org.apache.xerces.xpointer.XPointerHandler 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.apache.xerces.xpointer;
import java.util.ArrayList;
import java.util.HashMap;
import org.apache.xerces.impl.Constants;
import org.apache.xerces.impl.XMLErrorReporter;
import org.apache.xerces.util.SymbolTable;
import org.apache.xerces.util.XMLChar;
import org.apache.xerces.util.XMLSymbols;
import org.apache.xerces.xinclude.XIncludeHandler;
import org.apache.xerces.xinclude.XIncludeNamespaceSupport;
import org.apache.xerces.xni.Augmentations;
import org.apache.xerces.xni.QName;
import org.apache.xerces.xni.XMLAttributes;
import org.apache.xerces.xni.XMLDocumentHandler;
import org.apache.xerces.xni.XMLString;
import org.apache.xerces.xni.XNIException;
import org.apache.xerces.xni.parser.XMLConfigurationException;
import org.apache.xerces.xni.parser.XMLErrorHandler;
/**
*
* This is a pipeline component which extends the XIncludeHandler to perform
* XPointer specific processing specified in the W3C XPointerFramework and
* element() Scheme Recommendations.
*
*
*
* This component analyzes each event in the pipeline, looking for an element
* that matches a PointerPart in the parent XInclude element's xpointer attribute
* value. If the match succeeds, all children are passed by this component.
*
*
*
* See the XPointer Framework Recommendation for
* more information on the XPointer Framework and ShortHand Pointers.
* See the XPointer element() Scheme Recommendation for
* more information on the XPointer element() Scheme.
*
*
* @xerces.internal
*
* @version $Id: XPointerHandler.java 883493 2009-11-23 20:39:18Z knoaman $
*/
public final class XPointerHandler extends XIncludeHandler implements
XPointerProcessor {
// Fields
// An ArrayList of XPointerParts
protected ArrayList fXPointerParts = null;
// The current XPointerPart
protected XPointerPart fXPointerPart = null;
// Has the fXPointerPart resolved successfully
protected boolean fFoundMatchingPtrPart = false;
// The XPointer Error reporter
protected XMLErrorReporter fXPointerErrorReporter;
// The XPointer Error Handler
protected XMLErrorHandler fErrorHandler;
// XPointerFramework symbol table
protected SymbolTable fSymbolTable = null;
// Supported schemes
private final String ELEMENT_SCHEME_NAME = "element";
// Has the XPointer resolved the subresource
protected boolean fIsXPointerResolved = false;
// Fixup xml:base and xml:lang attributes
protected boolean fFixupBase = false;
protected boolean fFixupLang = false;
// ************************************************************************
// Constructors
// ************************************************************************
/**
*
*/
public XPointerHandler() {
super();
fXPointerParts = new ArrayList();
fSymbolTable = new SymbolTable();
}
public XPointerHandler(SymbolTable symbolTable,
XMLErrorHandler errorHandler, XMLErrorReporter errorReporter) {
super();
fXPointerParts = new ArrayList();
fSymbolTable = symbolTable;
fErrorHandler = errorHandler;
fXPointerErrorReporter = errorReporter;
//fErrorReporter = errorReporter; // The XInclude ErrorReporter
}
public void setDocumentHandler(XMLDocumentHandler handler) {
fDocumentHandler = handler;
}
// ************************************************************************
// Implementation of the XPointerProcessor interface.
// ************************************************************************
/**
* Parses the XPointer framework expression and delegates scheme specific parsing.
*
* @see org.apache.xerces.xpointer.XPointerProcessor#parseXPointer(java.lang.String)
*/
public void parseXPointer(String xpointer) throws XNIException {
// Initialize
init();
// tokens
final Tokens tokens = new Tokens(fSymbolTable);
// scanner
Scanner scanner = new Scanner(fSymbolTable) {
protected void addToken(Tokens tokens, int token)
throws XNIException {
if (token == Tokens.XPTRTOKEN_OPEN_PAREN
|| token == Tokens.XPTRTOKEN_CLOSE_PAREN
|| token == Tokens.XPTRTOKEN_SCHEMENAME
|| token == Tokens.XPTRTOKEN_SCHEMEDATA
|| token == Tokens.XPTRTOKEN_SHORTHAND) {
super.addToken(tokens, token);
return;
}
reportError("InvalidXPointerToken", new Object[] { tokens
.getTokenString(token) });
}
};
// scan the XPointer expression
int length = xpointer.length();
boolean success = scanner.scanExpr(fSymbolTable, tokens, xpointer, 0,
length);
if (!success)
reportError("InvalidXPointerExpression", new Object[] { xpointer });
while (tokens.hasMore()) {
int token = tokens.nextToken();
switch (token) {
case Tokens.XPTRTOKEN_SHORTHAND: {
// The shortHand name
token = tokens.nextToken();
String shortHandPointerName = tokens.getTokenString(token);
if (shortHandPointerName == null) {
reportError("InvalidXPointerExpression",
new Object[] { xpointer });
}
XPointerPart shortHandPointer = new ShortHandPointer(
fSymbolTable);
shortHandPointer.setSchemeName(shortHandPointerName);
fXPointerParts.add(shortHandPointer);
break;
}
case Tokens.XPTRTOKEN_SCHEMENAME: {
// Retreive the local name and prefix to form the scheme name
token = tokens.nextToken();
String prefix = tokens.getTokenString(token);
token = tokens.nextToken();
String localName = tokens.getTokenString(token);
String schemeName = prefix + localName;
// The next character should be an open parenthesis
int openParenCount = 0;
int closeParenCount = 0;
token = tokens.nextToken();
String openParen = tokens.getTokenString(token);
if (openParen != "XPTRTOKEN_OPEN_PAREN") {
// can not have more than one ShortHand Pointer
if (token == Tokens.XPTRTOKEN_SHORTHAND) {
reportError("MultipleShortHandPointers",
new Object[] { xpointer });
} else {
reportError("InvalidXPointerExpression",
new Object[] { xpointer });
}
}
openParenCount++;
// followed by zero or more ( and the schemeData
String schemeData = null;
while (tokens.hasMore()) {
token = tokens.nextToken();
schemeData = tokens.getTokenString(token);
if (schemeData != "XPTRTOKEN_OPEN_PAREN") {
break;
}
openParenCount++;
}
token = tokens.nextToken();
schemeData = tokens.getTokenString(token);
// followed by the same number of )
token = tokens.nextToken();
String closeParen = tokens.getTokenString(token);
if (closeParen != "XPTRTOKEN_CLOSE_PAREN") {
reportError("SchemeDataNotFollowedByCloseParenthesis",
new Object[] { xpointer });
}
closeParenCount++;
while (tokens.hasMore()) {
if (tokens.getTokenString(tokens.peekToken()) != "XPTRTOKEN_OPEN_PAREN") {
break;
}
closeParenCount++;
}
// check if the number of open parenthesis are equal to the number of close parenthesis
if (openParenCount != closeParenCount) {
reportError("UnbalancedParenthesisInXPointerExpression",
new Object[] { xpointer,
new Integer(openParenCount),
new Integer(closeParenCount) });
}
// Perform scheme specific parsing of the pointer part
if (schemeName.equals(ELEMENT_SCHEME_NAME)) {
XPointerPart elementSchemePointer = new ElementSchemePointer(
fSymbolTable, fErrorReporter);
elementSchemePointer.setSchemeName(schemeName);
elementSchemePointer.setSchemeData(schemeData);
// If an exception occurs while parsing the element() scheme expression
// ignore it and move on to the next pointer part
try {
elementSchemePointer.parseXPointer(schemeData);
fXPointerParts.add(elementSchemePointer);
} catch (XNIException e) {
// Re-throw the XPointer element() scheme syntax error.
throw new XNIException (e);
}
} else {
// ????
reportWarning("SchemeUnsupported",
new Object[] { schemeName });
}
break;
}
default:
reportError("InvalidXPointerExpression",
new Object[] { xpointer });
}
}
}
/**
*
* @see org.apache.xerces.xpointer.XPointerProcessor#resolveXPointer(org.apache.xerces.xni.QName, org.apache.xerces.xni.XMLAttributes, org.apache.xerces.xni.Augmentations, int event)
*/
public boolean resolveXPointer(QName element, XMLAttributes attributes,
Augmentations augs, int event) throws XNIException {
boolean resolved = false;
// The result of the first pointer part whose evaluation identifies
// one or more subresources is reported by the XPointer processor as the
// result of the pointer as a whole, and evaluation stops.
// In our implementation, typically the first xpointer scheme that
// matches an element is the document is considered.
// If the pointer part resolved then use it, else search for the fragment
// using next pointer part from lef-right.
if (!fFoundMatchingPtrPart) {
// for each element, attempt to resolve it against each pointer part
// in the XPointer expression until a matching element is found.
for (int i = 0; i < fXPointerParts.size(); i++) {
fXPointerPart = (XPointerPart) fXPointerParts.get(i);
if (fXPointerPart.resolveXPointer(element, attributes, augs,
event)) {
fFoundMatchingPtrPart = true;
resolved = true;
}
}
} else {
if (fXPointerPart.resolveXPointer(element, attributes, augs, event)) {
resolved = true;
}
}
if (!fIsXPointerResolved) {
fIsXPointerResolved = resolved;
}
return resolved;
}
/**
* Returns true if the Node fragment is resolved.
*
* @see org.apache.xerces.xpointer.XPointerProcessor#isFragmentResolved()
*/
public boolean isFragmentResolved() throws XNIException {
boolean resolved = (fXPointerPart != null) ? fXPointerPart.isFragmentResolved()
: false;
if (!fIsXPointerResolved) {
fIsXPointerResolved = resolved;
}
return resolved;
}
/**
* Returns true if the XPointer expression resolves to a non-element child
* of the current resource fragment.
*
* @see org.apache.xerces.xpointer.XPointerPart#isChildFragmentResolved()
*
*/
public boolean isChildFragmentResolved() throws XNIException {
boolean resolved = (fXPointerPart != null) ? fXPointerPart
.isChildFragmentResolved() : false;
return resolved;
}
/**
* Returns true if the XPointer successfully found a sub-resource .
*
* @see org.apache.xerces.xpointer.XPointerProcessor#isFragmentResolved()
*/
public boolean isXPointerResolved() throws XNIException {
return fIsXPointerResolved;
}
/**
* Returns the pointer part used to resolve the document fragment.
*
* @return String - The pointer part used to resolve the document fragment.
*/
public XPointerPart getXPointerPart() {
return fXPointerPart;
}
/**
* Reports XPointer Errors
*
*/
private void reportError(String key, Object[] arguments)
throws XNIException {
/*
fXPointerErrorReporter.reportError(
XPointerMessageFormatter.XPOINTER_DOMAIN, key, arguments,
XMLErrorReporter.SEVERITY_ERROR);
*/
throw new XNIException((fErrorReporter
.getMessageFormatter(XPointerMessageFormatter.XPOINTER_DOMAIN))
.formatMessage(fErrorReporter.getLocale(), key, arguments));
}
/**
* Reports XPointer Warnings
*
*/
private void reportWarning(String key, Object[] arguments)
throws XNIException {
fXPointerErrorReporter.reportError(
XPointerMessageFormatter.XPOINTER_DOMAIN, key, arguments,
XMLErrorReporter.SEVERITY_WARNING);
}
/**
* Initializes error handling objects
*
*/
protected void initErrorReporter() {
if (fXPointerErrorReporter == null) {
fXPointerErrorReporter = new XMLErrorReporter();
}
if (fErrorHandler == null) {
fErrorHandler = new XPointerErrorHandler();
}
/*
fXPointerErrorReporter.setProperty(Constants.XERCES_PROPERTY_PREFIX
+ Constants.ERROR_HANDLER_PROPERTY, fErrorHandler);
*/
fXPointerErrorReporter.putMessageFormatter(
XPointerMessageFormatter.XPOINTER_DOMAIN,
new XPointerMessageFormatter());
}
/**
* Initializes the XPointer Processor;
*/
protected void init() {
fXPointerParts.clear();
fXPointerPart = null;
fFoundMatchingPtrPart = false;
fIsXPointerResolved = false;
//fFixupBase = false;
//fFixupLang = false;
initErrorReporter();
}
/**
* Returns an ArrayList of XPointerPart objects
*
* @return An ArrayList of XPointerPart objects.
*/
public ArrayList getPointerParts() {
return fXPointerParts;
}
/**
* List of XPointer Framework tokens.
*
* @xerces.internal
*
*/
private final class Tokens {
/**
* XPointer Framework tokens
* [1] Pointer ::= Shorthand | SchemeBased
* [2] Shorthand ::= NCName
* [3] SchemeBased ::= PointerPart (S? PointerPart)*
* [4] PointerPart ::= SchemeName '(' SchemeData ')'
* [5] SchemeName ::= QName
* [6] SchemeData ::= EscapedData*
* [7] EscapedData ::= NormalChar | '^(' | '^)' | '^^' | '(' SchemeData ')'
* [8] NormalChar ::= UnicodeChar - [()^]
* [9] UnicodeChar ::= [#x0-#x10FFFF]
*
*/
private static final int XPTRTOKEN_OPEN_PAREN = 0,
XPTRTOKEN_CLOSE_PAREN = 1, XPTRTOKEN_SHORTHAND = 2,
XPTRTOKEN_SCHEMENAME = 3, XPTRTOKEN_SCHEMEDATA = 4;
// Token names
private final String[] fgTokenNames = { "XPTRTOKEN_OPEN_PAREN",
"XPTRTOKEN_CLOSE_PAREN", "XPTRTOKEN_SHORTHAND",
"XPTRTOKEN_SCHEMENAME", "XPTRTOKEN_SCHEMEDATA" };
// Token count
private static final int INITIAL_TOKEN_COUNT = 1 << 8;
private int[] fTokens = new int[INITIAL_TOKEN_COUNT];
private int fTokenCount = 0;
// Current token position
private int fCurrentTokenIndex;
private SymbolTable fSymbolTable;
private HashMap fTokenNames = new HashMap();
/**
* Constructor
*
* @param symbolTable SymbolTable
*/
private Tokens(SymbolTable symbolTable) {
fSymbolTable = symbolTable;
fTokenNames.put(new Integer(XPTRTOKEN_OPEN_PAREN),
"XPTRTOKEN_OPEN_PAREN");
fTokenNames.put(new Integer(XPTRTOKEN_CLOSE_PAREN),
"XPTRTOKEN_CLOSE_PAREN");
fTokenNames.put(new Integer(XPTRTOKEN_SHORTHAND),
"XPTRTOKEN_SHORTHAND");
fTokenNames.put(new Integer(XPTRTOKEN_SCHEMENAME),
"XPTRTOKEN_SCHEMENAME");
fTokenNames.put(new Integer(XPTRTOKEN_SCHEMEDATA),
"XPTRTOKEN_SCHEMEDATA");
}
/**
* Returns the token String
* @param token The index of the token
* @return String The token string
*/
private String getTokenString(int token) {
return (String) fTokenNames.get(new Integer(token));
}
/**
* Add the specified string as a token
*
* @param token The token string
*/
private void addToken(String tokenStr) {
Integer tokenInt = (Integer) fTokenNames.get(tokenStr);
if (tokenInt == null) {
tokenInt = new Integer(fTokenNames.size());
fTokenNames.put(tokenInt, tokenStr);
}
addToken(tokenInt.intValue());
}
/**
* Add the specified int token
*
* @param token The int specifying the token
*/
private void addToken(int token) {
try {
fTokens[fTokenCount] = token;
} catch (ArrayIndexOutOfBoundsException ex) {
int[] oldList = fTokens;
fTokens = new int[fTokenCount << 1];
System.arraycopy(oldList, 0, fTokens, 0, fTokenCount);
fTokens[fTokenCount] = token;
}
fTokenCount++;
}
/**
* Resets the current position to the head of the token list.
*/
private void rewind() {
fCurrentTokenIndex = 0;
}
/**
* Returns true if the {@link #getNextToken()} method
* returns a valid token.
*/
private boolean hasMore() {
return fCurrentTokenIndex < fTokenCount;
}
/**
* Obtains the token at the current position, then advance
* the current position by one.
*
* throws If there's no such next token, this method throws
* new XNIException("XPointerProcessingError");.
*/
private int nextToken() throws XNIException {
if (fCurrentTokenIndex == fTokenCount) {
reportError("XPointerProcessingError", null);
}
return fTokens[fCurrentTokenIndex++];
}
/**
* Obtains the token at the current position, without advancing
* the current position.
*
* If there's no such next token, this method throws
* new XNIException("XPointerProcessingError");.
*/
private int peekToken() throws XNIException {
if (fCurrentTokenIndex == fTokenCount) {
reportError("XPointerProcessingError", null);
}
return fTokens[fCurrentTokenIndex];
}
/**
* Obtains the token at the current position as a String.
*
* If there's no current token or if the current token
* is not a string token, this method throws
* If there's no such next token, this method throws
* new XNIException("XPointerProcessingError");.
*/
private String nextTokenAsString() throws XNIException {
String tokenStrint = getTokenString(nextToken());
if (tokenStrint == null) {
reportError("XPointerProcessingError", null);
}
return tokenStrint;
}
}
/**
*
* The XPointer expression scanner. Scans the XPointer framework expression.
*
* @xerces.internal
*
*/
private class Scanner {
/**
* 7-bit ASCII subset
*
* 0 1 2 3 4 5 6 7 8 9 A B C D E F
* 0, 0, 0, 0, 0, 0, 0, 0, 0, HT, LF, 0, 0, CR, 0, 0, // 0
* 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 1
* SP, !, ", #, $, %, &, ', (, ), *, +, ,, -, ., /, // 2
* 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, :, ;, <, =, >, ?, // 3
* @, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, // 4
* P, Q, R, S, T, U, V, W, X, Y, Z, [, \, ], ^, _, // 5
* `, a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, // 6
* p, q, r, s, t, u, v, w, x, y, z, {, |, }, ~, DEL // 7
*/
private static final byte CHARTYPE_INVALID = 0, // invalid XML character
CHARTYPE_OTHER = 1, // not special - one of "#%&;?\`{}~" or DEL
CHARTYPE_WHITESPACE = 2, // one of "\t\n\r " (0x09, 0x0A, 0x0D, 0x20)
CHARTYPE_CARRET = 3, // ^
CHARTYPE_OPEN_PAREN = 4, // '(' (0x28)
CHARTYPE_CLOSE_PAREN = 5, // ')' (0x29)
CHARTYPE_MINUS = 6, // '-' (0x2D)
CHARTYPE_PERIOD = 7, // '.' (0x2E)
CHARTYPE_SLASH = 8, // '/' (0x2F)
CHARTYPE_DIGIT = 9, // '0'-'9' (0x30 to 0x39)
CHARTYPE_COLON = 10, // ':' (0x3A)
CHARTYPE_EQUAL = 11, // '=' (0x3D)
CHARTYPE_LETTER = 12, // 'A'-'Z' or 'a'-'z' (0x41 to 0x5A and 0x61 to 0x7A)
CHARTYPE_UNDERSCORE = 13, // '_' (0x5F)
CHARTYPE_NONASCII = 14; // Non-ASCII Unicode codepoint (>= 0x80)
private final byte[] fASCIICharMap = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 2,
0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
2, 1, 1, 1, 1, 1, 1, 1, 4, 5, 1, 1, 1, 6, 7, 8, 9, 9, 9, 9, 9,
9, 9, 9, 9, 9, 10, 1, 1, 11, 1, 1, 1, 12, 12, 12, 12, 12, 12,
12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12,
12, 12, 12, 12, 1, 1, 1, 3, 13, 1, 12, 12, 12, 12, 12, 12, 12,
12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12,
12, 12, 12, 1, 1, 1, 1, 1 };
//
// Data
//
/** Symbol table. */
private SymbolTable fSymbolTable;
/**
* Constructs an XPointer Framework expression scanner.
*
* @param symbolTable SymbolTable
*/
private Scanner(SymbolTable symbolTable) {
// save pool and tokens
fSymbolTable = symbolTable;
} // (SymbolTable)
/**
* Scans the XPointer Expression
*
*/
private boolean scanExpr(SymbolTable symbolTable, Tokens tokens,
String data, int currentOffset, int endOffset)
throws XNIException {
int ch;
int openParen = 0;
int closeParen = 0;
int nameOffset, dataOffset;
boolean isQName = false;
String name = null;
String prefix = null;
String schemeData = null;
StringBuffer schemeDataBuff = new StringBuffer();
while (true) {
if (currentOffset == endOffset) {
break;
}
ch = data.charAt(currentOffset);
//
while (ch == ' ' || ch == 0x0A || ch == 0x09 || ch == 0x0D) {
if (++currentOffset == endOffset) {
break;
}
ch = data.charAt(currentOffset);
}
if (currentOffset == endOffset) {
break;
}
//
// [1] Pointer ::= Shorthand | SchemeBased
// [2] Shorthand ::= NCName
// [3] SchemeBased ::= PointerPart (S? PointerPart)*
// [4] PointerPart ::= SchemeName '(' SchemeData ')'
// [5] SchemeName ::= QName
// [6] SchemeData ::= EscapedData*
// [7] EscapedData ::= NormalChar | '^(' | '^)' | '^^' | '(' SchemeData ')'
// [8] NormalChar ::= UnicodeChar - [()^]
// [9] UnicodeChar ::= [#x0-#x10FFFF]
// [?] QName ::= (NCName ':')? NCName
// [?] NCName ::= (Letter | '_') (NCNameChar)*
// [?] NCNameChar ::= Letter | Digit | '.' | '-' | '_' (ascii subset of 'NCNameChar')
// [?] Letter ::= [A-Za-z] (ascii subset of 'Letter')
// [?] Digit ::= [0-9] (ascii subset of 'Digit')
//
byte chartype = (ch >= 0x80) ? CHARTYPE_NONASCII
: fASCIICharMap[ch];
switch (chartype) {
case CHARTYPE_OPEN_PAREN: // '('
addToken(tokens, Tokens.XPTRTOKEN_OPEN_PAREN);
openParen++;
++currentOffset;
break;
case CHARTYPE_CLOSE_PAREN: // ')'
addToken(tokens, Tokens.XPTRTOKEN_CLOSE_PAREN);
closeParen++;
++currentOffset;
break;
case CHARTYPE_CARRET:
case CHARTYPE_COLON:
case CHARTYPE_DIGIT:
case CHARTYPE_EQUAL:
case CHARTYPE_LETTER:
case CHARTYPE_MINUS:
case CHARTYPE_NONASCII:
case CHARTYPE_OTHER:
case CHARTYPE_PERIOD:
case CHARTYPE_SLASH:
case CHARTYPE_UNDERSCORE:
case CHARTYPE_WHITESPACE:
// Scanning SchemeName | Shorthand
if (openParen == 0) {
nameOffset = currentOffset;
currentOffset = scanNCName(data, endOffset,
currentOffset);
if (currentOffset == nameOffset) {
reportError("InvalidShortHandPointer",
new Object[] { data });
return false;
}
if (currentOffset < endOffset) {
ch = data.charAt(currentOffset);
} else {
ch = -1;
}
name = symbolTable.addSymbol(data.substring(nameOffset,
currentOffset));
prefix = XMLSymbols.EMPTY_STRING;
// The name is a QName => a SchemeName
if (ch == ':') {
if (++currentOffset == endOffset) {
return false;
}
ch = data.charAt(currentOffset);
prefix = name;
nameOffset = currentOffset;
currentOffset = scanNCName(data, endOffset,
currentOffset);
if (currentOffset == nameOffset) {
return false;
}
if (currentOffset < endOffset) {
ch = data.charAt(currentOffset);
} else {
ch = -1;
}
isQName = true;
name = symbolTable.addSymbol(data.substring(
nameOffset, currentOffset));
}
// REVISIT:
if (currentOffset != endOffset) {
addToken(tokens, Tokens.XPTRTOKEN_SCHEMENAME);
tokens.addToken(prefix);
tokens.addToken(name);
isQName = false;
} else if (currentOffset == endOffset) {
// NCName => Shorthand
addToken(tokens, Tokens.XPTRTOKEN_SHORTHAND);
tokens.addToken(name);
isQName = false;
}
// reset open/close paren for the next pointer part
closeParen = 0;
break;
} else if (openParen > 0 && closeParen == 0 && name != null) {
// Scanning SchemeData
dataOffset = currentOffset;
currentOffset = scanData(data, schemeDataBuff,
endOffset, currentOffset);
if (currentOffset == dataOffset) {
reportError("InvalidSchemeDataInXPointer",
new Object[] { data });
return false;
}
if (currentOffset < endOffset) {
ch = data.charAt(currentOffset);
} else {
ch = -1;
}
schemeData = symbolTable.addSymbol(schemeDataBuff
.toString());
addToken(tokens, Tokens.XPTRTOKEN_SCHEMEDATA);
tokens.addToken(schemeData);
// reset open/close paren for the next pointer part
openParen = 0;
schemeDataBuff.delete(0, schemeDataBuff.length());
} else {
// ex. schemeName()
// Should we throw an exception with a more suitable message instead??
return false;
}
}
} // end while
return true;
}
/**
* Scans a NCName.
* From Namespaces in XML
* [5] NCName ::= (Letter | '_') (NCNameChar)*
* [6] NCNameChar ::= Letter | Digit | '.' | '-' | '_' | CombiningChar | Extender
*
* @param data A String containing the XPointer expression
* @param endOffset The int XPointer expression length
* @param currentOffset An int representing the current position of the XPointer expression pointer
*/
private int scanNCName(String data, int endOffset, int currentOffset) {
int ch = data.charAt(currentOffset);
if (ch >= 0x80) {
if (!XMLChar.isNameStart(ch)) {
return currentOffset;
}
} else {
byte chartype = fASCIICharMap[ch];
if (chartype != CHARTYPE_LETTER
&& chartype != CHARTYPE_UNDERSCORE) {
return currentOffset;
}
}
//while (currentOffset++ < endOffset) {
while (++currentOffset < endOffset) {
ch = data.charAt(currentOffset);
if (ch >= 0x80) {
if (!XMLChar.isName(ch)) {
break;
}
} else {
byte chartype = fASCIICharMap[ch];
if (chartype != CHARTYPE_LETTER
&& chartype != CHARTYPE_DIGIT
&& chartype != CHARTYPE_PERIOD
&& chartype != CHARTYPE_MINUS
&& chartype != CHARTYPE_UNDERSCORE) {
break;
}
}
}
return currentOffset;
}
/**
* Scans the SchemeData.
* [6] SchemeData ::= EscapedData*
* [7] EscapedData ::= NormalChar | '^(' | '^)' | '^^' | '(' SchemeData ')'
* [8] NormalChar ::= UnicodeChar - [()^]
* [9] UnicodeChar ::= [#x0-#x10FFFF]
*
*/
private int scanData(String data, StringBuffer schemeData,
int endOffset, int currentOffset) {
while (true) {
if (currentOffset == endOffset) {
break;
}
int ch = data.charAt(currentOffset);
byte chartype = (ch >= 0x80) ? CHARTYPE_NONASCII
: fASCIICharMap[ch];
if (chartype == CHARTYPE_OPEN_PAREN) {
schemeData.append(ch);
//schemeData.append(Tokens.XPTRTOKEN_OPEN_PAREN);
currentOffset = scanData(data, schemeData, endOffset,
++currentOffset);
if (currentOffset == endOffset) {
return currentOffset;
}
ch = data.charAt(currentOffset);
chartype = (ch >= 0x80) ? CHARTYPE_NONASCII
: fASCIICharMap[ch];
if (chartype != CHARTYPE_CLOSE_PAREN) {
return endOffset;
}
schemeData.append((char) ch);
++currentOffset;//
} else if (chartype == CHARTYPE_CLOSE_PAREN) {
return currentOffset;
} else if (chartype == CHARTYPE_CARRET) {
ch = data.charAt(++currentOffset);
chartype = (ch >= 0x80) ? CHARTYPE_NONASCII
: fASCIICharMap[ch];
if (chartype != CHARTYPE_CARRET
&& chartype != CHARTYPE_OPEN_PAREN
&& chartype != CHARTYPE_CLOSE_PAREN) {
break;
}
schemeData.append((char) ch);
++currentOffset;
} else {
schemeData.append((char) ch);
++currentOffset;//
}
}
return currentOffset;
}
//
// Protected methods
//
/**
* This method adds the specified token to the token list. By
* default, this method allows all tokens. However, subclasses
* of the XPathExprScanner can override this method in order
* to disallow certain tokens from being used in the scanned
* XPath expression. This is a convenient way of allowing only
* a subset of XPath.
*/
protected void addToken(Tokens tokens, int token) throws XNIException {
tokens.addToken(token);
} // addToken(int)
} // class Scanner
// ************************************************************************
// Overridden XMLDocumentHandler methods
// ************************************************************************
/**
* If the comment is a child of a matched element, then pass else return.
*
* @param text The text in the comment.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by application to signal an error.
*/
public void comment(XMLString text, Augmentations augs) throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.comment(text, augs);
}
/**
* A processing instruction. Processing instructions consist of a
* target name and, optionally, text data. The data is only meaningful
* to the application.
*
* Typically, a processing instruction's data will contain a series
* of pseudo-attributes. These pseudo-attributes follow the form of
* element attributes but are not parsed or presented
* to the application as anything other than text. The application is
* responsible for parsing the data.
*
* @param target The target.
* @param data The data or null if none specified.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void processingInstruction(String target, XMLString data,
Augmentations augs) throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.processingInstruction(target, data, augs);
}
/**
* The start of an element.
*
* @param element The name of the element.
* @param attributes The element attributes.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void startElement(QName element, XMLAttributes attributes,
Augmentations augs) throws XNIException {
if (!resolveXPointer(element, attributes, augs,
XPointerPart.EVENT_ELEMENT_START)) {
// xml:base and xml:lang processing
if (fFixupBase) {
processXMLBaseAttributes(attributes);
}
if (fFixupLang) {
processXMLLangAttributes(attributes);
}
// set the context invalid if the element till an element from the result infoset is included
fNamespaceContext.setContextInvalid();
return;
}
super.startElement(element, attributes, augs);
}
/**
* An empty element.
*
* @param element The name of the element.
* @param attributes The element attributes.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void emptyElement(QName element, XMLAttributes attributes,
Augmentations augs) throws XNIException {
if (!resolveXPointer(element, attributes, augs,
XPointerPart.EVENT_ELEMENT_EMPTY)) {
// xml:base and xml:lang processing
if (fFixupBase) {
processXMLBaseAttributes(attributes);
}
if (fFixupLang) {
processXMLLangAttributes(attributes);
}
// no need to restore restoreBaseURI() for xml:base and xml:lang processing
// set the context invalid if the element till an element from the result infoset is included
fNamespaceContext.setContextInvalid();
return;
}
super.emptyElement(element, attributes, augs);
}
/**
* Character content.
*
* @param text The content.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void characters(XMLString text, Augmentations augs)
throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.characters(text, augs);
}
/**
* Ignorable whitespace. For this method to be called, the document
* source must have some way of determining that the text containing
* only whitespace characters should be considered ignorable. For
* example, the validator can determine if a length of whitespace
* characters in the document are ignorable based on the element
* content model.
*
* @param text The ignorable whitespace.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void ignorableWhitespace(XMLString text, Augmentations augs)
throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.ignorableWhitespace(text, augs);
}
/**
* The end of an element.
*
* @param element The name of the element.
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void endElement(QName element, Augmentations augs)
throws XNIException {
if (!resolveXPointer(element, null, augs,
XPointerPart.EVENT_ELEMENT_END)) {
// no need to restore restoreBaseURI() for xml:base and xml:lang processing
return;
}
super.endElement(element, augs);
}
/**
* The start of a CDATA section.
*
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void startCDATA(Augmentations augs) throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.startCDATA(augs);
}
/**
* The end of a CDATA section.
*
* @param augs Additional information that may include infoset augmentations
*
* @exception XNIException
* Thrown by handler to signal an error.
*/
public void endCDATA(Augmentations augs) throws XNIException {
if (!isChildFragmentResolved()) {
return;
}
super.endCDATA(augs);
}
// ************************************************************************
// Overridden XMLComponent methods
// ************************************************************************
/**
*
* Sets the value of a property. This method is called by the component
* manager any time after reset when a property changes value.
*
* Note: Components should silently ignore properties
* that do not affect the operation of the component.
*
* @param propertyId The property identifier.
* @param value The value of the property.
*
* @throws XMLConfigurationException Thrown for configuration error.
* In general, components should
* only throw this exception if
* it is really
* a critical error.
*/
public void setProperty(String propertyId, Object value)
throws XMLConfigurationException {
// Error reporter
if (propertyId == Constants.XERCES_PROPERTY_PREFIX
+ Constants.ERROR_REPORTER_PROPERTY) {
if (value != null) {
fXPointerErrorReporter = (XMLErrorReporter) value;
} else {
fXPointerErrorReporter = null;
}
}
// Error handler
if (propertyId == Constants.XERCES_PROPERTY_PREFIX
+ Constants.ERROR_HANDLER_PROPERTY) {
if (value != null) {
fErrorHandler = (XMLErrorHandler) value;
} else {
fErrorHandler = null;
}
}
// xml:lang
if (propertyId == Constants.XERCES_FEATURE_PREFIX
+ Constants.XINCLUDE_FIXUP_LANGUAGE_FEATURE) {
if (value != null) {
fFixupLang = ((Boolean)value).booleanValue();
} else {
fFixupLang = false;
}
}
// xml:base
if (propertyId == Constants.XERCES_FEATURE_PREFIX
+ Constants.XINCLUDE_FIXUP_BASE_URIS_FEATURE) {
if (value != null) {
fFixupBase = ((Boolean)value).booleanValue();
} else {
fFixupBase = false;
}
}
//
if (propertyId == Constants.XERCES_PROPERTY_PREFIX
+ Constants.NAMESPACE_CONTEXT_PROPERTY) {
fNamespaceContext = (XIncludeNamespaceSupport) value;
}
super.setProperty(propertyId, value);
}
}