Java Source Code for Xerces Java 2.11.2

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org/apache/xerces/impl/xpath/XPath.java

/*
 * 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.impl.xpath;

import java.util.ArrayList;
import java.util.Vector;

import org.apache.xerces.util.SymbolTable;
import org.apache.xerces.util.XMLChar;
import org.apache.xerces.util.XMLSymbols;
import org.apache.xerces.xni.NamespaceContext;
import org.apache.xerces.xni.QName;

/**
 * Bare minimum XPath parser.
 * 
 * @xerces.internal
 *
 * @author Andy Clark, IBM
 * @version $Id: XPath.java 965250 2010-07-18 16:04:58Z mrglavas $
 */
public class XPath {

    //
    // Constants
    //

    private static final boolean DEBUG_ALL = false;

    private static final boolean DEBUG_XPATH_PARSE = DEBUG_ALL || false;

    private static final boolean DEBUG_ANY = DEBUG_XPATH_PARSE;

    //
    // Data
    //

    /** Expression. */
    protected final String fExpression;

    /** Symbol table. */
    protected final SymbolTable fSymbolTable;

    /** Location paths. */
    protected final LocationPath[] fLocationPaths;

    //
    // Constructors
    //

    /** Constructs an XPath object from the specified expression. */
    public XPath(String xpath, SymbolTable symbolTable,
                 NamespaceContext context)
        throws XPathException {
        fExpression = xpath;
        fSymbolTable = symbolTable;
        fLocationPaths = parseExpression(context);
        if (DEBUG_XPATH_PARSE) {
            System.out.println(">>> "+fLocationPaths);
        }
    } // <init>(String,SymbolTable,NamespaceContext)

    //
    // Public methods
    //

    /**
     * Returns a representation of all location paths for this XPath.
     * XPath = locationPath ( '|' locationPath)
     */
    public LocationPath[] getLocationPaths() {
        LocationPath[] ret=new LocationPath[fLocationPaths.length];
        for (int i=0;i<fLocationPaths.length;i++){
            ret[i]=(LocationPath)fLocationPaths[i].clone();
        }
        return ret;
    } // getLocationPath(LocationPath)

    /** Returns a representation of the first location path for this XPath. */
    public LocationPath getLocationPath() {
        return (LocationPath)fLocationPaths[0].clone();
    } // getLocationPath(LocationPath)

    //
    // Object methods
    //

    /** Returns a string representation of this object. */
    public String toString() {
        StringBuffer buf=new StringBuffer();
        for (int  i=0;i<fLocationPaths.length;i++){
            if (i>0){
                buf.append('|');
            }
            buf.append(fLocationPaths[i].toString());
        }
        return buf.toString();
    } // toString():String

    //
    // Private methods
    //

    /**
     * Used by the {@link #parseExpression(NamespaceContext)} method
     * to verify the assumption.
     * 
     * If <tt>b</tt> is false, this method throws XPathException
     * to report the error.
     */
    private static void check( boolean b ) throws XPathException {
        if(!b)      throw new XPathException("c-general-xpath");
    }
    
    /**
     * Used by the {@link #parseExpression(NamespaceContext)} method
     * to build a {@link LocationPath} object from the accumulated
     * {@link Step}s.
     */
    private LocationPath buildLocationPath( Vector stepsVector ) throws XPathException {
        int size = stepsVector.size();
        check(size!=0);
        Step[] steps = new Step[size];
        stepsVector.copyInto(steps);
        stepsVector.removeAllElements();
        
        return new LocationPath(steps);
    }
    
    /**
     * This method is implemented by using the XPathExprScanner and
     * examining the list of tokens that it returns.
     */
    private LocationPath[] parseExpression(final NamespaceContext context)
        throws XPathException {

        // tokens
        final XPath.Tokens xtokens = new XPath.Tokens(fSymbolTable);

        // scanner
        XPath.Scanner scanner = new XPath.Scanner(fSymbolTable) {
            protected void addToken(XPath.Tokens tokens, int token)
                throws XPathException {
                if (
                    token == XPath.Tokens.EXPRTOKEN_ATSIGN ||
                    token == XPath.Tokens.EXPRTOKEN_NAMETEST_QNAME ||
                    token == XPath.Tokens.EXPRTOKEN_OPERATOR_SLASH ||
                    token == XPath.Tokens.EXPRTOKEN_PERIOD ||
                    token == XPath.Tokens.EXPRTOKEN_NAMETEST_ANY ||
                    token == XPath.Tokens.EXPRTOKEN_NAMETEST_NAMESPACE ||
                    token == XPath.Tokens.EXPRTOKEN_OPERATOR_DOUBLE_SLASH ||
                    token == XPath.Tokens.EXPRTOKEN_OPERATOR_UNION ||
                    token == XPath.Tokens.EXPRTOKEN_AXISNAME_CHILD ||
                    token == XPath.Tokens.EXPRTOKEN_AXISNAME_ATTRIBUTE ||
                    token == XPath.Tokens.EXPRTOKEN_DOUBLE_COLON
                    //
                    ) {
                    super.addToken(tokens, token);
                    return;
                }
                throw new XPathException("c-general-xpath");
            }
        };

        int length = fExpression.length();
        
        boolean success = scanner.scanExpr(fSymbolTable,
                                           xtokens, fExpression, 0, length);
        if(!success)
            throw new XPathException("c-general-xpath");
        
        //fTokens.dumpTokens();
        Vector stepsVector = new Vector();
        ArrayList locationPathsVector= new ArrayList();
        
        // true when the next token should be 'Step' (as defined in
        // the production rule [3] of XML Schema P1 section 3.11.6
        // if false, we are expecting either '|' or '/'.
        //
        // this is to make sure we can detect a token list like
        // 'abc' '/' '/' 'def' 'ghi'
        boolean expectingStep = true;

        while (xtokens.hasMore()) {
            final int token = xtokens.nextToken();

            switch (token) {
                case  XPath.Tokens.EXPRTOKEN_OPERATOR_UNION :{
                    check(!expectingStep);
                    locationPathsVector.add(buildLocationPath(stepsVector));
                    expectingStep=true;
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_ATSIGN: {
                    check(expectingStep);
                    Step step = new Step(
                            new Axis(Axis.ATTRIBUTE),
                            parseNodeTest(xtokens.nextToken(),xtokens,context));
                    stepsVector.addElement(step);
                    expectingStep=false;
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_AXISNAME_ATTRIBUTE: {
                    check(expectingStep);
                    // If we got here we're expecting attribute::
                    if (xtokens.nextToken() != XPath.Tokens.EXPRTOKEN_DOUBLE_COLON) {
                        throw new XPathException("c-general-xpath");
                    }
                    Step step = new Step(
                            new Axis(Axis.ATTRIBUTE),
                            parseNodeTest(xtokens.nextToken(),xtokens,context));
                    stepsVector.addElement(step);
                    expectingStep = false;
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_NAMETEST_ANY:
                case XPath.Tokens.EXPRTOKEN_NAMETEST_NAMESPACE:
                case XPath.Tokens.EXPRTOKEN_NAMETEST_QNAME: {
                    check(expectingStep);
                    Step step = new Step(
                            new Axis(Axis.CHILD),
                            parseNodeTest(token,xtokens,context));
                    stepsVector.addElement(step);
                    expectingStep=false;
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_AXISNAME_CHILD: {
                    check(expectingStep);
                    // If we got here we're expecting child::
                    if (xtokens.nextToken() != XPath.Tokens.EXPRTOKEN_DOUBLE_COLON) {
                        throw new XPathException("c-general-xpath");
                    }
                    Step step = new Step(
                            new Axis(Axis.CHILD),
                            parseNodeTest(xtokens.nextToken(),xtokens,context));
                    stepsVector.addElement(step);
                    expectingStep = false;
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_PERIOD: {
                    check(expectingStep);
                    expectingStep=false;

                    // unless this is the first step in this location path,
                    // there's really no reason to keep them in LocationPath.
                    // This amounts to shorten "a/././b/./c" to "a/b/c".
                    // Also, the matcher fails to work correctly if XPath
                    // has those redundant dots. 
                    if (stepsVector.size()==0) {
                        // build step
                        Axis axis = new Axis(Axis.SELF);
                        NodeTest nodeTest = new NodeTest(NodeTest.NODE);
                        Step step = new Step(axis, nodeTest);
                        stepsVector.addElement(step);
                        
                        if( xtokens.hasMore()
                         && xtokens.peekToken() == XPath.Tokens.EXPRTOKEN_OPERATOR_DOUBLE_SLASH){
                            // consume '//'
                            xtokens.nextToken();    
                            
                            // build step
                            axis = new Axis(Axis.DESCENDANT);
                            nodeTest = new NodeTest(NodeTest.NODE);
                            step = new Step(axis, nodeTest);
                            stepsVector.addElement(step);
                            expectingStep=true;
                        }
                    }
                    break;
                }
                case XPath.Tokens.EXPRTOKEN_OPERATOR_DOUBLE_SLASH:{
                    // this cannot appear in an arbitrary position.
                    // it is only allowed right after '.' when
                    // '.' is the first token of a location path.
                    throw new XPathException("c-general-xpath");
                }
                case XPath.Tokens.EXPRTOKEN_DOUBLE_COLON: {
                    // :: cannot appear in an arbitrary position.
                    // We only expect this token if the xpath
                    // contains child:: or attribute::
                    throw new XPathException("c-general-xpath");
                }
                case XPath.Tokens.EXPRTOKEN_OPERATOR_SLASH: {
                    check(!expectingStep);
                    expectingStep=true;
                    break;
                }
                default:
                    // we should have covered all the tokens that we can possibly see. 
                    throw new InternalError();
            }
        }
        
        check(!expectingStep);

        locationPathsVector.add(buildLocationPath(stepsVector));

        // return location path
        return (LocationPath[])locationPathsVector.toArray(new LocationPath[locationPathsVector.size()]);

    } // parseExpression(SymbolTable,NamespaceContext)

    /**
     * Used by {@link #parseExpression} to parse a node test
     * from the token list.
     */
    private NodeTest parseNodeTest( int typeToken, Tokens xtokens, NamespaceContext context )
        throws XPathException {
        switch(typeToken) {
        case XPath.Tokens.EXPRTOKEN_NAMETEST_ANY:
            return new NodeTest(NodeTest.WILDCARD);
            
        case XPath.Tokens.EXPRTOKEN_NAMETEST_NAMESPACE:
        case XPath.Tokens.EXPRTOKEN_NAMETEST_QNAME:
            // consume QName token
            String prefix = xtokens.nextTokenAsString();
            String uri = null;
            if (context != null && prefix != XMLSymbols.EMPTY_STRING) {
                uri = context.getURI(prefix);
            }
            if (prefix != XMLSymbols.EMPTY_STRING && context != null && uri == null) {
                throw new XPathException("c-general-xpath-ns");
            }
    
            if (typeToken==XPath.Tokens.EXPRTOKEN_NAMETEST_NAMESPACE)
                return new NodeTest(prefix,uri);
    
            String localpart = xtokens.nextTokenAsString();
            String rawname = prefix != XMLSymbols.EMPTY_STRING
            ? fSymbolTable.addSymbol(prefix+':'+localpart)
            : localpart;
    
            return new NodeTest(new QName(prefix, localpart, rawname, uri));
        
        default:
            throw new XPathException("c-general-xpath");
        }
    }
    
    
    //
    // Classes
    //

    // location path information

    /**
     * A location path representation for an XPath expression.
     * 
     * @xerces.internal
     *
     * @author Andy Clark, IBM
     */
    public static class LocationPath
        implements Cloneable {

        //
        // Data
        //

        /** List of steps. */
        public final Step[] steps;

        //
        // Constructors
        //

        /** Creates a location path from a series of steps. */
        public LocationPath(Step[] steps) {
            this.steps = steps;
        } // <init>(Step[])

        /** Copy constructor. */
        protected LocationPath(LocationPath path) {
            steps = new Step[path.steps.length];
            for (int i = 0; i < steps.length; i++) {
                steps[i] = (Step)path.steps[i].clone();
            }
        } // <init>(LocationPath)

        //
        // Object methods
        //

        /** Returns a string representation of this object. */
        public String toString() {
            StringBuffer str = new StringBuffer();
            for (int i = 0; i < steps.length; i++) {
                if (i > 0	&& (steps[i-1].axis.type!=Axis.DESCENDANT
                    && steps[i].axis.type!=Axis.DESCENDANT) ){
                    str.append('/');
                }
                str.append(steps[i].toString());
            }
            // DEBUG: This code is just for debugging and should *not*
            //        be left in because it will mess up hashcodes of
            //        serialized versions of this object. -Ac
            if (false) {
                str.append('[');
                String s = super.toString();
                str.append(s.substring(s.indexOf('@')));
                str.append(']');
            }
            return str.toString();
        } // toString():String

        /** Returns a clone of this object. */
        public Object clone() {
            return new LocationPath(this);
        } // clone():Object

    } // class locationPath

    /**
     * A location path step comprised of an axis and node test.
     * 
     * @xerces.internal
     *
     * @author Andy Clark, IBM
     */
    public static class Step
        implements Cloneable {

        //
        // Data
        //

        /** Axis. */
        public final Axis axis;

        /** Node test. */
        public final NodeTest nodeTest;

        //
        // Constructors
        //

        /** Constructs a step from an axis and node test. */
        public Step(Axis axis, NodeTest nodeTest) {
            this.axis = axis;
            this.nodeTest = nodeTest;
        } // <init>(Axis,NodeTest)

        /** Copy constructor. */
        protected Step(Step step) {
            axis = (Axis)step.axis.clone();
            nodeTest = (NodeTest)step.nodeTest.clone();
        } // <init>(Step)

        //
        // Object methods
        //

        /** Returns a string representation of this object. */
        public String toString() {
            if (axis.type == Axis.SELF) {
                return ".";
            }
            if (axis.type == Axis.ATTRIBUTE) {
                return "@" + nodeTest.toString();
            }
            if (axis.type == Axis.CHILD) {
                return nodeTest.toString();
            }
            if (axis.type == Axis.DESCENDANT) {
                return "//";
            }
            return "??? ("+axis.type+')';
        } // toString():String

        /** Returns a clone of this object. */
        public Object clone() {
            return new Step(this);
        } // clone():Object

    } // class Step

    /**
     * Axis.
     * 
     * @xerces.internal
     *
     * @author Andy Clark, IBM
     */
    public static class Axis
        implements Cloneable {

        //
        // Constants
        //

        /** Type: child. */
        public static final short CHILD = 1;

        /** Type: attribute. */
        public static final short ATTRIBUTE = 2;

        /** Type: self. */
        public static final short SELF = 3;


        /** Type: descendant. */
        public static final short DESCENDANT = 4;
        //
        // Data
        //

        /** Axis type. */
        public final short type;

        //
        // Constructors
        //

        /** Constructs an axis with the specified type. */
        public Axis(short type) {
            this.type = type;
        } // <init>(short)

        /** Copy constructor. */
        protected Axis(Axis axis) {
            type = axis.type;
        } // <init>(Axis)

        //
        // Object methods
        //

        /** Returns a string representation of this object. */
        public String toString() {
            switch (type) {
                case CHILD: return "child";
                case ATTRIBUTE: return "attribute";
                case SELF: return "self";
                case DESCENDANT: return "descendant";
            }
            return "???";
        } // toString():String

        /** Returns a clone of this object. */
        public Object clone() {
            return new Axis(this);
        } // clone():Object

    } // class Axis

    /**
     * Node test.
     * 
     * @xerces.internal
     *
     * @author Andy Clark, IBM
     */
    public static class NodeTest
        implements Cloneable {

        //
        // Constants
        //

        /** Type: qualified name. */
        public static final short QNAME = 1;

        /** Type: wildcard. */
        public static final short WILDCARD = 2;

        /** Type: node. */
        public static final short NODE = 3;

        /** Type: namespace */
        public static final short NAMESPACE= 4;

        //
        // Data
        //

        /** Node test type. */
        public final short type;

        /** Node qualified name. */
        public final QName name = new QName();

        //
        // Constructors
        //

        /** Constructs a node test of type WILDCARD or NODE. */
        public NodeTest(short type) {
            this.type = type;
        } // <init>(int)

        /** Constructs a node test of type QName. */
        public NodeTest(QName name) {
            this.type = QNAME;
            this.name.setValues(name);
        } // <init>(QName)
        /** Constructs a node test of type Namespace. */
        public NodeTest(String prefix, String uri) {
            this.type = NAMESPACE;
            this.name.setValues(prefix, null, null, uri);
        } // <init>(String,String)

        /** Copy constructor. */
        public NodeTest(NodeTest nodeTest) {
            type = nodeTest.type;
            name.setValues(nodeTest.name);
        } // <init>(NodeTest)

        //
        // Object methods
        //

        /** Returns a string representation of this object. */
        public String toString() {

            switch (type) {
                case QNAME: {
                    if (name.prefix.length() !=0) {
                        if (name.uri != null) {
                            return name.prefix+':'+name.localpart;
                        }
                        return "{"+name.uri+'}'+name.prefix+':'+name.localpart;
                    }
                    return name.localpart;
                }
                case NAMESPACE: {
                    if (name.prefix.length() !=0) {
                        if (name.uri != null) {
                            return name.prefix+":*";
                        }
                        return "{"+name.uri+'}'+name.prefix+":*";
                    }
                    return "???:*";
                }
                case WILDCARD: {
                    return "*";
                }
                case NODE: {
                    return "node()";
                }
            }
            return "???";

        } // toString():String

        /** Returns a clone of this object. */
        public Object clone() {
            return new NodeTest(this);
        } // clone():Object

    } // class NodeTest

    // xpath implementation

    // NOTE: The XPath implementation classes are kept internal because
    //       this implementation is just a temporary hack until a better
    //       and/or more appropriate implementation can be written.
    //       keeping the code in separate source files would "muddy" the
    //       CVS directory when it's not needed. -Ac

    /**
     * List of tokens.
     * 
     * @xerces.internal
     * 
     * @author Glenn Marcy, IBM
     * @author Andy Clark, IBM
     *
     * @version $Id: XPath.java 965250 2010-07-18 16:04:58Z mrglavas $
     */
    private static final class Tokens {

        static final boolean DUMP_TOKENS = false;

        /**
         * [28] ExprToken ::= '(' | ')' | '[' | ']' | '.' | '..' | '@' | ',' | '::'
         *                  | NameTest | NodeType | Operator | FunctionName
         *                  | AxisName | Literal | Number | VariableReference
         */
        public static final int
            EXPRTOKEN_OPEN_PAREN                    =   0,
            EXPRTOKEN_CLOSE_PAREN                   =   1,
            EXPRTOKEN_OPEN_BRACKET                  =   2,
            EXPRTOKEN_CLOSE_BRACKET                 =   3,
            EXPRTOKEN_PERIOD                        =   4,
            EXPRTOKEN_DOUBLE_PERIOD                 =   5,
            EXPRTOKEN_ATSIGN                        =   6,
            EXPRTOKEN_COMMA                         =   7,
            EXPRTOKEN_DOUBLE_COLON                  =   8,
            //
            // [37] NameTest ::= '*' | NCName ':' '*' | QName
            //
            // followed by symbol handle of NCName or QName
            //
            EXPRTOKEN_NAMETEST_ANY                  =   9,
            EXPRTOKEN_NAMETEST_NAMESPACE            =  10,
            EXPRTOKEN_NAMETEST_QNAME                =  11,
            //
            // [38] NodeType ::= 'comment' | 'text' | 'processing-instruction' | 'node'
            //
            EXPRTOKEN_NODETYPE_COMMENT              =  12,
            EXPRTOKEN_NODETYPE_TEXT                 =  13,
            EXPRTOKEN_NODETYPE_PI                   =  14,
            EXPRTOKEN_NODETYPE_NODE                 =  15,
            //
            // [32] Operator ::= OperatorName
            //                 | MultiplyOperator
            //                 | '/' | '//' | '|' | '+' | '-' | '=' | '!=' | '<' | '<=' | '>' | '>='
            // [33] OperatorName ::= 'and' | 'or' | 'mod' | 'div'
            // [34] MultiplyOperator ::= '*'
            //
            EXPRTOKEN_OPERATOR_AND                  =  16,
            EXPRTOKEN_OPERATOR_OR                   =  17,
            EXPRTOKEN_OPERATOR_MOD                  =  18,
            EXPRTOKEN_OPERATOR_DIV                  =  19,
            EXPRTOKEN_OPERATOR_MULT                 =  20,
            EXPRTOKEN_OPERATOR_SLASH                =  21,
            EXPRTOKEN_OPERATOR_DOUBLE_SLASH         =  22,
            EXPRTOKEN_OPERATOR_UNION                =  23,
            EXPRTOKEN_OPERATOR_PLUS                 =  24,
            EXPRTOKEN_OPERATOR_MINUS                =  25,
            EXPRTOKEN_OPERATOR_EQUAL                =  26,
            EXPRTOKEN_OPERATOR_NOT_EQUAL            =  27,
            EXPRTOKEN_OPERATOR_LESS                 =  28,
            EXPRTOKEN_OPERATOR_LESS_EQUAL           =  29,
            EXPRTOKEN_OPERATOR_GREATER              =  30,
            EXPRTOKEN_OPERATOR_GREATER_EQUAL        =  31,

            //EXPRTOKEN_FIRST_OPERATOR                = EXPRTOKEN_OPERATOR_AND,
            //EXPRTOKEN_LAST_OPERATOR                 = EXPRTOKEN_OPERATOR_GREATER_EQUAL,

            //
            // [35] FunctionName ::= QName - NodeType
            //
            // followed by symbol handle
            //
            EXPRTOKEN_FUNCTION_NAME                 =  32,
            //
            // [6] AxisName ::= 'ancestor' | 'ancestor-or-self'
            //                | 'attribute'
            //                | 'child'
            //                | 'descendant' | 'descendant-or-self'
            //                | 'following' | 'following-sibling'
            //                | 'namespace'
            //                | 'parent'
            //                | 'preceding' | 'preceding-sibling'
            //                | 'self'
            //
            EXPRTOKEN_AXISNAME_ANCESTOR             =  33,
            EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF     =  34,
            EXPRTOKEN_AXISNAME_ATTRIBUTE            =  35,
            EXPRTOKEN_AXISNAME_CHILD                =  36,
            EXPRTOKEN_AXISNAME_DESCENDANT           =  37,
            EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF   =  38,
            EXPRTOKEN_AXISNAME_FOLLOWING            =  39,
            EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING    =  40,
            EXPRTOKEN_AXISNAME_NAMESPACE            =  41,
            EXPRTOKEN_AXISNAME_PARENT               =  42,
            EXPRTOKEN_AXISNAME_PRECEDING            =  43,
            EXPRTOKEN_AXISNAME_PRECEDING_SIBLING    =  44,
            EXPRTOKEN_AXISNAME_SELF                 =  45,
            //
            // [29] Literal ::= '"' [^"]* '"' | "'" [^']* "'"
            //
            // followed by symbol handle for literal
            //
            EXPRTOKEN_LITERAL                       =  46,
            //
            // [30] Number ::= Digits ('.' Digits?)? | '.' Digits
            // [31] Digits ::= [0-9]+
            //
            // followed by number handle
            //
            EXPRTOKEN_NUMBER                        =  47,
            //
            // [36] VariableReference ::= '$' QName
            //
            // followed by symbol handle for QName
            //
            EXPRTOKEN_VARIABLE_REFERENCE            =  48;

        private static final String[] fgTokenNames = {
            "EXPRTOKEN_OPEN_PAREN",
            "EXPRTOKEN_CLOSE_PAREN",
            "EXPRTOKEN_OPEN_BRACKET",
            "EXPRTOKEN_CLOSE_BRACKET",
            "EXPRTOKEN_PERIOD",
            "EXPRTOKEN_DOUBLE_PERIOD",
            "EXPRTOKEN_ATSIGN",
            "EXPRTOKEN_COMMA",
            "EXPRTOKEN_DOUBLE_COLON",
            "EXPRTOKEN_NAMETEST_ANY",
            "EXPRTOKEN_NAMETEST_NAMESPACE",
            "EXPRTOKEN_NAMETEST_QNAME",
            "EXPRTOKEN_NODETYPE_COMMENT",
            "EXPRTOKEN_NODETYPE_TEXT",
            "EXPRTOKEN_NODETYPE_PI",
            "EXPRTOKEN_NODETYPE_NODE",
            "EXPRTOKEN_OPERATOR_AND",
            "EXPRTOKEN_OPERATOR_OR",
            "EXPRTOKEN_OPERATOR_MOD",
            "EXPRTOKEN_OPERATOR_DIV",
            "EXPRTOKEN_OPERATOR_MULT",
            "EXPRTOKEN_OPERATOR_SLASH",
            "EXPRTOKEN_OPERATOR_DOUBLE_SLASH",
            "EXPRTOKEN_OPERATOR_UNION",
            "EXPRTOKEN_OPERATOR_PLUS",
            "EXPRTOKEN_OPERATOR_MINUS",
            "EXPRTOKEN_OPERATOR_EQUAL",
            "EXPRTOKEN_OPERATOR_NOT_EQUAL",
            "EXPRTOKEN_OPERATOR_LESS",
            "EXPRTOKEN_OPERATOR_LESS_EQUAL",
            "EXPRTOKEN_OPERATOR_GREATER",
            "EXPRTOKEN_OPERATOR_GREATER_EQUAL",
            "EXPRTOKEN_FUNCTION_NAME",
            "EXPRTOKEN_AXISNAME_ANCESTOR",
            "EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF",
            "EXPRTOKEN_AXISNAME_ATTRIBUTE",
            "EXPRTOKEN_AXISNAME_CHILD",
            "EXPRTOKEN_AXISNAME_DESCENDANT",
            "EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF",
            "EXPRTOKEN_AXISNAME_FOLLOWING",
            "EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING",
            "EXPRTOKEN_AXISNAME_NAMESPACE",
            "EXPRTOKEN_AXISNAME_PARENT",
            "EXPRTOKEN_AXISNAME_PRECEDING",
            "EXPRTOKEN_AXISNAME_PRECEDING_SIBLING",
            "EXPRTOKEN_AXISNAME_SELF",
            "EXPRTOKEN_LITERAL",
            "EXPRTOKEN_NUMBER",
            "EXPRTOKEN_VARIABLE_REFERENCE"
        };

        /**
         *
         */
        private static final int INITIAL_TOKEN_COUNT = 1 << 8;
        private int[] fTokens = new int[INITIAL_TOKEN_COUNT];
        private int fTokenCount = 0;    // for writing

        private SymbolTable fSymbolTable;

        // REVISIT: Code something better here. -Ac
        private java.util.Hashtable fSymbolMapping = new java.util.Hashtable();

        // REVISIT: Code something better here. -Ac
        private java.util.Hashtable fTokenNames = new java.util.Hashtable();

        /**
         * Current position in the token list. 
         */
        private int fCurrentTokenIndex;
        
        //
        // Constructors
        //

        public Tokens(SymbolTable symbolTable) {
            fSymbolTable = symbolTable;
            final String[] symbols = {
                "ancestor",     "ancestor-or-self",     "attribute",
                "child",        "descendant",           "descendant-or-self",
                "following",    "following-sibling",    "namespace",
                "parent",       "preceding",            "preceding-sibling",
                "self",
            };
            for (int i = 0; i < symbols.length; i++) {
                fSymbolMapping.put(fSymbolTable.addSymbol(symbols[i]), new Integer(i));
            }
            fTokenNames.put(new Integer(EXPRTOKEN_OPEN_PAREN), "EXPRTOKEN_OPEN_PAREN");
            fTokenNames.put(new Integer(EXPRTOKEN_CLOSE_PAREN), "EXPRTOKEN_CLOSE_PAREN");
            fTokenNames.put(new Integer(EXPRTOKEN_OPEN_BRACKET), "EXPRTOKEN_OPEN_BRACKET");
            fTokenNames.put(new Integer(EXPRTOKEN_CLOSE_BRACKET), "EXPRTOKEN_CLOSE_BRACKET");
            fTokenNames.put(new Integer(EXPRTOKEN_PERIOD), "EXPRTOKEN_PERIOD");
            fTokenNames.put(new Integer(EXPRTOKEN_DOUBLE_PERIOD), "EXPRTOKEN_DOUBLE_PERIOD");
            fTokenNames.put(new Integer(EXPRTOKEN_ATSIGN), "EXPRTOKEN_ATSIGN");
            fTokenNames.put(new Integer(EXPRTOKEN_COMMA), "EXPRTOKEN_COMMA");
            fTokenNames.put(new Integer(EXPRTOKEN_DOUBLE_COLON), "EXPRTOKEN_DOUBLE_COLON");
            fTokenNames.put(new Integer(EXPRTOKEN_NAMETEST_ANY), "EXPRTOKEN_NAMETEST_ANY");
            fTokenNames.put(new Integer(EXPRTOKEN_NAMETEST_NAMESPACE), "EXPRTOKEN_NAMETEST_NAMESPACE");
            fTokenNames.put(new Integer(EXPRTOKEN_NAMETEST_QNAME), "EXPRTOKEN_NAMETEST_QNAME");
            fTokenNames.put(new Integer(EXPRTOKEN_NODETYPE_COMMENT), "EXPRTOKEN_NODETYPE_COMMENT");
            fTokenNames.put(new Integer(EXPRTOKEN_NODETYPE_TEXT), "EXPRTOKEN_NODETYPE_TEXT");
            fTokenNames.put(new Integer(EXPRTOKEN_NODETYPE_PI), "EXPRTOKEN_NODETYPE_PI");
            fTokenNames.put(new Integer(EXPRTOKEN_NODETYPE_NODE), "EXPRTOKEN_NODETYPE_NODE");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_AND), "EXPRTOKEN_OPERATOR_AND");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_OR), "EXPRTOKEN_OPERATOR_OR");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_MOD), "EXPRTOKEN_OPERATOR_MOD");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_DIV), "EXPRTOKEN_OPERATOR_DIV");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_MULT), "EXPRTOKEN_OPERATOR_MULT");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_SLASH), "EXPRTOKEN_OPERATOR_SLASH");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_DOUBLE_SLASH), "EXPRTOKEN_OPERATOR_DOUBLE_SLASH");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_UNION), "EXPRTOKEN_OPERATOR_UNION");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_PLUS), "EXPRTOKEN_OPERATOR_PLUS");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_MINUS), "EXPRTOKEN_OPERATOR_MINUS");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_EQUAL), "EXPRTOKEN_OPERATOR_EQUAL");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_NOT_EQUAL), "EXPRTOKEN_OPERATOR_NOT_EQUAL");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_LESS), "EXPRTOKEN_OPERATOR_LESS");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_LESS_EQUAL), "EXPRTOKEN_OPERATOR_LESS_EQUAL");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_GREATER), "EXPRTOKEN_OPERATOR_GREATER");
            fTokenNames.put(new Integer(EXPRTOKEN_OPERATOR_GREATER_EQUAL), "EXPRTOKEN_OPERATOR_GREATER_EQUAL");
            fTokenNames.put(new Integer(EXPRTOKEN_FUNCTION_NAME), "EXPRTOKEN_FUNCTION_NAME");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_ANCESTOR), "EXPRTOKEN_AXISNAME_ANCESTOR");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF), "EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_ATTRIBUTE), "EXPRTOKEN_AXISNAME_ATTRIBUTE");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_CHILD), "EXPRTOKEN_AXISNAME_CHILD");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_DESCENDANT), "EXPRTOKEN_AXISNAME_DESCENDANT");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF), "EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_FOLLOWING), "EXPRTOKEN_AXISNAME_FOLLOWING");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING), "EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_NAMESPACE), "EXPRTOKEN_AXISNAME_NAMESPACE");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_PARENT), "EXPRTOKEN_AXISNAME_PARENT");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_PRECEDING), "EXPRTOKEN_AXISNAME_PRECEDING");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_PRECEDING_SIBLING), "EXPRTOKEN_AXISNAME_PRECEDING_SIBLING");
            fTokenNames.put(new Integer(EXPRTOKEN_AXISNAME_SELF), "EXPRTOKEN_AXISNAME_SELF");
            fTokenNames.put(new Integer(EXPRTOKEN_LITERAL), "EXPRTOKEN_LITERAL");
            fTokenNames.put(new Integer(EXPRTOKEN_NUMBER), "EXPRTOKEN_NUMBER");
            fTokenNames.put(new Integer(EXPRTOKEN_VARIABLE_REFERENCE), "EXPRTOKEN_VARIABLE_REFERENCE");
        }

        //
        // Public methods
        //

//        public String getTokenName(int token) {
//            if (token < 0 || token >= fgTokenNames.length)
//                return null;
//            return fgTokenNames[token];
//        }
//
        public String getTokenString(int token) {
            return (String)fTokenNames.get(new Integer(token));
        }

        public 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());
        }

        public 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++;
        }
//        public int getTokenCount() {
//            return fTokenCount;
//        }
//        public int getToken(int tokenIndex) {
//            return fTokens[tokenIndex];
//        }
        
        /**
         * Resets the current position to the head of the token list.
         */
        public void rewind() {
            fCurrentTokenIndex=0;
        }
        /**
         * Returns true if the {@link #getNextToken()} method
         * returns a valid token.
         */
        public boolean hasMore() {
            return fCurrentTokenIndex<fTokenCount; 
        }
        /**
         * Obtains the token at the current position, then advance
         * the current position by one.
         * 
         * If there's no such next token, this method throws
         * <tt>new XPathException("c-general-xpath");</tt>.
         */
        public int nextToken() throws XPathException {
            if( fCurrentTokenIndex==fTokenCount )
                throw new XPathException("c-general-xpath");
            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
         * <tt>new XPathException("c-general-xpath");</tt>.
         */
        public int peekToken() throws XPathException {
            if( fCurrentTokenIndex==fTokenCount )
                throw new XPathException("c-general-xpath");
            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 
         * <tt>new XPathException("c-general-xpath");</tt>.
         */
        public String nextTokenAsString() throws XPathException {
            String s = getTokenString(nextToken());
            if(s==null)     throw new XPathException("c-general-xpath");
            return s;
        }
        
        public void dumpTokens() {
            //if (DUMP_TOKENS) {
                for (int i = 0; i < fTokenCount; i++) {
                    switch (fTokens[i]) {
                    case EXPRTOKEN_OPEN_PAREN:
                        System.out.print("<OPEN_PAREN/>");
                        break;
                    case EXPRTOKEN_CLOSE_PAREN:
                        System.out.print("<CLOSE_PAREN/>");
                        break;
                    case EXPRTOKEN_OPEN_BRACKET:
                        System.out.print("<OPEN_BRACKET/>");
                        break;
                    case EXPRTOKEN_CLOSE_BRACKET:
                        System.out.print("<CLOSE_BRACKET/>");
                        break;
                    case EXPRTOKEN_PERIOD:
                        System.out.print("<PERIOD/>");
                        break;
                    case EXPRTOKEN_DOUBLE_PERIOD:
                        System.out.print("<DOUBLE_PERIOD/>");
                        break;
                    case EXPRTOKEN_ATSIGN:
                        System.out.print("<ATSIGN/>");
                        break;
                    case EXPRTOKEN_COMMA:
                        System.out.print("<COMMA/>");
                        break;
                    case EXPRTOKEN_DOUBLE_COLON:
                        System.out.print("<DOUBLE_COLON/>");
                        break;
                    case EXPRTOKEN_NAMETEST_ANY:
                        System.out.print("<NAMETEST_ANY/>");
                        break;
                    case EXPRTOKEN_NAMETEST_NAMESPACE:
                        System.out.print("<NAMETEST_NAMESPACE");
                        System.out.print(" prefix=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    case EXPRTOKEN_NAMETEST_QNAME:
                        System.out.print("<NAMETEST_QNAME");
                        if (fTokens[++i] != -1)
                            System.out.print(" prefix=\"" + getTokenString(fTokens[i]) + "\"");
                        System.out.print(" localpart=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    case EXPRTOKEN_NODETYPE_COMMENT:
                        System.out.print("<NODETYPE_COMMENT/>");
                        break;
                    case EXPRTOKEN_NODETYPE_TEXT:
                        System.out.print("<NODETYPE_TEXT/>");
                        break;
                    case EXPRTOKEN_NODETYPE_PI:
                        System.out.print("<NODETYPE_PI/>");
                        break;
                    case EXPRTOKEN_NODETYPE_NODE:
                        System.out.print("<NODETYPE_NODE/>");
                        break;
                    case EXPRTOKEN_OPERATOR_AND:
                        System.out.print("<OPERATOR_AND/>");
                        break;
                    case EXPRTOKEN_OPERATOR_OR:
                        System.out.print("<OPERATOR_OR/>");
                        break;
                    case EXPRTOKEN_OPERATOR_MOD:
                        System.out.print("<OPERATOR_MOD/>");
                        break;
                    case EXPRTOKEN_OPERATOR_DIV:
                        System.out.print("<OPERATOR_DIV/>");
                        break;
                    case EXPRTOKEN_OPERATOR_MULT:
                        System.out.print("<OPERATOR_MULT/>");
                        break;
                    case EXPRTOKEN_OPERATOR_SLASH:
                        System.out.print("<OPERATOR_SLASH/>");
                        if (i + 1 < fTokenCount) {
                            System.out.println();
                            System.out.print("  ");
                        }
                        break;
                    case EXPRTOKEN_OPERATOR_DOUBLE_SLASH:
                        System.out.print("<OPERATOR_DOUBLE_SLASH/>");
                        break;
                    case EXPRTOKEN_OPERATOR_UNION:
                        System.out.print("<OPERATOR_UNION/>");
                        break;
                    case EXPRTOKEN_OPERATOR_PLUS:
                        System.out.print("<OPERATOR_PLUS/>");
                        break;
                    case EXPRTOKEN_OPERATOR_MINUS:
                        System.out.print("<OPERATOR_MINUS/>");
                        break;
                    case EXPRTOKEN_OPERATOR_EQUAL:
                        System.out.print("<OPERATOR_EQUAL/>");
                        break;
                    case EXPRTOKEN_OPERATOR_NOT_EQUAL:
                        System.out.print("<OPERATOR_NOT_EQUAL/>");
                        break;
                    case EXPRTOKEN_OPERATOR_LESS:
                        System.out.print("<OPERATOR_LESS/>");
                        break;
                    case EXPRTOKEN_OPERATOR_LESS_EQUAL:
                        System.out.print("<OPERATOR_LESS_EQUAL/>");
                        break;
                    case EXPRTOKEN_OPERATOR_GREATER:
                        System.out.print("<OPERATOR_GREATER/>");
                        break;
                    case EXPRTOKEN_OPERATOR_GREATER_EQUAL:
                        System.out.print("<OPERATOR_GREATER_EQUAL/>");
                        break;
                    case EXPRTOKEN_FUNCTION_NAME:
                        System.out.print("<FUNCTION_NAME");
                        if (fTokens[++i] != -1)
                            System.out.print(" prefix=\"" + getTokenString(fTokens[i]) + "\"");
                        System.out.print(" localpart=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    case EXPRTOKEN_AXISNAME_ANCESTOR:
                        System.out.print("<AXISNAME_ANCESTOR/>");
                        break;
                    case EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF:
                        System.out.print("<AXISNAME_ANCESTOR_OR_SELF/>");
                        break;
                    case EXPRTOKEN_AXISNAME_ATTRIBUTE:
                        System.out.print("<AXISNAME_ATTRIBUTE/>");
                        break;
                    case EXPRTOKEN_AXISNAME_CHILD:
                        System.out.print("<AXISNAME_CHILD/>");
                        break;
                    case EXPRTOKEN_AXISNAME_DESCENDANT:
                        System.out.print("<AXISNAME_DESCENDANT/>");
                        break;
                    case EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF:
                        System.out.print("<AXISNAME_DESCENDANT_OR_SELF/>");
                        break;
                    case EXPRTOKEN_AXISNAME_FOLLOWING:
                        System.out.print("<AXISNAME_FOLLOWING/>");
                        break;
                    case EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING:
                        System.out.print("<AXISNAME_FOLLOWING_SIBLING/>");
                        break;
                    case EXPRTOKEN_AXISNAME_NAMESPACE:
                        System.out.print("<AXISNAME_NAMESPACE/>");
                        break;
                    case EXPRTOKEN_AXISNAME_PARENT:
                        System.out.print("<AXISNAME_PARENT/>");
                        break;
                    case EXPRTOKEN_AXISNAME_PRECEDING:
                        System.out.print("<AXISNAME_PRECEDING/>");
                        break;
                    case EXPRTOKEN_AXISNAME_PRECEDING_SIBLING:
                        System.out.print("<AXISNAME_PRECEDING_SIBLING/>");
                        break;
                    case EXPRTOKEN_AXISNAME_SELF:
                        System.out.print("<AXISNAME_SELF/>");
                        break;
                    case EXPRTOKEN_LITERAL:
                        System.out.print("<LITERAL");
                        System.out.print(" value=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    case EXPRTOKEN_NUMBER:
                        System.out.print("<NUMBER");
                        System.out.print(" whole=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print(" part=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    case EXPRTOKEN_VARIABLE_REFERENCE:
                        System.out.print("<VARIABLE_REFERENCE");
                        if (fTokens[++i] != -1)
                            System.out.print(" prefix=\"" + getTokenString(fTokens[i]) + "\"");
                        System.out.print(" localpart=\"" + getTokenString(fTokens[++i]) + "\"");
                        System.out.print("/>");
                        break;
                    default:
                        System.out.println("<???/>");
                    }
                }
                System.out.println();
            //}
        }

    } // class Tokens

    /**
     * @xerces.internal
     * 
     * @author Glenn Marcy, IBM
     * @author Andy Clark, IBM
     *
     * @version $Id: XPath.java 965250 2010-07-18 16:04:58Z mrglavas $
     */
    private static 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,  !,  ",  #,  $,  %,  &,  ',  (,  ),  *,  +,  ,,  -,  .,  /,  // 2
         *  0,  1,  2,  3,  4,  5,  6,  7,  8,  9,  :,  ;,  <,  =,  >,  ?,  // 3
         *  @,  A,  B,  C,  D,  E,  F,  G,  H,  I,  J,  K,  L,  M,  N,  O,  // 4
         *  P,  Q,  R,  S,  T,  U,  V,  W,  X,  Y,  Z,  [,  \,  ],  ^,  _,  // 5
         *  `,  a,  b,  c,  d,  e,  f,  g,  h,  i,  j,  k,  l,  m,  n,  o,  // 6
         *  p,  q,  r,  s,  t,  u,  v,  w,  x,  y,  z,  {,  |,  },  ~, DEL  // 7
         */
        private static final byte
            CHARTYPE_INVALID            =  0,   // invalid XML character
            CHARTYPE_OTHER              =  1,   // not special - one of "#%&;?\^`{}~" or DEL
            CHARTYPE_WHITESPACE         =  2,   // one of "\t\n\r " (0x09, 0x0A, 0x0D, 0x20)
            CHARTYPE_EXCLAMATION        =  3,   // '!' (0x21)
            CHARTYPE_QUOTE              =  4,   // '\"' or '\'' (0x22 and 0x27)
            CHARTYPE_DOLLAR             =  5,   // '$' (0x24)
            CHARTYPE_OPEN_PAREN         =  6,   // '(' (0x28)
            CHARTYPE_CLOSE_PAREN        =  7,   // ')' (0x29)
            CHARTYPE_STAR               =  8,   // '*' (0x2A)
            CHARTYPE_PLUS               =  9,   // '+' (0x2B)
            CHARTYPE_COMMA              = 10,   // ',' (0x2C)
            CHARTYPE_MINUS              = 11,   // '-' (0x2D)
            CHARTYPE_PERIOD             = 12,   // '.' (0x2E)
            CHARTYPE_SLASH              = 13,   // '/' (0x2F)
            CHARTYPE_DIGIT              = 14,   // '0'-'9' (0x30 to 0x39)
            CHARTYPE_COLON              = 15,   // ':' (0x3A)
            CHARTYPE_LESS               = 16,   // '<' (0x3C)
            CHARTYPE_EQUAL              = 17,   // '=' (0x3D)
            CHARTYPE_GREATER            = 18,   // '>' (0x3E)
            CHARTYPE_ATSIGN             = 19,   // '@' (0x40)
            CHARTYPE_LETTER             = 20,   // 'A'-'Z' or 'a'-'z' (0x41 to 0x5A and 0x61 to 0x7A)
            CHARTYPE_OPEN_BRACKET       = 21,   // '[' (0x5B)
            CHARTYPE_CLOSE_BRACKET      = 22,   // ']' (0x5D)
            CHARTYPE_UNDERSCORE         = 23,   // '_' (0x5F)
            CHARTYPE_UNION              = 24,   // '|' (0x7C)
            CHARTYPE_NONASCII           = 25;   // Non-ASCII Unicode codepoint (>= 0x80)

        private static 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,  3,  4,  1,  5,  1,  1,  4,  6,  7,  8,  9, 10, 11, 12, 13,
           14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 15,  1, 16, 17, 18,  1,
           19, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20,
           20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 21,  1, 22,  1, 23,
            1, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20,
           20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20,  1, 24,  1,  1,  1
        };

        /**
         * Symbol literals
         */

        //
        // Data
        //

        /** Symbol table. */
        private SymbolTable fSymbolTable;

        // symbols

        private static final String fAndSymbol = "and".intern();
        private static final String fOrSymbol = "or".intern();
        private static final String fModSymbol = "mod".intern();
        private static final String fDivSymbol = "div".intern();

        private static final String fCommentSymbol = "comment".intern();
        private static final String fTextSymbol = "text".intern();
        private static final String fPISymbol = "processing-instruction".intern();
        private static final String fNodeSymbol = "node".intern();

        private static final String fAncestorSymbol = "ancestor".intern();
        private static final String fAncestorOrSelfSymbol = "ancestor-or-self".intern();
        private static final String fAttributeSymbol = "attribute".intern();
        private static final String fChildSymbol = "child".intern();
        private static final String fDescendantSymbol = "descendant".intern();
        private static final String fDescendantOrSelfSymbol = "descendant-or-self".intern();
        private static final String fFollowingSymbol = "following".intern();
        private static final String fFollowingSiblingSymbol = "following-sibling".intern();
        private static final String fNamespaceSymbol = "namespace".intern();
        private static final String fParentSymbol = "parent".intern();
        private static final String fPrecedingSymbol = "preceding".intern();
        private static final String fPrecedingSiblingSymbol = "preceding-sibling".intern();
        private static final String fSelfSymbol = "self".intern();

        //
        // Constructors
        //

        /** Constructs an XPath expression scanner. */
        public Scanner(SymbolTable symbolTable) {

            // save pool and tokens
            fSymbolTable = symbolTable;

        } // <init>(SymbolTable)

        /**
         *
         */
        public boolean scanExpr(SymbolTable symbolTable,
                                XPath.Tokens tokens, String data,
                                int currentOffset, int endOffset)
            throws XPathException {

            int nameOffset;
            String nameHandle, prefixHandle;
            boolean starIsMultiplyOperator = false;
            int ch;

            while (true) {
                if (currentOffset == endOffset) {
                    break;
                }
                ch = data.charAt(currentOffset);
                //
                // [39] ExprWhitespace ::= S
                //
                while (ch == ' ' || ch == 0x0A || ch == 0x09 || ch == 0x0D) {
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    ch = data.charAt(currentOffset);
                }
                if (currentOffset == endOffset) {
                    break;
                }
                //
                // [28] ExprToken ::= '(' | ')' | '[' | ']' | '.' | '..' | '@' | ',' | '::'
                //                  | NameTest | NodeType | Operator | FunctionName
                //                  | AxisName | Literal | Number | VariableReference
                //
                byte chartype = (ch >= 0x80) ? CHARTYPE_NONASCII : fASCIICharMap[ch];
                switch (chartype) {
                case CHARTYPE_OPEN_PAREN:       // '('
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPEN_PAREN);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_CLOSE_PAREN:      // ')'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_CLOSE_PAREN);
                    starIsMultiplyOperator = true;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_OPEN_BRACKET:     // '['
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPEN_BRACKET);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_CLOSE_BRACKET:    // ']'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_CLOSE_BRACKET);
                    starIsMultiplyOperator = true;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                //
                // [30] Number ::= Digits ('.' Digits?)? | '.' Digits
                //                                         ^^^^^^^^^^
                //
                case CHARTYPE_PERIOD:           // '.', '..' or '.' Digits
                    if (currentOffset + 1 == endOffset) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_PERIOD);
                        starIsMultiplyOperator = true;
                        currentOffset++;
                        break;
                    }
                    ch = data.charAt(currentOffset + 1);
                    if (ch == '.') {            // '..'
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_DOUBLE_PERIOD);
                        starIsMultiplyOperator = true;
                        currentOffset += 2;
                    } else if (ch >= '0' && ch <= '9') {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_NUMBER);
                        starIsMultiplyOperator = true;
                        currentOffset = scanNumber(tokens, data, endOffset, currentOffset/*, encoding*/);
                    } else if (ch == '/') {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_PERIOD);
                        starIsMultiplyOperator = true;
                        currentOffset++;
                    } else if (ch == '|') {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_PERIOD);
                        starIsMultiplyOperator = true;
                        currentOffset++;
                        break;
                    } else if (ch == ' ' || ch == 0x0A || ch == 0x09 || ch == 0x0D) {
                        // this is legal if the next token is non-existent or |
                        do {
                            if (++currentOffset == endOffset) {
                                break;
                            }
                            ch = data.charAt(currentOffset);
                        } while (ch == ' ' || ch == 0x0A || ch == 0x09 || ch == 0x0D); 
                        if (currentOffset == endOffset || ch == '|') {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_PERIOD);
                            starIsMultiplyOperator = true;
                            break;
                        }
                        throw new XPathException ("c-general-xpath");
                    } else {                    // '.'
                        throw new XPathException ("c-general-xpath");
                    }
                    if (currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_ATSIGN:           // '@'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_ATSIGN);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_COMMA:            // ','
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_COMMA);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_COLON:            // '::'
                    if (++currentOffset == endOffset) {
                // System.out.println("abort 1a");
                        return false; // REVISIT
                    }
                    ch = data.charAt(currentOffset);
                    if (ch != ':') {
                // System.out.println("abort 1b");
                        return false; // REVISIT
                    }
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_DOUBLE_COLON);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_SLASH:            // '/' and '//'
                    if (++currentOffset == endOffset) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_SLASH);
                        starIsMultiplyOperator = false;
                        break;
                    }
                    ch = data.charAt(currentOffset);
                    if (ch == '/') { // '//'
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_DOUBLE_SLASH);
                        starIsMultiplyOperator = false;
                        if (++currentOffset == endOffset) {
                            break;
                        }
                    } else {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_SLASH);
                        starIsMultiplyOperator = false;
                    }
                    break;
                case CHARTYPE_UNION:            // '|'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_UNION);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_PLUS:             // '+'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_PLUS);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_MINUS:            // '-'
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_MINUS);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_EQUAL:            // '='
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_EQUAL);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_EXCLAMATION:      // '!='
                    if (++currentOffset == endOffset) {
                // System.out.println("abort 2a");
                        return false; // REVISIT
                    }
                    ch = data.charAt(currentOffset);
                    if (ch != '=') {
                // System.out.println("abort 2b");
                        return false; // REVISIT
                    }
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_NOT_EQUAL);
                    starIsMultiplyOperator = false;
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                case CHARTYPE_LESS: // '<' and '<='
                    if (++currentOffset == endOffset) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_LESS);
                        starIsMultiplyOperator = false;
                        break;
                    }
                    ch = data.charAt(currentOffset);
                    if (ch == '=') { // '<='
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_LESS_EQUAL);
                        starIsMultiplyOperator = false;
                        if (++currentOffset == endOffset) {
                            break;
                        }
                    } else {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_LESS);
                        starIsMultiplyOperator = false;
                    }
                    break;
                case CHARTYPE_GREATER: // '>' and '>='
                    if (++currentOffset == endOffset) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_GREATER);
                        starIsMultiplyOperator = false;
                        break;
                    }
                    ch = data.charAt(currentOffset);
                    if (ch == '=') { // '>='
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_GREATER_EQUAL);
                        starIsMultiplyOperator = false;
                        if (++currentOffset == endOffset) {
                            break;
                        }
                    } else {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_GREATER);
                        starIsMultiplyOperator = false;
                    }
                    break;
                //
                // [29] Literal ::= '"' [^"]* '"' | "'" [^']* "'"
                //
                case CHARTYPE_QUOTE:            // '\"' or '\''
                    int qchar = ch;
                    if (++currentOffset == endOffset) {
                // System.out.println("abort 2c");
                        return false; // REVISIT
                    }
                    ch = data.charAt(currentOffset);
                    int litOffset = currentOffset;
                    while (ch != qchar) {
                        if (++currentOffset == endOffset) {
                // System.out.println("abort 2d");
                            return false; // REVISIT
                        }
                        ch = data.charAt(currentOffset);
                    }
                    int litLength = currentOffset - litOffset;
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_LITERAL);
                    starIsMultiplyOperator = true;
                    tokens.addToken(symbolTable.addSymbol(data.substring(litOffset, litOffset + litLength)));
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                //
                // [30] Number ::= Digits ('.' Digits?)? | '.' Digits
                // [31] Digits ::= [0-9]+
                //
                case CHARTYPE_DIGIT:
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_NUMBER);
                    starIsMultiplyOperator = true;
                    currentOffset = scanNumber(tokens, data, endOffset, currentOffset/*, encoding*/);
                    break;
                //
                // [36] VariableReference ::= '$' QName
                //
                case CHARTYPE_DOLLAR:
                    if (++currentOffset == endOffset) {
                // System.out.println("abort 3a");
                        return false; // REVISIT
                    }
                    nameOffset = currentOffset;
                    currentOffset = scanNCName(data, endOffset, currentOffset);
                    if (currentOffset == nameOffset) {
                // System.out.println("abort 3b");
                        return false; // REVISIT
                    }
                    if (currentOffset < endOffset) {
                        ch = data.charAt(currentOffset);
                    }
                    else {
                        ch = -1;
                    }
                    nameHandle = symbolTable.addSymbol(data.substring(nameOffset, currentOffset));
                    if (ch != ':') {
                        prefixHandle = XMLSymbols.EMPTY_STRING;
                    } else {
                        prefixHandle = nameHandle;
                        if (++currentOffset == endOffset) {
                // System.out.println("abort 4a");
                            return false; // REVISIT
                        }
                        nameOffset = currentOffset;
                        currentOffset = scanNCName(data, endOffset, currentOffset);
                        if (currentOffset == nameOffset) {
                // System.out.println("abort 4b");
                            return false; // REVISIT
                        }
                        if (currentOffset < endOffset) {
                            ch = data.charAt(currentOffset);
                        }
                        else {
                            ch = -1;
                        }
                        nameHandle = symbolTable.addSymbol(data.substring(nameOffset, currentOffset));
                    }
                    addToken(tokens, XPath.Tokens.EXPRTOKEN_VARIABLE_REFERENCE);
                    starIsMultiplyOperator = true;
                    tokens.addToken(prefixHandle);
                    tokens.addToken(nameHandle);
                    break;
                //
                // [37] NameTest ::= '*' | NCName ':' '*' | QName
                // [34] MultiplyOperator ::= '*'
                //
                case CHARTYPE_STAR:             // '*'
                    //
                    // 3.7 Lexical Structure
                    //
                    //  If there is a preceding token and the preceding token is not one of @, ::, (, [, , or
                    //  an Operator, then a * must be recognized as a MultiplyOperator.
                    //
                    // Otherwise, the token must not be recognized as a MultiplyOperator.
                    //
                    if (starIsMultiplyOperator) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_MULT);
                        starIsMultiplyOperator = false;
                    } else {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_NAMETEST_ANY);
                        starIsMultiplyOperator = true;
                    }
                    if (++currentOffset == endOffset) {
                        break;
                    }
                    break;
                //
                // NCName, QName and non-terminals
                //
                case CHARTYPE_NONASCII: // possibly a valid non-ascii 'Letter' (BaseChar | Ideographic)
                case CHARTYPE_LETTER:
                case CHARTYPE_UNDERSCORE:
                    //
                    // 3.7 Lexical Structure
                    //
                    //  If there is a preceding token and the preceding token is not one of @, ::, (, [, , or
                    //  an Operator, then an NCName must be recognized as an OperatorName.
                    //
                    //  If the character following an NCName (possibly after intervening ExprWhitespace) is (,
                    //  then the token must be recognized as a NodeType or a FunctionName.
                    //
                    //  If the two characters following an NCName (possibly after intervening ExprWhitespace)
                    //  are ::, then the token must be recognized as an AxisName.
                    //
                    //  Otherwise, the token must not be recognized as an OperatorName, a NodeType, a
                    //  FunctionName, or an AxisName.
                    //
                    // [33] OperatorName ::= 'and' | 'or' | 'mod' | 'div'
                    // [38] NodeType ::= 'comment' | 'text' | 'processing-instruction' | 'node'
                    // [35] FunctionName ::= QName - NodeType
                    // [6] AxisName ::= (see above)
                    //
                    // [37] NameTest ::= '*' | NCName ':' '*' | QName
                    // [5] NCName ::= (Letter | '_') (NCNameChar)*
                    // [?] NCNameChar ::= Letter | Digit | '.' | '-' | '_'  (ascii subset of 'NCNameChar')
                    // [?] QName ::= (NCName ':')? NCName
                    // [?] Letter ::= [A-Za-z]                              (ascii subset of 'Letter')
                    // [?] Digit ::= [0-9]                                  (ascii subset of 'Digit')
                    //
                    nameOffset = currentOffset;
                    currentOffset = scanNCName(data, endOffset, currentOffset);
                    if (currentOffset == nameOffset) {
                // System.out.println("abort 4c");
                        return false; // REVISIT
                    }
                    if (currentOffset < endOffset) {
                        ch = data.charAt(currentOffset);
                    }
                    else {
                        ch = -1;
                    }
                    nameHandle = symbolTable.addSymbol(data.substring(nameOffset, currentOffset));
                    boolean isNameTestNCName = false;
                    boolean isAxisName = false;
                    prefixHandle = XMLSymbols.EMPTY_STRING;
                    if (ch == ':') {
                        if (++currentOffset == endOffset) {
                // System.out.println("abort 5");
                            return false; // REVISIT
                        }
                        ch = data.charAt(currentOffset);
                        if (ch == '*') {
                            if (++currentOffset < endOffset) {
                                ch = data.charAt(currentOffset);
                            }
                            isNameTestNCName = true;
                        } else if (ch == ':') {
                            if (++currentOffset < endOffset) {
                                ch = data.charAt(currentOffset);
                            }
                            isAxisName = true;
                        } else {
                            prefixHandle = nameHandle;
                            nameOffset = currentOffset;
                            currentOffset = scanNCName(data, endOffset, currentOffset);
                            if (currentOffset == nameOffset) {
                // System.out.println("abort 5b");
                                return false; // REVISIT
                            }
                            if (currentOffset < endOffset) {
                                ch = data.charAt(currentOffset);
                            }
                            else {
                                ch = -1;
                            }
                            nameHandle = symbolTable.addSymbol(data.substring(nameOffset, currentOffset));
                        }
                    }
                    //
                    // [39] ExprWhitespace ::= S
                    //
                    while (ch == ' ' || ch == 0x0A || ch == 0x09 || ch == 0x0D) {
                        if (++currentOffset == endOffset) {
                            break;
                        }
                        ch = data.charAt(currentOffset);
                    }
                    //
                    //  If there is a preceding token and the preceding token is not one of @, ::, (, [, , or
                    //  an Operator, then an NCName must be recognized as an OperatorName.
                    //
                    if (starIsMultiplyOperator) {
                        if (nameHandle == fAndSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_AND);
                            starIsMultiplyOperator = false;
                        } else if (nameHandle == fOrSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_OR);
                            starIsMultiplyOperator = false;
                        } else if (nameHandle == fModSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_MOD);
                            starIsMultiplyOperator = false;
                        } else if (nameHandle == fDivSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_OPERATOR_DIV);
                            starIsMultiplyOperator = false;
                        } else {
                // System.out.println("abort 6");
                            return false; // REVISIT
                        }
                        if (isNameTestNCName) {
                // System.out.println("abort 7");
                            return false; // REVISIT - NCName:* where an OperatorName is required
                        } else if (isAxisName) {
                // System.out.println("abort 8");
                            return false; // REVISIT - AxisName:: where an OperatorName is required
                        }
                        break;
                    }
                    //
                    //  If the character following an NCName (possibly after intervening ExprWhitespace) is (,
                    //  then the token must be recognized as a NodeType or a FunctionName.
                    //
                    if (ch == '(' && !isNameTestNCName && !isAxisName) {
                        if (nameHandle == fCommentSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_NODETYPE_COMMENT);
                        } else if (nameHandle == fTextSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_NODETYPE_TEXT);
                        } else if (nameHandle == fPISymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_NODETYPE_PI);
                        } else if (nameHandle == fNodeSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_NODETYPE_NODE);
                        } else {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_FUNCTION_NAME);
                            tokens.addToken(prefixHandle);
                            tokens.addToken(nameHandle);
                        }
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_OPEN_PAREN);
                        starIsMultiplyOperator = false;
                        if (++currentOffset == endOffset) {
                            break;
                        }
                        break;
                    }
                    //
                    //  If the two characters following an NCName (possibly after intervening ExprWhitespace)
                    //  are ::, then the token must be recognized as an AxisName.
                    //
                    if (isAxisName ||
                        (ch == ':' && currentOffset + 1 < endOffset &&
                         data.charAt(currentOffset + 1) == ':')) {
                        if (nameHandle == fAncestorSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_ANCESTOR);
                        } else if (nameHandle == fAncestorOrSelfSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_ANCESTOR_OR_SELF);
                        } else if (nameHandle == fAttributeSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_ATTRIBUTE);
                        } else if (nameHandle == fChildSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_CHILD);
                        } else if (nameHandle == fDescendantSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_DESCENDANT);
                        } else if (nameHandle == fDescendantOrSelfSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_DESCENDANT_OR_SELF);
                        } else if (nameHandle == fFollowingSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_FOLLOWING);
                        } else if (nameHandle == fFollowingSiblingSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_FOLLOWING_SIBLING);
                        } else if (nameHandle == fNamespaceSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_NAMESPACE);
                        } else if (nameHandle == fParentSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_PARENT);
                        } else if (nameHandle == fPrecedingSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_PRECEDING);
                        } else if (nameHandle == fPrecedingSiblingSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_PRECEDING_SIBLING);
                        } else if (nameHandle == fSelfSymbol) {
                            addToken(tokens, XPath.Tokens.EXPRTOKEN_AXISNAME_SELF);
                        } else {
                // System.out.println("abort 9");
                            return false; // REVISIT
                        }
                        if (isNameTestNCName) {
                // System.out.println("abort 10");
                            return false; // REVISIT - "NCName:* ::" where "AxisName ::" is required
                        }
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_DOUBLE_COLON);
                        starIsMultiplyOperator = false;
                        if (!isAxisName) {
                            currentOffset++;
                            if (++currentOffset == endOffset) {
                                break;
                            }
                        }
                        break;
                    }
                    //
                    //  Otherwise, the token must not be recognized as an OperatorName, a NodeType, a
                    //  FunctionName, or an AxisName.
                    //
                    if (isNameTestNCName) {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_NAMETEST_NAMESPACE);
                        starIsMultiplyOperator = true;
                        tokens.addToken(nameHandle);
                    } else {
                        addToken(tokens, XPath.Tokens.EXPRTOKEN_NAMETEST_QNAME);
                        starIsMultiplyOperator = true;
                        tokens.addToken(prefixHandle);
                        tokens.addToken(nameHandle);
                    }
                    break;
                default:
                    // CHARTYPE_INVALID or CHARTYPE_OTHER
                    // We're not expecting to find either of these in a valid expression.
                    return false;
                }
            }
            if (XPath.Tokens.DUMP_TOKENS) {
                tokens.dumpTokens();
            }
            return true;
        }
        //
        // [5] NCName ::= (Letter | '_') (NCNameChar)*
        // [6] NCNameChar ::= Letter | Digit | '.' | '-' | '_' | CombiningChar | Extender
        //
        int scanNCName(String data, int endOffset, int currentOffset) {
            int ch = data.charAt(currentOffset);
            if (ch >= 0x80) {
                if (!XMLChar.isNameStart(ch))
                /*** // REVISIT: Make sure this is a negation. ***
                if ((XMLCharacterProperties.fgCharFlags[ch] &
                     XMLCharacterProperties.E_InitialNameCharFlag) == 0)
                /***/
                {
                    return currentOffset;
                }
            }
            else {
                byte chartype = fASCIICharMap[ch];
                if (chartype != CHARTYPE_LETTER && chartype != CHARTYPE_UNDERSCORE) {
                    return currentOffset;
                }
            }
            while (++currentOffset < endOffset) {
                ch = data.charAt(currentOffset);
                if (ch >= 0x80) {
                    if (!XMLChar.isName(ch))
                    /*** // REVISIT: Make sure this is a negation. ***
                    if ((XMLCharacterProperties.fgCharFlags[ch] &
                         XMLCharacterProperties.E_NameCharFlag) == 0)
                    /***/
                    {
                        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;
        }
        //
        // [30] Number ::= Digits ('.' Digits?)? | '.' Digits
        // [31] Digits ::= [0-9]+
        //
        private int scanNumber(XPath.Tokens tokens, String/*byte[]*/ data, int endOffset, int currentOffset/*, EncodingSupport encoding*/) {
            int ch = data.charAt(currentOffset);
            int whole = 0;
            int part = 0;
            while (ch >= '0' && ch <= '9') {
                whole = (whole * 10) + (ch - '0');
                if (++currentOffset == endOffset) {
                    break;
                }
                ch = data.charAt(currentOffset);
            }
            if (ch == '.') {
                if (++currentOffset < endOffset) {
                    /** int start = currentOffset; **/
                    ch = data.charAt(currentOffset);
                    while (ch >= '0' && ch <= '9') {
                        part = (part * 10) + (ch - '0');
                        if (++currentOffset == endOffset) {
                            break;
                        }
                        ch = data.charAt(currentOffset);
                    }
                    if (part != 0) {
                        /***
                        part = tokens.addSymbol(data, start, currentOffset - start, encoding);
                        /***/
                        throw new RuntimeException("find a solution!");
                        //part = fStringPool.addSymbol(data.substring(start, currentOffset));
                        /***/
                    }
                }
            }
            tokens.addToken(whole);
            tokens.addToken(part);
            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(XPath.Tokens tokens, int token)
            throws XPathException {
            tokens.addToken(token);
        } // addToken(int)

    } // class Scanner

    //
    // MAIN
    //

    /** Main program entry. */
    public static void main(String[] argv) throws Exception {

        for (int i = 0; i < argv.length; i++) {
            final String expression = argv[i];
            System.out.println("# XPath expression: \""+expression+'"');
            try {
                SymbolTable symbolTable = new SymbolTable();
                XPath xpath = new XPath(expression, symbolTable, null);
                System.out.println("expanded xpath: \""+xpath.toString()+'"');
            }
            catch (XPathException e) {
                System.out.println("error: "+e.getMessage());
            }
        }

    } // main(String[])

} // class XPath

org/apache/xerces/impl/xpath/XPath.java

 

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File name: Xerces-J.2.12.2-src.zip
File size: 2128351 bytes
Release date: 2022-01-21
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