org.opendaylight.netconf.shaded.xerces.impl.XMLEntityScanner Maven / Gradle / Ivy
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* 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.opendaylight.netconf.shaded.xerces.impl;
import java.io.EOFException;
import java.io.IOException;
import java.util.Locale;
import org.opendaylight.netconf.shaded.xerces.impl.io.UCSReader;
import org.opendaylight.netconf.shaded.xerces.impl.msg.XMLMessageFormatter;
import org.opendaylight.netconf.shaded.xerces.util.SymbolTable;
import org.opendaylight.netconf.shaded.xerces.util.XMLChar;
import org.opendaylight.netconf.shaded.xerces.util.XMLStringBuffer;
import org.opendaylight.netconf.shaded.xerces.xni.QName;
import org.opendaylight.netconf.shaded.xerces.xni.XMLLocator;
import org.opendaylight.netconf.shaded.xerces.xni.XMLString;
/**
* Implements the entity scanner methods.
*
* @xerces.internal
*
* @author Andy Clark, IBM
* @author Neil Graham, IBM
* @version $Id: XMLEntityScanner.java 1707346 2015-10-07 17:46:10Z mrglavas $
*/
public class XMLEntityScanner implements XMLLocator {
// constants
private static final boolean DEBUG_ENCODINGS = false;
private static final boolean DEBUG_BUFFER = false;
/**
* To signal the end of the document entity, this exception will be thrown.
*/
private static final EOFException END_OF_DOCUMENT_ENTITY = new EOFException() {
private static final long serialVersionUID = 980337771224675268L;
public Throwable fillInStackTrace() {
return this;
}
};
//
// Data
//
private XMLEntityManager fEntityManager = null;
protected XMLEntityManager.ScannedEntity fCurrentEntity = null;
protected SymbolTable fSymbolTable = null;
protected int fBufferSize = XMLEntityManager.DEFAULT_BUFFER_SIZE;
/**
* Error reporter. This property identifier is:
* http://apache.org/xml/properties/internal/error-reporter
*/
protected XMLErrorReporter fErrorReporter;
//
// Constructors
//
/** Default constructor. */
public XMLEntityScanner() {
} // ()
//
// XMLEntityScanner methods
//
/**
* Returns the base system identifier of the currently scanned
* entity, or null if none is available.
*/
public final String getBaseSystemId() {
return (fCurrentEntity != null && fCurrentEntity.entityLocation != null) ? fCurrentEntity.entityLocation.getExpandedSystemId() : null;
} // getBaseSystemId():String
/**
* Sets the encoding of the scanner. This method is used by the
* scanners if the XMLDecl or TextDecl line contains an encoding
* pseudo-attribute.
*
* Note: The underlying character reader on the
* current entity will be changed to accomodate the new encoding.
* However, the new encoding is ignored if the current reader was
* not constructed from an input stream (e.g. an external entity
* that is resolved directly to the appropriate java.io.Reader
* object).
*
* @param encoding The IANA encoding name of the new encoding.
*
* @throws IOException Thrown if the new encoding is not supported.
*
* @see org.apache.xerces.util.EncodingMap
*/
public final void setEncoding(String encoding) throws IOException {
if (DEBUG_ENCODINGS) {
System.out.println("$$$ setEncoding: "+encoding);
}
if (fCurrentEntity.stream != null) {
// if the encoding is the same, don't change the reader and
// re-use the original reader used by the OneCharReader
// NOTE: Besides saving an object, this overcomes deficiencies
// in the UTF-16 reader supplied with the standard Java
// distribution (up to and including 1.3). The UTF-16
// decoder buffers 8K blocks even when only asked to read
// a single char! -Ac
if (fCurrentEntity.encoding == null ||
!fCurrentEntity.encoding.equals(encoding)) {
// UTF-16 is a bit of a special case. If the encoding is UTF-16,
// and we know the endian-ness, we shouldn't change readers.
// If it's ISO-10646-UCS-(2|4), then we'll have to deduce
// the endian-ness from the encoding we presently have.
if(fCurrentEntity.encoding != null && fCurrentEntity.encoding.startsWith("UTF-16")) {
String ENCODING = encoding.toUpperCase(Locale.ENGLISH);
if(ENCODING.equals("UTF-16")) return;
if(ENCODING.equals("ISO-10646-UCS-4")) {
if(fCurrentEntity.encoding.equals("UTF-16BE")) {
fCurrentEntity.reader = new UCSReader(fCurrentEntity.stream, UCSReader.UCS4BE);
} else {
fCurrentEntity.reader = new UCSReader(fCurrentEntity.stream, UCSReader.UCS4LE);
}
return;
}
if(ENCODING.equals("ISO-10646-UCS-2")) {
if(fCurrentEntity.encoding.equals("UTF-16BE")) {
fCurrentEntity.reader = new UCSReader(fCurrentEntity.stream, UCSReader.UCS2BE);
} else {
fCurrentEntity.reader = new UCSReader(fCurrentEntity.stream, UCSReader.UCS2LE);
}
return;
}
}
// wrap a new reader around the input stream, changing
// the encoding
if (DEBUG_ENCODINGS) {
System.out.println("$$$ creating new reader from stream: "+
fCurrentEntity.stream);
}
//fCurrentEntity.stream.reset();
fCurrentEntity.setReader(fCurrentEntity.stream, encoding, null);
fCurrentEntity.encoding = encoding;
} else {
if (DEBUG_ENCODINGS)
System.out.println("$$$ reusing old reader on stream");
}
}
} // setEncoding(String)
/**
* Sets the XML version. This method is used by the
* scanners to report the value of the version pseudo-attribute
* in an XML or text declaration.
*
* @param xmlVersion the XML version of the current entity
*/
public final void setXMLVersion(String xmlVersion) {
fCurrentEntity.xmlVersion = xmlVersion;
} // setXMLVersion(String)
/** Returns true if the current entity being scanned is external. */
public final boolean isExternal() {
return fCurrentEntity.isExternal();
} // isExternal():boolean
/**
* Returns the next character on the input.
*
* Note: The character is not consumed.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public int peekChar() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(peekChar: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// peek at character
int c = fCurrentEntity.ch[fCurrentEntity.position];
// return peeked character
if (DEBUG_BUFFER) {
System.out.print(")peekChar: ");
XMLEntityManager.print(fCurrentEntity);
if (fCurrentEntity.isExternal()) {
System.out.println(" -> '"+(c!='\r'?(char)c:'\n')+"'");
}
else {
System.out.println(" -> '"+(char)c+"'");
}
}
if (fCurrentEntity.isExternal()) {
return c != '\r' ? c : '\n';
}
else {
return c;
}
} // peekChar():int
/**
* Returns the next character on the input.
*
* Note: The character is consumed.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public int scanChar() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanChar: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// scan character
int c = fCurrentEntity.ch[fCurrentEntity.position++];
boolean external = false;
if (c == '\n' ||
(c == '\r' && (external = fCurrentEntity.isExternal()))) {
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.ch[0] = (char)c;
load(1, false);
}
if (c == '\r' && external) {
if (fCurrentEntity.ch[fCurrentEntity.position++] != '\n') {
fCurrentEntity.position--;
}
c = '\n';
}
}
// return character that was scanned
if (DEBUG_BUFFER) {
System.out.print(")scanChar: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> '"+(char)c+"'");
}
fCurrentEntity.columnNumber++;
return c;
} // scanChar():int
/**
* Returns a string matching the NMTOKEN production appearing immediately
* on the input as a symbol, or null if NMTOKEN Name string is present.
*
* Note: The NMTOKEN characters are consumed.
*
* Note: The string returned must be a symbol. The
* SymbolTable can be used for this purpose.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.SymbolTable
* @see org.apache.xerces.util.XMLChar#isName
*/
public String scanNmtoken() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanNmtoken: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// scan nmtoken
int offset = fCurrentEntity.position;
while (XMLChar.isName(fCurrentEntity.ch[fCurrentEntity.position])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
int length = fCurrentEntity.position - offset;
if (length == fCurrentEntity.ch.length) {
// bad luck we have to resize our buffer
resizeBuffer(offset, length);
}
else {
System.arraycopy(fCurrentEntity.ch, offset,
fCurrentEntity.ch, 0, length);
}
offset = 0;
if (load(length, false)) {
break;
}
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length;
// return nmtoken
String symbol = null;
if (length > 0) {
symbol = fSymbolTable.addSymbol(fCurrentEntity.ch, offset, length);
}
if (DEBUG_BUFFER) {
System.out.print(")scanNmtoken: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> "+String.valueOf(symbol));
}
return symbol;
} // scanNmtoken():String
/**
* Returns a string matching the Name production appearing immediately
* on the input as a symbol, or null if no Name string is present.
*
* Note: The Name characters are consumed.
*
* Note: The string returned must be a symbol. The
* SymbolTable can be used for this purpose.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.SymbolTable
* @see org.apache.xerces.util.XMLChar#isName
* @see org.apache.xerces.util.XMLChar#isNameStart
*/
public String scanName() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// scan name
int offset = fCurrentEntity.position;
if (XMLChar.isNameStart(fCurrentEntity.ch[offset])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.ch[0] = fCurrentEntity.ch[offset];
offset = 0;
if (load(1, false)) {
fCurrentEntity.columnNumber++;
String symbol = fSymbolTable.addSymbol(fCurrentEntity.ch, 0, 1);
if (DEBUG_BUFFER) {
System.out.print(")scanName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> "+String.valueOf(symbol));
}
return symbol;
}
}
while (XMLChar.isName(fCurrentEntity.ch[fCurrentEntity.position])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
int length = fCurrentEntity.position - offset;
if (length == fCurrentEntity.ch.length) {
// bad luck we have to resize our buffer
resizeBuffer(offset, length);
}
else {
System.arraycopy(fCurrentEntity.ch, offset,
fCurrentEntity.ch, 0, length);
}
offset = 0;
if (load(length, false)) {
break;
}
}
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length;
// return name
String symbol = null;
if (length > 0) {
symbol = fSymbolTable.addSymbol(fCurrentEntity.ch, offset, length);
}
if (DEBUG_BUFFER) {
System.out.print(")scanName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> "+String.valueOf(symbol));
}
return symbol;
} // scanName():String
/**
* Returns a string matching the NCName production appearing immediately
* on the input as a symbol, or null if no NCName string is present.
*
* Note: The NCName characters are consumed.
*
* Note: The string returned must be a symbol. The
* SymbolTable can be used for this purpose.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.SymbolTable
* @see org.apache.xerces.util.XMLChar#isNCName
* @see org.apache.xerces.util.XMLChar#isNCNameStart
*/
public String scanNCName() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanNCName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// scan name
int offset = fCurrentEntity.position;
if (XMLChar.isNCNameStart(fCurrentEntity.ch[offset])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.ch[0] = fCurrentEntity.ch[offset];
offset = 0;
if (load(1, false)) {
fCurrentEntity.columnNumber++;
String symbol = fSymbolTable.addSymbol(fCurrentEntity.ch, 0, 1);
if (DEBUG_BUFFER) {
System.out.print(")scanNCName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> "+String.valueOf(symbol));
}
return symbol;
}
}
while (XMLChar.isNCName(fCurrentEntity.ch[fCurrentEntity.position])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
int length = fCurrentEntity.position - offset;
if (length == fCurrentEntity.ch.length) {
// bad luck we have to resize our buffer
resizeBuffer(offset, length);
}
else {
System.arraycopy(fCurrentEntity.ch, offset,
fCurrentEntity.ch, 0, length);
}
offset = 0;
if (load(length, false)) {
break;
}
}
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length;
// return name
String symbol = null;
if (length > 0) {
symbol = fSymbolTable.addSymbol(fCurrentEntity.ch, offset, length);
}
if (DEBUG_BUFFER) {
System.out.print(")scanNCName: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> "+String.valueOf(symbol));
}
return symbol;
} // scanNCName():String
/**
* Scans a qualified name from the input, setting the fields of the
* QName structure appropriately.
*
* Note: The qualified name characters are consumed.
*
* Note: The strings used to set the values of the
* QName structure must be symbols. The SymbolTable can be used for
* this purpose.
*
* @param qname The qualified name structure to fill.
*
* @return Returns true if a qualified name appeared immediately on
* the input and was scanned, false otherwise.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.SymbolTable
* @see org.apache.xerces.util.XMLChar#isName
* @see org.apache.xerces.util.XMLChar#isNameStart
*/
public boolean scanQName(QName qname) throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanQName, "+qname+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// scan qualified name
int offset = fCurrentEntity.position;
if (XMLChar.isNCNameStart(fCurrentEntity.ch[offset])) {
if (++fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.ch[0] = fCurrentEntity.ch[offset];
offset = 0;
if (load(1, false)) {
fCurrentEntity.columnNumber++;
String name =
fSymbolTable.addSymbol(fCurrentEntity.ch, 0, 1);
qname.setValues(null, name, name, null);
if (DEBUG_BUFFER) {
System.out.print(")scanQName, "+qname+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
}
int index = -1;
while (XMLChar.isName(fCurrentEntity.ch[fCurrentEntity.position])) {
char c = fCurrentEntity.ch[fCurrentEntity.position];
if (c == ':') {
if (index != -1) {
break;
}
index = fCurrentEntity.position;
}
if (++fCurrentEntity.position == fCurrentEntity.count) {
int length = fCurrentEntity.position - offset;
if (length == fCurrentEntity.ch.length) {
// bad luck we have to resize our buffer
resizeBuffer(offset, length);
}
else {
System.arraycopy(fCurrentEntity.ch, offset,
fCurrentEntity.ch, 0, length);
}
if (index != -1) {
index = index - offset;
}
offset = 0;
if (load(length, false)) {
break;
}
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length;
if (length > 0) {
String prefix = null;
String localpart = null;
String rawname = fSymbolTable.addSymbol(fCurrentEntity.ch,
offset, length);
if (index != -1) {
int prefixLength = index - offset;
prefix = fSymbolTable.addSymbol(fCurrentEntity.ch,
offset, prefixLength);
int len = length - prefixLength - 1;
int startLocal = index +1;
if (!XMLChar.isNCNameStart(fCurrentEntity.ch[startLocal])){
fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN,
"IllegalQName",
null,
XMLErrorReporter.SEVERITY_FATAL_ERROR);
}
localpart = fSymbolTable.addSymbol(fCurrentEntity.ch,
startLocal, len);
}
else {
localpart = rawname;
}
qname.setValues(prefix, localpart, rawname, null);
if (DEBUG_BUFFER) {
System.out.print(")scanQName, "+qname+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
}
// no qualified name found
if (DEBUG_BUFFER) {
System.out.print(")scanQName, "+qname+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
} // scanQName(QName):boolean
/**
* Scans a range of parsed character data, setting the fields of the
* XMLString structure, appropriately.
*
* Note: The characters are consumed.
*
* Note: This method does not guarantee to return
* the longest run of parsed character data. This method may return
* before markup due to reaching the end of the input buffer or any
* other reason.
*
* Note: The fields contained in the XMLString
* structure are not guaranteed to remain valid upon subsequent calls
* to the entity scanner. Therefore, the caller is responsible for
* immediately using the returned character data or making a copy of
* the character data.
*
* @param content The content structure to fill.
*
* @return Returns the next character on the input, if known. This
* value may be -1 but this does note designate
* end of file.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public int scanContent(XMLString content) throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanContent: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
else if (fCurrentEntity.position == fCurrentEntity.count - 1) {
fCurrentEntity.ch[0] = fCurrentEntity.ch[fCurrentEntity.count - 1];
load(1, false);
fCurrentEntity.position = 0;
fCurrentEntity.startPosition = 0;
}
// normalize newlines
int offset = fCurrentEntity.position;
int c = fCurrentEntity.ch[offset];
int newlines = 0;
boolean external = fCurrentEntity.isExternal();
if (c == '\n' || (c == '\r' && external)) {
if (DEBUG_BUFFER) {
System.out.print("[newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
do {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (c == '\r' && external) {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
if (load(newlines, false)) {
break;
}
}
if (fCurrentEntity.ch[fCurrentEntity.position] == '\n') {
fCurrentEntity.position++;
offset++;
}
/*** NEWLINE NORMALIZATION ***/
else {
newlines++;
}
}
else if (c == '\n') {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
if (load(newlines, false)) {
break;
}
}
}
else {
fCurrentEntity.position--;
break;
}
} while (fCurrentEntity.position < fCurrentEntity.count - 1);
for (int i = offset; i < fCurrentEntity.position; i++) {
fCurrentEntity.ch[i] = '\n';
}
int length = fCurrentEntity.position - offset;
if (fCurrentEntity.position == fCurrentEntity.count - 1) {
content.setValues(fCurrentEntity.ch, offset, length);
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
return -1;
}
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
}
// inner loop, scanning for content
while (fCurrentEntity.position < fCurrentEntity.count) {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (!XMLChar.isContent(c)) {
fCurrentEntity.position--;
break;
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length - newlines;
content.setValues(fCurrentEntity.ch, offset, length);
// return next character
if (fCurrentEntity.position != fCurrentEntity.count) {
c = fCurrentEntity.ch[fCurrentEntity.position];
// REVISIT: Does this need to be updated to fix the
// #x0D ^#x0A newline normalization problem? -Ac
if (c == '\r' && external) {
c = '\n';
}
}
else {
c = -1;
}
if (DEBUG_BUFFER) {
System.out.print(")scanContent: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> '"+(char)c+"'");
}
return c;
} // scanContent(XMLString):int
/**
* Scans a range of attribute value data, setting the fields of the
* XMLString structure, appropriately.
*
* Note: The characters are consumed.
*
* Note: This method does not guarantee to return
* the longest run of attribute value data. This method may return
* before the quote character due to reaching the end of the input
* buffer or any other reason.
*
* Note: The fields contained in the XMLString
* structure are not guaranteed to remain valid upon subsequent calls
* to the entity scanner. Therefore, the caller is responsible for
* immediately using the returned character data or making a copy of
* the character data.
*
* @param quote The quote character that signifies the end of the
* attribute value data.
* @param content The content structure to fill.
*
* @return Returns the next character on the input, if known. This
* value may be -1 but this does note designate
* end of file.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public int scanLiteral(int quote, XMLString content)
throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(scanLiteral, '"+(char)quote+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
else if (fCurrentEntity.position == fCurrentEntity.count - 1) {
fCurrentEntity.ch[0] = fCurrentEntity.ch[fCurrentEntity.count - 1];
load(1, false);
fCurrentEntity.position = 0;
fCurrentEntity.startPosition = 0;
}
// normalize newlines
int offset = fCurrentEntity.position;
int c = fCurrentEntity.ch[offset];
int newlines = 0;
boolean external = fCurrentEntity.isExternal();
if (c == '\n' || (c == '\r' && external)) {
if (DEBUG_BUFFER) {
System.out.print("[newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
do {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (c == '\r' && external) {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
if (load(newlines, false)) {
break;
}
}
if (fCurrentEntity.ch[fCurrentEntity.position] == '\n') {
fCurrentEntity.position++;
offset++;
}
/*** NEWLINE NORMALIZATION ***/
else {
newlines++;
}
/***/
}
else if (c == '\n') {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
if (load(newlines, false)) {
break;
}
}
}
else {
fCurrentEntity.position--;
break;
}
} while (fCurrentEntity.position < fCurrentEntity.count - 1);
for (int i = offset; i < fCurrentEntity.position; i++) {
fCurrentEntity.ch[i] = '\n';
}
int length = fCurrentEntity.position - offset;
if (fCurrentEntity.position == fCurrentEntity.count - 1) {
content.setValues(fCurrentEntity.ch, offset, length);
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
return -1;
}
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
}
// scan literal value
while (fCurrentEntity.position < fCurrentEntity.count) {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if ((c == quote &&
(!fCurrentEntity.literal || external))
|| c == '%' || !XMLChar.isContent(c)) {
fCurrentEntity.position--;
break;
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length - newlines;
content.setValues(fCurrentEntity.ch, offset, length);
// return next character
if (fCurrentEntity.position != fCurrentEntity.count) {
c = fCurrentEntity.ch[fCurrentEntity.position];
// NOTE: We don't want to accidentally signal the
// end of the literal if we're expanding an
// entity appearing in the literal. -Ac
if (c == quote && fCurrentEntity.literal) {
c = -1;
}
}
else {
c = -1;
}
if (DEBUG_BUFFER) {
System.out.print(")scanLiteral, '"+(char)quote+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> '"+(char)c+"'");
}
return c;
} // scanLiteral(int,XMLString):int
/**
* Scans a range of character data up to the specified delimiter,
* setting the fields of the XMLString structure, appropriately.
*
* Note: The characters are consumed.
*
* Note: This assumes that the internal buffer is
* at least the same size, or bigger, than the length of the delimiter
* and that the delimiter contains at least one character.
*
* Note: This method does not guarantee to return
* the longest run of character data. This method may return before
* the delimiter due to reaching the end of the input buffer or any
* other reason.
*
* Note: The fields contained in the XMLString
* structure are not guaranteed to remain valid upon subsequent calls
* to the entity scanner. Therefore, the caller is responsible for
* immediately using the returned character data or making a copy of
* the character data.
*
* @param delimiter The string that signifies the end of the character
* data to be scanned.
* @param buffer The XMLStringBuffer to fill.
*
* @return Returns true if there is more data to scan, false otherwise.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public boolean scanData(String delimiter, XMLStringBuffer buffer)
throws IOException {
// REVISIT: This method does not need to use a string buffer.
// The change would avoid the array copies and increase
// performance. -Ac
//
// Currently, this method is called for scanning CDATA
// sections, comments, and processing instruction data.
// So if this code is updated to NOT buffer, the scanning
// code for comments and processing instructions will
// need to be updated to do its own buffering. The code
// for CDATA sections is safe as-is. -Ac
boolean found = false;
int delimLen = delimiter.length();
char charAt0 = delimiter.charAt(0);
boolean external = fCurrentEntity.isExternal();
if (DEBUG_BUFFER) {
System.out.print("(scanData: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
boolean bNextEntity = false;
while ((fCurrentEntity.position > fCurrentEntity.count - delimLen)
&& (!bNextEntity))
{
System.arraycopy(fCurrentEntity.ch,
fCurrentEntity.position,
fCurrentEntity.ch,
0,
fCurrentEntity.count - fCurrentEntity.position);
bNextEntity = load(fCurrentEntity.count - fCurrentEntity.position, false);
fCurrentEntity.position = 0;
fCurrentEntity.startPosition = 0;
}
if (fCurrentEntity.position > fCurrentEntity.count - delimLen) {
// something must be wrong with the input: e.g., file ends in an unterminated comment
int length = fCurrentEntity.count - fCurrentEntity.position;
buffer.append (fCurrentEntity.ch, fCurrentEntity.position, length);
fCurrentEntity.columnNumber += fCurrentEntity.count;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = fCurrentEntity.count;
fCurrentEntity.startPosition = fCurrentEntity.count;
load(0,true);
return false;
}
// normalize newlines
int offset = fCurrentEntity.position;
int c = fCurrentEntity.ch[offset];
int newlines = 0;
if (c == '\n' || (c == '\r' && external)) {
if (DEBUG_BUFFER) {
System.out.print("[newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
do {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (c == '\r' && external) {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
if (load(newlines, false)) {
break;
}
}
if (fCurrentEntity.ch[fCurrentEntity.position] == '\n') {
fCurrentEntity.position++;
offset++;
}
/*** NEWLINE NORMALIZATION ***/
else {
newlines++;
}
}
else if (c == '\n') {
newlines++;
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count) {
offset = 0;
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
fCurrentEntity.position = newlines;
fCurrentEntity.startPosition = newlines;
fCurrentEntity.count = newlines;
if (load(newlines, false)) {
break;
}
}
}
else {
fCurrentEntity.position--;
break;
}
} while (fCurrentEntity.position < fCurrentEntity.count - 1);
for (int i = offset; i < fCurrentEntity.position; i++) {
fCurrentEntity.ch[i] = '\n';
}
int length = fCurrentEntity.position - offset;
if (fCurrentEntity.position == fCurrentEntity.count - 1) {
buffer.append(fCurrentEntity.ch, offset, length);
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
return true;
}
if (DEBUG_BUFFER) {
System.out.print("]newline, "+offset+", "+fCurrentEntity.position+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
}
// iterate over buffer looking for delimiter
OUTER: while (fCurrentEntity.position < fCurrentEntity.count) {
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (c == charAt0) {
// looks like we just hit the delimiter
int delimOffset = fCurrentEntity.position - 1;
for (int i = 1; i < delimLen; i++) {
if (fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.position -= i;
break OUTER;
}
c = fCurrentEntity.ch[fCurrentEntity.position++];
if (delimiter.charAt(i) != c) {
fCurrentEntity.position--;
break;
}
}
if (fCurrentEntity.position == delimOffset + delimLen) {
found = true;
break;
}
}
else if (c == '\n' || (external && c == '\r')) {
fCurrentEntity.position--;
break;
}
else if (XMLChar.isInvalid(c)) {
fCurrentEntity.position--;
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length - newlines;
buffer.append(fCurrentEntity.ch, offset, length);
return true;
}
}
int length = fCurrentEntity.position - offset;
fCurrentEntity.columnNumber += length - newlines;
if (found) {
length -= delimLen;
}
buffer.append (fCurrentEntity.ch, offset, length);
// return true if string was skipped
if (DEBUG_BUFFER) {
System.out.print(")scanData: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> " + !found);
}
return !found;
} // scanData(String,XMLString):boolean
/**
* Skips a character appearing immediately on the input.
*
* Note: The character is consumed only if it matches
* the specified character.
*
* @param c The character to skip.
*
* @return Returns true if the character was skipped.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public boolean skipChar(int c) throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(skipChar, '"+(char)c+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// skip character
int cc = fCurrentEntity.ch[fCurrentEntity.position];
if (cc == c) {
fCurrentEntity.position++;
if (c == '\n') {
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
}
else {
fCurrentEntity.columnNumber++;
}
if (DEBUG_BUFFER) {
System.out.print(")skipChar, '"+(char)c+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
else if (c == '\n' && cc == '\r' && fCurrentEntity.isExternal()) {
// handle newlines
if (fCurrentEntity.position == fCurrentEntity.count) {
fCurrentEntity.ch[0] = (char)cc;
load(1, false);
}
fCurrentEntity.position++;
if (fCurrentEntity.ch[fCurrentEntity.position] == '\n') {
fCurrentEntity.position++;
}
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (DEBUG_BUFFER) {
System.out.print(")skipChar, '"+(char)c+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
// character was not skipped
if (DEBUG_BUFFER) {
System.out.print(")skipChar, '"+(char)c+"': ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
} // skipChar(int):boolean
/**
* Skips space characters appearing immediately on the input.
*
* Note: The characters are consumed only if they are
* space characters.
*
* @return Returns true if at least one space character was skipped.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.XMLChar#isSpace
*/
public boolean skipSpaces() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(skipSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// skip spaces
int c = fCurrentEntity.ch[fCurrentEntity.position];
if (XMLChar.isSpace(c)) {
boolean external = fCurrentEntity.isExternal();
do {
boolean entityChanged = false;
// handle newlines
if (c == '\n' || (external && c == '\r')) {
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count - 1) {
fCurrentEntity.ch[0] = (char)c;
entityChanged = load(1, true);
if (!entityChanged) {
// the load change the position to be 1,
// need to restore it when entity not changed
fCurrentEntity.position = 0;
fCurrentEntity.startPosition = 0;
}
}
if (c == '\r' && external) {
// REVISIT: Does this need to be updated to fix the
// #x0D ^#x0A newline normalization problem? -Ac
if (fCurrentEntity.ch[++fCurrentEntity.position] != '\n') {
fCurrentEntity.position--;
}
}
/*** NEWLINE NORMALIZATION ***
else {
if (fCurrentEntity.ch[fCurrentEntity.position + 1] == '\r'
&& external) {
fCurrentEntity.position++;
}
}
/***/
}
else {
fCurrentEntity.columnNumber++;
}
// load more characters, if needed
if (!entityChanged)
fCurrentEntity.position++;
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
} while (XMLChar.isSpace(c = fCurrentEntity.ch[fCurrentEntity.position]));
if (DEBUG_BUFFER) {
System.out.print(")skipSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
// no spaces were found
if (DEBUG_BUFFER) {
System.out.print(")skipSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
} // skipSpaces():boolean
/**
* Skips space characters appearing immediately on the input that would
* match non-terminal S (0x09, 0x0A, 0x0D, 0x20) before end of line
* normalization is performed. This is useful when scanning structures
* such as the XMLDecl and TextDecl that can only contain US-ASCII
* characters.
*
* Note: The characters are consumed only if they would
* match non-terminal S before end of line normalization is performed.
*
* @return Returns true if at least one space character was skipped.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*
* @see org.apache.xerces.util.XMLChar#isSpace
*/
public final boolean skipDeclSpaces() throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(skipDeclSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// skip spaces
int c = fCurrentEntity.ch[fCurrentEntity.position];
if (XMLChar.isSpace(c)) {
boolean external = fCurrentEntity.isExternal();
do {
boolean entityChanged = false;
// handle newlines
if (c == '\n' || (external && c == '\r')) {
fCurrentEntity.lineNumber++;
fCurrentEntity.columnNumber = 1;
if (fCurrentEntity.position == fCurrentEntity.count - 1) {
fCurrentEntity.ch[0] = (char)c;
entityChanged = load(1, true);
if (!entityChanged) {
// the load change the position to be 1,
// need to restore it when entity not changed
fCurrentEntity.position = 0;
fCurrentEntity.startPosition = 0;
}
}
if (c == '\r' && external) {
// REVISIT: Does this need to be updated to fix the
// #x0D ^#x0A newline normalization problem? -Ac
if (fCurrentEntity.ch[++fCurrentEntity.position] != '\n') {
fCurrentEntity.position--;
}
}
/*** NEWLINE NORMALIZATION ***
else {
if (fCurrentEntity.ch[fCurrentEntity.position + 1] == '\r'
&& external) {
fCurrentEntity.position++;
}
}
/***/
}
else {
fCurrentEntity.columnNumber++;
}
// load more characters, if needed
if (!entityChanged)
fCurrentEntity.position++;
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
} while (XMLChar.isSpace(c = fCurrentEntity.ch[fCurrentEntity.position]));
if (DEBUG_BUFFER) {
System.out.print(")skipDeclSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
return true;
}
// no spaces were found
if (DEBUG_BUFFER) {
System.out.print(")skipDeclSpaces: ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
} // skipDeclSpaces():boolean
/**
* Skips the specified string appearing immediately on the input.
*
* Note: The characters are consumed only if they are
* space characters.
*
* @param s The string to skip.
*
* @return Returns true if the string was skipped.
*
* @throws IOException Thrown if i/o error occurs.
* @throws EOFException Thrown on end of file.
*/
public boolean skipString(String s) throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(skipString, \""+s+"\": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
// load more characters, if needed
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
// skip string
final int length = s.length();
for (int i = 0; i < length; i++) {
char c = fCurrentEntity.ch[fCurrentEntity.position++];
if (c != s.charAt(i)) {
fCurrentEntity.position -= i + 1;
if (DEBUG_BUFFER) {
System.out.print(")skipString, \""+s+"\": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
}
if (i < length - 1 && fCurrentEntity.position == fCurrentEntity.count) {
System.arraycopy(fCurrentEntity.ch, fCurrentEntity.count - i - 1, fCurrentEntity.ch, 0, i + 1);
// REVISIT: Can a string to be skipped cross an
// entity boundary? -Ac
if (load(i + 1, false)) {
fCurrentEntity.startPosition -= i + 1;
fCurrentEntity.position -= i + 1;
if (DEBUG_BUFFER) {
System.out.print(")skipString, \""+s+"\": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> false");
}
return false;
}
}
}
if (DEBUG_BUFFER) {
System.out.print(")skipString, \""+s+"\": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println(" -> true");
}
fCurrentEntity.columnNumber += length;
return true;
} // skipString(String):boolean
//
// Locator methods
//
/**
* Return the public identifier for the current document event.
*
* The return value is the public identifier of the document
* entity or of the external parsed entity in which the markup
* triggering the event appears.
*
* @return A string containing the public identifier, or
* null if none is available.
*/
public final String getPublicId() {
return (fCurrentEntity != null && fCurrentEntity.entityLocation != null) ? fCurrentEntity.entityLocation.getPublicId() : null;
} // getPublicId():String
/**
* Return the expanded system identifier for the current document event.
*
* The return value is the expanded system identifier of the document
* entity or of the external parsed entity in which the markup
* triggering the event appears.
*
* If the system identifier is a URL, the parser must resolve it
* fully before passing it to the application.
*
* @return A string containing the expanded system identifier, or null
* if none is available.
*/
public final String getExpandedSystemId() {
if (fCurrentEntity != null) {
if (fCurrentEntity.entityLocation != null &&
fCurrentEntity.entityLocation.getExpandedSystemId() != null ) {
return fCurrentEntity.entityLocation.getExpandedSystemId();
}
else {
// get the current entity to return something appropriate:
return fCurrentEntity.getExpandedSystemId();
}
}
return null;
} // getExpandedSystemId():String
/**
* Return the literal system identifier for the current document event.
*
* The return value is the literal system identifier of the document
* entity or of the external parsed entity in which the markup
* triggering the event appears.
*
* @return A string containing the literal system identifier, or null
* if none is available.
*/
public final String getLiteralSystemId() {
if (fCurrentEntity != null) {
if (fCurrentEntity.entityLocation != null &&
fCurrentEntity.entityLocation.getLiteralSystemId() != null ) {
return fCurrentEntity.entityLocation.getLiteralSystemId();
}
else {
// get the current entity to do it:
return fCurrentEntity.getLiteralSystemId();
}
}
return null;
} // getLiteralSystemId():String
/**
* Returns the line number where the current document event ends.
*
* Warning: The return value from the method
* is intended only as an approximation for the sake of error
* reporting; it is not intended to provide sufficient information
* to edit the character content of the original XML document.
*
* The return value is an approximation of the line number
* in the document entity or external parsed entity where the
* markup triggering the event appears.
*
* If possible, the line position of the first character after the
* text associated with the document event should be provided.
* The first line in the document is line 1.
*
* @return The line number, or -1 if none is available.
*/
public final int getLineNumber() {
if (fCurrentEntity != null) {
if (fCurrentEntity.isExternal()) {
return fCurrentEntity.lineNumber;
}
else {
// ask the current entity to return something appropriate:
return fCurrentEntity.getLineNumber();
}
}
return -1;
} // getLineNumber():int
/**
* Returns the column number where the current document event ends.
*
* Warning: The return value from the method
* is intended only as an approximation for the sake of error
* reporting; it is not intended to provide sufficient information
* to edit the character content of the original XML document.
*
* The return value is an approximation of the column number
* in the document entity or external parsed entity where the
* markup triggering the event appears.
*
* If possible, the line position of the first character after the
* text associated with the document event should be provided.
* The first column in each line is column 1.
*
* @return The column number, or -1 if none is available.
*/
public final int getColumnNumber() {
if (fCurrentEntity != null) {
if (fCurrentEntity.isExternal()) {
return fCurrentEntity.columnNumber;
}
else {
// ask current entity to find appropriate column number
return fCurrentEntity.getColumnNumber();
}
}
return -1;
} // getColumnNumber():int
/**
* Returns the character offset where the current document event ends.
*
* Warning: The return value from the method
* is intended only as an approximation for the sake of error
* reporting; it is not intended to provide sufficient information
* to edit the character content of the original XML document.
*
* The return value is an approximation of the character offset
* in the document entity or external parsed entity where the
* markup triggering the event appears.
*
* If possible, the character offset of the first character after the
* text associated with the document event should be provided.
*
* @return The character offset, or -1 if none is available.
*/
public final int getCharacterOffset() {
if (fCurrentEntity != null) {
if (fCurrentEntity.isExternal()) {
return fCurrentEntity.baseCharOffset + (fCurrentEntity.position - fCurrentEntity.startPosition);
}
else {
// ask current entity to find appropriate character offset
return fCurrentEntity.getCharacterOffset();
}
}
return -1;
} // getCharacterOffset():int
/**
* Returns the encoding of the current entity.
* Note that, for a given entity, this value can only be
* considered final once the encoding declaration has been read (or once it
* has been determined that there is no such declaration) since, no encoding
* having been specified on the XMLInputSource, the parser
* will make an initial "guess" which could be in error.
*/
public final String getEncoding() {
if (fCurrentEntity != null) {
if (fCurrentEntity.isExternal()) {
return fCurrentEntity.encoding;
}
else {
// ask current entity to find appropriate encoding
return fCurrentEntity.getEncoding();
}
}
return null;
} // getEncoding():String
/**
* Returns the XML version of the current entity. This will normally be the
* value from the XML or text declaration or defaulted by the parser. Note that
* that this value may be different than the version of the processing rules
* applied to the current entity. For instance, an XML 1.1 document may refer to
* XML 1.0 entities. In such a case the rules of XML 1.1 are applied to the entire
* document. Also note that, for a given entity, this value can only be considered
* final once the XML or text declaration has been read or once it has been
* determined that there is no such declaration.
*/
public final String getXMLVersion() {
if (fCurrentEntity != null) {
if (fCurrentEntity.isExternal()) {
return fCurrentEntity.xmlVersion;
}
else {
// ask current entity to find the appropriate XML version
return fCurrentEntity.getXMLVersion();
}
}
return null;
} // getXMLVersion():String
// allow entity manager to tell us what the current entityis:
public final void setCurrentEntity(XMLEntityManager.ScannedEntity ent) {
fCurrentEntity = ent;
}
// set buffer size:
public final void setBufferSize(int size) {
// REVISIT: Buffer size passed to entity scanner
// was not being kept in synch with the actual size
// of the buffers in each scanned entity. If any
// of the buffers were actually resized, it was possible
// that the parser would throw an ArrayIndexOutOfBoundsException
// for documents which contained names which are longer than
// the current buffer size. Conceivably the buffer size passed
// to entity scanner could be used to determine a minimum size
// for resizing, if doubling its size is smaller than this
// minimum. -- mrglavas
fBufferSize = size;
}
// reset what little state we have...
public final void reset(SymbolTable symbolTable, XMLEntityManager entityManager,
XMLErrorReporter reporter) {
fCurrentEntity = null;
fSymbolTable = symbolTable;
fEntityManager = entityManager;
fErrorReporter = reporter;
}
//
// Private methods
//
/**
* Loads a chunk of text.
*
* @param offset The offset into the character buffer to
* read the next batch of characters.
* @param changeEntity True if the load should change entities
* at the end of the entity, otherwise leave
* the current entity in place and the entity
* boundary will be signaled by the return
* value.
*
* @returns Returns true if the entity changed as a result of this
* load operation.
*/
final boolean load(int offset, boolean changeEntity)
throws IOException {
if (DEBUG_BUFFER) {
System.out.print("(load, "+offset+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
fCurrentEntity.baseCharOffset += (fCurrentEntity.position - fCurrentEntity.startPosition);
// read characters
int length = fCurrentEntity.ch.length - offset;
if (!fCurrentEntity.mayReadChunks && length > XMLEntityManager.DEFAULT_XMLDECL_BUFFER_SIZE) {
length = XMLEntityManager.DEFAULT_XMLDECL_BUFFER_SIZE;
}
if (DEBUG_BUFFER) System.out.println(" length to try to read: "+length);
int count = fCurrentEntity.reader.read(fCurrentEntity.ch, offset, length);
if (DEBUG_BUFFER) System.out.println(" length actually read: "+count);
// reset count and position
boolean entityChanged = false;
if (count != -1) {
if (count != 0) {
fCurrentEntity.count = count + offset;
fCurrentEntity.position = offset;
fCurrentEntity.startPosition = offset;
}
}
// end of this entity
else {
fCurrentEntity.count = offset;
fCurrentEntity.position = offset;
fCurrentEntity.startPosition = offset;
entityChanged = true;
if (changeEntity) {
fEntityManager.endEntity();
if (fCurrentEntity == null) {
throw END_OF_DOCUMENT_ENTITY;
}
// handle the trailing edges
if (fCurrentEntity.position == fCurrentEntity.count) {
load(0, true);
}
}
}
if (DEBUG_BUFFER) {
System.out.print(")load, "+offset+": ");
XMLEntityManager.print(fCurrentEntity);
System.out.println();
}
return entityChanged;
} // load(int, boolean):boolean
/**
* This method is invoked to increase the size of the current entity's
* buffer if an XML name being scanned is too large to fit within
* the buffer at its current size.
*/
final void resizeBuffer(int offset, int length) {
char[] tmp = new char[fCurrentEntity.ch.length << 1];
System.arraycopy(fCurrentEntity.ch, offset,
tmp, 0, length);
fCurrentEntity.ch = tmp;
} // resizeBuffer(int, int)
} // class XMLEntityScanner