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Posted to commits@lucene.apache.org by sh...@apache.org on 2017/07/04 01:23:52 UTC
[32/53] [abbrv] lucene-solr:feature/autoscaling: Changes for version
upgrade to 8.0 on master for the 7.0 release
http://git-wip-us.apache.org/repos/asf/lucene-solr/blob/189f2b3f/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/Lucene54DocValuesProducer.java
----------------------------------------------------------------------
diff --git a/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/Lucene54DocValuesProducer.java b/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/Lucene54DocValuesProducer.java
deleted file mode 100644
index a35f503..0000000
--- a/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/Lucene54DocValuesProducer.java
+++ /dev/null
@@ -1,1803 +0,0 @@
-/*
- * 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.codecs.lucene54;
-
-import java.io.Closeable;
-import java.io.IOException;
-import java.util.ArrayList;
-import java.util.Collection;
-import java.util.Collections;
-import java.util.HashMap;
-import java.util.List;
-import java.util.Map;
-import java.util.concurrent.atomic.AtomicLong;
-
-import org.apache.lucene.codecs.CodecUtil;
-import org.apache.lucene.codecs.DocValuesProducer;
-import org.apache.lucene.codecs.lucene54.Lucene54DocValuesConsumer.NumberType;
-import org.apache.lucene.index.*;
-import org.apache.lucene.index.NumericDocValues;
-import org.apache.lucene.store.ChecksumIndexInput;
-import org.apache.lucene.store.IndexInput;
-import org.apache.lucene.store.RandomAccessInput;
-import org.apache.lucene.util.Accountable;
-import org.apache.lucene.util.Accountables;
-import org.apache.lucene.util.Bits;
-import org.apache.lucene.util.BytesRef;
-import org.apache.lucene.util.IOUtils;
-import org.apache.lucene.util.LongValues;
-import org.apache.lucene.util.PagedBytes;
-import org.apache.lucene.util.RamUsageEstimator;
-import org.apache.lucene.util.packed.DirectMonotonicReader;
-import org.apache.lucene.util.packed.DirectReader;
-import org.apache.lucene.util.packed.MonotonicBlockPackedReader;
-
-import static org.apache.lucene.codecs.lucene54.Lucene54DocValuesFormat.*;
-
-/** reader for {@link Lucene54DocValuesFormat} */
-final class Lucene54DocValuesProducer extends DocValuesProducer implements Closeable {
- private final Map<String,NumericEntry> numerics = new HashMap<>();
- private final Map<String,BinaryEntry> binaries = new HashMap<>();
- private final Map<String,SortedSetEntry> sortedSets = new HashMap<>();
- private final Map<String,SortedSetEntry> sortedNumerics = new HashMap<>();
- private final Map<String,NumericEntry> ords = new HashMap<>();
- private final Map<String,NumericEntry> ordIndexes = new HashMap<>();
- private final int numFields;
- private final AtomicLong ramBytesUsed;
- private final IndexInput data;
- private final int maxDoc;
-
- // memory-resident structures
- private final Map<String,MonotonicBlockPackedReader> addressInstances = new HashMap<>();
- private final Map<String,ReverseTermsIndex> reverseIndexInstances = new HashMap<>();
- private final Map<String,DirectMonotonicReader.Meta> directAddressesMeta = new HashMap<>();
-
- private final boolean merging;
-
- // clone for merge: when merging we don't do any instances.put()s
- Lucene54DocValuesProducer(Lucene54DocValuesProducer original) throws IOException {
- assert Thread.holdsLock(original);
- numerics.putAll(original.numerics);
- binaries.putAll(original.binaries);
- sortedSets.putAll(original.sortedSets);
- sortedNumerics.putAll(original.sortedNumerics);
- ords.putAll(original.ords);
- ordIndexes.putAll(original.ordIndexes);
- numFields = original.numFields;
- ramBytesUsed = new AtomicLong(original.ramBytesUsed.get());
- data = original.data.clone();
- maxDoc = original.maxDoc;
-
- addressInstances.putAll(original.addressInstances);
- reverseIndexInstances.putAll(original.reverseIndexInstances);
- merging = true;
- }
-
- /** expert: instantiates a new reader */
- Lucene54DocValuesProducer(SegmentReadState state, String dataCodec, String dataExtension, String metaCodec, String metaExtension) throws IOException {
- String metaName = IndexFileNames.segmentFileName(state.segmentInfo.name, state.segmentSuffix, metaExtension);
- this.maxDoc = state.segmentInfo.maxDoc();
- merging = false;
- ramBytesUsed = new AtomicLong(RamUsageEstimator.shallowSizeOfInstance(getClass()));
-
- int version = -1;
- int numFields = -1;
-
- // read in the entries from the metadata file.
- try (ChecksumIndexInput in = state.directory.openChecksumInput(metaName, state.context)) {
- Throwable priorE = null;
- try {
- version = CodecUtil.checkIndexHeader(in, metaCodec,
- Lucene54DocValuesFormat.VERSION_START,
- Lucene54DocValuesFormat.VERSION_CURRENT,
- state.segmentInfo.getId(),
- state.segmentSuffix);
- numFields = readFields(in, state.fieldInfos);
- } catch (Throwable exception) {
- priorE = exception;
- } finally {
- CodecUtil.checkFooter(in, priorE);
- }
- }
-
- this.numFields = numFields;
- String dataName = IndexFileNames.segmentFileName(state.segmentInfo.name, state.segmentSuffix, dataExtension);
- this.data = state.directory.openInput(dataName, state.context);
- boolean success = false;
- try {
- final int version2 = CodecUtil.checkIndexHeader(data, dataCodec,
- Lucene54DocValuesFormat.VERSION_START,
- Lucene54DocValuesFormat.VERSION_CURRENT,
- state.segmentInfo.getId(),
- state.segmentSuffix);
- if (version != version2) {
- throw new CorruptIndexException("Format versions mismatch: meta=" + version + ", data=" + version2, data);
- }
-
- // NOTE: data file is too costly to verify checksum against all the bytes on open,
- // but for now we at least verify proper structure of the checksum footer: which looks
- // for FOOTER_MAGIC + algorithmID. This is cheap and can detect some forms of corruption
- // such as file truncation.
- CodecUtil.retrieveChecksum(data);
-
- success = true;
- } finally {
- if (!success) {
- IOUtils.closeWhileHandlingException(this.data);
- }
- }
- }
-
- private void readSortedField(FieldInfo info, IndexInput meta) throws IOException {
- // sorted = binary + numeric
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sorted entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.BINARY) {
- throw new CorruptIndexException("sorted entry for field: " + info.name + " is corrupt", meta);
- }
- BinaryEntry b = readBinaryEntry(info, meta);
- binaries.put(info.name, b);
-
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sorted entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sorted entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry n = readNumericEntry(info, meta);
- ords.put(info.name, n);
- }
-
- private void readSortedSetFieldWithAddresses(FieldInfo info, IndexInput meta) throws IOException {
- // sortedset = binary + numeric (addresses) + ordIndex
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.BINARY) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- BinaryEntry b = readBinaryEntry(info, meta);
- binaries.put(info.name, b);
-
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry n1 = readNumericEntry(info, meta);
- ords.put(info.name, n1);
-
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry n2 = readNumericEntry(info, meta);
- ordIndexes.put(info.name, n2);
- }
-
- private void readSortedSetFieldWithTable(FieldInfo info, IndexInput meta) throws IOException {
- // sortedset table = binary + ordset table + ordset index
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.BINARY) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
-
- BinaryEntry b = readBinaryEntry(info, meta);
- binaries.put(info.name, b);
-
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry n = readNumericEntry(info, meta);
- ords.put(info.name, n);
- }
-
- private int readFields(IndexInput meta, FieldInfos infos) throws IOException {
- int numFields = 0;
- int fieldNumber = meta.readVInt();
- while (fieldNumber != -1) {
- numFields++;
- FieldInfo info = infos.fieldInfo(fieldNumber);
- if (info == null) {
- // trickier to validate more: because we use multiple entries for "composite" types like sortedset, etc.
- throw new CorruptIndexException("Invalid field number: " + fieldNumber, meta);
- }
- byte type = meta.readByte();
- if (type == Lucene54DocValuesFormat.NUMERIC) {
- numerics.put(info.name, readNumericEntry(info, meta));
- } else if (type == Lucene54DocValuesFormat.BINARY) {
- BinaryEntry b = readBinaryEntry(info, meta);
- binaries.put(info.name, b);
- } else if (type == Lucene54DocValuesFormat.SORTED) {
- readSortedField(info, meta);
- } else if (type == Lucene54DocValuesFormat.SORTED_SET) {
- SortedSetEntry ss = readSortedSetEntry(meta);
- sortedSets.put(info.name, ss);
- if (ss.format == SORTED_WITH_ADDRESSES) {
- readSortedSetFieldWithAddresses(info, meta);
- } else if (ss.format == SORTED_SET_TABLE) {
- readSortedSetFieldWithTable(info, meta);
- } else if (ss.format == SORTED_SINGLE_VALUED) {
- if (meta.readVInt() != fieldNumber) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.SORTED) {
- throw new CorruptIndexException("sortedset entry for field: " + info.name + " is corrupt", meta);
- }
- readSortedField(info, meta);
- } else {
- throw new AssertionError();
- }
- } else if (type == Lucene54DocValuesFormat.SORTED_NUMERIC) {
- SortedSetEntry ss = readSortedSetEntry(meta);
- sortedNumerics.put(info.name, ss);
- if (ss.format == SORTED_WITH_ADDRESSES) {
- if (meta.readVInt() != fieldNumber) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- numerics.put(info.name, readNumericEntry(info, meta));
- if (meta.readVInt() != fieldNumber) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry ordIndex = readNumericEntry(info, meta);
- ordIndexes.put(info.name, ordIndex);
- } else if (ss.format == SORTED_SET_TABLE) {
- if (meta.readVInt() != info.number) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- NumericEntry n = readNumericEntry(info, meta);
- ords.put(info.name, n);
- } else if (ss.format == SORTED_SINGLE_VALUED) {
- if (meta.readVInt() != fieldNumber) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- if (meta.readByte() != Lucene54DocValuesFormat.NUMERIC) {
- throw new CorruptIndexException("sortednumeric entry for field: " + info.name + " is corrupt", meta);
- }
- numerics.put(info.name, readNumericEntry(info, meta));
- } else {
- throw new AssertionError();
- }
- } else {
- throw new CorruptIndexException("invalid type: " + type, meta);
- }
- fieldNumber = meta.readVInt();
- }
- return numFields;
- }
-
- private NumericEntry readNumericEntry(FieldInfo info, IndexInput meta) throws IOException {
- NumericEntry entry = new NumericEntry();
- entry.format = meta.readVInt();
- entry.missingOffset = meta.readLong();
- if (entry.format == SPARSE_COMPRESSED) {
- // sparse bits need a bit more metadata
- entry.numDocsWithValue = meta.readVLong();
- final int blockShift = meta.readVInt();
- entry.monotonicMeta = DirectMonotonicReader.loadMeta(meta, entry.numDocsWithValue, blockShift);
- ramBytesUsed.addAndGet(entry.monotonicMeta.ramBytesUsed());
- directAddressesMeta.put(info.name, entry.monotonicMeta);
- }
- entry.offset = meta.readLong();
- entry.count = meta.readVLong();
- switch(entry.format) {
- case CONST_COMPRESSED:
- entry.minValue = meta.readLong();
- if (entry.count > Integer.MAX_VALUE) {
- // currently just a limitation e.g. of bits interface and so on.
- throw new CorruptIndexException("illegal CONST_COMPRESSED count: " + entry.count, meta);
- }
- break;
- case GCD_COMPRESSED:
- entry.minValue = meta.readLong();
- entry.gcd = meta.readLong();
- entry.bitsPerValue = meta.readVInt();
- break;
- case TABLE_COMPRESSED:
- final int uniqueValues = meta.readVInt();
- if (uniqueValues > 256) {
- throw new CorruptIndexException("TABLE_COMPRESSED cannot have more than 256 distinct values, got=" + uniqueValues, meta);
- }
- entry.table = new long[uniqueValues];
- for (int i = 0; i < uniqueValues; ++i) {
- entry.table[i] = meta.readLong();
- }
- ramBytesUsed.addAndGet(RamUsageEstimator.sizeOf(entry.table));
- entry.bitsPerValue = meta.readVInt();
- break;
- case DELTA_COMPRESSED:
- entry.minValue = meta.readLong();
- entry.bitsPerValue = meta.readVInt();
- break;
- case MONOTONIC_COMPRESSED:
- final int blockShift = meta.readVInt();
- entry.monotonicMeta = DirectMonotonicReader.loadMeta(meta, maxDoc + 1, blockShift);
- ramBytesUsed.addAndGet(entry.monotonicMeta.ramBytesUsed());
- directAddressesMeta.put(info.name, entry.monotonicMeta);
- break;
- case SPARSE_COMPRESSED:
- final byte numberType = meta.readByte();
- switch (numberType) {
- case 0:
- entry.numberType = NumberType.VALUE;
- break;
- case 1:
- entry.numberType = NumberType.ORDINAL;
- break;
- default:
- throw new CorruptIndexException("Number type can only be 0 or 1, got=" + numberType, meta);
- }
-
- // now read the numeric entry for non-missing values
- final int fieldNumber = meta.readVInt();
- if (fieldNumber != info.number) {
- throw new CorruptIndexException("Field numbers mistmatch: " + fieldNumber + " != " + info.number, meta);
- }
- final int dvFormat = meta.readByte();
- if (dvFormat != NUMERIC) {
- throw new CorruptIndexException("Formats mistmatch: " + dvFormat + " != " + NUMERIC, meta);
- }
- entry.nonMissingValues = readNumericEntry(info, meta);
- break;
- default:
- throw new CorruptIndexException("Unknown format: " + entry.format + ", input=", meta);
- }
- entry.endOffset = meta.readLong();
- return entry;
- }
-
- private BinaryEntry readBinaryEntry(FieldInfo info, IndexInput meta) throws IOException {
- BinaryEntry entry = new BinaryEntry();
- entry.format = meta.readVInt();
- entry.missingOffset = meta.readLong();
- entry.minLength = meta.readVInt();
- entry.maxLength = meta.readVInt();
- entry.count = meta.readVLong();
- entry.offset = meta.readLong();
- switch(entry.format) {
- case BINARY_FIXED_UNCOMPRESSED:
- break;
- case BINARY_PREFIX_COMPRESSED:
- entry.addressesOffset = meta.readLong();
- entry.packedIntsVersion = meta.readVInt();
- entry.blockSize = meta.readVInt();
- entry.reverseIndexOffset = meta.readLong();
- break;
- case BINARY_VARIABLE_UNCOMPRESSED:
- entry.addressesOffset = meta.readLong();
- final int blockShift = meta.readVInt();
- entry.addressesMeta = DirectMonotonicReader.loadMeta(meta, entry.count + 1, blockShift);
- ramBytesUsed.addAndGet(entry.addressesMeta.ramBytesUsed());
- directAddressesMeta.put(info.name, entry.addressesMeta);
- entry.addressesEndOffset = meta.readLong();
- break;
- default:
- throw new CorruptIndexException("Unknown format: " + entry.format, meta);
- }
- return entry;
- }
-
- SortedSetEntry readSortedSetEntry(IndexInput meta) throws IOException {
- SortedSetEntry entry = new SortedSetEntry();
- entry.format = meta.readVInt();
- if (entry.format == SORTED_SET_TABLE) {
- final int totalTableLength = meta.readInt();
- if (totalTableLength > 256) {
- throw new CorruptIndexException("SORTED_SET_TABLE cannot have more than 256 values in its dictionary, got=" + totalTableLength, meta);
- }
- entry.table = new long[totalTableLength];
- for (int i = 0; i < totalTableLength; ++i) {
- entry.table[i] = meta.readLong();
- }
- ramBytesUsed.addAndGet(RamUsageEstimator.sizeOf(entry.table));
- final int tableSize = meta.readInt();
- if (tableSize > totalTableLength + 1) { // +1 because of the empty set
- throw new CorruptIndexException("SORTED_SET_TABLE cannot have more set ids than ords in its dictionary, got " + totalTableLength + " ords and " + tableSize + " sets", meta);
- }
- entry.tableOffsets = new int[tableSize + 1];
- for (int i = 1; i < entry.tableOffsets.length; ++i) {
- entry.tableOffsets[i] = entry.tableOffsets[i - 1] + meta.readInt();
- }
- ramBytesUsed.addAndGet(RamUsageEstimator.sizeOf(entry.tableOffsets));
- } else if (entry.format != SORTED_SINGLE_VALUED && entry.format != SORTED_WITH_ADDRESSES) {
- throw new CorruptIndexException("Unknown format: " + entry.format, meta);
- }
- return entry;
- }
-
- @Override
- public NumericDocValues getNumeric(FieldInfo field) throws IOException {
- NumericEntry entry = numerics.get(field.name);
- Bits docsWithField;
-
- if (entry.format == SPARSE_COMPRESSED) {
- return getSparseNumericDocValues(entry);
- } else {
- if (entry.missingOffset == ALL_MISSING) {
- return DocValues.emptyNumeric();
- } else if (entry.missingOffset == ALL_LIVE) {
- LongValues values = getNumeric(entry);
- return new NumericDocValues() {
- private int docID = -1;
-
- @Override
- public int docID() {
- return docID;
- }
-
- @Override
- public int nextDoc() {
- docID++;
- if (docID == maxDoc) {
- docID = NO_MORE_DOCS;
- }
- return docID;
- }
-
- @Override
- public int advance(int target) {
- if (target >= maxDoc) {
- docID = NO_MORE_DOCS;
- } else {
- docID = target;
- }
- return docID;
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- docID = target;
- return true;
- }
-
- @Override
- public long cost() {
- // TODO
- return 0;
- }
-
- @Override
- public long longValue() {
- return values.get(docID);
- }
- };
- } else {
- docsWithField = getLiveBits(entry.missingOffset, maxDoc);
- }
- }
- final LongValues values = getNumeric(entry);
- return new NumericDocValues() {
-
- int doc = -1;
- long value;
-
- @Override
- public long longValue() throws IOException {
- return value;
- }
-
- @Override
- public int docID() {
- return doc;
- }
-
- @Override
- public int nextDoc() throws IOException {
- return advance(doc + 1);
- }
-
- @Override
- public int advance(int target) throws IOException {
- for (int doc = target; doc < maxDoc; ++doc) {
- value = values.get(doc);
- if (value != 0 || docsWithField.get(doc)) {
- return this.doc = doc;
- }
- }
- return doc = NO_MORE_DOCS;
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- doc = target;
- value = values.get(doc);
- return value != 0 || docsWithField.get(doc);
- }
-
- @Override
- public long cost() {
- return maxDoc;
- }
-
- };
- }
-
- @Override
- public long ramBytesUsed() {
- return ramBytesUsed.get();
- }
-
- @Override
- public synchronized Collection<Accountable> getChildResources() {
- List<Accountable> resources = new ArrayList<>();
- resources.addAll(Accountables.namedAccountables("addresses field", addressInstances));
- resources.addAll(Accountables.namedAccountables("reverse index field", reverseIndexInstances));
- resources.addAll(Accountables.namedAccountables("direct addresses meta field", directAddressesMeta));
- return Collections.unmodifiableList(resources);
- }
-
- @Override
- public void checkIntegrity() throws IOException {
- CodecUtil.checksumEntireFile(data);
- }
-
- @Override
- public String toString() {
- return getClass().getSimpleName() + "(fields=" + numFields + ")";
- }
-
- LongValues getNumeric(NumericEntry entry) throws IOException {
- switch (entry.format) {
- case CONST_COMPRESSED: {
- final long constant = entry.minValue;
- final Bits live = getLiveBits(entry.missingOffset, (int)entry.count);
- return new LongValues() {
- @Override
- public long get(long index) {
- return live.get((int)index) ? constant : 0;
- }
- };
- }
- case DELTA_COMPRESSED: {
- RandomAccessInput slice = this.data.randomAccessSlice(entry.offset, entry.endOffset - entry.offset);
- final long delta = entry.minValue;
- final LongValues values = DirectReader.getInstance(slice, entry.bitsPerValue, 0);
- return new LongValues() {
- @Override
- public long get(long id) {
- return delta + values.get(id);
- }
- };
- }
- case GCD_COMPRESSED: {
- RandomAccessInput slice = this.data.randomAccessSlice(entry.offset, entry.endOffset - entry.offset);
- final long min = entry.minValue;
- final long mult = entry.gcd;
- final LongValues quotientReader = DirectReader.getInstance(slice, entry.bitsPerValue, 0);
- return new LongValues() {
- @Override
- public long get(long id) {
- return min + mult * quotientReader.get(id);
- }
- };
- }
- case TABLE_COMPRESSED: {
- RandomAccessInput slice = this.data.randomAccessSlice(entry.offset, entry.endOffset - entry.offset);
- final long table[] = entry.table;
- final LongValues ords = DirectReader.getInstance(slice, entry.bitsPerValue, 0);
- return new LongValues() {
- @Override
- public long get(long id) {
- return table[(int) ords.get(id)];
- }
- };
- }
- case SPARSE_COMPRESSED:
- final SparseNumericDocValues values = getSparseNumericDocValues(entry);
- final long missingValue;
- switch (entry.numberType) {
- case ORDINAL:
- missingValue = -1L;
- break;
- case VALUE:
- missingValue = 0L;
- break;
- default:
- throw new AssertionError();
- }
- return new SparseNumericDocValuesRandomAccessWrapper(values, missingValue);
- default:
- throw new AssertionError();
- }
- }
-
- static final class SparseNumericDocValues extends NumericDocValues {
-
- final int docIDsLength;
- final LongValues docIds, values;
-
- int index, doc;
-
- SparseNumericDocValues(int docIDsLength, LongValues docIDs, LongValues values) {
- this.docIDsLength = docIDsLength;
- this.docIds = docIDs;
- this.values = values;
- reset();
- }
-
- void reset() {
- index = -1;
- doc = -1;
- }
-
- @Override
- public int docID() {
- return doc;
- }
-
- @Override
- public int nextDoc() throws IOException {
- if (index >= docIDsLength - 1) {
- index = docIDsLength;
- return doc = NO_MORE_DOCS;
- }
- return doc = (int) docIds.get(++index);
- }
-
- @Override
- public int advance(int target) throws IOException {
- long loIndex = index;
- long step = 1;
- long hiIndex;
- int hiDoc;
-
- // gallop forward by exponentially growing the interval
- // in order to find an interval so that the target doc
- // is in ]lo, hi]. Compared to a regular binary search,
- // this optimizes the case that the caller performs many
- // advance calls by small deltas
- do {
- hiIndex = index + step;
- if (hiIndex >= docIDsLength) {
- hiIndex = docIDsLength;
- hiDoc = NO_MORE_DOCS;
- break;
- }
- hiDoc = (int) docIds.get(hiIndex);
- if (hiDoc >= target) {
- break;
- }
- step <<= 1;
- } while (true);
-
- // now binary search
- while (loIndex + 1 < hiIndex) {
- final long midIndex = (loIndex + 1 + hiIndex) >>> 1;
- final int midDoc = (int) docIds.get(midIndex);
- if (midDoc >= target) {
- hiIndex = midIndex;
- hiDoc = midDoc;
- } else {
- loIndex = midIndex;
- }
- }
-
- index = (int) hiIndex;
- return doc = hiDoc;
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- if (advance(target) == target) {
- return true;
- }
- --index;
- doc = target;
- return index >= 0 && docIds.get(index) == target;
- }
-
- @Override
- public long longValue() {
- assert index >= 0;
- assert index < docIDsLength;
- return values.get(index);
- }
-
- @Override
- public long cost() {
- return docIDsLength;
- }
- }
-
- static class SparseNumericDocValuesRandomAccessWrapper extends LongValues {
-
- final SparseNumericDocValues values;
- final long missingValue;
-
- SparseNumericDocValuesRandomAccessWrapper(SparseNumericDocValues values, long missingValue) {
- this.values = values;
- this.missingValue = missingValue;
- }
-
- @Override
- public long get(long longIndex) {
- final int index = Math.toIntExact(longIndex);
- int doc = values.docID();
- if (doc >= index) {
- values.reset();
- }
- assert values.docID() < index;
- try {
- doc = values.advance(index);
- } catch (IOException e) {
- throw new RuntimeException(e);
- }
- if (doc == index) {
- return values.longValue();
- } else {
- return missingValue;
- }
- }
-
- }
-
- LegacyBinaryDocValues getLegacyBinary(FieldInfo field) throws IOException {
- BinaryEntry bytes = binaries.get(field.name);
- switch(bytes.format) {
- case BINARY_FIXED_UNCOMPRESSED:
- return getFixedBinary(field, bytes);
- case BINARY_VARIABLE_UNCOMPRESSED:
- return getVariableBinary(field, bytes);
- case BINARY_PREFIX_COMPRESSED:
- return getCompressedBinary(field, bytes);
- default:
- throw new AssertionError();
- }
- }
-
- @Override
- public BinaryDocValues getBinary(FieldInfo field) throws IOException {
- BinaryEntry be = binaries.get(field.name);
- return new LegacyBinaryDocValuesWrapper(getLiveBits(be.missingOffset, maxDoc), getLegacyBinary(field));
- }
-
- private LegacyBinaryDocValues getFixedBinary(FieldInfo field, final BinaryEntry bytes) throws IOException {
- final IndexInput data = this.data.slice("fixed-binary", bytes.offset, bytes.count * bytes.maxLength);
-
- final BytesRef term = new BytesRef(bytes.maxLength);
- final byte[] buffer = term.bytes;
- final int length = term.length = bytes.maxLength;
-
- return new LongBinaryDocValues() {
- @Override
- public BytesRef get(long id) {
- try {
- data.seek(id * length);
- data.readBytes(buffer, 0, buffer.length);
- return term;
- } catch (IOException e) {
- throw new RuntimeException(e);
- }
- }
- };
- }
-
- private LegacyBinaryDocValues getVariableBinary(FieldInfo field, final BinaryEntry bytes) throws IOException {
- final RandomAccessInput addressesData = this.data.randomAccessSlice(bytes.addressesOffset, bytes.addressesEndOffset - bytes.addressesOffset);
- final LongValues addresses = DirectMonotonicReader.getInstance(bytes.addressesMeta, addressesData);
-
- final IndexInput data = this.data.slice("var-binary", bytes.offset, bytes.addressesOffset - bytes.offset);
- final BytesRef term = new BytesRef(Math.max(0, bytes.maxLength));
- final byte buffer[] = term.bytes;
-
- return new LongBinaryDocValues() {
- @Override
- public BytesRef get(long id) {
- long startAddress = addresses.get(id);
- long endAddress = addresses.get(id+1);
- int length = (int) (endAddress - startAddress);
- try {
- data.seek(startAddress);
- data.readBytes(buffer, 0, length);
- term.length = length;
- return term;
- } catch (IOException e) {
- throw new RuntimeException(e);
- }
- }
- };
- }
-
- /** returns an address instance for prefix-compressed binary values. */
- private synchronized MonotonicBlockPackedReader getIntervalInstance(FieldInfo field, BinaryEntry bytes) throws IOException {
- MonotonicBlockPackedReader addresses = addressInstances.get(field.name);
- if (addresses == null) {
- data.seek(bytes.addressesOffset);
- final long size = (bytes.count + INTERVAL_MASK) >>> INTERVAL_SHIFT;
- addresses = MonotonicBlockPackedReader.of(data, bytes.packedIntsVersion, bytes.blockSize, size, false);
- if (!merging) {
- addressInstances.put(field.name, addresses);
- ramBytesUsed.addAndGet(addresses.ramBytesUsed() + Integer.BYTES);
- }
- }
- return addresses;
- }
-
- /** returns a reverse lookup instance for prefix-compressed binary values. */
- private synchronized ReverseTermsIndex getReverseIndexInstance(FieldInfo field, BinaryEntry bytes) throws IOException {
- ReverseTermsIndex index = reverseIndexInstances.get(field.name);
- if (index == null) {
- index = new ReverseTermsIndex();
- data.seek(bytes.reverseIndexOffset);
- long size = (bytes.count + REVERSE_INTERVAL_MASK) >>> REVERSE_INTERVAL_SHIFT;
- index.termAddresses = MonotonicBlockPackedReader.of(data, bytes.packedIntsVersion, bytes.blockSize, size, false);
- long dataSize = data.readVLong();
- PagedBytes pagedBytes = new PagedBytes(15);
- pagedBytes.copy(data, dataSize);
- index.terms = pagedBytes.freeze(true);
- if (!merging) {
- reverseIndexInstances.put(field.name, index);
- ramBytesUsed.addAndGet(index.ramBytesUsed());
- }
- }
- return index;
- }
-
- private LegacyBinaryDocValues getCompressedBinary(FieldInfo field, final BinaryEntry bytes) throws IOException {
- final MonotonicBlockPackedReader addresses = getIntervalInstance(field, bytes);
- final ReverseTermsIndex index = getReverseIndexInstance(field, bytes);
- assert addresses.size() > 0; // we don't have to handle empty case
- IndexInput slice = data.slice("terms", bytes.offset, bytes.addressesOffset - bytes.offset);
- return new CompressedBinaryDocValues(bytes, addresses, index, slice);
- }
-
- @Override
- public SortedDocValues getSorted(FieldInfo field) throws IOException {
- final int valueCount = (int) binaries.get(field.name).count;
- final LegacyBinaryDocValues binary = getLegacyBinary(field);
- NumericEntry entry = ords.get(field.name);
- final LongValues ordinals = getNumeric(entry);
- if (entry.format == SPARSE_COMPRESSED) {
- final SparseNumericDocValues sparseValues = ((SparseNumericDocValuesRandomAccessWrapper) ordinals).values;
- return new SortedDocValues() {
-
- @Override
- public int ordValue() {
- return (int) sparseValues.longValue();
- }
-
- @Override
- public BytesRef lookupOrd(int ord) {
- return binary.get(ord);
- }
-
- @Override
- public int getValueCount() {
- return valueCount;
- }
-
- @Override
- public int docID() {
- return sparseValues.docID();
- }
-
- @Override
- public int nextDoc() throws IOException {
- return sparseValues.nextDoc();
- }
-
- @Override
- public int advance(int target) throws IOException {
- return sparseValues.advance(target);
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- return sparseValues.advanceExact(target);
- }
-
- @Override
- public long cost() {
- return sparseValues.cost();
- }
-
- };
- }
- return new SortedDocValues() {
- private int docID = -1;
- private int ord;
-
- @Override
- public int docID() {
- return docID;
- }
-
- @Override
- public int nextDoc() throws IOException {
- assert docID != NO_MORE_DOCS;
- while (true) {
- docID++;
- if (docID == maxDoc) {
- docID = NO_MORE_DOCS;
- break;
- }
- ord = (int) ordinals.get(docID);
- if (ord != -1) {
- break;
- }
- }
- return docID;
- }
-
- @Override
- public int advance(int target) throws IOException {
- if (target >= maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- } else {
- docID = target-1;
- return nextDoc();
- }
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- docID = target;
- ord = (int) ordinals.get(target);
- return ord != -1;
- }
-
- @Override
- public int ordValue() {
- return ord;
- }
-
- @Override
- public long cost() {
- // TODO
- return 0;
- }
-
- @Override
- public BytesRef lookupOrd(int ord) {
- return binary.get(ord);
- }
-
- @Override
- public int getValueCount() {
- return valueCount;
- }
-
- @Override
- public int lookupTerm(BytesRef key) throws IOException {
- if (binary instanceof CompressedBinaryDocValues) {
- return (int) ((CompressedBinaryDocValues)binary).lookupTerm(key);
- } else {
- return super.lookupTerm(key);
- }
- }
-
- @Override
- public TermsEnum termsEnum() throws IOException {
- if (binary instanceof CompressedBinaryDocValues) {
- return ((CompressedBinaryDocValues)binary).getTermsEnum();
- } else {
- return super.termsEnum();
- }
- }
- };
- }
-
- /** returns an address instance for sortedset ordinal lists */
- private LongValues getOrdIndexInstance(FieldInfo field, NumericEntry entry) throws IOException {
- RandomAccessInput data = this.data.randomAccessSlice(entry.offset, entry.endOffset - entry.offset);
- return DirectMonotonicReader.getInstance(entry.monotonicMeta, data);
- }
-
- @Override
- public SortedNumericDocValues getSortedNumeric(FieldInfo field) throws IOException {
- SortedSetEntry ss = sortedNumerics.get(field.name);
- if (ss.format == SORTED_SINGLE_VALUED) {
- NumericEntry numericEntry = numerics.get(field.name);
- final LongValues values = getNumeric(numericEntry);
- if (numericEntry.format == SPARSE_COMPRESSED) {
- SparseNumericDocValues sparseValues = ((SparseNumericDocValuesRandomAccessWrapper) values).values;
- return new SortedNumericDocValues() {
-
- @Override
- public long nextValue() throws IOException {
- return sparseValues.longValue();
- }
-
- @Override
- public int docValueCount() {
- return 1;
- }
-
- @Override
- public int docID() {
- return sparseValues.docID();
- }
-
- @Override
- public int nextDoc() throws IOException {
- return sparseValues.nextDoc();
- }
-
- @Override
- public int advance(int target) throws IOException {
- return sparseValues.advance(target);
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- return sparseValues.advanceExact(target);
- }
-
- @Override
- public long cost() {
- return sparseValues.cost();
- }
-
- };
- }
- final Bits docsWithField = getLiveBits(numericEntry.missingOffset, maxDoc);
- return new SortedNumericDocValues() {
- int docID = -1;
-
- @Override
- public int docID() {
- return docID;
- }
-
- @Override
- public int nextDoc() {
- while (true) {
- docID++;
- if (docID == maxDoc) {
- docID = NO_MORE_DOCS;
- break;
- }
-
- if (docsWithField.get(docID)) {
- // TODO: use .nextSetBit here, at least!!
- break;
- }
- }
- return docID;
- }
-
- @Override
- public int advance(int target) {
- if (target >= maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- } else {
- docID = target-1;
- return nextDoc();
- }
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- docID = target;
- return docsWithField.get(docID);
- }
-
- @Override
- public long cost() {
- // TODO
- return 0;
- }
-
- @Override
- public int docValueCount() {
- return 1;
- }
-
- @Override
- public long nextValue() {
- return values.get(docID);
- }
- };
- } else if (ss.format == SORTED_WITH_ADDRESSES) {
- NumericEntry numericEntry = numerics.get(field.name);
- final LongValues values = getNumeric(numericEntry);
- final LongValues ordIndex = getOrdIndexInstance(field, ordIndexes.get(field.name));
-
- return new SortedNumericDocValues() {
- long startOffset;
- long endOffset;
- int docID = -1;
- long upto;
-
- @Override
- public int docID() {
- return docID;
- }
-
- @Override
- public int nextDoc() {
- while (true) {
- docID++;
- if (docID == maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- }
- startOffset = ordIndex.get(docID);
- endOffset = ordIndex.get(docID+1L);
- if (endOffset > startOffset) {
- break;
- }
- }
- upto = startOffset;
- return docID;
- }
-
- @Override
- public int advance(int target) {
- if (target >= maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- } else {
- docID = target-1;
- return nextDoc();
- }
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- docID = target;
- startOffset = ordIndex.get(docID);
- endOffset = ordIndex.get(docID+1L);
- return endOffset > startOffset;
- }
-
- @Override
- public long cost() {
- // TODO
- return 0;
- }
-
- @Override
- public int docValueCount() {
- return (int) (endOffset - startOffset);
- }
-
- @Override
- public long nextValue() {
- return values.get(upto++);
- }
- };
- } else if (ss.format == SORTED_SET_TABLE) {
- NumericEntry entry = ords.get(field.name);
- final LongValues ordinals = getNumeric(entry);
-
- final long[] table = ss.table;
- final int[] offsets = ss.tableOffsets;
- return new SortedNumericDocValues() {
- int startOffset;
- int endOffset;
- int docID = -1;
- int upto;
-
- @Override
- public int docID() {
- return docID;
- }
-
- @Override
- public int nextDoc() {
- while (true) {
- docID++;
- if (docID == maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- }
- int ord = (int) ordinals.get(docID);
- startOffset = offsets[ord];
- endOffset = offsets[ord+1];
- if (endOffset > startOffset) {
- break;
- }
- }
- upto = startOffset;
- return docID;
- }
-
- @Override
- public int advance(int target) {
- if (target >= maxDoc) {
- docID = NO_MORE_DOCS;
- return docID;
- } else {
- docID = target-1;
- return nextDoc();
- }
- }
-
- @Override
- public boolean advanceExact(int target) throws IOException {
- docID = target;
- int ord = (int) ordinals.get(docID);
- startOffset = offsets[ord];
- endOffset = offsets[ord+1];
- return endOffset > startOffset;
- }
-
- @Override
- public long cost() {
- // TODO
- return 0;
- }
-
- @Override
- public int docValueCount() {
- return endOffset - startOffset;
- }
-
- @Override
- public long nextValue() {
- return table[upto++];
- }
- };
- } else {
- throw new AssertionError();
- }
- }
-
- @Override
- public SortedSetDocValues getSortedSet(FieldInfo field) throws IOException {
- SortedSetEntry ss = sortedSets.get(field.name);
- switch (ss.format) {
- case SORTED_SINGLE_VALUED:
- return DocValues.singleton(getSorted(field));
- case SORTED_WITH_ADDRESSES:
- return getSortedSetWithAddresses(field);
- case SORTED_SET_TABLE:
- return getSortedSetTable(field, ss);
- default:
- throw new AssertionError();
- }
- }
-
- private SortedSetDocValues getSortedSetWithAddresses(FieldInfo field) throws IOException {
- final long valueCount = binaries.get(field.name).count;
- // we keep the byte[]s and list of ords on disk, these could be large
- final LongBinaryDocValues binary = (LongBinaryDocValues) getLegacyBinary(field);
- final LongValues ordinals = getNumeric(ords.get(field.name));
- // but the addresses to the ord stream are in RAM
- final LongValues ordIndex = getOrdIndexInstance(field, ordIndexes.get(field.name));
-
- return new LegacySortedSetDocValuesWrapper(new LegacySortedSetDocValues() {
- long startOffset;
- long offset;
- long endOffset;
-
- @Override
- public long nextOrd() {
- if (offset == endOffset) {
- return NO_MORE_ORDS;
- } else {
- long ord = ordinals.get(offset);
- offset++;
- return ord;
- }
- }
-
- @Override
- public void setDocument(int docID) {
- startOffset = offset = ordIndex.get(docID);
- endOffset = ordIndex.get(docID+1L);
- }
-
- @Override
- public BytesRef lookupOrd(long ord) {
- return binary.get(ord);
- }
-
- @Override
- public long getValueCount() {
- return valueCount;
- }
-
- @Override
- public long lookupTerm(BytesRef key) {
- if (binary instanceof CompressedBinaryDocValues) {
- return ((CompressedBinaryDocValues)binary).lookupTerm(key);
- } else {
- return super.lookupTerm(key);
- }
- }
-
- @Override
- public TermsEnum termsEnum() throws IOException {
- if (binary instanceof CompressedBinaryDocValues) {
- return ((CompressedBinaryDocValues)binary).getTermsEnum();
- } else {
- return super.termsEnum();
- }
- }
- }, maxDoc);
- }
-
- private SortedSetDocValues getSortedSetTable(FieldInfo field, SortedSetEntry ss) throws IOException {
- final long valueCount = binaries.get(field.name).count;
- final LongBinaryDocValues binary = (LongBinaryDocValues) getLegacyBinary(field);
- final NumericEntry ordinalsEntry = ords.get(field.name);
- final LongValues ordinals = getNumeric(ordinalsEntry);
-
- final long[] table = ss.table;
- final int[] offsets = ss.tableOffsets;
-
- return new LegacySortedSetDocValuesWrapper(new LegacySortedSetDocValues() {
-
- int offset, startOffset, endOffset;
-
- @Override
- public void setDocument(int docID) {
- final int ord = (int) ordinals.get(docID);
- offset = startOffset = offsets[ord];
- endOffset = offsets[ord + 1];
- }
-
- @Override
- public long nextOrd() {
- if (offset == endOffset) {
- return NO_MORE_ORDS;
- } else {
- return table[offset++];
- }
- }
-
- @Override
- public BytesRef lookupOrd(long ord) {
- return binary.get(ord);
- }
-
- @Override
- public long getValueCount() {
- return valueCount;
- }
-
- @Override
- public long lookupTerm(BytesRef key) {
- if (binary instanceof CompressedBinaryDocValues) {
- return ((CompressedBinaryDocValues) binary).lookupTerm(key);
- } else {
- return super.lookupTerm(key);
- }
- }
-
- @Override
- public TermsEnum termsEnum() throws IOException {
- if (binary instanceof CompressedBinaryDocValues) {
- return ((CompressedBinaryDocValues) binary).getTermsEnum();
- } else {
- return super.termsEnum();
- }
- }
- }, maxDoc);
- }
-
- private Bits getLiveBits(final long offset, final int count) throws IOException {
- if (offset == ALL_MISSING) {
- return new Bits.MatchNoBits(count);
- } else if (offset == ALL_LIVE) {
- return new Bits.MatchAllBits(count);
- } else {
- int length = (int) ((count + 7L) >>> 3);
- final RandomAccessInput in = data.randomAccessSlice(offset, length);
- return new Bits() {
- @Override
- public boolean get(int index) {
- try {
- return (in.readByte(index >> 3) & (1 << (index & 7))) != 0;
- } catch (IOException e) {
- throw new RuntimeException(e);
- }
- }
-
- @Override
- public int length() {
- return count;
- }
- };
- }
- }
-
- private SparseNumericDocValues getSparseNumericDocValues(NumericEntry entry) throws IOException {
- final RandomAccessInput docIdsData = this.data.randomAccessSlice(entry.missingOffset, entry.offset - entry.missingOffset);
- final LongValues docIDs = DirectMonotonicReader.getInstance(entry.monotonicMeta, docIdsData);
- final LongValues values = getNumeric(entry.nonMissingValues); // cannot be sparse
- return new SparseNumericDocValues(Math.toIntExact(entry.numDocsWithValue), docIDs, values);
- }
-
- @Override
- public synchronized DocValuesProducer getMergeInstance() throws IOException {
- return new Lucene54DocValuesProducer(this);
- }
-
- @Override
- public void close() throws IOException {
- data.close();
- }
-
- /** metadata entry for a numeric docvalues field */
- static class NumericEntry {
- private NumericEntry() {}
- /** offset to the bitset representing docsWithField, or -1 if no documents have missing values */
- long missingOffset;
- /** offset to the actual numeric values */
- public long offset;
- /** end offset to the actual numeric values */
- public long endOffset;
- /** bits per value used to pack the numeric values */
- public int bitsPerValue;
-
- int format;
- /** count of values written */
- public long count;
-
- /** monotonic meta */
- public DirectMonotonicReader.Meta monotonicMeta;
-
- long minValue;
- long gcd;
- long table[];
-
- /** for sparse compression */
- long numDocsWithValue;
- NumericEntry nonMissingValues;
- NumberType numberType;
-
- }
-
- /** metadata entry for a binary docvalues field */
- static class BinaryEntry {
- private BinaryEntry() {}
- /** offset to the bitset representing docsWithField, or -1 if no documents have missing values */
- long missingOffset;
- /** offset to the actual binary values */
- long offset;
-
- int format;
- /** count of values written */
- public long count;
- int minLength;
- int maxLength;
- /** offset to the addressing data that maps a value to its slice of the byte[] */
- public long addressesOffset, addressesEndOffset;
- /** meta data for addresses */
- public DirectMonotonicReader.Meta addressesMeta;
- /** offset to the reverse index */
- public long reverseIndexOffset;
- /** packed ints version used to encode addressing information */
- public int packedIntsVersion;
- /** packed ints blocksize */
- public int blockSize;
- }
-
- /** metadata entry for a sorted-set docvalues field */
- static class SortedSetEntry {
- private SortedSetEntry() {}
- int format;
-
- long[] table;
- int[] tableOffsets;
- }
-
- // internally we compose complex dv (sorted/sortedset) from other ones
- static abstract class LongBinaryDocValues extends LegacyBinaryDocValues {
- @Override
- public final BytesRef get(int docID) {
- return get((long)docID);
- }
-
- abstract BytesRef get(long id);
- }
-
- // used for reverse lookup to a small range of blocks
- static class ReverseTermsIndex implements Accountable {
- public MonotonicBlockPackedReader termAddresses;
- public PagedBytes.Reader terms;
-
- @Override
- public long ramBytesUsed() {
- return termAddresses.ramBytesUsed() + terms.ramBytesUsed();
- }
-
- @Override
- public Collection<Accountable> getChildResources() {
- List<Accountable> resources = new ArrayList<>();
- resources.add(Accountables.namedAccountable("term bytes", terms));
- resources.add(Accountables.namedAccountable("term addresses", termAddresses));
- return Collections.unmodifiableList(resources);
- }
-
- @Override
- public String toString() {
- return getClass().getSimpleName() + "(size=" + termAddresses.size() + ")";
- }
- }
-
- //in the compressed case, we add a few additional operations for
- //more efficient reverse lookup and enumeration
- static final class CompressedBinaryDocValues extends LongBinaryDocValues {
- final long numValues;
- final long numIndexValues;
- final int maxTermLength;
- final MonotonicBlockPackedReader addresses;
- final IndexInput data;
- final CompressedBinaryTermsEnum termsEnum;
- final PagedBytes.Reader reverseTerms;
- final MonotonicBlockPackedReader reverseAddresses;
- final long numReverseIndexValues;
-
- public CompressedBinaryDocValues(BinaryEntry bytes, MonotonicBlockPackedReader addresses, ReverseTermsIndex index, IndexInput data) throws IOException {
- this.maxTermLength = bytes.maxLength;
- this.numValues = bytes.count;
- this.addresses = addresses;
- this.numIndexValues = addresses.size();
- this.data = data;
- this.reverseTerms = index.terms;
- this.reverseAddresses = index.termAddresses;
- this.numReverseIndexValues = reverseAddresses.size();
- this.termsEnum = getTermsEnum(data);
- }
-
- @Override
- public BytesRef get(long id) {
- try {
- termsEnum.seekExact(id);
- return termsEnum.term();
- } catch (IOException e) {
- throw new RuntimeException(e);
- }
- }
-
- long lookupTerm(BytesRef key) {
- try {
- switch (termsEnum.seekCeil(key)) {
- case FOUND: return termsEnum.ord();
- case NOT_FOUND: return -termsEnum.ord()-1;
- default: return -numValues-1;
- }
- } catch (IOException bogus) {
- throw new RuntimeException(bogus);
- }
- }
-
- TermsEnum getTermsEnum() throws IOException {
- return getTermsEnum(data.clone());
- }
-
- private CompressedBinaryTermsEnum getTermsEnum(IndexInput input) throws IOException {
- return new CompressedBinaryTermsEnum(input);
- }
-
- class CompressedBinaryTermsEnum extends TermsEnum {
- private long currentOrd = -1;
- // offset to the start of the current block
- private long currentBlockStart;
- private final IndexInput input;
- // delta from currentBlockStart to start of each term
- private final int offsets[] = new int[INTERVAL_COUNT];
- private final byte buffer[] = new byte[2*INTERVAL_COUNT-1];
-
- private final BytesRef term = new BytesRef(maxTermLength);
- private final BytesRef firstTerm = new BytesRef(maxTermLength);
- private final BytesRef scratch = new BytesRef();
-
- CompressedBinaryTermsEnum(IndexInput input) throws IOException {
- this.input = input;
- input.seek(0);
- }
-
- private void readHeader() throws IOException {
- firstTerm.length = input.readVInt();
- input.readBytes(firstTerm.bytes, 0, firstTerm.length);
- input.readBytes(buffer, 0, INTERVAL_COUNT-1);
- if (buffer[0] == -1) {
- readShortAddresses();
- } else {
- readByteAddresses();
- }
- currentBlockStart = input.getFilePointer();
- }
-
- // read single byte addresses: each is delta - 2
- // (shared prefix byte and length > 0 are both implicit)
- private void readByteAddresses() throws IOException {
- int addr = 0;
- for (int i = 1; i < offsets.length; i++) {
- addr += 2 + (buffer[i-1] & 0xFF);
- offsets[i] = addr;
- }
- }
-
- // read double byte addresses: each is delta - 2
- // (shared prefix byte and length > 0 are both implicit)
- private void readShortAddresses() throws IOException {
- input.readBytes(buffer, INTERVAL_COUNT-1, INTERVAL_COUNT);
- int addr = 0;
- for (int i = 1; i < offsets.length; i++) {
- int x = i<<1;
- addr += 2 + ((buffer[x-1] << 8) | (buffer[x] & 0xFF));
- offsets[i] = addr;
- }
- }
-
- // set term to the first term
- private void readFirstTerm() throws IOException {
- term.length = firstTerm.length;
- System.arraycopy(firstTerm.bytes, firstTerm.offset, term.bytes, 0, term.length);
- }
-
- // read term at offset, delta encoded from first term
- private void readTerm(int offset) throws IOException {
- int start = input.readByte() & 0xFF;
- System.arraycopy(firstTerm.bytes, firstTerm.offset, term.bytes, 0, start);
- int suffix = offsets[offset] - offsets[offset-1] - 1;
- input.readBytes(term.bytes, start, suffix);
- term.length = start + suffix;
- }
-
- @Override
- public BytesRef next() throws IOException {
- currentOrd++;
- if (currentOrd >= numValues) {
- return null;
- } else {
- int offset = (int) (currentOrd & INTERVAL_MASK);
- if (offset == 0) {
- // switch to next block
- readHeader();
- readFirstTerm();
- } else {
- readTerm(offset);
- }
- return term;
- }
- }
-
- // binary search reverse index to find smaller
- // range of blocks to search
- long binarySearchIndex(BytesRef text) throws IOException {
- long low = 0;
- long high = numReverseIndexValues - 1;
- while (low <= high) {
- long mid = (low + high) >>> 1;
- reverseTerms.fill(scratch, reverseAddresses.get(mid));
- int cmp = scratch.compareTo(text);
-
- if (cmp < 0) {
- low = mid + 1;
- } else if (cmp > 0) {
- high = mid - 1;
- } else {
- return mid;
- }
- }
- return high;
- }
-
- // binary search against first term in block range
- // to find term's block
- long binarySearchBlock(BytesRef text, long low, long high) throws IOException {
- while (low <= high) {
- long mid = (low + high) >>> 1;
- input.seek(addresses.get(mid));
- term.length = input.readVInt();
- input.readBytes(term.bytes, 0, term.length);
- int cmp = term.compareTo(text);
-
- if (cmp < 0) {
- low = mid + 1;
- } else if (cmp > 0) {
- high = mid - 1;
- } else {
- return mid;
- }
- }
- return high;
- }
-
- @Override
- public SeekStatus seekCeil(BytesRef text) throws IOException {
- // locate block: narrow to block range with index, then search blocks
- final long block;
- long indexPos = binarySearchIndex(text);
- if (indexPos < 0) {
- block = 0;
- } else {
- long low = indexPos << BLOCK_INTERVAL_SHIFT;
- long high = Math.min(numIndexValues - 1, low + BLOCK_INTERVAL_MASK);
- block = Math.max(low, binarySearchBlock(text, low, high));
- }
-
- // position before block, then scan to term.
- input.seek(addresses.get(block));
- currentOrd = (block << INTERVAL_SHIFT) - 1;
-
- while (next() != null) {
- int cmp = term.compareTo(text);
- if (cmp == 0) {
- return SeekStatus.FOUND;
- } else if (cmp > 0) {
- return SeekStatus.NOT_FOUND;
- }
- }
- return SeekStatus.END;
- }
-
- @Override
- public void seekExact(long ord) throws IOException {
- long block = ord >>> INTERVAL_SHIFT;
- if (block != currentOrd >>> INTERVAL_SHIFT) {
- // switch to different block
- input.seek(addresses.get(block));
- readHeader();
- }
-
- currentOrd = ord;
-
- int offset = (int) (ord & INTERVAL_MASK);
- if (offset == 0) {
- readFirstTerm();
- } else {
- input.seek(currentBlockStart + offsets[offset-1]);
- readTerm(offset);
- }
- }
-
- @Override
- public BytesRef term() throws IOException {
- return term;
- }
-
- @Override
- public long ord() throws IOException {
- return currentOrd;
- }
-
- @Override
- public int docFreq() throws IOException {
- throw new UnsupportedOperationException();
- }
-
- @Override
- public long totalTermFreq() throws IOException {
- return -1;
- }
-
- @Override
- public PostingsEnum postings(PostingsEnum reuse, int flags) throws IOException {
- throw new UnsupportedOperationException();
- }
-
- }
- }
-}
http://git-wip-us.apache.org/repos/asf/lucene-solr/blob/189f2b3f/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/package-info.java
----------------------------------------------------------------------
diff --git a/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/package-info.java b/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/package-info.java
deleted file mode 100644
index 2c19222..0000000
--- a/lucene/backward-codecs/src/java/org/apache/lucene/codecs/lucene54/package-info.java
+++ /dev/null
@@ -1,403 +0,0 @@
-/*
- * 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.
- */
-
-/**
- * Lucene 5.4 file format.
- *
- * <h1>Apache Lucene - Index File Formats</h1>
- * <div>
- * <ul>
- * <li><a href="#Introduction">Introduction</a></li>
- * <li><a href="#Definitions">Definitions</a>
- * <ul>
- * <li><a href="#Inverted_Indexing">Inverted Indexing</a></li>
- * <li><a href="#Types_of_Fields">Types of Fields</a></li>
- * <li><a href="#Segments">Segments</a></li>
- * <li><a href="#Document_Numbers">Document Numbers</a></li>
- * </ul>
- * </li>
- * <li><a href="#Overview">Index Structure Overview</a></li>
- * <li><a href="#File_Naming">File Naming</a></li>
- * <li><a href="#file-names">Summary of File Extensions</a>
- * <ul>
- * <li><a href="#Lock_File">Lock File</a></li>
- * <li><a href="#History">History</a></li>
- * <li><a href="#Limitations">Limitations</a></li>
- * </ul>
- * </li>
- * </ul>
- * </div>
- * <a name="Introduction"></a>
- * <h2>Introduction</h2>
- * <div>
- * <p>This document defines the index file formats used in this version of Lucene.
- * If you are using a different version of Lucene, please consult the copy of
- * <code>docs/</code> that was distributed with
- * the version you are using.</p>
- * <p>Apache Lucene is written in Java, but several efforts are underway to write
- * <a href="http://wiki.apache.org/lucene-java/LuceneImplementations">versions of
- * Lucene in other programming languages</a>. If these versions are to remain
- * compatible with Apache Lucene, then a language-independent definition of the
- * Lucene index format is required. This document thus attempts to provide a
- * complete and independent definition of the Apache Lucene file formats.</p>
- * <p>As Lucene evolves, this document should evolve. Versions of Lucene in
- * different programming languages should endeavor to agree on file formats, and
- * generate new versions of this document.</p>
- * </div>
- * <a name="Definitions"></a>
- * <h2>Definitions</h2>
- * <div>
- * <p>The fundamental concepts in Lucene are index, document, field and term.</p>
- * <p>An index contains a sequence of documents.</p>
- * <ul>
- * <li>A document is a sequence of fields.</li>
- * <li>A field is a named sequence of terms.</li>
- * <li>A term is a sequence of bytes.</li>
- * </ul>
- * <p>The same sequence of bytes in two different fields is considered a different
- * term. Thus terms are represented as a pair: the string naming the field, and the
- * bytes within the field.</p>
- * <a name="Inverted_Indexing"></a>
- * <h3>Inverted Indexing</h3>
- * <p>The index stores statistics about terms in order to make term-based search
- * more efficient. Lucene's index falls into the family of indexes known as an
- * <i>inverted index.</i> This is because it can list, for a term, the documents
- * that contain it. This is the inverse of the natural relationship, in which
- * documents list terms.</p>
- * <a name="Types_of_Fields"></a>
- * <h3>Types of Fields</h3>
- * <p>In Lucene, fields may be <i>stored</i>, in which case their text is stored
- * in the index literally, in a non-inverted manner. Fields that are inverted are
- * called <i>indexed</i>. A field may be both stored and indexed.</p>
- * <p>The text of a field may be <i>tokenized</i> into terms to be indexed, or the
- * text of a field may be used literally as a term to be indexed. Most fields are
- * tokenized, but sometimes it is useful for certain identifier fields to be
- * indexed literally.</p>
- * <p>See the {@link org.apache.lucene.document.Field Field}
- * java docs for more information on Fields.</p>
- * <a name="Segments"></a>
- * <h3>Segments</h3>
- * <p>Lucene indexes may be composed of multiple sub-indexes, or <i>segments</i>.
- * Each segment is a fully independent index, which could be searched separately.
- * Indexes evolve by:</p>
- * <ol>
- * <li>Creating new segments for newly added documents.</li>
- * <li>Merging existing segments.</li>
- * </ol>
- * <p>Searches may involve multiple segments and/or multiple indexes, each index
- * potentially composed of a set of segments.</p>
- * <a name="Document_Numbers"></a>
- * <h3>Document Numbers</h3>
- * <p>Internally, Lucene refers to documents by an integer <i>document number</i>.
- * The first document added to an index is numbered zero, and each subsequent
- * document added gets a number one greater than the previous.</p>
- * <p>Note that a document's number may change, so caution should be taken when
- * storing these numbers outside of Lucene. In particular, numbers may change in
- * the following situations:</p>
- * <ul>
- * <li>
- * <p>The numbers stored in each segment are unique only within the segment, and
- * must be converted before they can be used in a larger context. The standard
- * technique is to allocate each segment a range of values, based on the range of
- * numbers used in that segment. To convert a document number from a segment to an
- * external value, the segment's <i>base</i> document number is added. To convert
- * an external value back to a segment-specific value, the segment is identified
- * by the range that the external value is in, and the segment's base value is
- * subtracted. For example two five document segments might be combined, so that
- * the first segment has a base value of zero, and the second of five. Document
- * three from the second segment would have an external value of eight.</p>
- * </li>
- * <li>
- * <p>When documents are deleted, gaps are created in the numbering. These are
- * eventually removed as the index evolves through merging. Deleted documents are
- * dropped when segments are merged. A freshly-merged segment thus has no gaps in
- * its numbering.</p>
- * </li>
- * </ul>
- * </div>
- * <a name="Overview"></a>
- * <h2>Index Structure Overview</h2>
- * <div>
- * <p>Each segment index maintains the following:</p>
- * <ul>
- * <li>
- * {@link org.apache.lucene.codecs.lucene62.Lucene62SegmentInfoFormat Segment info}.
- * This contains metadata about a segment, such as the number of documents,
- * what files it uses,
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50FieldInfosFormat Field names}.
- * This contains the set of field names used in the index.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50StoredFieldsFormat Stored Field values}.
- * This contains, for each document, a list of attribute-value pairs, where the attributes
- * are field names. These are used to store auxiliary information about the document, such as
- * its title, url, or an identifier to access a database. The set of stored fields are what is
- * returned for each hit when searching. This is keyed by document number.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Term dictionary}.
- * A dictionary containing all of the terms used in all of the
- * indexed fields of all of the documents. The dictionary also contains the number
- * of documents which contain the term, and pointers to the term's frequency and
- * proximity data.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Term Frequency data}.
- * For each term in the dictionary, the numbers of all the
- * documents that contain that term, and the frequency of the term in that
- * document, unless frequencies are omitted (IndexOptions.DOCS_ONLY)
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Term Proximity data}.
- * For each term in the dictionary, the positions that the
- * term occurs in each document. Note that this will not exist if all fields in
- * all documents omit position data.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene53.Lucene53NormsFormat Normalization factors}.
- * For each field in each document, a value is stored
- * that is multiplied into the score for hits on that field.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50TermVectorsFormat Term Vectors}.
- * For each field in each document, the term vector (sometimes
- * called document vector) may be stored. A term vector consists of term text and
- * term frequency. To add Term Vectors to your index see the
- * {@link org.apache.lucene.document.Field Field} constructors
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene54.Lucene54DocValuesFormat Per-document values}.
- * Like stored values, these are also keyed by document
- * number, but are generally intended to be loaded into main memory for fast
- * access. Whereas stored values are generally intended for summary results from
- * searches, per-document values are useful for things like scoring factors.
- * </li>
- * <li>
- * {@link org.apache.lucene.codecs.lucene50.Lucene50LiveDocsFormat Live documents}.
- * An optional file indicating which documents are live.
- * </li>
- * </ul>
- * <p>Details on each of these are provided in their linked pages.</p>
- * </div>
- * <a name="File_Naming"></a>
- * <h2>File Naming</h2>
- * <div>
- * <p>All files belonging to a segment have the same name with varying extensions.
- * The extensions correspond to the different file formats described below. When
- * using the Compound File format (default in 1.4 and greater) these files (except
- * for the Segment info file, the Lock file, and Deleted documents file) are collapsed
- * into a single .cfs file (see below for details)</p>
- * <p>Typically, all segments in an index are stored in a single directory,
- * although this is not required.</p>
- * <p>As of version 2.1 (lock-less commits), file names are never re-used.
- * That is, when any file is saved
- * to the Directory it is given a never before used filename. This is achieved
- * using a simple generations approach. For example, the first segments file is
- * segments_1, then segments_2, etc. The generation is a sequential long integer
- * represented in alpha-numeric (base 36) form.</p>
- * </div>
- * <a name="file-names"></a>
- * <h2>Summary of File Extensions</h2>
- * <div>
- * <p>The following table summarizes the names and extensions of the files in
- * Lucene:</p>
- * <table cellspacing="1" cellpadding="4" summary="lucene filenames by extension">
- * <tr>
- * <th>Name</th>
- * <th>Extension</th>
- * <th>Brief Description</th>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.index.SegmentInfos Segments File}</td>
- * <td>segments_N</td>
- * <td>Stores information about a commit point</td>
- * </tr>
- * <tr>
- * <td><a href="#Lock_File">Lock File</a></td>
- * <td>write.lock</td>
- * <td>The Write lock prevents multiple IndexWriters from writing to the same
- * file.</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene62.Lucene62SegmentInfoFormat Segment Info}</td>
- * <td>.si</td>
- * <td>Stores metadata about a segment</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50CompoundFormat Compound File}</td>
- * <td>.cfs, .cfe</td>
- * <td>An optional "virtual" file consisting of all the other index files for
- * systems that frequently run out of file handles.</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50FieldInfosFormat Fields}</td>
- * <td>.fnm</td>
- * <td>Stores information about the fields</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50StoredFieldsFormat Field Index}</td>
- * <td>.fdx</td>
- * <td>Contains pointers to field data</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50StoredFieldsFormat Field Data}</td>
- * <td>.fdt</td>
- * <td>The stored fields for documents</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Term Dictionary}</td>
- * <td>.tim</td>
- * <td>The term dictionary, stores term info</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Term Index}</td>
- * <td>.tip</td>
- * <td>The index into the Term Dictionary</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Frequencies}</td>
- * <td>.doc</td>
- * <td>Contains the list of docs which contain each term along with frequency</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Positions}</td>
- * <td>.pos</td>
- * <td>Stores position information about where a term occurs in the index</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50PostingsFormat Payloads}</td>
- * <td>.pay</td>
- * <td>Stores additional per-position metadata information such as character offsets and user payloads</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene53.Lucene53NormsFormat Norms}</td>
- * <td>.nvd, .nvm</td>
- * <td>Encodes length and boost factors for docs and fields</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene54.Lucene54DocValuesFormat Per-Document Values}</td>
- * <td>.dvd, .dvm</td>
- * <td>Encodes additional scoring factors or other per-document information.</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50TermVectorsFormat Term Vector Index}</td>
- * <td>.tvx</td>
- * <td>Stores offset into the document data file</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50TermVectorsFormat Term Vector Documents}</td>
- * <td>.tvd</td>
- * <td>Contains information about each document that has term vectors</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50TermVectorsFormat Term Vector Fields}</td>
- * <td>.tvf</td>
- * <td>The field level info about term vectors</td>
- * </tr>
- * <tr>
- * <td>{@link org.apache.lucene.codecs.lucene50.Lucene50LiveDocsFormat Live Documents}</td>
- * <td>.liv</td>
- * <td>Info about what files are live</td>
- * </tr>
- * </table>
- * </div>
- * <a name="Lock_File"></a>
- * <h2>Lock File</h2>
- * The write lock, which is stored in the index directory by default, is named
- * "write.lock". If the lock directory is different from the index directory then
- * the write lock will be named "XXXX-write.lock" where XXXX is a unique prefix
- * derived from the full path to the index directory. When this file is present, a
- * writer is currently modifying the index (adding or removing documents). This
- * lock file ensures that only one writer is modifying the index at a time.
- * <a name="History"></a>
- * <h2>History</h2>
- * <p>Compatibility notes are provided in this document, describing how file
- * formats have changed from prior versions:</p>
- * <ul>
- * <li>In version 2.1, the file format was changed to allow lock-less commits (ie,
- * no more commit lock). The change is fully backwards compatible: you can open a
- * pre-2.1 index for searching or adding/deleting of docs. When the new segments
- * file is saved (committed), it will be written in the new file format (meaning
- * no specific "upgrade" process is needed). But note that once a commit has
- * occurred, pre-2.1 Lucene will not be able to read the index.</li>
- * <li>In version 2.3, the file format was changed to allow segments to share a
- * single set of doc store (vectors & stored fields) files. This allows for
- * faster indexing in certain cases. The change is fully backwards compatible (in
- * the same way as the lock-less commits change in 2.1).</li>
- * <li>In version 2.4, Strings are now written as true UTF-8 byte sequence, not
- * Java's modified UTF-8. See <a href="http://issues.apache.org/jira/browse/LUCENE-510">
- * LUCENE-510</a> for details.</li>
- * <li>In version 2.9, an optional opaque Map<String,String> CommitUserData
- * may be passed to IndexWriter's commit methods (and later retrieved), which is
- * recorded in the segments_N file. See <a href="http://issues.apache.org/jira/browse/LUCENE-1382">
- * LUCENE-1382</a> for details. Also,
- * diagnostics were added to each segment written recording details about why it
- * was written (due to flush, merge; which OS/JRE was used; etc.). See issue
- * <a href="http://issues.apache.org/jira/browse/LUCENE-1654">LUCENE-1654</a> for details.</li>
- * <li>In version 3.0, compressed fields are no longer written to the index (they
- * can still be read, but on merge the new segment will write them, uncompressed).
- * See issue <a href="http://issues.apache.org/jira/browse/LUCENE-1960">LUCENE-1960</a>
- * for details.</li>
- * <li>In version 3.1, segments records the code version that created them. See
- * <a href="http://issues.apache.org/jira/browse/LUCENE-2720">LUCENE-2720</a> for details.
- * Additionally segments track explicitly whether or not they have term vectors.
- * See <a href="http://issues.apache.org/jira/browse/LUCENE-2811">LUCENE-2811</a>
- * for details.</li>
- * <li>In version 3.2, numeric fields are written as natively to stored fields
- * file, previously they were stored in text format only.</li>
- * <li>In version 3.4, fields can omit position data while still indexing term
- * frequencies.</li>
- * <li>In version 4.0, the format of the inverted index became extensible via
- * the {@link org.apache.lucene.codecs.Codec Codec} api. Fast per-document storage
- * ({@code DocValues}) was introduced. Normalization factors need no longer be a
- * single byte, they can be any {@link org.apache.lucene.index.NumericDocValues NumericDocValues}.
- * Terms need not be unicode strings, they can be any byte sequence. Term offsets
- * can optionally be indexed into the postings lists. Payloads can be stored in the
- * term vectors.</li>
- * <li>In version 4.1, the format of the postings list changed to use either
- * of FOR compression or variable-byte encoding, depending upon the frequency
- * of the term. Terms appearing only once were changed to inline directly into
- * the term dictionary. Stored fields are compressed by default. </li>
- * <li>In version 4.2, term vectors are compressed by default. DocValues has
- * a new multi-valued type (SortedSet), that can be used for faceting/grouping/joining
- * on multi-valued fields.</li>
- * <li>In version 4.5, DocValues were extended to explicitly represent missing values.</li>
- * <li>In version 4.6, FieldInfos were extended to support per-field DocValues generation, to
- * allow updating NumericDocValues fields.</li>
- * <li>In version 4.8, checksum footers were added to the end of each index file
- * for improved data integrity. Specifically, the last 8 bytes of every index file
- * contain the zlib-crc32 checksum of the file.</li>
- * <li>In version 4.9, DocValues has a new multi-valued numeric type (SortedNumeric)
- * that is suitable for faceting/sorting/analytics.
- * <li>In version 5.4, DocValues have been improved to store more information on disk:
- * addresses for binary fields and ord indexes for multi-valued fields.
- * </li>
- * </ul>
- * <a name="Limitations"></a>
- * <h2>Limitations</h2>
- * <div>
- * <p>Lucene uses a Java <code>int</code> to refer to
- * document numbers, and the index file format uses an <code>Int32</code>
- * on-disk to store document numbers. This is a limitation
- * of both the index file format and the current implementation. Eventually these
- * should be replaced with either <code>UInt64</code> values, or
- * better yet, {@link org.apache.lucene.store.DataOutput#writeVInt VInt} values which have no limit.</p>
- * </div>
- */
-package org.apache.lucene.codecs.lucene54;
http://git-wip-us.apache.org/repos/asf/lucene-solr/blob/189f2b3f/lucene/backward-codecs/src/test/org/apache/lucene/codecs/lucene50/Lucene50RWSegmentInfoFormat.java
----------------------------------------------------------------------
diff --git a/lucene/backward-codecs/src/test/org/apache/lucene/codecs/lucene50/Lucene50RWSegmentInfoFormat.java b/lucene/backward-codecs/src/test/org/apache/lucene/codecs/lucene50/Lucene50RWSegmentInfoFormat.java
deleted file mode 100644
index 4bed311..0000000
--- a/lucene/backward-codecs/src/test/org/apache/lucene/codecs/lucene50/Lucene50RWSegmentInfoFormat.java
+++ /dev/null
@@ -1,125 +0,0 @@
-/*
- * 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.codecs.lucene50;
-
-
-import java.io.IOException;
-import java.util.Map;
-import java.util.Set;
-
-import org.apache.lucene.codecs.CodecUtil;
-import org.apache.lucene.index.CorruptIndexException;
-import org.apache.lucene.index.IndexFileNames;
-import org.apache.lucene.index.SegmentInfo; // javadocs
-import org.apache.lucene.store.ChecksumIndexInput;
-import org.apache.lucene.store.Directory;
-import org.apache.lucene.store.IOContext;
-import org.apache.lucene.store.IndexOutput;
-import org.apache.lucene.util.Version;
-
-/**
- * Read-write version of 5.0 SegmentInfoFormat for testing
- * @deprecated for test purposes only
- */
-@Deprecated
-public class Lucene50RWSegmentInfoFormat extends Lucene50SegmentInfoFormat {
-
- /** Sole constructor. */
- public Lucene50RWSegmentInfoFormat() {
- }
-
- @Override
- public SegmentInfo read(Directory dir, String segment, byte[] segmentID, IOContext context) throws IOException {
- final String fileName = IndexFileNames.segmentFileName(segment, "", Lucene50SegmentInfoFormat.SI_EXTENSION);
- try (ChecksumIndexInput input = dir.openChecksumInput(fileName, context)) {
- Throwable priorE = null;
- SegmentInfo si = null;
- try {
- CodecUtil.checkIndexHeader(input, Lucene50SegmentInfoFormat.CODEC_NAME,
- Lucene50SegmentInfoFormat.VERSION_START,
- Lucene50SegmentInfoFormat.VERSION_CURRENT,
- segmentID, "");
- final Version version = Version.fromBits(input.readInt(), input.readInt(), input.readInt());
-
- final int docCount = input.readInt();
- if (docCount < 0) {
- throw new CorruptIndexException("invalid docCount: " + docCount, input);
- }
- final boolean isCompoundFile = input.readByte() == SegmentInfo.YES;
-
- final Map<String,String> diagnostics = input.readMapOfStrings();
- final Set<String> files = input.readSetOfStrings();
- final Map<String,String> attributes = input.readMapOfStrings();
-
- si = new SegmentInfo(dir, version, null, segment, docCount, isCompoundFile, null, diagnostics, segmentID, attributes, null);
- si.setFiles(files);
- } catch (Throwable exception) {
- priorE = exception;
- } finally {
- CodecUtil.checkFooter(input, priorE);
- }
- return si;
- }
- }
-
- @Override
- public void write(Directory dir, SegmentInfo si, IOContext ioContext) throws IOException {
- final String fileName = IndexFileNames.segmentFileName(si.name, "", Lucene50SegmentInfoFormat.SI_EXTENSION);
-
- assert si.getIndexSort() == null;
-
- try (IndexOutput output = dir.createOutput(fileName, ioContext)) {
- // Only add the file once we've successfully created it, else IFD assert can trip:
- si.addFile(fileName);
- CodecUtil.writeIndexHeader(output,
- Lucene50SegmentInfoFormat.CODEC_NAME,
- Lucene50SegmentInfoFormat.VERSION_CURRENT,
- si.getId(),
- "");
- Version version = si.getVersion();
- if (version.major < 5) {
- throw new IllegalArgumentException("invalid major version: should be >= 5 but got: " + version.major + " segment=" + si);
- }
- // Write the Lucene version that created this segment, since 3.1
- output.writeInt(version.major);
- output.writeInt(version.minor);
- output.writeInt(version.bugfix);
- assert version.prerelease == 0;
- output.writeInt(si.maxDoc());
-
- output.writeByte((byte) (si.getUseCompoundFile() ? SegmentInfo.YES : SegmentInfo.NO));
- output.writeMapOfStrings(si.getDiagnostics());
- Set<String> files = si.files();
- for (String file : files) {
- if (!IndexFileNames.parseSegmentName(file).equals(si.name)) {
- throw new IllegalArgumentException("invalid files: expected segment=" + si.name + ", got=" + files);
- }
- }
- output.writeSetOfStrings(files);
- output.writeMapOfStrings(si.getAttributes());
-
- CodecUtil.writeFooter(output);
- }
- }
-
- /** File extension used to store {@link SegmentInfo}. */
- public final static String SI_EXTENSION = "si";
- static final String CODEC_NAME = "Lucene50SegmentInfo";
- static final int VERSION_SAFE_MAPS = 1;
- static final int VERSION_START = VERSION_SAFE_MAPS;
- static final int VERSION_CURRENT = VERSION_SAFE_MAPS;
-}