Datatype module to make Jackson (http://jackson.codehaus.org) recognize Java 8 Date & Time API data types (JSR-310).
As of version 2.4, available for standard JDK8 distributions.
Earlier versions were build against pre-release candidates of Java 8, as follows:
- Version 2.3.1 requires Java 1.8.0-ea-b128 and newer.
- Version 2.2.2-beta4 and 2.2.3-beta5 require Java 1.8.0-ea-b99 to 1.8.0-ea-b112.
Most JSR-310 types are serialized as numbers (integers or decimals as appropriate) if the
SerializationFeature#WRITE_DATES_AS_TIMESTAMPS
feature is enabled, and otherwise are serialized in standard ISO-8601
string representation. ISO-8601 specifies formats for representing offset dates and times, zoned dates and times,
local dates and times, periods, durations, zones, and more. All JSR-310 types have built-in translation to and from
ISO-8601 formats.
Granularity of timestamps is controlled through the companion features
SerializationFeature#WRITE_DATE_TIMESTAMPS_AS_NANOSECONDS
and
DeserializationFeature#READ_DATE_TIMESTAMPS_AS_NANOSECONDS.
For serialization, timestamps are written as fractional numbers (decimals), where the number is seconds and the decimal
is fractional seconds, if WRITE_DATE_TIMESTAMPS_AS_NANOSECONDS is enabled (it is by default), with resolution as fine
as nanoseconds depending on the underlying JDK implementation. If WRITE_DATE_TIMESTAMPS_AS_NANOSECONDS is disabled,
timestamps are written as a whole number of milliseconds. At deserialization time, decimal numbers are always read as
fractional second timestamps with up-to-nanosecond resolution, since the meaning of the decimal is unambiguous. The
more ambiguous integer types are read as fractional seconds without a decimal point if
READ_DATE_TIMESTAMPS_AS_NANOSECONDS is enabled (it is by default), and otherwise they are read as milliseconds.
Some exceptions to this standard serialization/deserialization rule:
Period, which always results in an ISO-8601 format because Periods must be represented in years, months, and/or days.Year, which only contains a year and cannot be represented with a timestamp.YearMonth, which only contains a year and a month and cannot be represented with a timestamp.MonthDay, which only contains a month and a day and cannot be represented with a timestamp.ZoneIdandZoneOffset, which do not actually store dates and times but are supported with this module nonetheless.LocalDate,LocalTime,LocalDateTime, andOffsetTime, which cannot portably be converted to timestamps and are instead represented as arrays whenWRITE_DATES_AS_TIMESTAMPSis enabled.
To use module on Maven-based projects, use following dependency:
<dependency>
<groupId>com.fasterxml.jackson.datatype</groupId>
<artifactId>jackson-datatype-jsr310</artifactId>
<version>2.6.1</version>
</dependency>(or whatever version is most up-to-date at the moment)
Starting with Jackson 2.2, Modules can be automatically discovered using the Java 6 Service Provider Interface (SPI) feature.
You can activate this by instructing an ObjectMapper to find and register all Modules:
ObjectMapper mapper = new ObjectMapper();
mapper.findAndRegisterModules();You should use this feature with caution as it has performance implications. You should generally create one constant
ObjectMapper instance for your entire application codebase to share, or otherwise use one of ObjectMapper's
findModules methods and cache the result.
If you prefer to selectively register this module, this is done as follows, without the call to
findAndRegisterModules():
ObjectMapper mapper = new ObjectMapper();
mapper.registerModule(new JavaTimeModule());After either of these, functionality is available for all normal Jackson operations.
See Wiki for more information (JavaDocs, downloads).
Also: there is JDK 1.7 backport datatype module!