|
||||||||||
| PREV PACKAGE NEXT PACKAGE | FRAMES NO FRAMES | |||||||||
See:
Description
| Interface Summary | |
| ErrorListener | To provide customized error handling, implement this interface and use the setErrorListener method to register an instance of the implmentation with the Transformer. |
| Result | An object that implements this interface contains the information needed to build a transformation result tree. |
| Source | An object that implements this interface contains the information needed to act as source input (XML source or transformation instructions). |
| SourceLocator | This interface is primarily for the purposes of reporting where an error occurred in the XML source or transformation instructions. |
| Templates | An object that implements this interface is the runtime representation of processed transformation instructions. |
| URIResolver | An object that implements this interface that can be called by the processor to turn a URI used in document(), xsl:import, or xsl:include into a Source object. |
| Class Summary | |
| OutputKeys | Provides string constants that can be used to set output properties for a Transformer, or to retrieve output properties from a Transformer or Templates object. |
| Transformer | An instace of this abstract class can transform a source tree into a result tree. |
| TransformerFactory | A TransformerFactory instance can be used to create Transformer and Template objects. |
| Exception Summary | |
| TransformerConfigurationException | Indicates a serious configuration error. |
| TransformerException | This class specifies an exceptional condition that occured during the transformation process. |
| Error Summary | |
| TransformerFactoryConfigurationError | Thrown when a problem with configuration with the Transformer Factories exists. |
This package defines the generic APIs for processing transformation instructions,
and performing a transformation from source to result. These
interfaces have no dependencies on SAX or the DOM standard, and try to make as
few assumptions as possible about the details of the source and result of a
transformation. The API achieves this by defining
Source and
Result interfaces.
To define concrete classes for the user, the API defines specializations of the interfaces found at the root level. These interfaces are found in javax.xml.transform.sax, javax.xml.transform.dom, and javax.xml.transform.stream.
The API allows a concrete
TransformerFactory object to be created from
the static function
TransformerFactory.newInstance(). The
"javax.xml.transform.TransformerFactory" system property determines which
factory implementation to instantiate. This property names a concrete subclass
of the TransformerFactory abstract class. If this system property is not
defined, a platform default is used.
This API defines two interface objects called
Source and
Result. In order to pass Source and Result
objects to the interfaces, concrete classes must be used. The transformation API defines
three concrete representations for each of these objects:
StreamSource and
StreamResult,
SAXSource and
SAXResult, and
DOMSource and
DOMResult. Each of these objects defines
a FEATURE string (which is i the form of a URL), which can be passed into
TransformerFactory.getFeature(java.lang.String) to see if the
given type of Source or Result object is supported. For instance, to test if a
DOMSource and a StreamResult is supported, you can apply the following
test.
TransformerFactory tfactory = TransformerFactory.newInstance();
if (tfactory.getFeature(DOMSource.FEATURE) && tfactory.getFeature(StreamResult.FEATURE))
{
...
}
Namespaces present something of a problem area when dealing with XML objects. Qualified Names appear in XML markup as prefixed names. But the prefixes themselves do not hold identity. Rather, it is the URIs that they contextually map to that hold the identity. Therefore, when passing a Qualified Name like "xyz:foo" among Java programs, one must provide a means to map "xyz" to a namespace.
One solution has been to create a "QName" object that holds the namespace URI, as well as the prefix and local name, but this is not always an optimal solution, as when, for example, you want to use unique strings as keys in a dictionary object. Not having a string representation also makes it difficult to specify a namespaced identity outside the context of an XML document.
In order to pass namespaced values to transformations, for instance as a set of properties to the Serializer, this specification defines that a String "qname" object parameter be passed as two-part string, the namespace URI enclosed in curly braces ({}), followed by the local name. If the qname has a null URI, then the String object only contains the local name. An application can safely check for a non-null URI by testing to see if the first character of the name is a '{' character.
For example, if a URI and local name were obtained from an element defined with <xyz:foo xmlns:xyz="http://xyz.foo.com/yada/baz.html"/>, then the transformation API Qualified Name would be "{http://xyz.foo.com/yada/baz.html}foo". Note that the prefix is lost.
Serialization of the result tree to a stream can be controlled with
the Transformer.setOutputProperties(java.util.Properties) and the
Transformer.setOutputProperty(java.lang.String, java.lang.String) methods.
Strings that match the XSLT
specification for xsl:output attributes can be referenced from the
OutputKeys class. Other strings can be
specified as well. If the transformer does not recognize an output key, a
IllegalArgumentException is thrown, unless the
unless the key name is namespace qualified. Output key names that are
qualified by a namespace are ignored or passed on to the serializer
mechanism.
If all that is desired is the simple identity transformation of a
source to a result, then TransformerFactory
provides a
TransformerFactory.newTransformer() method
with no arguments. This method creates a Transformer that effectively copies
the source to the result. This method may be used to create a DOM from SAX
events or to create an XML or HTML stream from a DOM or SAX events.
The transformation API throws three types of specialized exceptions. A
TransformerFactoryConfigurationError is parallel to
the FactoryConfigurationError, and is thrown
when a configuration problem with the TransformerFactory exists. This error
will typically be thrown when the transformation factory class specified with
the "javax.xml.transform.TransformerFactory" system property cannot be found or
instantiated.
A TransformerConfigurationException
may be thrown if for any reason a Transformer can not be created. A
TransformerConfigurationException may be thrown if there is a syntax error in
the transformation instructions, for example when
TransformerFactory.newTransformer(javax.xml.transform.Source) is
called.
TransformerException is a general
exception that occurs during the course of a transformation. A transformer
exception may wrap another exception, and if any of the
TransformerException.printStackTrace()
methods are called on it, it will produce a list of stack dumps, starting from
the most recent. The transformer exception also provides a
SourceLocator object which indicates where
in the source tree or transformation instructions the error occurred.
TransformerException.getMessageAndLocation()
may be called to get an error message with location info, and
TransformerException.getLocationAsString()
may be called to get just the location string.
Transformation warnings and errors are normally first sent to a
ErrorListener, at which point the
implementor may decide to report the error or warning, and may decide to throw
an exception for a non-fatal error. The error listener may be set via
TransformerFactory.setErrorListener(javax.xml.transform.ErrorListener) for
reporting errors that have to do with syntax errors in the transformation
instructions, or via
Transformer.setErrorListener(javax.xml.transform.ErrorListener) to report
errors that occur during the transformation. The error listener on both objects
should always be valid and non-null, whether set by the user or a default
implementation provided by the processor.
The API provides a way for URIs referenced from within the stylesheet
instructions or within the transformation to be resolved by the calling
application. This can be done by creating a class that implements the
URIResolver interface, with its one method,
URIResolver.resolve(java.lang.String, java.lang.String), and use this class to
set the URI resolution for the transformation instructions or transformation
with TransformerFactory.setURIResolver(javax.xml.transform.URIResolver) or
Transformer.setURIResolver(javax.xml.transform.URIResolver). The
URIResolver.resolve method takes two String arguments, the URI found in the
stylesheet instructions or built as part of the transformation process, and the
base URI in effect when the URI passed as the first argument was encountered.
The returned Source object must be usable by
the transformer, as specified in its implemented features.
|
||||||||||
| PREV PACKAGE NEXT PACKAGE | FRAMES NO FRAMES | |||||||||