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|
//! The [`Time`] struct and its associated `impl`s.
use core::fmt;
use core::ops::{Add, Sub};
use core::time::Duration as StdDuration;
#[cfg(feature = "formatting")]
use std::io;
use deranged::{RangedU32, RangedU8};
use powerfmt::ext::FormatterExt;
use powerfmt::smart_display::{self, FormatterOptions, Metadata, SmartDisplay};
use crate::convert::*;
#[cfg(feature = "formatting")]
use crate::formatting::Formattable;
use crate::internal_macros::{cascade, ensure_ranged, impl_add_assign, impl_sub_assign};
#[cfg(feature = "parsing")]
use crate::parsing::Parsable;
use crate::util::DateAdjustment;
use crate::{error, Duration};
/// By explicitly inserting this enum where padding is expected, the compiler is able to better
/// perform niche value optimization.
#[repr(u8)]
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub(crate) enum Padding {
#[allow(clippy::missing_docs_in_private_items)]
Optimize,
}
/// The type of the `hour` field of `Time`.
type Hours = RangedU8<0, { Hour::per(Day) - 1 }>;
/// The type of the `minute` field of `Time`.
type Minutes = RangedU8<0, { Minute::per(Hour) - 1 }>;
/// The type of the `second` field of `Time`.
type Seconds = RangedU8<0, { Second::per(Minute) - 1 }>;
/// The type of the `nanosecond` field of `Time`.
type Nanoseconds = RangedU32<0, { Nanosecond::per(Second) - 1 }>;
/// The clock time within a given date. Nanosecond precision.
///
/// All minutes are assumed to have exactly 60 seconds; no attempt is made to handle leap seconds
/// (either positive or negative).
///
/// When comparing two `Time`s, they are assumed to be in the same calendar date.
#[derive(Clone, Copy, Eq)]
#[repr(C)]
pub struct Time {
// The order of this struct's fields matter!
// Do not change them.
// Little endian version
#[cfg(target_endian = "little")]
#[allow(clippy::missing_docs_in_private_items)]
nanosecond: Nanoseconds,
#[cfg(target_endian = "little")]
#[allow(clippy::missing_docs_in_private_items)]
second: Seconds,
#[cfg(target_endian = "little")]
#[allow(clippy::missing_docs_in_private_items)]
minute: Minutes,
#[cfg(target_endian = "little")]
#[allow(clippy::missing_docs_in_private_items)]
hour: Hours,
#[cfg(target_endian = "little")]
#[allow(clippy::missing_docs_in_private_items)]
padding: Padding,
// Big endian version
#[cfg(target_endian = "big")]
#[allow(clippy::missing_docs_in_private_items)]
padding: Padding,
#[cfg(target_endian = "big")]
#[allow(clippy::missing_docs_in_private_items)]
hour: Hours,
#[cfg(target_endian = "big")]
#[allow(clippy::missing_docs_in_private_items)]
minute: Minutes,
#[cfg(target_endian = "big")]
#[allow(clippy::missing_docs_in_private_items)]
second: Seconds,
#[cfg(target_endian = "big")]
#[allow(clippy::missing_docs_in_private_items)]
nanosecond: Nanoseconds,
}
impl core::hash::Hash for Time {
fn hash<H: core::hash::Hasher>(&self, state: &mut H) {
self.as_u64().hash(state)
}
}
impl PartialEq for Time {
fn eq(&self, other: &Self) -> bool {
self.as_u64().eq(&other.as_u64())
}
}
impl PartialOrd for Time {
fn partial_cmp(&self, other: &Self) -> Option<core::cmp::Ordering> {
Some(self.cmp(other))
}
}
impl Ord for Time {
fn cmp(&self, other: &Self) -> core::cmp::Ordering {
self.as_u64().cmp(&other.as_u64())
}
}
impl Time {
/// Provides an u64 based representation **of the correct endianness**
///
/// This representation can be used to do comparisons equality testing or hashing.
const fn as_u64(self) -> u64 {
let nano_bytes = self.nanosecond.get().to_ne_bytes();
#[cfg(target_endian = "big")]
return u64::from_be_bytes([
self.padding as u8,
self.hour.get(),
self.minute.get(),
self.second.get(),
nano_bytes[0],
nano_bytes[1],
nano_bytes[2],
nano_bytes[3],
]);
#[cfg(target_endian = "little")]
return u64::from_le_bytes([
nano_bytes[0],
nano_bytes[1],
nano_bytes[2],
nano_bytes[3],
self.second.get(),
self.minute.get(),
self.hour.get(),
self.padding as u8,
]);
}
/// Create a `Time` that is exactly midnight.
///
/// ```rust
/// # use time::Time;
/// # use time_macros::time;
/// assert_eq!(Time::MIDNIGHT, time!(0:00));
/// ```
pub const MIDNIGHT: Self = Self::MIN;
/// The smallest value that can be represented by `Time`.
///
/// `00:00:00.0`
pub(crate) const MIN: Self =
Self::from_hms_nanos_ranged(Hours::MIN, Minutes::MIN, Seconds::MIN, Nanoseconds::MIN);
/// The largest value that can be represented by `Time`.
///
/// `23:59:59.999_999_999`
pub(crate) const MAX: Self =
Self::from_hms_nanos_ranged(Hours::MAX, Minutes::MAX, Seconds::MAX, Nanoseconds::MAX);
// region: constructors
/// Create a `Time` from its components.
///
/// # Safety
///
/// - `hours` must be in the range `0..=23`.
/// - `minutes` must be in the range `0..=59`.
/// - `seconds` must be in the range `0..=59`.
/// - `nanoseconds` must be in the range `0..=999_999_999`.
#[doc(hidden)]
pub const unsafe fn __from_hms_nanos_unchecked(
hour: u8,
minute: u8,
second: u8,
nanosecond: u32,
) -> Self {
// Safety: The caller must uphold the safety invariants.
unsafe {
Self::from_hms_nanos_ranged(
Hours::new_unchecked(hour),
Minutes::new_unchecked(minute),
Seconds::new_unchecked(second),
Nanoseconds::new_unchecked(nanosecond),
)
}
}
/// Attempt to create a `Time` from the hour, minute, and second.
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms(1, 2, 3).is_ok());
/// ```
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms(24, 0, 0).is_err()); // 24 isn't a valid hour.
/// assert!(Time::from_hms(0, 60, 0).is_err()); // 60 isn't a valid minute.
/// assert!(Time::from_hms(0, 0, 60).is_err()); // 60 isn't a valid second.
/// ```
pub const fn from_hms(hour: u8, minute: u8, second: u8) -> Result<Self, error::ComponentRange> {
Ok(Self::from_hms_nanos_ranged(
ensure_ranged!(Hours: hour),
ensure_ranged!(Minutes: minute),
ensure_ranged!(Seconds: second),
Nanoseconds::MIN,
))
}
/// Create a `Time` from the hour, minute, second, and nanosecond.
pub(crate) const fn from_hms_nanos_ranged(
hour: Hours,
minute: Minutes,
second: Seconds,
nanosecond: Nanoseconds,
) -> Self {
Self {
hour,
minute,
second,
nanosecond,
padding: Padding::Optimize,
}
}
/// Attempt to create a `Time` from the hour, minute, second, and millisecond.
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_milli(1, 2, 3, 4).is_ok());
/// ```
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_milli(24, 0, 0, 0).is_err()); // 24 isn't a valid hour.
/// assert!(Time::from_hms_milli(0, 60, 0, 0).is_err()); // 60 isn't a valid minute.
/// assert!(Time::from_hms_milli(0, 0, 60, 0).is_err()); // 60 isn't a valid second.
/// assert!(Time::from_hms_milli(0, 0, 0, 1_000).is_err()); // 1_000 isn't a valid millisecond.
/// ```
pub const fn from_hms_milli(
hour: u8,
minute: u8,
second: u8,
millisecond: u16,
) -> Result<Self, error::ComponentRange> {
Ok(Self::from_hms_nanos_ranged(
ensure_ranged!(Hours: hour),
ensure_ranged!(Minutes: minute),
ensure_ranged!(Seconds: second),
ensure_ranged!(Nanoseconds: millisecond as u32 * Nanosecond::per(Millisecond)),
))
}
/// Attempt to create a `Time` from the hour, minute, second, and microsecond.
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_micro(1, 2, 3, 4).is_ok());
/// ```
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_micro(24, 0, 0, 0).is_err()); // 24 isn't a valid hour.
/// assert!(Time::from_hms_micro(0, 60, 0, 0).is_err()); // 60 isn't a valid minute.
/// assert!(Time::from_hms_micro(0, 0, 60, 0).is_err()); // 60 isn't a valid second.
/// assert!(Time::from_hms_micro(0, 0, 0, 1_000_000).is_err()); // 1_000_000 isn't a valid microsecond.
/// ```
pub const fn from_hms_micro(
hour: u8,
minute: u8,
second: u8,
microsecond: u32,
) -> Result<Self, error::ComponentRange> {
Ok(Self::from_hms_nanos_ranged(
ensure_ranged!(Hours: hour),
ensure_ranged!(Minutes: minute),
ensure_ranged!(Seconds: second),
ensure_ranged!(Nanoseconds: microsecond * Nanosecond::per(Microsecond) as u32),
))
}
/// Attempt to create a `Time` from the hour, minute, second, and nanosecond.
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_nano(1, 2, 3, 4).is_ok());
/// ```
///
/// ```rust
/// # use time::Time;
/// assert!(Time::from_hms_nano(24, 0, 0, 0).is_err()); // 24 isn't a valid hour.
/// assert!(Time::from_hms_nano(0, 60, 0, 0).is_err()); // 60 isn't a valid minute.
/// assert!(Time::from_hms_nano(0, 0, 60, 0).is_err()); // 60 isn't a valid second.
/// assert!(Time::from_hms_nano(0, 0, 0, 1_000_000_000).is_err()); // 1_000_000_000 isn't a valid nanosecond.
/// ```
pub const fn from_hms_nano(
hour: u8,
minute: u8,
second: u8,
nanosecond: u32,
) -> Result<Self, error::ComponentRange> {
Ok(Self::from_hms_nanos_ranged(
ensure_ranged!(Hours: hour),
ensure_ranged!(Minutes: minute),
ensure_ranged!(Seconds: second),
ensure_ranged!(Nanoseconds: nanosecond),
))
}
// endregion constructors
// region: getters
/// Get the clock hour, minute, and second.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).as_hms(), (0, 0, 0));
/// assert_eq!(time!(23:59:59).as_hms(), (23, 59, 59));
/// ```
pub const fn as_hms(self) -> (u8, u8, u8) {
(self.hour.get(), self.minute.get(), self.second.get())
}
/// Get the clock hour, minute, second, and millisecond.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).as_hms_milli(), (0, 0, 0, 0));
/// assert_eq!(time!(23:59:59.999).as_hms_milli(), (23, 59, 59, 999));
/// ```
pub const fn as_hms_milli(self) -> (u8, u8, u8, u16) {
(
self.hour.get(),
self.minute.get(),
self.second.get(),
(self.nanosecond.get() / Nanosecond::per(Millisecond)) as u16,
)
}
/// Get the clock hour, minute, second, and microsecond.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).as_hms_micro(), (0, 0, 0, 0));
/// assert_eq!(
/// time!(23:59:59.999_999).as_hms_micro(),
/// (23, 59, 59, 999_999)
/// );
/// ```
pub const fn as_hms_micro(self) -> (u8, u8, u8, u32) {
(
self.hour.get(),
self.minute.get(),
self.second.get(),
self.nanosecond.get() / Nanosecond::per(Microsecond) as u32,
)
}
/// Get the clock hour, minute, second, and nanosecond.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).as_hms_nano(), (0, 0, 0, 0));
/// assert_eq!(
/// time!(23:59:59.999_999_999).as_hms_nano(),
/// (23, 59, 59, 999_999_999)
/// );
/// ```
pub const fn as_hms_nano(self) -> (u8, u8, u8, u32) {
(
self.hour.get(),
self.minute.get(),
self.second.get(),
self.nanosecond.get(),
)
}
/// Get the clock hour, minute, second, and nanosecond.
#[cfg(feature = "quickcheck")]
pub(crate) const fn as_hms_nano_ranged(self) -> (Hours, Minutes, Seconds, Nanoseconds) {
(self.hour, self.minute, self.second, self.nanosecond)
}
/// Get the clock hour.
///
/// The returned value will always be in the range `0..24`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).hour(), 0);
/// assert_eq!(time!(23:59:59).hour(), 23);
/// ```
pub const fn hour(self) -> u8 {
self.hour.get()
}
/// Get the minute within the hour.
///
/// The returned value will always be in the range `0..60`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).minute(), 0);
/// assert_eq!(time!(23:59:59).minute(), 59);
/// ```
pub const fn minute(self) -> u8 {
self.minute.get()
}
/// Get the second within the minute.
///
/// The returned value will always be in the range `0..60`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00:00).second(), 0);
/// assert_eq!(time!(23:59:59).second(), 59);
/// ```
pub const fn second(self) -> u8 {
self.second.get()
}
/// Get the milliseconds within the second.
///
/// The returned value will always be in the range `0..1_000`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00).millisecond(), 0);
/// assert_eq!(time!(23:59:59.999).millisecond(), 999);
/// ```
pub const fn millisecond(self) -> u16 {
(self.nanosecond.get() / Nanosecond::per(Millisecond)) as _
}
/// Get the microseconds within the second.
///
/// The returned value will always be in the range `0..1_000_000`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00).microsecond(), 0);
/// assert_eq!(time!(23:59:59.999_999).microsecond(), 999_999);
/// ```
pub const fn microsecond(self) -> u32 {
self.nanosecond.get() / Nanosecond::per(Microsecond) as u32
}
/// Get the nanoseconds within the second.
///
/// The returned value will always be in the range `0..1_000_000_000`.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(time!(0:00).nanosecond(), 0);
/// assert_eq!(time!(23:59:59.999_999_999).nanosecond(), 999_999_999);
/// ```
pub const fn nanosecond(self) -> u32 {
self.nanosecond.get()
}
// endregion getters
// region: arithmetic helpers
/// Add the sub-day time of the [`Duration`] to the `Time`. Wraps on overflow, returning whether
/// the date is different.
pub(crate) const fn adjusting_add(self, duration: Duration) -> (DateAdjustment, Self) {
let mut nanoseconds = self.nanosecond.get() as i32 + duration.subsec_nanoseconds();
let mut seconds =
self.second.get() as i8 + (duration.whole_seconds() % Second::per(Minute) as i64) as i8;
let mut minutes =
self.minute.get() as i8 + (duration.whole_minutes() % Minute::per(Hour) as i64) as i8;
let mut hours =
self.hour.get() as i8 + (duration.whole_hours() % Hour::per(Day) as i64) as i8;
let mut date_adjustment = DateAdjustment::None;
cascade!(nanoseconds in 0..Nanosecond::per(Second) as _ => seconds);
cascade!(seconds in 0..Second::per(Minute) as _ => minutes);
cascade!(minutes in 0..Minute::per(Hour) as _ => hours);
if hours >= Hour::per(Day) as _ {
hours -= Hour::per(Day) as i8;
date_adjustment = DateAdjustment::Next;
} else if hours < 0 {
hours += Hour::per(Day) as i8;
date_adjustment = DateAdjustment::Previous;
}
(
date_adjustment,
// Safety: The cascades above ensure the values are in range.
unsafe {
Self::__from_hms_nanos_unchecked(
hours as _,
minutes as _,
seconds as _,
nanoseconds as _,
)
},
)
}
/// Subtract the sub-day time of the [`Duration`] to the `Time`. Wraps on overflow, returning
/// whether the date is different.
pub(crate) const fn adjusting_sub(self, duration: Duration) -> (DateAdjustment, Self) {
let mut nanoseconds = self.nanosecond.get() as i32 - duration.subsec_nanoseconds();
let mut seconds =
self.second.get() as i8 - (duration.whole_seconds() % Second::per(Minute) as i64) as i8;
let mut minutes =
self.minute.get() as i8 - (duration.whole_minutes() % Minute::per(Hour) as i64) as i8;
let mut hours =
self.hour.get() as i8 - (duration.whole_hours() % Hour::per(Day) as i64) as i8;
let mut date_adjustment = DateAdjustment::None;
cascade!(nanoseconds in 0..Nanosecond::per(Second) as _ => seconds);
cascade!(seconds in 0..Second::per(Minute) as _ => minutes);
cascade!(minutes in 0..Minute::per(Hour) as _ => hours);
if hours >= Hour::per(Day) as _ {
hours -= Hour::per(Day) as i8;
date_adjustment = DateAdjustment::Next;
} else if hours < 0 {
hours += Hour::per(Day) as i8;
date_adjustment = DateAdjustment::Previous;
}
(
date_adjustment,
// Safety: The cascades above ensure the values are in range.
unsafe {
Self::__from_hms_nanos_unchecked(
hours as _,
minutes as _,
seconds as _,
nanoseconds as _,
)
},
)
}
/// Add the sub-day time of the [`std::time::Duration`] to the `Time`. Wraps on overflow,
/// returning whether the date is the previous date as the first element of the tuple.
pub(crate) const fn adjusting_add_std(self, duration: StdDuration) -> (bool, Self) {
let mut nanosecond = self.nanosecond.get() + duration.subsec_nanos();
let mut second =
self.second.get() + (duration.as_secs() % Second::per(Minute) as u64) as u8;
let mut minute = self.minute.get()
+ ((duration.as_secs() / Second::per(Minute) as u64) % Minute::per(Hour) as u64) as u8;
let mut hour = self.hour.get()
+ ((duration.as_secs() / Second::per(Hour) as u64) % Hour::per(Day) as u64) as u8;
let mut is_next_day = false;
cascade!(nanosecond in 0..Nanosecond::per(Second) => second);
cascade!(second in 0..Second::per(Minute) => minute);
cascade!(minute in 0..Minute::per(Hour) => hour);
if hour >= Hour::per(Day) {
hour -= Hour::per(Day);
is_next_day = true;
}
(
is_next_day,
// Safety: The cascades above ensure the values are in range.
unsafe { Self::__from_hms_nanos_unchecked(hour, minute, second, nanosecond) },
)
}
/// Subtract the sub-day time of the [`std::time::Duration`] to the `Time`. Wraps on overflow,
/// returning whether the date is the previous date as the first element of the tuple.
pub(crate) const fn adjusting_sub_std(self, duration: StdDuration) -> (bool, Self) {
let mut nanosecond = self.nanosecond.get() as i32 - duration.subsec_nanos() as i32;
let mut second =
self.second.get() as i8 - (duration.as_secs() % Second::per(Minute) as u64) as i8;
let mut minute = self.minute.get() as i8
- ((duration.as_secs() / Second::per(Minute) as u64) % Minute::per(Hour) as u64) as i8;
let mut hour = self.hour.get() as i8
- ((duration.as_secs() / Second::per(Hour) as u64) % Hour::per(Day) as u64) as i8;
let mut is_previous_day = false;
cascade!(nanosecond in 0..Nanosecond::per(Second) as _ => second);
cascade!(second in 0..Second::per(Minute) as _ => minute);
cascade!(minute in 0..Minute::per(Hour) as _ => hour);
if hour < 0 {
hour += Hour::per(Day) as i8;
is_previous_day = true;
}
(
is_previous_day,
// Safety: The cascades above ensure the values are in range.
unsafe {
Self::__from_hms_nanos_unchecked(
hour as _,
minute as _,
second as _,
nanosecond as _,
)
},
)
}
// endregion arithmetic helpers
// region: replacement
/// Replace the clock hour.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_hour(7),
/// Ok(time!(07:02:03.004_005_006))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_hour(24).is_err()); // 24 isn't a valid hour
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_hour(mut self, hour: u8) -> Result<Self, error::ComponentRange> {
self.hour = ensure_ranged!(Hours: hour);
Ok(self)
}
/// Replace the minutes within the hour.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_minute(7),
/// Ok(time!(01:07:03.004_005_006))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_minute(60).is_err()); // 60 isn't a valid minute
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_minute(mut self, minute: u8) -> Result<Self, error::ComponentRange> {
self.minute = ensure_ranged!(Minutes: minute);
Ok(self)
}
/// Replace the seconds within the minute.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_second(7),
/// Ok(time!(01:02:07.004_005_006))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_second(60).is_err()); // 60 isn't a valid second
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_second(mut self, second: u8) -> Result<Self, error::ComponentRange> {
self.second = ensure_ranged!(Seconds: second);
Ok(self)
}
/// Replace the milliseconds within the second.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_millisecond(7),
/// Ok(time!(01:02:03.007))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_millisecond(1_000).is_err()); // 1_000 isn't a valid millisecond
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_millisecond(
mut self,
millisecond: u16,
) -> Result<Self, error::ComponentRange> {
self.nanosecond =
ensure_ranged!(Nanoseconds: millisecond as u32 * Nanosecond::per(Millisecond));
Ok(self)
}
/// Replace the microseconds within the second.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_microsecond(7_008),
/// Ok(time!(01:02:03.007_008))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_microsecond(1_000_000).is_err()); // 1_000_000 isn't a valid microsecond
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_microsecond(
mut self,
microsecond: u32,
) -> Result<Self, error::ComponentRange> {
self.nanosecond =
ensure_ranged!(Nanoseconds: microsecond * Nanosecond::per(Microsecond) as u32);
Ok(self)
}
/// Replace the nanoseconds within the second.
///
/// ```rust
/// # use time_macros::time;
/// assert_eq!(
/// time!(01:02:03.004_005_006).replace_nanosecond(7_008_009),
/// Ok(time!(01:02:03.007_008_009))
/// );
/// assert!(time!(01:02:03.004_005_006).replace_nanosecond(1_000_000_000).is_err()); // 1_000_000_000 isn't a valid nanosecond
/// ```
#[must_use = "This method does not mutate the original `Time`."]
pub const fn replace_nanosecond(
mut self,
nanosecond: u32,
) -> Result<Self, error::ComponentRange> {
self.nanosecond = ensure_ranged!(Nanoseconds: nanosecond);
Ok(self)
}
// endregion replacement
}
// region: formatting & parsing
#[cfg(feature = "formatting")]
impl Time {
/// Format the `Time` using the provided [format description](crate::format_description).
pub fn format_into(
self,
output: &mut impl io::Write,
format: &(impl Formattable + ?Sized),
) -> Result<usize, crate::error::Format> {
format.format_into(output, None, Some(self), None)
}
/// Format the `Time` using the provided [format description](crate::format_description).
///
/// ```rust
/// # use time::format_description;
/// # use time_macros::time;
/// let format = format_description::parse("[hour]:[minute]:[second]")?;
/// assert_eq!(time!(12:00).format(&format)?, "12:00:00");
/// # Ok::<_, time::Error>(())
/// ```
pub fn format(
self,
format: &(impl Formattable + ?Sized),
) -> Result<String, crate::error::Format> {
format.format(None, Some(self), None)
}
}
#[cfg(feature = "parsing")]
impl Time {
/// Parse a `Time` from the input using the provided [format
/// description](crate::format_description).
///
/// ```rust
/// # use time::Time;
/// # use time_macros::{time, format_description};
/// let format = format_description!("[hour]:[minute]:[second]");
/// assert_eq!(Time::parse("12:00:00", &format)?, time!(12:00));
/// # Ok::<_, time::Error>(())
/// ```
pub fn parse(
input: &str,
description: &(impl Parsable + ?Sized),
) -> Result<Self, error::Parse> {
description.parse_time(input.as_bytes())
}
}
mod private {
#[non_exhaustive]
#[derive(Debug, Clone, Copy)]
pub struct TimeMetadata {
/// How many characters wide the formatted subsecond is.
pub(super) subsecond_width: u8,
/// The value to use when formatting the subsecond. Leading zeroes will be added as
/// necessary.
pub(super) subsecond_value: u32,
}
}
use private::TimeMetadata;
impl SmartDisplay for Time {
type Metadata = TimeMetadata;
fn metadata(&self, _: FormatterOptions) -> Metadata<Self> {
let (subsecond_value, subsecond_width) = match self.nanosecond() {
nanos if nanos % 10 != 0 => (nanos, 9),
nanos if (nanos / 10) % 10 != 0 => (nanos / 10, 8),
nanos if (nanos / 100) % 10 != 0 => (nanos / 100, 7),
nanos if (nanos / 1_000) % 10 != 0 => (nanos / 1_000, 6),
nanos if (nanos / 10_000) % 10 != 0 => (nanos / 10_000, 5),
nanos if (nanos / 100_000) % 10 != 0 => (nanos / 100_000, 4),
nanos if (nanos / 1_000_000) % 10 != 0 => (nanos / 1_000_000, 3),
nanos if (nanos / 10_000_000) % 10 != 0 => (nanos / 10_000_000, 2),
nanos => (nanos / 100_000_000, 1),
};
let formatted_width = smart_display::padded_width_of!(
self.hour.get(),
":",
self.minute.get() => width(2) fill('0'),
":",
self.second.get() => width(2) fill('0'),
".",
) + subsecond_width;
Metadata::new(
formatted_width,
self,
TimeMetadata {
subsecond_width: subsecond_width as _,
subsecond_value,
},
)
}
fn fmt_with_metadata(
&self,
f: &mut fmt::Formatter<'_>,
metadata: Metadata<Self>,
) -> fmt::Result {
let subsecond_width = metadata.subsecond_width as usize;
let subsecond_value = metadata.subsecond_value;
f.pad_with_width(
metadata.unpadded_width(),
format_args!(
"{}:{:02}:{:02}.{subsecond_value:0subsecond_width$}",
self.hour, self.minute, self.second
),
)
}
}
impl fmt::Display for Time {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
SmartDisplay::fmt(self, f)
}
}
impl fmt::Debug for Time {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt::Display::fmt(self, f)
}
}
// endregion formatting & parsing
// region: trait impls
impl Add<Duration> for Time {
type Output = Self;
/// Add the sub-day time of the [`Duration`] to the `Time`. Wraps on overflow.
///
/// ```rust
/// # use time::ext::NumericalDuration;
/// # use time_macros::time;
/// assert_eq!(time!(12:00) + 2.hours(), time!(14:00));
/// assert_eq!(time!(0:00:01) + (-2).seconds(), time!(23:59:59));
/// ```
fn add(self, duration: Duration) -> Self::Output {
self.adjusting_add(duration).1
}
}
impl Add<StdDuration> for Time {
type Output = Self;
/// Add the sub-day time of the [`std::time::Duration`] to the `Time`. Wraps on overflow.
///
/// ```rust
/// # use time::ext::NumericalStdDuration;
/// # use time_macros::time;
/// assert_eq!(time!(12:00) + 2.std_hours(), time!(14:00));
/// assert_eq!(time!(23:59:59) + 2.std_seconds(), time!(0:00:01));
/// ```
fn add(self, duration: StdDuration) -> Self::Output {
self.adjusting_add_std(duration).1
}
}
impl_add_assign!(Time: Duration, StdDuration);
impl Sub<Duration> for Time {
type Output = Self;
/// Subtract the sub-day time of the [`Duration`] from the `Time`. Wraps on overflow.
///
/// ```rust
/// # use time::ext::NumericalDuration;
/// # use time_macros::time;
/// assert_eq!(time!(14:00) - 2.hours(), time!(12:00));
/// assert_eq!(time!(23:59:59) - (-2).seconds(), time!(0:00:01));
/// ```
fn sub(self, duration: Duration) -> Self::Output {
self.adjusting_sub(duration).1
}
}
impl Sub<StdDuration> for Time {
type Output = Self;
/// Subtract the sub-day time of the [`std::time::Duration`] from the `Time`. Wraps on overflow.
///
/// ```rust
/// # use time::ext::NumericalStdDuration;
/// # use time_macros::time;
/// assert_eq!(time!(14:00) - 2.std_hours(), time!(12:00));
/// assert_eq!(time!(0:00:01) - 2.std_seconds(), time!(23:59:59));
/// ```
fn sub(self, duration: StdDuration) -> Self::Output {
self.adjusting_sub_std(duration).1
}
}
impl_sub_assign!(Time: Duration, StdDuration);
impl Sub for Time {
type Output = Duration;
/// Subtract two `Time`s, returning the [`Duration`] between. This assumes both `Time`s are in
/// the same calendar day.
///
/// ```rust
/// # use time::ext::NumericalDuration;
/// # use time_macros::time;
/// assert_eq!(time!(0:00) - time!(0:00), 0.seconds());
/// assert_eq!(time!(1:00) - time!(0:00), 1.hours());
/// assert_eq!(time!(0:00) - time!(1:00), (-1).hours());
/// assert_eq!(time!(0:00) - time!(23:00), (-23).hours());
/// ```
fn sub(self, rhs: Self) -> Self::Output {
let hour_diff = (self.hour.get() as i8) - (rhs.hour.get() as i8);
let minute_diff = (self.minute.get() as i8) - (rhs.minute.get() as i8);
let second_diff = (self.second.get() as i8) - (rhs.second.get() as i8);
let nanosecond_diff = (self.nanosecond.get() as i32) - (rhs.nanosecond.get() as i32);
let seconds = hour_diff as i64 * Second::per(Hour) as i64
+ minute_diff as i64 * Second::per(Minute) as i64
+ second_diff as i64;
let (seconds, nanoseconds) = if seconds > 0 && nanosecond_diff < 0 {
(
seconds - 1,
nanosecond_diff + Nanosecond::per(Second) as i32,
)
} else if seconds < 0 && nanosecond_diff > 0 {
(
seconds + 1,
nanosecond_diff - Nanosecond::per(Second) as i32,
)
} else {
(seconds, nanosecond_diff)
};
// Safety: `nanoseconds` is in range due to the overflow handling.
unsafe { Duration::new_unchecked(seconds, nanoseconds) }
}
}
// endregion trait impls
|