Examples of org.apache.lucene.analysis.CachingTokenFilter

org.apache.lucene.analysis.CachingTokenFilter
This class can be used if the token attributes of a TokenStream are intended to be consumed more than once. It caches all token attribute states locally in a List.
CachingTokenFilter implements the optional method {@link TokenStream#reset()}, which repositions the stream to the first Token.

        source = this.analyzer.reusableTokenStream(field, new StringReader(text));
        source.reset();
      } catch (IOException e1) {
        throw new RuntimeException(e1);
      }
      CachingTokenFilter buffer = new CachingTokenFilter(source);


      PositionIncrementAttribute posIncrAtt = null;
      int numTokens = 0;
      int positionCount = 0;
      boolean severalTokensAtSamePosition = false;


      if (buffer.hasAttribute(PositionIncrementAttribute.class)) {
        posIncrAtt = buffer.getAttribute(PositionIncrementAttribute.class);
      }


      try {


        while (buffer.incrementToken()) {
          numTokens++;
          int positionIncrement = (posIncrAtt != null) ? posIncrAtt
              .getPositionIncrement() : 1;
          if (positionIncrement != 0) {
            positionCount += positionIncrement;


          } else {
            severalTokensAtSamePosition = true;
          }


        }


      } catch (IOException e) {
        // ignore
      }


      try {
        // rewind the buffer stream
        buffer.reset();


        // close original stream - all tokens buffered
        source.close();
      } catch (IOException e) {
        // ignore
      }


      if (!buffer.hasAttribute(CharTermAttribute.class)) {
        return new NoTokenFoundQueryNode();
      }


      CharTermAttribute termAtt = buffer.getAttribute(CharTermAttribute.class);


      if (numTokens == 0) {
        return new NoTokenFoundQueryNode();


      } else if (numTokens == 1) {
        String term = null;
        try {
          boolean hasNext;
          hasNext = buffer.incrementToken();
          assert hasNext == true;
          term = termAtt.toString();


        } catch (IOException e) {
          // safe to ignore, because we know the number of tokens
        }


        fieldNode.setText(term);


        return fieldNode;


      } else if (severalTokensAtSamePosition || !(node instanceof QuotedFieldQueryNode)) {
        if (positionCount == 1 || !(node instanceof QuotedFieldQueryNode)) {
          // no phrase query:
          LinkedList<QueryNode> children = new LinkedList<QueryNode>();


          for (int i = 0; i < numTokens; i++) {
            String term = null;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();


            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            children.add(new FieldQueryNode(field, term, -1, -1));


          }
          return new GroupQueryNode(
              new StandardBooleanQueryNode(children, positionCount==1));
        } else {
          // phrase query:
          MultiPhraseQueryNode mpq = new MultiPhraseQueryNode();


          List<FieldQueryNode> multiTerms = new ArrayList<FieldQueryNode>();
          int position = -1;
          int i = 0;
          int termGroupCount = 0;
          for (; i < numTokens; i++) {
            String term = null;
            int positionIncrement = 1;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
              if (posIncrAtt != null) {
                positionIncrement = posIncrAtt.getPositionIncrement();
              }


            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            if (positionIncrement > 0 && multiTerms.size() > 0) {


              for (FieldQueryNode termNode : multiTerms) {


                if (this.positionIncrementsEnabled) {
                  termNode.setPositionIncrement(position);
                } else {
                  termNode.setPositionIncrement(termGroupCount);
                }


                mpq.add(termNode);


              }


              // Only increment once for each "group" of
              // terms that were in the same position:
              termGroupCount++;


              multiTerms.clear();


            }


            position += positionIncrement;
            multiTerms.add(new FieldQueryNode(field, term, -1, -1));


          }


          for (FieldQueryNode termNode : multiTerms) {


            if (this.positionIncrementsEnabled) {
              termNode.setPositionIncrement(position);


            } else {
              termNode.setPositionIncrement(termGroupCount);
            }


            mpq.add(termNode);


          }


          return mpq;


        }


      } else {


        TokenizedPhraseQueryNode pq = new TokenizedPhraseQueryNode();


        int position = -1;


        for (int i = 0; i < numTokens; i++) {
          String term = null;
          int positionIncrement = 1;


          try {
            boolean hasNext = buffer.incrementToken();
            assert hasNext == true;
            term = termAtt.toString();


            if (posIncrAtt != null) {
              positionIncrement = posIncrAtt.getPositionIncrement();

View Full Code Here

      source = analyzer.reusableTokenStream(field, new StringReader(queryText));
      source.reset();
    } catch (IOException e) {
      source = analyzer.tokenStream(field, new StringReader(queryText));
    }
    CachingTokenFilter buffer = new CachingTokenFilter(source);
    CharTermAttribute termAtt = null;
    PositionIncrementAttribute posIncrAtt = null;
    int numTokens = 0;


    boolean success = false;
    try {
      buffer.reset();
      success = true;
    } catch (IOException e) {
      // success==false if we hit an exception
    }
    if (success) {
      if (buffer.hasAttribute(CharTermAttribute.class)) {
        termAtt = buffer.getAttribute(CharTermAttribute.class);
      }
      if (buffer.hasAttribute(PositionIncrementAttribute.class)) {
        posIncrAtt = buffer.getAttribute(PositionIncrementAttribute.class);
      }
    }


    int positionCount = 0;
    boolean severalTokensAtSamePosition = false;


    boolean hasMoreTokens = false;
    if (termAtt != null) {
      try {
        hasMoreTokens = buffer.incrementToken();
        while (hasMoreTokens) {
          numTokens++;
          int positionIncrement = (posIncrAtt != null) ? posIncrAtt.getPositionIncrement() : 1;
          if (positionIncrement != 0) {
            positionCount += positionIncrement;
          } else {
            severalTokensAtSamePosition = true;
          }
          hasMoreTokens = buffer.incrementToken();
        }
      } catch (IOException e) {
        // ignore
      }
    }
    try {
      // rewind the buffer stream
      buffer.reset();


      // close original stream - all tokens buffered
      source.close();
    }
    catch (IOException e) {
      // ignore
    }


    if (numTokens == 0)
      return null;
    else if (numTokens == 1) {
      String term = null;
      try {
        boolean hasNext = buffer.incrementToken();
        assert hasNext == true;
        term = termAtt.toString();
      } catch (IOException e) {
        // safe to ignore, because we know the number of tokens
      }
      return newTermQuery(new Term(field, term));
    } else {
      if (severalTokensAtSamePosition || (!quoted && !autoGeneratePhraseQueries)) {
        if (positionCount == 1 || (!quoted && !autoGeneratePhraseQueries)) {
          // no phrase query:
          BooleanQuery q = newBooleanQuery(positionCount == 1);


          BooleanClause.Occur occur = positionCount > 1 && operator == AND_OPERATOR ?
            BooleanClause.Occur.MUST : BooleanClause.Occur.SHOULD;


          for (int i = 0; i < numTokens; i++) {
            String term = null;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            Query currentQuery = newTermQuery(
                new Term(field, term));
            q.add(currentQuery, occur);
          }
          return q;
        }
        else {
          // phrase query:
          MultiPhraseQuery mpq = newMultiPhraseQuery();
          mpq.setSlop(phraseSlop);
          List<Term> multiTerms = new ArrayList<Term>();
          int position = -1;
          for (int i = 0; i < numTokens; i++) {
            String term = null;
            int positionIncrement = 1;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
              if (posIncrAtt != null) {
                positionIncrement = posIncrAtt.getPositionIncrement();
              }
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            if (positionIncrement > 0 && multiTerms.size() > 0) {
              if (enablePositionIncrements) {
                mpq.add(multiTerms.toArray(new Term[0]),position);
              } else {
                mpq.add(multiTerms.toArray(new Term[0]));
              }
              multiTerms.clear();
            }
            position += positionIncrement;
            multiTerms.add(new Term(field, term));
          }
          if (enablePositionIncrements) {
            mpq.add(multiTerms.toArray(new Term[0]),position);
          } else {
            mpq.add(multiTerms.toArray(new Term[0]));
          }
          return mpq;
        }
      }
      else {
        PhraseQuery pq = newPhraseQuery();
        pq.setSlop(phraseSlop);
        int position = -1;




        for (int i = 0; i < numTokens; i++) {
          String term = null;
          int positionIncrement = 1;


          try {
            boolean hasNext = buffer.incrementToken();
            assert hasNext == true;
            term = termAtt.toString();
            if (posIncrAtt != null) {
              positionIncrement = posIncrAtt.getPositionIncrement();
            }

View Full Code Here

  public void testEndOffsetPositionWithCachingTokenFilter() throws Exception {
    MockRAMDirectory dir = new MockRAMDirectory();
    Analyzer analyzer = new WhitespaceAnalyzer();
    IndexWriter w = new IndexWriter(dir, analyzer, IndexWriter.MaxFieldLength.LIMITED);
    Document doc = new Document();
    TokenStream stream = new CachingTokenFilter(analyzer.tokenStream("field", new StringReader("abcd   ")));
    Field f = new Field("field", stream, Field.TermVector.WITH_POSITIONS_OFFSETS);
    doc.add(f);
    doc.add(f);
    w.addDocument(doc);
    w.close();

View Full Code Here

      source = analyzer.reusableTokenStream(field, new StringReader(queryText));
      source.reset();
    } catch (IOException e) {
      source = analyzer.tokenStream(field, new StringReader(queryText));
    }
    CachingTokenFilter buffer = new CachingTokenFilter(source);
    CharTermAttribute termAtt = null;
    PositionIncrementAttribute posIncrAtt = null;
    int numTokens = 0;


    boolean success = false;
    try {
      buffer.reset();
      success = true;
    } catch (IOException e) {
      // success==false if we hit an exception
    }
    if (success) {
      if (buffer.hasAttribute(CharTermAttribute.class)) {
        termAtt = buffer.getAttribute(CharTermAttribute.class);
      }
      if (buffer.hasAttribute(PositionIncrementAttribute.class)) {
        posIncrAtt = buffer.getAttribute(PositionIncrementAttribute.class);
      }
    }


    int positionCount = 0;
    boolean severalTokensAtSamePosition = false;


    boolean hasMoreTokens = false;
    if (termAtt != null) {
      try {
        hasMoreTokens = buffer.incrementToken();
        while (hasMoreTokens) {
          numTokens++;
          int positionIncrement = (posIncrAtt != null) ? posIncrAtt.getPositionIncrement() : 1;
          if (positionIncrement != 0) {
            positionCount += positionIncrement;
          } else {
            severalTokensAtSamePosition = true;
          }
          hasMoreTokens = buffer.incrementToken();
        }
      } catch (IOException e) {
        // ignore
      }
    }
    try {
      // rewind the buffer stream
      buffer.reset();


      // close original stream - all tokens buffered
      source.close();
    }
    catch (IOException e) {
      // ignore
    }


    if (numTokens == 0)
      return null;
    else if (numTokens == 1) {
      String term = null;
      try {
        boolean hasNext = buffer.incrementToken();
        assert hasNext == true;
        term = termAtt.toString();
      } catch (IOException e) {
        // safe to ignore, because we know the number of tokens
      }
      return newTermQuery(new Term(field, term));
    } else {
      if (severalTokensAtSamePosition || (!quoted && !autoGeneratePhraseQueries)) {
        if (positionCount == 1 || (!quoted && !autoGeneratePhraseQueries)) {
          // no phrase query:
          BooleanQuery q = newBooleanQuery(positionCount == 1);


          BooleanClause.Occur occur = positionCount > 1 && operator == AND_OPERATOR ?
            BooleanClause.Occur.MUST : BooleanClause.Occur.SHOULD;


          for (int i = 0; i < numTokens; i++) {
            String term = null;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            Query currentQuery = newTermQuery(
                new Term(field, term));
            q.add(currentQuery, occur);
          }
          return q;
        }
        else {
          // phrase query:
          MultiPhraseQuery mpq = newMultiPhraseQuery();
          mpq.setSlop(phraseSlop);
          List<Term> multiTerms = new ArrayList<Term>();
          int position = -1;
          for (int i = 0; i < numTokens; i++) {
            String term = null;
            int positionIncrement = 1;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
              if (posIncrAtt != null) {
                positionIncrement = posIncrAtt.getPositionIncrement();
              }
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            if (positionIncrement > 0 && multiTerms.size() > 0) {
              if (enablePositionIncrements) {
                mpq.add(multiTerms.toArray(new Term[0]),position);
              } else {
                mpq.add(multiTerms.toArray(new Term[0]));
              }
              multiTerms.clear();
            }
            position += positionIncrement;
            multiTerms.add(new Term(field, term));
          }
          if (enablePositionIncrements) {
            mpq.add(multiTerms.toArray(new Term[0]),position);
          } else {
            mpq.add(multiTerms.toArray(new Term[0]));
          }
          return mpq;
        }
      }
      else {
        PhraseQuery pq = newPhraseQuery();
        pq.setSlop(phraseSlop);
        int position = -1;




        for (int i = 0; i < numTokens; i++) {
          String term = null;
          int positionIncrement = 1;


          try {
            boolean hasNext = buffer.incrementToken();
            assert hasNext == true;
            term = termAtt.toString();
            if (posIncrAtt != null) {
              positionIncrement = posIncrAtt.getPositionIncrement();
            }

View Full Code Here

    return rv;
  }


  protected IndexReader getReaderForField(String field) throws IOException {
    if(wrapToCaching && !cachedTokenStream && !(tokenStream instanceof CachingTokenFilter)) {
      tokenStream = new CachingTokenFilter(new OffsetLimitTokenFilter(tokenStream, maxDocCharsToAnalyze));
      cachedTokenStream = true;
    }
    IndexReader reader = readers.get(field);
    if (reader == null) {
      MemoryIndex indexer = new MemoryIndex();

View Full Code Here

    Analyzer analyzer = new MockAnalyzer(random);
    IndexWriter w = new IndexWriter(dir, newIndexWriterConfig( TEST_VERSION_CURRENT, analyzer));
    Document doc = new Document();
    TokenStream stream = analyzer.tokenStream("field", new StringReader("abcd   "));
    stream.reset(); // TODO: wierd to reset before wrapping with CachingTokenFilter... correct?
    stream = new CachingTokenFilter(stream);
    Field f = new Field("field", stream, Field.TermVector.WITH_POSITIONS_OFFSETS);
    doc.add(f);
    doc.add(f);
    w.addDocument(doc);
    w.close();

View Full Code Here

    private Query newPossiblyAnalyzedQuery(String field, String termStr) {
        try (TokenStream source = getAnalyzer().tokenStream(field, termStr)) {
            source.reset();
            // Use the analyzer to get all the tokens, and then build a TermQuery,
            // PhraseQuery, or nothing based on the term count
            CachingTokenFilter buffer = new CachingTokenFilter(source);
            buffer.reset();


            TermToBytesRefAttribute termAtt = null;
            int numTokens = 0;
            boolean hasMoreTokens = false;
            termAtt = buffer.getAttribute(TermToBytesRefAttribute.class);
            if (termAtt != null) {
                try {
                    hasMoreTokens = buffer.incrementToken();
                    while (hasMoreTokens) {
                        numTokens++;
                        hasMoreTokens = buffer.incrementToken();
                    }
                } catch (IOException e) {
                    // ignore
                }
            }


            // rewind buffer
            buffer.reset();


            BytesRef bytes = termAtt == null ? null : termAtt.getBytesRef();
            if (numTokens == 0) {
                return null;
            } else if (numTokens == 1) {
                try {
                    boolean hasNext = buffer.incrementToken();
                    assert hasNext == true;
                    termAtt.fillBytesRef();
                } catch (IOException e) {
                    // safe to ignore, because we know the number of tokens
                }
                return new PrefixQuery(new Term(field, BytesRef.deepCopyOf(bytes)));
            } else {
                BooleanQuery bq = new BooleanQuery();
                for (int i = 0; i < numTokens; i++) {
                    try {
                        boolean hasNext = buffer.incrementToken();
                        assert hasNext == true;
                        termAtt.fillBytesRef();
                    } catch (IOException e) {
                        // safe to ignore, because we know the number of tokens
                    }

View Full Code Here

      source = analyzer.reusableTokenStream(field, new StringReader(queryText));
      source.reset();
    } catch (IOException e) {
      source = analyzer.tokenStream(field, new StringReader(queryText));
    }
    CachingTokenFilter buffer = new CachingTokenFilter(source);
    CharTermAttribute termAtt = null;
    PositionIncrementAttribute posIncrAtt = null;
    int numTokens = 0;


    boolean success = false;
    try {
      buffer.reset();
      success = true;
    } catch (IOException e) {
      // success==false if we hit an exception
    }
    if (success) {
      if (buffer.hasAttribute(CharTermAttribute.class)) {
        termAtt = buffer.getAttribute(CharTermAttribute.class);
      }
      if (buffer.hasAttribute(PositionIncrementAttribute.class)) {
        posIncrAtt = buffer.getAttribute(PositionIncrementAttribute.class);
      }
    }


    int positionCount = 0;
    boolean severalTokensAtSamePosition = false;


    boolean hasMoreTokens = false;
    if (termAtt != null) {
      try {
        hasMoreTokens = buffer.incrementToken();
        while (hasMoreTokens) {
          numTokens++;
          int positionIncrement = (posIncrAtt != null) ? posIncrAtt.getPositionIncrement() : 1;
          if (positionIncrement != 0) {
            positionCount += positionIncrement;
          } else {
            severalTokensAtSamePosition = true;
          }
          hasMoreTokens = buffer.incrementToken();
        }
      } catch (IOException e) {
        // ignore
      }
    }
    try {
      // rewind the buffer stream
      buffer.reset();


      // close original stream - all tokens buffered
      source.close();
    }
    catch (IOException e) {
      // ignore
    }


    if (numTokens == 0)
      return null;
    else if (numTokens == 1) {
      String term = null;
      try {
        boolean hasNext = buffer.incrementToken();
        assert hasNext == true;
        term = termAtt.toString();
      } catch (IOException e) {
        // safe to ignore, because we know the number of tokens
      }
      return newTermQuery(new Term(field, term));
    } else {
      if (severalTokensAtSamePosition || (!quoted && !autoGeneratePhraseQueries)) {
        if (positionCount == 1 || (!quoted && !autoGeneratePhraseQueries)) {
          // no phrase query:
          BooleanQuery q = newBooleanQuery(positionCount == 1);


          BooleanClause.Occur occur = positionCount > 1 && operator == AND_OPERATOR ?
            BooleanClause.Occur.MUST : BooleanClause.Occur.SHOULD;


          for (int i = 0; i < numTokens; i++) {
            String term = null;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            Query currentQuery = newTermQuery(
                new Term(field, term));
            q.add(currentQuery, occur);
          }
          return q;
        }
        else {
          // phrase query:
          MultiPhraseQuery mpq = newMultiPhraseQuery();
          mpq.setSlop(phraseSlop);
          List<Term> multiTerms = new ArrayList<Term>();
          int position = -1;
          for (int i = 0; i < numTokens; i++) {
            String term = null;
            int positionIncrement = 1;
            try {
              boolean hasNext = buffer.incrementToken();
              assert hasNext == true;
              term = termAtt.toString();
              if (posIncrAtt != null) {
                positionIncrement = posIncrAtt.getPositionIncrement();
              }
            } catch (IOException e) {
              // safe to ignore, because we know the number of tokens
            }


            if (positionIncrement > 0 && multiTerms.size() > 0) {
              if (enablePositionIncrements) {
                mpq.add(multiTerms.toArray(new Term[0]),position);
              } else {
                mpq.add(multiTerms.toArray(new Term[0]));
              }
              multiTerms.clear();
            }
            position += positionIncrement;
            multiTerms.add(new Term(field, term));
          }
          if (enablePositionIncrements) {
            mpq.add(multiTerms.toArray(new Term[0]),position);
          } else {
            mpq.add(multiTerms.toArray(new Term[0]));
          }
          return mpq;
        }
      }
      else {
        PhraseQuery pq = newPhraseQuery();
        pq.setSlop(phraseSlop);
        int position = -1;




        for (int i = 0; i < numTokens; i++) {
          String term = null;
          int positionIncrement = 1;


          try {
            boolean hasNext = buffer.incrementToken();
            assert hasNext == true;
            term = termAtt.toString();
            if (posIncrAtt != null) {
              positionIncrement = posIncrAtt.getPositionIncrement();
            }

View Full Code Here

  public void testEndOffsetPositionWithCachingTokenFilter() throws Exception {
    MockRAMDirectory dir = new MockRAMDirectory();
    Analyzer analyzer = new WhitespaceAnalyzer();
    IndexWriter w = new IndexWriter(dir, analyzer, IndexWriter.MaxFieldLength.LIMITED);
    Document doc = new Document();
    TokenStream stream = new CachingTokenFilter(analyzer.tokenStream("field", new StringReader("abcd   ")));
    Field f = new Field("field", stream, Field.TermVector.WITH_POSITIONS_OFFSETS);
    doc.add(f);
    doc.add(f);
    w.addDocument(doc);
    w.close();

View Full Code Here

  public void testEndOffsetPositionWithCachingTokenFilter() throws Exception {
    MockRAMDirectory dir = new MockRAMDirectory();
    Analyzer analyzer = new WhitespaceAnalyzer();
    IndexWriter w = new IndexWriter(dir, analyzer, IndexWriter.MaxFieldLength.LIMITED);
    Document doc = new Document();
    TokenStream stream = new CachingTokenFilter(analyzer.tokenStream("field", new StringReader("abcd   ")));
    Field f = new Field("field", stream, Field.TermVector.WITH_POSITIONS_OFFSETS);
    doc.add(f);
    doc.add(f);
    w.addDocument(doc);
    w.close();

View Full Code Here

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