Struct time::OffsetDateTime [−][src]
pub struct OffsetDateTime { /* fields omitted */ }
Expand description
A PrimitiveDateTime
with a UtcOffset
.
All comparisons are performed using the UTC time.
Implementations
👎 Deprecated since 0.2.11: This function returns a value with an offset of UTC, which is not apparent from its name alone. You should use OffsetDateTime::now_utc()
instead.
This is supported on crate feature std
only.
This function returns a value with an offset of UTC, which is not apparent from its name alone. You should use OffsetDateTime::now_utc()
instead.
std
only.Create a new OffsetDateTime
with the current date and time in UTC.
assert!(OffsetDateTime::now().year() >= 2019); assert_eq!(OffsetDateTime::now().offset(), offset!(UTC));
This is supported on crate feature std
only.
std
only.Create a new OffsetDateTime
with the current date and time in UTC.
assert!(OffsetDateTime::now_utc().year() >= 2019); assert_eq!(OffsetDateTime::now_utc().offset(), offset!(UTC));
👎 Deprecated since 0.2.23: UTC is returned if the local offset cannot be determined
This is supported on crate feature std
only.
UTC is returned if the local offset cannot be determined
std
only.Create a new OffsetDateTime
with the current date and time in the
local offset.
assert!(OffsetDateTime::now_local().year() >= 2019);
This is supported on crate feature std
only.
std
only.Attempt to create a new OffsetDateTime
with the current date and time
in the local offset. If the offset cannot be determined, an error is
returned.
let now = OffsetDateTime::try_now_local(); assert!(now.is_ok());
Convert the OffsetDateTime
from the current UtcOffset
to the
provided UtcOffset
.
assert_eq!( date!(2000-01-01) .midnight() .assume_utc() .to_offset(offset!(-1)) .year(), 1999, ); // Let's see what time Sydney's new year's celebration is in New York // and Los Angeles. // Construct midnight on new year's in Sydney. This is equivalent to // 13:00 UTC. let sydney = date!(2000-01-01).midnight().assume_offset(offset!(+11)); let new_york = sydney.to_offset(offset!(-5)); let los_angeles = sydney.to_offset(offset!(-8)); assert_eq!(sydney.hour(), 0); assert_eq!(new_york.hour(), 8); assert_eq!(los_angeles.hour(), 5);
Midnight, 1 January, 1970 (UTC).
assert_eq!( OffsetDateTime::unix_epoch(), date!(1970-01-01) .midnight() .assume_utc(), );
Create an OffsetDateTime
from the provided Unix timestamp.
assert_eq!( OffsetDateTime::from_unix_timestamp(0), OffsetDateTime::unix_epoch(), ); assert_eq!( OffsetDateTime::from_unix_timestamp(1_546_300_800), date!(2019-01-01) .midnight() .assume_utc(), );
If you have a timestamp-nanosecond pair, you can use something along the lines of the following:
let (timestamp, nanos) = (1, 500_000_000); assert_eq!( OffsetDateTime::from_unix_timestamp(timestamp) + Duration::nanoseconds(nanos), OffsetDateTime::unix_epoch() + 1.5.seconds() );
Construct an OffsetDateTime
from the provided Unix timestamp (in
nanoseconds).
assert_eq!( OffsetDateTime::from_unix_timestamp_nanos(0), OffsetDateTime::unix_epoch(), ); assert_eq!( OffsetDateTime::from_unix_timestamp_nanos(1_546_300_800_000_000_000), date!(2019-01-01) .midnight() .assume_utc(), );
Note that the range of timestamps possible here is far larger than the valid range of dates storable in this crate. It is the user’s responsibility to ensure the timestamp provided as a parameter is valid. No behavior is guaranteed if this parameter would not result in a valid value.
Get the UtcOffset
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .offset(), offset!(UTC), ); assert_eq!( date!(2019-01-01) .midnight() .assume_offset(offset!(+1)) .offset(), offset!(+1), );
Get the Unix timestamp.
assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .unix_timestamp(), 0, ); assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .to_offset(offset!(-1)) .unix_timestamp(), 0, );
👎 Deprecated since 0.2.23: Use OffsetDateTime::unix_timestamp
instead
Use OffsetDateTime::unix_timestamp
instead
Get the Unix timestamp.
assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .timestamp(), 0, ); assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .to_offset(offset!(-1)) .timestamp(), 0, );
Get the Unix timestamp in nanoseconds.
use time::{date, offset, time}; assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .unix_timestamp_nanos(), 0, ); assert_eq!( date!(1970-01-01) .with_time(time!(1:00)) .assume_utc() .to_offset(offset!(-1)) .unix_timestamp_nanos(), 3_600_000_000_000, );
👎 Deprecated since 0.2.23: Use OffsetDateTime::unix_timestamp_nanos
instead
Use OffsetDateTime::unix_timestamp_nanos
instead
Get the Unix timestamp in nanoseconds.
use time::{date, offset, time}; assert_eq!( date!(1970-01-01) .midnight() .assume_utc() .unix_timestamp_nanos(), 0, ); assert_eq!( date!(1970-01-01) .with_time(time!(1:00)) .assume_utc() .to_offset(offset!(-1)) .unix_timestamp_nanos(), 3_600_000_000_000, );
Get the Date
in the stored offset.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .date(), date!(2019-01-01), ); assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .to_offset(offset!(-1)) .date(), date!(2018-12-31), );
Get the Time
in the stored offset.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .time(), time!(0:00) ); assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .to_offset(offset!(-1)) .time(), time!(23:00) );
Get the year of the date in the stored offset.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .year(), 2019, ); assert_eq!( date!(2019-12-31) .with_time(time!(23:00)) .assume_utc() .to_offset(offset!(+1)) .year(), 2020, ); assert_eq!( date!(2020-01-01) .midnight() .assume_utc() .year(), 2020, );
Get the month of the date in the stored offset. If fetching both the
month and day, it is more efficient to use
OffsetDateTime::month_day
.
The returned value will always be in the range 1..=12
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .month(), 1, ); assert_eq!( date!(2019-12-31) .with_time(time!(23:00)) .assume_utc() .to_offset(offset!(+1)) .month(), 1, );
Get the day of the date in the stored offset. If fetching both the month
and day, it is more efficient to use OffsetDateTime::month_day
.
The returned value will always be in the range 1..=31
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .day(), 1, ); assert_eq!( date!(2019-12-31) .with_time(time!(23:00)) .assume_utc() .to_offset(offset!(+1)) .day(), 1, );
Get the month and day of the date in the stored offset.
The month component will always be in the range 1..=12
;
the day component in 1..=31
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .month_day(), (1, 1), ); assert_eq!( date!(2019-12-31) .with_time(time!(23:00)) .assume_utc() .to_offset(offset!(+1)) .month_day(), (1, 1), );
Get the day of the year of the date in the stored offset.
The returned value will always be in the range 1..=366
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .ordinal(), 1, ); assert_eq!( date!(2019-12-31) .with_time(time!(23:00)) .assume_utc() .to_offset(offset!(+1)) .ordinal(), 1, );
Get the ISO 8601 year and week number in the stored offset.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .iso_year_week(), (2019, 1), ); assert_eq!( date!(2019-10-04) .midnight() .assume_utc() .iso_year_week(), (2019, 40), ); assert_eq!( date!(2020-01-01) .midnight() .assume_utc() .iso_year_week(), (2020, 1), ); assert_eq!( date!(2020-12-31) .midnight() .assume_utc() .iso_year_week(), (2020, 53), ); assert_eq!( date!(2021-01-01) .midnight() .assume_utc() .iso_year_week(), (2020, 53), );
Get the ISO week number of the date in the stored offset.
The returned value will always be in the range 1..=53
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .week(), 1, ); assert_eq!( date!(2020-01-01) .midnight() .assume_utc() .week(), 1, ); assert_eq!( date!(2020-12-31) .midnight() .assume_utc() .week(), 53, ); assert_eq!( date!(2021-01-01) .midnight() .assume_utc() .week(), 53, );
Get the weekday of the date in the stored offset.
This current uses Zeller’s congruence internally.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .weekday(), Tuesday, ); assert_eq!( date!(2019-02-01) .midnight() .assume_utc() .weekday(), Friday, ); assert_eq!( date!(2019-03-01) .midnight() .assume_utc() .weekday(), Friday, );
Get the clock hour in the stored offset.
The returned value will always be in the range 0..24
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .hour(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59)) .assume_utc() .to_offset(offset!(-2)) .hour(), 21, );
Get the minute within the hour in the stored offset.
The returned value will always be in the range 0..60
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .minute(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59)) .assume_utc() .to_offset(offset!(+0:30)) .minute(), 29, );
Get the second within the minute in the stored offset.
The returned value will always be in the range 0..60
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .second(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59)) .assume_utc() .to_offset(offset!(+0:00:30)) .second(), 29, );
Get the milliseconds within the second in the stored offset.
The returned value will always be in the range 0..1_000
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .millisecond(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59.999)) .assume_utc() .millisecond(), 999, );
Get the microseconds within the second in the stored offset.
The returned value will always be in the range 0..1_000_000
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .microsecond(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59.999_999)) .assume_utc() .microsecond(), 999_999, );
Get the nanoseconds within the second in the stored offset.
The returned value will always be in the range 0..1_000_000_000
.
assert_eq!( date!(2019-01-01) .midnight() .assume_utc() .nanosecond(), 0, ); assert_eq!( date!(2019-01-01) .with_time(time!(23:59:59.999_999_999)) .assume_utc() .nanosecond(), 999_999_999, );
Methods that allow formatting the OffsetDateTime
.
Format the OffsetDateTime
using the provided string.
assert_eq!( date!(2019-01-02) .midnight() .assume_utc() .format("%F %r %z"), "2019-01-02 12:00:00 am +0000", );
Format the OffsetDateTime
using the provided string.
assert_eq!( date!(2019-01-02) .midnight() .assume_utc() .lazy_format("%F %r %z") .to_string(), "2019-01-02 12:00:00 am +0000", );
Attempt to parse an OffsetDateTime
using the provided string.
assert_eq!( OffsetDateTime::parse("2019-01-02 00:00:00 +0000", "%F %T %z"), Ok(date!(2019-01-02).midnight().assume_utc()), ); assert_eq!( OffsetDateTime::parse("2019-002 23:59:59 +0000", "%Y-%j %T %z"), Ok(date!(2019-002).with_time(time!(23:59:59)).assume_utc()), ); assert_eq!( OffsetDateTime::parse("2019-W01-3 12:00:00 pm +0000", "%G-W%V-%u %r %z"), Ok(date!(2019-W01-3).with_time(time!(12:00)).assume_utc()), );
Trait Implementations
Performs the +=
operation. Read more
Performs the +=
operation. Read more
Deserialize this value from the given Serde deserializer. Read more
Performs the conversion.
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
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 OffsetDateTime
impl Send for OffsetDateTime
impl Sync for OffsetDateTime
impl Unpin for OffsetDateTime
impl UnwindSafe for OffsetDateTime
Blanket Implementations
Mutably borrows from an owned value. Read more
pub fn vzip(self) -> V