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Posted to commits@tapestry.apache.org by bu...@apache.org on 2015/08/08 19:20:05 UTC
svn commit: r961168 [2/5] - in /websites/production/tapestry/content: ./
cache/
Modified: websites/production/tapestry/content/defining-tapestry-ioc-services.html
==============================================================================
--- websites/production/tapestry/content/defining-tapestry-ioc-services.html (original)
+++ websites/production/tapestry/content/defining-tapestry-ioc-services.html Sat Aug 8 17:20:04 2015
@@ -31,8 +31,6 @@
<link href='/resources/highlighter/styles/shThemeCXF.css' rel='stylesheet' type='text/css' />
<script src='/resources/highlighter/scripts/shCore.js' type='text/javascript'></script>
<script src='/resources/highlighter/scripts/shBrushJava.js' type='text/javascript'></script>
- <script src='/resources/highlighter/scripts/shBrushXml.js' type='text/javascript'></script>
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<script type="text/javascript">
SyntaxHighlighter.defaults['toolbar'] = false;
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@@ -62,39 +60,13 @@
<div class="clearer"></div>
<div id="breadcrumbs">
- <a href="index.html">Apache Tapestry</a> > <a href="documentation.html">Documentation</a> > <a href="user-guide.html">User Guide</a> > <a href="ioc.html">IoC</a> > <a href="defining-tapestry-ioc-services.html">Defining Tapestry IOC Services</a>
+ <a href="index.html">Apache Tapestry</a> > <a href="documentation.html">Documentation</a> > <a href="user-guide.html">User Guide</a> > <a href="ioc.html">IOC</a> > <a href="defining-tapestry-ioc-services.html">Defining Tapestry IOC Services</a>
<a class="edit" title="Edit this page (requires approval -- just ask on the mailing list)" href="https://cwiki.apache.org/confluence/pages/editpage.action?pageId=23338492">edit</a>
</div>
<div id="content">
-<div id="ConfluenceContent">
-
-<p>Services consist of two main parts: a service interface and a service implementation.</p>
-
-<p>The service interface is how the service will be represented throughout the rest of the registry. Since what gets passed around is normally a proxy, you can't expect to cast a service object down to the implementation class (you'll see a ClassCastException instead). In other words, you should be careful to ensure that your service interface is complete, since Tapestry IoC effectively walls you off from back doors such as casts.</p>
-
-<h1 id="DefiningTapestryIOCServices-ServiceLifeCycle">Service Life Cycle</h1>
-
-<p>Every service has a very specific life cycle.</p>
-
-<ul><li>Defined: The service has a definition (from some module) but has not yet been referenced.</li><li>Virtual: The service has been referenced, so a proxy for the class has been created.</li><li>Realized: A method on the proxy has been invoked, so the service implementation has been instantiated, and any decorators applied.</li><li>Shutdown: The entire Registry has been shut down and with it, all the proxies have been disabled.</li></ul>
-
-
-<p>When the Registry is first created, all modules are scanned and the definitions for all services are created.</p>
-
-<p>Services will be referenced by either accessing them using the Registry, or as dependencies of other realized services.</p>
-
-<p>Tapestry IoC waits until the last possible moment to <em>realize</em> the service: that's defined as when a method of the service is invoked. Tapestry is <em>thread-safe</em>, so even in a heavily contested, highly threaded environment (such as a servlet container or application server) things <em>Just Work</em>.</p>
-
-<p><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-serviceBuilderMethod"></span></p>
-
-<h1 id="DefiningTapestryIOCServices-ServiceBuilderMethods">Service Builder Methods</h1>
-
-<p>Tapestry doesn't know how to instantiate and configure your service; instead it relies on you to provide the code to do so, in a service builder method, a method whose name is (or starts with) "build":</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+<div id="ConfluenceContent"><p>Services consist of two main parts: a service interface and a service implementation.</p><p>The service interface is how the service will be represented throughout the rest of the registry. Since what gets passed around is normally a proxy, you can't expect to cast a service object down to the implementation class (you'll see a ClassCastException instead). In other words, you should be careful to ensure that your service interface is complete, since Tapestry IoC effectively walls you off from back doors such as casts.</p><h1 id="DefiningTapestryIOCServices-ServiceLifeCycle">Service Life Cycle</h1><p>Every service has a very specific life cycle.</p><ul><li>Defined: The service has a definition (from some module) but has not yet been referenced.</li><li>Virtual: The service has been referenced, so a proxy for the class has been created.</li><li>Realized: A method on the proxy has been invoked, so the service implementation has been instantiated, and any
decorators applied.</li><li>Shutdown: The entire Registry has been shut down and with it, all the proxies have been disabled.</li></ul><p>When the Registry is first created, all modules are scanned and the definitions for all services are created.</p><p>Services will be referenced by either accessing them using the Registry, or as dependencies of other realized services.</p><p>Tapestry IoC waits until the last possible moment to <em>realize</em> the service: that's defined as when a method of the service is invoked. Tapestry is <em>thread-safe</em>, so even in a heavily contested, highly threaded environment (such as a servlet container or application server) things <em>Just Work</em>.</p><p><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-serviceBuilderMethod"></span></p><h1 id="DefiningTapestryIOCServices-ServiceBuilderMethods">Service Builder Methods</h1><p>Tapestry doesn't know how to instantiate and configure your service; instead it relies on you to provide
the code to do so, in a service builder method, a method whose name is (or starts with) "build":</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
public class MyAppModule
{
@@ -103,25 +75,8 @@ public class MyAppModule
return new IndexerImpl();
}
}</pre>
-</div></div>
-
-<p>Here the service interface is Indexer (presumably inside the org.example.myapp.services package, since there isn't an import). Tapestry IoC doesn't know about the IndexerImpl class (the service implementation of the Indexer service), but it does know about the build() method.</p>
-
-<p>That's one of the great innovations of Tapestry IoC: we don't try to encapsulate in XML or annotations all the different ways possible to create a service; those things are best expressed in Java code. For a simple case (as here), it would be hard for external configuration (again, in XML or Java annotations) to be shorter than "new IndexerImpl()".</p>
-
-<p><em>The above paragraph was written before Binding and Autobuilding were introduced.</em></p>
-
-<p>For more complex and realistic scenarios, such as injecting dependencies via the constructor, or doing more interest work (such as registering the newly created service for events published by some other service), the Java code is simply the most direct, flexible, extensible and readable approach.</p>
-
-<h1 id="DefiningTapestryIOCServices-BindingandAutobuilding">Binding and Autobuilding</h1>
-
-<p>Tapestry IoC can also <em>autobuild</em> your service. Autobuilding is the <em>preferred</em> way to instantiate your services.</p>
-
-<p>Every module may have an optional, static bind() method which is passed a <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBinder.html">ServiceBinder</a>. Services may be registered with the container by "binding" a service interface to a service implementation:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+</div></div><p>Here the service interface is Indexer (presumably inside the org.example.myapp.services package, since there isn't an import). Tapestry IoC doesn't know about the IndexerImpl class (the service implementation of the Indexer service), but it does know about the build() method.</p><p>That's one of the great innovations of Tapestry IoC: we don't try to encapsulate in XML or annotations all the different ways possible to create a service; those things are best expressed in Java code. For a simple case (as here), it would be hard for external configuration (again, in XML or Java annotations) to be shorter than "new IndexerImpl()".</p><p><em>The above paragraph was written before Binding and Autobuilding were introduced.</em></p><p>For more complex and realistic scenarios, such as injecting dependencies via the constructor, or doing more interest work (such as registering the newly created service for events published by some other service), the Java code is simply the most
direct, flexible, extensible and readable approach.</p><h1 id="DefiningTapestryIOCServices-BindingandAutobuilding">Binding and Autobuilding</h1><p>Tapestry IoC can also <em>autobuild</em> your service. Autobuilding is the <em>preferred</em> way to instantiate your services.</p><p>Every module may have an optional, static bind() method which is passed a <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBinder.html">ServiceBinder</a>. Services may be registered with the container by "binding" a service interface to a service implementation:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
import org.apache.tapestry5.ioc.ServiceBinder;
@@ -132,21 +87,8 @@ public class MyAppModule
binder.bind(Indexer.class, IndexerImpl.class);
}
}</pre>
-</div></div>
-
-<p>You can make repeated calls to ServiceBinder.bind(), to bind additional services.</p>
-
-<p>You might ask, "which is better, a builder method for each service, or a bind() method for the module?" For simple services, those that are just an instantiated instance with simple dependencies, binding is better than building. That covers at least 90% of all services, so bind away!</p>
-
-<p>There are many cases, however, where constructing a service is more than just instantiating a class. Often the new service will (for example) be registered as a listener with some other service. In other cases, the implementation of the service is generated at runtime. These are where the service builder methods are most useful.</p>
-
-<p>In terms of the evolution of the framework, service builder methods came first, and autobuilding was a later addition, inspired by the terseness of the <a shape="rect" class="external-link" href="http://code.google.com/p/google-guice/" >Guice</a> IoC container.</p>
-
-<p>Following the convention over configuration principle, the autobuilding of services can be even less verbose. If a service interface is passed as a single argument to the bind() method, Tapestry will try to find an implementation in the same package whose name matches the name of the service interface followed by the suffix <em>Impl</em>.</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+</div></div><p>You can make repeated calls to ServiceBinder.bind(), to bind additional services.</p><p>You might ask, "which is better, a builder method for each service, or a bind() method for the module?" For simple services, those that are just an instantiated instance with simple dependencies, binding is better than building. That covers at least 90% of all services, so bind away!</p><p>There are many cases, however, where constructing a service is more than just instantiating a class. Often the new service will (for example) be registered as a listener with some other service. In other cases, the implementation of the service is generated at runtime. These are where the service builder methods are most useful.</p><p>In terms of the evolution of the framework, service builder methods came first, and autobuilding was a later addition, inspired by the terseness of the <a shape="rect" class="external-link" href="http://code.google.com/p/google-guice/" >Guice</a> IoC container.</p><
p>Following the convention over configuration principle, the autobuilding of services can be even less verbose. If a service interface is passed as a single argument to the bind() method, Tapestry will try to find an implementation in the same package whose name matches the name of the service interface followed by the suffix <em>Impl</em>.</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
import org.apache.tapestry5.ioc.ServiceBinder;
@@ -157,76 +99,29 @@ public class MyAppModule
binder.bind(Indexer.class);
}
}</pre>
-</div></div>
-
-<h1 id="DefiningTapestryIOCServices-ServiceIds">Service Ids</h1>
-
-<p>Every service will have a unique service id.</p>
-
-<p>When using a service builder method, the service id is the <em>simple name</em> of the service interface.</p>
-
-<p>This can be overridden by adding the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/ServiceId.html">ServiceId</a> annotation to the service builder method:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- @ServiceId("FileSystemIndexer")
+</div></div><h1 id="DefiningTapestryIOCServices-ServiceIds">Service Ids</h1><p>Every service will have a unique service id.</p><p>When using a service builder method, the service id is the <em>simple name</em> of the service interface.</p><p>This can be overridden by adding the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/ServiceId.html">ServiceId</a> annotation to the service builder method:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> @ServiceId("FileSystemIndexer")
public static Indexer buildIndexer(@InjectService("FileSystem") FileSystem fileSystem)
{
. . .
}</pre>
-</div></div>
-
-<p>Another option is to add the service id to the method name, after "build", for example:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer buildFileSystemIndexer(@InjectService("FileSystem") FileSystem fileSystem)
+</div></div><p>Another option is to add the service id to the method name, after "build", for example:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer buildFileSystemIndexer(@InjectService("FileSystem") FileSystem fileSystem)
{
. . .
}</pre>
-</div></div>
-
-<p>Here, the service id is "FileSystemIndexer" not "Indexer".</p>
-
-<p>For autobuilt services, the service id can be specified by placing the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/ServiceId.html">ServiceId</a> annotation directly on a service implementation class.</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- @ServiceId("FileSystemIndexer")
+</div></div><p>Here, the service id is "FileSystemIndexer" not "Indexer".</p><p>For autobuilt services, the service id can be specified by placing the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/ServiceId.html">ServiceId</a> annotation directly on a service implementation class.</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> @ServiceId("FileSystemIndexer")
public class IndexerImpl implements Indexer
{
...
}</pre>
-</div></div>
-
-<p>When the service is bound, the value of the annotation is used as id:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- binder.bind(Indexer.class, IndexerImpl.class);</pre>
-</div></div>
-
-<p>This id can be overriden again by calling the method <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBindingOptions.html#withIdjava.lang.String">withId</a></p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- binder.bind(Indexer.class, IndexerImpl.class).withId("FileSystemIndexer");</pre>
-</div></div>
-
-<h1 id="DefiningTapestryIOCServices-Injecting_DependenciesInjectingDependencies"><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-Injecting_Dependencies"></span>Injecting Dependencies</h1>
-
-<p>It's pretty unlikely that your service will be able to operate in a total vacuum. It will have other dependencies.</p>
-
-<p>Dependencies are provided to a service in one of several ways:</p>
-
-<ul><li>As parameters to the service builder method</li><li>As parameters to the service implementation class' constructor (for autobuilt services)</li><li>As parameters passed to the constructor of the service's module class (to be cached inside instance variables)</li><li>Directly into fields of the service implementation</li></ul>
-
-
-<p>For example, let's say the Indexer needs a JobScheduler to control when it executes, and a FileSystem to access files and store indexes.</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(JobScheduler scheduler, FileSystem fileSystem)
+</div></div><p>When the service is bound, the value of the annotation is used as id:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> binder.bind(Indexer.class, IndexerImpl.class);</pre>
+</div></div><p>This id can be overriden again by calling the method <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBindingOptions.html#withIdjava.lang.String">withId</a></p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> binder.bind(Indexer.class, IndexerImpl.class).withId("FileSystemIndexer");</pre>
+</div></div><h1 id="DefiningTapestryIOCServices-Injecting_DependenciesInjectingDependencies"><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-Injecting_Dependencies"></span>Injecting Dependencies</h1><p>It's pretty unlikely that your service will be able to operate in a total vacuum. It will have other dependencies.</p><p>Dependencies are provided to a service in one of several ways:</p><ul><li>As parameters to the service builder method</li><li>As parameters to the service implementation class' constructor (for autobuilt services)</li><li>As parameters passed to the constructor of the service's module class (to be cached inside instance variables)</li><li>Directly into fields of the service implementation</li></ul><p>For example, let's say the Indexer needs a JobScheduler to control when it executes, and a FileSystem to access files and store indexes.</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(JobScheduler scheduler, FileSystem fileSystem)
{
IndexerImpl indexer = new IndexerImpl(fileSystem);
@@ -234,19 +129,8 @@ public class MyAppModule
return indexer;
}</pre>
-</div></div>
-
-<p>Tapestry assumes that parameters to builder methods are dependencies; in this example it is able to figure out what services to pass in based just on the type (later we'll see how we can fine tune this with annotations, when the service type is not sufficient to identify a single service).</p>
-
-<p>This is an example of when you would want to use the service builder method, rather than just binding the service interface to the implementation class: because we want to do something extra, in this case, register the new indexer service with the scheduler.</p>
-
-<p>Note that we don't invoke those service builder methods ... we just "advertise" (via naming convention or annotation) that we need the named services. Tapestry IoC will provide the necessary proxies and, when we start to invoke methods on those proxies, will ensure that the full service, including its interceptors and its dependencies, are ready to go. Again, this is done in a thread-safe manner.</p>
-
-<p>What happens if there is more than one service that implements the JobScheduler interface, or the FileSystem interface? You'll see a runtime exception, because Tapestry is unable to resolve it down to a <em>single</em> service. At this point, it is necessary to <em>disambiguate</em> the link between the service interface and <em>one</em> service. One approach is to use the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/InjectService.html">InjectService</a> annotation:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(@InjectService("JobScheduler")
+</div></div><p>Tapestry assumes that parameters to builder methods are dependencies; in this example it is able to figure out what services to pass in based just on the type (later we'll see how we can fine tune this with annotations, when the service type is not sufficient to identify a single service).</p><p>This is an example of when you would want to use the service builder method, rather than just binding the service interface to the implementation class: because we want to do something extra, in this case, register the new indexer service with the scheduler.</p><p>Note that we don't invoke those service builder methods ... we just "advertise" (via naming convention or annotation) that we need the named services. Tapestry IoC will provide the necessary proxies and, when we start to invoke methods on those proxies, will ensure that the full service, including its interceptors and its dependencies, are ready to go. Again, this is done in a thread-safe manner.</p><p>What happens i
f there is more than one service that implements the JobScheduler interface, or the FileSystem interface? You'll see a runtime exception, because Tapestry is unable to resolve it down to a <em>single</em> service. At this point, it is necessary to <em>disambiguate</em> the link between the service interface and <em>one</em> service. One approach is to use the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/InjectService.html">InjectService</a> annotation:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(@InjectService("JobScheduler")
JobScheduler scheduler,
@InjectService("FileSystem")
@@ -258,25 +142,8 @@ public class MyAppModule
return indexer;
}</pre>
-</div></div>
-
-<p>If you find yourself injecting the same dependencies into multiple service builder (or service decorator) methods, you can <a shape="rect" href="tapestry-ioc-modules.html">cache dependency injections</a> in your module, by defining a constructor. This reduces duplication in your module.</p>
-
-<h1 id="DefiningTapestryIOCServices-DisambiguationwithMarkerAnnotations">Disambiguation with Marker Annotations</h1>
-
-<p>In the previous example we were faced with a problem: multiple versions of the JobScheduler service. They had the same service interface but unique service ids. If you try to inject based on type, the service to inject will be ambiguous. Tapestry will throw an exception (identifying the parameter type and the matching services that implement that type).</p>
-
-<p>The problem is that when injecting a JobScheduler into some other service we need to know which <em>one</em> to inject. Rather than using the service id, another approach is to use a <em>marker annotation</em>.</p>
-
-<p>You may optionally link a service implementation with a marker annotation.</p>
-
-<p>For example, maybe you have one JobScheduler implementation where the jobs are spread across a number of nodes in a cluster, and you have another JobScheduler where the jobs are all executed exclusively in the current process.</p>
-
-<p>We can associate those two JobSchedulers with two annotations.</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-@Target(
+</div></div><p>If you find yourself injecting the same dependencies into multiple service builder (or service decorator) methods, you can <a shape="rect" href="tapestry-ioc-modules.html">cache dependency injections</a> in your module, by defining a constructor. This reduces duplication in your module.</p><h1 id="DefiningTapestryIOCServices-DisambiguationwithMarkerAnnotations">Disambiguation with Marker Annotations</h1><p>In the previous example we were faced with a problem: multiple versions of the JobScheduler service. They had the same service interface but unique service ids. If you try to inject based on type, the service to inject will be ambiguous. Tapestry will throw an exception (identifying the parameter type and the matching services that implement that type).</p><p>The problem is that when injecting a JobScheduler into some other service we need to know which <em>one</em> to inject. Rather than using the service id, another approach is to use a <em>marker annotation</em>.
</p><p>You may optionally link a service implementation with a marker annotation.</p><p>For example, maybe you have one JobScheduler implementation where the jobs are spread across a number of nodes in a cluster, and you have another JobScheduler where the jobs are all executed exclusively in the current process.</p><p>We can associate those two JobSchedulers with two annotations.</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">@Target(
{ PARAMETER, FIELD })
@Retention(RUNTIME)
@Documented
@@ -303,15 +170,8 @@ public class MyModule
binder.bind(JobScheduler.class, SimpleJobSchedulerImpl.class).withId("InProcessJobScheduler").withMarker(InProcess.class);
}
}</pre>
-</div></div>
-
-<p>Notice that the marker annotations have no attributes. Further, we support markers on fields (for use in Tapestry components) as well as parameters.</p>
-
-<p>To get the right version of the service, you use one of the annotations:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-public class MyServiceImpl implements MyService
+</div></div><p>Notice that the marker annotations have no attributes. Further, we support markers on fields (for use in Tapestry components) as well as parameters.</p><p>To get the right version of the service, you use one of the annotations:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">public class MyServiceImpl implements MyService
{
private final JobScheduler jobScheduler;
@@ -322,42 +182,14 @@ public class MyServiceImpl implements My
. . .
} </pre>
-</div></div>
-
-<p>The @Clustered annotation on the parameter is combined with the parameter type (JobScheduler) to find the exact service implementation.</p>
-
-<p>Why is this better than using the service id? It's more refactoring-safe. Service ids can change, which can break your services. However, using an IDE to rename or move an annotation class or service interface will be able to update all the uses of the annotation or interface.</p>
-
-<p>With a service builder method, you use the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Marker.html">Marker</a> annotation:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- @Marker(Clustered.class)
+</div></div><p>The @Clustered annotation on the parameter is combined with the parameter type (JobScheduler) to find the exact service implementation.</p><p>Why is this better than using the service id? It's more refactoring-safe. Service ids can change, which can break your services. However, using an IDE to rename or move an annotation class or service interface will be able to update all the uses of the annotation or interface.</p><p>With a service builder method, you use the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Marker.html">Marker</a> annotation:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> @Marker(Clustered.class)
public JobScheduler buildClusteredJobScheduler()
{
return . . .;
}</pre>
-</div></div>
-
-<p>The @Marker annotation may also be placed on an implementation class, which means that you may omit the call to withMarker() inside the bind() method.</p>
-
-<p>Finally, the point of injection may have multiple marker annotations; only services that are marked with <em>all</em> those markers will be considered for injection. Each marker annotation creates an increasingly narrow subset from the set of all possible services (compatible with the indicated dependency type).</p>
-
-<h1 id="DefiningTapestryIOCServices-LocalDependencies">Local Dependencies</h1>
-
-<p>A special marker interface, @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Local.html">Local</a>, indicates a dependency that should only be resolved using services from within <em>the same module</em>.</p>
-
-<p>@Local can also be combined with other marker annotations.</p>
-
-<h1 id="DefiningTapestryIOCServices-InjectingDependenciesforAutobuiltServices">Injecting Dependencies for Autobuilt Services</h1>
-
-<p>With autobuilt services, there's no service builder method in which to specify injections.</p>
-
-<p>Instead, the injections occur on <em>constructor</em> for the implementation class:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+</div></div><p>The @Marker annotation may also be placed on an implementation class, which means that you may omit the call to withMarker() inside the bind() method.</p><p>Finally, the point of injection may have multiple marker annotations; only services that are marked with <em>all</em> those markers will be considered for injection. Each marker annotation creates an increasingly narrow subset from the set of all possible services (compatible with the indicated dependency type).</p><h1 id="DefiningTapestryIOCServices-LocalDependencies">Local Dependencies</h1><p>A special marker interface, @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Local.html">Local</a>, indicates a dependency that should only be resolved using services from within <em>the same module</em>.</p><p>@Local can also be combined with other marker annotations.</p><h1 id="DefiningTapestryIOCServices-InjectingDependenciesforAutobuiltServices"
>Injecting Dependencies for Autobuilt Services</h1><p>With autobuilt services, there's no service builder method in which to specify injections.</p><p>Instead, the injections occur on <em>constructor</em> for the implementation class:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
import org.apache.tapestry5.ioc.annotations.InjectService;
@@ -372,17 +204,8 @@ public class IndexerImpl implements Inde
. . .
}</pre>
-</div></div>
-
-<p>If the class has multiple constructors, the constructor with the <em>most</em> parameters will be invoked. Alternately, you may mark a single constructor with the Inject annotation, and Tapestry will use <em>that</em> constructor specifically, ignoring all other constructors.</p>
-
-<p>Note how we are using final fields for our dependencies; this is generally a Good Idea. These services will often execute inside a multi-threaded environment, such as a web application, and the use of final fields inside a constructor ensures that the fields will be properly published (meaning, "visible to other threads") in accordance with the Java Memory Model.</p>
-
-<p>Once thing that is not a good idea is to pass in another service, such as JobScheduler in the previous example, and pass <code>this</code> from a constructor:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+</div></div><p>If the class has multiple constructors, the constructor with the <em>most</em> parameters will be invoked. Alternately, you may mark a single constructor with the Inject annotation, and Tapestry will use <em>that</em> constructor specifically, ignoring all other constructors.</p><p>Note how we are using final fields for our dependencies; this is generally a Good Idea. These services will often execute inside a multi-threaded environment, such as a web application, and the use of final fields inside a constructor ensures that the fields will be properly published (meaning, "visible to other threads") in accordance with the Java Memory Model.</p><p>Once thing that is not a good idea is to pass in another service, such as JobScheduler in the previous example, and pass <code>this</code> from a constructor:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
import org.apache.tapestry5.ioc.annotations.InjectService;
@@ -401,21 +224,8 @@ public class IndexerImpl implements Inde
. . .
}</pre>
-</div></div>
-
-<p>Understanding why this is a bad idea involves a long detour into inner details of the Java Memory Model. The short form is that other threads may end up invoking methods on the IndexerImpl instance, and its fields (even though they are final, even though they appear to already have been set) may be uninitialized.</p>
-
-<h1 id="DefiningTapestryIOCServices-FieldInjection">Field Injection</h1>
-
-<p>The @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Inject.html">Inject</a> and @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/InjectService.html">InjectService</a> annotations may be used on instance fields of a service implementation class, as an alternative to passing dependencies of the service implementation in via the constructor.</p>
-
-<p>Note that only dependencies are settable this way; if you want resources, including the service's <a shape="rect" href="tapestry-ioc-configuration.html">configuration</a>, you must pass those through the constructor. You <em>are</em> free to mix and match, injecting partially with field injection and partially with constructor injection.</p>
-
-<p>Caution: injection via fields uses reflection to make the fields accessible. In addition, it may not be as thread-safe as using the constructor to assign to final fields.</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
-package org.example.myapp.services;
+</div></div><p>Understanding why this is a bad idea involves a long detour into inner details of the Java Memory Model. The short form is that other threads may end up invoking methods on the IndexerImpl instance, and its fields (even though they are final, even though they appear to already have been set) may be uninitialized.</p><h1 id="DefiningTapestryIOCServices-FieldInjection">Field Injection</h1><p>The @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Inject.html">Inject</a> and @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/InjectService.html">InjectService</a> annotations may be used on instance fields of a service implementation class, as an alternative to passing dependencies of the service implementation in via the constructor.</p><p>Note that only dependencies are settable this way; if you want resources, including the s
ervice's <a shape="rect" href="tapestry-ioc-configuration.html">configuration</a>, you must pass those through the constructor. You <em>are</em> free to mix and match, injecting partially with field injection and partially with constructor injection.</p><p>Caution: injection via fields uses reflection to make the fields accessible. In addition, it may not be as thread-safe as using the constructor to assign to final fields.</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">package org.example.myapp.services;
import org.apache.tapestry5.ioc.annotations.InjectService;
@@ -426,94 +236,12 @@ public class IndexerImpl implements Inde
. . .
}</pre>
-</div></div>
-
-<h1 id="DefiningTapestryIOCServices-ServiceScopeDefiningServiceScope"><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-ServiceScope"></span>Defining Service Scope</h1>
-
-<p>Each service has a <em>scope</em> that controls when the service implementation is instantiated. There are two built in scopes: "singleton" and "perthread", but more can be added.</p>
-
-<p>Service scope is specified using the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Scope.html">Scope</a> annotation, which is attached to a builder method, or to the service implementation class. When this annotation is not present, the default scope, "singleton" is used.</p>
-
-<h3 id="DefiningTapestryIOCServices-singleton">singleton</h3>
-
-<p>Most services use the default scope, "singleton". With this scope a <em>proxy</em> is created when the service is first referenced. By reference, we mean any situation in which the service is requested by name, such as using the @InjectService annotation on a service builder method, or by using the <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/Registry.html">Registry</a> API from outside the container.</p>
-
-<p>In any case, the service proxy will only create the service implementation when a method on the service interface is invoked. Until then, the service can be thought of as "virtual". As the first method is invoked, the service builder method is invoked, then any service decorations occur. This construction process, called "realization", occurs only once.</p>
-
-<p>You should be aware when writing services that your code must be thread safe; any service you define could be invoked simultaneously by multiple threads. This is rarely an issue in practice, since most services take input, use local variables, and invoke methods on other services, without making use of non-final instance variables. The few instance variables in a service implementation are usually references to other Tapestry IoC services.</p>
-
-<h3 id="DefiningTapestryIOCServices-perthread">perthread</h3>
-
-<p>The perthread service scope exists primarily to help multi-threaded servlet applications, though it has other applications.</p>
-
-<p>With perthread, the service proxy will delegate to a local service instance that is associated with the current thread. Two different threads, invoking methods on the same proxy, will ultimately be invoking methods on two different service instances, each reserved to their own thread.</p>
-
-<p>This is useful when a service needs to keep request specific state, such as information extracted from the HttpServletRequest (in a web application). The default singleton model would not work in such a multithreaded environment. Using perthread on select services allows state to be isolated to those services. Because the dispatch occurs <em>inside</em> the proxy, you can treat the service as a global, like any other.</p>
-
-<p>You will see that your service builder method is invoked more than once. It is invoked in each thread where the perthread service is used.</p>
-
-<p>At the end of the request, the Registry's cleanupThread() method is invoked; it will discard any perthread service implementations for the current thread.</p>
-
-<p><strong>Caution:</strong> A common technique in Tapestry IoC is to have a service builder method register a core service implementation as an event listener with some event hub service. With non-singleton objects, this can cause a number of problems; the event hub will hold a reference to the per-thread instance, even after that per-thread instance has been cleaned up (discarded by the inner proxy). Simply put, this is a pattern to avoid. For the most part, perthread services should be simple holders of data specific to a thread or a request, and should not have overly complex relationships with the other services in the registry.</p>
-
-<h1 id="DefiningTapestryIOCServices-DefiningthescopeofAutobuiltServices">Defining the scope of Autobuilt Services</h1>
-
-<p>There are two options for defining the scope for an autobuilt service.</p>
-
-<p>The service implementation class may include the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Scope.html">Scope</a> annotation. This is generally the preferred way to specify scope.</p>
-
-<p>In addition, it is possible to specify the scope when binding the service:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- bind(MyServiceInterface.class, MyServiceImpl.class).scope(ScopeConstants.PERTHREAD);</pre>
-</div></div>
-
-<h1 id="DefiningTapestryIOCServices-EagerLoadingServices">Eager Loading Services</h1>
-
-<p>Services are normally created only as needed (per the scope discussion above).</p>
-
-<p>This can be tweaked slightly; by adding the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/EagerLoad.html">EagerLoad</a> annotation to the service builder method, Tapestry will instantiate the service when the Registry is first created.</p>
-
-<p>This will cause the service builder method to be invoked, as well as any service decorator methods.</p>
-
-<p>This feature is used when a service manages a resource, such as a thread, that needs to be created as soon as the application starts up. Another common example is a service that listens for events produced by a second service; the first service may need to be created, and start listening, before any of its service methods are invoked (which would normally trigger the instantiation of the service).</p>
-
-<p>Many services may be annotated with @EagerLoad; the order in which services are created is not defined.</p>
-
-<p>With the perthread scope, the service builder method will not be invoked (this won't happen until a service method is invoked), but the decorators for the service will be created.</p>
-
-<h1 id="DefiningTapestryIOCServices-EagerLoadingAutobuiltServices">Eager Loading Autobuilt Services</h1>
-
-<p>As with service scope, there are two options for indicating that an autobuilt service should be eagerly loaded.</p>
-
-<p>The service implementation class may include the @EagerLoad annotation.</p>
-
-<p>You may also specify eager loading explicitly when binding the service:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- bind(MyServiceInterface.class, MyServiceImpl.class).eagerLoad();</pre>
-</div></div>
-
-<h1 id="DefiningTapestryIOCServices-InjectingResources">Injecting Resources</h1>
-
-<p>In addition to injecting services, Tapestry will key off of the parameter type to allow other things to be injected.</p>
-
-<ul><li>java.lang.String: unique id for the service</li><li><a shape="rect" class="external-link" href="http://www.slf4j.org/api/org/slf4j/Logger.html" >org.slf4j.Logger</a>: logger for the service</li><li>java.lang.Class: service interface implemented by the service to be constructed</li><li><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceResources.html">ServiceResources</a>: access to other services</li></ul>
-
-
-<p>No annotation is needed for these cases.</p>
-
-<p>See also <a shape="rect" href="tapestry-ioc-configuration.html">service configuration</a> for additional special cases of resources that can be injected.</p>
-
-<p>Note: resources may not be injected into fields, they are injectable only via method or constructor parameters.</p>
-
-<p>Example:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(String serviceId, Log serviceLog,
+</div></div><h1 id="DefiningTapestryIOCServices-ServiceScopeDefiningServiceScope"><span class="confluence-anchor-link" id="DefiningTapestryIOCServices-ServiceScope"></span>Defining Service Scope</h1><p>Each service has a <em>scope</em> that controls when the service implementation is instantiated. There are two built in scopes: "singleton" and "perthread", but more can be added.</p><p>Service scope is specified using the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Scope.html">Scope</a> annotation, which is attached to a builder method, or to the service implementation class. When this annotation is not present, the default scope, "singleton" is used.</p><h3 id="DefiningTapestryIOCServices-singleton">singleton</h3><p>Most services use the default scope, "singleton". With this scope a <em>proxy</em> is created when the service is first referenced. By reference, we mean any situation in which the service i
s requested by name, such as using the @InjectService annotation on a service builder method, or by using the <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/Registry.html">Registry</a> API from outside the container.</p><p>In any case, the service proxy will only create the service implementation when a method on the service interface is invoked. Until then, the service can be thought of as "virtual". As the first method is invoked, the service builder method is invoked, then any service decorations occur. This construction process, called "realization", occurs only once.</p><p>You should be aware when writing services that your code must be thread safe; any service you define could be invoked simultaneously by multiple threads. This is rarely an issue in practice, since most services take input, use local variables, and invoke methods on other services, without making use of non-final instance variables. The few insta
nce variables in a service implementation are usually references to other Tapestry IoC services.</p><h3 id="DefiningTapestryIOCServices-perthread">perthread</h3><p>The perthread service scope exists primarily to help multi-threaded servlet applications, though it has other applications.</p><p>With perthread, the service proxy will delegate to a local service instance that is associated with the current thread. Two different threads, invoking methods on the same proxy, will ultimately be invoking methods on two different service instances, each reserved to their own thread.</p><p>This is useful when a service needs to keep request specific state, such as information extracted from the HttpServletRequest (in a web application). The default singleton model would not work in such a multithreaded environment. Using perthread on select services allows state to be isolated to those services. Because the dispatch occurs <em>inside</em> the proxy, you can treat the service as a global, like
any other.</p><p>You will see that your service builder method is invoked more than once. It is invoked in each thread where the perthread service is used.</p><p>At the end of the request, the Registry's cleanupThread() method is invoked; it will discard any perthread service implementations for the current thread.</p><p><strong>Caution:</strong> A common technique in Tapestry IoC is to have a service builder method register a core service implementation as an event listener with some event hub service. With non-singleton objects, this can cause a number of problems; the event hub will hold a reference to the per-thread instance, even after that per-thread instance has been cleaned up (discarded by the inner proxy). Simply put, this is a pattern to avoid. For the most part, perthread services should be simple holders of data specific to a thread or a request, and should not have overly complex relationships with the other services in the registry.</p><h1 id="DefiningTapestryIOCServi
ces-DefiningthescopeofAutobuiltServices">Defining the scope of Autobuilt Services</h1><p>There are two options for defining the scope for an autobuilt service.</p><p>The service implementation class may include the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Scope.html">Scope</a> annotation. This is generally the preferred way to specify scope.</p><p>In addition, it is possible to specify the scope when binding the service:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> bind(MyServiceInterface.class, MyServiceImpl.class).scope(ScopeConstants.PERTHREAD);</pre>
+</div></div><h1 id="DefiningTapestryIOCServices-EagerLoadingServices">Eager Loading Services</h1><p>Services are normally created only as needed (per the scope discussion above).</p><p>This can be tweaked slightly; by adding the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/EagerLoad.html">EagerLoad</a> annotation to the service builder method, Tapestry will instantiate the service when the Registry is first created.</p><p>This will cause the service builder method to be invoked, as well as any service decorator methods.</p><p>This feature is used when a service manages a resource, such as a thread, that needs to be created as soon as the application starts up. Another common example is a service that listens for events produced by a second service; the first service may need to be created, and start listening, before any of its service methods are invoked (which would normally trigger the instantiation o
f the service).</p><p>Many services may be annotated with @EagerLoad; the order in which services are created is not defined.</p><p>With the perthread scope, the service builder method will not be invoked (this won't happen until a service method is invoked), but the decorators for the service will be created.</p><h1 id="DefiningTapestryIOCServices-EagerLoadingAutobuiltServices">Eager Loading Autobuilt Services</h1><p>As with service scope, there are two options for indicating that an autobuilt service should be eagerly loaded.</p><p>The service implementation class may include the @EagerLoad annotation.</p><p>You may also specify eager loading explicitly when binding the service:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> bind(MyServiceInterface.class, MyServiceImpl.class).eagerLoad();</pre>
+</div></div><h1 id="DefiningTapestryIOCServices-InjectingResources">Injecting Resources</h1><p>In addition to injecting services, Tapestry will key off of the parameter type to allow other things to be injected.</p><ul><li>java.lang.String: unique id for the service</li><li><a shape="rect" class="external-link" href="http://www.slf4j.org/api/org/slf4j/Logger.html" >org.slf4j.Logger</a>: logger for the service</li><li>java.lang.Class: service interface implemented by the service to be constructed</li><li><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceResources.html">ServiceResources</a>: access to other services</li></ul><p>No annotation is needed for these cases.</p><p>See also <a shape="rect" href="tapestry-ioc-configuration.html">service configuration</a> for additional special cases of resources that can be injected.</p><p>Note: resources may not be injected into fields, they are injectable only via method or
constructor parameters.</p><p>Example:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(String serviceId, Log serviceLog,
JobScheduler scheduler, FileSystem fileSystem)
{
IndexerImpl indexer = new IndexerImpl(serviceLog, fileSystem);
@@ -522,19 +250,8 @@ public class IndexerImpl implements Inde
return indexer;
}</pre>
-</div></div>
-
-<p>The order of parameters is completely irrelevant. They can come first or last or be interspersed however you like.</p>
-
-<p>Injecting in the ServiceResources can be handy when you want to calculate the name of a service dependency on the fly. However, in the general case (where the id of service dependencies is known at build time), it is easier to use the @InjectService annotation.</p>
-
-<p>The Log's name (used when configuring logging settings for the service) consists of the module class name and the service id seperated by a period, i.e. "org.example.myapp.MyModule.Indexer".</p>
-
-<p>Further, ServiceResources includes an autobuild() method that allows you to easily trigger the construction of a class, including dependencies. Thus the previos example could be rewritten as:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(ServiceResources resources, JobScheduler jobScheduler)
+</div></div><p>The order of parameters is completely irrelevant. They can come first or last or be interspersed however you like.</p><p>Injecting in the ServiceResources can be handy when you want to calculate the name of a service dependency on the fly. However, in the general case (where the id of service dependencies is known at build time), it is easier to use the @InjectService annotation.</p><p>The Log's name (used when configuring logging settings for the service) consists of the module class name and the service id seperated by a period, i.e. "org.example.myapp.MyModule.Indexer".</p><p>Further, ServiceResources includes an autobuild() method that allows you to easily trigger the construction of a class, including dependencies. Thus the previos example could be rewritten as:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(ServiceResources resources, JobScheduler jobScheduler)
{
IndexerImpl indexer = resources.autobuild(IndexerImpl.class);
@@ -542,19 +259,8 @@ public class IndexerImpl implements Inde
return indexer;
}</pre>
-</div></div>
-
-<p>This works the exact same way with autobuilt services, except that the parameters of the service implementation constructor are considered, rather than the parameters of the service builder method.</p>
-
-<p>The @InjectService annotation takes precedence over these resources.</p>
-
-<p>If the @InjectService annotation is not present, and the parameter type does not exactly match a resource type, then <a shape="rect" href="object-providers.html">object injection</a> occurs. Object injection will find the correct object to inject based on a number of (extensible) factors, including the parameter type and any additional annotations on the parameter.</p>
-
-<p>Every once and a while, you'll have a conflict between a resource type and an object injection. For example, the following does not work as expected:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(String serviceId, Log serviceLog,
+</div></div><p>This works the exact same way with autobuilt services, except that the parameters of the service implementation constructor are considered, rather than the parameters of the service builder method.</p><p>The @InjectService annotation takes precedence over these resources.</p><p>If the @InjectService annotation is not present, and the parameter type does not exactly match a resource type, then <a shape="rect" href="object-providers.html">object injection</a> occurs. Object injection will find the correct object to inject based on a number of (extensible) factors, including the parameter type and any additional annotations on the parameter.</p><p>Every once and a while, you'll have a conflict between a resource type and an object injection. For example, the following does not work as expected:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(String serviceId, Log serviceLog,
JobScheduler scheduler, FileSystem fileSystem,
@Value("${index-alerts-email}")
String alertEmail)
@@ -565,13 +271,8 @@ public class IndexerImpl implements Inde
return indexer;
}</pre>
-</div></div>
-
-<p>It doesn't work because type String always gets the service id, as a resource (as with the serviceId parameter). In order to get this to work, we need to turn off the resource injection for the alertEmail parameter. That's what the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Inject.html">Inject</a> annotation does:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer build(String serviceId, Log serviceLog,
+</div></div><p>It doesn't work because type String always gets the service id, as a resource (as with the serviceId parameter). In order to get this to work, we need to turn off the resource injection for the alertEmail parameter. That's what the @<a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/annotations/Inject.html">Inject</a> annotation does:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer build(String serviceId, Log serviceLog,
JobScheduler scheduler, FileSystem fileSystem,
@Inject @Value("${index-alerts-email}")
String alertEmail)
@@ -582,32 +283,8 @@ public class IndexerImpl implements Inde
return indexer;
}</pre>
-</div></div>
-
-<p>Here, the alertEmail parameter will receive the configured alerts email (see <a shape="rect" href="symbols.html">the symbols documentation</a> for more about this syntax) rather than the service id.</p>
-
-<h1 id="DefiningTapestryIOCServices-BindingServiceBuilders">Binding ServiceBuilders</h1>
-
-<p>Yet another option is available: instead of binding an interface to a implemention class, you can bind a service to a <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBuilder.html">ServiceBuilder</a>, a callback used to create the service implementation. This is very useful in very rare circumstances.</p>
-
-<h1 id="DefiningTapestryIOCServices-BuiltinServices">Builtin Services</h1>
-
-<p>A few services within the Tapestry IOC Module are "builtin"; there is no service builder method in the <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/TapestryIOCModule.html">TapestryIOCModule</a> class.</p>
-
-<div class="table-wrap"><table class="confluenceTable"><tbody><tr><td colspan="1" rowspan="1" class="confluenceTd"><p> <strong>Service Id</strong> </p></td><td colspan="1" rowspan="1" class="confluenceTd"><p> <strong>Service Interface</strong> </p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p> ClassFactory </p></td><td colspan="1" rowspan="1" class="confluenceTd"><p> <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/ClassFactory.html">ClassFactory</a> </p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p> LoggerSource </p></td><td colspan="1" rowspan="1" class="confluenceTd"><p> <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/LoggerSource.html">LoggerSource</a> </p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p> RegistryShutdownHub </p></td><td colspan="1" rowspan="1" class="confluenceTd"><p> <a
shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/RegistryShutdownHub.html">RegistryShutdownHub</a> </p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p> PerthreadManager </p></td><td colspan="1" rowspan="1" class="confluenceTd"><p> <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/PerthreadManager.html">PerthreadManager</a> </p></td></tr></tbody></table></div>
-
-
-<p>Consult the JavaDoc for each of these services to identify under what circumstances you'll need to use them.</p>
-
-<h1 id="DefiningTapestryIOCServices-MutuallyDependentServices">Mutually Dependent Services</h1>
-
-<p>One of the benefits of Tapestry IoC's proxy-based approach to just-in-time instantiation is the automatic support for mutually dependent services. For example, suppose that the Indexer and the FileSystem needed to talk directly to each other. Normally, this would cause a "chicken-and-the-egg" problem: which one to create first?</p>
-
-<p>With Tapestry IoC, this is not even considered a special case:</p>
-
-<div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
-<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">
- public static Indexer buildIndexer(JobScheduler scheduler, FileSystem fileSystem)
+</div></div><p>Here, the alertEmail parameter will receive the configured alerts email (see <a shape="rect" href="symbols.html">the symbols documentation</a> for more about this syntax) rather than the service id.</p><h1 id="DefiningTapestryIOCServices-BindingServiceBuilders">Binding ServiceBuilders</h1><p>Yet another option is available: instead of binding an interface to a implemention class, you can bind a service to a <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/ServiceBuilder.html">ServiceBuilder</a>, a callback used to create the service implementation. This is very useful in very rare circumstances.</p><h1 id="DefiningTapestryIOCServices-BuiltinServices">Builtin Services</h1><p>A few services within the Tapestry IOC Module are "builtin"; there is no service builder method in the <a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/TapestryIOCM
odule.html">TapestryIOCModule</a> class.</p><div class="table-wrap"><table class="confluenceTable"><tbody><tr><td colspan="1" rowspan="1" class="confluenceTd"><p><strong>Service Id</strong></p></td><td colspan="1" rowspan="1" class="confluenceTd"><p><strong>Service Interface</strong></p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p>ClassFactory</p></td><td colspan="1" rowspan="1" class="confluenceTd"><p><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/ClassFactory.html">ClassFactory</a></p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p>LoggerSource</p></td><td colspan="1" rowspan="1" class="confluenceTd"><p><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/LoggerSource.html">LoggerSource</a></p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p>RegistryShutdownHub</p></td><td colspan="1" rowspan="1
" class="confluenceTd"><p><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/RegistryShutdownHub.html">RegistryShutdownHub</a></p></td></tr><tr><td colspan="1" rowspan="1" class="confluenceTd"><p>PerthreadManager</p></td><td colspan="1" rowspan="1" class="confluenceTd"><p><a shape="rect" class="external-link" href="http://tapestry.apache.org/current/apidocs/org/apache/tapestry5/ioc/services/PerthreadManager.html">PerthreadManager</a></p></td></tr></tbody></table></div><p>Consult the JavaDoc for each of these services to identify under what circumstances you'll need to use them.</p><h1 id="DefiningTapestryIOCServices-MutuallyDependentServices">Mutually Dependent Services</h1><p>One of the benefits of Tapestry IoC's proxy-based approach to just-in-time instantiation is the automatic support for mutually dependent services. For example, suppose that the Indexer and the FileSystem needed to talk directly to each other
. Normally, this would cause a "chicken-and-the-egg" problem: which one to create first?</p><p>With Tapestry IoC, this is not even considered a special case:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">
+<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;"> public static Indexer buildIndexer(JobScheduler scheduler, FileSystem fileSystem)
{
IndexerImpl indexer = new IndexerImpl(fileSystem);
@@ -620,16 +297,7 @@ public class IndexerImpl implements Inde
{
return new FileSystemImpl(indexer);
} </pre>
-</div></div>
-
-<p>Here, Indexer and FileSystem are mutually dependent. Eventually, one or the other of them will be created ... let's say its FileSystem. The buildFileSystem() builder method will be invoked, and a proxy to Indexer will be passed in. Inside the FileSystemImpl constructor (or at some later date), a method of the Indexer service will be invoked, at which point, the builderIndexer() method is invoked. It still receives the proxy to the FileSystem service.</p>
-
-<p>If the order is reversed, such that Indexer is built before FileSystem, everything still works the same.</p>
-
-<p>This approach can be very powerful. For example, it can be used to break apart untestable monolithic code into two mutually dependent halves, each of which can be unit tested.</p>
-
-<p>The exception to this rule is a service that depends on itself <em>during construction</em>. This can occur when (indirectly, through other services) building the service tries to invoke a method on the service being built. This can happen when the service implementation's constructor invoke methods on service dependencies passed into it, or when the service builder method itself does the same. This is actually a very rare case and difficult to illustrate.</p>
-</div>
+</div></div><p>Here, Indexer and FileSystem are mutually dependent. Eventually, one or the other of them will be created ... let's say its FileSystem. The buildFileSystem() builder method will be invoked, and a proxy to Indexer will be passed in. Inside the FileSystemImpl constructor (or at some later date), a method of the Indexer service will be invoked, at which point, the builderIndexer() method is invoked. It still receives the proxy to the FileSystem service.</p><p>If the order is reversed, such that Indexer is built before FileSystem, everything still works the same.</p><p>This approach can be very powerful. For example, it can be used to break apart untestable monolithic code into two mutually dependent halves, each of which can be unit tested.</p><p>The exception to this rule is a service that depends on itself <em>during construction</em>. This can occur when (indirectly, through other services) building the service tries to invoke a method on the service being built. This
can happen when the service implementation's constructor invoke methods on service dependencies passed into it, or when the service builder method itself does the same. This is actually a very rare case and difficult to illustrate.</p><p> </p><p></p></div>
</div>
<div class="clearer"></div>
Modified: websites/production/tapestry/content/dependencies-tools-and-plugins.html
==============================================================================
--- websites/production/tapestry/content/dependencies-tools-and-plugins.html (original)
+++ websites/production/tapestry/content/dependencies-tools-and-plugins.html Sat Aug 8 17:20:04 2015
@@ -27,16 +27,6 @@
</title>
<link type="text/css" rel="stylesheet" href="/resources/space.css">
- <link href='/resources/highlighter/styles/shCoreCXF.css' rel='stylesheet' type='text/css' />
- <link href='/resources/highlighter/styles/shThemeCXF.css' rel='stylesheet' type='text/css' />
- <script src='/resources/highlighter/scripts/shCore.js' type='text/javascript'></script>
- <script src='/resources/highlighter/scripts/shBrushJava.js' type='text/javascript'></script>
- <script src='/resources/highlighter/scripts/shBrushXml.js' type='text/javascript'></script>
- <script src='/resources/highlighter/scripts/shBrushPlain.js' type='text/javascript'></script>
- <script type="text/javascript">
- SyntaxHighlighter.defaults['toolbar'] = false;
- SyntaxHighlighter.all();
- </script>
<link href="/styles/style.css" rel="stylesheet" type="text/css"/>
@@ -67,7 +57,7 @@
</div>
<div id="content">
-<div id="ConfluenceContent"><p>As much as we would like to dive into Tapestry right now, we must first talk about setting up your development environment. The joy and the pain of Java development is the volume of choice available. There's just a bewildering number of JDKs, IDEs and other TLAs (Three Letter Acronyms) out there.</p><p>Let's talk about a stack of tools, all open source and freely available, that you'll need to setup. Likely you have some of these, or some version of these, already on your development machine.</p><h1 id="Dependencies,ToolsandPlugins-JDK1.5orNewer">JDK 1.5 or Newer</h1><p>Tapestry requires Java Development Kit (JDK) version 1.5 or newer, except that starting with Tapestry 5.4 you must use JDK 1.6 or newer. JDK 1.8 works only for Tapestry 5.3.8 or newer (but see the <a shape="rect" href="release-notes-538.html">release notes</a>).</p><h1 id="Dependencies,ToolsandPlugins-EclipseIDE">Eclipse IDE</h1><p>For this tutorial we'll assume you're using Eclipse as
your Integrated Development Environment (IDE). Eclipse is a popular IDE, but feel free to adapt these instructions to IntelliJ, NetBeans, or any other.</p><p>Eclipse comes in various flavors, and includes a reasonable XML editor built-in. It can be <a shape="rect" class="external-link" href="http://www.eclipse.org/downloads/" >downloaded from the eclipse.org web site</a>. We recommend the latest version of Eclipse IDE for Java Developers (but anything from version 3.7 onward should work fine).</p><h1 id="Dependencies,ToolsandPlugins-ApacheMaven3">Apache Maven 3</h1><p>Maven is a software build tool with the ability to automatically download project dependencies (such as the Tapestry JAR files, and the JAR files that Tapestry itself depends on) from one of several central repositories.</p><p>Maven is not essential for using Tapestry, but is especially helpful when performing the initial set-up of a Tapestry application.</p><p>Eclipse comes with a Maven plugin, <a shape="rect" cl
ass="external-link" href="http://eclipse.org/m2e/" >M2Eclipse</a> (also known as m2e) with an embedded version of Maven. We'll use that here for simplicity's sake. Alternatively, you could install Maven from <a shape="rect" class="external-link" href="http://maven.apache.org/download.html">http://maven.apache.org/download.html</a> and use it from the command line ("mvn").</p><h1 id="Dependencies,ToolsandPlugins-Jetty">Jetty</h1><p>Jetty is an open source web server and servlet container available from the Eclipse Foundation. Jetty is designed for high performance and easy embedding in other software. Maven can download it for you and run it automatically, so you DO NOT have to download it for this tutorial. Alternatively, you could download and install the RunJettyRun Eclipse plugin from the Eclipse Marketplace.</p><h1 id="Dependencies,ToolsandPlugins-Tapestry">Tapestry</h1><p>You should not have to download this directly; as we'll see, Maven should take care of downloading Tapestry
, and its dependencies, as needed.</p><p>Next: <a shape="rect" href="creating-the-skeleton-application.html">Creating The Skeleton Application</a></p><hr><p></p></div>
+<div id="ConfluenceContent"><p>As much as we would like to dive right into the code, we must first set up your development environment. Likely you have some of these, or reasonable alternatives, already on your development machine.</p><h1 id="Dependencies,ToolsandPlugins-JDK1.5orNewer">JDK 1.5 or Newer</h1><p>Tapestry requires Java Development Kit (JDK) version 1.5 or newer, except that starting with Tapestry 5.4 you must use JDK 1.6 or newer. JDK 1.8 works only for Tapestry 5.3.8 or newer (but see the <a shape="rect" href="release-notes-538.html">release notes</a>).</p><h1 id="Dependencies,ToolsandPlugins-EclipseIDE">Eclipse IDE</h1><p>For this tutorial we'll assume you're using Eclipse as your Integrated Development Environment (IDE). Eclipse is a popular IDE, but feel free to adapt these instructions to IntelliJ, NetBeans, or any other.</p><p>Eclipse comes in various flavors, and includes a reasonable XML editor built-in. It can be <a shape="rect" class="external-link" href="http
://www.eclipse.org/downloads/" >downloaded from the eclipse.org web site</a>. We recommend the latest version of Eclipse IDE for Java Developers (but anything from version 3.7 onward should work fine).</p><h1 id="Dependencies,ToolsandPlugins-ApacheMaven3">Apache Maven 3</h1><p>Maven is a software build tool with the ability to automatically download project dependencies (such as the Tapestry JAR files, and the JAR files that Tapestry itself depends on) from one of several central repositories.</p><p>Maven is not essential for using Tapestry, but is especially helpful when performing the initial set-up of a Tapestry application.</p><p>Eclipse comes with a Maven plugin, <a shape="rect" class="external-link" href="http://eclipse.org/m2e/" >M2Eclipse</a> (also known as m2e) with an embedded version of Maven. We'll use that here for simplicity's sake. Alternatively, you could install Maven from <a shape="rect" class="external-link" href="http://maven.apache.org/download.html">http:/
/maven.apache.org/download.html</a> and use it from the command line ("mvn").</p><h1 id="Dependencies,ToolsandPlugins-Jetty">Jetty</h1><p>For simplicity, this tutorial uses Jetty, a lightweight open source web server and servlet container available from the Eclipse Foundation. Of course, you could use pretty much any other Java servlet container (Tomcat, Glassfish, JBoss, etc), but the instructions that follow assume Jetty.</p><p>We will use Maven to download and run Jetty automatically, so you will NOT have to download it for this tutorial. (Alternatively, you could download and install the RunJettyRun Eclipse plugin from the Eclipse Marketplace.)</p><h1 id="Dependencies,ToolsandPlugins-Tapestry">Tapestry</h1><p>Tapestry is available as a set of JAR files, but you will not have to download them yourself. As with Jetty, Maven will take care of downloading Tapestry and its dependencies.</p><p>Next: <a shape="rect" href="creating-the-skeleton-application.html">Creating The Skeleton Ap
plication</a></p><hr><p></p><p> </p><p> </p></div>
</div>
<div class="clearer"></div>
Modified: websites/production/tapestry/content/exploring-the-project.html
==============================================================================
--- websites/production/tapestry/content/exploring-the-project.html (original)
+++ websites/production/tapestry/content/exploring-the-project.html Sat Aug 8 17:20:04 2015
@@ -233,13 +233,13 @@ public class Index
-<span class="gliffy-container" id="gliffy-container-24346949-5851" data-fullwidth="913" data-ceoid="24188263" data-edit="${diagramEditLink.getLinkUrl()}" data-full="${diagramZoomLink.getLinkUrl()}" data-filename="Templates and Parameters">
+<span class="gliffy-container" id="gliffy-container-24346949-9971" data-fullwidth="913" data-ceoid="24188263" data-edit="${diagramEditLink.getLinkUrl()}" data-full="${diagramZoomLink.getLinkUrl()}" data-filename="Templates and Parameters">
- <map id="gliffy-map-24346949-5636" name="gliffy-map-24346949-5636"></map>
+ <map id="gliffy-map-24346949-3231" name="gliffy-map-24346949-3231"></map>
- <img class="gliffy-image gliffy-image-border" id="gliffy-image-24346949-5851" width="304" height="300" data-full-width="913" data-full-height="901" src="https://cwiki.apache.org/confluence/download/attachments/24188263/Templates%20and%20Parameters.png?version=2&modificationDate=1371888025000&api=v2" alt="Templates and Parameters" usemap="#gliffy-map-24346949-5636">
+ <img class="gliffy-image gliffy-image-border" id="gliffy-image-24346949-9971" width="304" height="300" data-full-width="913" data-full-height="901" src="https://cwiki.apache.org/confluence/download/attachments/24188263/Templates%20and%20Parameters.png?version=2&modificationDate=1371888025000&api=v2" alt="Templates and Parameters" usemap="#gliffy-map-24346949-3231">
- <map class="gliffy-dynamic" id="gliffy-dynamic-map-24346949-5851" name="gliffy-dynamic-map-24346949-5851"></map>
+ <map class="gliffy-dynamic" id="gliffy-dynamic-map-24346949-9971" name="gliffy-dynamic-map-24346949-9971"></map>
</span>
@@ -254,7 +254,7 @@ public class Index
</pre>
</div></div><p>Make sure you save changes; then click the refresh link in the web browser:</p><p><span class="confluence-embedded-file-wrapper confluence-embedded-manual-size"><img class="confluence-embedded-image" width="700" src="exploring-the-project.data/app-live-reload.png"></span></p><div class="navmenu" style="float:right; width:30%; background:white; margin:3px; padding:3px">
<div class="confluence-information-macro confluence-information-macro-note"><span class="aui-icon aui-icon-small aui-iconfont-warning confluence-information-macro-icon"></span><div class="confluence-information-macro-body">
-<p>If Live Class Reloading isn't working for you, check the Troubleshooting section at <a shape="rect" href="class-reloading.html" title="Class Reloading">Class Reloading</a>.</p></div></div></div>This is one of Tapestry's early <em>wow factor</em> features: changes to your component classes are picked up immediately (a feature we call Live Class Reloading). No restart. No re-deploy. Make the changes and see them <em>now</em>. Nothing should slow you down or get in the way of you getting your job done.<p>But ... what if you make a mistake? What if you got the name in the template wrong. Give it a try; in the template, change ${currentTime} to, say, ${currenTime}, and see what you get:</p><p><span class="confluence-embedded-file-wrapper confluence-embedded-manual-size"><img class="confluence-embedded-image" width="700" src="exploring-the-project.data/app-error-1.png"></span></p><p>This is Tapestry's exception report page. It's quite detailed. It clearly identifies what Tapestry was d
oing, and relates the problem to a specific line in the template, which is shown in context. Tapestry always expands out the entire stack of exceptions, because it is so common for exceptions to be thrown, caught, and re-thrown inside other exceptions. In fact, if we scroll down just a little bit, we see more detail about this exception, plus a little bit of help:</p><p><span class="confluence-embedded-file-wrapper confluence-embedded-manual-size"><img class="confluence-embedded-image" width="700" src="exploring-the-project.data/app-error-2.png"></span></p><p>This is part of Tapestry's way: it not only spells out exactly what it was doing and what went wrong, but it even helps you find a solution; here it tells you the names of properties you could have used.</p><div class="confluence-information-macro confluence-information-macro-information"><span class="aui-icon aui-icon-small aui-iconfont-info confluence-information-macro-icon"></span><div class="confluence-information-macro-bod
y"><p>This level of detail reflects that the application has been configured to run in <em>development mode</em> instead of <em>production mode</em>. In production mode, the exception report would simply be the top level exception message. However, most production applications go further and customize how Tapestry handles and reports exceptions.</p></div></div><p>Tapestry displays the stack trace of the deepest exception, along with lots of details about the run-time environment: details about the current request, the HttpSession (if one exists), and even a detailed list of all JVM system properties. Scroll down to see all this information.</p><p>Next: <a shape="rect" href="implementing-the-hi-lo-guessing-game.html">Implementing the Hi-Lo Guessing Game</a></p><hr><p></p></div>
+<p>If Live Class Reloading isn't working for you, check the Troubleshooting section at <a shape="rect" href="class-reloading.html" title="Class Reloading">Class Reloading</a>.</p></div></div></div>This is one of Tapestry's early <em>wow factor</em> features: changes to your component classes are picked up immediately (a feature we call Live Class Reloading). No restart. No re-deploy. Make the changes and see them <em>now</em>. Nothing should slow you down or get in the way of you getting your job done.<p>But ... what if you make a mistake? What if you got the name in the template wrong. Give it a try; in the template, change ${currentTime} to, say, ${currenTime}, and see what you get:</p><p><span class="confluence-embedded-file-wrapper confluence-embedded-manual-size"><img class="confluence-embedded-image" width="700" src="exploring-the-project.data/app-error-1.png"></span></p><p>This is Tapestry's exception report page. It's quite detailed. It clearly identifies what Tapestry was d
oing, and relates the problem to a specific line in the template, which is shown in context. Tapestry always expands out the entire stack of exceptions, because it is so common for exceptions to be thrown, caught, and re-thrown inside other exceptions. In fact, if we scroll down just a little bit, we see more detail about this exception, plus a little bit of help:</p><p><span class="confluence-embedded-file-wrapper confluence-embedded-manual-size"><img class="confluence-embedded-image" width="700" src="exploring-the-project.data/app-error-2.png"></span></p><p>This is part of Tapestry's way: it not only spells out exactly what it was doing and what went wrong, but it even helps you find a solution; here it tells you the names of properties you could have used.</p><div class="confluence-information-macro confluence-information-macro-information"><span class="aui-icon aui-icon-small aui-iconfont-info confluence-information-macro-icon"></span><div class="confluence-information-macro-bod
y"><p>This level of detail reflects that the application has been configured to run in <em>development mode</em> instead of <em>production mode</em>. In production mode, the exception report would simply be the top level exception message. However, most production applications go further and customize how Tapestry handles and reports exceptions.</p></div></div><p>Tapestry displays the stack trace of the deepest exception, along with lots of details about the run-time environment: details about the current request, the HttpSession (if one exists), and even a detailed list of all JVM system properties. Scroll down to see all this information.</p><p>Next: <a shape="rect" href="implementing-the-hi-lo-guessing-game.html">Implementing the Hi-Lo Guessing Game</a></p><p> </p><p></p></div>
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