You can dynamically create a DDX document that can be used
to perform an Assembler operation. Dynamically creating a DDX document
enables you to use values in the DDX document that are obtained
during run-time. To dynamically create a DDX document, use classes
that belong to the programming language that you are using. For
example, if you are developing your client application using Java,
use classes that belong to the org.w3c.dom.* package.
Likewise, if you are using Microsoft .NET, use classes that belong
to the System.Xml namespace.
Before you can pass the DDX document to the Assembler service,
convert the XML from an org.w3c.dom.Document instance
to a com.adobe.idp.Document instance. If you are
using web services, convert the XML from the data type used to create
the XML(for example, XmlDocument) to a BLOB instance.
For this discussion, assume that the following DDX document is
dynamically created.
<?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>
This DDX document disassembles a PDF document. It is recommended
that you be familiar with disassembling PDF documents.
Summary of stepsTo disassemble a PDF document by using a dynamically created DDX
document, perform the following tasks:
Include project files.
Create a PDF Assembler client.
Create the DDX document.
Convert the DDX document.
Set run-time options.
Disassemble the PDF document.
Save the disassembled PDF documents.
Include project filesInclude the necessary files in your development
project. If you are creating a client application by using Java,
include the necessary JAR files. If you are using web services,
ensure that you include the proxy files.
The following JAR
files must be added to your project’s class path:
adobe-livecycle-client.jar
adobe-usermanager-client.jar
adobe-assembler-client.jar
adobe-utilities.jar (required if LiveCycle is deployed
on JBoss)
jbossall-client.jar (required if LiveCycle is deployed
on JBoss)
Create a PDF Assembler clientBefore you can programmatically
perform an Assembler operation, create an Assembler service client.
Create the DDX documentCreate a DDX document using the programming
language that you are using. To create a DDX document that disassembles
a PDF document, ensure that it contains the PDFsFromBookmarks element.
Convert the data type used to create the DDX document to a com.adobe.idp.Document instance
if you are using the Java API. If you are using web services, convert
the data type to a BLOB instance.
Convert the DDX documentA DDX document that is created by using org.w3c.dom classes
must be converted to a com.adobe.idp.Document object.
To perform this task when using the Java API, use Java XML transform
classes. If you are using web services, convert the DDX document
to a BLOB object.
Reference a PDF document to disassembleTo disassemble a PDF document,
reference a PDF file that represents the PDF document to disassemble.
When passed to the Assembler service, a separate PDF document is
returned for each level 1 bookmark in the document.
Set run-time optionsYou can set run-time options that control
the behavior of the Assembler service while it performs a job. For
example, you can set an option that instructs the Assembler service
to continue processing a job if an error is encountered. To set
run-time options, you use an AssemblerOptionSpec object.
Disassemble the PDF documentDisassemble the PDF document by invoking
the invokeDDX operation. Pass the DDX document
that was dynamically created. The Assembler service returns disassembled
PDF documents within a collection object.
Save the disassembled PDF documentsAll disassembled PDF documents
are returned within a collection object. Iterate through the collection
object and save each PDF document as a PDF file.
Dynamically create a DDX document using the Java APIDynamically create a DDX document and disassemble a PDF document
by using the Assembler Service API (Java):
Include project files.
Include client JAR files,
such as adobe-assembler-client.jar, in your Java project’s class
path.
Create a PDF Assembler client.
Create the DDX document.
Create a Java DocumentBuilderFactory object
by calling the DocumentBuilderFactory class’ newInstance method.
Create a Java DocumentBuilder object by
calling the DocumentBuilderFactory object’s newDocumentBuilder method.
Call the DocumentBuilder object’s newDocument method
to instantiate a org.w3c.dom.Document object.
Create the DDX document’s root element by invoking the org.w3c.dom.Document object’s createElement method.
This method creates an Element object that represents
the root element. Pass a string value representing the name of the
element to the createElement method. Cast the return
value to Element. Next, set a value for the child
element by calling its setAttribute method. Finally,
append the element to the header element by calling the header element’s appendChild method,
and pass the child element object as an argument. The following
lines of code show this application logic:
Element root = (Element)document.createElement("DDX");
root.setAttribute("xmlns","http://ns.adobe.com/DDX/1.0/");
document.appendChild(root);
Create the PDFsFromBookmarks element by
calling the Document object’s createElement method.
Pass a string value representing the name of the element to the createElement method.
Cast the return value to Element. Set a value for
the PDFsFromBookmarks element by calling its setAttribute method.
Append the PDFsFromBookmarks element to the DDX element
by calling the DDX element’s appendChild method.
Pass the PDFsFromBookmarks element object as an argument.
The following lines of code show this application logic:
Element PDFsFromBookmarks = (Element)document.createElement("PDFsFromBookmarks");
PDFsFromBookmarks.setAttribute("prefix","stmt");
root.appendChild(PDFsFromBookmarks);
Create a PDF element by calling the Document object’s createElement method.
Pass a string value that represents the element’s name. Cast the
return value to Element. Set a value for the PDF element
by calling its setAttribute method. Append the PDF element
to the PDFsFromBookmarks element by calling the PDFsFromBookmarks element’s appendChild method.
Pass the PDF element object as an argument. The
following lines of code shows this application logic:
Element PDF = (Element)document.createElement("PDF");
PDF.setAttribute("source","AssemblerResultPDF.pdf");
PDFsFromBookmarks.appendChild(PDF);
Convert the DDX document.
Create a javax.xml.transform.Transformer object by
invoking the javax.xml.transform.Transformer object’s static newInstance method.
Create a Transformer object by invoking the TransformerFactory object’s newTransformer method.
Create a ByteArrayOutputStream object by
using its constructor.
Create a javax.xml.transform.dom.DOMSource object
by using its constructor. Pass the org.w3c.dom.Document object
that represents the DDX document.
Create a javax.xml.transform.dom.DOMSource object
by using its constructor and passing the ByteArrayOutputStream object.
Populate the Java ByteArrayOutputStream object
by invoking the javax.xml.transform.Transformer object’s transform method.
Pass the javax.xml.transform.dom.DOMSource and the javax.xml.transform.stream.StreamResult objects.
Create a byte array and allocate the size of the ByteArrayOutputStream object
to the byte array.
Populate the byte array by invoking the ByteArrayOutputStream object’s toByteArray method.
Create a com.adobe.idp.Document object by
using its constructor and passing the byte array.
Reference a PDF document to disassemble.
Create
a java.util.Map object that is used to store input
PDF documents by using a HashMap constructor.
Create a java.io.FileInputStream object
by using its constructor and passing the location of the PDF document
to disassemble.
Create a com.adobe.idp.Document object.
Pass the java.io.FileInputStream object that contains
the PDF document to disassemble.
Add an entry to the java.util.Map object
by invoking its put method and passing the following
arguments:
A string value that represents the key
name. This value must match the value of the PDF source element
specified in the DDX document. (In the DDX document that is dynamically
created, the value is AssemblerResultPDF.pdf.)
A com.adobe.idp.Document object that contains
the PDF document to disassemble.
Set run-time options.
Create an AssemblerOptionSpec object
that stores run-time options by using its constructor.
Set run-time options to meet your business requirements by invoking
a method that belongs to the AssemblerOptionSpec object.
For example, to instruct the Assembler service to continue processing
a job when an error occurs, invoke the AssemblerOptionSpec object’s setFailOnError method
and pass false.
Disassemble the PDF document.
Invoke the AssemblerServiceClient object’s invokeDDX method
and pass the following values:
A com.adobe.idp.Document object
that represents the dynamically created DDX document
A java.util.Map object that contains the
PDF document to disassemble
A com.adobe.livecycle.assembler.client.AssemblerOptionSpec object
that specifies the run-time options, including the default font
and the job log level
The invokeDDX method
returns a com.adobe.livecycle.assembler.client.AssemblerResult object
that contains the disassembled PDF documents and any exceptions
that occurred.
Save the disassembled PDF documents.
To obtain the
disassembled PDF documents, perform the following actions:
Invoke the AssemblerResult object’s getDocuments method.
This method returns a java.util.Map object.
Iterate through the java.util.Map object
until you find the resultant com.adobe.idp.Document object.
Invoke the com.adobe.idp.Document object’s copyToFile method
to extract the PDF document.
Dynamically create a DDX document using the web service APIDynamically create a DDX document and disassemble a PDF document
by using the Assembler Service API (web service):
Include project files.
Create a Microsoft .NET
project that uses MTOM. Ensure that you use the following WSDL definition
when setting a service reference: http://localhost:8080/soap/services/AssemblerService?WSDL&lc_version=9.0.1.
Note: Replace localhost with the IP
address of the server hosting LiveCycle.
Create a PDF Assembler client.
Create an AssemblerServiceClient object
by using its default constructor.
Create an AssemblerServiceClient.Endpoint.Address object
by using the System.ServiceModel.EndpointAddress constructor.
Pass a string value that specifies the WSDL to the LiveCycle service (for example, http://localhost:8080/soap/services/AssemblerService?blob=mtom).
You do not need to use the lc_version attribute.
This attribute is used when you create a service reference.
Create a System.ServiceModel.BasicHttpBinding object
by getting the value of the AssemblerServiceClient.Endpoint.Binding field.
Cast the return value to BasicHttpBinding.
Set the System.ServiceModel.BasicHttpBinding object’s MessageEncoding field
to WSMessageEncoding.Mtom. This value ensures that
MTOM is used.
Enable basic HTTP authentication by performing the following tasks:
Assign the LiveCycle user name to the field AssemblerServiceClient.ClientCredentials.UserName.UserName.
Assign the corresponding password value to the field AssemblerServiceClient.ClientCredentials.UserName.Password.
Assign the constant value HttpClientCredentialType.Basic to
the field BasicHttpBindingSecurity.Transport.ClientCredentialType.
Assign the constant value BasicHttpSecurityMode.TransportCredentialOnly to
the field BasicHttpBindingSecurity.Security.Mode.
Create the DDX document.
Create a System.Xml.XmlElement object
by using its constructor.
Create the DDX document’s root element by invoking the XmlElement object’s CreateElement method.
This method creates an Element object that represents
the root element. Pass a string value representing the name of the
element to the CreateElement method. Set a value
for the DDX element by calling its SetAttribute method. Finally,
append the element to the DDX document by calling the XmlElement object’s AppendChild method.
Pass the DDX object as an argument. The following lines of code
show this application logic:
System.Xml.XmlElement root = ddx.CreateElement("DDX");
root.SetAttribute("xmlns", "http://ns.adobe.com/DDX/1.0/");
ddx.AppendChild(root);
Create the DDX document’s PDFsFromBookmarks element
by calling the XmlElement object’s CreateElement method.
Pass a string value representing the name of the element to the CreateElement method.
Next, set a value for the element by calling its SetAttribute method. Append
the PDFsFromBookmarks element to the root element
by calling the DDX element’s AppendChild method.
Pass the PDFsFromBookmarks element object as an argument.
The following lines of code show this application logic:
XmlElement PDFsFromBookmarks = ddx.CreateElement("PDFsFromBookmarks");
PDFsFromBookmarks.SetAttribute("prefix", "stmt");
root.AppendChild(PDFsFromBookmarks);
Create the DDX document’s PDF element by calling
the XmlElement object’s CreateElement method.
Pass a string value representing the name of the element to the CreateElement method.
Next, set a value for the child element by calling its SetAttribute method. Append
the PDF element to the PDFsFromBookmarks element
by calling the PDFsFromBookmarks element’s AppendChild method.
Pass the PDF element object as an argument. The
following lines of code shows this application logic:
XmlElement PDF = ddx.CreateElement("PDF");
PDF.SetAttribute("source", "AssemblerResultPDF.pdf");
PDFsFromBookmarks.AppendChild(PDF);
Convert the DDX document.
Create a System.IO.MemoryStream object
by using its constructor.
Populate the MemoryStream object with the
DDX document by using the XmlElement object that
represents the DDX document. Invoke the XmlElement object’s Save method
and pass the MemoryStream object.
Create a byte array and populate it with data located in
the MemoryStream object. The following code shows this
application logic:
int bufLen = Convert.ToInt32(stream.Length);
byte[] byteArray = new byte[bufLen];
stream.Position = 0;
int count = stream.Read(byteArray, 0, bufLen);
Create a BLOB object. Assign the byte array to
the BLOB object’s MTOM field.
Reference a PDF document to disassemble.
Create
a BLOB object by using its constructor. The BLOB object
is used to store the input PDF document. This BLOB object
is passed to the invokeOneDocument as an argument.
Create a System.IO.FileStream object by
invoking its constructor. Pass a string value that represents the
file location of the input PDF document and the mode in which to
open the file.
Create a byte array that stores the content of the System.IO.FileStream object.
You can determine the size of the byte array by getting the System.IO.FileStream object’s Length property.
Populate the byte array with stream data by invoking the System.IO.FileStream object’s Read method
and passing the byte array, the starting position, and the stream
length to read.
Populate the BLOB object by assigning its MTOM property
the contents of the byte array.
Set run-time options.
Create an AssemblerOptionSpec object
that stores run-time options by using its constructor.
Set run-time options to meet your business requirements by assigning
a value to a data member that belongs to the AssemblerOptionSpec object.
For example, to instruct the Assembler service to continue processing
a job when an error occurs, assign false to the AssemblerOptionSpec object’s failOnError data
member.
Disassemble the PDF document.
Invoke the AssemblerServiceClient object’s invokeDDX method
and pass the following values:
A BLOB object
that represents the dynamically created DDX document
The mapItem array that contains the input PDF
document
An AssemblerOptionSpec object that specifies
run-time options
The invokeDDX method
returns an AssemblerResult object that contains
the results of the job and any exceptions that occurred.
Save the disassembled PDF documents.
To obtain the
newly created PDF documents, perform the following actions:
Access the AssemblerResult object’s documents field,
which is a Map object that contains the disassembled
PDF documents.
Iterate through the Map object to obtain each
resultant document. Then, cast that array member’s value to
a BLOB.
Extract the binary data that represents the PDF document
by accessing its BLOB object’s MTOM property.
This returns an array of bytes that you can write out to a PDF file.
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