HowTo JPF: Unterschied zwischen den Versionen
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''One major goal of JPF is that the application (and its end-user) should not pay any memory or performance penalty for plug-ins that are installed, but not used. Plug-ins are added to the registry at application start-up or while the application is running but they are not loaded until they are called.''" [http://jpf.sourceforge.net/ http://jpf.sourceforge.net/] | ''One major goal of JPF is that the application (and its end-user) should not pay any memory or performance penalty for plug-ins that are installed, but not used. Plug-ins are added to the registry at application start-up or while the application is running but they are not loaded until they are called.''" [http://jpf.sourceforge.net/ http://jpf.sourceforge.net/] | ||
− | some | + | some characteristics and features: |
* open source (LGPL) | * open source (LGPL) | ||
− | * low barrier of entrance | + | * low barrier of entrance (compared to OSGi) |
+ | * easy configuration (single xml file for each plugin) | ||
* ant tasks | * ant tasks | ||
* hot deployment | * hot deployment | ||
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==architecture overview== | ==architecture overview== | ||
− | in the following example i will show you a simple demo application, divided | + | in the following example i will show you a simple demo application, divided into three parts: the '''boot module''' (got the <code>main</code> method and fires up jpf), the '''core module''' (alias application plugin, will display the main window and provide extension points for menubar entries) and the '''export module''' (imports core and uses the extension point to add a single entry to the menubar). |
<code> | <code> | ||
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| | | | | | | | | | ||
++++++++++++++++++++ JPF +++++++++++++++++++++ | ++++++++++++++++++++ JPF +++++++++++++++++++++ | ||
− | ************ | + | ************** JVM, Classloader ************** |
</code> | </code> | ||
− | as you can see the core plugin (extends | + | as you can see the core plugin (extends [http://jpf.sourceforge.net/api/org/java/plugin/boot/ApplicationPlugin.html <code>ApplicationPlugin</code>]) itself is a plugin. |
− | == | + | ==manifest file== |
− | the three main parts are | + | the three main parts are declared in the so-called manifest file (<code>plugin.xml</code>): |
− | * '''plugin''': with jpf the whole application is separated | + | * '''plugin''': with jpf the whole application is separated into independent plugins (kind of module). it holds the code, resources, libraries and defines imports (requirements), exports, extension-points and extensions. the class attribute is necessary if this plugin is an application plugin. |
<code> | <code> | ||
− | <! | + | <!- |
PLUG-IN | PLUG-IN | ||
This is container for all other plug-in manifest elements. | This is container for all other plug-in manifest elements. | ||
− | "docs-path": path to documentation folder, relative to plug-in context | + | "docs-path": path to documentation folder, relative to plug-in context (home) folder |
− | |||
--> | --> | ||
<!ELEMENT plugin (doc?, attributes?, requires?, runtime?, | <!ELEMENT plugin (doc?, attributes?, requires?, runtime?, | ||
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<!ATTLIST plugin docs-path CDATA #IMPLIED> | <!ATTLIST plugin docs-path CDATA #IMPLIED> | ||
</code> | </code> | ||
− | * '''extension-point''': an interface which is provided by the plugin. an extension-point is identified by its plugin-id and extension-point-id, | + | * '''extension-point''': an interface which is provided by the plugin so other can provide implementations. an extension-point is identified by its plugin-id and extension-point-id, anddefines parameters for that interface. usually i only use an parameter called "class" for the fully qualified name of a class which implements a certain java interface and then define other attributes as getter on that java interface). |
<code> | <code> | ||
− | <! | + | <!- |
EXTENSION POINT | EXTENSION POINT | ||
Tags extension-point describe the places where the functionality of | Tags extension-point describe the places where the functionality of | ||
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one-per-plugin only one extension can be defined in one plug-in | one-per-plugin only one extension can be defined in one plug-in | ||
none no extension can be defined for this point | none no extension can be defined for this point | ||
− | + | (used to declare "abstract" extension points, | |
− | + | that can be only "inherited" by other points using "parent" attributes) | |
− | |||
--> | --> | ||
<!ELEMENT extension-point (doc?, parameter-def*)> | <!ELEMENT extension-point (doc?, parameter-def*)> | ||
Zeile 79: | Zeile 78: | ||
<!ATTLIST extension-point parent-plugin-id CDATA #IMPLIED> | <!ATTLIST extension-point parent-plugin-id CDATA #IMPLIED> | ||
<!ATTLIST extension-point parent-point-id CDATA #IMPLIED> | <!ATTLIST extension-point parent-point-id CDATA #IMPLIED> | ||
− | <!ATTLIST extension-point extension-multiplicity (any | one | one-per-plugin | + | <!ATTLIST extension-point extension-multiplicity (any | one | one-per-plugin | none) "any"> |
− | |||
− | <! | + | <!- |
EXTENSION POINT PARAMETER DEFINITION | EXTENSION POINT PARAMETER DEFINITION | ||
... documentation shortened ... | ... documentation shortened ... | ||
− | --> | + | --> |
<!ELEMENT parameter-def (doc?, parameter-def*)> | <!ELEMENT parameter-def (doc?, parameter-def*)> | ||
<!ATTLIST parameter-def id CDATA #REQUIRED> | <!ATTLIST parameter-def id CDATA #REQUIRED> | ||
<!ATTLIST parameter-def multiplicity (one | any | none-or-one | one-or-more) | <!ATTLIST parameter-def multiplicity (one | any | none-or-one | one-or-more) | ||
"one"> | "one"> | ||
− | <!ATTLIST parameter-def type (string | boolean | number | date | time | + | <!ATTLIST parameter-def type (string | boolean | number | date | time | date-time | null | any | plugin-id |
− | + | | extension-point-id | extension-id | fixed | resource) "string"> | |
− | |||
− | |||
<!ATTLIST parameter-def custom-data CDATA #IMPLIED> | <!ATTLIST parameter-def custom-data CDATA #IMPLIED> | ||
<!ATTLIST parameter-def default-value CDATA #IMPLIED> | <!ATTLIST parameter-def default-value CDATA #IMPLIED> | ||
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* '''extension''': could be thought as an implementation for a given interface. a plugin can extend the extension-point of another plugin and pass concrete values as arguments (most of the time only a "class" attribute which holds the full qualified name of a class). | * '''extension''': could be thought as an implementation for a given interface. a plugin can extend the extension-point of another plugin and pass concrete values as arguments (most of the time only a "class" attribute which holds the full qualified name of a class). | ||
<code> | <code> | ||
− | <! | + | <!- |
EXTENSION | EXTENSION | ||
− | Tags extension describe the functionality the plug-in contribute to the | + | Tags extension describe the functionality the plug-in contribute to the system. |
− | |||
− | "optional": if "true" than absense of required extension point will not | + | "optional": if "true" than absense of required extension point will not cause runtime error |
− | |||
--> | --> | ||
<!ELEMENT extension (doc?, parameter*)> | <!ELEMENT extension (doc?, parameter*)> | ||
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<!ATTLIST extension optional (true | false) "false"> | <!ATTLIST extension optional (true | false) "false"> | ||
− | <! | + | <!- |
EXTENSION PARAMETER | EXTENSION PARAMETER | ||
− | If both attribute and tag "value" present, only attribute will be taken | + | If both attribute and tag "value" present, only attribute will be taken into account, the content of tag will be ignored. |
− | + | Parameter value will be validated according to parameter definition with corresponding ID. | |
− | Parameter value will be validated according to parameter definition | ||
− | |||
--> | --> | ||
<!ELEMENT parameter (doc?, value?, parameter*)> | <!ELEMENT parameter (doc?, value?, parameter*)> | ||
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you also can have a look at the [http://jpf.sourceforge.net/dtd.html full DTD] provided on the jpf website. | you also can have a look at the [http://jpf.sourceforge.net/dtd.html full DTD] provided on the jpf website. | ||
+ | =example= | ||
− | = | + | |
+ | ==maven dependency== | ||
+ | |||
+ | if you decide to use maven -and i really hope you did so already- just copy&paste these two dependencies into your pom: | ||
+ | <source lang="xml"> | ||
+ | <dependency> | ||
+ | <groupId>net.sf.jpf</groupId> | ||
+ | <artifactId>jpf</artifactId> | ||
+ | <version>1.5</version> | ||
+ | <scope>provided</scope> | ||
+ | </dependency> | ||
+ | |||
+ | <dependency> | ||
+ | <groupId>net.sf.jpf</groupId> | ||
+ | <artifactId>jpf-boot</artifactId> | ||
+ | <version>1.5</version> | ||
+ | <scope>provided</scope> | ||
+ | </dependency> | ||
+ | </source> | ||
+ | |||
+ | this gives you access to the most recent jpf libraries (available december 2008) in ''provided'' scope, because the boot module got the two jars already in its classpath. | ||
==startuping up the framework== | ==startuping up the framework== | ||
− | you can start the java plugin framework either by simply providing a <code>boot.properties</code> file and executing a utility jar, or by writing custom code which gives you full control of boot procedure (preferred way). the last option is nevertheless required for unit tests. | + | you can start the java plugin framework either by simply providing a <code>boot.properties</code> file in the project root and executing a utility jar (jpf-boot.jar), or by writing custom code which gives you full control of the boot procedure (preferred way). the last option is nevertheless required for unit tests. |
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</code> | </code> | ||
− | + | executing following command should bring up your application: <code>java -jar lib/jpf-boot.jar</code> | |
+ | here, the most important property is <code>org.java.plugin.boot.applicationPlugin</code> which looks for a plugin with the given id, looks up the manifest file and instantiates the type (<code>ApplicationPlugin</code>) defined by the class attribute. | ||
===take over full control (advanced)=== | ===take over full control (advanced)=== | ||
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*/ | */ | ||
public class JpfBooter { | public class JpfBooter { | ||
+ | |||
+ | /** path to folder where plugins reside (either zipped, or unpacked as a simple folder) */ | ||
private static final String PLUGINS_REPOSITORY = "./plugins"; | private static final String PLUGINS_REPOSITORY = "./plugins"; | ||
+ | |||
+ | /** plugin id of the core module, defined in it's plugin.xml class attribute */ | ||
+ | private static final String CORE_PLUGIN_ID = "at.ac.tuwien.jsug.jpf.core"; | ||
public static void main(String[] args) { | public static void main(String[] args) { | ||
Zeile 190: | Zeile 209: | ||
private void start() { | private void start() { | ||
+ | // instantiate necessary objects | ||
final PluginManager manager = ObjectFactory.newInstance().createManager(); | final PluginManager manager = ObjectFactory.newInstance().createManager(); | ||
final DefaultPluginsCollector collector = new DefaultPluginsCollector(); | final DefaultPluginsCollector collector = new DefaultPluginsCollector(); | ||
final ExtendedProperties props = new ExtendedProperties(); | final ExtendedProperties props = new ExtendedProperties(); | ||
+ | |||
+ | // prepare configuration | ||
props.setProperty("org.java.plugin.boot.pluginsRepositories", PLUGINS_REPOSITORY); | props.setProperty("org.java.plugin.boot.pluginsRepositories", PLUGINS_REPOSITORY); | ||
try { | try { | ||
collector.configure(props); | collector.configure(props); | ||
+ | // examine plugins repository for plugins | ||
manager.publishPlugins(collector.collectPluginLocations().toArray(new PluginLocation[] {})); | manager.publishPlugins(collector.collectPluginLocations().toArray(new PluginLocation[] {})); | ||
− | final ICoreApplicationPlugin corePlugin = (ICoreApplicationPlugin) manager.getPlugin( | + | // finally retrieve the core plugin and start it up |
+ | final ICoreApplicationPlugin corePlugin = (ICoreApplicationPlugin) manager.getPlugin(CORE_PLUGIN_ID); | ||
corePlugin.startApplication(); | corePlugin.startApplication(); | ||
} catch (Exception e) { | } catch (Exception e) { | ||
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==create the main boot part== | ==create the main boot part== | ||
− | besides the <code>plugins/</code> folder and a log4j configuration file, there is only the <code>JpfBooter</code> class (a listing | + | besides the <code>plugins/</code> folder and a log4j configuration file, there is only the <code>JpfBooter</code> class (a listing was shown in the preceding section). |
+ | the project structure should look like this: | ||
<code> | <code> | ||
* src/main/java/ | * src/main/java/ | ||
Zeile 226: | Zeile 251: | ||
==create the core application plugin== | ==create the core application plugin== | ||
+ | the application plugin has its manifest file (<code>plugin.xml</code>) and three types: the core application interface and its implementation and an interface for the menubar extension point. | ||
+ | |||
+ | after creating the files, the project structure should look like this: | ||
<code> | <code> | ||
* src/main/java/ | * src/main/java/ | ||
Zeile 259: | Zeile 287: | ||
package at.ac.tuwien.jsug.jpf.core; | package at.ac.tuwien.jsug.jpf.core; | ||
− | public interface | + | public interface ICoreApplicationPlugin { |
void startApplication(); | void startApplication(); | ||
} | } | ||
Zeile 268: | Zeile 296: | ||
package at.ac.tuwien.jsug.jpf.core; | package at.ac.tuwien.jsug.jpf.core; | ||
− | public class | + | public class CoreApplicationPlugin implements ICoreApplicationPlugin { |
public void startApplication() { | public void startApplication() { | ||
− | + | final JFrame frame = new JFrame(); | |
− | // | + | frame.getContentPane().add(new JLabel("JPF Core Module")); |
− | + | ||
− | + | // ... lookup all extensions and load them into the menubar ... see code down below in "use the extension" section | |
+ | |||
+ | frame.pack(); | ||
+ | frame.setVisible(true); | ||
} | } | ||
} | } | ||
Zeile 290: | Zeile 321: | ||
==create an extension== | ==create an extension== | ||
+ | |||
+ | a plugin now simply declares the core plugin as a requirement in its manifest file (and therefore has access to the <code>IMenuBarPlugin</code> interface). then a proper implementation can be written for the menubar extension. | ||
+ | |||
+ | after creating the files, the project structure should look like this: | ||
<code> | <code> | ||
Zeile 312: | Zeile 347: | ||
</runtime> | </runtime> | ||
+ | <!-- declare the actual extension: specify which extension point and pass the full qualified name in the class attribute --> | ||
<extension plugin-id="at.ac.tuwien.jsug.jpf.core" point-id="MenuBar" id="ExportMenuBar"> | <extension plugin-id="at.ac.tuwien.jsug.jpf.core" point-id="MenuBar" id="ExportMenuBar"> | ||
− | <parameter id="class" value="at.ac.tuwien.jsug.jpf.export. ExportMenuBarPlugin" /> | + | <parameter id="class" value="at.ac.tuwien.jsug.jpf.export.ExportMenuBarPlugin" /> |
</extension> | </extension> | ||
</plugin> | </plugin> | ||
Zeile 340: | Zeile 376: | ||
you might want to use the following handy methods for retrieving plugins: | you might want to use the following handy methods for retrieving plugins: | ||
<source lang="java"> | <source lang="java"> | ||
+ | /** | ||
+ | * overloaded method setting default "class" attribute name | ||
+ | * @see #fetchPlugins(Plugin,String,String,String) | ||
+ | */ | ||
public static <T> List<T> fetchPlugins( | public static <T> List<T> fetchPlugins( | ||
final Plugin plugin, | final Plugin plugin, | ||
Zeile 347: | Zeile 387: | ||
} | } | ||
+ | /** | ||
+ | * fetches all extensions for the given extension point qualifiers | ||
+ | */ | ||
@SuppressWarnings("unchecked") | @SuppressWarnings("unchecked") | ||
public static <T> List<T> fetchPlugins( | public static <T> List<T> fetchPlugins( | ||
Zeile 353: | Zeile 396: | ||
final String extPointId, | final String extPointId, | ||
final String attributeName) throws Exception { | final String attributeName) throws Exception { | ||
− | final List<T> | + | final List<T> plugins = new LinkedList<T>(); |
final PluginManager manager = plugin.getManager(); | final PluginManager manager = plugin.getManager(); | ||
Zeile 367: | Zeile 410: | ||
final Class<T> pluginClass = (Class<T>) classLoader.loadClass(pluginClassName); | final Class<T> pluginClass = (Class<T>) classLoader.loadClass(pluginClassName); | ||
final T pluginInstance = pluginClass.newInstance(); | final T pluginInstance = pluginClass.newInstance(); | ||
− | + | plugins.add(pluginInstance); | |
} | } | ||
− | return | + | return Collections.unmodifiableList(plugins); |
} | } | ||
</source> | </source> | ||
Zeile 378: | Zeile 421: | ||
package at.ac.tuwien.jsug.jpf.core; | package at.ac.tuwien.jsug.jpf.core; | ||
− | public class CoreApplicationPlugin { | + | public class CoreApplicationPlugin implements ICoreApplicationPlugin { |
− | // ... | + | |
− | + | private static final String EXTPOINT_ID_MENUBAR = "MenuBar"; | |
− | + | ||
− | + | public void startApplication() { | |
− | + | final JFrame frame = new JFrame(); | |
− | + | frame.getContentPane().add(new JLabel("JPF Core Module")); | |
+ | |||
+ | // setup menubar | ||
+ | final List<IMenuBarPlugin> menuBarPlugins = JpfUtil.fetchPlugins(this, this.getDescriptor().getId(), EXTPOINT_ID_MENUBAR); | ||
+ | setJMenuBar(newMenuBar(menuBarPlugins)); | ||
+ | |||
+ | frame.pack(); | ||
+ | frame.setVisible(true); | ||
+ | } | ||
+ | |||
+ | private JMenuBar newMenuBar(final List<IMenuBarPlugin> menuBarPlugins) { | ||
+ | final JMenuBar bar = new JMenuBar(); | ||
+ | final JMenu menu = new JMenu("Application"); | ||
+ | |||
+ | for (int i = 0; i < menuBarPlugins.size(); i++) { | ||
+ | final IMenuBarPlugin plugin = menuBarPlugins.get(i); | ||
+ | final JMenuItem item = new JMenuItem(plugin.getTitle()); | ||
+ | |||
+ | item.addActionListener(new ActionListener() { public void actionPerformed(ActionEvent event) { | ||
+ | plugin.execute(); | ||
+ | }}); | ||
+ | |||
+ | menu.add(item); | ||
+ | } | ||
+ | |||
+ | bar.add(menu); | ||
+ | return bar; | ||
+ | } | ||
} | } | ||
</source> | </source> | ||
− | |||
=appendix= | =appendix= |
Aktuelle Version vom 4. Januar 2009, 21:47 Uhr
written by Christoph P; created Tuesday, December 30, 2008
Inhaltsverzeichnis
introduction
"JPF provides a runtime engine that dynamically discovers and loads "plug-ins". A plug-in is a structured component that describes itself to JPF using a "manifest". JPF maintains a registry of available plug-ins and the functions they provide (via extension points and extensions).
One major goal of JPF is that the application (and its end-user) should not pay any memory or performance penalty for plug-ins that are installed, but not used. Plug-ins are added to the registry at application start-up or while the application is running but they are not loaded until they are called." http://jpf.sourceforge.net/
some characteristics and features:
- open source (LGPL)
- low barrier of entrance (compared to OSGi)
- easy configuration (single xml file for each plugin)
- ant tasks
- hot deployment
- lazy loading
- integrity check
- embedded documentation
architecture overview
in the following example i will show you a simple demo application, divided into three parts: the boot module (got the main
method and fires up jpf), the core module (alias application plugin, will display the main window and provide extension points for menubar entries) and the export module (imports core and uses the extension point to add a single entry to the menubar).
+--------------------------------------------+ | | | boot | | | +--------------------------------------------+ | | | | | core | export | ... | | (plugin_0) | (plugin_1) | (plugin_n) | | | | | ++++++++++++++++++++ JPF +++++++++++++++++++++ ************** JVM, Classloader **************
as you can see the core plugin (extends ApplicationPlugin
) itself is a plugin.
manifest file
the three main parts are declared in the so-called manifest file (plugin.xml
):
- plugin: with jpf the whole application is separated into independent plugins (kind of module). it holds the code, resources, libraries and defines imports (requirements), exports, extension-points and extensions. the class attribute is necessary if this plugin is an application plugin.
<!- PLUG-IN This is container for all other plug-in manifest elements. "docs-path": path to documentation folder, relative to plug-in context (home) folder --> <!ELEMENT plugin (doc?, attributes?, requires?, runtime?, (extension-point|extension)*)> <!ATTLIST plugin id CDATA #REQUIRED> <!ATTLIST plugin version CDATA #REQUIRED> <!ATTLIST plugin vendor CDATA #IMPLIED> <!ATTLIST plugin class CDATA #IMPLIED> <!ATTLIST plugin docs-path CDATA #IMPLIED>
- extension-point: an interface which is provided by the plugin so other can provide implementations. an extension-point is identified by its plugin-id and extension-point-id, anddefines parameters for that interface. usually i only use an parameter called "class" for the fully qualified name of a class which implements a certain java interface and then define other attributes as getter on that java interface).
<!- EXTENSION POINT Tags extension-point describe the places where the functionality of this plug-in can be extended. Extension point multiplicity attribute description: any any number of extensions can be available one only one extension can be available one-per-plugin only one extension can be defined in one plug-in none no extension can be defined for this point (used to declare "abstract" extension points, that can be only "inherited" by other points using "parent" attributes) --> <!ELEMENT extension-point (doc?, parameter-def*)> <!ATTLIST extension-point id CDATA #REQUIRED> <!ATTLIST extension-point parent-plugin-id CDATA #IMPLIED> <!ATTLIST extension-point parent-point-id CDATA #IMPLIED> <!ATTLIST extension-point extension-multiplicity (any | one | one-per-plugin | none) "any"> <!- EXTENSION POINT PARAMETER DEFINITION ... documentation shortened ... --> <!ELEMENT parameter-def (doc?, parameter-def*)> <!ATTLIST parameter-def id CDATA #REQUIRED> <!ATTLIST parameter-def multiplicity (one | any | none-or-one | one-or-more) "one"> <!ATTLIST parameter-def type (string | boolean | number | date | time | date-time | null | any | plugin-id | extension-point-id | extension-id | fixed | resource) "string"> <!ATTLIST parameter-def custom-data CDATA #IMPLIED> <!ATTLIST parameter-def default-value CDATA #IMPLIED>
- extension: could be thought as an implementation for a given interface. a plugin can extend the extension-point of another plugin and pass concrete values as arguments (most of the time only a "class" attribute which holds the full qualified name of a class).
<!- EXTENSION Tags extension describe the functionality the plug-in contribute to the system. "optional": if "true" than absense of required extension point will not cause runtime error --> <!ELEMENT extension (doc?, parameter*)> <!ATTLIST extension plugin-id CDATA #REQUIRED> <!ATTLIST extension point-id CDATA #REQUIRED> <!ATTLIST extension id CDATA #REQUIRED> <!ATTLIST extension optional (true | false) "false"> <!- EXTENSION PARAMETER If both attribute and tag "value" present, only attribute will be taken into account, the content of tag will be ignored. Parameter value will be validated according to parameter definition with corresponding ID. --> <!ELEMENT parameter (doc?, value?, parameter*)> <!ATTLIST parameter id CDATA #REQUIRED> <!ATTLIST parameter value CDATA #IMPLIED>
you also can have a look at the full DTD provided on the jpf website.
example
maven dependency
if you decide to use maven -and i really hope you did so already- just copy&paste these two dependencies into your pom: <source lang="xml"> <dependency> <groupId>net.sf.jpf</groupId> <artifactId>jpf</artifactId> <version>1.5</version> <scope>provided</scope> </dependency>
<dependency> <groupId>net.sf.jpf</groupId> <artifactId>jpf-boot</artifactId> <version>1.5</version> <scope>provided</scope> </dependency> </source>
this gives you access to the most recent jpf libraries (available december 2008) in provided scope, because the boot module got the two jars already in its classpath.
startuping up the framework
you can start the java plugin framework either by simply providing a boot.properties
file in the project root and executing a utility jar (jpf-boot.jar), or by writing custom code which gives you full control of the boot procedure (preferred way). the last option is nevertheless required for unit tests.
let properties-file do the work (simple)
file boot.properties
:
# application plugin id org.java.plugin.boot.applicationPlugin = at.ac.tuwien.jsug.jpf.startup # [ full | light | off ] org.java.plugin.boot.integrityCheckMode = light #org.java.plugin.boot.splashImage = ${applicationRoot}/splash.png #------------------------------------------------------------------------------- # JPF runtime configuration org.java.plugin.PathResolver = org.java.plugin.standard.ShadingPathResolver org.java.plugin.standard.ShadingPathResolver.shadowFolder = ${applicationRoot}/temp/.jpf-shadow org.java.plugin.standard.ShadingPathResolver.unpackMode = smart org.java.plugin.standard.ShadingPathResolver.excludes = CVS #------------------------------------------------------------------------------- # could be some more properties defined for own usage
executing following command should bring up your application: java -jar lib/jpf-boot.jar
here, the most important property is org.java.plugin.boot.applicationPlugin
which looks for a plugin with the given id, looks up the manifest file and instantiates the type (ApplicationPlugin
) defined by the class attribute.
take over full control (advanced)
file JpfBooter.java
:
<source lang="java">
package at.ac.tuwien.jsug.jpf.boot;
import javax.swing.SwingUtilities; import org.java.plugin.ObjectFactory; import org.java.plugin.PluginManager; import org.java.plugin.PluginManager.PluginLocation; import org.java.plugin.boot.DefaultPluginsCollector; import org.java.plugin.util.ExtendedProperties; import at.ac.tuwien.jsug.jpf.core.ICoreApplicationPlugin;
/**
* entry point for the application to bootstrap jpf and
* invoke CoreApplicationPlugin.startApplication()
.
*/
public class JpfBooter {
/** path to folder where plugins reside (either zipped, or unpacked as a simple folder) */ private static final String PLUGINS_REPOSITORY = "./plugins";
/** plugin id of the core module, defined in it's plugin.xml class attribute */ private static final String CORE_PLUGIN_ID = "at.ac.tuwien.jsug.jpf.core";
public static void main(String[] args) { SwingUtilities.invokeLater(new Runnable() { public void run() { new App().start(); }}); }
private void start() { // instantiate necessary objects final PluginManager manager = ObjectFactory.newInstance().createManager(); final DefaultPluginsCollector collector = new DefaultPluginsCollector(); final ExtendedProperties props = new ExtendedProperties();
// prepare configuration props.setProperty("org.java.plugin.boot.pluginsRepositories", PLUGINS_REPOSITORY);
try { collector.configure(props); // examine plugins repository for plugins manager.publishPlugins(collector.collectPluginLocations().toArray(new PluginLocation[] {}));
// finally retrieve the core plugin and start it up final ICoreApplicationPlugin corePlugin = (ICoreApplicationPlugin) manager.getPlugin(CORE_PLUGIN_ID); corePlugin.startApplication(); } catch (Exception e) { e.printStackTrace(); } } } </source>
create the main boot part
besides the plugins/
folder and a log4j configuration file, there is only the JpfBooter
class (a listing was shown in the preceding section).
the project structure should look like this:
* src/main/java/ - at.ac.tuwien.jsug.jpf.boot.JpfBooter.java * src/main/resources/ - log4j.properties * plugins/ - at.ac.tuwien.jsug.jpf.core/ ... target output for core plugin - at.ac.tuwien.jsug.jpf.export/ ... target output for export plugin
create the core application plugin
the application plugin has its manifest file (plugin.xml
) and three types: the core application interface and its implementation and an interface for the menubar extension point.
after creating the files, the project structure should look like this:
* src/main/java/ - at.ac.tuwien.jsug.jpf.core.CoreApplicationPlugin.java - at.ac.tuwien.jsug.jpf.core.ICoreApplicationPlugin.java - at.ac.tuwien.jsug.jpf.core.IMenuBarPlugin.java * src/main/resources/ - plugin.xml
file plugin.xml
:
<source lang="xml">
<?xml version="1.0" ?>
<!DOCTYPE plugin PUBLIC "-//JPF//Java Plug-in Manifest 1.0" "http://jpf.sourceforge.net/plugin_1_0.dtd">
<plugin id="at.ac.tuwien.jsug.jpf.core" version="0.0.1" class="at.ac.tuwien.jsug.jpf.core.CoreApplicationPlugin">
<runtime> <library id="core" path="/" type="code"> <export prefix="*" /> </library> </runtime>
<extension-point id="MenuBar"> <parameter-def id="class" /> </extension-point> </plugin> </source>
file ICoreApplicationPlugin.java
:
<source lang="java">
package at.ac.tuwien.jsug.jpf.core;
public interface ICoreApplicationPlugin { void startApplication(); } </source>
file CoreApplicationPlugin.java
:
<source lang="java">
package at.ac.tuwien.jsug.jpf.core;
public class CoreApplicationPlugin implements ICoreApplicationPlugin { public void startApplication() { final JFrame frame = new JFrame(); frame.getContentPane().add(new JLabel("JPF Core Module"));
// ... lookup all extensions and load them into the menubar ... see code down below in "use the extension" section
frame.pack(); frame.setVisible(true); } } </source>
file IMenuBarPlugin.java
:
<source lang="java">
package at.ac.tuwien.jsug.jpf.core;
public interface IMenuBarPlugin { String getTitle(); void execute(); } </source>
create an extension
a plugin now simply declares the core plugin as a requirement in its manifest file (and therefore has access to the IMenuBarPlugin
interface). then a proper implementation can be written for the menubar extension.
after creating the files, the project structure should look like this:
* src/main/java/ - at.ac.tuwien.jsug.jpf.export.ExportMenuBarPlugin.java * src/main/resources/ - plugin.xml
file plugin.xml
:
<source lang="xml">
<?xml version="1.0" ?>
<!DOCTYPE plugin PUBLIC "-//JPF//Java Plug-in Manifest 1.0" "http://jpf.sourceforge.net/plugin_1_0.dtd">
<plugin id="at.ac.tuwien.jsug.jpf.export" version="0.0.1">
<requires> <import plugin-id="at.ac.tuwien.jsug.jpf.core" /> </requires>
<runtime> <library id="src" path="/" type="code" /> </runtime>
<extension plugin-id="at.ac.tuwien.jsug.jpf.core" point-id="MenuBar" id="ExportMenuBar"> <parameter id="class" value="at.ac.tuwien.jsug.jpf.export.ExportMenuBarPlugin" /> </extension> </plugin> </source>
file ExportMenuBarPlugin.java
:
<source lang="java">
package phudy.jpf.pluginexport;
import at.ac.tuwien.jsug.jpf.core.IMenuBarPlugin;
public class ExportMenuBarPlugin implements IMenuBarPlugin { public String getTitle() { return "Export"; }
public void execute() { System.out.println("exec export"); } } </source>
use the extension
you might want to use the following handy methods for retrieving plugins: <source lang="java"> /**
* overloaded method setting default "class" attribute name * @see #fetchPlugins(Plugin,String,String,String) */
public static <T> List<T> fetchPlugins( final Plugin plugin, final String extPointPluginId, final String extPointId) throws Exception { return fetchPlugins(plugin, extPointPluginId, extPointId, "class"); }
/**
* fetches all extensions for the given extension point qualifiers */
@SuppressWarnings("unchecked") public static <T> List<T> fetchPlugins( final Plugin plugin, final String extPointPluginId, final String extPointId, final String attributeName) throws Exception { final List<T> plugins = new LinkedList<T>();
final PluginManager manager = plugin.getManager();
final ExtensionPoint extPoint = manager.getRegistry().getExtensionPoint(extPointPluginId, extPointId); for (final Extension extension : extPoint.getConnectedExtensions()) { // LOG.info("Processing extension point: " + extension);
final PluginDescriptor extensionDescriptor = extension.getDeclaringPluginDescriptor(); manager.activatePlugin(extensionDescriptor.getId()); final ClassLoader classLoader = manager.getPluginClassLoader(extensionDescriptor); final String pluginClassName = extension.getParameter(attributeName).valueAsString(); final Class<T> pluginClass = (Class<T>) classLoader.loadClass(pluginClassName); final T pluginInstance = pluginClass.newInstance(); plugins.add(pluginInstance); }
return Collections.unmodifiableList(plugins); } </source>
file CoreApplicationPlugin
:
<source lang="java">
package at.ac.tuwien.jsug.jpf.core;
public class CoreApplicationPlugin implements ICoreApplicationPlugin {
private static final String EXTPOINT_ID_MENUBAR = "MenuBar";
public void startApplication() { final JFrame frame = new JFrame(); frame.getContentPane().add(new JLabel("JPF Core Module"));
// setup menubar final List<IMenuBarPlugin> menuBarPlugins = JpfUtil.fetchPlugins(this, this.getDescriptor().getId(), EXTPOINT_ID_MENUBAR); setJMenuBar(newMenuBar(menuBarPlugins));
frame.pack(); frame.setVisible(true); }
private JMenuBar newMenuBar(final List<IMenuBarPlugin> menuBarPlugins) { final JMenuBar bar = new JMenuBar(); final JMenu menu = new JMenu("Application");
for (int i = 0; i < menuBarPlugins.size(); i++) { final IMenuBarPlugin plugin = menuBarPlugins.get(i); final JMenuItem item = new JMenuItem(plugin.getTitle());
item.addActionListener(new ActionListener() { public void actionPerformed(ActionEvent event) { plugin.execute(); }});
menu.add(item); }
bar.add(menu); return bar; } } </source>
appendix
links
- http://jpf.sourceforge.net ... official website of the JPF project
- http://page.mi.fu-berlin.de/oezbek/jpf/ ... JPF code generator
- http://maven.koecke.net/maven-jpf-plugin/ ... mojo to do the cumbersomely work of packaging (unfortunately, somehow unfinished).
notes
- although it is more common to write "plug-in" instead of "plugin" i have choosen not to write the additional "-" character :)