📄 rangequery.java
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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.Term;import org.apache.lucene.index.TermEnum;import org.apache.lucene.index.IndexReader;import org.apache.lucene.util.ToStringUtils;/** * A Query that matches documents within an exclusive range. A RangeQuery * is built by QueryParser for input like <code>[010 TO 120]</code> but only if the QueryParser has * the useOldRangeQuery property set to true. The QueryParser default behaviour is to use * the newer ConstantScoreRangeQuery class. This is generally preferable because: * <ul> * <li>It is faster than RangeQuery</li> * <li>Unlike RangeQuery, it does not cause a BooleanQuery.TooManyClauses exception if the range of values is large</li> * <li>Unlike RangeQuery it does not influence scoring based on the scarcity of individual terms that may match</li> * </ul> * * * @see ConstantScoreRangeQuery * * * @version $Id: RangeQuery.java 520891 2007-03-21 13:58:47Z yonik $ */public class RangeQuery extends Query{ private Term lowerTerm; private Term upperTerm; private boolean inclusive; /** Constructs a query selecting all terms greater than * <code>lowerTerm</code> but less than <code>upperTerm</code>. * There must be at least one term and either term may be null, * in which case there is no bound on that side, but if there are * two terms, both terms <b>must</b> be for the same field. */ public RangeQuery(Term lowerTerm, Term upperTerm, boolean inclusive) { if (lowerTerm == null && upperTerm == null) { throw new IllegalArgumentException("At least one term must be non-null"); } if (lowerTerm != null && upperTerm != null && lowerTerm.field() != upperTerm.field()) { throw new IllegalArgumentException("Both terms must be for the same field"); } // if we have a lowerTerm, start there. otherwise, start at beginning if (lowerTerm != null) { this.lowerTerm = lowerTerm; } else { this.lowerTerm = new Term(upperTerm.field(), ""); } this.upperTerm = upperTerm; this.inclusive = inclusive; } public Query rewrite(IndexReader reader) throws IOException { BooleanQuery query = new BooleanQuery(true); TermEnum enumerator = reader.terms(lowerTerm); try { boolean checkLower = false; if (!inclusive) // make adjustments to set to exclusive checkLower = true; String testField = getField(); do { Term term = enumerator.term(); if (term != null && term.field() == testField) { // interned comparison if (!checkLower || term.text().compareTo(lowerTerm.text()) > 0) { checkLower = false; if (upperTerm != null) { int compare = upperTerm.text().compareTo(term.text()); /* if beyond the upper term, or is exclusive and * this is equal to the upper term, break out */ if ((compare < 0) || (!inclusive && compare == 0)) break; } TermQuery tq = new TermQuery(term); // found a match tq.setBoost(getBoost()); // set the boost query.add(tq, BooleanClause.Occur.SHOULD); // add to query } } else { break; } } while (enumerator.next()); } finally { enumerator.close(); } return query; } /** Returns the field name for this query */ public String getField() { return (lowerTerm != null ? lowerTerm.field() : upperTerm.field()); } /** Returns the lower term of this range query */ public Term getLowerTerm() { return lowerTerm; } /** Returns the upper term of this range query */ public Term getUpperTerm() { return upperTerm; } /** Returns <code>true</code> if the range query is inclusive */ public boolean isInclusive() { return inclusive; } /** Prints a user-readable version of this query. */ public String toString(String field) { StringBuffer buffer = new StringBuffer(); if (!getField().equals(field)) { buffer.append(getField()); buffer.append(":"); } buffer.append(inclusive ? "[" : "{"); buffer.append(lowerTerm != null ? lowerTerm.text() : "null"); buffer.append(" TO "); buffer.append(upperTerm != null ? upperTerm.text() : "null"); buffer.append(inclusive ? "]" : "}"); buffer.append(ToStringUtils.boost(getBoost())); return buffer.toString(); } /** Returns true iff <code>o</code> is equal to this. */ public boolean equals(Object o) { if (this == o) return true; if (!(o instanceof RangeQuery)) return false; final RangeQuery other = (RangeQuery) o; if (this.getBoost() != other.getBoost()) return false; if (this.inclusive != other.inclusive) return false; // one of lowerTerm and upperTerm can be null if (this.lowerTerm != null ? !this.lowerTerm.equals(other.lowerTerm) : other.lowerTerm != null) return false; if (this.upperTerm != null ? !this.upperTerm.equals(other.upperTerm) : other.upperTerm != null) return false; return true; } /** Returns a hash code value for this object.*/ public int hashCode() { int h = Float.floatToIntBits(getBoost()); h ^= lowerTerm != null ? lowerTerm.hashCode() : 0; // reversible mix to make lower and upper position dependent and // to prevent them from cancelling out. h ^= (h << 25) | (h >>> 8); h ^= upperTerm != null ? upperTerm.hashCode() : 0; h ^= this.inclusive ? 0x2742E74A : 0; return h; }}⌨️ 快捷键说明
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