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Hendy Irawan

Chapter 6. HTTP Caching - 0 views

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    HttpClient Cache provides an HTTP/1.1-compliant caching layer to be used with HttpClient--the Java equivalent of a browser cache. The implementation follows the Decorator design pattern, where the CachingHttpClient class is a drop-in replacement for a DefaultHttpClient; requests that can be satisfied entirely from the cache will not result in actual origin requests. Stale cache entries are automatically validated with the origin where possible, using conditional GETs and the If-Modified-Since and/or If-None-Match request headers. HTTP/1.1 caching in general is designed to be semantically transparent; that is, a cache should not change the meaning of the request-response exchange between client and server. As such, it should be safe to drop a CachingHttpClient into an existing compliant client-server relationship. Although the caching module is part of the client from an HTTP protocol point of view, the implementation aims to be compatible with the requirements placed on a transparent caching proxy. Finally, CachingHttpClient includes support the Cache-Control extensions specified by RFC 5861 (stale-if-error and stale-while-revalidate).
Prajot G.

Caching with EhCache - Part II « Plain Old Java Fun - 0 views

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    SelfPopulatingCache,Cache refresh
Hendy Irawan

Java HTTP cache - HttpCache4j project site - 0 views

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    Welcome to the HttpCache4j project site Click here to get started immediately. See here for the latest release notes. Download the distribution here.
mahesh 1234

Hibernate Tutorial - javatpoint - 0 views

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    Hibernate Tutorial. In this hibernate tutorial, we will learn basics of hibernate, inheritance mapping, collection mapping, component mapping, HQL, HCQL, Named Query, Caching and Integration of Hibernate with other frameworks.
anonymous

Getting Started with RequestFactory - Google Web Toolkit - Google Code - 0 views

  • Entity Proxies
    • anonymous
       
      Proxy type (on the Client) vs Entity type (on the server)
  • proxy types
  • entity types
  • ...147 more annotations...
  • methods that return service stubs
  • one RequestFactory interface for your application
  • employeeRequest();
  • @Service(Employee.class)
  • extends RequestContext
  • extends RequestFactory
  • service stub
  • RequestFactory service stubs
  • must extend RequestContext
  • The methods in a service stub do not return entities directly
  • return subclasses of com.google.gwt.requestfactory.shared.Request.
  • This allows the methods on the interface to be invoked asynchronously with
  • Request.fire()
  • fire(    new Receiver()
  • onSuccess
  • callers pass an AsyncCallback that implements onSuccess()
  • takes a Receiver which must implement onSuccess()
  • Receiver is an abstract class having a default implementation of onFailure()
  • you can extend Receiver and override onFailure()
  • onViolation()
  • any constraint violations on the server
  • The Request type returned from each method
  • parameterized with the return type of the service method.
  • Methods that have no return value should return type Request<Void>
  • BigDecimal, BigInteger, Boolean, Byte, Enum, Character, Date, Double, Float, Integer, Long, Short, String, Void
  • subclass of EntityProxy
  • List<T> or Set<T>
  • primitive types are not supported
  • methods that operate on an entity itself
  • like persist() and remove()
  • return objects of type InstanceRequest rather than Reques
  • Server Implementations
  • methods defined in an
  • entity's service interface
  • implemented in the class named
  • @Service annotation
  • in these examples, is the entity class
  • service implementations do not directly implement the RequestContext interface
  • server-side implementations use the domain entity types
  • @Entity
  • EntityManager
  • createQuery
  • getResultList();
  • entityManager()
  • createEntityManager()
  • em.persist(this);
  • em.remove(attached
  • em.close();
  • defined in the service's
  • RequestContext interface
  • even though the implementation does not formally implement the interface in Java
  • name and argument list for each method
  • same on client and server
  • Client side methods
  • return Request<T>
  • only T on the server
  • EntityProxy types become the domain entity type on the server
  • Methods that return a Request object in the client interface are implemented as static methods on the entity
  • Methods that operate on a single instance of an entity, like persist() and remove(),
  • eturn an
  • InstanceRequest
  • in the client interface
  • Instance methods do not pass the instance directly, but rather via the
  • using()
  • instance methods must be implemented as non-static methods in the entity type
  • Four special methods are required on all entities
  • as they are used by the RequestFactory servlet:
  • constructor
  • findEntity
  • An entity's getId()
  • is typically auto-generated by the persistence engine (JDO, JPA, Objectify, etc.)
  • "find by ID" method has a special naming convention
  • find()
  • "find" plus the type's simple name
  • On the server
  • getVersion() method is used by RequestFactory to infer if an entity has changed
  • backing store (JDO, JPA, etc.) is responsible for updating the version each time the object is persisted,
  • RequestFactoryServlet sends an UPDATE
  • if an entity changes as
  • Second, the client maintains a version cache of recently seen entities
  • Whenever it sees an entity whose version has changed, it fires
  • UPDATE events on the event bus
  • so that listeners can update the view
  • GWT.create
  • and initialize it with your application's EventBus
  • GWT.create
  • requestFactory.initialize
  • create a new entity on the client
  • EmployeeRequest request
  • EmployeeProxy newEmployee
  • All client-side code should use the EmployeeProxy
  • not the Employee entity itself
  • unlike GWT-RPC, where the same concrete type is used on both client and server
  • RequestFactory
  • designed to be used with an ORM layer like JDO or JPA
  • on the server
  • to build data-oriented (CRUD) apps with an ORM-like interface
  • on the client
  • easy to implement a data access layer
  • structure your server-side code in a data-centric way
  • GWT-RPC, which is service-oriented
  • On the client side, RequestFactory keeps track of objects that have been modified and sends only changes
  • lightweight network payloads
  • solid foundation for automatic batching and caching of requests in the future
  • RequestFactoryServlet
  • RequestFactory uses its own servlet
  • own protocol
  • not designed for general purpose services like GWT-RPC
  • implements its
  • It is designed specifically for implementing a persistence layer on both client and server.
  • In persistence frameworks like JDO and JPA, entities are annotated with
  • client-side representation of an entity
  • known as a
  • DTO (Data Transfer Object)
  • hook used to indicate that an object can be managed by RequestFactory
  • RequestFactory
  • EntityProxy interface
  • automatically populates bean-style properties between entities on the server and the corresponding EntityProxy on the client,
  • send only changes ("deltas") to the server
  • extends EntityProxy
  • interface
  • @ProxyFor
  • reference the server-side entity being represented
  • It is not necessary to represent every property and method from the server-side entity in the EntityProxy
  • EntityProxyId returned by this method is used throughout RequestFactory-related classes
  • while getId() is shown in this example, most client code will want to refer to
  • EntityProxy.stableId() i
  • to represent any type
  • is not required to expose an ID and version
  • often used to represent embedded object types within entities
  • @Embedded
  • Address
  • Address type
  • POJO with no persistence annotations
  • Address is represented as a ValueProxy
  • extends ValueProxy
  • interface
  • extends EntityProxy
  • interface
  • AddressProxy
  • AddressProxy
  • ValueProxy can be used to pass any type to and from the server
  • RequestFactory
  • interface between your client and server code
  • RequestContext interface
  • The server-side service
  • must implement each method
Hendy Irawan

smart-util - Utility tools for wide usage - Google Project Hosting - 0 views

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    This project will mainly contain utility stuff for diverse purpose. Initially it will primarily comprise of Spring Utilities which will perform the following purposes: Load a single resource properties file from pre-configured locations with priority based override. Application context registrar to make the context available to other interested components. Use Cacheable Jersey Client Use a generic RESTful WS Client OpenSearchDescriptor JAX-RS Provider based on XOM based DOM I/O Useful utilities for Atom Syndication Feed, such as pagination over entities, retrieval of resource to certain depth, etc.
Hendy Irawan

1060 Research NetKernel - 0 views

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    "The NetKernel Resource Oriented Computing (ROC) platform separates architecture from code. With ROC you can compose your architectural design independently from implementation code. By keeping the details of code separate from high-level information architecture you gain: freedom of choice in implementation language rapid click-fit compositional development long-term evolvable solutions Threading and scheduling is managed by the microkernel so your code execution is efficiently optimised with linear scaling on multi-core without the need to learn new languages. Something brand-new also comes from separating architecture and code. NetKernel provides system-wide caching of every area of your system. For free. No configuration. NetKernel learns what information is reusable and reuses it. This makes NetKernel systems fast. Very fast."
anonymous

Organize Projects - Google Web Toolkit - Google Code - 0 views

  • com.google.gwt.gears.Gears
    • anonymous
       
      Gears.gwt.xml does not define andy entry point. It can only be inherits
  • two ways to approach loading them
  • nclude each module with a separate <script> tag
  • ...118 more annotations...
  • Create a top level module XML definition
  • Compile the top level module
  • the second approach will lead to much better end-user performance
  • each module has to be downloaded separately by the end-user's browser
  • each module will contain redundant copies of GWT library
  • conflict with each other during event handling
  • Linkers are divided into three categories, PRE, POST, and PRIMARY
  • one primary linker is run for a compilation
  • everal linkers are provided by Core.gwt.xml, which is automatically inherited by User.gwt.xml.
  • monolithic JavaScript file.
  • cross-site deployment model.
  • standard iframe-based
  • <add-linker name="xs" />
  • The GWT compiler
  • packaging its output with the Linker subsystem
  • responsible for the final packaging of the JavaScript code
  • providing a pluggable bootstrap mechanism
  • re-use an existing Java API for a GWT project,
  • <super-source>
  • "re-root" a source path
  • to emulate part of the JRE not implemented by GWT
  • tells the compiler to add all subfolders of com/example/myproject/jre/
  • to the source path
  • com/google/myproject/gwt/jre/java/util/UUID.java
  • most commonly used elements in the module XML file.
  • <inherits name="
  • herits all the settings from the specified module
  • <entry-point class=
  • Entry points are all compiled into a single codebase
  • when the onModuleLoad() of your first entry point finishes, the next entry point is called immediately.
  • Any number of entry-point classes can be added
  • <source path="
  • resources get copied into the output directory during a GWT compile.
  • client subpackage is implicitly added to the source path
  • <public path="path" />
  • treated as a publicly-accessible resource.
  • resources get copied into the output directory
  • the public subpackage is implicitly added to the public
  • <servlet
  • For RPC, this element loads a servlet class
  • mounted at the specified URL path
  • path=
    • anonymous
       
      monting location
  • class="
    • anonymous
       
      Which servlet class
  • URL path should be absolute
  • @RemoteServiceRelativePath attribute
  • you must configure a WEB-INF/web.xml in your war directory to load any servlets needed.
  • n development mode,
  • <script src="
  • external JavaScrip
  • <stylesheet src="
  • Extends the set of values
  • for an existing client property
  • <replace-with-class>
  • <generate-with-class>
  • <when-property-is
  • three different types of predicates are
  • <when-type-assignable
  • <when-type-is
  • <all>
  • <any>
  • <none>
  • GWT libraries are organized into modules
  • you want to inherit at least the User module
  • contains all the core GWT functionality
  • including the EntryPoint class
  • widgets and panels
  • History feature
  • Internationalization
  • DOM programming, and more
  • Low-level HTTP
  • Use the following syntax to cause an external JavaScript file to be loaded
  • before your module entry point is called.
  • as if you had included it explicitly using the HTML <script
  • loaded before your onModuleLoad() is called.
  • all included scripts will be loaded when your application starts, in the order in which they are declared.
  • associate external CSS files with your module
  • GWT.getModuleBaseURL() + "foo.css" in client code
  • module's public path
  • useful when
  • inheritance makes resource inclusion particularly convenient.
  • If you wish to create a reusable library that relies upon particular stylesheets or JavaScript files, you can be sure that clients
  • see the documentation for FileSet for a general overview
  • <public>
  • <super-source>
  • <source>
  • includes
  • excludes
  • defaultexcludes
  • casesensitive
  • By default, the patterns listed here are excluded.
  • defaultexcludes is true
  • <script src='myApp/myApp.nocache.js'></script>
  • <script> tags always block evaluation of the page
  • <img> tags do not block page evaluation
  • two simultaneous connections
  • The body.onload() event will only fire once all external resources are fetched, including images and frames.
  • GWT selection script
  • like a normal script tag
  • but the compiled script will be fetched asynchronously.
  • Parsing is blocked until externalScriptZero.js is done fetching and evaluating.
  • myApp/myApp.nocache.js completes
  • the compiled scrip
  • (<hashname>.cache.html
  • begins fetching in a hidden IFRAME (this is non-blocking).
  • onModuleLoad() is not called yet, as we're still waiting on externalScriptOne.js
  • body.onload() fires
  • onload='alert("w00t!")
    • anonymous
       
      is the last line executed
  • put the GWT selection script as early as possible
  • because it won't block any other script requests
  • <img> tags are not guaranteed to be done loading when onModuleLoad() is called
  • <script> tags are guaranteed to be done loading when onModuleLoad() is called
  • multiple EntryPoints
  • will all be called in sequence as soon as that module (and the outer document) is ready
  • multiple GWT modules within the same page
  • each module's EntryPoint will be called as soon as both that module and the outer document is ready
  • EntryPoints are not guaranteed to fire at the same time
  • or in the same order
  • in which their selection scripts were specified in the host page
DJHell .

Portale und Portlets (4) || IT-Republik - JAXenter - Artikel - 0 views

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    In den letzten Teilen der Serie wurden bereits viele Neuerungen des JSR-286 vorgestellt und an konkreten Beispielen demonstriert. In diesem Teil wird der Schwerpunkt darauf gelegt, wie die entstandene Ausgabe gecached werden kann, um auch das Thema Performance nicht aus den Augen zu verlieren. Ein Überblick über die Annotation-Unterstützung des JSR-286 rundet die Einführung neuer Features ab.
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