dateparser
is a smart and high-performance datetime parser library, it supports hundreds of different patterns.
For better performance and flexibility,
dateparser
doesn't use SimpleDateFormat
or DateTimeFormatter
,
but uses retree
to parse the specified String
into several matched parts,
and convert different parts to be different properties like year
, month
, day
, hour
, minute
, second
, zone
etc.
dateparser
has lots of predefined regular expressions as rules, like:
(?<week>%s)\W*
to matchMonday
as week?(?<year>\d{4})$
to match2019
as year^(?<year>\d{4})(?<month>\d{2})$
to match201909
as year and month?(?<hour>\d{1,2}) o’clock\W*
to match12 o’clock
as hour- More rules in
DateParserBuilder.java
With so many regular expressions, if use java.util.regex.Pattern
to match them one by one,
the performance would be a disaster.
So I choice to use retree
, retree
could merge lots of regular expressions as one,
in my opinion, it is more like a tree, which could execute matching quickly and concurrently.
You can also customize your own parser, by add new rules.
Add maven dependency:
<dependency>
<groupId>com.github.sisyphsu</groupId>
<artifactId>dateparser</artifactId>
<version>1.0.11</version>
</dependency>
Parse String
into Date
, Calendar
, LocalDateTime
, OffsetDateTime
:
Date date = DateParserUtils.parseDate("Mon Jan 02 15:04:05 -0700 2006");
// Tue Jan 03 06:04:05 CST 2006
Calendar calendar = DateParserUtils.parseCalendar("Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)");
// 2015-07-03T17:04:07Z
LocalDateTime dateTime = DateParserUtils.parseDateTime("2019-09-20 10:20:30.12345678 +0200");
// 2019-09-20T16:20:30.123456780
OffsetDateTime offsetDateTime = DateParserUtils.parseOffsetDateTime("2015-09-30 18:48:56.35272715 +0000 UTC");
// 2015-09-30T18:48:56.352727150Z
Please notice the TimeZone
and ZoneOffset
like -0700
, it could affect time
.
Because DateParser
isn't thread safe, and the parse
operation is quite fast(about 1us),
so DateParserUtils
maintains one parser as default, and wrap it with synchronized
.
If you want to use it concurrently, you should create new parser like this:
DateParser parser = DateParser.newBuilder().build();
Date date = parser.parseDate("Mon Jan 02 15:04:05 -0700 2006");
// Tue Jan 03 06:04:05 CST 2006
The DateParser
's instance is a little heavy, you should try to reuse it.
For most cases, dateparser
could recognize which part is month and which part is day.
But for MM/dd/yy
and dd/MM/yy
, it would be confused,
because most of countries use dd/MM/yy
, but little of countries use MM/dd/yy
, which is mainly the USA.
So dateparser
will use dd/MM
as priority, but you could change it by:
DateParserUtils.preferMonthFirst(true);
DateParserUtils.parseCalendar("08.03.71");
// 1971-08-03
DateParserUtils.preferMonthFirst(false);
DateParserUtils.parseCalendar("08.03.71");
// 1971-03-08
Notice: if either number is larger than 12
, then preferMonthFirst
wouldn't be effective.
You could use DateParserBuilder
to build your own parser,
and customize new rules to parse different input.
Like add support for 【2019】
, which isn't supported by default:
DateParser parser = DateParser.newBuilder().addRule("【(?<year>\\d{4})】").build();
Calendar calendar = parser.parseCalendar("【1991】");
assert calendar.get(Calendar.YEAR) == 1991;
The group name year
is very important, you cannot use other unknown name.
But, you can register new handler to parse the new rule:
DateParser parser = DateParser.newBuilder()
.addRule("民国(\\d{3})年", (input, matcher, dt) -> {
int offset = matcher.start(1);
int i0 = input.charAt(offset) - '0';
int i1 = input.charAt(offset + 1) - '0';
int i2 = input.charAt(offset + 2) - '0';
dt.setYear(i0 * 100 + i1 * 10 + i2 + 1911);
})
.build();
Calendar calendar = parser.parseCalendar("民国101年");
assert calendar.get(Calendar.YEAR) == 2012;
The 民国101年
represents 101
years after 1911
.
Compared to single SimpleDateFormat
, the performance of dateparser
:
Benchmark Mode Cnt Score Error Units
SingleBenchmark.java avgt 6 921.632 ± 12.299 ns/op
SingleBenchmark.parser avgt 6 1553.909 ± 70.664 ns/op
Compared to single DateTimeFormatter
, the performance of dateparser
:
Benchmark Mode Cnt Score Error Units
SingleDateTimeBenchmark.java avgt 6 654.553 ± 16.703 ns/op
SingleDateTimeBenchmark.parser avgt 6 1680.690 ± 34.214 ns/op
So, for String with known format, the dateparser
is slower.
But if the number of format
is not single,
lets increase to 16
, the performance of dateparser
:
Benchmark Mode Cnt Score Error Units
MultiBenchmark.format avgt 6 47385.021 ± 1083.649 ns/op
MultiBenchmark.parser avgt 6 22852.113 ± 310.720 ns/op
dateparser
is very stable, with increasing of the number of format
, it has no performance lose.
You can checkout the source code of benchmark at there.
There are some examples of datetime format which dateparser
supports:
May 8, 2009 5:57:51 PM
oct 7, 1970
oct 7, '70
oct. 7, 1970
oct. 7, 70
Mon Jan 2 15:04:05 2006
Mon Jan 2 15:04:05 MST 2006
Mon Jan 02 15:04:05 -0700 2006
Monday, 02-Jan-06 15:04:05 MST
Mon, 02 Jan 2006 15:04:05 MST
Tue, 11 Jul 2017 16:28:13 +0200 (CEST)
Mon, 02 Jan 2006 15:04:05 -0700
Thu, 4 Jan 2018 17:53:36 +0000
Mon Aug 10 15:44:11 UTC+0100 2015
Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
September 17, 2012 10:09am
September 17, 2012 at 10:09am PST-08
September 17, 2012, 10:10:09
October 7, 1970
October 7th, 1970
12 Feb 2006, 19:17
12 Feb 2006 19:17
7 oct 70
7 oct 1970
03 February 2013
1 July 2013
2013-Feb-03
3/31/2014
03/31/2014
08/21/71
8/1/71
4/8/2014 22:05
04/08/2014 22:05
4/8/14 22:05
04/2/2014 03:00:51
8/8/1965 12:00:00 AM
8/8/1965 01:00:01 PM
8/8/1965 01:00 PM
8/8/1965 1:00 PM
8/8/1965 12:00 AM
4/02/2014 03:00:51
03/19/2012 10:11:59
03/19/2012 10:11:59.3186369
2014/3/31
2014/03/31
2014/4/8 22:05
2014/04/08 22:05
2014/04/2 03:00:51
2014/4/02 03:00:51
2012/03/19 10:11:59
2012/03/19 10:11:59.3186369
2014年04月08日
2006-01-02T15:04:05+0000
2009-08-12T22:15:09-07:00
2009-08-12T22:15:09
2009-08-12T22:15:09Z
2014-04-26 17:24:37.3186369
2012-08-03 18:31:59.257000000
2014-04-26 17:24:37.123
2013-04-01 22:43
2013-04-01 22:43:22
2014-12-16 06:20:00 UTC
2014-12-16 06:20:00 GMT
2014-04-26 05:24:37 PM
2014-04-26 13:13:43 +0800
2014-04-26 13:13:43 +0800 +08
2014-04-26 13:13:44 +09:00
2012-08-03 18:31:59.257000000 +0000 UTC
2015-09-30 18:48:56.35272715 +0000 UTC
2015-02-18 00:12:00 +0000 GMT
2015-02-18 00:12:00 +0000 UTC
2015-02-08 03:02:00 +0300 MSK m=+0.000000001
2015-02-08 03:02:00.001 +0300 MSK m=+0.000000001
2017-07-19 03:21:51+00:00
2014-04-26
2014-04
2014
2014-05-11 08:20:13,787
3.31.2014
03.31.2014
08.21.71
2014.03
2014.03.30
20140601
20140722105203
1332151919
1384216367189
1384216367111222
1384216367111222333
Lots of these examples were copied from https://github.com/araddon/dateparse.
Let me know if you meet any issues when using this library.
Let me know if you need any features that this library hasn't yet.
Pull Request are welcomed.
MIT