Injection in Tapestry IoC can be a complicated subject for a number of reasons:
Despite this, injection generally Just Works: most of the time, you want Tapestry to inject a service, and only a single service implements the service interface.
This document discusses what to do when you hit a case that doesn't Just Work, or when you want to extend the injection logic in some way.
Some aspects of this discussion reflect Tapestry IoC used within a Tapestry web application: the tapestry-core module makes some extensions to injection.
Injection is triggered in a number of ways:
Injection also covers a related matter: providing special resources to a service or component. For a service, the service's id (as a string) or extensible configuration (as a Collection, List or Map) may be provided. For a component, the component's id, locale, message catalog, or component resources may be provided.
This section describes standard injection, which applies at the IoC layer: autobuild objects and service implementations. The steps for injection into Tapestry components are slightly different and are covered later.
So a the point of injection, Tapestry has identified a field or parameter that should be injected. At this point, Tapestry knows the following:
Tapestry proceeds with this information.
Tapestry checks first for the InjectService annotation. The value of this annotation is the service id to inject. When InjectService is present at the point of injection, that process is done, though it can fail if the service id indicated does not exist, or if the service's interface is not compatible with the field's type.
This step applies only to IoC layer injection (not to injection into components).
When the Inject annotation is not present at the point of injection, Tapestry checks to see if a resource can be injected. When the Inject annotation is present, this step is skipped (this is necessary when the object to be injected has a type that conflicts with a resource type, such as String).
If field type does not match any of the available resource types, or the Inject annotation is present, logic continues to the next step.
Injection of resources into fields is triggered by the presence of the InjectResource annotation, whereas injection of resources into parameters occurs when the Inject or InjectService annotation is not present. These rules are slightly tricky, which reflects a desire to avoid any annotations except when needed, and the fact that field injection came much later than parameter injection.
Tapestry attempts to find a matching service.
First, it generates a set of services whose service interface is compatible with the injection type. This is based on assignability.
If the Local annotation is present, then services not from the module containing the service being constructed will be eliminated.
Tapestry then works through the known marker annotations. For each marker annotation that is present at the point of annotation, Tapestry eliminates services which do not have the marker. Thus, if multiple marker annotations are present, the final service must have all of them.
At the end, of this, Tapestry determines how many services match.
This is the point at which Tapestry's extensibility comes into play. MasterObjectProvider is a service, with a configuration of ObjectProviders.
The MasterObjectProvider is also the point at which Tapestry's IoC layer injection, and Tapestry's component injection, unite.
As a chain-of-command, each of the following ObjectProviders will be considered and will attempt to identify the object to be injected.
Note: a common problem when extending injection is that contributions into the MasterObjectProvider configuration have to be handled carefully. Any dependencies of the contributed objects should be resolvable using the early stages of the injection process, otherwise MasterObjectProvider will have to be instantiated in order to handle its own injection: Tapestry will detect this impossibility and throw an exception. In addition, the TypeCoercer service is used by several ObjectProvider implementations, so the same restrictions apply to TypeCoercer service contributions.
Checks for the presence of the Value annotation. If present, then the annotations value is evaluated (to expand any symbol references), and the TypeCoercer coverts the resulting String to the injection type.
Similar to the Value ObjectProvider: the Symbol annotation's value (if present) is lookup up and converted to the injection type.
Checks to see if the Autobuild annotation is present and, if so, autobuilds the value for the parameter. Of course, the object being built will itself be configured via injection.
Checks any contributions to the ServiceOverride service. Contributions map a type to an object of that type. Thus, ServiceOverrides will override injections of services that are not qualified with a marker annotation.
Uses the Alias service to look for an object that can be injected.
This is commonly used to override a built-in service by contributing an object with the exact same interface. This is an older and more complex version of the ServiceOverride provider.
Checks for the Path annotation.
If present, the annotation's value has embedded symbols expanded, and is converted into an Asset (which must exist).
The TypeCoercer can then convert the Asset to the injection type.
Looks for the Service annotation; if present, the annotation's value is the exact service id to inject. This is necessary because injections into component fields are always triggered by the Inject annotation.
Attempts to resolve a Spring bean purely by object type (Spring qualifiers are not supported). If no beans are assignable to the type, then processing continues. If exactly one is assignable, it is used as the injection value. If more than one bean is assignable, it is an error (and a list of matching beans names will be part of the thrown exception).
If none of the ObjectProviders can identify the value to inject, a last step occurs: lookup by service type. If exactly one service matches the injection type, then that service is injected.
Otherwise, the lookup fails because either no services match, or more than one matches.
Autobuilt objects (services and the like, but not components) may have post-injection methods.
Any public method may have the PostInjection annotation.
Such methods are invoked after constructor and/or field injection. Only public methods will be invoked. Any return value is ignored.
Further injections may take place using the parameters of the method.
Often this is used to perform additional setup, such as registerring a service as a listener of events produced by another service:
public class MyServiceImpl implements MyService, UpdateListener
{
@PostInjection
public void registerAsListener(UpdateListenerHub hub)
{
hub.addUpdateListener(this);
}
}Inside Tapestry components, injection occurs exclusively on fields and is always triggered by the Inject annotation.
Component field injection is very similar to IoC layer, but with a different set of injectable resources.
Injection is the responsibility of the InjectionProvider service, which is a chain-of-command across a number of implementations.
Checks if the field type is Block. If so, determines the block id to inject (either from the field name, or from an Id, if present).
Uses the MasterObjectProvider service to provide the injectable value. The Service Lookup stage is skipped.
Injects fields of type ComponentResources.
Injects fields with common resources:
Triggered by the Path annotation: the Path value has symbols expanded, and is then converted to an Asset.
Equivalent to the Service Lookup phase in an IoC layer injection.
This is now supported; you may use the InjectService annotation on component fields.