@Override public long getGlobalOrd(long segmentOrd) { return segmentOrd + segmentOrdToGlobalOrdLookup.get((int) segmentOrd); }
public OrdinalMappingSource[] build(long maxOrd) { // If we find out that there are less then predefined number of ordinals, it is better to put // the the // segment ordinal to global ordinal mapping in a packed ints, since the amount values are // small and // will most likely fit in the CPU caches and MonotonicAppendingLongBuffer's compression will // just be // unnecessary. if (maxOrd <= threshold) { // Rebuilding from MonotonicAppendingLongBuffer to PackedInts.Mutable is fast PackedInts.Mutable[] newSegmentOrdToGlobalOrdDeltas = new PackedInts.Mutable[numSegments]; for (int i = 0; i < segmentOrdToGlobalOrdDeltas.length; i++) { newSegmentOrdToGlobalOrdDeltas[i] = PackedInts.getMutable( (int) segmentOrdToGlobalOrdDeltas[i].size(), PackedInts.bitsRequired(maxOrd), acceptableOverheadRatio); } for (int readerIndex = 0; readerIndex < segmentOrdToGlobalOrdDeltas.length; readerIndex++) { MonotonicAppendingLongBuffer segmentOrdToGlobalOrdDelta = segmentOrdToGlobalOrdDeltas[readerIndex]; for (long ordIndex = 0; ordIndex < segmentOrdToGlobalOrdDelta.size(); ordIndex++) { long ordDelta = segmentOrdToGlobalOrdDelta.get(ordIndex); newSegmentOrdToGlobalOrdDeltas[readerIndex].set((int) ordIndex, ordDelta); } } PackedIntOrdinalMappingSource[] sources = new PackedIntOrdinalMappingSource[numSegments]; for (int i = 0; i < newSegmentOrdToGlobalOrdDeltas.length; i++) { PackedInts.Reader segmentOrdToGlobalOrdDelta = newSegmentOrdToGlobalOrdDeltas[i]; if (segmentOrdToGlobalOrdDelta.size() == maxOrd) { // This means that a segment contains all the value and in that case segment ordinals // can be used as global ordinals. This will save an extra lookup per hit. sources[i] = null; } else { long ramUsed = segmentOrdToGlobalOrdDelta.ramBytesUsed(); sources[i] = new PackedIntOrdinalMappingSource(segmentOrdToGlobalOrdDelta, ramUsed, maxOrd); memorySizeInBytesCounter += ramUsed; } } return sources; } else { OrdinalMappingSource[] sources = new OrdinalMappingSource[segmentOrdToGlobalOrdDeltas.length]; for (int i = 0; i < segmentOrdToGlobalOrdDeltas.length; i++) { MonotonicAppendingLongBuffer segmentOrdToGlobalOrdLookup = segmentOrdToGlobalOrdDeltas[i]; if (segmentOrdToGlobalOrdLookup.size() == maxOrd) { // idem as above sources[i] = null; } else { segmentOrdToGlobalOrdLookup.freeze(); long ramUsed = segmentOrdToGlobalOrdLookup.ramBytesUsed(); sources[i] = new CompressedOrdinalMappingSource(segmentOrdToGlobalOrdLookup, ramUsed, maxOrd); memorySizeInBytesCounter += ramUsed; } } return sources; } }
@Override protected int position(int docID) throws IOException { data.seek(baseOffset + index.get(docID) * size); return size; }
private NumericDocValues loadNumeric(FieldInfo field) throws IOException { NumericEntry entry = numerics.get(field.name); data.seek(entry.offset); switch (entry.format) { case TABLE_COMPRESSED: int size = data.readVInt(); if (size > 256) { throw new CorruptIndexException( "TABLE_COMPRESSED cannot have more than 256 distinct values, got=" + size, data); } final long decode[] = new long[size]; for (int i = 0; i < decode.length; i++) { decode[i] = data.readLong(); } final int formatID = data.readVInt(); final int bitsPerValue = data.readVInt(); final PackedInts.Reader ordsReader = PackedInts.getReaderNoHeader( data, PackedInts.Format.byId(formatID), entry.packedIntsVersion, maxDoc, bitsPerValue); if (!merging) { ramBytesUsed.addAndGet(RamUsageEstimator.sizeOf(decode) + ordsReader.ramBytesUsed()); numericInfo.put(field.name, ordsReader); } return new NumericDocValues() { @Override public long get(int docID) { return decode[(int) ordsReader.get(docID)]; } }; case DELTA_COMPRESSED: final int blockSize = data.readVInt(); final BlockPackedReader reader = new BlockPackedReader(data, entry.packedIntsVersion, blockSize, maxDoc, false); if (!merging) { ramBytesUsed.addAndGet(reader.ramBytesUsed()); numericInfo.put(field.name, reader); } return reader; case UNCOMPRESSED: final byte bytes[] = new byte[maxDoc]; data.readBytes(bytes, 0, bytes.length); if (!merging) { ramBytesUsed.addAndGet(RamUsageEstimator.sizeOf(bytes)); numericInfo.put(field.name, Accountables.namedAccountable("byte array", maxDoc)); } return new NumericDocValues() { @Override public long get(int docID) { return bytes[docID]; } }; case GCD_COMPRESSED: final long min = data.readLong(); final long mult = data.readLong(); final int quotientBlockSize = data.readVInt(); final BlockPackedReader quotientReader = new BlockPackedReader(data, entry.packedIntsVersion, quotientBlockSize, maxDoc, false); if (!merging) { ramBytesUsed.addAndGet(quotientReader.ramBytesUsed()); numericInfo.put(field.name, quotientReader); } return new NumericDocValues() { @Override public long get(int docID) { return min + mult * quotientReader.get(docID); } }; default: throw new AssertionError(); } }
@Override public BytesRef getBytes(int docID, BytesRef bytesRef) { return data.fillSlice(bytesRef, addresses.get(docID) * size, size); }