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AxiomaticF1EXP
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AxiomaticF1EXP(float, float): void
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AxiomaticF1EXP(float): void
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AxiomaticF1EXP(): void
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toString(): String
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tf(BasicStats, double, double): double
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ln(BasicStats, double, double): double
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tfln(BasicStats, double, double): double
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idf(BasicStats, double, double): double
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gamma(BasicStats, double, double): double
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tfExplain(BasicStats, double, double): Explanation
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lnExplain(BasicStats, double, double): Explanation
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tflnExplain(BasicStats, double, double): Explanation
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idfExplain(BasicStats, double, double): Explanation
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/*
* 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.lucene.search.similarities;
import org.apache.lucene.search.Explanation;
F1EXP is defined as Sum(tf(term_doc_freq)*ln(docLen)*IDF(term))
where IDF(t) = pow((N+1)/df(t), k) N=total num of docs, df=doc freq
@lucene.experimental
/**
* F1EXP is defined as Sum(tf(term_doc_freq)*ln(docLen)*IDF(term))
* where IDF(t) = pow((N+1)/df(t), k) N=total num of docs, df=doc freq
*
* @lucene.experimental
*/
public class AxiomaticF1EXP extends Axiomatic {
Constructor setting s and k, letting queryLen to default
Params: - s – hyperparam for the growth function
- k – hyperparam for the primitive weighting function
/**
* Constructor setting s and k, letting queryLen to default
* @param s hyperparam for the growth function
* @param k hyperparam for the primitive weighting function
*/
public AxiomaticF1EXP(float s, float k) {
super(s, 1, k);
}
Constructor setting s only, letting k and queryLen to default
Params: - s – hyperparam for the growth function
/**
* Constructor setting s only, letting k and queryLen to default
* @param s hyperparam for the growth function
*/
public AxiomaticF1EXP(float s) {
this(s, 0.35f);
}
Default constructor
/**
* Default constructor
*/
public AxiomaticF1EXP() {
super();
}
@Override
public String toString() {
return "F1EXP";
}
compute the term frequency component
/**
* compute the term frequency component
*/
@Override
protected double tf(BasicStats stats, double freq, double docLen) {
freq += 1; // otherwise gives negative scores for freqs < 1
return 1 + Math.log(1 + Math.log(freq));
}
compute the document length component
/**
* compute the document length component
*/
@Override
protected double ln(BasicStats stats, double freq, double docLen) {
return (stats.getAvgFieldLength() + this.s) / (stats.getAvgFieldLength() + docLen * this.s);
}
compute the mixed term frequency and document length component
/**
* compute the mixed term frequency and document length component
*/
@Override
protected double tfln(BasicStats stats, double freq, double docLen) {
return 1.0;
}
compute the inverted document frequency component
/**
* compute the inverted document frequency component
*/
@Override
protected double idf(BasicStats stats, double freq, double docLen) {
return Math.pow((stats.getNumberOfDocuments() + 1.0) / stats.getDocFreq(), this.k);
}
compute the gamma component
/**
* compute the gamma component
*/
@Override
protected double gamma(BasicStats stats, double freq, double docLen) {
return 0.0;
}
@Override
protected Explanation tfExplain(BasicStats stats, double freq, double docLen){
return Explanation.match((float) tf(stats, freq, docLen),
"tf, term frequency computed as 1 + log(1 + log(freq)) from:",
Explanation.match((float) freq,
"freq, number of occurrences of term in the document"));
};
@Override
protected Explanation lnExplain(BasicStats stats, double freq, double docLen){
return Explanation.match((float) ln(stats, freq, docLen),
"ln, document length computed as (avgdl + s) / (avgdl + dl * s) from:",
Explanation.match((float) stats.getAvgFieldLength(),
"avgdl, average length of field across all documents"),
Explanation.match((float) docLen,
"dl, length of field"));
};
protected Explanation tflnExplain(BasicStats stats, double freq, double docLen){
return Explanation.match((float) tfln(stats, freq, docLen),
"tfln, mixed term frequency and document length, equals to 1");
};
protected Explanation idfExplain(BasicStats stats, double freq, double docLen){
return Explanation.match((float) idf(stats, freq, docLen),
"idf, inverted document frequency computed as " +
"Math.pow((N + 1) / n, k) from:",
Explanation.match((float) stats.getNumberOfDocuments(),
"N, total number of documents with field"),
Explanation.match((float) stats.getDocFreq(),
"n, number of documents containing term"));
};
}