Vanilla Java
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You can annotate any field with @Getter and/or @Setter, to let lombok generate the default getter/setter automatically.
A default getter simply returns the field, and is named getFoo if the field is called foo (or isFoo
if the field's type is boolean). A default setter is named setFoo if the field is called foo, returns void,
and takes 1 parameter of the same type as the field. It simply sets the field to this value.
The generated getter/setter method will be public unless you explicitly specify an AccessLevel, as shown in the example below.
Legal access levels are PUBLIC, PROTECTED, PACKAGE, and PRIVATE.
You can also put a @Getter and/or @Setter annotation on a class. In that case, it's as if you annotate all the non-static fields in that
class with the annotation.
You can always manually disable getter/setter generation for any field by using the special AccessLevel.NONE access level. This lets you override the
behaviour of a @Getter, @Setter or @Data annotation on a class.
To put annotations on the generated method, you can use onMethod=@__({@AnnotationsHere}); to put annotations on the only parameter of a generated setter method, you can use onParam=@__({@AnnotationsHere}). Be careful though! This is an experimental feature. For more details see the documentation on the onX feature.
NEW in lombok v1.12.0: javadoc on the field will now be copied to generated getters and setters. Normally, all text is copied, and @return is moved to the getter, whilst @param lines are moved to the setter. Moved means: Deleted from the field's javadoc. It is also possible to define unique text for each getter/setter. To do that, you create a 'section' named GETTER and/or SETTER. A section is a line in your javadoc containing 2 or more dashes, then the text 'GETTER' or 'SETTER', followed by 2 or more dashes, and nothing else on the line. If you use sections, @return and @param stripping for that section is no longer done (move the @return or @param line into the section).
For generating the method names, the first character of the field, if it is a lowercase character, is title-cased, otherwise, it is left unmodified. Then, get/set/is is prefixed.
No method is generated if any method already exists with the same name (case insensitive) and same parameter count. For example, getFoo()
will not be generated if there's already a method getFoo(String... x) even though it is technically possible to make the method. This caveat
exists to prevent confusion. If the generation of a method is skipped for this reason, a warning is emitted instead. Varargs count as 0 to N parameters.
For boolean fields that start with is immediately followed by a title-case letter, nothing is prefixed to generate the getter name.
Any variation on boolean will not result in using the is prefix instead of the get prefix; for example,
returning java.lang.Boolean results in a get prefix, not an is prefix.
Any annotations named @NonNull (case insensitive) on the field are interpreted as: This field must not ever hold
null. Therefore, these annotations result in an explicit null check in the generated setter. Also, these
annotations (as well as any annotation named @Nullable or @CheckForNull) are copied to setter parameter and getter method.
You can annotate a class with a @Getter or @Setter annotation. Doing so is equivalent to annotating all non-static fields
in that class with that annotation. @Getter/@Setter annotations on fields take precedence over the ones on classes.
Using the AccessLevel.NONE access level simply generates nothing. It's useful only in combination with
@Data or a class-wide @Getter or @Setter.
@Getter can also be used on enums. @Setter can't, not for a technical reason, but
for a pragmatic one: Setters on enums are an extremely bad idea.