package org.apache.lucene.facet.search;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
import org.apache.lucene.analysis.MockAnalyzer;
import org.apache.lucene.document.Document;
import org.apache.lucene.document.Field;
import org.apache.lucene.document.Field.Index;
import org.apache.lucene.document.Field.Store;
import org.apache.lucene.document.Field.TermVector;
import org.apache.lucene.index.CorruptIndexException;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.IndexWriterConfig.OpenMode;
import org.apache.lucene.index.RandomIndexWriter;
import org.apache.lucene.index.Term;
import org.apache.lucene.search.IndexSearcher;
import org.apache.lucene.search.Query;
import org.apache.lucene.search.TermQuery;
import org.apache.lucene.store.Directory;
import org.junit.Test;
import org.apache.lucene.util.LuceneTestCase;
import org.apache.lucene.facet.index.CategoryDocumentBuilder;
import org.apache.lucene.facet.index.params.DefaultFacetIndexingParams;
import org.apache.lucene.facet.search.FacetsAccumulator;
import org.apache.lucene.facet.search.FloatArrayAllocator;
import org.apache.lucene.facet.search.IntArrayAllocator;
import org.apache.lucene.facet.search.ScoredDocIdCollector;
import org.apache.lucene.facet.search.StandardFacetsAccumulator;
import org.apache.lucene.facet.search.params.CountFacetRequest;
import org.apache.lucene.facet.search.params.FacetSearchParams;
import org.apache.lucene.facet.search.params.FacetRequest.ResultMode;
import org.apache.lucene.facet.search.results.FacetResult;
import org.apache.lucene.facet.search.results.FacetResultNode;
import org.apache.lucene.facet.taxonomy.CategoryPath;
import org.apache.lucene.facet.taxonomy.TaxonomyWriter;
import org.apache.lucene.facet.taxonomy.directory.DirectoryTaxonomyReader;
import org.apache.lucene.facet.taxonomy.directory.DirectoryTaxonomyWriter;
import org.apache.lucene.facet.util.PartitionsUtils;
/**
* 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.
*/
public class TestTopKInEachNodeResultHandler extends LuceneTestCase {
//TODO (Facet): Move to extend BaseTestTopK and separate to several smaller test cases (methods) - see TestTopKResultsHandler
@Test
public void testSimple() throws Exception {
int[] partitionSizes = new int[] {
2,3,4, 5, 6, 7, 10, 1000,
Integer.MAX_VALUE };
for (int partitionSize : partitionSizes) {
Directory iDir = newDirectory();
Directory tDir = newDirectory();
if (VERBOSE) {
System.out.println("Partition Size: " + partitionSize);
}
final int pSize = partitionSize;
DefaultFacetIndexingParams iParams = new DefaultFacetIndexingParams() {
@Override
protected int fixedPartitionSize() {
return pSize;
}
};
RandomIndexWriter iw = new RandomIndexWriter(random, iDir,
newIndexWriterConfig(TEST_VERSION_CURRENT,
new MockAnalyzer(random)).setOpenMode(OpenMode.CREATE));
TaxonomyWriter tw = new DirectoryTaxonomyWriter(tDir);
prvt_add(iParams, iw, tw, "a", "b");
prvt_add(iParams, iw, tw, "a", "b", "1");
prvt_add(iParams, iw, tw, "a", "b", "1");
prvt_add(iParams, iw, tw, "a", "b", "2");
prvt_add(iParams, iw, tw, "a", "b", "2");
prvt_add(iParams, iw, tw, "a", "b", "2");
prvt_add(iParams, iw, tw, "a", "b", "3");
prvt_add(iParams, iw, tw, "a", "b", "4");
prvt_add(iParams, iw, tw, "a", "c");
prvt_add(iParams, iw, tw, "a", "c");
prvt_add(iParams, iw, tw, "a", "c");
prvt_add(iParams, iw, tw, "a", "c");
prvt_add(iParams, iw, tw, "a", "c");
prvt_add(iParams, iw, tw, "a", "c", "1");
prvt_add(iParams, iw, tw, "a", "d");
prvt_add(iParams, iw, tw, "a", "e");
IndexReader ir = iw.getReader();
iw.close();
tw.commit();
tw.close();
IndexSearcher is = newSearcher(ir);
DirectoryTaxonomyReader tr = new DirectoryTaxonomyReader(tDir);
// Get all of the documents and run the query, then do different
// facet counts and compare to control
Query q = new TermQuery(new Term("content", "alpha"));
ScoredDocIdCollector scoredDoc = ScoredDocIdCollector.create(is.maxDoc(), true);
// Collector collector = new MultiCollector(scoredDoc);
is.search(q, scoredDoc);
CountFacetRequest cfra23 = new CountFacetRequest(
new CategoryPath("a"), 2);
cfra23.setDepth(3);
cfra23.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfra22 = new CountFacetRequest(
new CategoryPath("a"), 2);
cfra22.setDepth(2);
cfra22.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfra21 = new CountFacetRequest(
new CategoryPath("a"), 2);
cfra21.setDepth(1);
cfra21.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfrb22 = new CountFacetRequest(
new CategoryPath("a", "b"), 2);
cfrb22.setDepth(2);
cfrb22.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfrb23 = new CountFacetRequest(
new CategoryPath("a", "b"), 2);
cfrb23.setDepth(3);
cfrb23.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfrb21 = new CountFacetRequest(
new CategoryPath("a", "b"), 2);
cfrb21.setDepth(1);
cfrb21.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest doctor = new CountFacetRequest(
new CategoryPath("Doctor"), 2);
doctor.setDepth(1);
doctor.setResultMode(ResultMode.PER_NODE_IN_TREE);
CountFacetRequest cfrb20 = new CountFacetRequest(
new CategoryPath("a", "b"), 2);
cfrb20.setDepth(0);
cfrb20.setResultMode(ResultMode.PER_NODE_IN_TREE);
FacetSearchParams facetSearchParams = new FacetSearchParams(iParams);
facetSearchParams.addFacetRequest(cfra23);
facetSearchParams.addFacetRequest(cfra22);
facetSearchParams.addFacetRequest(cfra21);
facetSearchParams.addFacetRequest(cfrb23);
facetSearchParams.addFacetRequest(cfrb22);
facetSearchParams.addFacetRequest(cfrb21);
facetSearchParams.addFacetRequest(doctor);
facetSearchParams.addFacetRequest(cfrb20);
IntArrayAllocator iaa = new IntArrayAllocator(PartitionsUtils.partitionSize(facetSearchParams,tr), 1);
FloatArrayAllocator faa = new FloatArrayAllocator(PartitionsUtils.partitionSize(facetSearchParams,tr), 1);
FacetsAccumulator fctExtrctr = new StandardFacetsAccumulator(facetSearchParams, is.getIndexReader(), tr, iaa, faa);
fctExtrctr.setComplementThreshold(FacetsAccumulator.DISABLE_COMPLEMENT);
long start = System.currentTimeMillis();
List<FacetResult> facetResults = fctExtrctr.accumulate(scoredDoc.getScoredDocIDs());
long end = System.currentTimeMillis();
if (VERBOSE) {
System.out.println("Time: " + (end - start));
}
FacetResult fr = facetResults.get(0); // a, depth=3, K=2
boolean hasDoctor = "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(9, fr.getNumValidDescendants());
FacetResultNode parentRes = fr.getFacetResultNode();
assertEquals(16.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
// two nodes sorted by descending values: a/b with 8 and a/c with 6
// a/b has residue 2 and two children a/b/2 with value 3, and a/b/1 with value 2.
// a/c has residue 0, and one child a/c/1 with value 1.
double [] expectedValues0 = { 8.0, 2.0, 3.0, 0.0, 2.0, 0.0, 6.0, 0.0, 1.0, 0.0 };
int i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues0[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues0[i++], node.getResidue(), Double.MIN_VALUE);
for (FacetResultNode node2 : node.getSubResults()) {
assertEquals(expectedValues0[i++], node2.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues0[i++], node2.getResidue(), Double.MIN_VALUE);
}
}
// now just change the value of the first child of the root to 5, and then rearrange
// expected are: first a/c of value 6 and residue 0, and one child a/c/1 with value 1
// then a/b with value 5 and residue 2, and both children: a/b/2 with value 3, and a/b/1 with value 2.
for (FacetResultNode node : parentRes.getSubResults()) {
node.setValue(5.0);
break;
}
// now rearrange
double [] expectedValues00 = { 6.0, 0.0, 1.0, 0.0, 5.0, 2.0, 3.0, 0.0, 2.0, 0.0 };
fr = cfra23.createFacetResultsHandler(tr).rearrangeFacetResult(fr);
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues00[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues00[i++], node.getResidue(), Double.MIN_VALUE);
for (FacetResultNode node2 : node.getSubResults()) {
assertEquals(expectedValues00[i++], node2.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues00[i++], node2.getResidue(), Double.MIN_VALUE);
}
}
fr = facetResults.get(1); // a, depth=2, K=2. same result as before
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(9, fr.getNumValidDescendants());
parentRes = fr.getFacetResultNode();
assertEquals(16.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
// two nodes sorted by descending values: a/b with 8 and a/c with 6
// a/b has residue 2 and two children a/b/2 with value 3, and a/b/1 with value 2.
// a/c has residue 0, and one child a/c/1 with value 1.
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues0[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues0[i++], node.getResidue(), Double.MIN_VALUE);
for (FacetResultNode node2 : node.getSubResults()) {
assertEquals(expectedValues0[i++], node2.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues0[i++], node2.getResidue(), Double.MIN_VALUE);
}
}
fr = facetResults.get(2); // a, depth=1, K=2
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(4, fr.getNumValidDescendants(), 4);
parentRes = fr.getFacetResultNode();
assertEquals(16.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
// two nodes sorted by descending values:
// a/b with value 8 and residue 0 (because no children considered),
// and a/c with value 6 and residue 0 (because no children considered)
double [] expectedValues2 = { 8.0, 0.0, 6.0, 0.0 };
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues2[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(expectedValues2[i++], node.getResidue(), Double.MIN_VALUE);
assertEquals(node.getNumSubResults(), 0);
}
fr = facetResults.get(3); // a/b, depth=3, K=2
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(4, fr.getNumValidDescendants());
parentRes = fr.getFacetResultNode();
assertEquals(8.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
double [] expectedValues3 = { 3.0, 2.0 };
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues3[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(0.0, node.getResidue(), Double.MIN_VALUE);
assertEquals(0, node.getNumSubResults());
}
fr = facetResults.get(4); // a/b, depth=2, K=2
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(4, fr.getNumValidDescendants());
parentRes = fr.getFacetResultNode();
assertEquals(8.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues3[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(0.0, node.getResidue(), Double.MIN_VALUE);
assertEquals(0, node.getNumSubResults());
}
fr = facetResults.get(5); // a/b, depth=1, K=2
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(4, fr.getNumValidDescendants());
parentRes = fr.getFacetResultNode();
assertEquals(8.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(2.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(2, parentRes.getNumSubResults());
i = 0;
for (FacetResultNode node : parentRes.getSubResults()) {
assertEquals(expectedValues3[i++], node.getValue(), Double.MIN_VALUE);
assertEquals(0.0, node.getResidue(), Double.MIN_VALUE);
assertEquals(0, node.getNumSubResults());
}
fr = facetResults.get(6); // a/b, depth=0, K=2
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
assertEquals(0, fr.getNumValidDescendants()); // 0 descendants but rootnode
parentRes = fr.getFacetResultNode();
assertEquals(8.0, parentRes.getValue(), Double.MIN_VALUE);
assertEquals(0.0, parentRes.getResidue(), Double.MIN_VALUE);
assertEquals(0, parentRes.getNumSubResults());
hasDoctor |= "Doctor".equals(fr.getFacetRequest().getCategoryPath().getComponent(0));
// doctor, depth=1, K=2
assertFalse("Shouldn't have found anything for a FacetRequest " +
"of a facet that doesn't exist in the index.", hasDoctor);
assertEquals("Shouldn't have found more than seven request.", 7, facetResults.size());
ir.close();
tr.close();
iDir.close();
tDir.close();
}
}
private void prvt_add(DefaultFacetIndexingParams iParams, RandomIndexWriter iw,
TaxonomyWriter tw, String... strings) throws IOException,
CorruptIndexException {
ArrayList<CategoryPath> cps = new ArrayList<CategoryPath>();
CategoryPath cp = new CategoryPath(strings);
cps.add(cp);
Document d = new Document();
new CategoryDocumentBuilder(tw, iParams).setCategoryPaths(cps).build(d);
d.add(new Field("content", "alpha", Store.YES, Index.ANALYZED, TermVector.NO));
iw.addDocument(d);
}
}