This project contains general purpose annotations for Jackson Data Processor, used on value and handler types. The only annotations not included are ones that require dependency to the Databind package. Note that only annotations themselves (and related value classes) are included, but no functionality that uses annotations.
Project contains versions 2.0 and above: source code for earlier (1.x) versions is available from Jackson-1 repository.
Full Listing of Jackson Annotations details all available annotations; Project Wiki gives more details.
Project is licensed under Apache License 2.0.
In addition to regular usage (see below), there are couple of noteworthy improvements Jackson does:
All annotations are in Java package com.fasterxml.jackson.annotation
.
To use annotations, you need to use Maven dependency:
<dependency>
<groupId>com.fasterxml.jackson.core</groupId>
<artifactId>jackson-annotations</artifactId>
<version>${jackson-annotations-version}</version>
</dependency>
or download jars from Maven repository (or via quick links on Wiki)
Let's start with simple use cases: renaming or ignoring properties, and modifying types that are used.
Note: while examples only show field properties, same annotations would work with method (getter/setter) properties.
One of most common tasks is to change JSON name used for a property: for example:
public class Name {
@JsonProperty("firstName")
public String _first_name;
}
would result in JSON like:
{ "firstName" : "Bob" }
instead of
{ "_first_name" : "Bob" }
Sometimes POJOs contain properties that you do not want to write out, so you can do:
public class Value {
public int value;
@JsonIgnore public int internalValue;
}
and get JSON like:
{ "value" : 42 }
or, you may get properties in JSON that you just want to skip: if so, you can use:
@JsonIgnoreProperties({ "extra", "uselessValue" })
public class Value {
public int value;
}
which would be able to handle JSON like:
{ "value" : 42, "extra" : "fluffy", "uselessValue" : -13 }
Finally, you may even want to just ignore any "extra" properties from JSON (ones for which there is no counterpart in POJO). This can be done by adding:
@JsonIgnoreProperties(ignoreUnknown=true)
public class PojoWithAny {
public int value;
}
Sometimes the type Jackson uses when reading or writing a property is not quite what you want:
These cases can be handled by following annotations:
public class ValueContainer {
// although nominal type is 'Value', we want to read JSON as 'ValueImpl'
@JsonDeserialize(as=ValueImpl.class)
public Value value;
// although runtime type may be 'AdvancedType', we really want to serialize
// as 'BasicType'; two ways to do this:
@JsonSerialize(as=BasicType.class)
// or could also use: @JsonSerialize(typing=Typing.STATIC)
public BasicType another;
}
By default, Jackson tries to use the "default" constructor (one that takes no arguments), when creating value instances. But you can also choose to use another constructor, or a static factory method to create instance. To do this, you will need to use annotation @JsonCreator
, and possibly @JsonProperty
annotations to bind names to arguments:
public class CtorPOJO {
private final int _x, _y;
@JsonCreator
public CtorPOJO(@JsonProperty("x") int x, @JsonProperty("y") int y) {
_x = x;
_y = y;
}
}
@JsonCreator
can be used similarly for static factory methods.
But there is also an alternative usage, which is so-called "delegating" creator:
public class DelegatingPOJO {
private final int _x, _y;
@JsonCreator
public DelegatingPOJO(Map<String,Object> delegate) {
_x = (Integer) delegate.get("x");
_y = (Integer) delegate.get("y");
}
}
the difference being that the creator method can only take one argument, and that argument must NOT have @JsonProperty
annotation.
If you need to read and write values of Objects where there are multiple possible subtypes (i.e. ones that exhibit polymorphism), you may need to enable inclusion of type information. This is needed so that Jackson can read back correct Object type when deserializing (reading JSON into Objects).
This can be done by adding @JsonTypeInfo
annotation on ''base class'':
@JsonTypeInfo(use=Id.MINIMAL_CLASS, include=As.PROPERTY, property="type") // Include Java class simple-name as JSON property "type"
@JsonSubTypes({@Type(Car.class), @Type(Aeroplane.class)}) // Required for deserialization only
public abstract class Vehicle {
}
public class Car extends Vehicle {
public String licensePlate;
}
public class Aeroplane extends Vehicle {
public int wingSpan;
}
public class PojoWithTypedObjects {
public List<Vehicle> items;
}
which gives serialized JSON like:
{ "items": [
{ "type": "Car", "licensePlate": "X12345" },
{ "type": "Aeroplane", "wingSpan": 13 }
]}
Alternatively, @JsonTypeInfo(use=DEDUCTION)
can be used to avoid requiring the 'type' field. For deserialization, types are deduced based
on the fields available. Exceptions will be raised if subtypes do not have a distinct signature of fieldnames or JSON does
not resolve to single known signature.
Note that @JsonTypeInfo
has lots of configuration possibilities: for more information check out
Intro to polymorphic type handling
The default Jackson property detection rules will find:
But if this does not work, you can change visibility levels by using annotation @JsonAutoDetect
.
If you wanted, for example, to auto-detect ALL fields (similar to how packages like GSON work), you could do:
@JsonAutoDetect(fieldVisibility=JsonAutoDetect.Visibility.ANY)
public class POJOWithFields {
private int value;
}
or, to disable auto-detection of fields altogether:
@JsonAutoDetect(fieldVisibility=JsonAutoDetect.Visibility.NONE)
public class POJOWithNoFields {
// will NOT be included, unless there is access 'getValue()'
public int value;
}
Jackson components are supported by the Jackson community through mailing lists, Gitter forum, Github issues. See Participation, Contributing for full details.
Available as part of the Tidelift Subscription.
The maintainers of jackson-annotations
and thousands of other packages are working with Tidelift to deliver commercial support and maintenance for the open source dependencies you use to build your applications. Save time, reduce risk, and improve code health, while paying the maintainers of the exact dependencies you use. Learn more.
Project-specific documentation:
Backwards compatibility:
Related: