//! The [`UtcOffset`] struct and its associated `impl`s. use core::fmt; use core::ops::Neg; #[cfg(feature = "formatting")] use std::io; use deranged::{RangedI32, RangedI8}; use powerfmt::ext::FormatterExt; use powerfmt::smart_display::{self, FormatterOptions, Metadata, SmartDisplay}; use crate::convert::*; use crate::error; #[cfg(feature = "formatting")] use crate::formatting::Formattable; use crate::internal_macros::ensure_ranged; #[cfg(feature = "parsing")] use crate::parsing::Parsable; #[cfg(feature = "local-offset")] use crate::sys::local_offset_at; #[cfg(feature = "local-offset")] use crate::OffsetDateTime; /// The type of the `hours` field of `UtcOffset`. type Hours = RangedI8<{ -(Hour::per(Day) as i8 - 1) }, { Hour::per(Day) as i8 - 1 }>; /// The type of the `minutes` field of `UtcOffset`. type Minutes = RangedI8<{ -(Minute::per(Hour) as i8 - 1) }, { Minute::per(Hour) as i8 - 1 }>; /// The type of the `seconds` field of `UtcOffset`. type Seconds = RangedI8<{ -(Second::per(Minute) as i8 - 1) }, { Second::per(Minute) as i8 - 1 }>; /// An offset from UTC. /// /// This struct can store values up to ±23:59:59. If you need support outside this range, please /// file an issue with your use case. // All three components _must_ have the same sign. #[derive(Copy, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] pub struct UtcOffset { #[allow(clippy::missing_docs_in_private_items)] hours: Hours, #[allow(clippy::missing_docs_in_private_items)] minutes: Minutes, #[allow(clippy::missing_docs_in_private_items)] seconds: Seconds, } impl UtcOffset { /// A `UtcOffset` that is UTC. /// /// ```rust /// # use time::UtcOffset; /// # use time_macros::offset; /// assert_eq!(UtcOffset::UTC, offset!(UTC)); /// ``` #[allow(clippy::undocumented_unsafe_blocks)] // rust-lang/rust-clippy#11246 // Safety: All values are in range. pub const UTC: Self = unsafe { Self::__from_hms_unchecked(0, 0, 0) }; // region: constructors /// Create a `UtcOffset` representing an offset of the hours, minutes, and seconds provided, the /// validity of which must be guaranteed by the caller. All three parameters must have the same /// sign. /// /// # Safety /// /// - Hours must be in the range `-23..=23`. /// - Minutes must be in the range `-59..=59`. /// - Seconds must be in the range `-59..=59`. /// /// While the signs of the parameters are required to match to avoid bugs, this is not a safety /// invariant. #[doc(hidden)] pub const unsafe fn __from_hms_unchecked(hours: i8, minutes: i8, seconds: i8) -> Self { // Safety: The caller must uphold the safety invariants. unsafe { Self::from_hms_ranged_unchecked( Hours::new_unchecked(hours), Minutes::new_unchecked(minutes), Seconds::new_unchecked(seconds), ) } } /// Create a `UtcOffset` representing an offset by the number of hours, minutes, and seconds /// provided. /// /// The sign of all three components should match. If they do not, all smaller components will /// have their signs flipped. /// /// ```rust /// # use time::UtcOffset; /// assert_eq!(UtcOffset::from_hms(1, 2, 3)?.as_hms(), (1, 2, 3)); /// assert_eq!(UtcOffset::from_hms(1, -2, -3)?.as_hms(), (1, 2, 3)); /// # Ok::<_, time::Error>(()) /// ``` pub const fn from_hms( hours: i8, minutes: i8, seconds: i8, ) -> Result { Ok(Self::from_hms_ranged( ensure_ranged!(Hours: hours), ensure_ranged!(Minutes: minutes), ensure_ranged!(Seconds: seconds), )) } /// Create a `UtcOffset` representing an offset of the hours, minutes, and seconds provided. All /// three parameters must have the same sign. /// /// While the signs of the parameters are required to match, this is not a safety invariant. pub(crate) const fn from_hms_ranged_unchecked( hours: Hours, minutes: Minutes, seconds: Seconds, ) -> Self { if hours.get() < 0 { debug_assert!(minutes.get() <= 0); debug_assert!(seconds.get() <= 0); } else if hours.get() > 0 { debug_assert!(minutes.get() >= 0); debug_assert!(seconds.get() >= 0); } if minutes.get() < 0 { debug_assert!(seconds.get() <= 0); } else if minutes.get() > 0 { debug_assert!(seconds.get() >= 0); } Self { hours, minutes, seconds, } } /// Create a `UtcOffset` representing an offset by the number of hours, minutes, and seconds /// provided. /// /// The sign of all three components should match. If they do not, all smaller components will /// have their signs flipped. pub(crate) const fn from_hms_ranged( hours: Hours, mut minutes: Minutes, mut seconds: Seconds, ) -> Self { if (hours.get() > 0 && minutes.get() < 0) || (hours.get() < 0 && minutes.get() > 0) { minutes = minutes.neg(); } if (hours.get() > 0 && seconds.get() < 0) || (hours.get() < 0 && seconds.get() > 0) || (minutes.get() > 0 && seconds.get() < 0) || (minutes.get() < 0 && seconds.get() > 0) { seconds = seconds.neg(); } Self { hours, minutes, seconds, } } /// Create a `UtcOffset` representing an offset by the number of seconds provided. /// /// ```rust /// # use time::UtcOffset; /// assert_eq!(UtcOffset::from_whole_seconds(3_723)?.as_hms(), (1, 2, 3)); /// # Ok::<_, time::Error>(()) /// ``` pub const fn from_whole_seconds(seconds: i32) -> Result { type WholeSeconds = RangedI32< { Hours::MIN.get() as i32 * Second::per(Hour) as i32 + Minutes::MIN.get() as i32 * Second::per(Minute) as i32 + Seconds::MIN.get() as i32 }, { Hours::MAX.get() as i32 * Second::per(Hour) as i32 + Minutes::MAX.get() as i32 * Second::per(Minute) as i32 + Seconds::MAX.get() as i32 }, >; ensure_ranged!(WholeSeconds: seconds); // Safety: The value was checked to be in range. Ok(unsafe { Self::__from_hms_unchecked( (seconds / Second::per(Hour) as i32) as _, ((seconds % Second::per(Hour) as i32) / Minute::per(Hour) as i32) as _, (seconds % Second::per(Minute) as i32) as _, ) }) } // endregion constructors // region: getters /// Obtain the UTC offset as its hours, minutes, and seconds. The sign of all three components /// will always match. A positive value indicates an offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).as_hms(), (1, 2, 3)); /// assert_eq!(offset!(-1:02:03).as_hms(), (-1, -2, -3)); /// ``` pub const fn as_hms(self) -> (i8, i8, i8) { (self.hours.get(), self.minutes.get(), self.seconds.get()) } /// Obtain the UTC offset as its hours, minutes, and seconds. The sign of all three components /// will always match. A positive value indicates an offset to the east; a negative to the west. #[cfg(feature = "quickcheck")] pub(crate) const fn as_hms_ranged(self) -> (Hours, Minutes, Seconds) { (self.hours, self.minutes, self.seconds) } /// Obtain the number of whole hours the offset is from UTC. A positive value indicates an /// offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).whole_hours(), 1); /// assert_eq!(offset!(-1:02:03).whole_hours(), -1); /// ``` pub const fn whole_hours(self) -> i8 { self.hours.get() } /// Obtain the number of whole minutes the offset is from UTC. A positive value indicates an /// offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).whole_minutes(), 62); /// assert_eq!(offset!(-1:02:03).whole_minutes(), -62); /// ``` pub const fn whole_minutes(self) -> i16 { self.hours.get() as i16 * Minute::per(Hour) as i16 + self.minutes.get() as i16 } /// Obtain the number of minutes past the hour the offset is from UTC. A positive value /// indicates an offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).minutes_past_hour(), 2); /// assert_eq!(offset!(-1:02:03).minutes_past_hour(), -2); /// ``` pub const fn minutes_past_hour(self) -> i8 { self.minutes.get() } /// Obtain the number of whole seconds the offset is from UTC. A positive value indicates an /// offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).whole_seconds(), 3723); /// assert_eq!(offset!(-1:02:03).whole_seconds(), -3723); /// ``` // This may be useful for anyone manually implementing arithmetic, as it // would let them construct a `Duration` directly. pub const fn whole_seconds(self) -> i32 { self.hours.get() as i32 * Second::per(Hour) as i32 + self.minutes.get() as i32 * Second::per(Minute) as i32 + self.seconds.get() as i32 } /// Obtain the number of seconds past the minute the offset is from UTC. A positive value /// indicates an offset to the east; a negative to the west. /// /// ```rust /// # use time_macros::offset; /// assert_eq!(offset!(+1:02:03).seconds_past_minute(), 3); /// assert_eq!(offset!(-1:02:03).seconds_past_minute(), -3); /// ``` pub const fn seconds_past_minute(self) -> i8 { self.seconds.get() } // endregion getters // region: is_{sign} /// Check if the offset is exactly UTC. /// /// /// ```rust /// # use time_macros::offset; /// assert!(!offset!(+1:02:03).is_utc()); /// assert!(!offset!(-1:02:03).is_utc()); /// assert!(offset!(UTC).is_utc()); /// ``` pub const fn is_utc(self) -> bool { self.hours.get() == 0 && self.minutes.get() == 0 && self.seconds.get() == 0 } /// Check if the offset is positive, or east of UTC. /// /// ```rust /// # use time_macros::offset; /// assert!(offset!(+1:02:03).is_positive()); /// assert!(!offset!(-1:02:03).is_positive()); /// assert!(!offset!(UTC).is_positive()); /// ``` pub const fn is_positive(self) -> bool { self.hours.get() > 0 || self.minutes.get() > 0 || self.seconds.get() > 0 } /// Check if the offset is negative, or west of UTC. /// /// ```rust /// # use time_macros::offset; /// assert!(!offset!(+1:02:03).is_negative()); /// assert!(offset!(-1:02:03).is_negative()); /// assert!(!offset!(UTC).is_negative()); /// ``` pub const fn is_negative(self) -> bool { self.hours.get() < 0 || self.minutes.get() < 0 || self.seconds.get() < 0 } // endregion is_{sign} // region: local offset /// Attempt to obtain the system's UTC offset at a known moment in time. If the offset cannot be /// determined, an error is returned. /// /// ```rust /// # use time::{UtcOffset, OffsetDateTime}; /// let local_offset = UtcOffset::local_offset_at(OffsetDateTime::UNIX_EPOCH); /// # if false { /// assert!(local_offset.is_ok()); /// # } /// ``` #[cfg(feature = "local-offset")] pub fn local_offset_at(datetime: OffsetDateTime) -> Result { local_offset_at(datetime).ok_or(error::IndeterminateOffset) } /// Attempt to obtain the system's current UTC offset. If the offset cannot be determined, an /// error is returned. /// /// ```rust /// # use time::UtcOffset; /// let local_offset = UtcOffset::current_local_offset(); /// # if false { /// assert!(local_offset.is_ok()); /// # } /// ``` #[cfg(feature = "local-offset")] pub fn current_local_offset() -> Result { let now = OffsetDateTime::now_utc(); local_offset_at(now).ok_or(error::IndeterminateOffset) } // endregion: local offset } // region: formatting & parsing #[cfg(feature = "formatting")] impl UtcOffset { /// Format the `UtcOffset` using the provided [format description](crate::format_description). pub fn format_into( self, output: &mut impl io::Write, format: &(impl Formattable + ?Sized), ) -> Result { format.format_into(output, None, None, Some(self)) } /// Format the `UtcOffset` using the provided [format description](crate::format_description). /// /// ```rust /// # use time::format_description; /// # use time_macros::offset; /// let format = format_description::parse("[offset_hour sign:mandatory]:[offset_minute]")?; /// assert_eq!(offset!(+1).format(&format)?, "+01:00"); /// # Ok::<_, time::Error>(()) /// ``` pub fn format(self, format: &(impl Formattable + ?Sized)) -> Result { format.format(None, None, Some(self)) } } #[cfg(feature = "parsing")] impl UtcOffset { /// Parse a `UtcOffset` from the input using the provided [format /// description](crate::format_description). /// /// ```rust /// # use time::UtcOffset; /// # use time_macros::{offset, format_description}; /// let format = format_description!("[offset_hour]:[offset_minute]"); /// assert_eq!(UtcOffset::parse("-03:42", &format)?, offset!(-3:42)); /// # Ok::<_, time::Error>(()) /// ``` pub fn parse( input: &str, description: &(impl Parsable + ?Sized), ) -> Result { description.parse_offset(input.as_bytes()) } } mod private { #[non_exhaustive] #[derive(Debug, Clone, Copy)] pub struct UtcOffsetMetadata; } use private::UtcOffsetMetadata; impl SmartDisplay for UtcOffset { type Metadata = UtcOffsetMetadata; fn metadata(&self, _: FormatterOptions) -> Metadata { let sign = if self.is_negative() { '-' } else { '+' }; let width = smart_display::padded_width_of!( sign, self.hours.abs() => width(2), ":", self.minutes.abs() => width(2), ":", self.seconds.abs() => width(2), ); Metadata::new(width, self, UtcOffsetMetadata) } fn fmt_with_metadata( &self, f: &mut fmt::Formatter<'_>, metadata: Metadata, ) -> fmt::Result { f.pad_with_width( metadata.unpadded_width(), format_args!( "{}{:02}:{:02}:{:02}", if self.is_negative() { '-' } else { '+' }, self.hours.abs(), self.minutes.abs(), self.seconds.abs(), ), ) } } impl fmt::Display for UtcOffset { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { SmartDisplay::fmt(self, f) } } impl fmt::Debug for UtcOffset { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fmt::Display::fmt(self, f) } } // endregion formatting & parsing impl Neg for UtcOffset { type Output = Self; fn neg(self) -> Self::Output { Self::from_hms_ranged(self.hours.neg(), self.minutes.neg(), self.seconds.neg()) } }