The following Java code example dynamally creates a DDX
document that disassembles a PDF document. A new PDF document is
created for each level 1 bookmark in the input PDF document. This
code example contains two user-defined methods:
createDDX: Creates an org.w3c.dom.Document object
that represents the DDX document that is sent to the Assembler service.
This user-defined method returns the org.w3c.dom.Document object.
convertDDX: Converts an org.w3c.dom.Document object
to a com.adobe.idp.Document object. This method
accepts an org.w3c.dom.Document object as an input
parameter and returns a com.adobe.idp.Document object.
Both
of these methods are invoked in this quick start. (See Dynamically Creating DDX Documents.)
/*
* This Java Quick Start uses the EJB mode and contains the following JAR files
* in the class path:
* 1. adobe-assembler-client.jar
* 2. adobe-livecycle-client.jar
* 3. adobe-usermanager-client.jar
* 4. adobe-utilities.jar
* 5. jbossall-client.jar (use a different JAR file if the LiveCycle Server is not deployed
* on JBoss)
* 6. jacorb.jar (use a different JAR file if the LiveCycle Server is not deployed on JBoss)
* 7. jnp-client.jar (use a different JAR file if the LiveCycle Server is not deployed on JBoss)
*
* The JBoss files must be kept in the jboss\client folder. You can copy the client folder to
* your local development environment and then include the 3 JBoss JAR files in your class path
*
* These JAR files are located in the following path:
* <install directory>/sdk/client-libs/common
*
* The adobe-utilities.jar file is located in the following path:
* <install directory>/sdk/client-libs/jboss
*
* The jbossall-client.jar file is located in the following path:
* <install directory>/jboss/client
*
* If you want to invoke a remote LiveCycle Server instance and there is a
* firewall between the client application and the server, then it is
* recommended that you use the SOAP mode. When using the SOAP mode,
* you have to include additional JAR files located in the following
* path
* <install directory>/sdk/client-libs/thirdparty
*
* For information about the SOAP
* mode and the additional JAR files that need to be included,
* see "Setting connection properties" in Programming
* with LiveCycle
*
* For complete details about the location of the LiveCycle JAR files,
* see "Including LiveCycle Java library files" in Programming
* with LiveCycle
*
* This quick start dynamically creates the following DDX document:
* <?xml version="1.0" encoding="UTF-8"?>
* <DDX xmlns="http://ns.adobe.com/DDX/1.0/">
* <PDFsFromBookmarks prefix="stmt">
* <PDF source="AssemblerResultPDF.pdf"/>
*</PDFsFromBookmarks>
* </DDX>
*/
import com.adobe.livecycle.assembler.client.*;
import java.util.*;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileInputStream;
import javax.xml.parsers.DocumentBuilder;
import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.stream.StreamResult;
import org.w3c.dom.Element;
import com.adobe.idp.Document;
import com.adobe.idp.dsc.clientsdk.ServiceClientFactory;
import com.adobe.idp.dsc.clientsdk.ServiceClientFactoryProperties;
public class AssemblePDFWithDynamicDDX
{
public static void main(String[] args) {
try{
//Set connection properties required to invoke LiveCycle
Properties connectionProps = new Properties();
connectionProps.setProperty(ServiceClientFactoryProperties.DSC_DEFAULT_EJB_ENDPOINT, "jnp://hiro-xp:1099");
connectionProps.setProperty(ServiceClientFactoryProperties.DSC_TRANSPORT_PROTOCOL,ServiceClientFactoryProperties.DSC_EJB_PROTOCOL);
connectionProps.setProperty(ServiceClientFactoryProperties.DSC_SERVER_TYPE, "JBoss");
connectionProps.setProperty(ServiceClientFactoryProperties.DSC_CREDENTIAL_USERNAME, "administrator");
connectionProps.setProperty(ServiceClientFactoryProperties.DSC_CREDENTIAL_PASSWORD, "password");
//Create a ServiceClientFactory instance
ServiceClientFactory myFactory = ServiceClientFactory.createInstance(connectionProps);
//Create an AssemblerServiceClient object
AssemblerServiceClient assemblerClient = new AssemblerServiceClient(myFactory);
//Dynamically create a DDX document
org.w3c.dom.Document myDDX= createDDX() ;
//Covert the DDX document to a com.adobe.idp.Document instance
com.adobe.idp.Document ddx = convertDDX(myDDX);
//Create a Map object to store PDF source documents
Map inputs = new HashMap();
FileInputStream mySourceMap = new FileInputStream("C:\\AssemblerResultPDF.pdf");
//Create a Document object based on the map.pdf source file
Document myPDFSource = new Document(mySourceMap);
//Place the entry into the Map object
inputs.put("AssemblerResultPDF.pdf",myPDFSource);
//Create an AssemblerOptionsSpec object
AssemblerOptionSpec assemblerSpec = new AssemblerOptionSpec();
assemblerSpec.setFailOnError(false);
//Submit the job to Assembler service and use the dynamically created DDX document
AssemblerResult jobResult = assemblerClient.invokeDDX(ddx,inputs,assemblerSpec);
java.util.Map allDocs = jobResult.getDocuments();
//Retrieve the result PDF document from the Map object
Document outDoc = null;
int index = 1;
//Iterate through the map object to retrieve the result PDF documents
for (Iterator i = allDocs.entrySet().iterator(); i.hasNext();) {
// Retrieve the Map object?s value
Map.Entry e = (Map.Entry)i.next();
Object o = e.getValue();
//Cast the Object to a Document
//and save to a file
outDoc = (Document)o;
File myOutFile = new File("C:\\ResultPDF"+index +".pdf");
outDoc.copyToFile(myOutFile);
index++;
}
}catch (Exception e) {
e.printStackTrace();
}
}
//Creates a DDX document using an org.w3c.dom.Document object
private static org.w3c.dom.Document createDDX()
{
org.w3c.dom.Document document = null;
try
{
//Create DocumentBuilderFactory and DocumentBuilder objects
DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance();
DocumentBuilder builder = factory.newDocumentBuilder();
//Create a new Document object
document = builder.newDocument();
//Create the root element and append it to the XML DOM
Element root = (Element)document.createElement("DDX");
root.setAttribute("xmlns","http://ns.adobe.com/DDX/1.0/");
document.appendChild(root);
//Create the PDFsFromBookmarks element
Element PDFsFromBookmarks = (Element)document.createElement("PDFsFromBookmarks");
PDFsFromBookmarks.setAttribute("prefix","stmt");
root.appendChild(PDFsFromBookmarks);
//Create the PDF element
Element PDF = (Element)document.createElement("PDF");
PDF.setAttribute("source","AssemblerResultPDF.pdf");
PDFsFromBookmarks.appendChild(PDF);
}
catch (Exception e) {
System.out.println("The following exception occurred: "+e.getMessage());
}
return document;
}
//Converts an org.w3c.dom.Document object to a
//com.adobe.idp.Document object
private static Document convertDDX(org.w3c.dom.Document myDOM)
{
byte[] mybytes = null;
try
{
//Create a Java Transformer object
TransformerFactory transFact = TransformerFactory.newInstance();
Transformer transForm = transFact.newTransformer();
//Create a Java ByteArrayOutputStream object
ByteArrayOutputStream myOutStream = new ByteArrayOutputStream();
//Create a Java Source object
javax.xml.transform.dom.DOMSource myInput = new DOMSource(myDOM);
//Create a Java Result object
javax.xml.transform.stream.StreamResult myOutput = new StreamResult(myOutStream);
//Populate the Java ByteArrayOutputStream object
transForm.transform(myInput,myOutput);
// Get the size of the ByteArrayOutputStream buffer
int myByteSize = myOutStream.size();
//Allocate myByteSize to the byte array
mybytes = new byte[myByteSize];
//Copy the content to the byte array
mybytes = myOutStream.toByteArray();
}
catch (Exception e) {
System.out.println("The following exception occurred: "+e.getMessage());
}
//Create a com.adobe.idp.Document object and copy the
//contents of the byte array
Document myDocument = new Document(mybytes);
return myDocument;
}
}
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