [Chrono-TZ] or [`tzfile`] for full timezone support.
//!
//! [proleptic Gregorian calendar]: https://en.wikipedia.org/wiki/Proleptic_Gregorian_calendar
//! [Chrono-TZ]: https://crates.io/crates/chrono-tz
//! [`tzfile`]: https://crates.io/crates/tzfile
//!
//! ### Features
//!
//! Chrono supports various runtime environments and operating systems, and has several features
//! that may be enabled or disabled.
//!
//! Default features:
//!
//! - `alloc`: Enable features that depend on allocation (primarily string formatting).
//! - `std`: Enables functionality that depends on the standard library. This is a superset of
//! `alloc` and adds interoperation with standard library types and traits.
//! - `clock`: Enables reading the local timezone (`Local`). This is a superset of `now`.
//! - `now`: Enables reading the system time (`now`).
//! - `wasmbind`: Interface with the JS Date API for the `wasm32` target.
//!
//! Optional features:
//!
//! - `serde`: Enable serialization/deserialization via [serde].
//! - `rkyv`: Deprecated, use the `rkyv-*` features.
//! - `rkyv-16`: Enable serialization/deserialization via [rkyv],
//! using 16-bit integers for integral `*size` types.
//! - `rkyv-32`: Enable serialization/deserialization via [rkyv],
//! using 32-bit integers for integral `*size` types.
//! - `rkyv-64`: Enable serialization/deserialization via [rkyv],
//! using 64-bit integers for integral `*size` types.
//! - `rkyv-validation`: Enable rkyv validation support using `bytecheck`.
//! - `arbitrary`: Construct arbitrary instances of a type with the Arbitrary crate.
//! - `unstable-locales`: Enable localization. This adds various methods with a `_localized` suffix.
//! The implementation and API may change or even be removed in a patch release. Feedback welcome.
//! - `oldtime`: This feature no longer has any effect; it used to offer compatibility with the
//! `time` 0.1 crate.
//!
//! Note: The `rkyv{,-16,-32,-64}` features are mutually exclusive.
//!
//! See the [cargo docs] for examples of specifying features.
//!
//! [serde]: https://github.com/serde-rs/serde
//! [rkyv]: https://github.com/rkyv/rkyv
//! [cargo docs]: https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html#choosing-features
//!
//! ## Overview
//!
//! ### Time delta / Duration
//!
//! Chrono has a [`TimeDelta`] type to represent the magnitude of a time span. This is an "accurate"
//! duration represented as seconds and nanoseconds, and does not represent "nominal" components
//! such as days or months.
//!
//! The [`TimeDelta`] type was previously named `Duration` (and is still available as a type alias
//! with that name). A notable difference with the similar [`core::time::Duration`] is that it is a
//! signed value instead of unsigned.
//!
//! Chrono currently only supports a small number of operations with [`core::time::Duration`].
//! You can convert between both types with the [`TimeDelta::from_std`] and [`TimeDelta::to_std`]
//! methods.
//!
//! ### Date and Time
//!
//! Chrono provides a [`DateTime`] type to represent a date and a time in a timezone.
//!
//! For more abstract moment-in-time tracking such as internal timekeeping that is unconcerned with
//! timezones, consider [`std::time::SystemTime`], which tracks your system clock, or
//! [`std::time::Instant`], which is an opaque but monotonically-increasing representation of a
//! moment in time.
//!
//! [`DateTime`] is timezone-aware and must be constructed from a [`TimeZone`] object, which defines
//! how the local date is converted to and back from the UTC date.
//! There are three well-known [`TimeZone`] implementations:
//!
//! * [`Utc`] specifies the UTC time zone. It is most efficient.
//!
//! * [`Local`] specifies the system local time zone.
//!
//! * [`FixedOffset`] specifies an arbitrary, fixed time zone such as UTC+09:00 or UTC-10:30.
//! This often results from the parsed textual date and time. Since it stores the most information
//! and does not depend on the system environment, you would want to normalize other `TimeZone`s
//! into this type.
//!
//! [`DateTime`]s with different [`TimeZone`] types are distinct and do not mix, but can be
//! converted to each other using the [`DateTime::with_timezone`] method.
//!
//! You can get the current date and time in the UTC time zone ([`Utc::now()`]) or in the local time
//! zone ([`Local::now()`]).
//!
//! ```
//! # #[cfg(feature = "now")] {
//! use chrono::prelude::*;
//!
//! let utc: DateTime<Utc> = Utc::now(); // e.g. `2014-11-28T12:45:59.324310806Z`
//! # let _ = utc;
//! # }
//! ```
//!
//! ```
//! # #[cfg(feature = "clock")] {
//! use chrono::prelude::*;
//!
//! let local: DateTime<Local> = Local::now(); // e.g. `2014-11-28T21:45:59.324310806+09:00`
//! # let _ = local;
//! # }
//! ```
//!
//! Alternatively, you can create your own date and time. This is a bit verbose due to Rust's lack
//! of function and method overloading, but in turn we get a rich combination of initialization
//! methods.
//!
//! ```
//! use chrono::offset::MappedLocalTime;
//! use chrono::prelude::*;
//!
//! # fn doctest() -> Option<()> {
//!
//! let dt = Utc.with_ymd_and_hms(2014, 7, 8, 9, 10, 11).unwrap(); // `2014-07-08T09:10:11Z`
//! assert_eq!(
//! dt,
//! NaiveDate::from_ymd_opt(2014, 7, 8)?
//! .and_hms_opt(9, 10, 11)?
//! .and_utc()
//! );
//!
//! // July 8 is 188th day of the year 2014 (`o` for "ordinal")
//! assert_eq!(dt, NaiveDate::from_yo_opt(2014, 189)?.and_hms_opt(9, 10, 11)?.and_utc());
//! // July 8 is Tuesday in ISO week 28 of the year 2014.
//! assert_eq!(
//! dt,
//! NaiveDate::from_isoywd_opt(2014, 28, Weekday::Tue)?.and_hms_opt(9, 10, 11)?.and_utc()
//! );
//!
//! let dt = NaiveDate::from_ymd_opt(2014, 7, 8)?
//! .and_hms_milli_opt(9, 10, 11, 12)?
//! .and_utc(); // `2014-07-08T09:10:11.012Z`
//! assert_eq!(
//! dt,
//! NaiveDate::from_ymd_opt(2014, 7, 8)?
//! .and_hms_micro_opt(9, 10, 11, 12_000)?
//! .and_utc()
//! );
//! assert_eq!(
//! dt,
//! NaiveDate::from_ymd_opt(2014, 7, 8)?
//! .and_hms_nano_opt(9, 10, 11, 12_000_000)?
//! .and_utc()
//! );
//!
//! // dynamic verification
//! assert_eq!(
//! Utc.with_ymd_and_hms(2014, 7, 8, 21, 15, 33),
//! MappedLocalTime::Single(
//! NaiveDate::from_ymd_opt(2014, 7, 8)?.and_hms_opt(21, 15, 33)?.and_utc()
//! )
//! );
//! assert_eq!(Utc.with_ymd_and_hms(2014, 7, 8, 80, 15, 33), MappedLocalTime::None);
//! assert_eq!(Utc.with_ymd_and_hms(2014, 7, 38, 21, 15, 33), MappedLocalTime::None);
//!
//! # #[cfg(feature = "clock")] {
//! // other time zone objects can be used to construct a local datetime.
//! // obviously, `local_dt` is normally different from `dt`, but `fixed_dt` should be identical.
//! let local_dt = Local
//! .from_local_datetime(
//! &NaiveDate::from_ymd_opt(2014, 7, 8).unwrap().and_hms_milli_opt(9, 10, 11, 12).unwrap(),
//! )
//! .unwrap();
//! let fixed_dt = FixedOffset::east_opt(9 * 3600)
//! .unwrap()
//! .from_local_datetime(
//! &NaiveDate::from_ymd_opt(2014, 7, 8)
//! .unwrap()
//! .and_hms_milli_opt(18, 10, 11, 12)
//! .unwrap(),
//! )
//! .unwrap();
//! assert_eq!(dt, fixed_dt);
//! # let _ = local_dt;
//! # }
//! # Some(())
//! # }
//! # doctest().unwrap();
//! ```
//!
//! Various properties are available to the date and time, and can be altered individually. Most of
//! them are defined in the traits [`Datelike`] and [`Timelike`] which you should `use` before.
//! Addition and subtraction is also supported.
//! The following illustrates most supported operations to the date and time:
//!
//! ```rust
//! use chrono::prelude::*;
//! use chrono::TimeDelta;
//!
//! // assume this returned `2014-11-28T21:45:59.324310806+09:00`:
//! let dt = FixedOffset::east_opt(9 * 3600)
//! .unwrap()
//! .from_local_datetime(
//! &NaiveDate::from_ymd_opt(2014, 11, 28)
//! .unwrap()
//! .and_hms_nano_opt(21, 45, 59, 324310806)
//! .unwrap(),
//! )
//! .unwrap();
//!
//! // property accessors
//! assert_eq!((dt.year(), dt.month(), dt.day()), (2014, 11, 28));
//! assert_eq!((dt.month0(), dt.day0()), (10, 27)); // for unfortunate souls
//! assert_eq!((dt.hour(), dt.minute(), dt.second()), (21, 45, 59));
//! assert_eq!(dt.weekday(), Weekday::Fri);
//! assert_eq!(dt.weekday().number_from_monday(), 5); // Mon=1, ..., Sun=7
//! assert_eq!(dt.ordinal(), 332); // the day of year
//! assert_eq!(dt.num_days_from_ce(), 735565); // the number of days from and including Jan 1, 1
//!
//! // time zone accessor and manipulation
//! assert_eq!(dt.offset().fix().local_minus_utc(), 9 * 3600);
//! assert_eq!(dt.timezone(), FixedOffset::east_opt(9 * 3600).unwrap());
//! assert_eq!(
//! dt.with_timezone(&Utc),
//! NaiveDate::from_ymd_opt(2014, 11, 28)
//! .unwrap()
//! .and_hms_nano_opt(12, 45, 59, 324310806)
//! .unwrap()
//! .and_utc()
//! );
//!
//! // a sample of property manipulations (validates dynamically)
//! assert_eq!(dt.with_day(29).unwrap().weekday(), Weekday::Sat); // 2014-11-29 is Saturday
//! assert_eq!(dt.with_day(32), None);
//! assert_eq!(dt.with_year(-300).unwrap().num_days_from_ce(), -109606); // November 29, 301 BCE
//!
//! // arithmetic operations
//! let dt1 = Utc.with_ymd_and_hms(2014, 11, 14, 8, 9, 10).unwrap();
//! let dt2 = Utc.with_ymd_and_hms(2014, 11, 14, 10, 9, 8).unwrap();
//! assert_eq!(dt1.signed_duration_since(dt2), TimeDelta::try_seconds(-2 * 3600 + 2).unwrap());
//! assert_eq!(dt2.signed_duration_since(dt1), TimeDelta::try_seconds(2 * 3600 - 2).unwrap());
//! assert_eq!(
//! Utc.with_ymd_and_hms(1970, 1, 1, 0, 0, 0).unwrap()
//! + TimeDelta::try_seconds(1_000_000_000).unwrap(),
//! Utc.with_ymd_and_hms(2001, 9, 9, 1, 46, 40).unwrap()
//! );
//! assert_eq!(
//! Utc.with_ymd_and_hms(1970, 1, 1, 0, 0, 0).unwrap()
//! - TimeDelta::try_seconds(1_000_000_000).unwrap(),
//! Utc.with_ymd_and_hms(1938, 4, 24, 22, 13, 20).unwrap()
//! );
//! ```
//!
//! ### Formatting and Parsing
//!
//! Formatting is done via the [`format`](DateTime::format()) method, which format is equivalent to
//! the familiar `strftime` format.
//!
//! See [`format::strftime`](format::strftime#specifiers) documentation for full syntax and list of
//! specifiers.
//!
//! The default `to_string` method and `{:?}` specifier also give a reasonable representation.
//! Chrono also provides [`to_rfc2822`](DateTime::to_rfc2822) and
//! [`to_rfc3339`](DateTime::to_rfc3339) methods for well-known formats.
//!
//! Chrono now also provides date formatting in almost any language without the help of an
//! additional C library. This functionality is under the feature `unstable-locales`:
//!
//! ```toml
//! chrono = { version = "0.4", features = ["unstable-locales"] }
//! ```
//!
//! The `unstable-locales` feature requires and implies at least the `alloc` feature.
//!
//! ```rust
//! # #[allow(unused_imports)]
//! use chrono::prelude::*;
//!
//! # #[cfg(all(feature = "unstable-locales", feature = "alloc"))]
//! # fn test() {
//! let dt = Utc.with_ymd_and_hms(2014, 11, 28, 12, 0, 9).unwrap();
//! assert_eq!(dt.format("%Y-%m-%d %H:%M:%S").to_string(), "2014-11-28 12:00:09");
//! assert_eq!(dt.format("%a %b %e %T %Y").to_string(), "Fri Nov 28 12:00:09 2014");
//! assert_eq!(
//! dt.format_localized("%A %e %B %Y, %T", Locale::fr_BE).to_string(),
//! "vendredi 28 novembre 2014, 12:00:09"
//! );
//!
//! assert_eq!(dt.format("%a %b %e %T %Y").to_string(), dt.format("%c").to_string());
//! assert_eq!(dt.to_string(), "2014-11-28 12:00:09 UTC");
//! assert_eq!(dt.to_rfc2822(), "Fri, 28 Nov 2014 12:00:09 +0000");
//! assert_eq!(dt.to_rfc3339(), "2014-11-28T12:00:09+00:00");
//! assert_eq!(format!("{:?}", dt), "2014-11-28T12:00:09Z");
//!
//! // Note that milli/nanoseconds are only printed if they are non-zero
//! let dt_nano = NaiveDate::from_ymd_opt(2014, 11, 28)
//! .unwrap()
//! .and_hms_nano_opt(12, 0, 9, 1)
//! .unwrap()
//! .and_utc();
//! assert_eq!(format!("{:?}", dt_nano), "2014-11-28T12:00:09.000000001Z");
//! # }
//! # #[cfg(not(all(feature = "unstable-locales", feature = "alloc")))]
//! # fn test() {}
//! # if cfg!(all(feature = "unstable-locales", feature = "alloc")) {
//! # test();
//! # }
//! ```
//!
//! Parsing can be done with two methods:
//!
//! 1. The standard [`FromStr`](std::str::FromStr) trait (and [`parse`](str::parse) method on a
//! string) can be used for parsing `DateTime<FixedOffset>`, `DateTime<Utc>` and
//! `DateTime<Local>` values. This parses what the `{:?}` ([`std::fmt::Debug`] format specifier
//! prints, and requires the offset to be present.
//!
//! 2. [`DateTime::parse_from_str`] parses a date and time with offsets and returns
//! `DateTime<FixedOffset>`. This should be used when the offset is a part of input and the
//! caller cannot guess that. It *cannot* be used when the offset can be missing.
//! [`DateTime::parse_from_rfc2822`] and [`DateTime::parse_from_rfc3339`] are similar but for
//! well-known formats.
//!
//! More detailed control over the parsing process is available via [`format`](mod@format) module.
//!
//! ```rust
//! use chrono::prelude::*;
//!
//! let dt = Utc.with_ymd_and_hms(2014, 11, 28, 12, 0, 9).unwrap();
//! let fixed_dt = dt.with_timezone(&FixedOffset::east_opt(9 * 3600).unwrap());
//!
//! // method 1
//! assert_eq!("2014-11-28T12:00:09Z".parse::<DateTime<Utc>>(), Ok(dt.clone()));
//! assert_eq!("2014-11-28T21:00:09+09:00".parse::<DateTime<Utc>>(), Ok(dt.clone()));
//! assert_eq!("2014-11-28T21:00:09+09:00".parse::<DateTime<FixedOffset>>(), Ok(fixed_dt.clone()));
//!
//! // method 2
//! assert_eq!(
//! DateTime::parse_from_str("2014-11-28 21:00:09 +09:00", "%Y-%m-%d %H:%M:%S %z"),
//! Ok(fixed_dt.clone())
//! );
//! assert_eq!(
//! DateTime::parse_from_rfc2822("Fri, 28 Nov 2014 21:00:09 +0900"),
//! Ok(fixed_dt.clone())
//! );
//! assert_eq!(DateTime::parse_from_rfc3339("2014-11-28T21:00:09+09:00"), Ok(fixed_dt.clone()));
//!
//! // oops, the year is missing!
//! assert!(DateTime::parse_from_str("Fri Nov 28 12:00:09", "%a %b %e %T %Y").is_err());
//! // oops, the format string does not include the year at all!
//! assert!(DateTime::parse_from_str("Fri Nov 28 12:00:09", "%a %b %e %T").is_err());
//! // oops, the weekday is incorrect!
//! assert!(DateTime::parse_from_str("Sat Nov 28 12:00:09 2014", "%a %b %e %T %Y").is_err());
//! ```
//!
//! Again: See [`format::strftime`](format::strftime#specifiers) documentation for full syntax and
//! list of specifiers.
//!
//! ### Conversion from and to EPOCH timestamps
//!
//! Use [`DateTime::from_timestamp(seconds, nanoseconds)`](DateTime::from_timestamp)
//! to construct a [`DateTime<Utc>`] from a UNIX timestamp
//! (seconds, nanoseconds that passed since January 1st 1970).
//!
//! Use [`DateTime.timestamp`](DateTime::timestamp) to get the timestamp (in seconds)
//! from a [`DateTime`]. Additionally, you can use
//! [`DateTime.timestamp_subsec_nanos`](DateTime::timestamp_subsec_nanos)
//! to get the number of additional number of nanoseconds.
//!
//! ```
//! # #[cfg(feature = "alloc")] {
//! // We need the trait in scope to use Utc::timestamp().
//! use chrono::{DateTime, Utc};
//!
//! // Construct a datetime from epoch:
//! let dt: DateTime<Utc> = DateTime::from_timestamp(1_500_000_000, 0).unwrap();
//! assert_eq!(dt.to_rfc2822(), "Fri, 14 Jul 2017 02:40:00 +0000");
//!
//! // Get epoch value from a datetime:
//! let dt = DateTime::parse_from_rfc2822("Fri, 14 Jul 2017 02:40:00 +0000").unwrap();
//! assert_eq!(dt.timestamp(), 1_500_000_000);
//! # }
//! ```
//!
//! ### Naive date and time
//!
//! Chrono provides naive counterparts to `Date`, (non-existent) `Time` and `DateTime` as
//! [`NaiveDate`], [`NaiveTime`] and [`NaiveDateTime`] respectively.
//!
//! They have almost equivalent interfaces as their timezone-aware twins, but are not associated to
//! time zones obviously and can be quite low-level. They are mostly useful for building blocks for
//! higher-level types.
//!
//! Timezone-aware `DateTime` and `Date` types have two methods returning naive versions:
//! [`naive_local`](DateTime::naive_local) returns a view to the naive local time,
//! and [`naive_utc`](DateTime::naive_utc) returns a view to the naive UTC time.
//!
//! ## Limitations
//!
//! * Only the proleptic Gregorian calendar (i.e. extended to support older dates) is supported.
//! * Date types are limited to about +/- 262,000 years from the common epoch.
//! * Time types are limited to nanosecond accuracy.
//! * Leap seconds can be represented, but Chrono does not fully support them.
//! See [Leap Second Handling](NaiveTime#leap-second-handling).
//!
//! ## Rust version requirements
//!
//! The Minimum Supported Rust Version (MSRV) is currently **Rust 1.61.0**.
//!
//! The MSRV is explicitly tested in CI. It may be bumped in minor releases, but this is not done
//! lightly.
//!
//! ## Relation between chrono and time 0.1
//!
//! Rust first had a `time` module added to `std` in its 0.7 release. It later moved to
//! `libextra`, and then to a `libtime` library shipped alongside the standard library. In 2014
//! work on chrono started in order to provide a full-featured date and time library in Rust.
//! Some improvements from chrono made it into the standard library; notably, `chrono::Duration`
//! was included as `std::time::Duration` ([rust#15934]) in 2014.
//!
//! In preparation of Rust 1.0 at the end of 2014 `libtime` was moved out of the Rust distro and
//! into the `time` crate to eventually be redesigned ([rust#18832], [rust#18858]), like the
//! `num` and `rand` crates. Of course chrono kept its dependency on this `time` crate. `time`
//! started re-exporting `std::time::Duration` during this period. Later, the standard library was
//! changed to have a more limited unsigned `Duration` type ([rust#24920], [RFC 1040]), while the
//! `time` crate kept the full functionality with `time::Duration`. `time::Duration` had been a
//! part of chrono's public API.
//!
//! By 2016 `time` 0.1 lived under the `rust-lang-deprecated` organisation and was not actively
//! maintained ([time#136]). chrono absorbed the platform functionality and `Duration` type of the
//! `time` crate in [chrono#478] (the work started in [chrono#286]). In order to preserve
//! compatibility with downstream crates depending on `time` and `chrono` sharing a `Duration`
//! type, chrono kept depending on time 0.1. chrono offered the option to opt out of the `time`
//! dependency by disabling the `oldtime` feature (swapping it out for an effectively similar
//! chrono type). In 2019, @jhpratt took over maintenance on the `time` crate and released what
//! amounts to a new crate as `time` 0.2.
//!
//! [rust#15934]: https://github.com/rust-lang/rust/pull/15934
//! [rust#18832]: https://github.com/rust-lang/rust/pull/18832#issuecomment-62448221
//! [rust#18858]: https://github.com/rust-lang/rust/pull/18858
//! [rust#24920]: https://github.com/rust-lang/rust/pull/24920
//! [RFC 1040]: https://rust-lang.github.io/rfcs/1040-duration-reform.html
//! [time#136]: https://github.com/time-rs/time/issues/136
//! [chrono#286]: https://github.com/chronotope/chrono/pull/286
//! [chrono#478]: https://github.com/chronotope/chrono/pull/478
//!
//! ## Security advisories
//!
//! In November of 2020 [CVE-2020-26235] and [RUSTSEC-2020-0071] were opened against the `time` crate.
//! @quininer had found that calls to `localtime_r` may be unsound ([chrono#499]). Eventually, almost
//! a year later, this was also made into a security advisory against chrono as [RUSTSEC-2020-0159],
//! which had platform code similar to `time`.
//!
//! On Unix-like systems a process is given a timezone id or description via the `TZ` environment
//! variable. We need this timezone data to calculate the current local time from a value that is
//! in UTC, such as the time from the system clock. `time` 0.1 and chrono used the POSIX function
//! `localtime_r` to do the conversion to local time, which reads the `TZ` variable.
//!
//! Rust assumes the environment to be writable and uses locks to access it from multiple threads.
//! Some other programming languages and libraries use similar locking strategies, but these are
//! typically not shared across languages. More importantly, POSIX declares modifying the
//! environment in a multi-threaded process as unsafe, and `getenv` in libc can't be changed to
//! take a lock because it returns a pointer to the data (see [rust#27970] for more discussion).
//!
//! Since version 4.20 chrono no longer uses `localtime_r`, instead using Rust code to query the
//! timezone (from the `TZ` variable or via `iana-time-zone` as a fallback) and work with data
//! from the system timezone database directly. The code for this was forked from the [tz-rs crate]
//! by @x-hgg-x. As such, chrono now respects the Rust lock when reading the `TZ` environment
//! variable. In general, code should avoid modifying the environment.
//!
//! [CVE-2020-26235]: https://nvd.nist.gov/vuln/detail/CVE-2020-26235
//! [RUSTSEC-2020-0071]: https://rustsec.org/advisories/RUSTSEC-2020-0071
//! [chrono#499]: https://github.com/chronotope/chrono/pull/499
//! [RUSTSEC-2020-0159]: https://rustsec.org/advisories/RUSTSEC-2020-0159.html
//! [rust#27970]: https://github.com/rust-lang/rust/issues/27970
//! [chrono#677]: https://github.com/chronotope/chrono/pull/677
//! [tz-rs crate]: https://crates.io/crates/tz-rs
//!
//! ## Removing time 0.1
//!
//! Because time 0.1 has been unmaintained for years, however, the security advisory mentioned
//! above has not been addressed. While chrono maintainers were careful not to break backwards
//! compatibility with the `time::Duration` type, there has been a long stream of issues from
//! users inquiring about the time 0.1 dependency with the vulnerability. We investigated the
//! potential breakage of removing the time 0.1 dependency in [chrono#1095] using a crater-like
//! experiment and determined that the potential for breaking (public) dependencies is very low.
//! We reached out to those few crates that did still depend on compatibility with time 0.1.
//!
//! As such, for chrono 0.4.30 we have decided to swap out the time 0.1 `Duration` implementation
//! for a local one that will offer a strict superset of the existing API going forward. This
//! will prevent most downstream users from being affected by the security vulnerability in time
//! 0.1 while minimizing the ecosystem impact of semver-incompatible version churn.
//!
//! [chrono#1095]: https://github.com/chronotope/chrono/pull/1095
#![doc(html_root_url = "https://docs.rs/chrono/latest/", test(attr(deny(warnings))))]
#![cfg_attr(feature = "bench", feature(test))] // lib stability features as per RFC #507
#![deny(missing_docs)]
#![deny(missing_debug_implementations)]
#![warn(unreachable_pub)]
#![deny(clippy::tests_outside_test_module)]
#![cfg_attr(not(any(feature = "std", test)), no_std)]
#![cfg_attr(docsrs, feature(doc_auto_cfg))]
#[cfg(feature = "alloc")]
extern crate alloc;
mod time_delta;
#[cfg(feature = "std")]
#[doc(no_inline)]
pub use time_delta::OutOfRangeError;
pub use time_delta::TimeDelta;
/// Alias of [`TimeDelta`].
pub type Duration = TimeDelta;
use core::fmt;
/// A convenience module appropriate for glob imports (`use chrono::prelude::*;`).
pub mod prelude {
#[allow(deprecated)]
pub use crate::Date;
#[cfg(feature = "clock")]
pub use crate::Local;
#[cfg(all(feature = "unstable-locales", feature = "alloc"))]
pub use crate::Locale;
pub use crate::SubsecRound;
pub use crate::{DateTime, SecondsFormat};
pub use crate::{Datelike, Month, Timelike, Weekday};
pub use crate::{FixedOffset, Utc};
pub use crate::{NaiveDate, NaiveDateTime, NaiveTime};
pub use crate::{Offset, TimeZone};
}
mod date;
#[allow(deprecated)]
pub use date::Date;
#[doc(no_inline)]
#[allow(deprecated)]
pub use date::{MAX_DATE, MIN_DATE};
mod datetime;
pub use datetime::DateTime;
#[allow(deprecated)]
#[doc(no_inline)]
pub use datetime::{MAX_DATETIME, MIN_DATETIME};
pub mod format;
/// L10n locales.
#[cfg(feature = "unstable-locales")]
pub use format::Locale;
pub use format::{ParseError, ParseResult, SecondsFormat};
pub mod naive;
#[doc(inline)]
pub use naive::{Days, NaiveDate, NaiveDateTime, NaiveTime};
pub use naive::{IsoWeek, NaiveWeek};
pub mod offset;
#[cfg(feature = "clock")]
#[doc(inline)]
pub use offset::Local;
#[doc(hidden)]
pub use offset::LocalResult;
pub use offset::MappedLocalTime;
#[doc(inline)]
pub use offset::{FixedOffset, Offset, TimeZone, Utc};
pub mod round;
pub use round::{DurationRound, RoundingError, SubsecRound};
mod weekday;
#[doc(no_inline)]
pub use weekday::ParseWeekdayError;
pub use weekday::Weekday;
mod month;
#[doc(no_inline)]
pub use month::ParseMonthError;
pub use month::{Month, Months};
mod traits;
pub use traits::{Datelike, Timelike};
#[cfg(feature = "__internal_bench")]
#[doc(hidden)]
pub use naive::__BenchYearFlags;
/// Serialization/Deserialization with serde
///
/// The [`DateTime`] type has default implementations for (de)serializing to/from the [RFC 3339]
/// format. This module provides alternatives for serializing to timestamps.
///
/// The alternatives are for use with serde's [`with` annotation] combined with the module name.
/// Alternatively the individual `serialize` and `deserialize` functions in each module can be used
/// with serde's [`serialize_with`] and [`deserialize_with`] annotations.
///
/// *Available on crate feature 'serde' only.*
///
/// [RFC 3339]: https://tools.ietf.org/html/rfc3339
/// [`with` annotation]: https://serde.rs/field-attrs.html#with
/// [`serialize_with`]: https://serde.rs/field-attrs.html#serialize_with
/// [`deserialize_with`]: https://serde.rs/field-attrs.html#deserialize_with
#[cfg(feature = "serde")]
pub mod serde {
use core::fmt;
use serde::de;
pub use super::datetime::serde::*;
/// Create a custom `de::Error` with `SerdeError::InvalidTimestamp`.
pub(crate) fn invalid_ts<E, T>(value: T) -> E
where
E: de::Error,
T: fmt::Display,
{
E::custom(SerdeError::InvalidTimestamp(value))
}
enum SerdeError<T: fmt::Display> {
InvalidTimestamp(T),
}
impl<T: fmt::Display> fmt::Display for SerdeError<T> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
SerdeError::InvalidTimestamp(ts) => {
write!(f, "value is not a legal timestamp: {}", ts)
}
}
}
}
}
/// Zero-copy serialization/deserialization with rkyv.
///
/// This module re-exports the `Archived*` versions of chrono's types.
#[cfg(any(feature = "rkyv", feature = "rkyv-16", feature = "rkyv-32", feature = "rkyv-64"))]
pub mod rkyv {
pub use crate::datetime::ArchivedDateTime;
pub use crate::month::ArchivedMonth;
pub use crate::naive::date::ArchivedNaiveDate;
pub use crate::naive::datetime::ArchivedNaiveDateTime;
pub use crate::naive::isoweek::ArchivedIsoWeek;
pub use crate::naive::time::ArchivedNaiveTime;
pub use crate::offset::fixed::ArchivedFixedOffset;
#[cfg(feature = "clock")]
pub use crate::offset::local::ArchivedLocal;
pub use crate::offset::utc::ArchivedUtc;
pub use crate::time_delta::ArchivedTimeDelta;
pub use crate::weekday::ArchivedWeekday;
/// Alias of [`ArchivedTimeDelta`]
pub type ArchivedDuration = ArchivedTimeDelta;
}
/// Out of range error type used in various converting APIs
#[derive(Clone, Copy, Hash, PartialEq, Eq)]
pub struct OutOfRange {
_private: (),
}
impl OutOfRange {
const fn new() -> OutOfRange {
OutOfRange { _private: () }
}
}
impl fmt::Display for OutOfRange {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "out of range")
}
}
impl fmt::Debug for OutOfRange {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "out of range")
}
}
#[cfg(feature = "std")]
impl std::error::Error for OutOfRange {}
/// Workaround because `?` is not (yet) available in const context.
#[macro_export]
#[doc(hidden)]
macro_rules! try_opt {
($e:expr) => {
match $e {
Some(v) => v,
None => return None,
}
};
}
/// Workaround because `.expect()` is not (yet) available in const context.
pub(crate) const fn expect<T: Copy>(opt: Option<T>, msg: &str) -> T {
match opt {
Some(val) => val,
None => panic!("{}", msg),
}
}
#[cfg(test)]
mod tests {
#[cfg(feature = "clock")]
use crate::{DateTime, FixedOffset, Local, NaiveDate, NaiveDateTime, NaiveTime, Utc};
#[test]
#[allow(deprecated)]
#[cfg(feature = "clock")]
fn test_type_sizes() {
use core::mem::size_of;
assert_eq!(size_of::<NaiveDate>(), 4);
assert_eq!(size_of::<Option<NaiveDate>>(), 4);
assert_eq!(size_of::<NaiveTime>(), 8);
assert_eq!(size_of::<Option<NaiveTime>>(), 12);
assert_eq!(size_of::<NaiveDateTime>(), 12);
assert_eq!(size_of::<Option<NaiveDateTime>>(), 12);
assert_eq!(size_of::<DateTime<Utc>>(), 12);
assert_eq!(size_of::<DateTime<FixedOffset>>(), 16);
assert_eq!(size_of::<DateTime<Local>>(), 16);
assert_eq!(size_of::<Option<DateTime<FixedOffset>>>(), 16);
}
}