A date and time library for Clojure, wrapping the Joda Time library.
clj-time
artifacts are released to Clojars.
If you are using Maven, add the following repository definition to your pom.xml
:
<repository>
<id>clojars.org</id>
<url>http://clojars.org/repo</url>
</repository>
With Leiningen:
[clj-time "0.9.0"]
With Maven:
<dependency>
<groupId>clj-time</groupId>
<artifactId>clj-time</artifactId>
<version>0.9.0</version>
</dependency>
Please open issues against the official clj-time repo on Github.
Please ask questions on the clj-time mailing list.
The main namespace for date-time operations in the clj-time
library is clj-time.core
.
=> (require '[clj-time.core :as t])
Create a DateTime instance with date-time, specifying the year, month, day, hour, minute, second, and millisecond:
(t/date-time 1986 10 14 4 3 27 456)
=> #<DateTime 1986-10-14T04:03:27.456Z>
Less-significant fields can be omitted:
(t/date-time 1986 10 14)
=> #<DateTime 1986-10-14T00:00:00.000Z>
Get the current time with now
and the start of the Unix epoch with
epoch
.
Once you have a date-time, use accessors like hour
and second
to
access the corresponding fields:
(t/hour (date-time 1986 10 14 22))
=> 22
The date-time constructor always returns times in the UTC time
zone. If you want a time with the specified fields in a different time
zone, use from-time-zone
:
(t/from-time-zone (t/date-time 1986 10 22) (t/time-zone-for-offset -2))
=> #<DateTime 1986-10-22T00:00:00.000-02:00>
If on the other hand you want a given absolute instant in time in a
different time zone, use to-time-zone
:
(t/to-time-zone (t/date-time 1986 10 22) (t/time-zone-for-offset -2))
=> #<DateTime 1986-10-21T22:00:00.000-02:00>
In addition to time-zone-for-offset
, you can use the
time-zone-for-id
and default-time-zone
functions and the utc
Var
to construct or get DateTimeZone
instances.
If you only want a date with no time component, consider using the
local-date
and today
functions. These return LocalDate
instances
that do not have time components (and thus don't suffer from
timezone-related shifting).
(t/local-date 2013 3 20)
=> #<LocalDate 2013-03-20>
The functions after?
and before?
determine the relative position of two
DateTime instances:
(t/after? (t/date-time 1986 10) (t/date-time 1986 9))
=> true
Often you will want to find a date some amount of time from a given date. For example, to find the time 1 month and 3 weeks from a given date-time:
(t/plus (t/date-time 1986 10 14) (t/months 1) (t/weeks 3))
=> #<DateTime 1986-12-05T00:00:00.000Z>
An Interval
is used to represent the span of time between two
DateTime
instances. Construct one using interval
, then query them
using within?
, overlaps?
, and abuts?
(t/within? (t/interval (t/date-time 1986) (t/date-time 1990))
(t/date-time 1987))
=> true
The in-seconds
and in-minutes
functions can be used to describe
intervals in the corresponding temporal units:
(t/in-minutes (t/interval (t/date-time 1986 10 2) (t/date-time 1986 10 14)))
=> 17280
today-at
returns a moment in time at the given hour,
minute and second on the current date:
(t/today-at 12 00)
=> #<DateTime 2013-03-29T12:00:00.000Z>
(t/today-at 12 00 05)
=> #<DateTime 2013-03-29T12:00:05.000Z>
If you need to parse or print date-times, use clj-time.format
:
(require '[clj-time.format :as f])
Parsing and printing are controlled by formatters. You can either use one of the built in ISO8601 formatters or define your own, e.g.:
(def built-in-formatter (f/formatters :basic-date-time))
(def custom-formatter (f/formatter "yyyyMMdd"))
To see a list of available built-in formatters and an example of a date-time printed in their format:
(f/show-formatters)
Remember that mm
is minutes, MM
is months, ss
is seconds and
SS
is milliseconds. You can find a complete list of patterns
on the Joda Time website.
Once you have a formatter, parsing and printing are straightforward:
(f/parse custom-formatter "20100311")
=> #<DateTime 2010-03-11T00:00:00.000Z>
(f/unparse custom-formatter (t/date-time 2010 10 3))
=> "20101003"
To parse dates in multiple formats and format dates in just one format, you can do this:
(def multi-parser (f/formatter (t/default-time-zone) "YYYY-MM-dd" "YYYY/MM/dd"))
(f/unparse multi-parser (f/parse multi-parser "2012-02-01"))
=> "2012-02-01"
(f/unparse multi-parser (f/parse multi-parser "2012/02/01"))
=> "2012-02-01"
The namespace clj-time.coerce
contains utility functions for
coercing Joda DateTime
instances to and from various other types:
(require '[clj-time.coerce :as c])
For example, to convert a Joda DateTime
to and from a Java long
:
(c/to-long (t/date-time 1998 4 25))
=> 893462400000
(c/from-long 893462400000)
=> #<DateTime 1998-04-25T00:00:00.000Z>
And by the magic of protocols you can pass in an isoformat string and get the unix epoch milliseconds:
(c/to-long "2013-08-01")
=> 1375315200000
There are also conversions to and from java.util.Date
(to-date
and
from-date
), java.sql.Date
(to-sql-date
and from-sql-date
),
java.sql.Timestamp
(to-sql-time
and from-sql-time
) and several
other types.
The namespace clj-time.local
contains functions for working with
local time without having to shift to/from utc, the preferred time
zone of clj-time.core.
(require '[clj-time.local :as l])
Get the current local time with
(l/local-now)
Get a local date-time instance retaining the time fields with
(l/to-local-date-time obj)
The following all return 1986-10-14 04:03:27.246 with the local time zone.
(l/to-local-date-time (clj-time.core/date-time 1986 10 14 4 3 27 246))
(l/to-local-date-time "1986-10-14T04:03:27.246")
(l/to-local-date-time "1986-10-14T04:03:27.246Z")
The dynamic var *local-formatters*
contains a map of local
formatters for parsing and printing. It is initialized with all the
formatters in clj-time.format localized.
to-local-date-time for strings uses *local-formatters*
to parse.
Format an obj using a formatter in *local-formatters*
corresponding
to the format-key passed in with
(l/format-local-time (l/local-now) :basic-date-time)
clj-time.periodic/periodic-seq
returns an infinite sequence of instants
separated by a time period starting with the given point in time:
(require '[clj-time.periodic :as p])
(require '[clj-time.core :as t])
;; returns 10 instants starting with current time separated
;; by 12 hours
(take 10 (p/periodic-seq (t/now) (t/hours 12)))
clj-time.predicates
comes with a set of handy predicates to
check for common conditions. For instance:
(require '[clj-time.core :as t])
(require '[clj-time.predicates :as pr])
(pr/monday? (t/date-time 1999 9 9))
=> false
(pr/january? (t/date-time 2011 1 1))
=> true
(pr/weekend? (t/date-time 2014 1 26))
=> true
(pr/weekday? (t/date-time 2014 1 26))
=> false
(pr/last-day-of-month? (t/date-time 2014 1 26))
=> false
(pr/first-day-of-month? (t/date-time 2014 1 26))
=> false
Running the tests:
$ rm -f test/readme.clj && lein test-all && lein test-readme
(assumes Leiningen 2.x)
The complete API documentation is also available (codox generated).
Released under the MIT License: https://github.com/clj-time/clj-time/blob/master/MIT-LICENSE.txt