package org.apache.lucene.index; /** * 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 java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; import java.util.concurrent.atomic.AtomicInteger; import org.apache.lucene.document.Document; import org.apache.lucene.document.FieldSelector; import org.apache.lucene.search.Similarity; import org.apache.lucene.index.FieldInfo.IndexOptions; import org.apache.lucene.store.BufferedIndexInput; import org.apache.lucene.store.Directory; import org.apache.lucene.store.IndexInput; import org.apache.lucene.util.BitVector; import org.apache.lucene.util.CloseableThreadLocal; import org.apache.lucene.util.StringHelper; /** * @lucene.experimental */ public class SegmentReader extends IndexReader implements Cloneable { protected boolean readOnly; private SegmentInfo si; private int readBufferSize; CloseableThreadLocal fieldsReaderLocal = new FieldsReaderLocal(); CloseableThreadLocal termVectorsLocal = new CloseableThreadLocal(); BitVector deletedDocs = null; AtomicInteger deletedDocsRef = null; private boolean deletedDocsDirty = false; private boolean normsDirty = false; // TODO: we should move this tracking into SegmentInfo; // this way SegmentInfo.toString shows pending deletes private int pendingDeleteCount; private boolean rollbackHasChanges = false; private boolean rollbackDeletedDocsDirty = false; private boolean rollbackNormsDirty = false; private SegmentInfo rollbackSegmentInfo; private int rollbackPendingDeleteCount; // optionally used for the .nrm file shared by multiple norms IndexInput singleNormStream; AtomicInteger singleNormRef; SegmentCoreReaders core; /** * Sets the initial value */ private class FieldsReaderLocal extends CloseableThreadLocal { @Override protected FieldsReader initialValue() { return (FieldsReader) core.getFieldsReaderOrig().clone(); } } Map norms = new HashMap(); /** * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public static SegmentReader get(boolean readOnly, SegmentInfo si, int termInfosIndexDivisor) throws CorruptIndexException, IOException { return get(readOnly, si.dir, si, BufferedIndexInput.BUFFER_SIZE, true, termInfosIndexDivisor); } /** * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public static SegmentReader get(boolean readOnly, Directory dir, SegmentInfo si, int readBufferSize, boolean doOpenStores, int termInfosIndexDivisor) throws CorruptIndexException, IOException { SegmentReader instance = readOnly ? new ReadOnlySegmentReader() : new SegmentReader(); instance.readOnly = readOnly; instance.si = si; instance.readBufferSize = readBufferSize; boolean success = false; try { instance.core = new SegmentCoreReaders(instance, dir, si, readBufferSize, termInfosIndexDivisor); if (doOpenStores) { instance.core.openDocStores(si); } instance.loadDeletedDocs(); instance.openNorms(instance.core.cfsDir, readBufferSize); success = true; } finally { // With lock-less commits, it's entirely possible (and // fine) to hit a FileNotFound exception above. In // this case, we want to explicitly close any subset // of things that were opened so that we don't have to // wait for a GC to do so. if (!success) { instance.doClose(); } } return instance; } void openDocStores() throws IOException { core.openDocStores(si); } private boolean checkDeletedCounts() throws IOException { final int recomputedCount = deletedDocs.getRecomputedCount(); assert deletedDocs.count() == recomputedCount : "deleted count=" + deletedDocs.count() + " vs recomputed count=" + recomputedCount; assert si.getDelCount() == recomputedCount : "delete count mismatch: info=" + si.getDelCount() + " vs BitVector=" + recomputedCount; // Verify # deletes does not exceed maxDoc for this // segment: assert si.getDelCount() <= maxDoc() : "delete count mismatch: " + recomputedCount + ") exceeds max doc (" + maxDoc() + ") for segment " + si.name; return true; } private void loadDeletedDocs() throws IOException { // NOTE: the bitvector is stored using the regular directory, not cfs if (hasDeletions(si)) { deletedDocs = new BitVector(directory(), si.getDelFileName()); deletedDocsRef = new AtomicInteger(1); assert checkDeletedCounts(); if (deletedDocs.size() != si.docCount) { throw new CorruptIndexException("document count mismatch: deleted docs count " + deletedDocs.size() + " vs segment doc count " + si.docCount + " segment=" + si.name); } } else assert si.getDelCount() == 0; } /** * Clones the norm bytes. May be overridden by subclasses. New and experimental. * @param bytes Byte array to clone * @return New BitVector */ protected byte[] cloneNormBytes(byte[] bytes) { byte[] cloneBytes = new byte[bytes.length]; System.arraycopy(bytes, 0, cloneBytes, 0, bytes.length); return cloneBytes; } /** * Clones the deleteDocs BitVector. May be overridden by subclasses. New and experimental. * @param bv BitVector to clone * @return New BitVector */ protected BitVector cloneDeletedDocs(BitVector bv) { ensureOpen(); return (BitVector)bv.clone(); } @Override public final synchronized Object clone() { try { return clone(readOnly); // Preserve current readOnly } catch (Exception ex) { throw new RuntimeException(ex); } } @Override public final synchronized IndexReader clone(boolean openReadOnly) throws CorruptIndexException, IOException { return reopenSegment(si, true, openReadOnly); } @Override protected synchronized IndexReader doOpenIfChanged() throws CorruptIndexException, IOException { return reopenSegment(si, false, readOnly); } @Override protected synchronized IndexReader doOpenIfChanged(boolean openReadOnly) throws CorruptIndexException, IOException { return reopenSegment(si, false, openReadOnly); } synchronized SegmentReader reopenSegment(SegmentInfo si, boolean doClone, boolean openReadOnly) throws CorruptIndexException, IOException { ensureOpen(); boolean deletionsUpToDate = (this.si.hasDeletions() == si.hasDeletions()) && (!si.hasDeletions() || this.si.getDelFileName().equals(si.getDelFileName())); boolean normsUpToDate = true; boolean[] fieldNormsChanged = new boolean[core.fieldInfos.size()]; final int fieldCount = core.fieldInfos.size(); for (int i = 0; i < fieldCount; i++) { if (!this.si.getNormFileName(i).equals(si.getNormFileName(i))) { normsUpToDate = false; fieldNormsChanged[i] = true; } } // if we're cloning we need to run through the reopenSegment logic // also if both old and new readers aren't readonly, we clone to avoid sharing modifications if (normsUpToDate && deletionsUpToDate && !doClone && openReadOnly && readOnly) { return null; } // When cloning, the incoming SegmentInfos should not // have any changes in it: assert !doClone || (normsUpToDate && deletionsUpToDate); // clone reader SegmentReader clone = openReadOnly ? new ReadOnlySegmentReader() : new SegmentReader(); boolean success = false; try { core.incRef(); clone.core = core; clone.readOnly = openReadOnly; clone.si = si; clone.readBufferSize = readBufferSize; clone.pendingDeleteCount = pendingDeleteCount; clone.readerFinishedListeners = readerFinishedListeners; if (!openReadOnly && hasChanges) { // My pending changes transfer to the new reader clone.deletedDocsDirty = deletedDocsDirty; clone.normsDirty = normsDirty; clone.hasChanges = hasChanges; hasChanges = false; } if (doClone) { if (deletedDocs != null) { deletedDocsRef.incrementAndGet(); clone.deletedDocs = deletedDocs; clone.deletedDocsRef = deletedDocsRef; } } else { if (!deletionsUpToDate) { // load deleted docs assert clone.deletedDocs == null; clone.loadDeletedDocs(); } else if (deletedDocs != null) { deletedDocsRef.incrementAndGet(); clone.deletedDocs = deletedDocs; clone.deletedDocsRef = deletedDocsRef; } } clone.norms = new HashMap(); // Clone norms for (int i = 0; i < fieldNormsChanged.length; i++) { // Clone unchanged norms to the cloned reader if (doClone || !fieldNormsChanged[i]) { final String curField = core.fieldInfos.fieldInfo(i).name; SegmentNorms norm = this.norms.get(curField); if (norm != null) clone.norms.put(curField, (SegmentNorms) norm.clone()); } } // If we are not cloning, then this will open anew // any norms that have changed: clone.openNorms(si.getUseCompoundFile() ? core.getCFSReader() : directory(), readBufferSize); success = true; } finally { if (!success) { // An exception occurred during reopen, we have to decRef the norms // that we incRef'ed already and close singleNormsStream and FieldsReader clone.decRef(); } } return clone; } @Override protected void doCommit(Map commitUserData) throws IOException { if (hasChanges) { startCommit(); boolean success = false; try { commitChanges(commitUserData); success = true; } finally { if (!success) { rollbackCommit(); } } } } private synchronized void commitChanges(Map commitUserData) throws IOException { if (deletedDocsDirty) { // re-write deleted si.advanceDelGen(); assert deletedDocs.size() == si.docCount; // We can write directly to the actual name (vs to a // .tmp & renaming it) because the file is not live // until segments file is written: final String delFileName = si.getDelFileName(); boolean success = false; try { deletedDocs.write(directory(), delFileName); success = true; } finally { if (!success) { try { directory().deleteFile(delFileName); } catch (Throwable t) { // suppress this so we keep throwing the // original exception } } } si.setDelCount(si.getDelCount()+pendingDeleteCount); pendingDeleteCount = 0; assert deletedDocs.count() == si.getDelCount(): "delete count mismatch during commit: info=" + si.getDelCount() + " vs BitVector=" + deletedDocs.count(); } else { assert pendingDeleteCount == 0; } if (normsDirty) { // re-write norms si.setNumFields(core.fieldInfos.size()); for (final SegmentNorms norm : norms.values()) { if (norm.dirty) { norm.reWrite(si); } } } deletedDocsDirty = false; normsDirty = false; hasChanges = false; } FieldsReader getFieldsReader() { return fieldsReaderLocal.get(); } @Override protected void doClose() throws IOException { termVectorsLocal.close(); fieldsReaderLocal.close(); if (deletedDocs != null) { deletedDocsRef.decrementAndGet(); // null so if an app hangs on to us we still free most ram deletedDocs = null; } for (final SegmentNorms norm : norms.values()) { norm.decRef(); } if (core != null) { core.decRef(); } } static boolean hasDeletions(SegmentInfo si) throws IOException { // Don't call ensureOpen() here (it could affect performance) return si.hasDeletions(); } @Override public boolean hasDeletions() { // Don't call ensureOpen() here (it could affect performance) return deletedDocs != null; } static boolean usesCompoundFile(SegmentInfo si) throws IOException { return si.getUseCompoundFile(); } static boolean hasSeparateNorms(SegmentInfo si) throws IOException { return si.hasSeparateNorms(); } @Override protected void doDelete(int docNum) { if (deletedDocs == null) { deletedDocs = new BitVector(maxDoc()); deletedDocsRef = new AtomicInteger(1); } // there is more than 1 SegmentReader with a reference to this // deletedDocs BitVector so decRef the current deletedDocsRef, // clone the BitVector, create a new deletedDocsRef if (deletedDocsRef.get() > 1) { AtomicInteger oldRef = deletedDocsRef; deletedDocs = cloneDeletedDocs(deletedDocs); deletedDocsRef = new AtomicInteger(1); oldRef.decrementAndGet(); } deletedDocsDirty = true; if (!deletedDocs.getAndSet(docNum)) { pendingDeleteCount++; } } @Override protected void doUndeleteAll() { deletedDocsDirty = false; if (deletedDocs != null) { assert deletedDocsRef != null; deletedDocsRef.decrementAndGet(); deletedDocs = null; deletedDocsRef = null; pendingDeleteCount = 0; si.clearDelGen(); si.setDelCount(0); } else { assert deletedDocsRef == null; assert pendingDeleteCount == 0; } } List files() throws IOException { return new ArrayList(si.files()); } @Override public TermEnum terms() { ensureOpen(); return core.getTermsReader().terms(); } @Override public TermEnum terms(Term t) throws IOException { ensureOpen(); return core.getTermsReader().terms(t); } FieldInfos fieldInfos() { return core.fieldInfos; } @Override public Document document(int n, FieldSelector fieldSelector) throws CorruptIndexException, IOException { ensureOpen(); if (n < 0 || n >= maxDoc()) { throw new IllegalArgumentException("docID must be >= 0 and < maxDoc=" + maxDoc() + " (got docID=" + n + ")"); } return getFieldsReader().doc(n, fieldSelector); } @Override public synchronized boolean isDeleted(int n) { return (deletedDocs != null && deletedDocs.get(n)); } @Override public TermDocs termDocs(Term term) throws IOException { if (term == null) { return new AllTermDocs(this); } else { return super.termDocs(term); } } @Override public TermDocs termDocs() throws IOException { ensureOpen(); return new SegmentTermDocs(this); } @Override public TermPositions termPositions() throws IOException { ensureOpen(); return new SegmentTermPositions(this); } @Override public int docFreq(Term t) throws IOException { ensureOpen(); TermInfo ti = core.getTermsReader().get(t); if (ti != null) return ti.docFreq; else return 0; } @Override public int numDocs() { // Don't call ensureOpen() here (it could affect performance) int n = maxDoc(); if (deletedDocs != null) n -= deletedDocs.count(); return n; } @Override public int maxDoc() { // Don't call ensureOpen() here (it could affect performance) return si.docCount; } /** * @see IndexReader#getFieldNames(org.apache.lucene.index.IndexReader.FieldOption) */ @Override public Collection getFieldNames(IndexReader.FieldOption fieldOption) { ensureOpen(); Set fieldSet = new HashSet(); for (int i = 0; i < core.fieldInfos.size(); i++) { FieldInfo fi = core.fieldInfos.fieldInfo(i); if (fieldOption == IndexReader.FieldOption.ALL) { fieldSet.add(fi.name); } else if (!fi.isIndexed && fieldOption == IndexReader.FieldOption.UNINDEXED) { fieldSet.add(fi.name); } else if (fi.indexOptions == IndexOptions.DOCS_ONLY && fieldOption == IndexReader.FieldOption.OMIT_TERM_FREQ_AND_POSITIONS) { fieldSet.add(fi.name); } else if (fi.indexOptions == IndexOptions.DOCS_AND_FREQS && fieldOption == IndexReader.FieldOption.OMIT_POSITIONS) { fieldSet.add(fi.name); } else if (fi.storePayloads && fieldOption == IndexReader.FieldOption.STORES_PAYLOADS) { fieldSet.add(fi.name); } else if (fi.isIndexed && fieldOption == IndexReader.FieldOption.INDEXED) { fieldSet.add(fi.name); } else if (fi.isIndexed && fi.storeTermVector == false && fieldOption == IndexReader.FieldOption.INDEXED_NO_TERMVECTOR) { fieldSet.add(fi.name); } else if (fi.storeTermVector == true && fi.storePositionWithTermVector == false && fi.storeOffsetWithTermVector == false && fieldOption == IndexReader.FieldOption.TERMVECTOR) { fieldSet.add(fi.name); } else if (fi.isIndexed && fi.storeTermVector && fieldOption == IndexReader.FieldOption.INDEXED_WITH_TERMVECTOR) { fieldSet.add(fi.name); } else if (fi.storePositionWithTermVector && fi.storeOffsetWithTermVector == false && fieldOption == IndexReader.FieldOption.TERMVECTOR_WITH_POSITION) { fieldSet.add(fi.name); } else if (fi.storeOffsetWithTermVector && fi.storePositionWithTermVector == false && fieldOption == IndexReader.FieldOption.TERMVECTOR_WITH_OFFSET) { fieldSet.add(fi.name); } else if ((fi.storeOffsetWithTermVector && fi.storePositionWithTermVector) && fieldOption == IndexReader.FieldOption.TERMVECTOR_WITH_POSITION_OFFSET) { fieldSet.add(fi.name); } } return fieldSet; } @Override public boolean hasNorms(String field) { ensureOpen(); return norms.containsKey(field); } @Override public byte[] norms(String field) throws IOException { ensureOpen(); final SegmentNorms norm = norms.get(field); if (norm == null) { // not indexed, or norms not stored return null; } return norm.bytes(); } @Override protected void doSetNorm(int doc, String field, byte value) throws IOException { SegmentNorms norm = norms.get(field); if (norm == null) { // field does not store norms throw new IllegalStateException("Cannot setNorm for field " + field + ": norms were omitted"); } normsDirty = true; norm.copyOnWrite()[doc] = value; // set the value } /** Read norms into a pre-allocated array. */ @Override public synchronized void norms(String field, byte[] bytes, int offset) throws IOException { ensureOpen(); SegmentNorms norm = norms.get(field); if (norm == null) { Arrays.fill(bytes, offset, bytes.length, Similarity.getDefault().encodeNormValue(1.0f)); return; } norm.bytes(bytes, offset, maxDoc()); } // For testing /** @lucene.internal */ int getPostingsSkipInterval() { return core.getTermsReader().getSkipInterval(); } private void openNorms(Directory cfsDir, int readBufferSize) throws IOException { long nextNormSeek = SegmentNorms.NORMS_HEADER.length; //skip header (header unused for now) int maxDoc = maxDoc(); for (int i = 0; i < core.fieldInfos.size(); i++) { FieldInfo fi = core.fieldInfos.fieldInfo(i); if (norms.containsKey(fi.name)) { // in case this SegmentReader is being re-opened, we might be able to // reuse some norm instances and skip loading them here continue; } if (fi.isIndexed && !fi.omitNorms) { Directory d = directory(); String fileName = si.getNormFileName(fi.number); if (!si.hasSeparateNorms(fi.number)) { d = cfsDir; } // singleNormFile means multiple norms share this file boolean singleNormFile = IndexFileNames.matchesExtension(fileName, IndexFileNames.NORMS_EXTENSION); IndexInput normInput = null; long normSeek; if (singleNormFile) { normSeek = nextNormSeek; if (singleNormStream == null) { singleNormStream = d.openInput(fileName, readBufferSize); singleNormRef = new AtomicInteger(1); } else { singleNormRef.incrementAndGet(); } // All norms in the .nrm file can share a single IndexInput since // they are only used in a synchronized context. // If this were to change in the future, a clone could be done here. normInput = singleNormStream; } else { normInput = d.openInput(fileName); // if the segment was created in 3.2 or after, we wrote the header for sure, // and don't need to do the sketchy file size check. otherwise, we check // if the size is exactly equal to maxDoc to detect a headerless file. // NOTE: remove this check in Lucene 5.0! String version = si.getVersion(); final boolean isUnversioned = (version == null || StringHelper.getVersionComparator().compare(version, "3.2") < 0) && normInput.length() == maxDoc(); if (isUnversioned) { normSeek = 0; } else { normSeek = SegmentNorms.NORMS_HEADER.length; } } norms.put(fi.name, new SegmentNorms(normInput, fi.number, normSeek, this)); nextNormSeek += maxDoc; // increment also if some norms are separate } } } boolean termsIndexLoaded() { return core.termsIndexIsLoaded(); } // NOTE: only called from IndexWriter when a near // real-time reader is opened, or applyDeletes is run, // sharing a segment that's still being merged. This // method is not thread safe, and relies on the // synchronization in IndexWriter void loadTermsIndex(int termsIndexDivisor) throws IOException { core.loadTermsIndex(si, termsIndexDivisor); } // for testing only boolean normsClosed() { if (singleNormStream != null) { return false; } for (final SegmentNorms norm : norms.values()) { if (norm.refCount > 0) { return false; } } return true; } // for testing only boolean normsClosed(String field) { return norms.get(field).refCount == 0; } /** * Create a clone from the initial TermVectorsReader and store it in the ThreadLocal. * @return TermVectorsReader */ TermVectorsReader getTermVectorsReader() { TermVectorsReader tvReader = termVectorsLocal.get(); if (tvReader == null) { TermVectorsReader orig = core.getTermVectorsReaderOrig(); if (orig == null) { return null; } else { try { tvReader = (TermVectorsReader) orig.clone(); } catch (CloneNotSupportedException cnse) { return null; } } termVectorsLocal.set(tvReader); } return tvReader; } TermVectorsReader getTermVectorsReaderOrig() { return core.getTermVectorsReaderOrig(); } /** Return a term frequency vector for the specified document and field. The * vector returned contains term numbers and frequencies for all terms in * the specified field of this document, if the field had storeTermVector * flag set. If the flag was not set, the method returns null. * @throws IOException */ @Override public TermFreqVector getTermFreqVector(int docNumber, String field) throws IOException { // Check if this field is invalid or has no stored term vector ensureOpen(); FieldInfo fi = core.fieldInfos.fieldInfo(field); if (fi == null || !fi.storeTermVector) return null; TermVectorsReader termVectorsReader = getTermVectorsReader(); if (termVectorsReader == null) return null; return termVectorsReader.get(docNumber, field); } @Override public void getTermFreqVector(int docNumber, String field, TermVectorMapper mapper) throws IOException { ensureOpen(); FieldInfo fi = core.fieldInfos.fieldInfo(field); if (fi == null || !fi.storeTermVector) return; TermVectorsReader termVectorsReader = getTermVectorsReader(); if (termVectorsReader == null) { return; } termVectorsReader.get(docNumber, field, mapper); } @Override public void getTermFreqVector(int docNumber, TermVectorMapper mapper) throws IOException { ensureOpen(); TermVectorsReader termVectorsReader = getTermVectorsReader(); if (termVectorsReader == null) return; termVectorsReader.get(docNumber, mapper); } /** Return an array of term frequency vectors for the specified document. * The array contains a vector for each vectorized field in the document. * Each vector vector contains term numbers and frequencies for all terms * in a given vectorized field. * If no such fields existed, the method returns null. * @throws IOException */ @Override public TermFreqVector[] getTermFreqVectors(int docNumber) throws IOException { ensureOpen(); TermVectorsReader termVectorsReader = getTermVectorsReader(); if (termVectorsReader == null) return null; return termVectorsReader.get(docNumber); } /** {@inheritDoc} */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(); if (hasChanges) { buffer.append('*'); } buffer.append(si.toString(core.dir, pendingDeleteCount)); return buffer.toString(); } /** * Return the name of the segment this reader is reading. */ public String getSegmentName() { return core.segment; } /** * Return the SegmentInfo of the segment this reader is reading. */ SegmentInfo getSegmentInfo() { return si; } void setSegmentInfo(SegmentInfo info) { si = info; } void startCommit() { rollbackSegmentInfo = (SegmentInfo) si.clone(); rollbackHasChanges = hasChanges; rollbackDeletedDocsDirty = deletedDocsDirty; rollbackNormsDirty = normsDirty; rollbackPendingDeleteCount = pendingDeleteCount; for (SegmentNorms norm : norms.values()) { norm.rollbackDirty = norm.dirty; } } void rollbackCommit() { si.reset(rollbackSegmentInfo); hasChanges = rollbackHasChanges; deletedDocsDirty = rollbackDeletedDocsDirty; normsDirty = rollbackNormsDirty; pendingDeleteCount = rollbackPendingDeleteCount; for (SegmentNorms norm : norms.values()) { norm.dirty = norm.rollbackDirty; } } /** Returns the directory this index resides in. */ @Override public Directory directory() { // Don't ensureOpen here -- in certain cases, when a // cloned/reopened reader needs to commit, it may call // this method on the closed original reader return core.dir; } // This is necessary so that cloned SegmentReaders (which // share the underlying postings data) will map to the // same entry in the FieldCache. See LUCENE-1579. @Override public final Object getCoreCacheKey() { return core.freqStream; } @Override public Object getDeletesCacheKey() { return deletedDocs; } @Override public long getUniqueTermCount() { return core.getTermsReader().size(); } /** * Lotsa tests did hacks like:
* SegmentReader reader = (SegmentReader) IndexReader.open(dir);
* They broke. This method serves as a hack to keep hacks working * We do it with R/W access for the tests (BW compatibility) * @deprecated Remove this when tests are fixed! */ @Deprecated static SegmentReader getOnlySegmentReader(Directory dir) throws IOException { return getOnlySegmentReader(IndexReader.open(dir,false)); } static SegmentReader getOnlySegmentReader(IndexReader reader) { if (reader instanceof SegmentReader) return (SegmentReader) reader; if (reader instanceof DirectoryReader) { IndexReader[] subReaders = reader.getSequentialSubReaders(); if (subReaders.length != 1) throw new IllegalArgumentException(reader + " has " + subReaders.length + " segments instead of exactly one"); return (SegmentReader) subReaders[0]; } throw new IllegalArgumentException(reader + " is not a SegmentReader or a single-segment DirectoryReader"); } @Override public int getTermInfosIndexDivisor() { return core.termsIndexDivisor; } @Override protected void readerFinished() { // Do nothing here -- we have more careful control on // when to notify that a SegmentReader has finished, // because a given core is shared across many cloned // SegmentReaders. We only notify once that core is no // longer used (all SegmentReaders sharing it have been // closed). } }