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Efxclipse/Runtime/Recipes

< Efxclipse
Revision as of 17:47, 6 April 2015 by Tom.schindl.bestsolution.at (Talk | contribs) (UI-State Persistence)


This page holds best practice recipes when writing JavaFX application using e(fx)clipse

Service retrieval

Retrieving services from the OSGi-Registry is sometimes a bit cumbersome so org.eclipse.fx.core.Util provides helpers to look up services with the following APIs

  • public static <S> S lookupService(Class<?> requestor, Class<S> serviceClass)
  • public static <S> S lookupService(Class<S> serviceClass)
  • public static <S> List<S> lookupServiceList(Class<?> requestor,Class<S> serviceClass)
  • public static <S> List<S> lookupServiceList(Class<S> serviceClass)

An added benefit of this utilities is that they work also outside OSGi by using ServiceLoader instead to ensure a specific sort order services can implement the optional org.eclipse.fx.core.RankedService.

Logging

e(fx)clipse has its own logging facade org.eclipse.fx.core.log.Logger which allows to plug-in different log frameworks.

Currently available are:

  • java.util.Logging (default)
  • log4j by adding org.eclipse.fx.core.log4j bundle to your OSGi-Runtime

Usage

There are different ways to use get a logger.

LoggerCreator

If you are running on OSGi or in a simple java application. You can retrieve a logger using org.eclipse.fx.core.log.LoggerCreator

import org.eclipse.fx.core.log.Logger;
import org.eclipse.fx.core.log.LoggerCreator;
 
public class MyClass {
  private static Logger LOGGER = LoggerCreator.createLogger(MyClass.class);
 
  // ....
}

In an OSGi-Environment the OSGi-Service registry is searched to find a LoggerFactory and in none OSGi-Applications the ServiceLoader is consulted.

LoggerFactory Service

The different logger bundles contribute their LoggerFactory implementation into the OSGi-Registry. In case you are e.g. contributing a service via DS you can get simple add a service reference and you'll get the LoggerFactory with the highest rank injected.

import org.eclipse.fx.core.log.LoggerFactory;
import org.eclipse.fx.core.log.Logger;
 
public class MyServiceImpl implements MyService {
  private Logger logger;
 
  public void setLoggerFactory(LoggerFactory factory) {
    this.logger = factory.createLogger(MyService.class.getName());
  }
 
  public void unsetLoggerFactory(LoggerFactory factory) {
 
  }
}


<?xml version="1.0" encoding="UTF-8"?>
<scr:component xmlns:scr="http://www.osgi.org/xmlns/scr/v1.1.0" name="myservice">
   <implementation class="impl.MyServiceImpl"/>
   <service>
      <provide interface="service.MyService"/>
   </service>
   <reference bind="setLoggerFactory" cardinality="1..1" 
              interface="org.eclipse.fx.core.log.LoggerFactory" 
              name="LoggerFactory" policy="static" unbind="unsetLoggerFactory"/>
</scr:component>

Eclipse DI & @Log annotation

If you make use of Eclipse DI in your code you can get a Logger instance injected with:

import org.eclipse.fx.core.log.Log;
import org.eclipse.fx.core.log.Logger;
import javax.inject.Inject;
 
public class MyDIComponent {
 
  @Inject
  @Log
  Logger logger;
}

Google Guice & @Log annotation

If you use Guice as the DI container you use the org.eclipse.fx.core.guice bundle to get a Logger injected in your component with:

import org.eclipse.fx.core.log.Log;
import org.eclipse.fx.core.log.Logger;
import javax.inject.Inject;
 
public class MyDIComponent {
 
  @Log
  Logger logger;
}

if you have configured your Guice-Module with:

import com.google.inject.Module;
import com.google.inject.Binder;
import org.eclipse.fx.core.log.LoggerFactory;
import org.eclipse.fx.core.log4j.Log4JLoggerFactory;
import org.eclipse.fx.core.guice.FXLoggerListener;
 
public class MyModule implements Module {
  public void configure(Binder binder) {
    binder.bind(LoggerFactory.class).toProvider(Log4JLoggerFactory.class); // or JUtilLoggerFactory
    binder.bindListener(Matchers.any(), new FXLoggerListener());
  }
}

Instead of directly binding to a logger factory you can delegate to the OSGi-Service registry by using OSGiLoggerFactoryProvider:

import com.google.inject.Module;
import com.google.inject.Binder;
import org.eclipse.fx.core.log.LoggerFactory;
import org.eclipse.fx.core.guice.FXLoggerListener;
import org.eclipse.fx.core.guice.OSGiLoggerFactoryProvider;
 
public class MyModule implements Module {
  public void configure(Binder binder) {
    binder.bind(LoggerFactory.class).toProvider(OSGiLoggerFactoryProvider.class);
    binder.bindListener(Matchers.any(), new FXLoggerListener());
  }
}

Extending

Like outlined above there are 2 logger implementations available from the e(fx)clipse p2 repository. If you want to use a different logging framework you are able to plug-in your own by implementing LoggerFactory and contributing it to the OSGi-Service-Registry.

import javax.inject.Provider;
import org.eclipse.fx.core.log.LoggerFactory;
import org.eclipse.fx.core.log.Logger;
 
public class MyLoggerFactory implements LoggerFactory, Provider<LoggerFactory> {
  @Override
  public LoggerFactory get() {
    return this;
  }
 
  @Override
  public Logger createLogger(String name) {
    return new LoggerImpl(name);
  }
 
  static class LoggerImpl implements Logger {
    private String name;
 
    public LoggerImpl(String name) {
      this.name = name;
    }
 
    // ....
  }
}

You contribute it to the OSGi-Service registry e.g. by using DS. You should give the service a higher ranking than 1 (which is the ranking of the log4j service) to ensure it is picked when a logger is requested.

<?xml version="1.0" encoding="UTF-8"?>
<scr:component xmlns:scr="http://www.osgi.org/xmlns/scr/v1.1.0" 
               name="my.logger.framework.factory">
   <implementation class="my.logger.framework.MyLoggerFactory"/>
   <property name="service.ranking" type="Integer" value="2"/>
   <service>
      <provide interface="org.eclipse.fx.core.log.LoggerFactory"/>
   </service>
</scr:component>

Eclipse DI

Publishing to the IEclipseContext

The IEclipseContext is the central component of the Eclipse DI container. Retrieving values from it is as easy as writing @Inject in your java class and the DI container will fill it with a value and keep it up-to-date if you used field or method injection.

The opposite - publishing a value into the context - is not as easy because your java component will get a dependency on the DI-Container because it needs to access the IEclipseContext directly. e(fx)clipse provides you the possibility to get around this architectual problem by defining an annotation named @ContextValue which marks a slot in IEclipseContext instance which can be used to observe the value and modified.

import org.eclipse.fx.core.di.ContextBoundValue;
import org.eclipse.fx.core.di.ContextValue;
import javax.inject.Inject;
 
public static class SimpleInject {
  @Inject
  @ContextValue(contextKey="user")
  public ContextBoundValue<String> value;
 
  private void updateValue() {
    value.publish("tomschindl");
  }
}

To make use of this your bundle needs to have a dependency on org.eclipse.fx.core.di and your runtime has to include org.eclipse.fx.core.di.context.

Injected value as an observable

A reoccuring pattern when developing with Eclipse Databinding and Dependency Injection is that the injected value is used as the master in master-detail binding scenario.

import org.eclipse.core.databinding.observable.value.IObservableValue;
import org.eclipse.core.databinding.observable.value.WritableValue;
import org.eclipse.fx.core.di.ContextBoundValue;
import org.eclipse.fx.core.di.ContextValue;
 
public class DetailView {
  private IObservableValue master = new WritableValue();
 
  @Inject
  public void update(Person p) {
    master.getRealm().exec(new Runnable() {
       public void run() {
         master.setValue(p);
       }
    }); 
  }
}

The @ContextValue framework introduce in the recipe above is able to reduce the code to

import org.eclipse.core.databinding.observable.value.IObservableValue;
import org.eclipse.fx.core.di.ContextBoundValue;
import org.eclipse.fx.core.di.ContextValue;
 
public class DetailView {
  @Inject
  @ContextValue("my.domain.Person")
  IObservableValue master; 
}

If you prefer the JavaFX observable system you get let the system inject you this type as well

import javafx.beans.property.Property;
import org.eclipse.fx.core.di.ContextBoundValue;
import org.eclipse.fx.core.di.ContextValue;
 
public class DetailView {
  @Inject
  @ContextValue("my.domain.Person")
  Property<Person> property;
}

Generally speaking you can use any type for the value injected by @ContextValue as long as there's an adapter registered which is able to convert from ContextBoundValue to it.

An observable value is not a one way street so it also allows publish through it:

public class ListView {
  @PostConstruct
  public void initUI(@ContextValue("my.domain.Person") Property<Person> property) {
    ListView<Person> v = new ListView<>();
    // ...
    property.bind(v.getSelectionModel().selectedItemProperty());
  }
}

@FXMLLoader

If you want to use DI in the controller attached to an FXML-File you'd normally use an org.eclipse.fx.ui.di.InjectingFXMLLoader to free you from configuring the loader with information the DI container already knows you can make use of the @org.eclipse.fx.ui.di.FXMLLoader in your components which provides you an org.eclipse.fx.ui.di.FXMLLoaderFactory instance.

public class MyLoginView {
  @PostConstruct
  void init(BorderPane p, @FXMLLoader FXMLLoaderFactory factory) {
    GridPane gridPane = factory.loadRequestorRelative("myLoginView.fxml").load();
    p.setCenter(gridPane);
    // ...
  }
}

and now you can use @Inject in your controller:

public class MyLoginController {
  @Inject
  MyLoginService loginService;
 
  @FXML
  TextField username;
 
  @FXML
  TextField password;
}

@Adapt

Sometimes a generic container objects like an IStructuredSelection are pushed into the context but in your application you want to get a concrete type. So generic type conversion can be implemented using the AdapterService introduced below. To make direct use of the adapters as part of the the DI-Process you can use the @org.eclipse.fx.core.adapter.Adapt annotation who will try to convert the value in the context using the the AdapterService.

For the example. Let's suppose there's an adapter who is able to convert from a String to an Integer you could use DI in the following way

import org.eclipse.fx.core.adapter.Adapt;
 
@Inject
@Adapt
@Named("myValue")
Integer myValueAsInteger;

Handling @Translation effeciently

If you mark an injected value with @Translation the DI container will inject you a Message-Object which translated Strings and reinject a new instance when ever you switch the locale. A very common task you have to do when deal with dynamic language switches is to update all UI-Elements. e(fx)clipse provide specialized classes helping you to deal with such a situation.

The first thing you should do is to create a class dealing with the registration and language flipping:

@Creatable
public class MessageRegistry<Messages> extends org.eclipse.fx.core.di.AbstractMessageRegistry {
    @Inject
    public void updateMessages(@Translation Messages messages) {
        super.updateMessages(messages);
    }
 
    // Optional provide method to access current message
    public String MyString() {
        return getMessages().MyString;
    }
}

And use it in your UI like this:

@Inject
MessageRegistry r;
 
@PostConstruct
void init(BorderPane parent) {
    Label l = new Label();
 
    // if you opted to NOT add the MyString() method
    r.register(l::setText, (m) -> m.MyString); 
 
    // if you opted to have a MyString() method
    r.register(l::setText, r::MyString);
}

Injection of OSGi-Services

By default the DI container of Eclipse will inject you a service found in the OSGi-Registry but this default comes with a few restrictions who might cause you troubles:

  • you can only inject one instance (the one with the highest rank in the OSGi-Service-Registry)
  • you won't get a new instance reinjected if a new service instance with a higher ranking is registered on the OSGi-Service-Registry

To fix both of those problems e(fx)clipse provides a new annotation @Service who fixes both of your problems.

import org.eclipse.fx.core.di.Service
 
public class MyView {
  @Inject
  @Service
  private MyOSGiService instance; // inject the highest service and reinject a new higher ranked one is available
 
  @Inject
  @Service
  private List<MyOSGiService> allServiceInstances; // all instances available and reinject when services are added/removed
}

FXML

FXML in OSGi

Loading FXML-Files in OSGi is a bit harder than doing it in a standard java application and one can not use the static FXMLLoader.load() so we provide an extra class named org.eclipse.fx.osgi.utilOSGiFXMLLoader

public class MyView {
  @PostConstruct
  public void init(BorderPane p) {
    Node n = OSGiFXMLLoader.load(getClass(), "myView.fxml", null, null);
  }
}

DI in FXML controller

Eclipse DI

If you are running in OSGi and with Eclipse DI (e.g. when you are writing an Eclipse 4 Application) you can make use of org.eclipse.fx.ui.di.InjectingFXMLLoader.

public class MyView {
  @PostConstruct
  public void initUI(BorderPane p, IEclipseContext context) {
    InjectingFXMLLoader<Node> iFXMLLoader = InjectingFXMLLoader.create(
      context, getClass(), "myView.fxml"
    );
    Node n = iFXMLLoader.load();
    // ...
  }
}

The above code is perfectly ok although you can get rid of the direct IEclipseContext dependency by using the @FXMLLoader annotation.

Google Guice

If you are not running on OSGi and Eclipse DI but develop a standard java application which uses Google Guice as the DI container you can make use of org.eclipse.fx.core.guice.InjectingFXMLLoader

public class MyGuiceComponent {
   public void init(Injector injector) {
     Node n = InjectingFXMLLoader.loadFXML(injector,getClass().getResource("myui.fxml"));
     // ...
   }
}

Adapter System

The @ContextValue support introduce above makes use of the adapter system provided by e(fx)clipse core runtime bundle (org.eclipse.fx.core) which constits of the 3 main interfaces:

  • Adaptable
  • AdapterService
  • AdapterProvider

Usage

The simplest usage is if the source-object implements the Adaptable interface

public class Sample {
  private void sellProduct(Person person) {
     Customer customer = person.adapt(Customer.class);
     // ...
  }
}

If the source-object itself does not implement the Adaptable interface or you are the one who has to implement a class which implements Adaptable you have to use the AdapterService whicn is provided through the OSGi-Service-Registry if the object is managed by Eclipse DI it will look like this:

public class Sample {
  @Inject
  AdapterService adapterService;
 
  private void sellProduct(Person person) {
    Customer customer = adapterService.adapt(person,Customer.class);
    // ...
  }
}

Otherwise you need to query the OSGi-Service-Registry to get access to the AdapterService.

Extending

To enhance the adapter system it is possible to register AdapterProvider as OSGi-Services. All you need to do is to implement the AdapterProvider likes this:

public class CustomerAdapterProvider implements AdapterProvider<Person, Customer> {
  @Override
  public Class<Person> getSourceType() {
    return Person.class;
  }
 
  @Override
  public Class<Customer> getTargetType() {
    return Customer.class;
  }
 
  @Override
  public boolean canAdapt(Person sourceObject, Class<Customer> targetType) {
    return true;
  }
 
  @Override
  public Customer adapt(final Person sourceObject, Class<Customer> targetType, ValueAccess... valueAccess) {
    // ...
  }
}

and register it e.g. through DS with

<?xml version="1.0" encoding="UTF-8"?>
<scr:component xmlns:scr="http://www.osgi.org/xmlns/scr/v1.1.0" name="my.adapter.sample.customer">
   <implementation class="my.adapter.sample.CustomerAdapterProvider"/>
   <service>
      <provide interface="org.eclipse.fx.core.adapter.AdapterProvider"/>
   </service>
</scr:component>

Filesystem

Java7 added a new filesystem API which also you to observe modifications of files and directories. Unfortunately this API is very low-level and not as easy to deal with as one might expect. Because of this we provide an API who is a bit more highlevel

import org.eclipse.fx.core.FilesystemService;
import org.eclipse.fx.core.Util;
 
public class Sample {
  public void sample() {
    FilesystemService fs = Util.lookupService(getClass(), FilesystemService.class);
    fs.observePath(Paths.get("/tmp"));
  }
}

e4

Position a TrimBar element to the far right

Sometimes it is necessary to position an element in the TrimBar to the far right or bottom. This can be implemented by adding a spacer element to the trimbar

<trimBars elementId="my.sample.trim.bottom" side="Bottom">
  <children xsi:type="menu:ToolControl" >
    <tags>fillspace</tags>
  </children>
  <children xsi:type="menu:ToolControl" elementId="my.sample.trim.progress" 
    contributionURI="bundleclass://my.bundle/my.bundle.ProgressControl"/>
</trimBars>

Restart Service

Sometimes it is necessary to restart your application with a cleared persisted state. This could be the case when you want to reset the user interface to its default or after an update to your application.e4xmi or a fragment.e4xmi.

To use the RestartService, you can inject it into your handler. To clean the persisted state on the next start of the application pass true to the restart method.

public class CleanRestartHandler {
  @Execute
  public void execute(RestartService restartService) {
    restartService.restart(true);
  }	
}

Extended @PostContextCreate Features

The life cycle hook @PostContextCreate is a good place to perform initial tasks, like making your user supply login credentials and setting up a connection. If this fails, there is no need to continue starting the application. With e(fx)clipse it is possible to return a Boolean to control whether to continue or not.

public class ApplicationLifecycle {
	@PostContextCreate
	Boolean connect() {
		if (connectToServer()) {
			return true;
		}
		return false;
	}
 
	private boolean connectToServer() {
		... 
	}
}


Another scenario is that you are performing an automatic application update and you want to restart the application right away. For these and similar situations we have provided another extension to the @PostContextCreate API. With e(fx)clipse it is also possible to return an instance of the enum LifecycleRV from @PostContextCreate to tell the framework what to do next. You have the following options:

  • LifecycleRV.CONTINUE - Continue starting the application
  • LifecycleRV.SHUTDOWN - Shutdown the application
  • LifecycleRV.RESTART - Restart the application
  • LifecycleRV.RESTART_CLEAR_STATE - Restart the application with a cleared persisted state


public class ApplicationLifecycle {
	@PostContextCreate
	LifecycleRV showStartUp(UISynchronize sync) {
		BlockCondition<LifecycleRV> c = new BlockCondition<>();
		Stage s = new Stage();
		VBox box = new VBox();
		{
			Button b = new Button("Continue");
			b.setMaxWidth(Double.MAX_VALUE);
			b.setOnAction((e) -> c.release(LifecycleRV.CONTINUE));
			box.getChildren().add(b);
		}
		{
			Button b = new Button("Shutdown");
			b.setMaxWidth(Double.MAX_VALUE);
			b.setOnAction((e) -> c.release(LifecycleRV.SHUTDOWN));
			box.getChildren().add(b);
		}
		{
			Button b = new Button("Restart");
			b.setMaxWidth(Double.MAX_VALUE);
			b.setOnAction((e) -> c.release(LifecycleRV.RESTART));
			box.getChildren().add(b);
		}
		{
			Button b = new Button("Restart with cleared State");
			b.setMaxWidth(Double.MAX_VALUE);
			b.setOnAction((e) -> c.release(LifecycleRV.RESTART_CLEAR_STATE));
			box.getChildren().add(b);
		}
		s.setScene(new Scene(box,200,200));
		s.show();
		LifecycleRV rv = sync.block(c); // Block until release
		s.close();
		return rv;
	}
}

UI-State Persistence with Memento-Interface

By default e4 will persists things like the current window location, the location of the sashes, opened tabs, ... but sometimes you have to remember more information e.g. which item in the table has been selected, ... . The e4 application model provides a generic slot in MApplication#persistedState: Map<String,String> so one can write:

public class MyPart {
  @PostConstruct
  public void init(MApplicationElement element) {
    int selectionId = Integer.parseInt(element.getPersistedState().get("selectionId"));
  }
 
  @PersistState
  public void saveUIState(MApplicationElement element) {
    element.getPersistedState().put("selectionId",getSelectionId()+"");
  }
}

but this code has some problems:

  • it does not check for NULL and parse errors
  • it makes your UI code directly depending on the e4 application model
  • it provides you no directly way to store complex informations

org.eclipse.fx.core.Memento is there to solve all of those problems. So the code from above can be written in e4 & JavaFX like this:

public class MyPart {
  @PostConstruct
  public void init(Memento state) {
    long selectionId = state.get("selectionId",-1);
  }
 
  @PersistState
  public void saveUIState(Memento state) {
    state.put("selectionId",getSelectionId());
  }
}

This solves the 1st and 2nd problem from above.

The 3rd problem is addressed in conjunction with org.eclipse.fx.core.ObjectSerializer

public class MyPart {
  @PostConstruct
  public void init(Memento state) {
    ComplexObjectState selectionId = state.get("complexObject",null);
  }
 
  @PersistState
  public void saveUIState(Memento state) {
    state.put("selectionId",getComplexObject(),ObjectSerializer.JAXB_SERIALIZER);
  }
}

By default an object serializer on base of JAXB is available but you can plug in your own technology if you are not satisfied with the default one.

Keybinding vs Native implementation

Images in e4xmi

Theme specific icons

FXML icons

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