In a Spring Batch application, we have implemented an item scope.
We have lots of
@Service components which compute something based on the current batch item. Many of them need the same workflow:
- Determine relevant item parts.
- Init stuff based on the item.
- For each item part, compute something (using stuff).
We moved the workflow into a base class template method, so the subclasses implement only
findItemParts(Item) (doing 1 and 2) and
computeSomething(ItemPart) (doing 3). So they became stateful (stuff initialized in
findItemParts is needed in
computeSomething), and that state must be cleared before the next item.
Some of those services also involve injected Spring beans which are also derived from the current item and must be removed afterwards.
We implemented an
AbstractScopeRegisteringItemProcessor which registers the item and allows subclasses to register derived beans. At the end of its
process method, it removes the item from its scope context, and the derived beans using
How it worked out
It works, but has the following problems:
- We did not manage to get the derived beans cleaned up without registration (just based on their
@Scope). The concrete processor must create and register them.
AbstractScopeRegisteringItemProcessor would have been nicer using composition and dynamically implementing all interfaces of the underlying processor. But then the resulting
@StepScope bean is a proxy for the declared return type (i.e.
ItemProcessor) without the required callback interfaces.
With the aid of @Eliot Sykes's solution and shared code plus @Cheetah's BeanDefinition registration, I was able to get rid of the registration as singleton beans. Instead,
ItemScopeContext (the storage used by both the processor and the
Scope implementation; Java-configured via a static
@Bean method) implements
BeanDefinitionRegistryPostProcessor. It registers a
getObject() returns the current item or throws an exception if there is none. Now, a
@Component annotated with
@Scope(scopeName = "Item", proxyMode = ScopedProxyMode.TARGET_CLASS) can simply inject the item and need not be registered for end-of-scope cleanup.
So in the end, it did work out well.