436

I am wondering if there is a way to get current milliseconds since 1-1-1970 (epoch) using the new LocalDate, LocalTime or LocalDateTime classes of Java 8.

The known way is below:

long currentMilliseconds = new Date().getTime();

or

long currentMilliseconds = System.currentTimeMillis();
6
  • 8
    What's wrong with System.currentTimeMillis()? Commented May 29, 2014 at 22:59
  • 42
    @DavidWallace He's trying to get the time of a Date, not the current time? Commented May 29, 2014 at 22:59
  • 2
    "... a way to get current milliseconds ..." Commented May 29, 2014 at 23:00
  • milliseconds counting from 1-1-1970. I was wandering if there is a method to get them using the new classes of Java 8 LocalDate, LocalTime and LocalDateTime, cause i didn't found one. Commented May 29, 2014 at 23:02
  • 1
    My understanding of the purpose for those classes is that it is a "human-focused" understanding of time, and currentTimeMillis would be irrelevant in that context. Think Calendar + Wall-clock with really good precision, and no concerns about time zones and locality. So there's no way to get back to "UTC Time" from a LocalTime
    – Gus
    Commented May 29, 2014 at 23:05

15 Answers 15

461

I'm not entirely sure what you mean by "current milliseconds" but I'll assume it's the number of milliseconds since the "epoch," namely midnight, January 1, 1970 UTC.

If you want to find the number of milliseconds since the epoch right now, then use System.currentTimeMillis() as Anubian Noob has pointed out. If so, there's no reason to use any of the new java.time APIs to do this.

However, maybe you already have a LocalDateTime or similar object from somewhere and you want to convert it to milliseconds since the epoch. It's not possible to do that directly, since the LocalDateTime family of objects has no notion of what time zone they're in. Thus time zone information needs to be supplied to find the time relative to the epoch, which is in UTC.

Suppose you have a LocalDateTime like this:

LocalDateTime ldt = LocalDateTime.of(2014, 5, 29, 18, 41, 16);

You need to apply the time zone information, giving a ZonedDateTime. I'm in the same time zone as Los Angeles, so I'd do something like this:

ZonedDateTime zdt = ldt.atZone(ZoneId.of("America/Los_Angeles"));

Of course, this makes assumptions about the time zone. And there are edge cases that can occur, for example, if the local time happens to name a time near the Daylight Saving Time (Summer Time) transition. Let's set these aside, but you should be aware that these cases exist.

Anyway, if you can get a valid ZonedDateTime, you can convert this to the number of milliseconds since the epoch, like so:

long millis = zdt.toInstant().toEpochMilli();
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  • 6
    Note that ZonedDateTime already has the getEpochSecond method (via ChronoZonedDateTime default). No need for the Instant.
    – mabi
    Commented May 30, 2014 at 16:27
  • 27
    Sure, if all you need is seconds, not milliseconds. Commented May 30, 2014 at 17:23
  • 1
    Ah well, I was imprecise: ZonedDateTime also has Instants getNano method, so wouldn't you be able to just replace inst with zdt in your example?
    – mabi
    Commented May 30, 2014 at 17:25
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    Avoid the maths on nanos by using zdt.get(ChronoField.MILLI_OF_SECOND). Avoid all the maths by using zdt.toInstant().toEpochMilli() Commented Jul 7, 2014 at 9:46
  • 1
    @JodaStephen zdt.getLong instead of just get (which returns int)
    – adoalonso
    Commented Oct 30, 2018 at 7:06
147

What I do so I don't specify a time zone is,

System.out.println("ldt " + LocalDateTime.now().atZone(ZoneId.systemDefault()).toInstant().toEpochMilli());
System.out.println("ctm " + System.currentTimeMillis());

gives

ldt 1424812121078 
ctm 1424812121281

As you can see the numbers are the same except for a small execution time.

Just in case you don't like System.currentTimeMillis, use Instant.now().toEpochMilli()

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    No, Epoch is relative to UTC but you get the current time from your local zone. Commented Dec 14, 2017 at 11:51
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    @ChristofferHammarström the amount of milliseconds that have passed since the epoch is a fact independent of timezone. It's the same amount of milliseconds, no matter what time of day you call it. The two results are different because brian's machine took 203 milliseconds to execute the second command.
    – Fletch
    Commented May 28, 2020 at 5:38
  • Is it ok to use UTC when the user maybe in a different timezone
    – GilbertS
    Commented Jun 14, 2020 at 10:30
  • 6
    @GilbertS you should probably never use this exact code, use the API as intended. Date-time should always be UTC when stored on a computer or transmitted to another user. It should usually be presented to the user as a local date time using their own time zone settings.
    – brian
    Commented Jun 14, 2020 at 14:41
  • As @Fletch has already mentioned, the result has nothing to do with the timezone. The reason behind the difference is that it took 203 milliseconds to execute the second command. You can replace System.out.println("ctm " + System.currentTimeMillis()); with System.out.println("ldt " + LocalDateTime.now().atZone(ZoneId.systemDefault()).toInstant().toEpochMilli()); i.e. execute the exact same statement twice and you will still see the difference equal to the no. of milliseconds elapsed since the last execution of the same statement. Commented Jan 7, 2021 at 20:32
26

Since Java 8 you can call java.time.Instant.toEpochMilli().

For example the call

final long currentTimeJava8 = Instant.now().toEpochMilli();

gives you the same results as

final long currentTimeJava1 = System.currentTimeMillis();
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    "gives you the same results as" ... but takes more CPU power and stresses the garbage collector a lot more. Commented Dec 5, 2018 at 15:12
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    I'd like to see the above quantified (especially for normal usage - e.g. not for some performance critical real-time application...) Commented Oct 22, 2019 at 10:07
23

To avoid ZoneId you can do:

LocalDateTime date = LocalDateTime.of(1970, 1, 1, 0, 0);

System.out.println("Initial Epoch (TimeInMillis): " + date.toInstant(ZoneOffset.ofTotalSeconds(0)).toEpochMilli());

Getting 0 as value, that's right!

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    ZoneOffset.ofTotalSeconds(0) it is the same as ZoneOffset.UTC
    – Anton N
    Commented Nov 9, 2017 at 15:59
  • 1
    Yes, it was me upvoting @AntonNovopashin’s comment. Since you needed UTC, you’re fine (you might want to mention that in the answer). BTW ZoneOffset is a subclass of ZoneId, so I wouldn’t exactly say you have avoided it, but as long as you’re happy…
    – Anonymous
    Commented Jun 30, 2018 at 15:05
  • My first comment was a bit harsh, but wasn’t meant as offensive. You took offense. I am sorry. I have deleted it. Allow me to ask the other way around: what might be our reason for wanting to avoid ZoneId?
    – Anonymous
    Commented Jul 2, 2018 at 20:14
  • @OleV.V Is it ok to use UTC. Isn't only for people living in UTC timezone.
    – GilbertS
    Commented Jun 14, 2020 at 10:31
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    @GilbertS I don’t think anyone lives in UTC time zone. Using UTC for times that are used across time zones is recommended as a good practice. See for example Java Best Practice for Date Manipulation/Storage for Geographically Diverse Users. Or maybe I didn’t understand your question?
    – Anonymous
    Commented Jun 14, 2020 at 11:20
15

You can use java.sql.Timestamp also to get milliseconds.

LocalDateTime now = LocalDateTime.now();
long milliSeconds = Timestamp.valueOf(now).getTime();
System.out.println("MilliSeconds: "+milliSeconds);
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    You are ignoring the crucial need for a time zone. I do not recommend doing it this way. Also the Timestamp class is long outdated and filled with design problems, so I’d rather avoid it, especially when we can use the classes from java.time like LocalDateTime.
    – Anonymous
    Commented Jun 29, 2018 at 11:10
  • @OleV.V. Just curious about the design problems of Timestamp, Can you share some article on that? It helps me to avoid using Timestamp from my code as well. Thanks!
    – Nalam
    Commented Jul 2, 2018 at 2:55
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    Just short, it’s implemented as a subclass of Date but often cannot be handled as a Date. Most of the methods inherited from Date and one constructor are deprecated. Its toString method uses the JVM’s time zone, which confuses many since the same Timestamp is printed differently on different computers (example).
    – Anonymous
    Commented Jul 2, 2018 at 3:36
  • This is perfect for unit testing. Just replace the now with LocalDate.of(year, month, day)
    – G_V
    Commented Jul 17, 2019 at 10:05
  • This should be the accepted answer to workaround the "always UTC" values.
    – LeYAUable
    Commented Dec 25, 2019 at 2:34
14

To get the current time in milliseconds (since the epoch), use System.currentTimeMillis().

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13

You can try this:

long diff = LocalDateTime.now().atZone(ZoneOffset.UTC).toInstant().toEpochMilli();
3
  • Please add some explanation too.
    – Sabito
    Commented Dec 15, 2020 at 10:51
  • if you use LocalDateTime without local offset (always use UTC only) then it's better to just use Instant for REST, Websockets and other logic, and then you can pass that Instant to ZonedDateTime when you want to format date time for UI with local offset. In this case you don't use LocalDateTime at all
    – user924
    Commented Oct 23, 2022 at 15:17
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    LocalDateTime.now().toInstant(OffsetDateTime.now().offset) is easier
    – user924
    Commented Aug 31, 2023 at 11:57
7

Why didn't anyone mentioned the method LocalDateTime.toEpochSecond():

LocalDateTime localDateTime = ... // whatever e.g. LocalDateTime.now()
long time2epoch = localDateTime.toEpochSecond(ZoneOffset.UTC);

This seems way shorter that many suggested answers above...

5
  • this is what I was looking for. That accepted answer was giving me the willies. Commented Apr 15, 2020 at 12:51
  • Accept its only available in API 26 :{ Commented Apr 15, 2020 at 12:52
  • 7
    Because it gives only seconds. It's weird that there is no toEpochMilli method, taken into account the fact that you can specify even nanoseconds in LocalDateTime: there is a method LocalDateTime.of(int year, int month, int dayOfMonth, int hour, int minute, int second, int nanoOfSecond).
    – izogfif
    Commented May 29, 2020 at 14:06
  • if you just knew the difference between seconds and milliseconds...
    – user924
    Commented Oct 23, 2022 at 14:46
  • the question was about milliseconds and the guy says that it is weird that nobody mentioned seconds :D
    – user924
    Commented Oct 24, 2022 at 10:32
6

In case of LocalDate, you can use the toEpochDay() method. It returns the number of days since 01/01/1970. That number then can be easily converted to milliseconds:

long dateInMillis = TimeUnit.DAYS.toMillis(myLocalDate.toEpochDay());

In case of LocalDateTime, you can use the toEpochSecond() method. It returns the number of seconds since 01/01/1970. That number then can be converted to milliseconds, too:

long dateTimeInMillis = TimeUnit.SECONDS.toMillis(myLocalDateTime.toEpochSecond());
2
  • The correct method is: toEpochDay Commented Mar 11 at 14:52
  • Thanks for pointing this out, fixed the typo.
    – BenjyTec
    Commented Mar 11 at 15:49
5

For LocalDateTime I do it this way:

LocalDateTime.of(2021,3,18,7,17,24,341000000)
    .toInstant(OffsetDateTime.now().getOffset())
    .toEpochMilli()
5

I think this is more simpler:

ZonedDateTime zdt = ZonedDateTime.of(LocalDateTime.now(), ZoneId.systemDefault());
Assert.assertEquals(System.currentTimeMillis(), zdt.toInstant().toEpochMilli());

get the millis like System.currentTimeMillis() (from UTC).

4

If you have a Java 8 Clock, then you can use clock.millis() (although it recommends you use clock.instant() to get a Java 8 Instant, as it's more accurate).

Why would you use a Java 8 clock? So in your DI framework you can create a Clock bean:

@Bean
public Clock getClock() {
    return Clock.systemUTC();
}

and then in your tests you can easily Mock it:

@MockBean private Clock clock;

or you can have a different bean:

@Bean
public Clock getClock() {
    return Clock.fixed(instant, zone);
}

which helps with tests that assert dates and times immeasurably.

4

Date and time as String to Long (millis):

String dateTimeString = "2020-12-12T14:34:18.000Z";

DateTimeFormatter formatter = DateTimeFormatter
                .ofPattern("yyyy-MM-dd'T'HH:mm:ss.SSS'Z'", Locale.ENGLISH);

LocalDateTime localDateTime = LocalDateTime
        .parse(dateTimeString, formatter);

Long dateTimeMillis = localDateTime
        .atZone(ZoneId.systemDefault())
        .toInstant()
        .toEpochMilli();
2
  default LocalDateTime getDateFromLong(long timestamp) {
    try {
        return LocalDateTime.ofInstant(Instant.ofEpochMilli(timestamp), ZoneOffset.UTC);
    } catch (DateTimeException tdException) {
      //  throw new 
    }
}

default Long getLongFromDateTime(LocalDateTime dateTime) {
    return dateTime.atOffset(ZoneOffset.UTC).toInstant().toEpochMilli();
}
0
0

Simplest conversion:

Instant.from(localDateTime).toEpochMilli()

SORRY this does not work and gies the following error:

"Unsupported field: InstantSeconds",
"  java.base/java.time.LocalDate.get0(LocalDate.java:708)",
"  java.base/java.time.LocalDate.getLong(LocalDate.java:687)",
"  java.base/java.time.LocalDateTime.getLong(LocalDateTime.java:720)",
"  java.base/java.time.Instant.from(Instant.java:373)",
"  com.capitalone.rupol.ruleengine.util.LocalDateSerializer.serialize(LocalDateSerializer.java:25)",
"Unable to obtain Instant from TemporalAccessor: 2024-02-03T00:00 of type java.time.LocalDateTime",
"  java.base/java.time.Instant.from(Instant.java:378)",
"  com.capitalone.rupol.ruleengine.util.LocalDateSerializer.serialize(LocalDateSerializer.java:25)",
"  com.capitalone.rupol.ruleengine.util.LocalDateSerializer.serialize(LocalDateSerializer.java:11)",
"  com.fasterxml.jackson.databind.ser.std.MapSerializer.serializeOptionalFields(MapSerializer.java:869)",
"  com.fasterxml.jackson.databind.ser.std.MapSerializer.serializeWithoutTypeInfo(MapSerializer.java:760)",

The LocalDateTime does not carry a time zone. The Instant does not carry a time zone. Strangely, many of the other conversions require specifying a time zone that you don't need. This avoids using a time zone offset at any step, and converts internally from millis to millis.

It is strange that the LocalDateTime does not offer a conversion to Instant, since both LocalDateTime and Instant do not involve any representation of a time zone, but this factory method does the job.

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