This project provides bridges between Spring and Guice so that you can use one from the other (and vice versa). It works with Spring 6 (or at least the tests are green), but Guice does not support the Jakarta annotations so it may break in unexpected ways.
The main bridge in this case is a Guice Module
that wraps an
existing Spring ApplicationContext
. Example:
AnnotationConfigApplicationContext context =
new AnnotationConfigApplicationContext(ApplicationConfiguration.class);
Injector injector = Guice.createInjector(new SpringModule(context), new MyModule());
Service service = injector.getInstance(Service.class);
SpringModule
(org.springframework.guice.module.SpringModule
) will wrap the existing spring configurations for you.
Note that the ApplicationContext
in this example might contain the
Service
definition or it might be in the Guice Module
(MyModule
), or if Service
is a concrete class it could be neither,
but Guice creates an instance and wires it for us.
If the ApplicationConfiguration
is annotated @GuiceModule
then it
can filter the types of bean that are registered with the Guice
binder. Example:
@Configuration
@GuiceModule(includeFilters=@Filter(pattern=.*\\.Service))
public class ApplicationConfiguration {
@Bean
public MyService service() {
...
}
}
In this case, only bean types (or interfaces) called "Service" will match the include filter, and only those beans will be bound.
If there are multiple @Beans
of the same type in the
ApplicationContext
then the SpringModule
will register them all,
and there will be a runtime exception if an Injector
needs one. As
with normal Spring dependency resolution, you can add the @Primary
marker to a single bean to differentiate and hint to the Injector
which instance to use.
If your Spring @Configuration
has dependencies that can only come
from a Guice Module
and you prefer to use the Guice APIs to build up
the configuration (so you can't use @EnableGuiceModules
below), then
you can create a SpringModule
from a
Provider<ConfigurableListableBeanFactory>
instead of from an
existing ApplicationContext
. There are some additional features that
may also apply:
-
If the bean factory created by the provider is a
DefaultListableBeanFactory
(mostly it would be if it came from anApplicationContext
), then it will pick up a special Guice-awareAutowireCandidateResolver
, meaning that it will be able to inject dependencies from Guice modules that are not registered as beans. -
If the bean factory contains any beans of type
ProvisionListener
(a Guice lifecysle listener), then those will be instantiated and registered with Guice.
To take advantage of the autowiring the bean factory must come from an
ApplicationContext
that is not fully refreshed (refreshing would
resolve all the dependencies and fail because the Guice resolver is
not yet registered). To help you build bean factories that have this
quality there is a convenience class called BeanFactoryProvider
with
static methods which you can use to create a provider to inject into a
SpringModule
. Example:
Injector injector = Guice.createInjector(new SimpleGuiceModule(),
new SpringModule(BeanFactoryProvider.from(SpringConfiguration.class)));
The SimpleGuiceModule
contains a component that the
SpringConfiguration
depends on.
The main feature here is a Spring @Configuration
annotation:
@EnableGuiceModules
. If you have Guice Modules
that you want to
re-use (e.g. if they come from a third party) you can declare them in
a Spring ApplicationContext
as @Beans
, and expose all their
bindings. Example:
@EnableGuiceModules
@Configuration
public static class TestConfig {
@Bean
public static MyModule myModule() {
return new MyModule();
}
@Bean
public Spam spam(Service service) {
return new Spam(service);
}
}
The Service
was defined in the Guice module MyModule
, and then it
was be bound to the autowired spam()
method when Spring started.
In certain cases you might need to ensure that some modules are not configured at all, even though they will be absent from the final ApplicationContext
.
This might be due to external code that may be hard to change that causes side effects at binding time, for example.
To ensure that these modules are not called at all you can define one or moreModuleFilter
beans that will be applied to filter out modules from the context before they are touched by the Spring-Guice bridge.
import org.springframework.context.annotation.Bean;
import org.springframework.guice.annotation.ModuleFilter;
public static class TestConfig {
@Bean
public static MyModule myModule() {
return new MyModule();
}
@Bean
public ModuleFilter myFilter() {
return module -> !(module instanceof MyModule);
}
}
This will ensure that no configure()
methods are called on the filtered modules.
Note that the Module
bean definition in the example above is
declared in a static
method. This is intentional and can be used to
avoid accidentally preventing Spring from being able to enhance the
parent @Configuration
class. The default behaviour for Spring is to
create a proxy for @Configuration
classes so the @Bean
methods
can call each other and Spring will preserve the singleton nature of
the bean factory - one bean of each type per bean id.
If you see logs like this when the context starts:
Mar 21, 2022 8:30:35 AM org.springframework.context.annotation.ConfigurationClassPostProcessor enhanceConfigurationClasses
INFO: Cannot enhance @Configuration bean definition 'TestConfig' since its singleton instance has been created too early. The typical cause is a non-static @Bean method with a BeanDefinitionRegistryPostProcessor return type: Consider declaring such methods as 'static'.
that is a sign that you might want to use static methods to define
any beans of type Module
. It is logged at INFO because Spring
doesn't know if it was intentional or not. Most likely it was
unintentional, and it is better to avoid nasty surprises later
if we can.
Another way to avoid the warning is to declare the parent class as
@Configuration(proxyBeanMethods = false)
so that Spring knows that
you don't even want to enhance the class. It's not a bad idea to use
that flag wherever you can because it saves some time on start up
if the proxy doesn't need to be created.
In this case the main feature is an Injector
implementation that
wraps a Spring ApplicationContext
. Example:
AnnotationConfigApplicationContext context =
new AnnotationConfigApplicationContext(ApplicationConfiguration.class);
Injector injector = new SpringInjector(context);
Service service = injector.getInstance(Service.class);
If there is a @Bean
of type Service
it will be returned from the
Injector
. But there may actually not be a @Bean
definition of type
Service
, and if it is a concrete type then the Injector
will
create it and autowire its dependencies for you. A side effect of this
is that a BeanDefinition
will be created.
In the example above, if ApplicationConfiguration
was annotated
@EnableGuiceModules
then there is an Injector
bean already waiting
to be used, including wiring it into the application itself if you
need it. So this works as well:
@Configuration
@EnableGuiceModules
public class ApplicationConfiguration {
@Autowired
private Injector injector;
@Bean
public Foo foo() {
// Guice creates and does the wiring of Foo instead of Spring
return injector.getInstance(Foo.class);
}
}
In this example if the Injector
has a binding for a Provider
of
Foo.class
then the foo()
method is redundant - it is already
resolvable as a Spring dependency. But if Guice is being used as a
factory for new objects that it doesn't have bindings for, then it
makes sense.
Note: if you also have @GuiceModule
in your context, then using
the injector to create a @Bean
directly is a bad idea (there's a
dependency cycle). You can do it, and break the cycle, if you
exclude the @Bean
type from the Injector
bindings using the
@GuiceModule
exclude filters.
For a full list of configuration options, see the configuration metadata file.
Binding Deduplication - When using @EnableGuiceModules
, if a Spring Bean
and a Guice Binding
both exist for the same type and Qualifier
, creation of the Injector
will fail. You may instead prefer to keep Spring's instance of the type instead of receiving this error. To accomplish this, you may set the property spring.guice.dedup=true
.
Disable Guice just-in-time bindings - When enabled (default enabled), beans without explicit definitions will be created using Guice just-in-time bindings. Otherwise, it will fail with UnsatisfiedDependencyException. To disable, set the property spring.guice.autowireJIT=false
.
-
So far there is no support for the Guice SPI methods in
SpringInjector
so tooling may not work. It wouldn't be hard to do. -
SpringInjector
only knows about raw types and bean names, so it ignores additional meta-information in factory requests (like annotations other than@Named
). Should be easy enough to fix, but some compromises might have to be made. -
SpringInjector
has no support for creating child or parentInjectors
. Probably not difficult. -
SpringModule
treats all beans as singletons. -
SpringModule
binds all interfaces and all names of a bean it can find. This should work out OK, as long as those interfaces are not needed for injection (and if there is no@Primary
bean).