Supplier interface is simply an abstraction of a no-arg function that returns a value... it is a means of getting some instance or instances of an object. Since it is so general, it can be used as many things. Jared explained how the
Multimaps factories utilize it as a factory for creating a new instance of a
Collection of some type for values.
Given the simplicity of the interface, it also allows for some very powerful decoration of a
Supplier's behavior by wrapping the it in another
Supplier that alters its behavior somehow. Memoization is one example of that. I've used the
Suppliers.memoizeWithExpiration method myself as an easy way to make it so some data will only be read from a server at most once in a given period of time.
I'd also recommend taking a look at Guice and how the
Provider interface is used in it.
Provider is exactly equivalent to
Supplier and is central to how Guice works.
Provider allows users to define a custom way of creating new objects of a given class. Users can write a
get() method can execute whatever code is needed to create a new object, so they aren't limited to having Guice use constructors alone to create objects. Here, they are using it to define a custom factory for new instance of an object.
- Guice allows injection of a
Provider of any dependency. This may return a new instance every time
get() is called or it may always return a single instance or anything in between, depending on how the binding the
Provider represents is scoped. This also allows for "lazy instantiation" of dependencies... the
Provider gives a class a means of creating an object without needing to actually create the object ahead of time. An instance of the object does not need to be created until when, and if,
get() is called.
- As indicated above,
Providers form the basis of scoping in Guice. If you take a look at the Scope interface, you'll notice its single method
Provider<T> scope(Key<T> key, Provider<T> unscoped) is defined in terms of
Providers. This method takes something that creates a new instance of an object (the
Provider<T> unscoped) and returns a
Provider<T> based on that which applies whatever policy the scope defines, potentially returning some cached instance of the object rather than creating a new one. The default
NO_SCOPE scope simply passes along the
unscoped provider, meaning a new instance will be created each time. The
SINGLETON scope caches the result of the first call to
unscoped.get() and thereafter returns that single instance, ensuring that everything that depends on the singleton-scoped object gets a reference to that single object. Note that the
Provider returned by the
scope method does essentially the same thing as the
Supplier returned by
Suppliers.memoize (though it's a bit more complicated).