public LongValuesAnonymousInnerClassHelper2(Lucene45DocValuesProducer outerInstance, long[] table, PackedInts.Reader ords) { this.OuterInstance = outerInstance; this.Table = table; this.Ords = ords; }
public SortedDocValuesAnonymousInnerClassHelper(int fixedLength, int valueCount, PagedBytes.Reader bytesReader, PackedInts.Reader reader) { this.FixedLength = fixedLength; this.valueCount = valueCount; this.BytesReader = bytesReader; this.Reader = reader; }
public NumericDocValuesAnonymousInnerClassHelper(long[] decode, PackedInts.Reader ordsReader) { this.Decode = decode; this.OrdsReader = ordsReader; }
public NumericDocValuesAnonymousInnerClassHelper2(long minValue, long defaultValue, PackedInts.Reader reader) { this.MinValue = minValue; this.DefaultValue = defaultValue; this.Reader = reader; }
public BinaryDocValuesAnonymousInnerClassHelper4(PagedBytes.Reader bytesReader, PackedInts.Reader reader) { this.BytesReader = bytesReader; this.Reader = reader; }
public BinaryDocValuesAnonymousInnerClassHelper3(int fixedLength, PagedBytes.Reader bytesReader, PackedInts.Reader reader) { this.FixedLength = fixedLength; this.BytesReader = bytesReader; this.Reader = reader; }
public SortedDocValuesAnonymousInnerClassHelper2(PagedBytes.Reader bytesReader, PackedInts.Reader addressReader, PackedInts.Reader ordsReader, int valueCount) { this.BytesReader = bytesReader; this.AddressReader = addressReader; this.OrdsReader = ordsReader; this.valueCount = valueCount; }
public virtual void TestEncodeDecode() { int iterations = RandomInts.NextIntBetween(Random(), 1, 1000); float AcceptableOverheadRatio = (float)Random().NextDouble(); int[] values = new int[(iterations - 1) * Lucene41PostingsFormat.BLOCK_SIZE + ForUtil.MAX_DATA_SIZE]; for (int i = 0; i < iterations; ++i) { int bpv = Random().Next(32); if (bpv == 0) { int value = RandomInts.NextIntBetween(Random(), 0, int.MaxValue); for (int j = 0; j < Lucene41PostingsFormat.BLOCK_SIZE; ++j) { values[i * Lucene41PostingsFormat.BLOCK_SIZE + j] = value; } } else { for (int j = 0; j < Lucene41PostingsFormat.BLOCK_SIZE; ++j) { values[i * Lucene41PostingsFormat.BLOCK_SIZE + j] = RandomInts.NextIntBetween(Random(), 0, (int)PackedInts.MaxValue(bpv)); } } } Directory d = new RAMDirectory(); long endPointer; { // encode IndexOutput @out = d.CreateOutput("test.bin", IOContext.DEFAULT); ForUtil forUtil = new ForUtil(AcceptableOverheadRatio, @out); for (int i = 0; i < iterations; ++i) { forUtil.WriteBlock(Arrays.CopyOfRange(values, i * Lucene41PostingsFormat.BLOCK_SIZE, values.Length), new sbyte[Lucene41.ForUtil.MAX_ENCODED_SIZE], @out); } endPointer = @out.FilePointer; @out.Dispose(); } { // decode IndexInput @in = d.OpenInput("test.bin", IOContext.READONCE); ForUtil forUtil = new ForUtil(@in); for (int i = 0; i < iterations; ++i) { if (Random().NextBoolean()) { forUtil.SkipBlock(@in); continue; } int[] restored = new int[Lucene41.ForUtil.MAX_DATA_SIZE]; forUtil.ReadBlock(@in, new sbyte[Lucene41.ForUtil.MAX_ENCODED_SIZE], restored); Assert.AreEqual(Arrays.CopyOfRange(values, i * Lucene41PostingsFormat.BLOCK_SIZE, (i + 1) * Lucene41PostingsFormat.BLOCK_SIZE), Arrays.CopyOf(restored, Lucene41PostingsFormat.BLOCK_SIZE)); } Assert.AreEqual(endPointer, @in.FilePointer); @in.Dispose(); } }