137

How do I extract the epoch value to Long from instances of LocalDateTime or LocalDate? I've tried the following, but it gives me other results:

LocalDateTime time = LocalDateTime.parse("04.02.2014  19:51:01", DateTimeFormatter.ofPattern("dd.MM.yyyy  HH:mm:ss"));
System.out.println(time.getLong(ChronoField.SECOND_OF_DAY)); // gives 71461
System.out.println(time.getLong(ChronoField.EPOCH_DAY)); // gives 16105

What I want is simply the value 1391539861 for the local datetime "04.02.2014 19:51:01". My timezone is Europe/Oslo UTC+1 with daylight saving time.

3
  • Please explain your expected number 1396468261. I get without timezone correction: 1391543461 (see edit in my answer). 57 days difference! Apr 10, 2014 at 14:38
  • @MenoHochschild I've updated my question with timezone info and corrected the actual value from GTM to localtime. Is there an easier way to get the epoch of some LocalDateTime other than manually calculating it?
    – user1019830
    Apr 10, 2014 at 14:58
  • Coming back from my pause, see my update. Apr 10, 2014 at 16:25

6 Answers 6

190

The classes LocalDate and LocalDateTime do not contain information about the timezone or time offset, and seconds since epoch would be ambigious without this information. However, the objects have several methods to convert them into date/time objects with timezones by passing a ZoneId instance.

LocalDate

LocalDate date = ...;
ZoneId zoneId = ZoneId.systemDefault(); // or: ZoneId.of("Europe/Oslo");
long epoch = date.atStartOfDay(zoneId).toEpochSecond();

LocalDateTime

LocalDateTime time = ...;
ZoneId zoneId = ZoneId.systemDefault(); // or: ZoneId.of("Europe/Oslo");
long epoch = time.atZone(zoneId).toEpochSecond();
7
  • 2
    Is it possible to avoid using ZoneId, or use with a customized, constant ZoneId instance (of +0 , meaning GMT) ? I ask this because I want all calculations be normalized to it. Also, how do I do the opposite: convert from epoch time to LocalDate/LocalDateTime (also without ZoneId, or with the GMT one) ? Jan 11, 2018 at 10:06
  • 4
    Never mind. Found it: ZoneId.ofOffset("UTC", ZoneOffset.ofHours(0)) Jan 14, 2018 at 12:41
  • 8
    A simpler approach is just long epoch = time.toEpochSecond(ZoneOffset.UTC) for UTC cases, or where you already know the timezone, or long epoch = time.toEpochSecond(ZoneId.systemDefault()); if you want to go that route.
    – Marcus
    Mar 19, 2019 at 1:30
  • This might sound ridiculous but how about converting back from epoch to LocalDate, LocalTime & LocalDateTime Jan 10, 2020 at 23:37
  • Never mind I think I found it; Instant.ofEpochMilli(responseTime).atZone(ZoneId.systemDefault()).toLocalTime() Jan 10, 2020 at 23:40
36

'Millis since unix epoch' represents an instant, so you should use the Instant class:

private long toEpochMilli(LocalDateTime localDateTime)
{
  return localDateTime.atZone(ZoneId.systemDefault())
    .toInstant().toEpochMilli();
}
4
  • 3
    it is incorrect to use ZoneId.systemDefault() because unix epoch refers to UTC
    – ACV
    Nov 26, 2019 at 12:13
  • @ACV Are you still agree what you once thought? Did the API designer failed to define ZonedDateTime#toInstant?
    – Jin Kwon
    Mar 27 at 7:20
  • 1
    @JinKwon I was merely refering to the fact that ZoneId.systemDefault() may not necessarily return the timezon the OP was expecting: My timezone is Europe/Oslo. So they should use ZoneId.of("Europe/Oslo") instead as suggested in other answers. As for ZonedDateTime.toInstant() - its javadoc clearly explains the implementation: This returns an Instant representing the same point on the time-line as this date-time. The calculation combines the local date-time and offset.
    – ACV
    Mar 28 at 15:16
  • ZoneId.systemDefault() seems to return UTC, so systemDefault should be fine Jun 4 at 22:59
12

The conversion you need requires the offset from UTC/Greewich, or a time-zone.

If you have an offset, there is a dedicated method on LocalDateTime for this task:

long epochSec = localDateTime.toEpochSecond(zoneOffset);

If you only have a ZoneId then you can obtain the ZoneOffset from the ZoneId:

ZoneOffset zoneOffset = ZoneId.of("Europe/Oslo").getRules().getOffset(ldt);

But you may find conversion via ZonedDateTime simpler:

long epochSec = ldt.atZone(zoneId).toEpochSecond();
1
  • 4
    If you only care about UTC, there is long epochSec = localDateTime.toEpochSecond(ZoneOffset.UTC);
    – ruhong
    Feb 5, 2018 at 23:59
2

Look at this method to see which fields are supported. You will find for LocalDateTime:

•NANO_OF_SECOND 
•NANO_OF_DAY 
•MICRO_OF_SECOND 
•MICRO_OF_DAY 
•MILLI_OF_SECOND 
•MILLI_OF_DAY 
•SECOND_OF_MINUTE 
•SECOND_OF_DAY 
•MINUTE_OF_HOUR 
•MINUTE_OF_DAY 
•HOUR_OF_AMPM 
•CLOCK_HOUR_OF_AMPM 
•HOUR_OF_DAY 
•CLOCK_HOUR_OF_DAY 
•AMPM_OF_DAY 
•DAY_OF_WEEK 
•ALIGNED_DAY_OF_WEEK_IN_MONTH 
•ALIGNED_DAY_OF_WEEK_IN_YEAR 
•DAY_OF_MONTH 
•DAY_OF_YEAR 
•EPOCH_DAY 
•ALIGNED_WEEK_OF_MONTH 
•ALIGNED_WEEK_OF_YEAR 
•MONTH_OF_YEAR 
•PROLEPTIC_MONTH 
•YEAR_OF_ERA 
•YEAR 
•ERA 

The field INSTANT_SECONDS is - of course - not supported because a LocalDateTime cannot refer to any absolute (global) timestamp. But what is helpful is the field EPOCH_DAY which counts the elapsed days since 1970-01-01. Similar thoughts are valid for the type LocalDate (with even less supported fields).

If you intend to get the non-existing millis-since-unix-epoch field you also need the timezone for converting from a local to a global type. This conversion can be done much simpler, see other SO-posts.

Coming back to your question and the numbers in your code:

The result 1605 is correct
  => (2014 - 1970) * 365 + 11 (leap days) + 31 (in january 2014) + 3 (in february 2014)
The result 71461 is also correct => 19 * 3600 + 51 * 60 + 1

16105L * 86400 + 71461 = 1391543461 seconds since 1970-01-01T00:00:00 (attention, no timezone) Then you can subtract the timezone offset (watch out for possible multiplication by 1000 if in milliseconds).

UPDATE after given timezone info:

local time = 1391543461 secs
offset = 3600 secs (Europe/Oslo, winter time in february)
utc = 1391543461 - 3600 = 1391539861

As JSR-310-code with two equivalent approaches:

long secondsSinceUnixEpoch1 =
  LocalDateTime.of(2014, 2, 4, 19, 51, 1).atZone(ZoneId.of("Europe/Oslo")).toEpochSecond();

long secondsSinceUnixEpoch2 =
  LocalDate
    .of(2014, 2, 4)
    .atTime(19, 51, 1)
    .atZone(ZoneId.of("Europe/Oslo"))
    .toEpochSecond();
1
  • 1
    Thanks for the explanation. Got the right result by using LocalDateTime time = LocalDateTime.parse("04.02.2014 19:51:01", DateTimeFormatter.ofPattern("dd.MM.yyyy HH:mm:ss")); and then Long epoch = time.atZone(ZoneId.of("Europe/Oslo")).toEpochSecond();.
    – user1019830
    Apr 10, 2014 at 18:18
1

This is one way without using time a zone:

LocalDateTime now = LocalDateTime.now();
long epoch = (now.getLong(ChronoField.EPOCH_DAY) * 86400000) + now.getLong(ChronoField.MILLI_OF_DAY);
0

Convert from human readable date to epoch:

long epoch = new java.text.SimpleDateFormat("MM/dd/yyyyHH:mm:ss").parse("01/01/1970 01:00:00").getTime() / 1000;

Convert from epoch to human readable date:

String date = new java.text.SimpleDateFormat("MM/dd/yyyyHH:mm:ss").format(new java.util.Date (epoch*1000));

For other language converter: https://www.epochconverter.com

1
  • This doesn't answer the question.
    – Sourabh
    Feb 26, 2021 at 14:06

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