package org.apache.lucene.search;
/**
* 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.
*/
import java.io.IOException;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.Term;
import org.apache.lucene.index.Terms;
import org.apache.lucene.index.TermsEnum;
import org.apache.lucene.queryParser.QueryParser;
import org.apache.lucene.util.AttributeSource;
import org.apache.lucene.util.PerReaderTermState;
/**
* An abstract {@link Query} that matches documents
* containing a subset of terms provided by a {@link
* FilteredTermsEnum} enumeration.
*
* <p>This query cannot be used directly; you must subclass
* it and define {@link #getTermsEnum(Terms,AttributeSource)} to provide a {@link
* FilteredTermsEnum} that iterates through the terms to be
* matched.
*
* <p><b>NOTE</b>: if {@link #setRewriteMethod} is either
* {@link #CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE} or {@link
* #SCORING_BOOLEAN_QUERY_REWRITE}, you may encounter a
* {@link BooleanQuery.TooManyClauses} exception during
* searching, which happens when the number of terms to be
* searched exceeds {@link
* BooleanQuery#getMaxClauseCount()}. Setting {@link
* #setRewriteMethod} to {@link #CONSTANT_SCORE_FILTER_REWRITE}
* prevents this.
*
* <p>The recommended rewrite method is {@link
* #CONSTANT_SCORE_AUTO_REWRITE_DEFAULT}: it doesn't spend CPU
* computing unhelpful scores, and it tries to pick the most
* performant rewrite method given the query. If you
* need scoring (like {@link FuzzyQuery}, use
* {@link TopTermsScoringBooleanQueryRewrite} which uses
* a priority queue to only collect competitive terms
* and not hit this limitation.
*
* Note that {@link QueryParser} produces
* MultiTermQueries using {@link
* #CONSTANT_SCORE_AUTO_REWRITE_DEFAULT} by default.
*/
public abstract class MultiTermQuery extends Query {
protected final String field;
protected RewriteMethod rewriteMethod = CONSTANT_SCORE_AUTO_REWRITE_DEFAULT;
transient int numberOfTerms = 0;
/** Abstract class that defines how the query is rewritten. */
public static abstract class RewriteMethod {
public abstract Query rewrite(IndexReader reader, MultiTermQuery query) throws IOException;
}
/** A rewrite method that first creates a private Filter,
* by visiting each term in sequence and marking all docs
* for that term. Matching documents are assigned a
* constant score equal to the query's boost.
*
* <p> This method is faster than the BooleanQuery
* rewrite methods when the number of matched terms or
* matched documents is non-trivial. Also, it will never
* hit an errant {@link BooleanQuery.TooManyClauses}
* exception.
*
* @see #setRewriteMethod */
public static final RewriteMethod CONSTANT_SCORE_FILTER_REWRITE = new RewriteMethod() {
@Override
public Query rewrite(IndexReader reader, MultiTermQuery query) {
Query result = new ConstantScoreQuery(new MultiTermQueryWrapperFilter<MultiTermQuery>(query));
result.setBoost(query.getBoost());
return result;
}
};
/** A rewrite method that first translates each term into
* {@link BooleanClause.Occur#SHOULD} clause in a
* BooleanQuery, and keeps the scores as computed by the
* query. Note that typically such scores are
* meaningless to the user, and require non-trivial CPU
* to compute, so it's almost always better to use {@link
* #CONSTANT_SCORE_AUTO_REWRITE_DEFAULT} instead.
*
* <p><b>NOTE</b>: This rewrite method will hit {@link
* BooleanQuery.TooManyClauses} if the number of terms
* exceeds {@link BooleanQuery#getMaxClauseCount}.
*
* @see #setRewriteMethod */
public final static RewriteMethod SCORING_BOOLEAN_QUERY_REWRITE = ScoringRewrite.SCORING_BOOLEAN_QUERY_REWRITE;
/** Like {@link #SCORING_BOOLEAN_QUERY_REWRITE} except
* scores are not computed. Instead, each matching
* document receives a constant score equal to the
* query's boost.
*
* <p><b>NOTE</b>: This rewrite method will hit {@link
* BooleanQuery.TooManyClauses} if the number of terms
* exceeds {@link BooleanQuery#getMaxClauseCount}.
*
* @see #setRewriteMethod */
public final static RewriteMethod CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE = ScoringRewrite.CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE;
/**
* A rewrite method that first translates each term into
* {@link BooleanClause.Occur#SHOULD} clause in a BooleanQuery, and keeps the
* scores as computed by the query.
*
* <p>
* This rewrite method only uses the top scoring terms so it will not overflow
* the boolean max clause count. It is the default rewrite method for
* {@link FuzzyQuery}.
*
* @see #setRewriteMethod
*/
public static final class TopTermsScoringBooleanQueryRewrite extends TopTermsRewrite<BooleanQuery> {
/**
* Create a TopTermsScoringBooleanQueryRewrite for
* at most <code>size</code> terms.
* <p>
* NOTE: if {@link BooleanQuery#getMaxClauseCount} is smaller than
* <code>size</code>, then it will be used instead.
*/
public TopTermsScoringBooleanQueryRewrite(int size) {
super(size);
}
@Override
protected int getMaxSize() {
return BooleanQuery.getMaxClauseCount();
}
@Override
protected BooleanQuery getTopLevelQuery() {
return new BooleanQuery(true);
}
@Override
protected void addClause(BooleanQuery topLevel, Term term, int docCount, float boost, PerReaderTermState states) {
final TermQuery tq = new TermQuery(term, states);
tq.setBoost(boost);
topLevel.add(tq, BooleanClause.Occur.SHOULD);
}
}
/**
* A rewrite method that first translates each term into
* {@link BooleanClause.Occur#SHOULD} clause in a BooleanQuery, but the scores
* are only computed as the boost.
* <p>
* This rewrite method only uses the top scoring terms so it will not overflow
* the boolean max clause count.
*
* @see #setRewriteMethod
*/
public static final class TopTermsBoostOnlyBooleanQueryRewrite extends TopTermsRewrite<BooleanQuery> {
/**
* Create a TopTermsBoostOnlyBooleanQueryRewrite for
* at most <code>size</code> terms.
* <p>
* NOTE: if {@link BooleanQuery#getMaxClauseCount} is smaller than
* <code>size</code>, then it will be used instead.
*/
public TopTermsBoostOnlyBooleanQueryRewrite(int size) {
super(size);
}
@Override
protected int getMaxSize() {
return BooleanQuery.getMaxClauseCount();
}
@Override
protected BooleanQuery getTopLevelQuery() {
return new BooleanQuery(true);
}
@Override
protected void addClause(BooleanQuery topLevel, Term term, int docFreq, float boost, PerReaderTermState states) {
final Query q = new ConstantScoreQuery(new TermQuery(term, states));
q.setBoost(boost);
topLevel.add(q, BooleanClause.Occur.SHOULD);
}
}
/** A rewrite method that tries to pick the best
* constant-score rewrite method based on term and
* document counts from the query. If both the number of
* terms and documents is small enough, then {@link
* #CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE} is used.
* Otherwise, {@link #CONSTANT_SCORE_FILTER_REWRITE} is
* used.
*/
public static class ConstantScoreAutoRewrite extends org.apache.lucene.search.ConstantScoreAutoRewrite {}
/** Read-only default instance of {@link
* ConstantScoreAutoRewrite}, with {@link
* ConstantScoreAutoRewrite#setTermCountCutoff} set to
* {@link
* ConstantScoreAutoRewrite#DEFAULT_TERM_COUNT_CUTOFF}
* and {@link
* ConstantScoreAutoRewrite#setDocCountPercent} set to
* {@link
* ConstantScoreAutoRewrite#DEFAULT_DOC_COUNT_PERCENT}.
* Note that you cannot alter the configuration of this
* instance; you'll need to create a private instance
* instead. */
public final static RewriteMethod CONSTANT_SCORE_AUTO_REWRITE_DEFAULT = new ConstantScoreAutoRewrite() {
@Override
public void setTermCountCutoff(int count) {
throw new UnsupportedOperationException("Please create a private instance");
}
@Override
public void setDocCountPercent(double percent) {
throw new UnsupportedOperationException("Please create a private instance");
}
};
/**
* Constructs a query matching terms that cannot be represented with a single
* Term.
*/
public MultiTermQuery(final String field) {
this.field = field;
assert field != null;
}
/** Returns the field name for this query */
public final String getField() { return field; }
/** Construct the enumeration to be used, expanding the
* pattern term. This method should only be called if
* the field exists (ie, implementations can assume the
* field does exist). This method should not return null
* (should instead return {@link TermsEnum#EMPTY} if no
* terms match). The TermsEnum must already be
* positioned to the first matching term.
* The given {@link AttributeSource} is passed by the {@link RewriteMethod} to
* provide attributes, the rewrite method uses to inform about e.g. maximum competitive boosts.
* This is currently only used by {@link TopTermsRewrite}
*/
protected abstract TermsEnum getTermsEnum(Terms terms, AttributeSource atts) throws IOException;
/** Convenience method, if no attributes are needed:
* This simply passes empty attributes and is equal to:
* <code>getTermsEnum(terms, new AttributeSource())</code>
*/
protected final TermsEnum getTermsEnum(Terms terms) throws IOException {
return getTermsEnum(terms, new AttributeSource());
}
/**
* Expert: Return the number of unique terms visited during execution of the query.
* If there are many of them, you may consider using another query type
* or optimize your total term count in index.
* <p>This method is not thread safe, be sure to only call it when no query is running!
* If you re-use the same query instance for another
* search, be sure to first reset the term counter
* with {@link #clearTotalNumberOfTerms}.
* <p>On optimized indexes / no MultiReaders, you get the correct number of
* unique terms for the whole index. Use this number to compare different queries.
* For non-optimized indexes this number can also be achieved in
* non-constant-score mode. In constant-score mode you get the total number of
* terms seeked for all segments / sub-readers.
* @see #clearTotalNumberOfTerms
*/
public int getTotalNumberOfTerms() {
return numberOfTerms;
}
/**
* Expert: Resets the counting of unique terms.
* Do this before executing the query/filter.
* @see #getTotalNumberOfTerms
*/
public void clearTotalNumberOfTerms() {
numberOfTerms = 0;
}
protected void incTotalNumberOfTerms(int inc) {
numberOfTerms += inc;
}
@Override
public Query rewrite(IndexReader reader) throws IOException {
return rewriteMethod.rewrite(reader, this);
}
/**
* @see #setRewriteMethod
*/
public RewriteMethod getRewriteMethod() {
return rewriteMethod;
}
/**
* Sets the rewrite method to be used when executing the
* query. You can use one of the four core methods, or
* implement your own subclass of {@link RewriteMethod}. */
public void setRewriteMethod(RewriteMethod method) {
rewriteMethod = method;
}
@Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + Float.floatToIntBits(getBoost());
result = prime * result + rewriteMethod.hashCode();
if (field != null) result = prime * result + field.hashCode();
return result;
}
@Override
public boolean equals(Object obj) {
if (this == obj)
return true;
if (obj == null)
return false;
if (getClass() != obj.getClass())
return false;
MultiTermQuery other = (MultiTermQuery) obj;
if (Float.floatToIntBits(getBoost()) != Float.floatToIntBits(other.getBoost()))
return false;
if (!rewriteMethod.equals(other.rewriteMethod)) {
return false;
}
return (other.field == null ? field == null : other.field.equals(field));
}
}