I want to convert
String myDate = "2014/10/29 18:10:45" to
long ms (i.e. currentinmlilies)? I look for it on Google, but I can only find how to convert ms to date.
Note: To make it clear, I want to get the ms from the date in 1970/1/1 format.
You don't have a
Date, you have a
String representation of a date. You should convert the
String into a
Date and then obtain the milliseconds. To convert a
String into a
Date and vice versa you should use
Here's an example of what you want/need to do (assuming time zone is not involved here):
String myDate = "2014/10/29 18:10:45"; SimpleDateFormat sdf = new SimpleDateFormat("yyyy/MM/dd HH:mm:ss"); Date date = sdf.parse(myDate); long millis = date.getTime();
Still, be careful because in Java the milliseconds obtained are the milliseconds between the desired epoch and 1970-01-01 00:00:00.
Using the new Date/Time API available since Java 8:
String myDate = "2014/10/29 18:10:45"; LocalDateTime localDateTime = LocalDateTime.parse(myDate, DateTimeFormatter.ofPattern("yyyy/MM/dd HH:mm:ss") ); /* With this new Date/Time API, when using a date, you need to specify the Zone where the date/time will be used. For your case, seems that you want/need to use the default zone of your system. Check which zone you need to use for specific behaviour e.g. CET or America/Lima */ long millis = localDateTime .atZone(ZoneId.systemDefault()) .toInstant().toEpochMilli();
LocalDateTime.parse( // Parse into an object representing a date with a time-of-day but without time zone and without offset-from-UTC. "2014/10/29 18:10:45" // Convert input string to comply with standard ISO 8601 format. .replace( " " , "T" ) // Replace SPACE in the middle with a `T`. .replace( "/" , "-" ) // Replace SLASH in the middle with a `-`. ) .atZone( // Apply a time zone to provide the context needed to determine an actual moment. ZoneId.of( "Europe/Oslo" ) // Specify the time zone you are certain was intended for that input. ) // Returns a `ZonedDateTime` object. .toInstant() // Adjust into UTC. .toEpochMilli() // Get the number of milliseconds since first moment of 1970 in UTC, 1970-01-01T00:00Z.
The accepted answer is correct, except that it ignores the crucial issue of time zone. Is your input string 6:10 PM in Paris or Montréal? Or UTC?
Use a proper time zone name. Usually a continent plus city/region. For example,
"Europe/Oslo". Avoid the 3 or 4 letter codes which are neither standardized nor unique.
The modern approach uses the java.time classes.
Alter your input to conform with the ISO 8601 standard. Replace the SPACE in the middle with a
T. And replace the slash characters with hyphens. The java.time classes use these standard formats by default when parsing/generating strings. So no need to specify a formatting pattern.
String input = "2014/10/29 18:10:45".replace( " " , "T" ).replace( "/" , "-" ) ; LocalDateTime ldt = LocalDateTime.parse( input ) ;
LocalDateTime, like your input string, lacks any concept of time zone or offset-from-UTC. Without the context of a zone/offset, a
LocalDateTime has no real meaning. Is it 6:10 PM in India, Europe, or Canada? Each of those places experience 6:10 PM at different moments, at different points on the timeline. So you must specify which you have in mind if you want to determine a specific point on the timeline.
ZoneId z = ZoneId.of( "Europe/Oslo" ) ; ZonedDateTime zdt = ldt.atZone( z ) ;
Now we have a specific moment, in that
ZonedDateTime. Convert to UTC by extracting a
Instant class represents a moment on the timeline in UTC with a resolution of nanoseconds (up to nine (9) digits of a decimal fraction).
Instant instant = zdt.toInstant() ;
Now we can get your desired count of milliseconds since the epoch reference of first moment of 1970 in UTC, 1970-01-01T00:00Z.
long millisSinceEpoch = instant.toEpochMilli() ;
Be aware of possible data loss. The
Instant object is capable of carrying microseconds or nanoseconds, finer than milliseconds. That finer fractional part of a second will be ignored when getting a count of milliseconds.
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
YearQuarter, and more.
Below is the same kind of code but using the Joda-Time 2.5 library and handling time zone.
The java.util.Date, .Calendar, and .SimpleDateFormat classes are notoriously troublesome, confusing, and flawed. Avoid them. Use either Joda-Time or the java.time package (inspired by Joda-Time) built into Java 8.
Your string is almost in ISO 8601 format. The slashes need to be hyphens and the SPACE in middle should be replaced with a
T. If we tweak that, then the resulting string can be fed directly into constructor without bothering to specify a formatter. Joda-Time uses ISO 8701 formats as it's defaults for parsing and generating strings.
String inputRaw = "2014/10/29 18:10:45"; String input = inputRaw.replace( "/", "-" ).replace( " ", "T" ); DateTimeZone zone = DateTimeZone.forID( "Europe/Oslo" ); // Or DateTimeZone.UTC DateTime dateTime = new DateTime( input, zone ); long millisecondsSinceUnixEpoch = dateTime.getMillis();
The SimpleDateFormat class allows you to parse a
String into a
java.util.Date object. Once you have the Date object, you can get the milliseconds since the epoch by calling
The full example:
String myDate = "2014/10/29 18:10:45"; //creates a formatter that parses the date in the given format SimpleDateFormat sdf = new SimpleDateFormat("yyyy/MM/dd HH:mm:ss"); Date date = sdf.parse(myDate); long timeInMillis = date.getTime();
Note that this gives you a
long and not a double, but I think that's probably what you intended. The documentation for the
SimpleDateFormat class has tons on information on how to set it up to parse different formats.
The 2017 answer is: Use the date and time classes introduced in Java 8 (and also backported to Java 6 and 7 in the ThreeTen Backport).
If you want to interpret the date-time string in the computer’s time zone:
long millisSinceEpoch = LocalDateTime.parse(myDate, DateTimeFormatter.ofPattern("uuuu/MM/dd HH:mm:ss")) .atZone(ZoneId.systemDefault()) .toInstant() .toEpochMilli();
If another time zone, fill that zone in instead of
ZoneId.systemDefault(). If UTC, use
long millisSinceEpoch = LocalDateTime.parse(myDate, DateTimeFormatter.ofPattern("uuuu/MM/dd HH:mm:ss")) .atOffset(ZoneOffset.UTC) .toInstant() .toEpochMilli();