I am trying to convert an ISO 8601 formatted String to a java.util.Date.

I found the pattern yyyy-MM-dd'T'HH:mm:ssZ to be ISO8601-compliant if used with a Locale (compare sample).

However, using the java.text.SimpleDateFormat, I cannot convert the correctly formatted String 2010-01-01T12:00:00+01:00. I have to convert it first to 2010-01-01T12:00:00+0100, without the colon.

So, the current solution is

SimpleDateFormat ISO8601DATEFORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ", Locale.GERMANY);
String date = "2010-01-01T12:00:00+01:00".replaceAll("\\+0([0-9]){1}\\:00", "+0$100");
System.out.println(ISO8601DATEFORMAT.parse(date));

which obviously isn't that nice. Am I missing something or is there a better solution?


Answer

Thanks to JuanZe's comment, I found the Joda-Time magic, it is also described here.

So, the solution is

DateTimeFormatter parser2 = ISODateTimeFormat.dateTimeNoMillis();
String jtdate = "2010-01-01T12:00:00+01:00";
System.out.println(parser2.parseDateTime(jtdate));

Or more simply, use the default parser via the constructor:

DateTime dt = new DateTime( "2010-01-01T12:00:00+01:00" ) ;

To me, this is nice.

  • 201
    Be ready to receive a lot of "Use JodaTime" answers... – JuanZe Feb 4 '10 at 17:54
  • 3
    @Ice09: If the API documentation for DateTimeFormat is correct (the JoDa documentation can be misleading, wrong or incomplete though), the pattern you've used in your own "answer" is not compatible with ISO8601. – jarnbjo Feb 4 '10 at 22:47
  • 19
    I'm not sure when this was added, but the 'X' appears to solve this problem within SimpleDateFormat. The pattern "yyyy-MM-dd'T'HH:mm:ssX" successfully parses the example in the question. – mlohbihler Jul 18 '12 at 19:20
  • 11
    The 'X' is available since Java 7. – Lars Grammel Oct 3 '12 at 17:58
  • 1
    The embedded answer with Joda-Time can be much shorter, a single line of code, no need to call parse method: new DateTime( "2010-01-01T12:00:00+01:00" ). See my answer for details. – Basil Bourque Dec 14 '13 at 2:14

25 Answers 25

up vote 429 down vote accepted

Unfortunately, the time zone formats available to SimpleDateFormat (Java 6 and earlier) are not ISO 8601 compliant. SimpleDateFormat understands time zone strings like "GMT+01:00" or "+0100", the latter according to RFC # 822.

Even if Java 7 added support for time zone descriptors according to ISO 8601, SimpleDateFormat is still not able to properly parse a complete date string, as it has no support for optional parts.

Reformatting your input string using regexp is certainly one possibility, but the replacement rules are not as simple as in your question:

  • Some time zones are not full hours off UTC, so the string does not necessarily end with ":00".
  • ISO8601 allows only the number of hours to be included in the time zone, so "+01" is equivalent to "+01:00"
  • ISO8601 allows the usage of "Z" to indicate UTC instead of "+00:00".

The easier solution is possibly to use the data type converter in JAXB, since JAXB must be able to parse ISO8601 date string according to the XML Schema specification. javax.xml.bind.DatatypeConverter.parseDateTime("2010-01-01T12:00:00Z") will give you a Calendar object and you can simply use getTime() on it, if you need a Date object.

You could probably use Joda-Time as well, but I don't know why you should bother with that.

  • 15
    The JAXB-solution is a really creative approach! It works as well, I have tested it with my sample. However, for whoever faces the problem and is allowed to use JodaTime, I would advise to use it, since it feels more natural. But your solution requires not additional libraries (at least with Java 6). – Ice09 Feb 5 '10 at 10:22
  • 32
    Here's the reverse: Calendar c = GregorianCalendar.getInstance();c.setTime(aDate);return javax.xml.bind.DatatypeConverter.printDateTime(c); – Alexander Ljungberg Oct 13 '10 at 18:13
  • 4
    Actually it's not so simple b/c you have to initialize the jaxb datatypeConverter. I ended up using DatatypeFactory myself as DataTypeConverterImpl did internally. What a headache. – gtrak Dec 1 '10 at 21:04
  • 6
    -1 I had trouble with this method and timezones – Simon Gibbs Jul 6 '12 at 15:53
  • 4
    @jarnbjo you are the first and only person I have encountered who prefers the standard, pre 1.8, java date classes, over joda-time. I find joda-time a literal joy to use, especially when compared to the standard api which is an abomination. – NimChimpsky Jun 23 '14 at 13:12

Okay, this question is already answered, but I'll drop my answer anyway. It might help someone.

I've been looking for a solution for Android (API 7).

  • Joda was out of the question - it is huge and suffers from slow initialization. It also seemed a major overkill for that particular purpose.
  • Answers involving javax.xml won't work on Android API 7.

Ended up implementing this simple class. It covers only the most common form of ISO 8601 strings, but this should be enough in some cases (when you're quite sure that the input will be in this format).

import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;

/**
 * Helper class for handling a most common subset of ISO 8601 strings
 * (in the following format: "2008-03-01T13:00:00+01:00"). It supports
 * parsing the "Z" timezone, but many other less-used features are
 * missing.
 */
public final class ISO8601 {
    /** Transform Calendar to ISO 8601 string. */
    public static String fromCalendar(final Calendar calendar) {
        Date date = calendar.getTime();
        String formatted = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ")
            .format(date);
        return formatted.substring(0, 22) + ":" + formatted.substring(22);
    }

    /** Get current date and time formatted as ISO 8601 string. */
    public static String now() {
        return fromCalendar(GregorianCalendar.getInstance());
    }

    /** Transform ISO 8601 string to Calendar. */
    public static Calendar toCalendar(final String iso8601string)
            throws ParseException {
        Calendar calendar = GregorianCalendar.getInstance();
        String s = iso8601string.replace("Z", "+00:00");
        try {
            s = s.substring(0, 22) + s.substring(23);  // to get rid of the ":"
        } catch (IndexOutOfBoundsException e) {
            throw new ParseException("Invalid length", 0);
        }
        Date date = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ").parse(s);
        calendar.setTime(date);
        return calendar;
    }
}

Performance note: I instantiate new SimpleDateFormat every time as means to avoid a bug in Android 2.1. If you're as astonished as I was, see this riddle. For other Java engines, you may cache the instance in a private static field (using ThreadLocal, to be thread safe).

  • 2
    Perhaps this should have been made into a question of its own, with its own answer? – Thorbear Aug 1 '12 at 13:25
  • 4
    This was the first page I've stubled upon when I was looking for the answer, so it seemed fit. For most Java developers, Android is not exactly Java. However, in most cases, one works the same as the other, so many Android developers will search for "java" when looking for this. – wrygiel Aug 2 '12 at 6:24
  • 1
    Note that this does not account for millisecond resolution. This is easy to add. – Sky Kelsey Aug 9 '12 at 1:32
  • 5
    i had to add .SSS for fractional seconds but works great thx. Why do you do s = s.substring(0, 22) + s.substring(23); - i dont see the point in this – Dori Sep 13 '13 at 15:31
  • 1
    input = input.replaceAll("[Zz]", "+0000"); will work too and substring operation can be avoided. – Javanator Oct 8 '15 at 7:34

The way that is blessed by Java 7 documentation:

DateFormat df1 = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSZ");
String string1 = "2001-07-04T12:08:56.235-0700";
Date result1 = df1.parse(string1);

DateFormat df2 = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSXXX");
String string2 = "2001-07-04T12:08:56.235-07:00";
Date result2 = df2.parse(string2);

You can find more examples in section Examples at SimpleDateFormat javadoc.

  • 5
    Your answer helped me to convert MongoDB's ISODate to local date. Regards. – Blue Sky Sep 18 '13 at 11:15
  • 67
    You'd think Java could at least add a constant for that String... – blong Dec 31 '13 at 17:10
  • 7
    @b.long Java added more than a constant for such ISO 8601 compliant formats. Java got an entire new framework for date-time work that includes built-in default support for such formats. See the new java.time framework in Java 8, inspired by Joda-Time, supplanting the troublesome java.util.Date, .Calendar, and SimpleDateFormat classes. – Basil Bourque Jul 20 '14 at 17:04
  • 10
    'Z' needs to be in quotes – kervin Jun 20 '16 at 1:11
  • 4
    @kervin If the Z is in quotes, won't the formatter be looking specifically for the character Z, not all of the offset strings it can represent? It seems like quoting Z would only work by coincidence, if your date strings happened to be in UTC. – spaaarky21 Aug 9 '16 at 17:47

java.time

The java.time API (built into Java 8 and later), makes this a little easier.

If you know the input is in UTC, such as the Z (for Zulu) on the end, the Instant class can parse.

java.util.Date date = Date.from( Instant.parse( "2014-12-12T10:39:40Z" ));

If your input may be another offset-from-UTC values rather than UTC indicated by the Z (Zulu) on the end, use the OffsetDateTime class to parse.

OffsetDateTime odt = OffsetDateTime.parse( "2010-01-01T12:00:00+01:00" );

Then extract an Instant, and convert to a java.util.Date by calling from.

Instant instant = odt.toInstant();  // Instant is always in UTC.
java.util.Date date = java.util.Date.from( instant );
  • 6
    This answer is working too hard. A java.util.Date by definition has no time zone. So no need for all that time zone related code: the LocalDateTime and ZoneId and atZone. This simple one-liner will do: java.util.Date date = Date.from( ZonedDateTime.parse( "2014-12-12T10:39:40Z" ).toInstant() ); – Basil Bourque Dec 15 '14 at 9:01
  • 2
    @BasilBourque This is unnecessarily complicated: Date.from(Instant.parse("2014-12-12T10:39:40Z" )); is enough. – assylias Nov 13 '15 at 19:07
  • 1
    @assylias you are correct but that will only work when the date string is UTC zone, ISO8601 allows any timezone... – Adam Nov 13 '15 at 19:13
  • 2
    @Adam My bad - I hadn't realised the question was more general than your example. As a side comment an OffsetDateTime would be enough to parse ISO8601 (which does not contain time zone information but only an offset). – assylias Nov 13 '15 at 19:18
  • 1
    @assylias Thanks for your comment about letting Instant do the parsing. While not sufficient for this particular Question, it is an important distinction worth pointing out. So I added a second example of code. Oops, just noticed this is not originally my Answer; I hope Adam approves. – Basil Bourque Nov 13 '15 at 22:26

The Jackson-databind library also has ISO8601DateFormat class that does that (actual implementation in ISO8601Utils.

ISO8601DateFormat df = new ISO8601DateFormat();
Date d = df.parse("2010-07-28T22:25:51Z");
  • It fails to parse this date: 2015-08-11T13:10:00. I get String index out of range: 19. Looking at the code it seems that it requires the milliseconds to be specified, and the timezone. Those should be optional. – Timmmm Aug 11 '15 at 14:54
  • 2
    To quote the documentation, the parse format is: [yyyy-MM-dd|yyyyMMdd][T(hh:mm[:ss[.sss]]|hhmm[ss[.sss]])]?[Z|[+-]hh:mm]]. In other words, the milliseconds is optional but the timezone is mandatory. – david_p Aug 12 '15 at 9:23
  • 2
    Ah yes actually it looks like you are right. Still, I'm pretty sure ISO8601 allows you to omit the timezone so it's still wrong. JodaTime works though: new DateTime("2015-08-11T13:10:00").toDate() – Timmmm Aug 12 '15 at 10:56
  • 1
    That class is now deprecated, the new one is StdDateFormat. Otherwise it works the same. – JohnEye Mar 14 at 13:59

tl;dr

OffsetDateTime.parse ( "2010-01-01T12:00:00+01:00" )

Using java.time

The new java.time package in Java 8 and later was inspired by Joda-Time.

The OffsetDateTime class represents a moment on the timeline with an offset-from-UTC but not a time zone.

OffsetDateTime odt = OffsetDateTime.parse ( "2010-01-01T12:00:00+01:00" );

Calling toString generates a string in standard ISO 8601 format:

2010-01-01T12:00+01:00

To see the same value through the lens of UTC, extract an Instant or adjust the offset from +01:00 to 00:00.

Instant instant = odt.toInstant();  

…or…

OffsetDateTime odtUtc = odt.withOffsetSameInstant( ZoneOffset.UTC );

Adjust into a time zone if desired. A time zone is a history of offset-from-UTC values for a region, with a set of rules for handling anomalies such as Daylight Saving Time (DST). So apply a time zone rather than a mere offset whenever possible.

ZonedDateTime zonedDateTimeMontréal = odt.atZoneSameInstant( ZoneId.of( "America/Montreal" ) );

About java.time

The java.time framework is built into Java 8 and later. These classes supplant the troublesome old legacy date-time classes such as java.util.Date, Calendar, & SimpleDateFormat.

The Joda-Time project, now in maintenance mode, advises migration to the java.time classes.

To learn more, see the Oracle Tutorial. And search Stack Overflow for many examples and explanations. Specification is JSR 310.

You may exchange java.time objects directly with your database. Use a JDBC driver compliant with JDBC 4.2 or later. No need for strings, no need for java.sql.* classes.

Where to obtain the java.time classes?

The ThreeTen-Extra project extends java.time with additional classes. This project is a proving ground for possible future additions to java.time. You may find some useful classes here such as Interval, YearWeek, YearQuarter, and more.


For Java version 7

You can follow Oracle documentation: http://docs.oracle.com/javase/7/docs/api/java/text/SimpleDateFormat.html

X - is used for ISO 8601 time zone

TimeZone tz = TimeZone.getTimeZone("UTC");
DateFormat df = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssX");
df.setTimeZone(tz);
String nowAsISO = df.format(new Date());

System.out.println(nowAsISO);

DateFormat df1 = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssX");
//nowAsISO = "2013-05-31T00:00:00Z";
Date finalResult = df1.parse(nowAsISO);

System.out.println(finalResult);
  • This means the timezone is required. According to ISO 8601 it is optional. As are the seconds, etc. So this only parses a specific subset of ISO 8601. – Timmmm Aug 11 '15 at 15:10
  • 1
    Works great with Java 1.8 – Thiago Pereira Aug 12 '16 at 16:26

The DatatypeConverter solution doesn't work in all VMs. The following works for me:

javax.xml.datatype.DatatypeFactory.newInstance().newXMLGregorianCalendar("2011-01-01Z").toGregorianCalendar().getTime()

I've found that joda does not work out of the box (specifically for the example I gave above with the timezone on a date, which should be valid)

  • Thanks! A good solution for those not on Java 7 yet. – Andrew Swan Dec 10 '13 at 2:08

I think we should use

DateFormat format = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'")

for Date 2010-01-01T12:00:00Z

  • 5
    Why is this a better answer than the others, included the accepted answer with 76 upvotes? – Erick Robertson Sep 28 '12 at 14:28
  • 3
    @ErickRobertson: It is simple, out of the box, flexible, no conversions, and most people don't care about time zones. – TWiStErRob Aug 27 '13 at 21:02
  • 7
    not much point working with times if you dont care about timezones! – Dori Sep 13 '13 at 15:30
  • 14
    This IGNORES the timezone completely. Was using this until I realized this was happening, so I switched to JodaTime. – Joshua Pinter Dec 10 '13 at 1:10
  • 3
    Throwing away the time zone will simply result in errors at some point. – Bart van Kuik Mar 2 '14 at 13:20

Another very simple way to parse ISO8601 timestamps is to use org.apache.commons.lang.time.DateUtils:

import static org.junit.Assert.assertEquals;

import java.text.ParseException;
import java.util.Date;
import org.apache.commons.lang.time.DateUtils;
import org.junit.Test;

public class ISO8601TimestampFormatTest {
  @Test
  public void parse() throws ParseException {
    Date date = DateUtils.parseDate("2010-01-01T12:00:00+01:00", new String[]{ "yyyy-MM-dd'T'HH:mm:ssZZ" });
    assertEquals("Fri Jan 01 12:00:00 CET 2010", date.toString());
  }
}

java.time

Note that in Java 8, you can use the java.time.ZonedDateTime class and its static parse(CharSequence text) method.

  • The input strings in the Question have only an offset-from-UTC, not a full time zone. So Instant and ZonedDateTime are appropriate here, not ZonedDateTime. – Basil Bourque Oct 19 '16 at 7:23

I faced the same problem and solved it by the following code .

 public static Calendar getCalendarFromISO(String datestring) {
    Calendar calendar = Calendar.getInstance(TimeZone.getDefault(), Locale.getDefault()) ;
    SimpleDateFormat dateformat = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSS'Z'", Locale.getDefault());
    try {
        Date date = dateformat.parse(datestring);
        date.setHours(date.getHours() - 1);
        calendar.setTime(date);

        String test = dateformat.format(calendar.getTime());
        Log.e("TEST_TIME", test);

    } catch (ParseException e) {
        e.printStackTrace();
    }

    return calendar;
}

Earlier I was using SimpleDateFormat dateformat = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSZ", Locale.getDefault());

But later i found the main cause of the exception was the yyyy-MM-dd'T'HH:mm:ss.SSSZ ,

So i used

SimpleDateFormat dateformat = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSS'Z'", Locale.getDefault());

It worked fine for me .

  • Just what I needed without having to use joda-time, XML api or anything else. Just the correct pattern. – Philippe Gioseffi Mar 10 '16 at 20:52

Also you can use the following class -

org.springframework.extensions.surf.util.ISO8601DateFormat


Date date = ISO8601DateFormat.parse("date in iso8601");

Link to the Java Doc - Hierarchy For Package org.springframework.extensions.surf.maven.plugin.util

Apache Jackrabbit uses the ISO 8601 format for persisting dates, and there is a helper class to parse them:

org.apache.jackrabbit.util.ISO8601

Comes with jackrabbit-jcr-commons.

  • While the subset of Jackrabbit might work, it makes more sense to use a full-fledged purpose-built library. In Java that means either Joda-Time or java.time. – Basil Bourque Dec 15 '14 at 18:37

As others have mentioned Android does not have a good way to support parsing/formatting ISO 8601 dates using classes included in the SDK. I have written this code multiple times so I finally created a Gist that includes a DateUtils class that supports formatting and parsing ISO 8601 and RFC 1123 dates. The Gist also includes a test case showing what it supports.

https://gist.github.com/mraccola/702330625fad8eebe7d3

The workaround for Java 7+ is using SimpleDateFormat:
DateFormat df = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSX", Locale.US);

This code can parse ISO8601 format like:

  • 2017-05-17T06:01:43.785Z
  • 2017-05-13T02:58:21.391+01:00

But on Java6, SimpleDateFormat doesn't understand X character and will throw
IllegalArgumentException: Unknown pattern character 'X'
We need to normalize ISO8601 date to the format readable in Java 6 with SimpleDateFormat.

public static Date iso8601Format(String formattedDate) throws ParseException {
    try {
        DateFormat df = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSX", Locale.US);
        return df.parse(formattedDate);
    } catch (IllegalArgumentException ex) {
        // error happen in Java 6: Unknown pattern character 'X'
        if (formattedDate.endsWith("Z")) formattedDate = formattedDate.replace("Z", "+0000");
        else formattedDate = formattedDate.replaceAll("([+-]\\d\\d):(\\d\\d)\\s*$", "$1$2");
        DateFormat df1 = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSZ", Locale.US);
        return df1.parse(formattedDate);
    }
}

Method above to replace [Z with +0000] or [+01:00 with +0100] when error occurs in Java 6 (you can detect Java version and replace try/catch with if statement).

  • No, the troublesome old date-time classes such as Date and SimpleDateFormat are poorly designed, confusing, and flawed. They are now legacy, supplanted by the java.time classes built into Java 8 and later. For Java 6 and Java 7, much of the java.time functionality is back-ported in the ThreeTen-Backport project. Much better to add that library to your app than use those legacy classes. One-line solution in java.time: OffsetDateTime.parse( "2010-01-01T12:00:00+01:00" ) – Basil Bourque May 16 '17 at 15:43

SimpleDateFormat for JAVA 1.7 has a cool pattern for ISO 8601 format.

Class SimpleDateFormat

Here is what I did:

Date d = new SimpleDateFormat( "yyyy-MM-dd'T'HH:mm:ss.SSSZ",
         Locale.ENGLISH).format(System.currentTimeMillis());
  • 2
    Z in format string is not ISO 8601 time zone, you should use X (or XX or XXX) if you want ISO 8601 time zone – Vojta Feb 8 '16 at 14:35
  • d is of type String – Tim Child Nov 2 '16 at 17:42

Java has a dozen different ways to parse a date-time, as the excellent answers here demonstrate. But somewhat amazingly, none of Java's time classes fully implement ISO 8601!

With Java 8, I'd recommend:

ZonedDateTime zp = ZonedDateTime.parse(string);
Date date = Date.from(zp.toInstant());

That will handle examples both in UTC and with an offset, like "2017-09-13T10:36:40Z" or "2017-09-13T10:36:40+01:00". It will do for most use cases.

But it won't handle examples like "2017-09-13T10:36:40+01", which is a valid ISO 8601 date-time.
It also won't handle date only, e.g. "2017-09-13".

If you have to handle those, I'd suggest using a regex first to sniff the syntax.

There's a nice list of ISO 8601 examples here with lots of corner cases: https://www.myintervals.com/blog/2009/05/20/iso-8601-date-validation-that-doesnt-suck/ I'm not aware of any Java class that could cope with all of them.

  • OffsetDateTime will do and conceptually matches a date-time with an offset better. – Ole V.V. Apr 8 at 17:04
  • Hey @OleV.V. thanks for the suggestion. Sadly no: OffsetDateTime.parse() will throw an exception for several valid ISO 8601 strings, e.g. "2017-09-13T10:36:40+01" or "2017-09-13" – Daniel Winterstein Apr 9 at 17:01
  • I only meant to say that OffsetDateTime handles the examples that you handle with ZonedDateTime. I believe that it doesn’t handle any of the examples that ZonedDateTime doesn’t. In that sense it’s no improvement (but also no worse). Sorry, I wasn’t perfectly clear. – Ole V.V. Apr 9 at 17:55

Use string like LocalDate.parse(((String) data.get("d_iso8601")),DateTimeFormatter.ISO_DATE)

I had a similar need: I needed to be able to parse any date ISO8601 compliant without knowing the exact format in advance, and I wanted a lightweight solution which would also work on Android.

When I googled my needs I stumbled upon this question, and noticed that AFAIU, no answer completely fit my needs. So I developed jISO8601 and pushed it on maven central.

Just add in you pom.xml:

<dependency>
  <groupId>fr.turri</groupId>
  <artifactId>jISO8601</artifactId>
  <version>0.2</version>
</dependency>

and then you're good to go:

import fr.turri.jiso8601.*;
...
Calendar cal = Iso8601Deserializer.toCalendar("1985-03-04");
Date date = Iso8601Deserializer.toDate("1985-03-04T12:34:56Z");

Hopes it help.

To just format a date like this the following worked for me in a Java 6 based application. There is a DateFormat class JacksonThymeleafISO8601DateFormat in the thymeleaf project which inserts the missing colon:

https://github.com/thymeleaf/thymeleaf/blob/40d27f44df7b52eda47d1bc6f1b3012add6098b3/src/main/java/org/thymeleaf/standard/serializer/StandardJavaScriptSerializer.java

I used it for ECMAScript date format compatibilty.

Do it like this:

public static void main(String[] args) throws ParseException {

    String dateStr = "2016-10-19T14:15:36+08:00";
    Date date = javax.xml.bind.DatatypeConverter.parseDateTime(dateStr).getTime();

    System.out.println(date);

}

Here is the output:

Wed Oct 19 15:15:36 CST 2016

Base Function Courtesy : @wrygiel.

This function can convert ISO8601 format to Java Date which can handle the offset values. As per the definition of ISO 8601 the offset can be mentioned in different formats.

±[hh]:[mm]
±[hh][mm]
±[hh]

Eg:  "18:30Z", "22:30+04", "1130-0700", and "15:00-03:30" all mean the same time. - 06:30PM UTC

This class has static methods to convert

  • ISO8601 string to Date(Local TimeZone) object
  • Date to ISO8601 string
  • Daylight Saving is automatically calc

Sample ISO8601 Strings

/*       "2013-06-25T14:00:00Z";
         "2013-06-25T140000Z";
         "2013-06-25T14:00:00+04";
         "2013-06-25T14:00:00+0400";
         "2013-06-25T140000+0400";
         "2013-06-25T14:00:00-04";
         "2013-06-25T14:00:00-0400";
         "2013-06-25T140000-0400";*/


public class ISO8601DateFormatter {

private static final DateFormat DATE_FORMAT_1 = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ssZ");
private static final DateFormat DATE_FORMAT_2 = new SimpleDateFormat("yyyy-MM-dd'T'HHmmssZ");
private static final String UTC_PLUS = "+";
private static final String UTC_MINUS = "-";

public static Date toDate(String iso8601string) throws ParseException {
    iso8601string = iso8601string.trim();
    if(iso8601string.toUpperCase().indexOf("Z")>0){
        iso8601string = iso8601string.toUpperCase().replace("Z", "+0000");
    }else if(((iso8601string.indexOf(UTC_PLUS))>0)){
        iso8601string = replaceColon(iso8601string, iso8601string.indexOf(UTC_PLUS));
        iso8601string = appendZeros(iso8601string, iso8601string.indexOf(UTC_PLUS), UTC_PLUS);
    }else if(((iso8601string.indexOf(UTC_MINUS))>0)){
        iso8601string = replaceColon(iso8601string, iso8601string.indexOf(UTC_MINUS));
        iso8601string = appendZeros(iso8601string, iso8601string.indexOf(UTC_MINUS), UTC_MINUS);
    }

    Date date = null;
    if(iso8601string.contains(":"))
        date = DATE_FORMAT_1.parse(iso8601string);
    else{
        date = DATE_FORMAT_2.parse(iso8601string);
    }
    return date;
}

public static String toISO8601String(Date date){
    return DATE_FORMAT_1.format(date);
}

private static String replaceColon(String sourceStr, int offsetIndex){
    if(sourceStr.substring(offsetIndex).contains(":"))
        return sourceStr.substring(0, offsetIndex) + sourceStr.substring(offsetIndex).replace(":", "");
    return sourceStr;
}

private static String appendZeros(String sourceStr, int offsetIndex, String offsetChar){
    if((sourceStr.length()-1)-sourceStr.indexOf(offsetChar,offsetIndex)<=2)
        return sourceStr + "00";
    return sourceStr;
}

}

  • 2
    Watch out -- DateFormat and derived classes are not multithread compatible! Using static SimpleDateFormat objects such as DATE_FORMAT_1 and DATE_FORMAT_2 means that multiple threads calling the ISO8601DateFormatter functions will share the same DateFormat object. This leads to data corruption and incorrect dates being returned from the DateFormat calls. To fix this, you should just make the pattern strings constants and create local SimpleDateFormat variables whenever needed. This will ensure that each object is just used by one thread. – Theo May 22 '14 at 20:55
  • A better fix for thread-safety is to instead use a date-time library built for thread-safety. In Java that world be either Joda-Time or java.time. – Basil Bourque Dec 15 '14 at 18:41

This seemed to work best for me:

public static Date fromISO8601_( String string ) {

    try {
            return new SimpleDateFormat ( "yyyy-MM-dd'T'HH:mm:ssXXX").parse ( string );
    } catch ( ParseException e ) {
        return Exceptions.handle (Date.class, "Not a valid ISO8601", e);
    }


}

I needed to convert to/fro JavaScript date strings to Java. I found the above works with the recommendation. There were some examples using SimpleDateFormat that were close but they did not seem to be the subset as recommended by:

http://www.w3.org/TR/NOTE-datetime

and supported by PLIST and JavaScript Strings and such which is what I needed.

This seems to be the most common form of ISO8601 string out there, and a good subset.

The examples they give are:

1994-11-05T08:15:30-05:00 corresponds 
November 5, 1994, 8:15:30 am, US Eastern Standard Time.

 1994-11-05T13:15:30Z corresponds to the same instant.

I also have a fast version:

final static int SHORT_ISO_8601_TIME_LENGTH =  "1994-11-05T08:15:30Z".length ();
                                            // 01234567890123456789012
final static int LONG_ISO_8601_TIME_LENGTH = "1994-11-05T08:15:30-05:00".length ();


public static Date fromISO8601( String string ) {
    if (isISO8601 ( string )) {
        char [] charArray = Reflection.toCharArray ( string );//uses unsafe or string.toCharArray if unsafe is not available
        int year = CharScanner.parseIntFromTo ( charArray, 0, 4 );
        int month = CharScanner.parseIntFromTo ( charArray, 5, 7 );
        int day = CharScanner.parseIntFromTo ( charArray, 8, 10 );
        int hour = CharScanner.parseIntFromTo ( charArray, 11, 13 );

        int minute = CharScanner.parseIntFromTo ( charArray, 14, 16 );

        int second = CharScanner.parseIntFromTo ( charArray, 17, 19 );

        TimeZone tz ;

         if (charArray[19] == 'Z') {

             tz = TimeZone.getTimeZone ( "GMT" );
         } else {

             StringBuilder builder = new StringBuilder ( 9 );
             builder.append ( "GMT" );
             builder.append( charArray, 19, LONG_ISO_8601_TIME_LENGTH - 19);
             String tzStr = builder.toString ();
             tz = TimeZone.getTimeZone ( tzStr ) ;

         }
         return toDate ( tz, year, month, day, hour, minute, second );

    }   else {
        return null;
    }

}

...

public static int parseIntFromTo ( char[] digitChars, int offset, int to ) {
    int num = digitChars[ offset ] - '0';
    if ( ++offset < to ) {
        num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
        if ( ++offset < to ) {
            num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
            if ( ++offset < to ) {
                num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                if ( ++offset < to ) {
                    num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                    if ( ++offset < to ) {
                        num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                        if ( ++offset < to ) {
                            num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                            if ( ++offset < to ) {
                                num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                                if ( ++offset < to ) {
                                    num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                                }
                            }
                        }
                    }
                }
            }
        }
    }
    return num;
}


public static boolean isISO8601( String string ) {
      boolean valid = true;

      if (string.length () == SHORT_ISO_8601_TIME_LENGTH) {
          valid &=  (string.charAt ( 19 )  == 'Z');

      } else if (string.length () == LONG_ISO_8601_TIME_LENGTH) {
          valid &=  (string.charAt ( 19 )  == '-' || string.charAt ( 19 )  == '+');
          valid &=  (string.charAt ( 22 )  == ':');

      } else {
          return false;
      }

    //  0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4
    // "1 9 9 4 - 1 1 - 0 5 T 0 8 : 1 5 : 3 0 - 0 5 : 0 0

    valid &=  (string.charAt ( 4 )  == '-') &&
                (string.charAt ( 7 )  == '-') &&
                (string.charAt ( 10 ) == 'T') &&
                (string.charAt ( 13 ) == ':') &&
                (string.charAt ( 16 ) == ':');

    return valid;
}

I have not benchmarked it, but I am guess it will be pretty fast. It seems to work. :)

@Test
public void testIsoShortDate() {
    String test =  "1994-11-05T08:15:30Z";

    Date date = Dates.fromISO8601 ( test );
    Date date2 = Dates.fromISO8601_ ( test );

    assertEquals(date2.toString (), date.toString ());

    puts (date);
}

@Test
public void testIsoLongDate() {
    String test =  "1994-11-05T08:11:22-05:00";

    Date date = Dates.fromISO8601 ( test );
    Date date2 = Dates.fromISO8601_ ( test );

    assertEquals(date2.toString (), date.toString ());

    puts (date);
}

I think what a lot of people want to do is parse JSON date strings. There is a good chance if you come to this page that you might want to convert a JavaScript JSON date to a Java date.

To show what a JSON date string looks like:

    var d=new Date();
    var s = JSON.stringify(d);

    document.write(s);
    document.write("<br />"+d);


    "2013-12-14T01:55:33.412Z"
    Fri Dec 13 2013 17:55:33 GMT-0800 (PST)

The JSON date string is 2013-12-14T01:55:33.412Z.

Dates are not covered by JSON spec per say, but the above is a very specific ISO 8601 format, while ISO_8601 is much much bigger and that is a mere subset albeit a very important one.

See http://www.json.org See http://en.wikipedia.org/wiki/ISO_8601 See http://www.w3.org/TR/NOTE-datetime

As it happens I wrote a JSON parser and a PLIST parser both of which use ISO-8601 but not the same bits.

/*
    var d=new Date();
    var s = JSON.stringify(d);

    document.write(s);
    document.write("<br />"+d);


    "2013-12-14T01:55:33.412Z"
    Fri Dec 13 2013 17:55:33 GMT-0800 (PST)


 */
@Test
public void jsonJavaScriptDate() {
    String test =  "2013-12-14T01:55:33.412Z";

    Date date = Dates.fromJsonDate ( test );
    Date date2 = Dates.fromJsonDate_ ( test );

    assertEquals(date2.toString (), "" + date);

    puts (date);
}

I wrote two ways to do this for my project. One standard, one fast.

Again, JSON date string is a very specific implementation of ISO 8601....

(I posted the other one in the other answer which should work for PLIST dates, which are a different ISO 8601 format).

The JSON date is as follows:

public static Date fromJsonDate_( String string ) {

    try {

        return new SimpleDateFormat ( "yyyy-MM-dd'T'HH:mm:ss.SSSXXX").parse ( string );
    } catch ( ParseException e ) {
        return Exceptions.handle (Date.class, "Not a valid JSON date", e);
    }


}

PLIST files (ASCII non GNUNext) also uses ISO 8601 but no miliseconds so... not all ISO-8601 dates are the same. (At least I have not found one that uses milis yet and the parser I have seen skip the timezone altogether OMG).

Now for the fast version (you can find it in Boon).

public static Date fromJsonDate( String string ) {

    return fromJsonDate ( Reflection.toCharArray ( string ), 0, string.length () );

}

Note that Reflection.toCharArray uses unsafe if available but defaults to string.toCharArray if not.

(You can take it out of the example by replacing Reflection.toCharArray ( string ) with string.toCharArray()).

public static Date fromJsonDate( char[] charArray, int from, int to ) {

    if (isJsonDate ( charArray, from, to )) {
        int year = CharScanner.parseIntFromTo ( charArray, from + 0, from + 4 );
        int month = CharScanner.parseIntFromTo ( charArray,  from +5,  from +7 );
        int day = CharScanner.parseIntFromTo ( charArray,  from +8,  from +10 );
        int hour = CharScanner.parseIntFromTo ( charArray,  from +11,  from +13 );

        int minute = CharScanner.parseIntFromTo ( charArray,  from +14,  from +16 );

        int second = CharScanner.parseIntFromTo ( charArray,  from +17,  from +19 );

        int miliseconds = CharScanner.parseIntFromTo ( charArray,  from +20,  from +23 );

        TimeZone tz = TimeZone.getTimeZone ( "GMT" );


        return toDate ( tz, year, month, day, hour, minute, second, miliseconds );

    }   else {
        return null;
    }

}

The isJsonDate is implemented as follows:

public static boolean isJsonDate( char[] charArray, int start, int to ) {
    boolean valid = true;
    final int length = to -start;

    if (length != JSON_TIME_LENGTH) {
        return false;
    }

    valid &=  (charArray [ start + 19 ]  == '.');

    if (!valid) {
        return false;
    }


    valid &=  (charArray[  start +4 ]  == '-') &&
            (charArray[  start +7 ]  == '-') &&
            (charArray[  start +10 ] == 'T') &&
            (charArray[  start +13 ] == ':') &&
            (charArray[  start +16 ] == ':');

    return valid;
}

Anyway... my guess is that quite a few people who come here.. might be looking for the JSON Date String and although it is an ISO-8601 date, it is a very specific one that needs a very specific parse.

public static int parseIntFromTo ( char[] digitChars, int offset, int to ) {
    int num = digitChars[ offset ] - '0';
    if ( ++offset < to ) {
        num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
        if ( ++offset < to ) {
            num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
            if ( ++offset < to ) {
                num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                if ( ++offset < to ) {
                    num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                    if ( ++offset < to ) {
                        num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                        if ( ++offset < to ) {
                            num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                            if ( ++offset < to ) {
                                num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                                if ( ++offset < to ) {
                                    num = ( num * 10 ) + ( digitChars[ offset ] - '0' );
                                }
                            }
                        }
                    }
                }
            }
        }
    }
    return num;
}

See https://github.com/RichardHightower/boon Boon has a PLIST parser (ASCII) and a JSON parser.

The JSON parser is the fastest Java JSON parser that I know of.

Independently verified by the Gatling Performance dudes.

https://github.com/gatling/json-parsers-benchmark

Benchmark                               Mode Thr     Count  Sec         Mean   Mean error        Units
BoonCharArrayBenchmark.roundRobin      thrpt  16        10    1   724815,875    54339,825    ops/s
JacksonObjectBenchmark.roundRobin      thrpt  16        10    1   580014,875   145097,700    ops/s
JsonSmartBytesBenchmark.roundRobin     thrpt  16        10    1   575548,435    64202,618    ops/s
JsonSmartStringBenchmark.roundRobin    thrpt  16        10    1   541212,220    45144,815    ops/s
GSONStringBenchmark.roundRobin         thrpt  16        10    1   522947,175    65572,427    ops/s
BoonDirectBytesBenchmark.roundRobin    thrpt  16        10    1   521528,912    41366,197    ops/s
JacksonASTBenchmark.roundRobin         thrpt  16        10    1   512564,205   300704,545    ops/s
GSONReaderBenchmark.roundRobin         thrpt  16        10    1   446322,220    41327,496    ops/s
JsonSmartStreamBenchmark.roundRobin    thrpt  16        10    1   276399,298   130055,340    ops/s
JsonSmartReaderBenchmark.roundRobin    thrpt  16        10    1    86789,825    17690,031    ops/s

It has the fastest JSON parser for streams, readers, bytes[], char[], CharSequence (StringBuilder, CharacterBuffer), and String.

See more benchmarks at:

https://github.com/RichardHightower/json-parsers-benchmark

  • This Answer about JSON is off-topic from the Question. Furthermore, this Question is incorrect as there is no such thing as a “JSON date” amongst the very few JSON data types. And nowadays, all this code can be replaced with a single-line call to built-in Java feature: Instant.parse( "2013-12-14T01:55:33.412Z" ) – Basil Bourque Oct 19 '16 at 7:15

protected by YCF_L Sep 2 '17 at 20:03

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