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Java™ Platform Standard Ed. 6 |
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java.lang.Object java.util.ServiceLoader<S>
S
- The type of the service to be loaded by this loaderpublic final class ServiceLoader<S>
A simple service-provider loading facility.
A service is a well-known set of interfaces and (usually abstract) classes. A service provider is a specific implementation of a service. The classes in a provider typically implement the interfaces and subclass the classes defined in the service itself. Service providers can be installed in an implementation of the Java platform in the form of extensions, that is, jar files placed into any of the usual extension directories. Providers can also be made available by adding them to the application's class path or by some other platform-specific means.
For the purpose of loading, a service is represented by a single type, that is, a single interface or abstract class. (A concrete class can be used, but this is not recommended.) A provider of a given service contains one or more concrete classes that extend this service type with data and code specific to the provider. The provider class is typically not the entire provider itself but rather a proxy which contains enough information to decide whether the provider is able to satisfy a particular request together with code that can create the actual provider on demand. The details of provider classes tend to be highly service-specific; no single class or interface could possibly unify them, so no such type is defined here. The only requirement enforced by this facility is that provider classes must have a zero-argument constructor so that they can be instantiated during loading.
A service provider is identified by placing a provider-configuration file in the resource directory META-INF/services. The file's name is the fully-qualified binary name of the service's type. The file contains a list of fully-qualified binary names of concrete provider classes, one per line. Space and tab characters surrounding each name, as well as blank lines, are ignored. The comment character is '#' ('\u0023', NUMBER SIGN); on each line all characters following the first comment character are ignored. The file must be encoded in UTF-8.
If a particular concrete provider class is named in more than one configuration file, or is named in the same configuration file more than once, then the duplicates are ignored. The configuration file naming a particular provider need not be in the same jar file or other distribution unit as the provider itself. The provider must be accessible from the same class loader that was initially queried to locate the configuration file; note that this is not necessarily the class loader from which the file was actually loaded.
Providers are located and instantiated lazily, that is, on demand. A
service loader maintains a cache of the providers that have been loaded so
far. Each invocation of the iterator
method returns an
iterator that first yields all of the elements of the cache, in
instantiation order, and then lazily locates and instantiates any remaining
providers, adding each one to the cache in turn. The cache can be cleared
via the reload
method.
Service loaders always execute in the security context of the caller. Trusted system code should typically invoke the methods in this class, and the methods of the iterators which they return, from within a privileged security context.
Instances of this class are not safe for use by multiple concurrent threads.
Unless otherwise specified, passing a null argument to any
method in this class will cause a NullPointerException
to be thrown.
Example Suppose we have a service type com.example.CodecSet which is intended to represent sets of encoder/decoder pairs for some protocol. In this case it is an abstract class with two abstract methods:
Each method returns an appropriate object or null if the provider does not support the given encoding. Typical providers support more than one encoding.public abstract Encoder getEncoder(String encodingName); public abstract Decoder getDecoder(String encodingName);
If com.example.impl.StandardCodecs is an implementation of the CodecSet service then its jar file also contains a file named
META-INF/services/com.example.CodecSet
This file contains the single line:
com.example.impl.StandardCodecs # Standard codecs
The CodecSet class creates and saves a single service instance at initialization:
private static ServiceLoader<CodecSet> codecSetLoader = ServiceLoader.load(CodecSet.class);
To locate an encoder for a given encoding name it defines a static factory method which iterates through the known and available providers, returning only when it has located a suitable encoder or has run out of providers.
public static Encoder getEncoder(String encodingName) { for (CodecSet cp : codecSetLoader) { Encoder enc = cp.getEncoder(encodingName); if (enc != null) return enc; } return null; }
A getDecoder method is defined similarly.
Usage Note If the class path of a class loader that is used for provider loading includes remote network URLs then those URLs will be dereferenced in the process of searching for provider-configuration files.
This activity is normal, although it may cause puzzling entries to be created in web-server logs. If a web server is not configured correctly, however, then this activity may cause the provider-loading algorithm to fail spuriously.
A web server should return an HTTP 404 (Not Found) response when a
requested resource does not exist. Sometimes, however, web servers are
erroneously configured to return an HTTP 200 (OK) response along with a
helpful HTML error page in such cases. This will cause a ServiceConfigurationError
to be thrown when this class attempts to parse
the HTML page as a provider-configuration file. The best solution to this
problem is to fix the misconfigured web server to return the correct
response code (HTTP 404) along with the HTML error page.
Method Summary | ||
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Iterator<S> |
iterator()
Lazily loads the available providers of this loader's service. |
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static
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load(Class<S> service)
Creates a new service loader for the given service type, using the current thread's context class loader. |
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static
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load(Class<S> service,
ClassLoader loader)
Creates a new service loader for the given service type and class loader. |
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static
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loadInstalled(Class<S> service)
Creates a new service loader for the given service type, using the extension class loader. |
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void |
reload()
Clear this loader's provider cache so that all providers will be reloaded. |
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String |
toString()
Returns a string describing this service. |
Methods inherited from class java.lang.Object |
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clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait |
Method Detail |
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public void reload()
After invoking this method, subsequent invocations of the iterator
method will lazily look up and instantiate
providers from scratch, just as is done by a newly-created loader.
This method is intended for use in situations in which new providers can be installed into a running Java virtual machine.
public Iterator<S> iterator()
The iterator returned by this method first yields all of the elements of the provider cache, in instantiation order. It then lazily loads and instantiates any remaining providers, adding each one to the cache in turn.
To achieve laziness the actual work of parsing the available
provider-configuration files and instantiating providers must be done by
the iterator itself. Its hasNext
and
next
methods can therefore throw a
ServiceConfigurationError
if a provider-configuration file
violates the specified format, or if it names a provider class that
cannot be found and instantiated, or if the result of instantiating the
class is not assignable to the service type, or if any other kind of
exception or error is thrown as the next provider is located and
instantiated. To write robust code it is only necessary to catch ServiceConfigurationError
when using a service iterator.
If such an error is thrown then subsequent invocations of the iterator will make a best effort to locate and instantiate the next available provider, but in general such recovery cannot be guaranteed.
Design Note Throwing an error in these cases may seem extreme. The rationale for this behavior is that a malformed provider-configuration file, like a malformed class file, indicates a serious problem with the way the Java virtual machine is configured or is being used. As such it is preferable to throw an error rather than try to recover or, even worse, fail silently.
The iterator returned by this method does not support removal.
Invoking its remove
method will
cause an UnsupportedOperationException
to be thrown.
iterator
in interface Iterable<S>
public static <S> ServiceLoader<S> load(Class<S> service, ClassLoader loader)
service
- The interface or abstract class representing the serviceloader
- The class loader to be used to load provider-configuration files
and provider classes, or null if the system class
loader (or, failing that, the bootstrap class loader) is to be
used
public static <S> ServiceLoader<S> load(Class<S> service)
An invocation of this convenience method of the form
is equivalent toServiceLoader.load(service)
ServiceLoader.load(service, Thread.currentThread().getContextClassLoader())
service
- The interface or abstract class representing the service
public static <S> ServiceLoader<S> loadInstalled(Class<S> service)
This convenience method simply locates the extension class loader, call it extClassLoader, and then returns
ServiceLoader.load(service, extClassLoader)
If the extension class loader cannot be found then the system class loader is used; if there is no system class loader then the bootstrap class loader is used.
This method is intended for use when only installed providers are desired. The resulting service will only find and load providers that have been installed into the current Java virtual machine; providers on the application's class path will be ignored.
service
- The interface or abstract class representing the service
public String toString()
toString
in class Object
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Java™ Platform Standard Ed. 6 |
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Copyright 2009 Sun Microsystems, Inc. All rights reserved. Use is subject to license terms. Also see the documentation redistribution policy.