Examples of org.apache.axis2.jaxws.message.factory.JAXBBlockFactory

Package org.apache.axis2.jaxws.message.factory

Examples of org.apache.axis2.jaxws.message.factory.JAXBBlockFactory

org.apache.axis2.jaxws.message.factory.JAXBBlockFactory
JAXBBlockFactory
Creates a JAXBBlock. The business object of a JAXBBlock must be either a JAXBElement or a generated object with the XMLRootElement annotation
* The FactoryRegistry should be used to get access to the Factory @see org.apache.axis2.jaxws.registry.FactoryRegistry

     * normal Dispatch<JAXB> input flow
     * @throws Exception
     */
    public void testJAXBInflow3() throws Exception {
        // Get the BlockFactory
        JAXBBlockFactory f = (JAXBBlockFactory)
        FactoryRegistry.getFactory(JAXBBlockFactory.class);


        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());


        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(context.getJAXBContext());
        QName expectedQName = jbi.getElementName(jaxb);


        // On inbound, there will already be a XMLStreamReader (probably from OM)
        // which represents the message.  We will simulate this with inflow.
        StringWriter sw = new StringWriter();
        XMLStreamWriter writer = outputFactory.createXMLStreamWriter(sw);
        Marshaller marshaller = JAXBUtils.getJAXBMarshaller(context.getJAXBContext());
        marshaller.marshal(jaxb, writer);
        JAXBUtils.releaseJAXBMarshaller(context.getJAXBContext(), marshaller);
        writer.flush();
        sw.flush();
        StringReader sr = new StringReader(sw.toString());
        XMLStreamReader inflow = inputFactory.createXMLStreamReader(sr);


        // Create a Block from the inflow.  
        Block block = f.createFrom(inflow, context, expectedQName);


        // We passed in a qname, so the following should return true
        assertTrue(block.isQNameAvailable());


        // Assume that we need to find the QName (perhaps to identify the operation and

View Full Code Here

     * normal Dispatch<JAXB> input flow
     * @throws Exception
     */
    public void testJAXBInflow4() throws Exception {
        // Get the BlockFactory
        JAXBBlockFactory f = (JAXBBlockFactory)
        FactoryRegistry.getFactory(JAXBBlockFactory.class);


        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());
        JAXBContext jaxbContext = context.getJAXBContext();


        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(jaxbContext);
        QName expectedQName = jbi.getElementName(jaxb);


        // On inbound, there will already be a probably be an OM
        // which represents the message.  In this scenario, the OM contains
        // a OMSourcedElement that is backed by EchoString.
        OMFactory omFactory = OMAbstractFactory.getOMFactory();
        JAXBDSContext dsContext = new JAXBDSContext(jaxbContext);
        JAXBDataSource ds = new JAXBDataSource(jaxb, dsContext);
        OMNamespace ns = omFactory.createOMNamespace(expectedQName.getNamespaceURI(), null);
        OMElement om = omFactory.createOMElement(ds, expectedQName.getLocalPart(), ns);
        


        // Create a Block from the inflow.  
        Block block = f.createFrom(om, context, expectedQName);


        // We passed in a qname, so the following should return true
        assertTrue(block.isQNameAvailable());


        // Assume that we need to find the QName (perhaps to identify the operation and

View Full Code Here

        MessageFactory mf = (MessageFactory)
            FactoryRegistry.getFactory(MessageFactory.class);
        Message m = mf.create(Protocol.soap11);
        
        // Get the BlockFactory
        JAXBBlockFactory bf = (JAXBBlockFactory)
            FactoryRegistry.getFactory(JAXBBlockFactory.class);
        
        // Create the JAX-B object
        ObjectFactory of = new ObjectFactory();
        EchoStringResponse obj = of.createEchoStringResponse();
        obj.setEchoStringReturn("sample return value");
        
        // Create the JAXBContext
        JAXBBlockContext context = new JAXBBlockContext(EchoStringResponse.class.getPackage().getName());
        
        // Create a JAXBBlock using the Echo object as the content.  This simulates
        // what occurs on the outbound JAX-WS Dispatch<Object> client
        Block block = bf.createFrom(obj, context, null);
        
        // Add the block to the message as normal body content.
        m.setBodyBlock(block);
        
        // Check to see if the message is a fault.  The client/server will always call this method.

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        MessageFactory mf = (MessageFactory)
            FactoryRegistry.getFactory(MessageFactory.class);
        Message m = mf.create(Protocol.soap11);
        
        // Get the BlockFactory
        JAXBBlockFactory bf = (JAXBBlockFactory)
            FactoryRegistry.getFactory(JAXBBlockFactory.class);
        
        // Create the JAX-B object
        ObjectFactory of = new ObjectFactory();
        EchoStringResponse obj = of.createEchoStringResponse();
        obj.setEchoStringReturn("sample return value");
        
        // Create the JAXBContext
        JAXBBlockContext context = new JAXBBlockContext(EchoStringResponse.class.getPackage().getName());
       
        // Create a JAXBBlock using the Echo object as the content.  This simulates
        // what occurs on the outbound JAX-WS Dispatch<Object> client
        Block block = bf.createFrom(obj, context, null);
        
        // Add the block to the message as normal body content.
        m.setBodyBlock(block);
        
        // Check to see if the message is a fault.  The client/server will always call this method.

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            // Simulate saving the message so that it can be fully rebuilt.
            saveMsgText = m.getAsOMElement().toString();
        }
        
        // Get the BlockFactory
        JAXBBlockFactory bf = (JAXBBlockFactory)
            FactoryRegistry.getFactory(JAXBBlockFactory.class);
        
        // Create the JAXBContext instance that will be used
        // to deserialize the JAX-B object content in the message.
        JAXBBlockContext context = new JAXBBlockContext(EchoStringResponse.class.getPackage().getName());

View Full Code Here

   * normal Dispatch<JAXB> flow
   * @throws Exception
   */
  public void testJAXBOutflow() throws Exception {
    // Get the BlockFactory
    JAXBBlockFactory f = (JAXBBlockFactory)
      FactoryRegistry.getFactory(JAXBBlockFactory.class);
    
        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());
       
        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(context.getJAXBContext());
        QName expectedQName = jbi.getElementName(jaxb);
        
    // Create a Block using the sample string as the content.  This simulates
    // what occurs on the outbound JAX-WS dispatch<JAXB> client
    Block block = f.createFrom(jaxb, context, null);
    
    // JAXB objects set the qname from their internal data
    assertTrue(block.isQNameAvailable());
    
    // Assume that we need to find the QName (perhaps to identify the operation and

View Full Code Here

   * slightly more complicated Dispatch<JAXB> flow
   * @throws Exception
   */
  public void testJAXBOutflow2() throws Exception {
    // Get the BlockFactory
    JAXBBlockFactory f = (JAXBBlockFactory)
      FactoryRegistry.getFactory(JAXBBlockFactory.class);
    
        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());
        
        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(context.getJAXBContext());
        QName expectedQName = jbi.getElementName(jaxb);
        
    // Create a Block using the sample string as the content.  This simulates
    // what occurs with an outbound JAX-WS JAXB parameter
    Block block = f.createFrom(jaxb, context, expectedQName);
    
    // We did pass in a qname, so the following should return false
    assertTrue(block.isQNameAvailable());
    
    // Assume that we need to find the QName (perhaps to identify the operation and

View Full Code Here

   * normal Dispatch<JAXB> input flow
   * @throws Exception
   */
  public void testJAXBInflow() throws Exception {
    // Get the BlockFactory
    JAXBBlockFactory f = (JAXBBlockFactory)
      FactoryRegistry.getFactory(JAXBBlockFactory.class);
    
        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());
    
    // On inbound, there will already be a XMLStreamReader (probably from OM)
    // which represents the message.  We will simulate this with inflow.
        StringWriter sw = new StringWriter();
        XMLStreamWriter writer = outputFactory.createXMLStreamWriter(sw);
        Marshaller marshaller = JAXBUtils.getJAXBMarshaller(context.getJAXBContext());
        marshaller.marshal(jaxb, writer);
        JAXBUtils.releaseJAXBMarshaller(context.getJAXBContext(), marshaller);
        writer.flush();
        sw.flush();
    StringReader sr = new StringReader(sw.toString());
    XMLStreamReader inflow = inputFactory.createXMLStreamReader(sr);
    
    // Create a Block from the inflow.  
    Block block = f.createFrom(inflow, context, null);
    
    // Assuming no handlers are installed, the next thing that will happen
    // is the proxy code will ask for the business object.
    Object bo = block.getBusinessObject(true);
    assertTrue(bo instanceof EchoString);

View Full Code Here

   * normal Dispatch<JAXB> input flow
   * @throws Exception
   */
  public void testJAXBInflow2() throws Exception {
    // Get the BlockFactory
    JAXBBlockFactory f = (JAXBBlockFactory)
      FactoryRegistry.getFactory(JAXBBlockFactory.class);
    
        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());


        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(context.getJAXBContext());
        QName expectedQName = jbi.getElementName(jaxb);
    
    // On inbound, there will already be a XMLStreamReader (probably from OM)
    // which represents the message.  We will simulate this with inflow.
        StringWriter sw = new StringWriter();
        XMLStreamWriter writer = outputFactory.createXMLStreamWriter(sw);
        Marshaller marshaller = JAXBUtils.getJAXBMarshaller(context.getJAXBContext());
        marshaller.marshal(jaxb, writer);
        JAXBUtils.releaseJAXBMarshaller(context.getJAXBContext(), marshaller);
        writer.flush();
        sw.flush();
    StringReader sr = new StringReader(sw.toString());
    XMLStreamReader inflow = inputFactory.createXMLStreamReader(sr);
    
    // Create a Block from the inflow.  
    Block block = f.createFrom(inflow, context, null);
        
    // Assume that we need to find the QName (perhaps to identify the operation and 
    // determine if handlers are installed).   This is not very perfomant since 
    // it causes an underlying parse of the String...but we need to support this.
    QName qName = block.getQName();

View Full Code Here

   * normal Dispatch<JAXB> input flow
   * @throws Exception
   */
  public void testJAXBInflow3() throws Exception {
    // Get the BlockFactory
    JAXBBlockFactory f = (JAXBBlockFactory)
      FactoryRegistry.getFactory(JAXBBlockFactory.class);
    
        // Create a jaxb object
        ObjectFactory factory = new ObjectFactory();
        EchoString jaxb = factory.createEchoString(); 
        jaxb.setInput("Hello World");
        JAXBBlockContext context = new JAXBBlockContext(EchoString.class.getPackage().getName());
        
        JAXBIntrospector jbi = JAXBUtils.getJAXBIntrospector(context.getJAXBContext());
        QName expectedQName = jbi.getElementName(jaxb);
    
    // On inbound, there will already be a XMLStreamReader (probably from OM)
    // which represents the message.  We will simulate this with inflow.
        StringWriter sw = new StringWriter();
        XMLStreamWriter writer = outputFactory.createXMLStreamWriter(sw);
        Marshaller marshaller = JAXBUtils.getJAXBMarshaller(context.getJAXBContext());
        marshaller.marshal(jaxb, writer);
        JAXBUtils.releaseJAXBMarshaller(context.getJAXBContext(), marshaller);
        writer.flush();
        sw.flush();
    StringReader sr = new StringReader(sw.toString());
    XMLStreamReader inflow = inputFactory.createXMLStreamReader(sr);
    
    // Create a Block from the inflow.  
    Block block = f.createFrom(inflow, context, expectedQName);
    
    // We passed in a qname, so the following should return false
    assertTrue(block.isQNameAvailable());
    
    // Assume that we need to find the QName (perhaps to identify the operation and

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