Package org.apache.jackrabbit.core.query.lucene.fulltext

Source Code of org.apache.jackrabbit.core.query.lucene.fulltext.QueryParser$LookaheadSuccess

/* Generated By:JJTree&JavaCC: Do not edit this line. QueryParser.java */
package org.apache.jackrabbit.core.query.lucene.fulltext;

import java.util.Vector;
import java.io.*;
import java.text.*;
import java.util.*;
import org.apache.lucene.index.Term;
import org.apache.lucene.analysis.*;
import org.apache.lucene.document.*;
import org.apache.lucene.search.*;

import org.apache.jackrabbit.core.query.lucene.WildcardQuery;

/**
* This class is generated by JavaCC.  The only method that clients should need
* to call is <a href="#parse">parse()</a>.
*
* The syntax for query strings is as follows:
* A Query is a series of clauses.
* A clause may be prefixed by:
* <ul>
* <li> a plus (<code>+</code>) or a minus (<code>-</code>) sign, indicating
* that the clause is required or prohibited respectively; or
* <li> a term followed by a colon, indicating the field to be searched.
* This enables one to construct queries which search multiple fields.
* </ul>
*
* A clause may be either:
* <ul>
* <li> a term, indicating all the documents that contain this term; or
* <li> a nested query, enclosed in parentheses.  Note that this may be used
* with a <code>+</code>/<code>-</code> prefix to require any of a set of
* terms.
* </ul>
*
* Thus, in BNF, the query grammar is:
* <pre>
*   Query  ::= ( Clause )*
*   Clause ::= ["+", "-"] [&lt;TERM&gt; ":"] ( &lt;TERM&gt; | "(" Query ")" )
* </pre>
*
* <p>
* Examples of appropriately formatted queries can be found in the <a
* href="http://jakarta.apache.org/lucene/src/test/org/apache/lucene/queryParser/TestQueryParser.java">test cases</a>.
* </p>
*
* @author Brian Goetz
* @author Peter Halacsy
* @author Tatu Saloranta
*/

public class QueryParser/*@bgen(jjtree)*/implements QueryParserTreeConstants, QueryParserConstants {/*@bgen(jjtree)*/
  protected JJTQueryParserState jjtree = new JJTQueryParserState();
  private static final int CONJ_NONE   = 0;
  private static final int CONJ_AND    = 1;
  private static final int CONJ_OR     = 2;

  private static final int MOD_NONE    = 0;
  private static final int MOD_NOT     = 10;
  private static final int MOD_REQ     = 11;

  public static final int DEFAULT_OPERATOR_OR  = 0;
  public static final int DEFAULT_OPERATOR_AND = 1;

  /** The actual operator that parser uses to combine query terms */
  private int operator = DEFAULT_OPERATOR_OR;

  /**
   * Whether terms of wildcard and prefix queries are to be automatically
   * lower-cased or not.  Default is <code>true</code>.
   */
  boolean lowercaseWildcardTerms = true;

  Analyzer analyzer;
  String field;
  int phraseSlop = 0;
  float fuzzyMinSim = FuzzyQuery.defaultMinSimilarity;
  Locale locale = Locale.getDefault();

  /** Parses a query string, returning a {@link org.apache.lucene.search.Query}.
   *  @param query  the query string to be parsed.
   *  @param field  the default field for query terms.
   *  @param analyzer   used to find terms in the query text.
   *  @throws ParseException if the parsing fails
   */
  static public Query parse(String query, String field, Analyzer analyzer)
       throws ParseException {
    QueryParser parser = new QueryParser(field, analyzer);
    return parser.parse(query);
  }

  /** Constructs a query parser.
   *  @param f  the default field for query terms.
   *  @param a   used to find terms in the query text.
   */
  public QueryParser(String f, Analyzer a) {
    this(new FastCharStream(""));
    analyzer = a;
    field = f;
  }

  /** Parses a query string, returning a
   * <a href="lucene.search.Query.html">Query</a>.
   *  @param query  the query string to be parsed.
   *  @throws ParseException if the parsing fails
   */
  public Query parse(String query) throws ParseException {
    ReInit(new FastCharStream(query));
    try {
      return Query(field);
    }
    catch (TokenMgrError tme) {
      throw new ParseException(tme.getMessage());
    }
    catch (BooleanQuery.TooManyClauses tmc) {
      throw new ParseException("Too many boolean clauses");
    }
  }

   /**
   * @return Returns the analyzer.
   */
  public Analyzer getAnalyzer() {
    return analyzer;
  }

  /**
   * @return Returns the field.
   */
  public String getField() {
    return field;
  }

   /**
   * Get the default minimal similarity for fuzzy queries.
   */
  public float getFuzzyMinSim() {
      return fuzzyMinSim;
  }
  /**
   *Set the default minimum similarity for fuzzy queries.
   */
  public void setFuzzyMinSim(float fuzzyMinSim) {
      this.fuzzyMinSim = fuzzyMinSim;
  }

  /**
   * Sets the default slop for phrases.  If zero, then exact phrase matches
   * are required.  Default value is zero.
   */
  public void setPhraseSlop(int phraseSlop) {
    this.phraseSlop = phraseSlop;
  }

  /**
   * Gets the default slop for phrases.
   */
  public int getPhraseSlop() {
    return phraseSlop;
  }

  /**
   * Sets the boolean operator of the QueryParser.
   * In classic mode (<code>DEFAULT_OPERATOR_OR</code>) terms without any modifiers
   * are considered optional: for example <code>capital of Hungary</code> is equal to
   * <code>capital OR of OR Hungary</code>.<br/>
   * In <code>DEFAULT_OPERATOR_AND</code> terms are considered to be in conjuction: the
   * above mentioned query is parsed as <code>capital AND of AND Hungary</code>
   */
  public void setOperator(int operator) {
    this.operator = operator;
  }

  /**
   * Gets implicit operator setting, which will be either DEFAULT_OPERATOR_AND
   * or DEFAULT_OPERATOR_OR.
   */
  public int getOperator() {
    return operator;
  }

  public void setLowercaseWildcardTerms(boolean lowercaseWildcardTerms) {
    this.lowercaseWildcardTerms = lowercaseWildcardTerms;
  }

  public boolean getLowercaseWildcardTerms() {
    return lowercaseWildcardTerms;
  }

  /**
   * Set locale used by date range parsing.
   */
  public void setLocale(Locale locale) {
    this.locale = locale;
  }

  /**
   * Returns current locale, allowing access by subclasses.
   */
  public Locale getLocale() {
    return locale;
  }

   protected void addClause(Vector clauses, int conj, int mods, Query q) {
    boolean required, prohibited;

    // If this term is introduced by AND, make the preceding term required,
    // unless it's already prohibited
    if (clauses.size() > 0 && conj == CONJ_AND) {
      BooleanClause c = (BooleanClause) clauses.elementAt(clauses.size()-1);
      if (!c.prohibited)
        c.required = true;
    }

    if (clauses.size() > 0 && operator == DEFAULT_OPERATOR_AND && conj == CONJ_OR) {
      // If this term is introduced by OR, make the preceding term optional,
      // unless it's prohibited (that means we leave -a OR b but +a OR b-->a OR b)
      // notice if the input is a OR b, first term is parsed as required; without
      // this modification a OR b would parsed as +a OR b
      BooleanClause c = (BooleanClause) clauses.elementAt(clauses.size()-1);
      if (!c.prohibited)
        c.required = false;
    }

    // We might have been passed a null query; the term might have been
    // filtered away by the analyzer.
    if (q == null)
      return;

    if (operator == DEFAULT_OPERATOR_OR) {
      // We set REQUIRED if we're introduced by AND or +; PROHIBITED if
      // introduced by NOT or -; make sure not to set both.
      prohibited = (mods == MOD_NOT);
      required = (mods == MOD_REQ);
      if (conj == CONJ_AND && !prohibited) {
        required = true;
      }
    } else {
      // We set PROHIBITED if we're introduced by NOT or -; We set REQUIRED
      // if not PROHIBITED and not introduced by OR
      prohibited = (mods == MOD_NOT);
      required   = (!prohibited && conj != CONJ_OR);
    }
    clauses.addElement(new BooleanClause(q, required, prohibited));
  }

  /**
   * Note that parameter analyzer is ignored. Calls inside the parser always
   * use class member analyser. This method will be deprecated and substituted
   * by {@link #getFieldQuery(String, String)} in future versions of Lucene.
   * Currently overwriting either of these methods works.
   *
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getFieldQuery(String field,
                                                    Analyzer analyzer,
                                                    String queryTextthrows ParseException {
    return getFieldQuery(field, queryText);
  }

  /**
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getFieldQuery(String field, String queryTextthrows ParseException {
    // Use the analyzer to get all the tokens, and then build a TermQuery,
    // PhraseQuery, or nothing based on the term count

    TokenStream source = analyzer.tokenStream(field,
                                              new StringReader(queryText));
    Vector v = new Vector();
    org.apache.lucene.analysis.Token t;

    while (true) {
      try {
        t = source.next();
      }
      catch (IOException e) {
        t = null;
      }
      if (t == null)
        break;
      v.addElement(t.termText());
    }
    try {
      source.close();
    }
    catch (IOException e) {
      // ignore
    }

    if (v.size() == 0)
      return null;
    else if (v.size() == 1)
      return new TermQuery(new Term(field, (String) v.elementAt(0)));
    else {
      PhraseQuery q = new PhraseQuery();
      q.setSlop(phraseSlop);
      for (int i=0; i<v.size(); i++) {
        q.add(new Term(field, (String) v.elementAt(i)));
      }
      return q;
    }
  }

  /**
   * Base implementation delegates to {@link #getFieldQuery(String, Analyzer, String)}.
   * This method may be overwritten, for example, to return
   * a SpanNearQuery instead of a PhraseQuery.
   * 
   * Note that parameter analyzer is ignored. Calls inside the parser always
   * use class member analyser. This method will be deprecated and substituted
   * by {@link #getFieldQuery(String, String, int)} in future versions of Lucene.
   * Currently overwriting either of these methods works.
   *
   *  @exception ParseException throw in overridden method to disallow
   */
  protected Query getFieldQuery(String field,
                                                    Analyzer analyzer,
                                                    String queryText,
                                                    int slop) throws ParseException {
    return getFieldQuery(field, queryText, slop);
  }

  /**
   * Base implementation delegates to {@link #getFieldQuery(String,String)}.
   * This method may be overridden, for example, to return
   * a SpanNearQuery instead of a PhraseQuery.
   *
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getFieldQuery(String field, String queryText, int slop)
        throws ParseException {
    Query query = getFieldQuery(field, queryText);

    if (query instanceof PhraseQuery) {
      ((PhraseQuery) query).setSlop(slop);
    }

    return query;
  }

  /**
   * Note that parameter analyzer is ignored. Calls inside the parser always
   * use class member analyser. This method will be deprecated and substituted
   * by {@link #getRangeQuery(String, String, String, boolean)} in future versions of Lucene.
   * Currently overwriting either of these methods works.
   *
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getRangeQuery(String field,
      Analyzer analyzer,
      String part1,
      String part2,
      boolean inclusive) throws ParseException {
    return getRangeQuery(field, part1, part2, inclusive);
  }

  /**
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getRangeQuery(String field,
                                String part1,
                                String part2,
                                boolean inclusive) throws ParseException
  {
    try {
      DateFormat df = DateFormat.getDateInstance(DateFormat.SHORT, locale);
      df.setLenient(true);
      Date d1 = df.parse(part1);
      Date d2 = df.parse(part2);
      part1 = DateField.dateToString(d1);
      part2 = DateField.dateToString(d2);
    }
    catch (Exception e) { }

    return new RangeQuery(new Term(field, part1),
                          new Term(field, part2),
                          inclusive);
  }

  /**
   * Factory method for generating query, given a set of clauses.
   * By default creates a boolean query composed of clauses passed in.
   *
   * Can be overridden by extending classes, to modify query being
   * returned.
   *
   * @param clauses Vector that contains {@link BooleanClause} instances
   *    to join.
   *
   * @return Resulting {@link Query} object.
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getBooleanQuery(Vector clauses) throws ParseException
  {
    BooleanQuery query = new BooleanQuery();
    for (int i = 0; i < clauses.size(); i++) {
  query.add((BooleanClause)clauses.elementAt(i));
    }
    return query;
  }

  /**
   * Factory method for generating a query. Called when parser
   * parses an input term token that contains one or more wildcard
   * characters (? and *), but is not a prefix term token (one
   * that has just a single * character at the end)
   *<p>
   * Depending on settings, prefix term may be lower-cased
   * automatically. It will not go through the default Analyzer,
   * however, since normal Analyzers are unlikely to work properly
   * with wildcard templates.
   *<p>
   * Can be overridden by extending classes, to provide custom handling for
   * wildcard queries, which may be necessary due to missing analyzer calls.
   *
   * @param field Name of the field query will use.
   * @param termStr Term token that contains one or more wild card
   *   characters (? or *), but is not simple prefix term
   *
   * @return Resulting {@link Query} built for the term
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getWildcardQuery(String field, String termStr) throws ParseException
  {
    if (lowercaseWildcardTerms) {
  termStr = termStr.toLowerCase();
    }
    return new WildcardQuery(field, null, translateWildcards(termStr));
  }

  /**
   * Factory method for generating a query (similar to
   * ({@link #getWildcardQuery}). Called when parser parses an input term
   * token that uses prefix notation; that is, contains a single '*' wildcard
   * character as its last character. Since this is a special case
   * of generic wildcard term, and such a query can be optimized easily,
   * this usually results in a different query object.
   *<p>
   * Depending on settings, a prefix term may be lower-cased
   * automatically. It will not go through the default Analyzer,
   * however, since normal Analyzers are unlikely to work properly
   * with wildcard templates.
   *<p>
   * Can be overridden by extending classes, to provide custom handling for
   * wild card queries, which may be necessary due to missing analyzer calls.
   *
   * @param field Name of the field query will use.
   * @param termStr Term token to use for building term for the query
   *    (<b>without</b> trailing '*' character!)
   *
   * @return Resulting {@link Query} built for the term
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getPrefixQuery(String field, String termStr) throws ParseException
  {
    return getWildcardQuery(field, termStr + "*");
  }

  /**
   * Factory method for generating a query (similar to
   * ({@link #getWildcardQuery}). Called when parser parses
   * an input term token that has the fuzzy suffix (~) appended.
   *
   * @param field Name of the field query will use.
   * @param termStr Term token to use for building term for the query
   *
   * @return Resulting {@link Query} built for the term
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getFuzzyQuery(String field, String termStr) throws ParseException {
    return getFuzzyQuery(field, termStr, fuzzyMinSim);
  }

    /**
     * Translates unescaped wildcards '*' and '?' into '%' and '_'.
     *
     * @param input the input String.
     * @return the translated String.
     */
    private String translateWildcards(String input) {
        StringBuffer translated = new StringBuffer(input.length());
        boolean escaped = false;
        for (int i = 0; i < input.length(); i++) {
            if (input.charAt(i) == '\\') {
                if (escaped) {
                    translated.append("\\\\");
                    escaped = false;
                } else {
                    escaped = true;
                }
            } else if (input.charAt(i) == '*') {
                if (escaped) {
                    translated.append('*');
                    escaped = false;
                } else {
                    translated.append('%');
                }
            } else if (input.charAt(i) == '?') {
                if (escaped) {
                    translated.append('?');
                    escaped = false;
                } else {
                    translated.append('_');
                }
            } else if (input.charAt(i) == '%' || input.charAt(i) == '_') {
                // escape every occurrence of '%' and '_'
                escaped = false;
                translated.append('\\').append(input.charAt(i));
            } else {
                if (escaped) {
                    translated.append('\\');
                    escaped = false;
                }
                translated.append(input.charAt(i));
            }
        }
        return translated.toString();
    }

  /**
   * Factory method for generating a query (similar to
   * ({@link #getWildcardQuery}). Called when parser parses
   * an input term token that has the fuzzy suffix (~floatNumber) appended.
   *
   * @param field Name of the field query will use.
   * @param termStr Term token to use for building term for the query
   * @param minSimilarity the minimum similarity required for a fuzzy match
   *
   * @return Resulting {@link Query} built for the term
   * @exception ParseException throw in overridden method to disallow
   */
  protected Query getFuzzyQuery(String field, String termStr, float minSimilarity) throws ParseException
  {
    Term t = new Term(field, termStr);
    return new FuzzyQuery(t, minSimilarity);
  }

  /**
   * Returns a String where the escape char has been
   * removed, or kept only once if there was a double escape.
   */
  private String discardEscapeChar(String input) {
    char[] caSource = input.toCharArray();
    char[] caDest = new char[caSource.length];
    int j = 0;
    for (int i = 0; i < caSource.length; i++) {
      if ((caSource[i] != '\\') || (i > 0 && caSource[i-1] == '\\')) {
        caDest[j++]=caSource[i];
      }
    }
    return new String(caDest, 0, j);
  }

  /**
   * Returns a String where those characters that QueryParser
   * expects to be escaped are escaped, i.e. preceded by a <code>\</code>.
   */
  public static String escape(String s) {
    StringBuffer sb = new StringBuffer();
    for (int i = 0; i < s.length(); i++) {
      char c = s.charAt(i);
      // NOTE: keep this in sync with _ESCAPED_CHAR below!
      if (c == '\\' || c == '+' || c == '-' || c == '!' || c == '(' || c == ')' || c == ':'
        || c == '^' || c == '[' || c == ']' || c == '\"' || c == '{' || c == '}' || c == '~'
        || c == '*' || c == '?') {
        sb.append('\\');
      }
      sb.append(c);
    }
    return sb.toString();
  }

  public static void main(String[] args) throws Exception {
    QueryParser qp = new QueryParser("field",
                           new org.apache.lucene.analysis.SimpleAnalyzer());
    Query q = qp.parse(args[0]);
    System.out.println(q.toString("field"));
  }

// *   Query  ::= ( Clause )*
// *   Clause ::= ["+", "-"] [<TERM> ":"] ( <TERM> | "(" Query ")" )
  final public int Conjunction() throws ParseException {
                     /*@bgen(jjtree) Conjunction */
  SimpleNode jjtn000 = new SimpleNode(JJTCONJUNCTION);
  boolean jjtc000 = true;
  jjtree.openNodeScope(jjtn000);int ret = CONJ_NONE;
    try {
      switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
      case AND:
      case OR:
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case AND:
          jj_consume_token(AND);
            ret = CONJ_AND;
          break;
        case OR:
          jj_consume_token(OR);
              ret = CONJ_OR;
          break;
        default:
          jj_la1[0] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        break;
      default:
        jj_la1[1] = jj_gen;
        ;
      }
    jjtree.closeNodeScope(jjtn000, true);
    jjtc000 = false;
    {if (true) return ret;}
    } finally {
    if (jjtc000) {
      jjtree.closeNodeScope(jjtn000, true);
    }
    }
    throw new Error("Missing return statement in function");
  }

  final public int Modifiers() throws ParseException {
                   /*@bgen(jjtree) Modifiers */
  SimpleNode jjtn000 = new SimpleNode(JJTMODIFIERS);
  boolean jjtc000 = true;
  jjtree.openNodeScope(jjtn000);int ret = MOD_NONE;
    try {
      switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
      case NOT:
      case PLUS:
      case MINUS:
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case PLUS:
          jj_consume_token(PLUS);
              ret = MOD_REQ;
          break;
        case MINUS:
          jj_consume_token(MINUS);
                 ret = MOD_NOT;
          break;
        case NOT:
          jj_consume_token(NOT);
               ret = MOD_NOT;
          break;
        default:
          jj_la1[2] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        break;
      default:
        jj_la1[3] = jj_gen;
        ;
      }
    jjtree.closeNodeScope(jjtn000, true);
    jjtc000 = false;
    {if (true) return ret;}
    } finally {
    if (jjtc000) {
      jjtree.closeNodeScope(jjtn000, true);
    }
    }
    throw new Error("Missing return statement in function");
  }

  final public Query Query(String field) throws ParseException {
/*@bgen(jjtree) Query */
  SimpleNode jjtn000 = new SimpleNode(JJTQUERY);
  boolean jjtc000 = true;
  jjtree.openNodeScope(jjtn000);Vector clauses = new Vector();
  Query q, firstQuery=null;
  int conj, mods;
    try {
      mods = Modifiers();
      q = Clause(field);
    addClause(clauses, CONJ_NONE, mods, q);
    if (mods == MOD_NONE)
        firstQuery=q;
      label_1:
      while (true) {
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case AND:
        case OR:
        case NOT:
        case PLUS:
        case MINUS:
        case LPAREN:
        case QUOTED:
        case TERM:
        case PREFIXTERM:
        case WILDTERM:
        case RANGEIN_START:
        case RANGEEX_START:
        case NUMBER:
          ;
          break;
        default:
          jj_la1[4] = jj_gen;
          break label_1;
        }
        conj = Conjunction();
        mods = Modifiers();
        q = Clause(field);
      addClause(clauses, conj, mods, q);
      }
      jjtree.closeNodeScope(jjtn000, true);
      jjtc000 = false;
      if (clauses.size() == 1 && firstQuery != null)
        {if (true) return firstQuery;}
      else {
  {if (true) return getBooleanQuery(clauses);}
      }
    } catch (Throwable jjte000) {
    if (jjtc000) {
      jjtree.clearNodeScope(jjtn000);
      jjtc000 = false;
    } else {
      jjtree.popNode();
    }
    if (jjte000 instanceof RuntimeException) {
      {if (true) throw (RuntimeException)jjte000;}
    }
    if (jjte000 instanceof ParseException) {
      {if (true) throw (ParseException)jjte000;}
    }
    {if (true) throw (Error)jjte000;}
    } finally {
    if (jjtc000) {
      jjtree.closeNodeScope(jjtn000, true);
    }
    }
    throw new Error("Missing return statement in function");
  }

  final public Query Clause(String field) throws ParseException {
                              /*@bgen(jjtree) Clause */
  SimpleNode jjtn000 = new SimpleNode(JJTCLAUSE);
  boolean jjtc000 = true;
  jjtree.openNodeScope(jjtn000);Query q;
  Token fieldToken=null, boost=null;
    try {
      if (jj_2_1(2)) {
        fieldToken = jj_consume_token(TERM);
        jj_consume_token(COLON);
      field=discardEscapeChar(fieldToken.image);
      } else {
        ;
      }
      switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
      case QUOTED:
      case TERM:
      case PREFIXTERM:
      case WILDTERM:
      case RANGEIN_START:
      case RANGEEX_START:
      case NUMBER:
        q = Term(field);
        break;
      case LPAREN:
        jj_consume_token(LPAREN);
        q = Query(field);
        jj_consume_token(RPAREN);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case CARAT:
          jj_consume_token(CARAT);
          boost = jj_consume_token(NUMBER);
          break;
        default:
          jj_la1[5] = jj_gen;
          ;
        }
        break;
      default:
        jj_la1[6] = jj_gen;
        jj_consume_token(-1);
        throw new ParseException();
      }
      jjtree.closeNodeScope(jjtn000, true);
      jjtc000 = false;
      if (boost != null) {
        float f = (float)1.0;
  try {
    f = Float.valueOf(boost.image).floatValue();
          q.setBoost(f);
  } catch (Exception ignored) { }
      }
      {if (true) return q;}
    } catch (Throwable jjte000) {
    if (jjtc000) {
      jjtree.clearNodeScope(jjtn000);
      jjtc000 = false;
    } else {
      jjtree.popNode();
    }
    if (jjte000 instanceof RuntimeException) {
      {if (true) throw (RuntimeException)jjte000;}
    }
    if (jjte000 instanceof ParseException) {
      {if (true) throw (ParseException)jjte000;}
    }
    {if (true) throw (Error)jjte000;}
    } finally {
    if (jjtc000) {
      jjtree.closeNodeScope(jjtn000, true);
    }
    }
    throw new Error("Missing return statement in function");
  }

  final public Query Term(String field) throws ParseException {
                            /*@bgen(jjtree) Term */
  SimpleNode jjtn000 = new SimpleNode(JJTTERM);
  boolean jjtc000 = true;
  jjtree.openNodeScope(jjtn000);Token term, boost=null, fuzzySlop=null, goop1, goop2;
  boolean prefix = false;
  boolean wildcard = false;
  boolean fuzzy = false;
  boolean rangein = false;
  Query q;
    try {
      switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
      case TERM:
      case PREFIXTERM:
      case WILDTERM:
      case NUMBER:
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case TERM:
          term = jj_consume_token(TERM);
          break;
        case PREFIXTERM:
          term = jj_consume_token(PREFIXTERM);
                             prefix=true;
          break;
        case WILDTERM:
          term = jj_consume_token(WILDTERM);
                           wildcard=true;
          break;
        case NUMBER:
          term = jj_consume_token(NUMBER);
          break;
        default:
          jj_la1[7] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case FUZZY_SLOP:
          fuzzySlop = jj_consume_token(FUZZY_SLOP);
                                fuzzy=true;
          break;
        default:
          jj_la1[8] = jj_gen;
          ;
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case CARAT:
          jj_consume_token(CARAT);
          boost = jj_consume_token(NUMBER);
          switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
          case FUZZY_SLOP:
            fuzzySlop = jj_consume_token(FUZZY_SLOP);
                                                         fuzzy=true;
            break;
          default:
            jj_la1[9] = jj_gen;
            ;
          }
          break;
        default:
          jj_la1[10] = jj_gen;
          ;
        }
       String termImage=discardEscapeChar(term.image);
       if (wildcard) {
       q = getWildcardQuery(field, termImage);
       } else if (prefix) {
         q = getPrefixQuery(field,
           discardEscapeChar(term.image.substring
          (0, term.image.length()-1)));
       } else if (fuzzy) {
          float fms = fuzzyMinSim;
          try {
            fms = Float.valueOf(fuzzySlop.image.substring(1)).floatValue();
          } catch (Exception ignored) { }
         if(fms < 0.0f || fms > 1.0f){
           {if (true) throw new ParseException("Minimum similarity for a FuzzyQuery has to be between 0.0f and 1.0f !");}
         }
         if(fms == fuzzyMinSim)
           q = getFuzzyQuery(field, termImage);
         else
           q = getFuzzyQuery(field, termImage, fms);
       } else {
         q = getFieldQuery(field, analyzer, termImage);
       }
        break;
      case RANGEIN_START:
        jj_consume_token(RANGEIN_START);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEIN_GOOP:
          goop1 = jj_consume_token(RANGEIN_GOOP);
          break;
        case RANGEIN_QUOTED:
          goop1 = jj_consume_token(RANGEIN_QUOTED);
          break;
        default:
          jj_la1[11] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEIN_TO:
          jj_consume_token(RANGEIN_TO);
          break;
        default:
          jj_la1[12] = jj_gen;
          ;
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEIN_GOOP:
          goop2 = jj_consume_token(RANGEIN_GOOP);
          break;
        case RANGEIN_QUOTED:
          goop2 = jj_consume_token(RANGEIN_QUOTED);
          break;
        default:
          jj_la1[13] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        jj_consume_token(RANGEIN_END);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case CARAT:
          jj_consume_token(CARAT);
          boost = jj_consume_token(NUMBER);
          break;
        default:
          jj_la1[14] = jj_gen;
          ;
        }
          if (goop1.kind == RANGEIN_QUOTED) {
            goop1.image = goop1.image.substring(1, goop1.image.length()-1);
          } else {
            goop1.image = discardEscapeChar(goop1.image);
          }
          if (goop2.kind == RANGEIN_QUOTED) {
            goop2.image = goop2.image.substring(1, goop2.image.length()-1);
      } else {
        goop2.image = discardEscapeChar(goop2.image);
      }
          q = getRangeQuery(field, analyzer, goop1.image, goop2.image, true);
        break;
      case RANGEEX_START:
        jj_consume_token(RANGEEX_START);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEEX_GOOP:
          goop1 = jj_consume_token(RANGEEX_GOOP);
          break;
        case RANGEEX_QUOTED:
          goop1 = jj_consume_token(RANGEEX_QUOTED);
          break;
        default:
          jj_la1[15] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEEX_TO:
          jj_consume_token(RANGEEX_TO);
          break;
        default:
          jj_la1[16] = jj_gen;
          ;
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case RANGEEX_GOOP:
          goop2 = jj_consume_token(RANGEEX_GOOP);
          break;
        case RANGEEX_QUOTED:
          goop2 = jj_consume_token(RANGEEX_QUOTED);
          break;
        default:
          jj_la1[17] = jj_gen;
          jj_consume_token(-1);
          throw new ParseException();
        }
        jj_consume_token(RANGEEX_END);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case CARAT:
          jj_consume_token(CARAT);
          boost = jj_consume_token(NUMBER);
          break;
        default:
          jj_la1[18] = jj_gen;
          ;
        }
          if (goop1.kind == RANGEEX_QUOTED) {
            goop1.image = goop1.image.substring(1, goop1.image.length()-1);
          } else {
            goop1.image = discardEscapeChar(goop1.image);
          }
          if (goop2.kind == RANGEEX_QUOTED) {
            goop2.image = goop2.image.substring(1, goop2.image.length()-1);
      } else {
        goop2.image = discardEscapeChar(goop2.image);
      }

          q = getRangeQuery(field, analyzer, goop1.image, goop2.image, false);
        break;
      case QUOTED:
        term = jj_consume_token(QUOTED);
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case FUZZY_SLOP:
          fuzzySlop = jj_consume_token(FUZZY_SLOP);
          break;
        default:
          jj_la1[19] = jj_gen;
          ;
        }
        switch ((jj_ntk==-1)?jj_ntk():jj_ntk) {
        case CARAT:
          jj_consume_token(CARAT);
          boost = jj_consume_token(NUMBER);
          break;
        default:
          jj_la1[20] = jj_gen;
          ;
        }
         int s = phraseSlop;

         if (fuzzySlop != null) {
           try {
             s = Float.valueOf(fuzzySlop.image.substring(1)).intValue();
           }
           catch (Exception ignored) { }
         }
         q = getFieldQuery(field, analyzer, term.image.substring(1, term.image.length()-1), s);
        break;
      default:
        jj_la1[21] = jj_gen;
        jj_consume_token(-1);
        throw new ParseException();
      }
    jjtree.closeNodeScope(jjtn000, true);
    jjtc000 = false;
    if (boost != null) {
      float f = (float) 1.0;
      try {
        f = Float.valueOf(boost.image).floatValue();
      }
      catch (Exception ignored) {
    /* Should this be handled somehow? (defaults to "no boost", if
     * boost number is invalid)
     */
      }

      // avoid boosting null queries, such as those caused by stop words
      if (q != null) {
        q.setBoost(f);
      }
    }
    {if (true) return q;}
    } finally {
    if (jjtc000) {
      jjtree.closeNodeScope(jjtn000, true);
    }
    }
    throw new Error("Missing return statement in function");
  }

  final private boolean jj_2_1(int xla) {
    jj_la = xla; jj_lastpos = jj_scanpos = token;
    try { return !jj_3_1(); }
    catch(LookaheadSuccess ls) { return true; }
    finally { jj_save(0, xla); }
  }

  final private boolean jj_3_1() {
    if (jj_scan_token(TERM)) return true;
    if (jj_scan_token(COLON)) return true;
    return false;
  }

  public QueryParserTokenManager token_source;
  public Token token, jj_nt;
  private int jj_ntk;
  private Token jj_scanpos, jj_lastpos;
  private int jj_la;
  public boolean lookingAhead = false;
  private boolean jj_semLA;
  private int jj_gen;
  final private int[] jj_la1 = new int[22];
  static private int[] jj_la1_0;
  static {
      jj_la1_0();
   }
   private static void jj_la1_0() {
      jj_la1_0 = new int[] {0x180,0x180,0xe00,0xe00,0xfb1f80,0x8000,0xfb1000,0x9a0000,0x40000,0x40000,0x8000,0xc000000,0x1000000,0xc000000,0x8000,0xc0000000,0x10000000,0xc0000000,0x8000,0x40000,0x8000,0xfb0000,};
   }
  final private JJCalls[] jj_2_rtns = new JJCalls[1];
  private boolean jj_rescan = false;
  private int jj_gc = 0;

  public QueryParser(CharStream stream) {
    token_source = new QueryParserTokenManager(stream);
    token = new Token();
    jj_ntk = -1;
    jj_gen = 0;
    for (int i = 0; i < 22; i++) jj_la1[i] = -1;
    for (int i = 0; i < jj_2_rtns.length; i++) jj_2_rtns[i] = new JJCalls();
  }

  public void ReInit(CharStream stream) {
    token_source.ReInit(stream);
    token = new Token();
    jj_ntk = -1;
    jjtree.reset();
    jj_gen = 0;
    for (int i = 0; i < 22; i++) jj_la1[i] = -1;
    for (int i = 0; i < jj_2_rtns.length; i++) jj_2_rtns[i] = new JJCalls();
  }

  public QueryParser(QueryParserTokenManager tm) {
    token_source = tm;
    token = new Token();
    jj_ntk = -1;
    jj_gen = 0;
    for (int i = 0; i < 22; i++) jj_la1[i] = -1;
    for (int i = 0; i < jj_2_rtns.length; i++) jj_2_rtns[i] = new JJCalls();
  }

  public void ReInit(QueryParserTokenManager tm) {
    token_source = tm;
    token = new Token();
    jj_ntk = -1;
    jjtree.reset();
    jj_gen = 0;
    for (int i = 0; i < 22; i++) jj_la1[i] = -1;
    for (int i = 0; i < jj_2_rtns.length; i++) jj_2_rtns[i] = new JJCalls();
  }

  final private Token jj_consume_token(int kind) throws ParseException {
    Token oldToken;
    if ((oldToken = token).next != null) token = token.next;
    else token = token.next = token_source.getNextToken();
    jj_ntk = -1;
    if (token.kind == kind) {
      jj_gen++;
      if (++jj_gc > 100) {
        jj_gc = 0;
        for (int i = 0; i < jj_2_rtns.length; i++) {
          JJCalls c = jj_2_rtns[i];
          while (c != null) {
            if (c.gen < jj_gen) c.first = null;
            c = c.next;
          }
        }
      }
      return token;
    }
    token = oldToken;
    jj_kind = kind;
    throw generateParseException();
  }

  static private final class LookaheadSuccess extends java.lang.Error { }
  final private LookaheadSuccess jj_ls = new LookaheadSuccess();
  final private boolean jj_scan_token(int kind) {
    if (jj_scanpos == jj_lastpos) {
      jj_la--;
      if (jj_scanpos.next == null) {
        jj_lastpos = jj_scanpos = jj_scanpos.next = token_source.getNextToken();
      } else {
        jj_lastpos = jj_scanpos = jj_scanpos.next;
      }
    } else {
      jj_scanpos = jj_scanpos.next;
    }
    if (jj_rescan) {
      int i = 0; Token tok = token;
      while (tok != null && tok != jj_scanpos) { i++; tok = tok.next; }
      if (tok != null) jj_add_error_token(kind, i);
    }
    if (jj_scanpos.kind != kind) return true;
    if (jj_la == 0 && jj_scanpos == jj_lastpos) throw jj_ls;
    return false;
  }

  final public Token getNextToken() {
    if (token.next != null) token = token.next;
    else token = token.next = token_source.getNextToken();
    jj_ntk = -1;
    jj_gen++;
    return token;
  }

  final public Token getToken(int index) {
    Token t = lookingAhead ? jj_scanpos : token;
    for (int i = 0; i < index; i++) {
      if (t.next != null) t = t.next;
      else t = t.next = token_source.getNextToken();
    }
    return t;
  }

  final private int jj_ntk() {
    if ((jj_nt=token.next) == null)
      return (jj_ntk = (token.next=token_source.getNextToken()).kind);
    else
      return (jj_ntk = jj_nt.kind);
  }

  private java.util.Vector jj_expentries = new java.util.Vector();
  private int[] jj_expentry;
  private int jj_kind = -1;
  private int[] jj_lasttokens = new int[100];
  private int jj_endpos;

  private void jj_add_error_token(int kind, int pos) {
    if (pos >= 100) return;
    if (pos == jj_endpos + 1) {
      jj_lasttokens[jj_endpos++] = kind;
    } else if (jj_endpos != 0) {
      jj_expentry = new int[jj_endpos];
      for (int i = 0; i < jj_endpos; i++) {
        jj_expentry[i] = jj_lasttokens[i];
      }
      boolean exists = false;
      for (java.util.Enumeration e = jj_expentries.elements(); e.hasMoreElements();) {
        int[] oldentry = (int[])(e.nextElement());
        if (oldentry.length == jj_expentry.length) {
          exists = true;
          for (int i = 0; i < jj_expentry.length; i++) {
            if (oldentry[i] != jj_expentry[i]) {
              exists = false;
              break;
            }
          }
          if (exists) break;
        }
      }
      if (!exists) jj_expentries.addElement(jj_expentry);
      if (pos != 0) jj_lasttokens[(jj_endpos = pos) - 1] = kind;
    }
  }

  public ParseException generateParseException() {
    jj_expentries.removeAllElements();
    boolean[] la1tokens = new boolean[32];
    for (int i = 0; i < 32; i++) {
      la1tokens[i] = false;
    }
    if (jj_kind >= 0) {
      la1tokens[jj_kind] = true;
      jj_kind = -1;
    }
    for (int i = 0; i < 22; i++) {
      if (jj_la1[i] == jj_gen) {
        for (int j = 0; j < 32; j++) {
          if ((jj_la1_0[i] & (1<<j)) != 0) {
            la1tokens[j] = true;
          }
        }
      }
    }
    for (int i = 0; i < 32; i++) {
      if (la1tokens[i]) {
        jj_expentry = new int[1];
        jj_expentry[0] = i;
        jj_expentries.addElement(jj_expentry);
      }
    }
    jj_endpos = 0;
    jj_rescan_token();
    jj_add_error_token(0, 0);
    int[][] exptokseq = new int[jj_expentries.size()][];
    for (int i = 0; i < jj_expentries.size(); i++) {
      exptokseq[i] = (int[])jj_expentries.elementAt(i);
    }
    return new ParseException(token, exptokseq, tokenImage);
  }

  final public void enable_tracing() {
  }

  final public void disable_tracing() {
  }

  final private void jj_rescan_token() {
    jj_rescan = true;
    for (int i = 0; i < 1; i++) {
      JJCalls p = jj_2_rtns[i];
      do {
        if (p.gen > jj_gen) {
          jj_la = p.arg; jj_lastpos = jj_scanpos = p.first;
          switch (i) {
            case 0: jj_3_1(); break;
          }
        }
        p = p.next;
      } while (p != null);
    }
    jj_rescan = false;
  }

  final private void jj_save(int index, int xla) {
    JJCalls p = jj_2_rtns[index];
    while (p.gen > jj_gen) {
      if (p.next == null) { p = p.next = new JJCalls(); break; }
      p = p.next;
    }
    p.gen = jj_gen + xla - jj_la; p.first = token; p.arg = xla;
  }

  static final class JJCalls {
    int gen;
    Token first;
    int arg;
    JJCalls next;
  }

}
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