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/*
* COPIED FROM APACHE LUCENE 4.7.2
*
* Git URL: [email protected]:apache/lucene.git, tag: releases/lucene-solr/4.7.2, path: lucene/core/src/java
*
* (see https://issues.apache.org/jira/browse/OAK-10786 for details)
*/
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.List;
import org.apache.lucene.index.MultiTermsEnum.TermsEnumIndex;
import org.apache.lucene.index.MultiTermsEnum.TermsEnumWithSlice;
import org.apache.lucene.util.Bits;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.packed.AppendingPackedLongBuffer;
import org.apache.lucene.util.packed.MonotonicAppendingLongBuffer;
import org.apache.lucene.util.packed.PackedInts;
/**
* A wrapper for CompositeIndexReader providing access to DocValues.
*
* NOTE: for multi readers, you'll get better
* performance by gathering the sub readers using
* {@link IndexReader#getContext()} to get the
* atomic leaves and then operate per-AtomicReader,
* instead of using this class.
*
*
NOTE: This is very costly.
*
* @lucene.experimental
* @lucene.internal
*/
public class MultiDocValues {
/** No instantiation */
private MultiDocValues() {}
/** Returns a NumericDocValues for a reader's norms (potentially merging on-the-fly).
*
* This is a slow way to access normalization values. Instead, access them per-segment
* with {@link AtomicReader#getNormValues(String)}
*
*/
public static NumericDocValues getNormValues(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getNormValues(field);
}
FieldInfo fi = MultiFields.getMergedFieldInfos(r).fieldInfo(field);
if (fi == null || fi.hasNorms() == false) {
return null;
}
boolean anyReal = false;
final NumericDocValues[] values = new NumericDocValues[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
NumericDocValues v = context.reader().getNormValues(field);
if (v == null) {
v = NumericDocValues.EMPTY;
} else {
anyReal = true;
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
assert anyReal;
return new NumericDocValues() {
@Override
public long get(int docID) {
int subIndex = ReaderUtil.subIndex(docID, starts);
return values[subIndex].get(docID - starts[subIndex]);
}
};
}
/** Returns a NumericDocValues for a reader's docvalues (potentially merging on-the-fly)
*
* This is a slow way to access numeric values. Instead, access them per-segment
* with {@link AtomicReader#getNumericDocValues(String)}
*
* */
public static NumericDocValues getNumericValues(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getNumericDocValues(field);
}
boolean anyReal = false;
final NumericDocValues[] values = new NumericDocValues[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
NumericDocValues v = context.reader().getNumericDocValues(field);
if (v == null) {
v = NumericDocValues.EMPTY;
} else {
anyReal = true;
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
if (!anyReal) {
return null;
} else {
return new NumericDocValues() {
@Override
public long get(int docID) {
int subIndex = ReaderUtil.subIndex(docID, starts);
return values[subIndex].get(docID - starts[subIndex]);
}
};
}
}
/** Returns a Bits for a reader's docsWithField (potentially merging on-the-fly)
*
* This is a slow way to access this bitset. Instead, access them per-segment
* with {@link AtomicReader#getDocsWithField(String)}
*
* */
public static Bits getDocsWithField(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getDocsWithField(field);
}
boolean anyReal = false;
boolean anyMissing = false;
final Bits[] values = new Bits[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
Bits v = context.reader().getDocsWithField(field);
if (v == null) {
v = new Bits.MatchNoBits(context.reader().maxDoc());
anyMissing = true;
} else {
anyReal = true;
if (v instanceof Bits.MatchAllBits == false) {
anyMissing = true;
}
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
if (!anyReal) {
return null;
} else if (!anyMissing) {
return new Bits.MatchAllBits(r.maxDoc());
} else {
return new MultiBits(values, starts, false);
}
}
/** Returns a BinaryDocValues for a reader's docvalues (potentially merging on-the-fly)
*
* This is a slow way to access binary values. Instead, access them per-segment
* with {@link AtomicReader#getBinaryDocValues(String)}
*
*/
public static BinaryDocValues getBinaryValues(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getBinaryDocValues(field);
}
boolean anyReal = false;
final BinaryDocValues[] values = new BinaryDocValues[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
BinaryDocValues v = context.reader().getBinaryDocValues(field);
if (v == null) {
v = BinaryDocValues.EMPTY;
} else {
anyReal = true;
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
if (!anyReal) {
return null;
} else {
return new BinaryDocValues() {
@Override
public void get(int docID, BytesRef result) {
int subIndex = ReaderUtil.subIndex(docID, starts);
values[subIndex].get(docID - starts[subIndex], result);
}
};
}
}
/** Returns a SortedDocValues for a reader's docvalues (potentially doing extremely slow things).
*
* This is an extremely slow way to access sorted values. Instead, access them per-segment
* with {@link AtomicReader#getSortedDocValues(String)}
*
*/
public static SortedDocValues getSortedValues(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getSortedDocValues(field);
}
boolean anyReal = false;
final SortedDocValues[] values = new SortedDocValues[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
SortedDocValues v = context.reader().getSortedDocValues(field);
if (v == null) {
v = SortedDocValues.EMPTY;
} else {
anyReal = true;
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
if (!anyReal) {
return null;
} else {
TermsEnum enums[] = new TermsEnum[values.length];
for (int i = 0; i < values.length; i++) {
enums[i] = values[i].termsEnum();
}
OrdinalMap mapping = new OrdinalMap(r.getCoreCacheKey(), enums);
return new MultiSortedDocValues(values, starts, mapping);
}
}
/** Returns a SortedSetDocValues for a reader's docvalues (potentially doing extremely slow things).
*
* This is an extremely slow way to access sorted values. Instead, access them per-segment
* with {@link AtomicReader#getSortedSetDocValues(String)}
*
*/
public static SortedSetDocValues getSortedSetValues(final IndexReader r, final String field) throws IOException {
final List leaves = r.leaves();
final int size = leaves.size();
if (size == 0) {
return null;
} else if (size == 1) {
return leaves.get(0).reader().getSortedSetDocValues(field);
}
boolean anyReal = false;
final SortedSetDocValues[] values = new SortedSetDocValues[size];
final int[] starts = new int[size+1];
for (int i = 0; i < size; i++) {
AtomicReaderContext context = leaves.get(i);
SortedSetDocValues v = context.reader().getSortedSetDocValues(field);
if (v == null) {
v = SortedSetDocValues.EMPTY;
} else {
anyReal = true;
}
values[i] = v;
starts[i] = context.docBase;
}
starts[size] = r.maxDoc();
if (!anyReal) {
return null;
} else {
TermsEnum enums[] = new TermsEnum[values.length];
for (int i = 0; i < values.length; i++) {
enums[i] = values[i].termsEnum();
}
OrdinalMap mapping = new OrdinalMap(r.getCoreCacheKey(), enums);
return new MultiSortedSetDocValues(values, starts, mapping);
}
}
/** maps per-segment ordinals to/from global ordinal space */
// TODO: use more efficient packed ints structures?
// TODO: pull this out? its pretty generic (maps between N ord()-enabled TermsEnums)
public static class OrdinalMap {
// cache key of whoever asked for this awful thing
final Object owner;
// globalOrd -> (globalOrd - segmentOrd) where segmentOrd is the the ordinal in the first segment that contains this term
final MonotonicAppendingLongBuffer globalOrdDeltas;
// globalOrd -> first segment container
final AppendingPackedLongBuffer firstSegments;
// for every segment, segmentOrd -> (globalOrd - segmentOrd)
final MonotonicAppendingLongBuffer ordDeltas[];
/**
* Creates an ordinal map that allows mapping ords to/from a merged
* space from subs
.
* @param owner a cache key
* @param subs TermsEnums that support {@link TermsEnum#ord()}. They need
* not be dense (e.g. can be FilteredTermsEnums}.
* @throws IOException if an I/O error occurred.
*/
public OrdinalMap(Object owner, TermsEnum subs[]) throws IOException {
// create the ordinal mappings by pulling a termsenum over each sub's
// unique terms, and walking a multitermsenum over those
this.owner = owner;
globalOrdDeltas = new MonotonicAppendingLongBuffer(PackedInts.COMPACT);
firstSegments = new AppendingPackedLongBuffer(PackedInts.COMPACT);
ordDeltas = new MonotonicAppendingLongBuffer[subs.length];
for (int i = 0; i < ordDeltas.length; i++) {
ordDeltas[i] = new MonotonicAppendingLongBuffer();
}
long segmentOrds[] = new long[subs.length];
ReaderSlice slices[] = new ReaderSlice[subs.length];
TermsEnumIndex indexes[] = new TermsEnumIndex[slices.length];
for (int i = 0; i < slices.length; i++) {
slices[i] = new ReaderSlice(0, 0, i);
indexes[i] = new TermsEnumIndex(subs[i], i);
}
MultiTermsEnum mte = new MultiTermsEnum(slices);
mte.reset(indexes);
long globalOrd = 0;
while (mte.next() != null) {
TermsEnumWithSlice matches[] = mte.getMatchArray();
for (int i = 0; i < mte.getMatchCount(); i++) {
int segmentIndex = matches[i].index;
long segmentOrd = matches[i].terms.ord();
long delta = globalOrd - segmentOrd;
// for each unique term, just mark the first segment index/delta where it occurs
if (i == 0) {
firstSegments.add(segmentIndex);
globalOrdDeltas.add(delta);
}
// for each per-segment ord, map it back to the global term.
while (segmentOrds[segmentIndex] <= segmentOrd) {
ordDeltas[segmentIndex].add(delta);
segmentOrds[segmentIndex]++;
}
}
globalOrd++;
}
firstSegments.freeze();
globalOrdDeltas.freeze();
for (int i = 0; i < ordDeltas.length; ++i) {
ordDeltas[i].freeze();
}
}
/**
* Given a segment number and segment ordinal, returns
* the corresponding global ordinal.
*/
public long getGlobalOrd(int segmentIndex, long segmentOrd) {
return segmentOrd + ordDeltas[segmentIndex].get(segmentOrd);
}
/**
* Given global ordinal, returns the ordinal of the first segment which contains
* this ordinal (the corresponding to the segment return {@link #getFirstSegmentNumber}).
*/
public long getFirstSegmentOrd(long globalOrd) {
return globalOrd - globalOrdDeltas.get(globalOrd);
}
/**
* Given a global ordinal, returns the index of the first
* segment that contains this term.
*/
public int getFirstSegmentNumber(long globalOrd) {
return (int) firstSegments.get(globalOrd);
}
/**
* Returns the total number of unique terms in global ord space.
*/
public long getValueCount() {
return globalOrdDeltas.size();
}
/**
* Returns total byte size used by this ordinal map.
*/
public long ramBytesUsed() {
long size = globalOrdDeltas.ramBytesUsed() + firstSegments.ramBytesUsed();
for (int i = 0; i < ordDeltas.length; i++) {
size += ordDeltas[i].ramBytesUsed();
}
return size;
}
}
/**
* Implements SortedDocValues over n subs, using an OrdinalMap
* @lucene.internal
*/
public static class MultiSortedDocValues extends SortedDocValues {
/** docbase for each leaf: parallel with {@link #values} */
public final int docStarts[];
/** leaf values */
public final SortedDocValues values[];
/** ordinal map mapping ords from values
to global ord space */
public final OrdinalMap mapping;
/** Creates a new MultiSortedDocValues over values
*/
MultiSortedDocValues(SortedDocValues values[], int docStarts[], OrdinalMap mapping) throws IOException {
assert values.length == mapping.ordDeltas.length;
assert docStarts.length == values.length + 1;
this.values = values;
this.docStarts = docStarts;
this.mapping = mapping;
}
@Override
public int getOrd(int docID) {
int subIndex = ReaderUtil.subIndex(docID, docStarts);
int segmentOrd = values[subIndex].getOrd(docID - docStarts[subIndex]);
return segmentOrd == -1 ? segmentOrd : (int) mapping.getGlobalOrd(subIndex, segmentOrd);
}
@Override
public void lookupOrd(int ord, BytesRef result) {
int subIndex = mapping.getFirstSegmentNumber(ord);
int segmentOrd = (int) mapping.getFirstSegmentOrd(ord);
values[subIndex].lookupOrd(segmentOrd, result);
}
@Override
public int getValueCount() {
return (int) mapping.getValueCount();
}
}
/**
* Implements MultiSortedSetDocValues over n subs, using an OrdinalMap
* @lucene.internal
*/
public static class MultiSortedSetDocValues extends SortedSetDocValues {
/** docbase for each leaf: parallel with {@link #values} */
public final int docStarts[];
/** leaf values */
public final SortedSetDocValues values[];
/** ordinal map mapping ords from values
to global ord space */
public final OrdinalMap mapping;
int currentSubIndex;
/** Creates a new MultiSortedSetDocValues over values
*/
MultiSortedSetDocValues(SortedSetDocValues values[], int docStarts[], OrdinalMap mapping) throws IOException {
assert values.length == mapping.ordDeltas.length;
assert docStarts.length == values.length + 1;
this.values = values;
this.docStarts = docStarts;
this.mapping = mapping;
}
@Override
public long nextOrd() {
long segmentOrd = values[currentSubIndex].nextOrd();
if (segmentOrd == NO_MORE_ORDS) {
return segmentOrd;
} else {
return mapping.getGlobalOrd(currentSubIndex, segmentOrd);
}
}
@Override
public void setDocument(int docID) {
currentSubIndex = ReaderUtil.subIndex(docID, docStarts);
values[currentSubIndex].setDocument(docID - docStarts[currentSubIndex]);
}
@Override
public void lookupOrd(long ord, BytesRef result) {
int subIndex = mapping.getFirstSegmentNumber(ord);
long segmentOrd = mapping.getFirstSegmentOrd(ord);
values[subIndex].lookupOrd(segmentOrd, result);
}
@Override
public long getValueCount() {
return mapping.getValueCount();
}
}
}