- Fix your formatting pattern for unpadded month & day.
- Use only java.time classes, never the legacy classes.
LocalDateTime.parse( // Parse as an indeterminate `LocalDate`, devoid of time zone or offset-from-UTC. NOT a moment, NOT a point on the timeline.
"04:30 PM, Sat 5/12/2018" , // This input uses a poor choice of format. Whenever possible, use standard ISO 8601 formats when exchanging date-time values as text. Conveniently, the java.time classes use the standard formats by default when parsing/generating strings.
DateTimeFormatter.ofPattern( "hh:mm a, EEE M/d/uuuu" , Locale.US ) // Use single-character `M` & `d` when the number lacks a leading padded zero for single-digit values.
) // Returns a `LocalDateTime` object.
.atZone( // Apply a zone to that unzoned `LocalDateTime`, giving it meaning, determining a point on the timeline.
ZoneId.of( "America/Toronto" ) // Always specify a proper time zone with `Contintent/Region` format, never a 3-4 letter pseudo-zone such as `PST`, `CST`, or `IST`.
) // Returns a `ZonedDateTime`. `toString` → 2018-05-12T16:30-04:00[America/Toronto].
.toInstant() // Extract a `Instant` object, always in UTC by definition.
.toString() // Generate a String in standard ISO 8601 format representing the value within this `Instant` object. Note that this string is *generated*, not *contained*.
Use single-digit formatting pattern
MM in your formatting pattern, to mean any single-digit value (months January-September) will appear with a padded leading zero.
But your input lacks that padded leading zero. So use a single
Ditto for day-of-month I expect:
d rather than
Use only java.time
You are using troublesome flawed old date-time classes (
SimpleDateFormat) that were supplanted years ago by the java.time classes. The new classes entirely supplant the old. No need to mix the legacy and modern.
Parse as a
LocalDateTime because your input string lacks any indicator of time zone or offset-from-UTC. Such a value is not a moment, is not a point on the timeline. It is only a set of potential moments along a range of about 26-27 hours.
String input = "04:30 PM, Sat 5/12/2018";
DateTimeFormatter f = DateTimeFormatter.ofPattern( "hh:mm a, EEE M/d/uuuu" , Locale.US ); // Specify locale to determine human language and cultural norms used in translating that input string.
LocalDateTime ldt = LocalDateTime.parse( input , f );
If you know for certain that input was intended to represent a moment using the wall-clock time used by the people of the Toronto Canada region, apply a
ZoneId to get a
Assigning a time zone gives meaning to your unzoned
LocalDateTime. Now we have a moment, a point on the timeline.
ZoneId z = ZoneId.of( "America/Toronto" ) ;
ZonedDateTime zdt = ldt.atZone( z ) ; // Give meaning to that `LocalDateTime` by assigning the context of a particular time zone. Now we have a moment, a point on the timeline.
To see that same moment as UTC, extract an
Instant. Same moment, different wall-clock time.
Instant instant = zdt.toInstant() ;
The java.time framework is built into Java 8 and later. These classes supplant the troublesome old legacy date-time classes such as
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
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.