Struct time::Date [−][src]
pub struct Date { /* fields omitted */ }
Expand description
Calendar date.
Years between -100_000
and +100_000
inclusive are guaranteed to be
representable. Any values outside this range may have incidental support
that can change at any time without notice. If you need support outside this
range, please file an issue
with your use case.
Implementations
👎 Deprecated since 0.2.3: For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_ymd
.
This is supported on crate feature panicking-api
only.
For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_ymd
.
panicking-api
only.Create a Date
from the year, month, and day.
assert_eq!(Date::from_ymd(2019, 1, 1), date!(2019-001)); assert_eq!(Date::from_ymd(2019, 12, 31), date!(2019-365));
Panics if the date is not valid.
Date::from_ymd(2019, 2, 29); // 2019 isn't a leap year.
Attempt to create a Date
from the year, month, and day.
assert!(Date::try_from_ymd(2019, 1, 1).is_ok()); assert!(Date::try_from_ymd(2019, 12, 31).is_ok());
Returns None
if the date is not valid.
assert!(Date::try_from_ymd(2019, 2, 29).is_err()); // 2019 isn't a leap year.
This function is const fn
when using rustc >= 1.46.
👎 Deprecated since 0.2.3: For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_yo
.
This is supported on crate feature panicking-api
only.
For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_yo
.
panicking-api
only.Create a Date
from the year and ordinal day number.
assert_eq!(Date::from_yo(2019, 1), date!(2019-01-01)); assert_eq!(Date::from_yo(2019, 365), date!(2019-12-31));
Panics if the date is not valid.
Date::from_yo(2019, 366); // 2019 isn't a leap year.
Attempt to create a Date
from the year and ordinal day number.
assert!(Date::try_from_yo(2019, 1).is_ok()); assert!(Date::try_from_yo(2019, 365).is_ok());
Returns None
if the date is not valid.
assert!(Date::try_from_yo(2019, 366).is_err()); // 2019 isn't a leap year.
This function is const fn
when using rustc >= 1.46.
👎 Deprecated since 0.2.3: For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_iso_ywd
.
This is supported on crate feature panicking-api
only.
For dates knowable at compile-time, use the date!
macro. For situations where a value isn’t known, use Date::try_from_iso_ywd
.
panicking-api
only.Create a Date
from the ISO year, week, and weekday.
assert_eq!( Date::from_iso_ywd(2019, 1, Monday), date!(2018-12-31) ); assert_eq!( Date::from_iso_ywd(2019, 1, Tuesday), date!(2019-01-01) ); assert_eq!( Date::from_iso_ywd(2020, 53, Friday), date!(2021-01-01) );
Panics if the week is not valid.
Date::from_iso_ywd(2019, 53, Monday); // 2019 doesn't have 53 weeks.
pub const fn try_from_iso_ywd(
year: i32,
week: u8,
weekday: Weekday
) -> Result<Self, ComponentRange>
[src]
pub const fn try_from_iso_ywd(
year: i32,
week: u8,
weekday: Weekday
) -> Result<Self, ComponentRange>
[src]Attempt to create a Date
from the ISO year, week, and weekday.
assert!(Date::try_from_iso_ywd(2019, 1, Monday).is_ok()); assert!(Date::try_from_iso_ywd(2019, 1, Tuesday).is_ok()); assert!(Date::try_from_iso_ywd(2020, 53, Friday).is_ok());
Returns None
if the week is not valid.
assert!(Date::try_from_iso_ywd(2019, 53, Monday).is_err()); // 2019 doesn't have 53 weeks.
This function is const fn
when using rustc >= 1.46.
👎 Deprecated since 0.2.7: This method returns a value that assumes an offset of UTC.
This is supported on crate feature std
only.
This method returns a value that assumes an offset of UTC.
std
only.Create a Date
representing the current date.
assert!(Date::today().year() >= 2019);
Get the year of the date.
assert_eq!(date!(2019-01-01).year(), 2019); assert_eq!(date!(2019-12-31).year(), 2019); assert_eq!(date!(2020-01-01).year(), 2020);
This function is const fn
when using rustc >= 1.46.
Get the month. If fetching both the month and day, it is more efficient
to use Date::month_day
.
The returned value will always be in the range 1..=12
.
assert_eq!(date!(2019-01-01).month(), 1); assert_eq!(date!(2019-12-31).month(), 12);
This function is const fn
when using rustc >= 1.46.
Get the day of the month. If fetching both the month and day, it is more
efficient to use Date::month_day
.
The returned value will always be in the range 1..=31
.
assert_eq!(date!(2019-01-01).day(), 1); assert_eq!(date!(2019-12-31).day(), 31);
This function is const fn
when using rustc >= 1.46.
Get the month and day. This is more efficient than fetching the components individually.
The month component will always be in the range 1..=12
;
the day component in 1..=31
.
assert_eq!(date!(2019-01-01).month_day(), (1, 1)); assert_eq!(date!(2019-12-31).month_day(), (12, 31));
This function is const fn
when using rustc >= 1.46.
Get the day of the year.
The returned value will always be in the range 1..=366
(1..=365
for
common years).
assert_eq!(date!(2019-01-01).ordinal(), 1); assert_eq!(date!(2019-12-31).ordinal(), 365);
This function is const fn
when using rustc >= 1.46.
Get the ISO 8601 year and week number.
assert_eq!(date!(2019-01-01).iso_year_week(), (2019, 1)); assert_eq!(date!(2019-10-04).iso_year_week(), (2019, 40)); assert_eq!(date!(2020-01-01).iso_year_week(), (2020, 1)); assert_eq!(date!(2020-12-31).iso_year_week(), (2020, 53)); assert_eq!(date!(2021-01-01).iso_year_week(), (2020, 53));
This function is const fn
when using rustc >= 1.46.
Get the ISO week number.
The returned value will always be in the range 1..=53
.
assert_eq!(date!(2019-01-01).week(), 1); assert_eq!(date!(2019-10-04).week(), 40); assert_eq!(date!(2020-01-01).week(), 1); assert_eq!(date!(2020-12-31).week(), 53); assert_eq!(date!(2021-01-01).week(), 53);
This function is const fn
when using rustc >= 1.46.
Get the week number where week 1 begins on the first Sunday.
The returned value will always be in the range 0..=53
.
assert_eq!(date!(2019-01-01).sunday_based_week(), 0); assert_eq!(date!(2020-01-01).sunday_based_week(), 0); assert_eq!(date!(2020-12-31).sunday_based_week(), 52); assert_eq!(date!(2021-01-01).sunday_based_week(), 0);
This function is const fn
when using rustc >= 1.46.
Get the week number where week 1 begins on the first Monday.
The returned value will always be in the range 0..=53
.
assert_eq!(date!(2019-01-01).monday_based_week(), 0); assert_eq!(date!(2020-01-01).monday_based_week(), 0); assert_eq!(date!(2020-12-31).monday_based_week(), 52); assert_eq!(date!(2021-01-01).monday_based_week(), 0);
This function is const fn
when using rustc >= 1.46.
Get the year, month, and day.
assert_eq!(date!(2019-01-01).as_ymd(), (2019, 1, 1));
This function is const fn
when using rustc >= 1.46.
Get the year and ordinal day number.
assert_eq!(date!(2019-01-01).as_yo(), (2019, 1));
This function is const fn
when using rustc >= 1.46.
Get the weekday.
This current uses Zeller’s congruence internally.
assert_eq!(date!(2019-01-01).weekday(), Tuesday); assert_eq!(date!(2019-02-01).weekday(), Friday); assert_eq!(date!(2019-03-01).weekday(), Friday); assert_eq!(date!(2019-04-01).weekday(), Monday); assert_eq!(date!(2019-05-01).weekday(), Wednesday); assert_eq!(date!(2019-06-01).weekday(), Saturday); assert_eq!(date!(2019-07-01).weekday(), Monday); assert_eq!(date!(2019-08-01).weekday(), Thursday); assert_eq!(date!(2019-09-01).weekday(), Sunday); assert_eq!(date!(2019-10-01).weekday(), Tuesday); assert_eq!(date!(2019-11-01).weekday(), Friday); assert_eq!(date!(2019-12-01).weekday(), Sunday);
Get the next calendar date.
assert_eq!(date!(2019-01-01).next_day(), date!(2019-01-02)); assert_eq!(date!(2019-01-31).next_day(), date!(2019-02-01)); assert_eq!(date!(2019-12-31).next_day(), date!(2020-01-01));
Get the previous calendar date.
assert_eq!(date!(2019-01-02).previous_day(), date!(2019-01-01)); assert_eq!(date!(2019-02-01).previous_day(), date!(2019-01-31)); assert_eq!(date!(2020-01-01).previous_day(), date!(2019-12-31));
Get the Julian day for the date.
The algorithm to perform this conversion is derived from one provided by Peter Baum; it is freely available here.
assert_eq!(date!(-4713-11-24).julian_day(), 0); assert_eq!(date!(2000-01-01).julian_day(), 2_451_545); assert_eq!(date!(2019-01-01).julian_day(), 2_458_485); assert_eq!(date!(2019-12-31).julian_day(), 2_458_849);
This function is const fn
when using rustc >= 1.46.
Create a Date
from the Julian day.
The algorithm to perform this conversion is derived from one provided by Peter Baum; it is freely available here.
assert_eq!( Date::from_julian_day(0), date!(-4713-11-24) ); assert_eq!(Date::from_julian_day(2_451_545), date!(2000-01-01)); assert_eq!(Date::from_julian_day(2_458_485), date!(2019-01-01)); assert_eq!(Date::from_julian_day(2_458_849), date!(2019-12-31));
Methods to add a Time
component, resulting in a PrimitiveDateTime
.
Create a PrimitiveDateTime
using the existing date. The Time
component will
be set to midnight.
assert_eq!( date!(1970-01-01).midnight(), date!(1970-01-01).with_time(time!(0:00)) );
Create a PrimitiveDateTime
using the existing date and the provided Time
.
assert_eq!( date!(1970-01-01).with_time(time!(0:00)), date!(1970-01-01).midnight(), );
👎 Deprecated since 0.2.3: For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms
.
This is supported on crate feature panicking-api
only.
For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms
.
panicking-api
only.Create a PrimitiveDateTime
using the existing date and the provided time.
assert_eq!( date!(1970-01-01).with_hms(0, 0, 0), date!(1970-01-01).with_time(time!(0:00)), );
pub const fn try_with_hms(
self,
hour: u8,
minute: u8,
second: u8
) -> Result<PrimitiveDateTime, ComponentRange>
[src]
pub const fn try_with_hms(
self,
hour: u8,
minute: u8,
second: u8
) -> Result<PrimitiveDateTime, ComponentRange>
[src]Attempt to create a PrimitiveDateTime
using the existing date and the
provided time.
assert!(date!(1970-01-01).try_with_hms(0, 0, 0).is_ok()); assert!(date!(1970-01-01).try_with_hms(24, 0, 0).is_err());
This function is const fn
when using rustc >= 1.46.
pub fn with_hms_milli(
self,
hour: u8,
minute: u8,
second: u8,
millisecond: u16
) -> PrimitiveDateTime
[src]👎 Deprecated since 0.2.3: For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_milli
.
This is supported on crate feature panicking-api
only.
pub fn with_hms_milli(
self,
hour: u8,
minute: u8,
second: u8,
millisecond: u16
) -> PrimitiveDateTime
[src]For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_milli
.
panicking-api
only.Create a PrimitiveDateTime
using the existing date and the provided
time.
assert_eq!( date!(1970-01-01).with_hms_milli(0, 0, 0, 0), date!(1970-01-01).with_time(time!(0:00)), );
pub const fn try_with_hms_milli(
self,
hour: u8,
minute: u8,
second: u8,
millisecond: u16
) -> Result<PrimitiveDateTime, ComponentRange>
[src]
pub const fn try_with_hms_milli(
self,
hour: u8,
minute: u8,
second: u8,
millisecond: u16
) -> Result<PrimitiveDateTime, ComponentRange>
[src]Attempt to create a PrimitiveDateTime
using the existing date and the provided time.
assert!(date!(1970-01-01).try_with_hms_milli(0, 0, 0, 0).is_ok()); assert!(date!(1970-01-01).try_with_hms_milli(24, 0, 0, 0).is_err());
This function is const fn
when using rustc >= 1.46.
pub fn with_hms_micro(
self,
hour: u8,
minute: u8,
second: u8,
microsecond: u32
) -> PrimitiveDateTime
[src]👎 Deprecated since 0.2.3: For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_micro
.
This is supported on crate feature panicking-api
only.
pub fn with_hms_micro(
self,
hour: u8,
minute: u8,
second: u8,
microsecond: u32
) -> PrimitiveDateTime
[src]For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_micro
.
panicking-api
only.Create a PrimitiveDateTime
using the existing date and the provided time.
assert_eq!( date!(1970-01-01).with_hms_micro(0, 0, 0, 0), date!(1970-01-01).with_time(time!(0:00)), );
pub const fn try_with_hms_micro(
self,
hour: u8,
minute: u8,
second: u8,
microsecond: u32
) -> Result<PrimitiveDateTime, ComponentRange>
[src]
pub const fn try_with_hms_micro(
self,
hour: u8,
minute: u8,
second: u8,
microsecond: u32
) -> Result<PrimitiveDateTime, ComponentRange>
[src]Attempt to create a PrimitiveDateTime
using the existing date and the
provided time.
assert!(date!(1970-01-01) .try_with_hms_micro(0, 0, 0, 0) .is_ok()); assert!(date!(1970-01-01) .try_with_hms_micro(24, 0, 0, 0) .is_err());
This function is const fn
when using rustc >= 1.46.
pub fn with_hms_nano(
self,
hour: u8,
minute: u8,
second: u8,
nanosecond: u32
) -> PrimitiveDateTime
[src]👎 Deprecated since 0.2.3: For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_nano
.
This is supported on crate feature panicking-api
only.
pub fn with_hms_nano(
self,
hour: u8,
minute: u8,
second: u8,
nanosecond: u32
) -> PrimitiveDateTime
[src]For times knowable at compile-time, use the time!
macro and Date::with_time
. For situations where a value isn’t known, use Date::try_with_hms_nano
.
panicking-api
only.Create a PrimitiveDateTime
using the existing date and the provided time.
assert_eq!( date!(1970-01-01).with_hms_nano(0, 0, 0, 0), date!(1970-01-01).with_time(time!(0:00)), );
pub const fn try_with_hms_nano(
self,
hour: u8,
minute: u8,
second: u8,
nanosecond: u32
) -> Result<PrimitiveDateTime, ComponentRange>
[src]
pub const fn try_with_hms_nano(
self,
hour: u8,
minute: u8,
second: u8,
nanosecond: u32
) -> Result<PrimitiveDateTime, ComponentRange>
[src]Attempt to create a PrimitiveDateTime
using the existing date and the provided time.
assert!(date!(1970-01-01).try_with_hms_nano(0, 0, 0, 0).is_ok()); assert!(date!(1970-01-01).try_with_hms_nano(24, 0, 0, 0).is_err());
This function is const fn
when using rustc >= 1.46.
Methods that allow formatting the Date
.
Format the Date
using the provided string.
assert_eq!(date!(2019-01-02).format("%Y-%m-%d"), "2019-01-02");
Format the Date
using the provided string.
assert_eq!(date!(2019-01-02).lazy_format("%Y-%m-%d").to_string(), "2019-01-02");
Attempt to parse a Date
using the provided string.
assert_eq!( Date::parse("2019-01-02", "%F"), Ok(date!(2019-01-02)) ); assert_eq!( Date::parse("2019-002", "%Y-%j"), Ok(date!(2019-002)) ); assert_eq!( Date::parse("2019-W01-3", "%G-W%V-%u"), Ok(date!(2019-W01-3)) );
Trait Implementations
Performs the +=
operation. Read more
Performs the +=
operation. Read more
Deserialize this value from the given Serde deserializer. Read more
This method returns an ordering between self
and other
values if one exists. Read more
This method tests less than (for self
and other
) and is used by the <
operator. Read more
This method tests less than or equal to (for self
and other
) and is used by the <=
operator. Read more
This method tests greater than (for self
and other
) and is used by the >
operator. Read more
Performs the -=
operation. Read more
Performs the -=
operation. Read more
Auto Trait Implementations
impl RefUnwindSafe for Date
impl UnwindSafe for Date
Blanket Implementations
Mutably borrows from an owned value. Read more
pub fn vzip(self) -> V