org.codehaus.stax2.ri.Stax2WriterAdapter Maven / Gradle / Ivy
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Stax2 API is an extension to basic Stax 1.0 API that adds significant new functionality, such as full-featured bi-direction validation interface and high-performance Typed Access API.
/* Stax2 API extension for Streaming Api for Xml processing (StAX).
*
* Copyright (c) 2006- Tatu Saloranta, [email protected]
*
* Licensed under the License specified in file LICENSE, included with
* the source code.
* You may not use this file except in compliance with the License.
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.codehaus.stax2.ri;
import java.math.BigDecimal;
import java.math.BigInteger;
import javax.xml.namespace.NamespaceContext;
import javax.xml.namespace.QName;
import javax.xml.stream.*;
import org.codehaus.stax2.*;
import org.codehaus.stax2.ri.typed.SimpleValueEncoder;
import org.codehaus.stax2.typed.Base64Variant;
import org.codehaus.stax2.typed.Base64Variants;
// Not from Stax 1.0, but Stax2 does provide it:
import org.codehaus.stax2.util.StreamWriterDelegate;
import org.codehaus.stax2.validation.ValidationProblemHandler;
import org.codehaus.stax2.validation.XMLValidationSchema;
import org.codehaus.stax2.validation.XMLValidator;
/**
* This adapter implements parts of {@link XMLStreamWriter2}, the
* extended stream writer defined by Stax2 extension, by wrapping
* a vanilla Stax 1.0 {@link XMLStreamReader} implementation.
*
* Note: the implementation is incomplete as-is, since not all
* features needed are accessible via basic Stax 1.0 interface.
* As such, two main use cases for this wrapper are:
*
* - Serve as convenient base class for a complete implementation,
* which can use native accessors provided by the wrapped Stax
* implementation
*
* - To be used for tasks that make limited use of Stax2 API, such
* that missing parts are not needed
*
*
*/
public class Stax2WriterAdapter
extends StreamWriterDelegate
implements XMLStreamWriter2 /* From Stax2 */
,XMLStreamConstants
{
/**
* Encoding we have determined to be used, according to method
* calls (write start document etc.)
*/
protected String mEncoding;
protected SimpleValueEncoder mValueEncoder;
protected final boolean mNsRepairing;
/*
////////////////////////////////////////////////////
// Life-cycle methods
////////////////////////////////////////////////////
*/
protected Stax2WriterAdapter(XMLStreamWriter sw)
{
super(sw);
mDelegate = sw;
Object value = sw.getProperty(XMLOutputFactory.IS_REPAIRING_NAMESPACES);
mNsRepairing = (value instanceof Boolean) && ((Boolean) value).booleanValue();
}
/**
* Method that should be used to add dynamic support for
* {@link XMLStreamWriter2}. Method will check whether the
* stream reader passed happens to be a {@link XMLStreamWriter2};
* and if it is, return it properly cast. If not, it will create
* necessary wrapper to support features needed by StaxMate,
* using vanilla Stax 1.0 interface.
*/
public static XMLStreamWriter2 wrapIfNecessary(XMLStreamWriter sw)
{
if (sw instanceof XMLStreamWriter2) {
return (XMLStreamWriter2) sw;
}
return new Stax2WriterAdapter(sw);
}
/*
/////////////////////////////////////////////////
// TypedXMLStreamWriter2 implementation
// (Typed Access API, Stax v3.0)
/////////////////////////////////////////////////
*/
// // // Typed element content write methods
public void writeBoolean(boolean b) throws XMLStreamException
{
mDelegate.writeCharacters(b ? "true" : "false");
}
public void writeInt(int value) throws XMLStreamException
{
mDelegate.writeCharacters(String.valueOf(value));
}
public void writeLong(long value) throws XMLStreamException
{
mDelegate.writeCharacters(String.valueOf(value));
}
public void writeFloat(float value) throws XMLStreamException
{
mDelegate.writeCharacters(String.valueOf(value));
}
public void writeDouble(double value) throws XMLStreamException
{
mDelegate.writeCharacters(String.valueOf(value));
}
public void writeInteger(BigInteger value) throws XMLStreamException
{
mDelegate.writeCharacters(value.toString());
}
public void writeDecimal(BigDecimal value) throws XMLStreamException
{
mDelegate.writeCharacters(value.toString());
}
public void writeQName(QName name) throws XMLStreamException
{
mDelegate.writeCharacters(serializeQNameValue(name));
}
public void writeIntArray(int[] value, int from, int length)
throws XMLStreamException
{
mDelegate.writeCharacters(getValueEncoder().encodeAsString(value, from, length));
}
public void writeLongArray(long[] value, int from, int length)
throws XMLStreamException
{
mDelegate.writeCharacters(getValueEncoder().encodeAsString(value, from, length));
}
public void writeFloatArray(float[] value, int from, int length)
throws XMLStreamException
{
mDelegate.writeCharacters(getValueEncoder().encodeAsString(value, from, length));
}
public void writeDoubleArray(double[] value, int from, int length)
throws XMLStreamException
{
mDelegate.writeCharacters(getValueEncoder().encodeAsString(value, from, length));
}
public void writeBinary(Base64Variant v, byte[] value, int from, int length)
throws XMLStreamException
{
mDelegate.writeCharacters(getValueEncoder().encodeAsString(v, value, from, length));
}
public void writeBinary(byte[] value, int from, int length)
throws XMLStreamException
{
writeBinary(Base64Variants.getDefaultVariant(), value, from, length);
}
// // // Typed attribute value write methods
public void writeBooleanAttribute(String prefix, String nsURI, String localName, boolean b) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, b ? "true" : "false");
}
public void writeIntAttribute(String prefix, String nsURI, String localName, int value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, String.valueOf(value));
}
public void writeLongAttribute(String prefix, String nsURI, String localName, long value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, String.valueOf(value));
}
public void writeFloatAttribute(String prefix, String nsURI, String localName, float value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, String.valueOf(value));
}
public void writeDoubleAttribute(String prefix, String nsURI, String localName, double value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, String.valueOf(value));
}
public void writeIntegerAttribute(String prefix, String nsURI, String localName, BigInteger value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, value.toString());
}
public void writeDecimalAttribute(String prefix, String nsURI, String localName, BigDecimal value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, value.toString());
}
public void writeQNameAttribute(String prefix, String nsURI, String localName, QName name) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName, serializeQNameValue(name));
}
public void writeIntArrayAttribute(String prefix, String nsURI, String localName, int[] value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName,
getValueEncoder().encodeAsString(value, 0, value.length));
}
public void writeLongArrayAttribute(String prefix, String nsURI, String localName, long[] value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName,
getValueEncoder().encodeAsString(value, 0, value.length));
}
public void writeFloatArrayAttribute(String prefix, String nsURI, String localName, float[] value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName,
getValueEncoder().encodeAsString(value, 0, value.length));
}
public void writeDoubleArrayAttribute(String prefix, String nsURI, String localName, double[] value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName,
getValueEncoder().encodeAsString(value, 0, value.length));
}
public void writeBinaryAttribute(String prefix, String nsURI, String localName, byte[] value) throws XMLStreamException
{
writeBinaryAttribute(Base64Variants.getDefaultVariant(), prefix, nsURI, localName, value);
}
public void writeBinaryAttribute(Base64Variant v, String prefix, String nsURI, String localName, byte[] value) throws XMLStreamException
{
mDelegate.writeAttribute(prefix, nsURI, localName,
getValueEncoder().encodeAsString(v, value, 0, value.length));
}
/*
////////////////////////////////////////////////////
// XMLStreamWriter2 (StAX2) implementation
////////////////////////////////////////////////////
*/
public boolean isPropertySupported(String name)
{
/* No real clean way to check this, so let's just fake by
* claiming nothing is supported
*/
return false;
}
public boolean setProperty(String name, Object value)
{
throw new IllegalArgumentException("No settable property '"+name+"'");
}
public XMLStreamLocation2 getLocation()
{
// No easy way to keep track of it, without impl support
return null;
}
public String getEncoding()
{
// We may have been able to infer it... if so:
return mEncoding;
}
public void writeCData(char[] text, int start, int len)
throws XMLStreamException
{
writeCData(new String(text, start, len));
}
public void writeDTD(String rootName, String systemId, String publicId,
String internalSubset)
throws XMLStreamException
{
/* This may or may not work... depending on how well underlying
* implementation follows stax 1.0 spec (it should work)
*/
StringBuffer sb = new StringBuffer();
sb.append(" 0) {
sb.append(" [");
sb.append(internalSubset);
sb.append(']');
}
sb.append('>');
writeDTD(sb.toString());
}
public void writeFullEndElement()
throws XMLStreamException
{
/* It may be possible to fake it, by pretending to write
* character output, which in turn should prevent writing of
* an empty element...
*/
mDelegate.writeCharacters("");
mDelegate.writeEndElement();
}
public void writeSpace(String text)
throws XMLStreamException
{
/* Hmmh. Two choices: either try to write as regular characters,
* or output as is via raw calls. Latter would be safer, if we
* had access to it; former may escape incorrectly.
* While this may not be optimal, let's try former
*/
writeRaw(text);
}
public void writeSpace(char[] text, int offset, int length)
throws XMLStreamException
{
// See comments above...
writeRaw(text, offset, length);
}
public void writeStartDocument(String version, String encoding,
boolean standAlone)
throws XMLStreamException
{
// No good way to do it, so let's do what we can...
writeStartDocument(encoding, version);
}
/*
///////////////////////////////
// Stax2, Pass-through methods
///////////////////////////////
*/
public void writeRaw(String text)
throws XMLStreamException
{
writeRaw(text, 0, text.length());
}
public void writeRaw(String text, int offset, int len)
throws XMLStreamException
{
// There is no clean way to implement this via Stax 1.0, alas...
throw new UnsupportedOperationException("Not implemented");
}
public void writeRaw(char[] text, int offset, int length)
throws XMLStreamException
{
writeRaw(new String(text, offset, length));
}
public void copyEventFromReader(XMLStreamReader2 sr, boolean preserveEventData)
throws XMLStreamException
{
switch (sr.getEventType()) {
case START_DOCUMENT:
{
String version = sr.getVersion();
/* No real declaration? If so, we don't want to output
* anything, to replicate as closely as possible the
* source document
*/
if (version == null || version.length() == 0) {
; // no output if no real input
} else {
if (sr.standaloneSet()) {
writeStartDocument(sr.getVersion(),
sr.getCharacterEncodingScheme(),
sr.isStandalone());
} else {
writeStartDocument(sr.getCharacterEncodingScheme(),
sr.getVersion());
}
}
}
return;
case END_DOCUMENT:
writeEndDocument();
return;
// Element start/end events:
case START_ELEMENT:
/* Start element is bit trickier to output since there
* may be differences between repairing/non-repairing
* writers. But let's try a generic handling here.
*/
copyStartElement(sr);
return;
case END_ELEMENT:
writeEndElement();
return;
case SPACE:
writeSpace(sr.getTextCharacters(), sr.getTextStart(), sr.getTextLength());
return;
case CDATA:
writeCData(sr.getTextCharacters(), sr.getTextStart(), sr.getTextLength());
return;
case CHARACTERS:
writeCharacters(sr.getTextCharacters(), sr.getTextStart(), sr.getTextLength());
return;
case COMMENT:
writeComment(sr.getText());
return;
case PROCESSING_INSTRUCTION:
writeProcessingInstruction(sr.getPITarget(), sr.getPIData());
return;
case DTD:
{
DTDInfo info = sr.getDTDInfo();
if (info == null) {
/* Hmmmh. Can this happen for non-DTD-aware readers?
* And if so, what should we do?
*/
throw new XMLStreamException("Current state DOCTYPE, but not DTDInfo Object returned -- reader doesn't support DTDs?");
}
writeDTD(info.getDTDRootName(), info.getDTDSystemId(),
info.getDTDPublicId(), info.getDTDInternalSubset());
}
return;
case ENTITY_REFERENCE:
writeEntityRef(sr.getLocalName());
return;
case ATTRIBUTE:
case NAMESPACE:
case ENTITY_DECLARATION:
case NOTATION_DECLARATION:
// Let's just fall back to throw the exception
}
throw new XMLStreamException("Unrecognized event type ("
+sr.getEventType()+"); not sure how to copy");
}
/*
///////////////////////////////
// Stax2, output handling
///////////////////////////////
*/
public void closeCompletely() throws XMLStreamException
{
/* 06-Nov-2008, TSa: alas, there is no way to properly implement
* this. Should we throw an exception? For now, let's just call
* regular close; not quite the same, but better than nothing
*/
close();
}
/*
///////////////////////////////
// Stax2, validation
///////////////////////////////
*/
public XMLValidator validateAgainst(XMLValidationSchema schema)
throws XMLStreamException
{
// !!! TODO: try to implement?
throw new UnsupportedOperationException("Not yet implemented");
}
public XMLValidator stopValidatingAgainst(XMLValidationSchema schema)
throws XMLStreamException
{
return null;
}
public XMLValidator stopValidatingAgainst(XMLValidator validator)
throws XMLStreamException
{
return null;
}
public ValidationProblemHandler setValidationProblemHandler(ValidationProblemHandler h)
{
/* Not a real problem: although we can't do anything with it
* (without real validator integration)
*/
return null;
}
/*
///////////////////////////////
// Helper methods
///////////////////////////////
*/
protected void copyStartElement(XMLStreamReader sr)
throws XMLStreamException
{
// Any namespace declarations/bindings?
int nsCount = sr.getNamespaceCount();
if (nsCount > 0) { // yup, got some...
/* First, need to (or at least, should?) add prefix bindings:
* (may not be 100% required, but probably a good thing to do,
* just so that app code has access to prefixes then)
*/
for (int i = 0; i < nsCount; ++i) {
String prefix = sr.getNamespacePrefix(i);
String uri = sr.getNamespaceURI(i);
if (prefix == null || prefix.length() == 0) { // default NS
setDefaultNamespace(uri);
} else {
setPrefix(prefix, uri);
}
}
}
writeStartElement(sr.getPrefix(), sr.getLocalName(), sr.getNamespaceURI());
if (nsCount > 0) {
// And then output actual namespace declarations:
for (int i = 0; i < nsCount; ++i) {
String prefix = sr.getNamespacePrefix(i);
String uri = sr.getNamespaceURI(i);
if (prefix == null || prefix.length() == 0) { // default NS
writeDefaultNamespace(uri);
} else {
writeNamespace(prefix, uri);
}
}
}
/* And then let's just output attributes. But should we copy the
* implicit attributes (created via attribute defaulting?)
*/
int attrCount = sr.getAttributeCount();
if (attrCount > 0) {
for (int i = 0; i < attrCount; ++i) {
writeAttribute(sr.getAttributePrefix(i),
sr.getAttributeNamespace(i),
sr.getAttributeLocalName(i),
sr.getAttributeValue(i));
}
}
}
/**
* Method called to serialize given qualified name into valid
* String serialization, taking into account existing namespace
* bindings.
*/
protected String serializeQNameValue(QName name)
throws XMLStreamException
{
String prefix;
// Ok as is? In repairing mode need to ensure it's properly bound
if (mNsRepairing) {
String uri = name.getNamespaceURI();
// First: let's see if a valid binding already exists:
NamespaceContext ctxt = getNamespaceContext();
prefix = (ctxt == null) ? null : ctxt.getPrefix(uri);
if (prefix == null) {
// nope: need to (try to) bind
String origPrefix = name.getPrefix();
if (origPrefix == null || origPrefix.length() == 0) {
prefix = "";
/* note: could cause a namespace conflict... but
* there is nothing we can do with just stax1 stream
* writer
*/
writeDefaultNamespace(uri);
} else {
prefix = origPrefix;
writeNamespace(prefix, uri);
}
}
} else { // in non-repairing, good as is
prefix = name.getPrefix();
}
String local = name.getLocalPart();
if (prefix == null || prefix.length() == 0) {
return local;
}
// Not efficient... but should be ok
return prefix + ":" + local;
}
protected SimpleValueEncoder getValueEncoder()
{
if (mValueEncoder == null) {
mValueEncoder = new SimpleValueEncoder();
}
return mValueEncoder;
}
}