|
Oracle® XML Developer's Kit Programmer's Guide
10g Release 2 (10.1.2) Part No. B14033-01 |
|
 Previous |
 Next |
|
Oracle® XML Developer's Kit Programmer's Guide
10g Release 2 (10.1.2) Part No. B14033-01 |
|
|
Previous |
Next |
This chapter contains these topics:
The XML C++ Class Generator is provided with the database and is also available for download from the OTN site http://www.oracle.com/technology/tech/xml.
The XML C++ Class Generator creates source files from an XML DTD or XML Schema. The Class Generator takes the Document Type Definition (DTD) or the XML Schema, and generates classes for each defined element. Those classes are then used in a C++ program to construct XML documents conforming to the DTD.
This is useful when an application wants to send an XML message to another application based on an agreed-upon DTD or XML Schema, or as the back end of a Web form to construct an XML document. Using these classes, C++ applications can construct, validate, and print XML documents that comply with the input.
The Class Generator works in conjunction with the Oracle XML Parser for C++, which parses the input and passes the parsed document to the class generator.
The standalone class generator can be called as an executable by invoking bin/xmlcg.
The C++ command line class generator, bin/xmlcg is invoked in the following way:
xmlcg [options] input_file
where the options are described in Table 23-1:
Table 23-1 Class Generator Options
| Option | Meaning |
|---|---|
-d name
|
Input is an external DTD or a DTD file. Generates name.cpp and name.h.
|
-o directory
|
Output directory for generated files (the default is the current directory). |
-e encoding
|
Default input file encoding. |
-h
|
Show this usage help. |
| -v | Show the class generator version validator options. |
| -s name | Input is an XML Schema file with the given name. Generates name.cpp and name.h.
|
input_file name is the name of the parsed XML document with <!DOCTYPE> definitions, or parsed DTD, or an XML Schema document. The XML document must have an associated DTD.
The DTD input to the XML C++ Class Generator is an XML document containing a DTD, or an external DTD. The document body itself is ignored; only the DTD is relevant, though the document must conform to the DTD.
If invalid options, or no input is provided, a usage message with the above information is output.
Two source files are output, a name.h header file and a C++ file, name.cpp. These are named after the DTD file.
The output files are typically used to generate XML documents.
Constructors are provided for each class (element) that allow an object to be created in the following two ways:
Initially empty, then adding the children or data after the initial creation
Created with the initial full set of children or initial data
A method is provided for #PCDATA (and Mixed) elements to set the data and, when appropriate, set an element's attributes.
Table 23-2 lists the demo XML C++ Class Generator files:
Table 23-2 XML C++ Class Generator Files
| File Name | Description |
|---|---|
CG.cpp
|
Sample program |
CG.xml
|
XML file contains DTD and dummy document |
CG.dtd
|
DTD file referenced by CG.xml |
Make.bat on Windows NT
|
Batch file (on Windows) or Make file (on UNIX) to generate classes and build the sample programs. |
| README | A readme file with these instructions |
The make.bat batch file (on Windows NT) or Makefile (on UNIX) do the following:
Generate classes based on CG.xml into Sample.h and Sample.cpp
Compile the program CG.cpp (using Sample.h), and link this with the Sample object into an executable named CG.exe in the...\bin (or .../bin) directory.
This XML file, CG.xml, inputs XML C++ Class Generator. It references the DTD file, CG.dtd.
<?xml version="1.0"?>
<!DOCTYPE Sample SYSTEM "CG.dtd">
<Sample>
<B>Be!</B>
<D attr="value"></D>
<E>
<F>Formula1</F>
<F>Formula2</F>
</E>
</Sample>
This DTD file, CG.dtd is referenced by the XML file CG.xml. CG.xml inputs XML C++ Class Generator.
<!ELEMENT Sample (A | (B, (C | (D, E))) | F)> <!ELEMENT A (#PCDATA)> <!ELEMENT B (#PCDATA | F)*> <!ELEMENT C (#PCDATA)> <!ELEMENT D (#PCDATA)> <!ATTLIST D attr CDATA #REQUIRED> <!ELEMENT E (F, F)> <!ELEMENT F (#PCDATA)>
The CG sample program, CG.cpp, does the following:
Initializes the XML parser.
Loads the DTD (by parsing the DTD-containing file-- the dummy document part is ignored).
Creates some objects using the generated classes.
Invokes the validation function which verifies that the constructed classes match the DTD.
Writes the constructed document to Sample.xml.
//////////////////////////////////////////////////////////////////////////////
// NAME CG.cpp
// DESCRIPTION Demonstration program for C++ Class Generator usage
//////////////////////////////////////////////////////////////////////////////
#ifndef ORAXMLDOM_ORACLE
# include <oraxmldom.h>
#endif
#include <fstream.h>
#include "Sample.h"
#define DTD_DOCUMENT "CG.xml"
#define OUT_DOCUMENT Sample.xml"
int main()
{
XMLParser parser;
Document *doc;
Sample *samp;
B *b;
D *d;
E *e;
F *f1, *f2;
fstream *out;
ub4 flags = XML_FLAG_VALIDATE;
uword ecode;
// Initialize XML parser
cout << "Initializing XML parser...\n";
if (ecode = parser.xmlinit())
{
cout << "Failed to initialize parser, code " << ecode << "\n";
return 1;
}
// Parse the document containing a DTD; parsing just a DTD is not
// possible yet, so the file must contain a valid document (which
// is parsed but we're ignoring).
cout << "Loading DTD from " << DTD_DOCUMENT << "...\n";
if (ecode = parser.xmlparse((oratext *) DTD_DOCUMENT, (oratext *)0, flags))
{
cout << "Failed to parse DTD document " << DTD_DOCUMENT <<
", code " << ecode << "\n";
return 2;
}
// Fetch dummy document
cout << "Fetching dummy document...\n";
doc = parser.getDocument();
// Create the constituent parts of a Sample
cout << "Creating components...\n";
b = new B(doc, (String) "Be there or be square");
d = new D(doc, (String) "Dit dah");
d->setattr((String) "attribute value");
f1 = new F(doc, (String) "Formula1");
f2 = new F(doc, (String) "Formula2");
e = new E(doc, f1, f2);
// Create the Sample
cout << "Creating top-level element...\n";
samp = new Sample(doc, b, d, e);
// Validate the construct
cout << "Validating...\n";
if (ecode = parser.validate(samp))
{
cout << "Validation failed, code " << ecode << "\n";
return 3;
}
// Write out doc
cout << "Writing document to " << OUT_DOCUMENT << "\n";
if (!(out = new fstream(OUT_DOCUMENT, ios::out)))
{
cout << "Failed to open output stream\n";
return 4;
}
samp->print(out, 0);
out->close();
// Everything's OK
cout << "Success.\n";
// Shut down
parser.xmlterm();
return 0;
}
// end of CG.cpp
