<#import "_features.html" as f> <@f.scaffold title="@Builder" logline="... and Bob's your uncle: No-hassle fancy-pants APIs for object creation!"> <@f.history>

@Builder was introduced as experimental feature in lombok v0.12.0.

@Builder gained @Singular support and was promoted to the main lombok package since lombok v1.16.0.

@Builder with @Singular adds a clear method since lombok v1.16.8.

<@f.overview>

The @Builder annotation produces complex builder APIs for your classes.

@Builder lets you automatically produce the code required to have your class be instantiable with code such as:
Person.builder().name("Adam Savage").city("San Francisco").job("Mythbusters").job("Unchained Reaction").build();

@Builder can be placed on a class, or on a constructor, or on a method. While the "on a class" and "on a constructor" mode are the most common use-case, @Builder is most easily explained with the "method" use-case.

A method annotated with @Builder (from now on called the target) causes the following 7 things to be generated:

Each listed generated element will be silently skipped if that element already exists (disregarding parameter counts and looking only at names). This includes the builder itself: If that class already exists, lombok will simply start injecting fields and methods inside this already existing class, unless of course the fields / methods to be injected already exist. You may not put any other method (or constructor) generating lombok annotation on a builder class though; for example, you can not put @EqualsAndHashCode on the builder class.

@Builder can generate so-called 'singular' methods for collection parameters/fields. These take 1 element instead of an entire list, and add the element to the list. For example: Person.builder().job("Mythbusters").job("Unchained Reaction").build(); would result in the List<String> jobs field to have 2 strings in it. To get this behaviour, the field/parameter needs to be annotated with @Singular. The feature has its own documentation.

Now that the "method" mode is clear, putting a @Builder annotation on a constructor functions similarly; effectively, constructors are just static methods that have a special syntax to invoke them: Their 'return type' is the class they construct, and their type parameters are the same as the type parameters of the class itself.

Finally, applying @Builder to a class is as if you added @AllArgsConstructor(access = AccessLevel.PACKAGE) to the class and applied the @Builder annotation to this all-args-constructor. This only works if you haven't written any explicit constructors yourself. If you do have an explicit constructor, put the @Builder annotation on the constructor instead of on the class.

If using @Builder to generate builders to produce instances of your own class (this is always the case unless adding @Builder to a method that doesn't return your own type), you can use @Builder(toBuilder = true) to also generate an instance method in your class called toBuilder(); it creates a new builder that starts out with all the values of this instance. You can put the @Builder.ObtainVia annotation on the parameters (in case of a constructor or method) or fields (in case of @Builder on a type) to indicate alternative means by which the value for that field/parameter is obtained from this instance. For example, you can specify a method to be invoked: @Builder.ObtainVia(method = "calculateFoo").

The name of the builder class is FoobarBuilder, where Foobar is the simplified, title-cased form of the return type of the target - that is, the name of your type for @Builder on constructors and types, and the name of the return type for @Builder on methods. For example, if @Builder is applied to a class named com.yoyodyne.FancyList<T>, then the builder name will be FancyListBuilder<T>. If @Builder is applied to a method that returns void, the builder will be named VoidBuilder.

The configurable aspects of builder are:

Example usage where all options are changed from their defaults:
@Builder(builderClassName = "HelloWorldBuilder", buildMethodName = "execute", builderMethodName = "helloWorld", toBuilder = true)

<@f.featureSection>

@Singular

By annotating one of the parameters (if annotating a method or constructor with @Builder) or fields (if annotating a class with @Builder) with the @Singular annotation, lombok will treat that builder node as a collection, and it generates 2 'adder' methods instead of a 'setter' method. One which adds a single element to the collection, and one which adds all elements of another collection to the collection. No setter to just set the collection (replacing whatever was already added) will be generated. A 'clear' method is also generated. These 'singular' builders are very complicated in order to guarantee the following properties:

@Singular can only be applied to collection types known to lombok. Currently, the supported types are:

If your identifiers are written in common english, lombok assumes that the name of any collection with @Singular on it is an english plural and will attempt to automatically singularize that name. If this is possible, the add-one method will use this name. For example, if your collection is called statuses, then the add-one method will automatically be called status. You can also specify the singular form of your identifier explictly by passing the singular form as argument to the annotation like so: @Singular("axis") List<Line> axes;.
If lombok cannot singularize your identifier, or it is ambiguous, lombok will generate an error and force you to explicitly specify the singular name.

The snippet below does not show what lombok generates for a @Singular field/parameter because it is rather complicated. You can view a snippet here.

<@f.snippets name="Builder" /> <@f.confKeys>
lombok.builder.flagUsage = [warning | error] (default: not set)
Lombok will flag any usage of @Builder as a warning or error if configured.
lombok.singular.useGuava = [true | false] (default: false)
If true, lombok will use guava's ImmutableXxx builders and types to implement java.util collection interfaces, instead of creating implementations based on Collections.unmodifiableXxx. You must ensure that guava is actually available on the classpath and buildpath if you use this setting. Guava is used automatically if your field/parameter has one of the guava ImmutableXxx types.
lombok.singular.auto = [true | false] (default: true)
If true (which is the default), lombok automatically tries to singularize your identifier name by assuming that it is a common english plural. If false, you must always explicitly specify the singular name, and lombok will generate an error if you don't (useful if you write your code in a language other than english).
<@f.smallPrint>

@Singular support for java.util.NavigableMap/Set only works if you are compiling with JDK1.8 or higher.

You cannot manually provide some or all parts of a @Singular node; the code lombok generates is too complex for this. If you want to manually control (part of) the builder code associated with some field or parameter, don't use @Singular and add everything you need manually.

The sorted collections (java.util: SortedSet, NavigableSet, SortedMap, NavigableMap and guava: ImmutableSortedSet, ImmutableSortedMap) require that the type argument of the collection has natural order (implements java.util.Comparable). There is no way to pass an explicit Comparator to use in the builder.

An ArrayList is used to store added elements as call methods of a @Singular marked field, if the target collection is from the java.util package, even if the collection is a set or map. Because lombok ensures that generated collections are compacted, a new backing instance of a set or map must be constructed anyway, and storing the data as an ArrayList during the build process is more efficient that storing it as a map or set. This behaviour is not externally visible, an implementation detail of the current implementation of the java.util recipes for @Singular @Builder.

With toBuilder = true applied to methods, any type parameter of the annotated method itself must also show up in the return type.